| /* |
| * Copyright (c) 2016 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 "video/video_stream_encoder.h" |
| |
| #include <algorithm> |
| #include <cstdint> |
| #include <limits> |
| #include <memory> |
| #include <optional> |
| #include <tuple> |
| #include <utility> |
| |
| #include "absl/memory/memory.h" |
| #include "absl/types/variant.h" |
| #include "api/environment/environment.h" |
| #include "api/environment/environment_factory.h" |
| #include "api/field_trials_view.h" |
| #include "api/rtp_parameters.h" |
| #include "api/task_queue/default_task_queue_factory.h" |
| #include "api/task_queue/task_queue_base.h" |
| #include "api/task_queue/task_queue_factory.h" |
| #include "api/test/mock_fec_controller_override.h" |
| #include "api/test/mock_video_encoder.h" |
| #include "api/test/mock_video_encoder_factory.h" |
| #include "api/units/data_rate.h" |
| #include "api/units/time_delta.h" |
| #include "api/video/builtin_video_bitrate_allocator_factory.h" |
| #include "api/video/encoded_image.h" |
| #include "api/video/i420_buffer.h" |
| #include "api/video/nv12_buffer.h" |
| #include "api/video/resolution.h" |
| #include "api/video/video_adaptation_reason.h" |
| #include "api/video/video_bitrate_allocation.h" |
| #include "api/video/video_source_interface.h" |
| #include "api/video_codecs/sdp_video_format.h" |
| #include "api/video_codecs/video_codec.h" |
| #include "api/video_codecs/video_encoder.h" |
| #include "api/video_codecs/vp8_temporal_layers.h" |
| #include "api/video_codecs/vp8_temporal_layers_factory.h" |
| #include "call/adaptation/test/fake_adaptation_constraint.h" |
| #include "call/adaptation/test/fake_resource.h" |
| #include "common_video/frame_instrumentation_data.h" |
| #include "common_video/h264/h264_common.h" |
| #include "common_video/include/video_frame_buffer.h" |
| #include "media/base/video_adapter.h" |
| #include "media/engine/webrtc_video_engine.h" |
| #include "modules/video_coding/codecs/av1/libaom_av1_encoder.h" |
| #include "modules/video_coding/codecs/h264/include/h264.h" |
| #include "modules/video_coding/codecs/vp8/include/vp8.h" |
| #include "modules/video_coding/codecs/vp9/include/vp9.h" |
| #include "modules/video_coding/codecs/vp9/include/vp9_globals.h" |
| #include "modules/video_coding/codecs/vp9/svc_config.h" |
| #include "modules/video_coding/include/video_codec_interface.h" |
| #include "modules/video_coding/utility/quality_scaler.h" |
| #include "modules/video_coding/utility/simulcast_rate_allocator.h" |
| #include "modules/video_coding/utility/vp8_constants.h" |
| #include "rtc_base/event.h" |
| #include "rtc_base/experiments/encoder_info_settings.h" |
| #include "rtc_base/gunit.h" |
| #include "rtc_base/logging.h" |
| #include "rtc_base/ref_counted_object.h" |
| #include "rtc_base/synchronization/mutex.h" |
| #include "rtc_base/thread_annotations.h" |
| #include "system_wrappers/include/metrics.h" |
| #include "test/encoder_settings.h" |
| #include "test/fake_encoder.h" |
| #include "test/frame_forwarder.h" |
| #include "test/gmock.h" |
| #include "test/gtest.h" |
| #include "test/mappable_native_buffer.h" |
| #include "test/scoped_key_value_config.h" |
| #include "test/time_controller/simulated_time_controller.h" |
| #include "test/video_encoder_nullable_proxy_factory.h" |
| #include "test/video_encoder_proxy_factory.h" |
| #include "video/config/encoder_stream_factory.h" |
| #include "video/config/video_encoder_config.h" |
| #include "video/encoder_bitrate_adjuster.h" |
| #include "video/frame_cadence_adapter.h" |
| #include "video/send_statistics_proxy.h" |
| |
| namespace webrtc { |
| |
| using ::testing::_; |
| using ::testing::AllOf; |
| using ::testing::Eq; |
| using ::testing::Field; |
| using ::testing::Ge; |
| using ::testing::Gt; |
| using ::testing::Invoke; |
| using ::testing::Le; |
| using ::testing::Lt; |
| using ::testing::Matcher; |
| using ::testing::Mock; |
| using ::testing::NiceMock; |
| using ::testing::Optional; |
| using ::testing::Return; |
| using ::testing::SizeIs; |
| using ::testing::StrictMock; |
| |
| namespace { |
| const int kMinPixelsPerFrame = 320 * 180; |
| const int kQpLow = 1; |
| const int kQpHigh = 2; |
| const int kMinFramerateFps = 2; |
| const int kMinBalancedFramerateFps = 7; |
| constexpr TimeDelta kFrameTimeout = TimeDelta::Millis(100); |
| const size_t kMaxPayloadLength = 1440; |
| const DataRate kTargetBitrate = DataRate::KilobitsPerSec(1000); |
| const DataRate kLowTargetBitrate = DataRate::KilobitsPerSec(100); |
| const DataRate kStartBitrate = DataRate::KilobitsPerSec(600); |
| const DataRate kSimulcastTargetBitrate = DataRate::KilobitsPerSec(3150); |
| const int kMaxInitialFramedrop = 4; |
| const int kDefaultFramerate = 30; |
| const int64_t kFrameIntervalMs = rtc::kNumMillisecsPerSec / kDefaultFramerate; |
| const int64_t kProcessIntervalMs = 1000; |
| const VideoEncoder::ResolutionBitrateLimits |
| kEncoderBitrateLimits540p(960 * 540, 100 * 1000, 100 * 1000, 2000 * 1000); |
| const VideoEncoder::ResolutionBitrateLimits |
| kEncoderBitrateLimits720p(1280 * 720, 200 * 1000, 200 * 1000, 4000 * 1000); |
| |
| uint8_t kOptimalSps[] = {0, 0, 0, 1, H264::NaluType::kSps, |
| 0x00, 0x00, 0x03, 0x03, 0xF4, |
| 0x05, 0x03, 0xC7, 0xE0, 0x1B, |
| 0x41, 0x10, 0x8D, 0x00}; |
| |
| const uint8_t kCodedFrameVp8Qp25[] = { |
| 0x10, 0x02, 0x00, 0x9d, 0x01, 0x2a, 0x10, 0x00, 0x10, 0x00, |
| 0x02, 0x47, 0x08, 0x85, 0x85, 0x88, 0x85, 0x84, 0x88, 0x0c, |
| 0x82, 0x00, 0x0c, 0x0d, 0x60, 0x00, 0xfe, 0xfc, 0x5c, 0xd0}; |
| |
| VideoFrame CreateSimpleNV12Frame() { |
| return VideoFrame::Builder() |
| .set_video_frame_buffer(rtc::make_ref_counted<NV12Buffer>( |
| /*width=*/16, /*height=*/16)) |
| .build(); |
| } |
| |
| void PassAFrame( |
| TaskQueueBase* encoder_queue, |
| FrameCadenceAdapterInterface::Callback* video_stream_encoder_callback, |
| int64_t ntp_time_ms) { |
| encoder_queue->PostTask([video_stream_encoder_callback, ntp_time_ms] { |
| video_stream_encoder_callback->OnFrame(Timestamp::Millis(ntp_time_ms), |
| false, CreateSimpleNV12Frame()); |
| }); |
| } |
| |
| class TestBuffer : public webrtc::I420Buffer { |
| public: |
| TestBuffer(rtc::Event* event, int width, int height) |
| : I420Buffer(width, height), event_(event) {} |
| |
| private: |
| friend class RefCountedObject<TestBuffer>; |
| ~TestBuffer() override { |
| if (event_) |
| event_->Set(); |
| } |
| rtc::Event* const event_; |
| }; |
| |
| // A fake native buffer that can't be converted to I420. Upon scaling, it |
| // produces another FakeNativeBuffer. |
| class FakeNativeBuffer : public webrtc::VideoFrameBuffer { |
| public: |
| FakeNativeBuffer(rtc::Event* event, int width, int height) |
| : event_(event), width_(width), height_(height) {} |
| webrtc::VideoFrameBuffer::Type type() const override { return Type::kNative; } |
| int width() const override { return width_; } |
| int height() const override { return height_; } |
| rtc::scoped_refptr<webrtc::I420BufferInterface> ToI420() override { |
| return nullptr; |
| } |
| rtc::scoped_refptr<VideoFrameBuffer> CropAndScale( |
| int offset_x, |
| int offset_y, |
| int crop_width, |
| int crop_height, |
| int scaled_width, |
| int scaled_height) override { |
| return rtc::make_ref_counted<FakeNativeBuffer>(nullptr, scaled_width, |
| scaled_height); |
| } |
| |
| private: |
| friend class RefCountedObject<FakeNativeBuffer>; |
| ~FakeNativeBuffer() override { |
| if (event_) |
| event_->Set(); |
| } |
| rtc::Event* const event_; |
| const int width_; |
| const int height_; |
| }; |
| |
| // A fake native buffer that is backed by an NV12 buffer. |
| class FakeNV12NativeBuffer : public webrtc::VideoFrameBuffer { |
| public: |
| FakeNV12NativeBuffer(rtc::Event* event, int width, int height) |
| : nv12_buffer_(NV12Buffer::Create(width, height)), event_(event) {} |
| |
| webrtc::VideoFrameBuffer::Type type() const override { return Type::kNative; } |
| int width() const override { return nv12_buffer_->width(); } |
| int height() const override { return nv12_buffer_->height(); } |
| rtc::scoped_refptr<webrtc::I420BufferInterface> ToI420() override { |
| return nv12_buffer_->ToI420(); |
| } |
| rtc::scoped_refptr<VideoFrameBuffer> GetMappedFrameBuffer( |
| rtc::ArrayView<VideoFrameBuffer::Type> types) override { |
| if (absl::c_find(types, Type::kNV12) != types.end()) { |
| return nv12_buffer_; |
| } |
| return nullptr; |
| } |
| const NV12BufferInterface* GetNV12() const { return nv12_buffer_.get(); } |
| |
| private: |
| friend class RefCountedObject<FakeNV12NativeBuffer>; |
| ~FakeNV12NativeBuffer() override { |
| if (event_) |
| event_->Set(); |
| } |
| rtc::scoped_refptr<NV12Buffer> nv12_buffer_; |
| rtc::Event* const event_; |
| }; |
| |
| class CpuOveruseDetectorProxy : public OveruseFrameDetector { |
| public: |
| CpuOveruseDetectorProxy(const Environment& env, |
| CpuOveruseMetricsObserver* metrics_observer) |
| : OveruseFrameDetector(env, metrics_observer), |
| last_target_framerate_fps_(-1), |
| framerate_updated_event_(true /* manual_reset */, |
| false /* initially_signaled */) {} |
| virtual ~CpuOveruseDetectorProxy() {} |
| |
| void OnTargetFramerateUpdated(int framerate_fps) override { |
| MutexLock lock(&lock_); |
| last_target_framerate_fps_ = framerate_fps; |
| OveruseFrameDetector::OnTargetFramerateUpdated(framerate_fps); |
| framerate_updated_event_.Set(); |
| } |
| |
| int GetLastTargetFramerate() { |
| MutexLock lock(&lock_); |
| return last_target_framerate_fps_; |
| } |
| |
| CpuOveruseOptions GetOptions() { return options_; } |
| |
| rtc::Event* framerate_updated_event() { return &framerate_updated_event_; } |
| |
| private: |
| Mutex lock_; |
| int last_target_framerate_fps_ RTC_GUARDED_BY(lock_); |
| rtc::Event framerate_updated_event_; |
| }; |
| |
| class FakeVideoSourceRestrictionsListener |
| : public VideoSourceRestrictionsListener { |
| public: |
| FakeVideoSourceRestrictionsListener() |
| : was_restrictions_updated_(false), restrictions_updated_event_() {} |
| ~FakeVideoSourceRestrictionsListener() override { |
| RTC_DCHECK(was_restrictions_updated_); |
| } |
| |
| rtc::Event* restrictions_updated_event() { |
| return &restrictions_updated_event_; |
| } |
| |
| // VideoSourceRestrictionsListener implementation. |
| void OnVideoSourceRestrictionsUpdated( |
| VideoSourceRestrictions restrictions, |
| const VideoAdaptationCounters& adaptation_counters, |
| rtc::scoped_refptr<Resource> reason, |
| const VideoSourceRestrictions& unfiltered_restrictions) override { |
| was_restrictions_updated_ = true; |
| restrictions_updated_event_.Set(); |
| } |
| |
| private: |
| bool was_restrictions_updated_; |
| rtc::Event restrictions_updated_event_; |
| }; |
| |
| auto WantsFps(Matcher<int> fps_matcher) { |
| return Field("max_framerate_fps", &rtc::VideoSinkWants::max_framerate_fps, |
| fps_matcher); |
| } |
| |
| auto WantsMaxPixels(Matcher<int> max_pixel_matcher) { |
| return Field("max_pixel_count", &rtc::VideoSinkWants::max_pixel_count, |
| AllOf(max_pixel_matcher, Gt(0))); |
| } |
| |
| auto ResolutionMax() { |
| return AllOf( |
| WantsMaxPixels(Eq(std::numeric_limits<int>::max())), |
| Field("target_pixel_count", &rtc::VideoSinkWants::target_pixel_count, |
| Eq(std::nullopt))); |
| } |
| |
| auto FpsMax() { |
| return WantsFps(Eq(kDefaultFramerate)); |
| } |
| |
| auto FpsUnlimited() { |
| return WantsFps(Eq(std::numeric_limits<int>::max())); |
| } |
| |
| auto FpsMatchesResolutionMax(Matcher<int> fps_matcher) { |
| return AllOf(WantsFps(fps_matcher), ResolutionMax()); |
| } |
| |
| auto FpsMaxResolutionMatches(Matcher<int> pixel_matcher) { |
| return AllOf(FpsMax(), WantsMaxPixels(pixel_matcher)); |
| } |
| |
| auto FpsUnlimitedResolutionMatches(Matcher<int> pixel_matcher) { |
| return AllOf(FpsUnlimited(), WantsMaxPixels(pixel_matcher)); |
| } |
| |
| auto FpsMaxResolutionMax() { |
| return AllOf(FpsMax(), ResolutionMax()); |
| } |
| |
| auto UnlimitedSinkWants() { |
| return AllOf(FpsUnlimited(), ResolutionMax()); |
| } |
| |
| auto FpsInRangeForPixelsInBalanced(int last_frame_pixels) { |
| Matcher<int> fps_range_matcher; |
| |
| if (last_frame_pixels <= 320 * 240) { |
| fps_range_matcher = AllOf(Ge(7), Le(10)); |
| } else if (last_frame_pixels <= 480 * 360) { |
| fps_range_matcher = AllOf(Ge(10), Le(15)); |
| } else if (last_frame_pixels <= 640 * 480) { |
| fps_range_matcher = Ge(15); |
| } else { |
| fps_range_matcher = Eq(kDefaultFramerate); |
| } |
| return Field("max_framerate_fps", &rtc::VideoSinkWants::max_framerate_fps, |
| fps_range_matcher); |
| } |
| |
| auto FpsEqResolutionEqTo(const rtc::VideoSinkWants& other_wants) { |
| return AllOf(WantsFps(Eq(other_wants.max_framerate_fps)), |
| WantsMaxPixels(Eq(other_wants.max_pixel_count))); |
| } |
| |
| auto FpsMaxResolutionLt(const rtc::VideoSinkWants& other_wants) { |
| return AllOf(FpsMax(), WantsMaxPixels(Lt(other_wants.max_pixel_count))); |
| } |
| |
| auto FpsUnlimitedResolutionLt(const rtc::VideoSinkWants& other_wants) { |
| return AllOf(FpsUnlimited(), WantsMaxPixels(Lt(other_wants.max_pixel_count))); |
| } |
| |
| auto FpsMaxResolutionGt(const rtc::VideoSinkWants& other_wants) { |
| return AllOf(FpsMax(), WantsMaxPixels(Gt(other_wants.max_pixel_count))); |
| } |
| |
| auto FpsUnlimitedResolutionGt(const rtc::VideoSinkWants& other_wants) { |
| return AllOf(FpsUnlimited(), WantsMaxPixels(Gt(other_wants.max_pixel_count))); |
| } |
| |
| auto FpsLtResolutionEq(const rtc::VideoSinkWants& other_wants) { |
| return AllOf(WantsFps(Lt(other_wants.max_framerate_fps)), |
| WantsMaxPixels(Eq(other_wants.max_pixel_count))); |
| } |
| |
| auto FpsGtResolutionEq(const rtc::VideoSinkWants& other_wants) { |
| return AllOf(WantsFps(Gt(other_wants.max_framerate_fps)), |
| WantsMaxPixels(Eq(other_wants.max_pixel_count))); |
| } |
| |
| auto FpsEqResolutionLt(const rtc::VideoSinkWants& other_wants) { |
| return AllOf(WantsFps(Eq(other_wants.max_framerate_fps)), |
| WantsMaxPixels(Lt(other_wants.max_pixel_count))); |
| } |
| |
| auto FpsEqResolutionGt(const rtc::VideoSinkWants& other_wants) { |
| return AllOf(WantsFps(Eq(other_wants.max_framerate_fps)), |
| WantsMaxPixels(Gt(other_wants.max_pixel_count))); |
| } |
| |
| class VideoStreamEncoderUnderTest : public VideoStreamEncoder { |
| public: |
| VideoStreamEncoderUnderTest( |
| const Environment& env, |
| TimeController* time_controller, |
| std::unique_ptr<FrameCadenceAdapterInterface> cadence_adapter, |
| std::unique_ptr<webrtc::TaskQueueBase, webrtc::TaskQueueDeleter> |
| encoder_queue, |
| SendStatisticsProxy* stats_proxy, |
| const VideoStreamEncoderSettings& settings, |
| VideoStreamEncoder::BitrateAllocationCallbackType |
| allocation_callback_type, |
| int num_cores) |
| : VideoStreamEncoder( |
| env, |
| num_cores, |
| stats_proxy, |
| settings, |
| std::unique_ptr<OveruseFrameDetector>( |
| overuse_detector_proxy_ = |
| new CpuOveruseDetectorProxy(env, stats_proxy)), |
| std::move(cadence_adapter), |
| std::move(encoder_queue), |
| allocation_callback_type), |
| time_controller_(time_controller), |
| fake_cpu_resource_(FakeResource::Create("FakeResource[CPU]")), |
| fake_quality_resource_(FakeResource::Create("FakeResource[QP]")), |
| fake_adaptation_constraint_("FakeAdaptationConstraint") { |
| InjectAdaptationResource(fake_quality_resource_, |
| VideoAdaptationReason::kQuality); |
| InjectAdaptationResource(fake_cpu_resource_, VideoAdaptationReason::kCpu); |
| InjectAdaptationConstraint(&fake_adaptation_constraint_); |
| } |
| |
| void SetSourceAndWaitForRestrictionsUpdated( |
| rtc::VideoSourceInterface<VideoFrame>* source, |
| const DegradationPreference& degradation_preference) { |
| FakeVideoSourceRestrictionsListener listener; |
| AddRestrictionsListenerForTesting(&listener); |
| SetSource(source, degradation_preference); |
| listener.restrictions_updated_event()->Wait(TimeDelta::Seconds(5)); |
| RemoveRestrictionsListenerForTesting(&listener); |
| } |
| |
| void SetSourceAndWaitForFramerateUpdated( |
| rtc::VideoSourceInterface<VideoFrame>* source, |
| const DegradationPreference& degradation_preference) { |
| overuse_detector_proxy_->framerate_updated_event()->Reset(); |
| SetSource(source, degradation_preference); |
| overuse_detector_proxy_->framerate_updated_event()->Wait( |
| TimeDelta::Seconds(5)); |
| } |
| |
| void OnBitrateUpdatedAndWaitForManagedResources( |
| DataRate target_bitrate, |
| DataRate stable_target_bitrate, |
| DataRate link_allocation, |
| uint8_t fraction_lost, |
| int64_t round_trip_time_ms, |
| double cwnd_reduce_ratio) { |
| OnBitrateUpdated(target_bitrate, stable_target_bitrate, link_allocation, |
| fraction_lost, round_trip_time_ms, cwnd_reduce_ratio); |
| // Bitrate is updated on the encoder queue. |
| WaitUntilTaskQueueIsIdle(); |
| } |
| |
| // This is used as a synchronisation mechanism, to make sure that the |
| // encoder queue is not blocked before we start sending it frames. |
| void WaitUntilTaskQueueIsIdle() { |
| time_controller_->AdvanceTime(TimeDelta::Zero()); |
| } |
| |
| // Triggers resource usage measurements on the fake CPU resource. |
| void TriggerCpuOveruse() { |
| rtc::Event event; |
| encoder_queue()->PostTask([this, &event] { |
| fake_cpu_resource_->SetUsageState(ResourceUsageState::kOveruse); |
| event.Set(); |
| }); |
| ASSERT_TRUE(event.Wait(TimeDelta::Seconds(5))); |
| time_controller_->AdvanceTime(TimeDelta::Zero()); |
| } |
| |
| void TriggerCpuUnderuse() { |
| rtc::Event event; |
| encoder_queue()->PostTask([this, &event] { |
| fake_cpu_resource_->SetUsageState(ResourceUsageState::kUnderuse); |
| event.Set(); |
| }); |
| ASSERT_TRUE(event.Wait(TimeDelta::Seconds(5))); |
| time_controller_->AdvanceTime(TimeDelta::Zero()); |
| } |
| |
| // Triggers resource usage measurements on the fake quality resource. |
| void TriggerQualityLow() { |
| rtc::Event event; |
| encoder_queue()->PostTask([this, &event] { |
| fake_quality_resource_->SetUsageState(ResourceUsageState::kOveruse); |
| event.Set(); |
| }); |
| ASSERT_TRUE(event.Wait(TimeDelta::Seconds(5))); |
| time_controller_->AdvanceTime(TimeDelta::Zero()); |
| } |
| void TriggerQualityHigh() { |
| rtc::Event event; |
| encoder_queue()->PostTask([this, &event] { |
| fake_quality_resource_->SetUsageState(ResourceUsageState::kUnderuse); |
| event.Set(); |
| }); |
| ASSERT_TRUE(event.Wait(TimeDelta::Seconds(5))); |
| time_controller_->AdvanceTime(TimeDelta::Zero()); |
| } |
| |
| TimeController* const time_controller_; |
| CpuOveruseDetectorProxy* overuse_detector_proxy_; |
| rtc::scoped_refptr<FakeResource> fake_cpu_resource_; |
| rtc::scoped_refptr<FakeResource> fake_quality_resource_; |
| FakeAdaptationConstraint fake_adaptation_constraint_; |
| }; |
| |
| // Simulates simulcast behavior and makes highest stream resolutions divisible |
| // by 4. |
| class CroppingVideoStreamFactory |
| : public VideoEncoderConfig::VideoStreamFactoryInterface { |
| public: |
| CroppingVideoStreamFactory() {} |
| |
| private: |
| std::vector<VideoStream> CreateEncoderStreams( |
| const FieldTrialsView& /*field_trials*/, |
| int frame_width, |
| int frame_height, |
| const VideoEncoderConfig& encoder_config) override { |
| std::vector<VideoStream> streams = test::CreateVideoStreams( |
| frame_width - frame_width % 4, frame_height - frame_height % 4, |
| encoder_config); |
| return streams; |
| } |
| }; |
| |
| class AdaptingFrameForwarder : public test::FrameForwarder { |
| public: |
| explicit AdaptingFrameForwarder(TimeController* time_controller) |
| : time_controller_(time_controller), adaptation_enabled_(false) {} |
| ~AdaptingFrameForwarder() override {} |
| |
| void set_adaptation_enabled(bool enabled) { |
| MutexLock lock(&mutex_); |
| adaptation_enabled_ = enabled; |
| } |
| |
| bool adaption_enabled() const { |
| MutexLock lock(&mutex_); |
| return adaptation_enabled_; |
| } |
| |
| // The "last wants" is a snapshot of the previous rtc::VideoSinkWants where |
| // the resolution or frame rate was different than it is currently. If |
| // something else is modified, such as encoder resolutions, but the resolution |
| // and frame rate stays the same, last wants is not updated. |
| rtc::VideoSinkWants last_wants() const { |
| MutexLock lock(&mutex_); |
| return last_wants_; |
| } |
| |
| std::optional<int> last_sent_width() const { return last_width_; } |
| std::optional<int> last_sent_height() const { return last_height_; } |
| |
| void IncomingCapturedFrame(const VideoFrame& video_frame) override { |
| RTC_DCHECK(time_controller_->GetMainThread()->IsCurrent()); |
| time_controller_->AdvanceTime(TimeDelta::Zero()); |
| |
| int cropped_width = 0; |
| int cropped_height = 0; |
| int out_width = 0; |
| int out_height = 0; |
| if (adaption_enabled()) { |
| RTC_DLOG(LS_INFO) << "IncomingCapturedFrame: AdaptFrameResolution()" |
| << "w=" << video_frame.width() |
| << "h=" << video_frame.height(); |
| if (adapter_.AdaptFrameResolution( |
| video_frame.width(), video_frame.height(), |
| video_frame.timestamp_us() * 1000, &cropped_width, |
| &cropped_height, &out_width, &out_height)) { |
| VideoFrame adapted_frame = |
| VideoFrame::Builder() |
| .set_video_frame_buffer(rtc::make_ref_counted<TestBuffer>( |
| nullptr, out_width, out_height)) |
| .set_ntp_time_ms(video_frame.ntp_time_ms()) |
| .set_timestamp_ms(video_frame.timestamp_us() * 1000) |
| .set_rotation(kVideoRotation_0) |
| .build(); |
| if (video_frame.has_update_rect()) { |
| adapted_frame.set_update_rect( |
| video_frame.update_rect().ScaleWithFrame( |
| video_frame.width(), video_frame.height(), 0, 0, |
| video_frame.width(), video_frame.height(), out_width, |
| out_height)); |
| } |
| test::FrameForwarder::IncomingCapturedFrame(adapted_frame); |
| last_width_.emplace(adapted_frame.width()); |
| last_height_.emplace(adapted_frame.height()); |
| } else { |
| last_width_ = std::nullopt; |
| last_height_ = std::nullopt; |
| } |
| } else { |
| RTC_DLOG(LS_INFO) << "IncomingCapturedFrame: adaptation not enabled"; |
| test::FrameForwarder::IncomingCapturedFrame(video_frame); |
| last_width_.emplace(video_frame.width()); |
| last_height_.emplace(video_frame.height()); |
| } |
| } |
| |
| void OnOutputFormatRequest(int width, int height) { |
| std::optional<std::pair<int, int>> target_aspect_ratio = |
| std::make_pair(width, height); |
| std::optional<int> max_pixel_count = width * height; |
| std::optional<int> max_fps; |
| adapter_.OnOutputFormatRequest(target_aspect_ratio, max_pixel_count, |
| max_fps); |
| } |
| |
| void AddOrUpdateSink(rtc::VideoSinkInterface<VideoFrame>* sink, |
| const rtc::VideoSinkWants& wants) override { |
| MutexLock lock(&mutex_); |
| rtc::VideoSinkWants prev_wants = sink_wants_locked(); |
| bool did_adapt = |
| prev_wants.max_pixel_count != wants.max_pixel_count || |
| prev_wants.target_pixel_count != wants.target_pixel_count || |
| prev_wants.max_framerate_fps != wants.max_framerate_fps; |
| if (did_adapt) { |
| last_wants_ = prev_wants; |
| } |
| adapter_.OnSinkWants(wants); |
| test::FrameForwarder::AddOrUpdateSinkLocked(sink, wants); |
| } |
| |
| void RequestRefreshFrame() override { ++refresh_frames_requested_; } |
| |
| TimeController* const time_controller_; |
| cricket::VideoAdapter adapter_; |
| bool adaptation_enabled_ RTC_GUARDED_BY(mutex_); |
| rtc::VideoSinkWants last_wants_ RTC_GUARDED_BY(mutex_); |
| std::optional<int> last_width_; |
| std::optional<int> last_height_; |
| int refresh_frames_requested_{0}; |
| }; |
| |
| // TODO(nisse): Mock only VideoStreamEncoderObserver. |
| class MockableSendStatisticsProxy : public SendStatisticsProxy { |
| public: |
| MockableSendStatisticsProxy(Clock* clock, |
| const VideoSendStream::Config& config, |
| VideoEncoderConfig::ContentType content_type, |
| const FieldTrialsView& field_trials) |
| : SendStatisticsProxy(clock, config, content_type, field_trials) {} |
| |
| VideoSendStream::Stats GetStats() override { |
| MutexLock lock(&lock_); |
| if (mock_stats_) |
| return *mock_stats_; |
| return SendStatisticsProxy::GetStats(); |
| } |
| |
| int GetInputFrameRate() const override { |
| MutexLock lock(&lock_); |
| if (mock_stats_) |
| return mock_stats_->input_frame_rate; |
| return SendStatisticsProxy::GetInputFrameRate(); |
| } |
| void SetMockStats(const VideoSendStream::Stats& stats) { |
| MutexLock lock(&lock_); |
| mock_stats_.emplace(stats); |
| } |
| |
| void ResetMockStats() { |
| MutexLock lock(&lock_); |
| mock_stats_.reset(); |
| } |
| |
| void SetDroppedFrameCallback(std::function<void(DropReason)> callback) { |
| on_frame_dropped_ = std::move(callback); |
| } |
| |
| private: |
| void OnFrameDropped(DropReason reason) override { |
| SendStatisticsProxy::OnFrameDropped(reason); |
| if (on_frame_dropped_) |
| on_frame_dropped_(reason); |
| } |
| |
| mutable Mutex lock_; |
| std::optional<VideoSendStream::Stats> mock_stats_ RTC_GUARDED_BY(lock_); |
| std::function<void(DropReason)> on_frame_dropped_; |
| }; |
| |
| class SimpleVideoStreamEncoderFactory { |
| public: |
| class AdaptedVideoStreamEncoder : public VideoStreamEncoder { |
| public: |
| using VideoStreamEncoder::VideoStreamEncoder; |
| ~AdaptedVideoStreamEncoder() { Stop(); } |
| }; |
| |
| class MockFakeEncoder : public test::FakeEncoder { |
| public: |
| using FakeEncoder::FakeEncoder; |
| MOCK_METHOD(CodecSpecificInfo, |
| EncodeHook, |
| (EncodedImage & encoded_image, |
| rtc::scoped_refptr<EncodedImageBuffer> buffer), |
| (override)); |
| MOCK_METHOD(VideoEncoder::EncoderInfo, |
| GetEncoderInfo, |
| (), |
| (const, override)); |
| }; |
| |
| SimpleVideoStreamEncoderFactory() { |
| encoder_settings_.encoder_factory = &encoder_factory_; |
| encoder_settings_.bitrate_allocator_factory = |
| bitrate_allocator_factory_.get(); |
| } |
| |
| std::unique_ptr<AdaptedVideoStreamEncoder> CreateWithEncoderQueue( |
| std::unique_ptr<FrameCadenceAdapterInterface> zero_hertz_adapter, |
| std::unique_ptr<TaskQueueBase, TaskQueueDeleter> encoder_queue, |
| const FieldTrialsView* field_trials = nullptr) { |
| Environment env = CreateEnvironment(&field_trials_, field_trials, |
| time_controller_.GetClock()); |
| auto result = std::make_unique<AdaptedVideoStreamEncoder>( |
| env, |
| /*number_of_cores=*/1, |
| /*stats_proxy=*/stats_proxy_.get(), encoder_settings_, |
| std::make_unique<CpuOveruseDetectorProxy>(env, |
| /*stats_proxy=*/nullptr), |
| std::move(zero_hertz_adapter), std::move(encoder_queue), |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoBitrateAllocation); |
| result->SetSink(&sink_, /*rotation_applied=*/false); |
| return result; |
| } |
| |
| std::unique_ptr<AdaptedVideoStreamEncoder> Create( |
| std::unique_ptr<FrameCadenceAdapterInterface> zero_hertz_adapter, |
| TaskQueueBase** encoder_queue_ptr = nullptr) { |
| auto encoder_queue = |
| time_controller_.GetTaskQueueFactory()->CreateTaskQueue( |
| "EncoderQueue", TaskQueueFactory::Priority::NORMAL); |
| if (encoder_queue_ptr) |
| *encoder_queue_ptr = encoder_queue.get(); |
| return CreateWithEncoderQueue(std::move(zero_hertz_adapter), |
| std::move(encoder_queue)); |
| } |
| |
| void DepleteTaskQueues() { time_controller_.AdvanceTime(TimeDelta::Zero()); } |
| MockFakeEncoder& GetMockFakeEncoder() { return mock_fake_encoder_; } |
| |
| GlobalSimulatedTimeController* GetTimeController() { |
| return &time_controller_; |
| } |
| |
| private: |
| class NullEncoderSink : public VideoStreamEncoderInterface::EncoderSink { |
| public: |
| ~NullEncoderSink() override = default; |
| void OnEncoderConfigurationChanged( |
| std::vector<VideoStream> streams, |
| bool is_svc, |
| VideoEncoderConfig::ContentType content_type, |
| int min_transmit_bitrate_bps) override {} |
| void OnBitrateAllocationUpdated( |
| const VideoBitrateAllocation& allocation) override {} |
| void OnVideoLayersAllocationUpdated( |
| VideoLayersAllocation allocation) override {} |
| Result OnEncodedImage( |
| const EncodedImage& encoded_image, |
| const CodecSpecificInfo* codec_specific_info) override { |
| return Result(EncodedImageCallback::Result::OK); |
| } |
| }; |
| |
| test::ScopedKeyValueConfig field_trials_; |
| GlobalSimulatedTimeController time_controller_{Timestamp::Zero()}; |
| Environment env_ = |
| CreateEnvironment(&field_trials_, |
| time_controller_.GetClock(), |
| time_controller_.CreateTaskQueueFactory()); |
| std::unique_ptr<MockableSendStatisticsProxy> stats_proxy_ = |
| std::make_unique<MockableSendStatisticsProxy>( |
| time_controller_.GetClock(), |
| VideoSendStream::Config(nullptr), |
| webrtc::VideoEncoderConfig::ContentType::kRealtimeVideo, |
| field_trials_); |
| std::unique_ptr<VideoBitrateAllocatorFactory> bitrate_allocator_factory_ = |
| CreateBuiltinVideoBitrateAllocatorFactory(); |
| VideoStreamEncoderSettings encoder_settings_{ |
| VideoEncoder::Capabilities(/*loss_notification=*/false)}; |
| MockFakeEncoder mock_fake_encoder_{env_}; |
| test::VideoEncoderProxyFactory encoder_factory_{&mock_fake_encoder_}; |
| NullEncoderSink sink_; |
| }; |
| |
| class MockFrameCadenceAdapter : public FrameCadenceAdapterInterface { |
| public: |
| MOCK_METHOD(void, Initialize, (Callback * callback), (override)); |
| MOCK_METHOD(void, |
| SetZeroHertzModeEnabled, |
| (std::optional<ZeroHertzModeParams>), |
| (override)); |
| MOCK_METHOD(void, OnFrame, (const VideoFrame&), (override)); |
| MOCK_METHOD(std::optional<uint32_t>, GetInputFrameRateFps, (), (override)); |
| MOCK_METHOD(void, |
| UpdateLayerQualityConvergence, |
| (size_t spatial_index, bool converged), |
| (override)); |
| MOCK_METHOD(void, |
| UpdateLayerStatus, |
| (size_t spatial_index, bool enabled), |
| (override)); |
| MOCK_METHOD(void, |
| UpdateVideoSourceRestrictions, |
| (std::optional<double>), |
| (override)); |
| MOCK_METHOD(void, ProcessKeyFrameRequest, (), (override)); |
| }; |
| |
| class MockEncoderSelector |
| : public VideoEncoderFactory::EncoderSelectorInterface { |
| public: |
| MOCK_METHOD(void, |
| OnCurrentEncoder, |
| (const SdpVideoFormat& format), |
| (override)); |
| MOCK_METHOD(std::optional<SdpVideoFormat>, |
| OnAvailableBitrate, |
| (const DataRate& rate), |
| (override)); |
| MOCK_METHOD(std::optional<SdpVideoFormat>, |
| OnResolutionChange, |
| (const RenderResolution& resolution), |
| (override)); |
| MOCK_METHOD(std::optional<SdpVideoFormat>, OnEncoderBroken, (), (override)); |
| }; |
| |
| class MockVideoSourceInterface : public rtc::VideoSourceInterface<VideoFrame> { |
| public: |
| MOCK_METHOD(void, |
| AddOrUpdateSink, |
| (rtc::VideoSinkInterface<VideoFrame>*, |
| const rtc::VideoSinkWants&), |
| (override)); |
| MOCK_METHOD(void, |
| RemoveSink, |
| (rtc::VideoSinkInterface<VideoFrame>*), |
| (override)); |
| MOCK_METHOD(void, RequestRefreshFrame, (), (override)); |
| }; |
| |
| } // namespace |
| |
| class VideoStreamEncoderTest : public ::testing::Test { |
| public: |
| static constexpr TimeDelta kDefaultTimeout = TimeDelta::Seconds(1); |
| |
| VideoStreamEncoderTest() |
| : video_send_config_(VideoSendStream::Config(nullptr)), |
| codec_width_(320), |
| codec_height_(240), |
| max_framerate_(kDefaultFramerate), |
| fake_encoder_(env_), |
| encoder_factory_(&fake_encoder_), |
| stats_proxy_(new MockableSendStatisticsProxy( |
| time_controller_.GetClock(), |
| video_send_config_, |
| webrtc::VideoEncoderConfig::ContentType::kRealtimeVideo, |
| field_trials_)), |
| sink_(&time_controller_, &fake_encoder_) {} |
| |
| void SetUp() override { |
| metrics::Reset(); |
| video_send_config_ = VideoSendStream::Config(nullptr); |
| video_send_config_.encoder_settings.encoder_factory = &encoder_factory_; |
| video_send_config_.encoder_settings.bitrate_allocator_factory = |
| &bitrate_allocator_factory_; |
| video_send_config_.rtp.payload_name = "FAKE"; |
| video_send_config_.rtp.payload_type = 125; |
| |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(kVideoCodecVP8, 1, &video_encoder_config); |
| EXPECT_EQ(1u, video_encoder_config.simulcast_layers.size()); |
| video_encoder_config.simulcast_layers[0].num_temporal_layers = 1; |
| video_encoder_config_ = video_encoder_config.Copy(); |
| |
| ConfigureEncoder(std::move(video_encoder_config)); |
| } |
| |
| void ConfigureEncoder( |
| VideoEncoderConfig video_encoder_config, |
| VideoStreamEncoder::BitrateAllocationCallbackType |
| allocation_callback_type = |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoBitrateAllocationWhenScreenSharing, |
| int num_cores = 1) { |
| if (video_stream_encoder_) |
| video_stream_encoder_->Stop(); |
| |
| auto encoder_queue = env_.task_queue_factory().CreateTaskQueue( |
| "EncoderQueue", TaskQueueFactory::Priority::NORMAL); |
| TaskQueueBase* encoder_queue_ptr = encoder_queue.get(); |
| std::unique_ptr<FrameCadenceAdapterInterface> cadence_adapter = |
| FrameCadenceAdapterInterface::Create( |
| time_controller_.GetClock(), encoder_queue_ptr, |
| /*metronome=*/nullptr, /*worker_queue=*/nullptr, field_trials_); |
| video_stream_encoder_ = std::make_unique<VideoStreamEncoderUnderTest>( |
| env_, &time_controller_, std::move(cadence_adapter), |
| std::move(encoder_queue), stats_proxy_.get(), |
| video_send_config_.encoder_settings, allocation_callback_type, |
| num_cores); |
| video_stream_encoder_->SetSink(&sink_, /*rotation_applied=*/false); |
| video_stream_encoder_->SetSource( |
| &video_source_, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| video_stream_encoder_->SetStartBitrate(kTargetBitrate.bps()); |
| video_stream_encoder_->ConfigureEncoder(std::move(video_encoder_config), |
| kMaxPayloadLength, nullptr); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| } |
| |
| void ResetEncoder(const std::string& payload_name, |
| size_t num_streams, |
| size_t num_temporal_layers, |
| unsigned char num_spatial_layers, |
| bool screenshare, |
| std::optional<int> max_frame_rate = kDefaultFramerate, |
| VideoStreamEncoder::BitrateAllocationCallbackType |
| allocation_callback_type = |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoBitrateAllocationWhenScreenSharing, |
| int num_cores = 1) { |
| video_send_config_.rtp.payload_name = payload_name; |
| |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(PayloadStringToCodecType(payload_name), |
| num_streams, &video_encoder_config); |
| for (auto& layer : video_encoder_config.simulcast_layers) { |
| layer.num_temporal_layers = num_temporal_layers; |
| if (max_frame_rate) { |
| layer.max_framerate = *max_frame_rate; |
| } |
| } |
| video_encoder_config.max_bitrate_bps = |
| num_streams == 1 ? kTargetBitrate.bps() : kSimulcastTargetBitrate.bps(); |
| video_encoder_config.content_type = |
| screenshare ? VideoEncoderConfig::ContentType::kScreen |
| : VideoEncoderConfig::ContentType::kRealtimeVideo; |
| if (payload_name == "VP9") { |
| VideoCodecVP9 vp9_settings = VideoEncoder::GetDefaultVp9Settings(); |
| vp9_settings.numberOfSpatialLayers = num_spatial_layers; |
| vp9_settings.automaticResizeOn = num_spatial_layers <= 1; |
| video_encoder_config.encoder_specific_settings = |
| rtc::make_ref_counted<VideoEncoderConfig::Vp9EncoderSpecificSettings>( |
| vp9_settings); |
| } |
| ConfigureEncoder(std::move(video_encoder_config), allocation_callback_type, |
| num_cores); |
| } |
| |
| VideoFrame CreateFrame(int64_t ntp_time_ms, |
| rtc::Event* destruction_event) const { |
| return VideoFrame::Builder() |
| .set_video_frame_buffer(rtc::make_ref_counted<TestBuffer>( |
| destruction_event, codec_width_, codec_height_)) |
| .set_ntp_time_ms(ntp_time_ms) |
| .set_timestamp_ms(ntp_time_ms) |
| .set_rotation(kVideoRotation_0) |
| .build(); |
| } |
| |
| VideoFrame CreateFrameWithUpdatedPixel(int64_t ntp_time_ms, |
| rtc::Event* destruction_event, |
| int offset_x) const { |
| return VideoFrame::Builder() |
| .set_video_frame_buffer(rtc::make_ref_counted<TestBuffer>( |
| destruction_event, codec_width_, codec_height_)) |
| .set_ntp_time_ms(ntp_time_ms) |
| .set_timestamp_ms(ntp_time_ms) |
| .set_rotation(kVideoRotation_0) |
| .set_update_rect(VideoFrame::UpdateRect{offset_x, 0, 1, 1}) |
| .build(); |
| } |
| |
| VideoFrame CreateFrame(int64_t ntp_time_ms, int width, int height) const { |
| auto buffer = rtc::make_ref_counted<TestBuffer>(nullptr, width, height); |
| I420Buffer::SetBlack(buffer.get()); |
| return VideoFrame::Builder() |
| .set_video_frame_buffer(std::move(buffer)) |
| .set_ntp_time_ms(ntp_time_ms) |
| .set_timestamp_ms(ntp_time_ms) |
| .set_rotation(kVideoRotation_0) |
| .build(); |
| } |
| |
| VideoFrame CreateNV12Frame(int64_t ntp_time_ms, int width, int height) const { |
| return VideoFrame::Builder() |
| .set_video_frame_buffer(NV12Buffer::Create(width, height)) |
| .set_ntp_time_ms(ntp_time_ms) |
| .set_timestamp_ms(ntp_time_ms) |
| .set_rotation(kVideoRotation_0) |
| .build(); |
| } |
| |
| VideoFrame CreateFakeNativeFrame(int64_t ntp_time_ms, |
| rtc::Event* destruction_event, |
| int width, |
| int height) const { |
| return VideoFrame::Builder() |
| .set_video_frame_buffer(rtc::make_ref_counted<FakeNativeBuffer>( |
| destruction_event, width, height)) |
| .set_ntp_time_ms(ntp_time_ms) |
| .set_timestamp_ms(ntp_time_ms) |
| .set_rotation(kVideoRotation_0) |
| .build(); |
| } |
| |
| VideoFrame CreateFakeNV12NativeFrame(int64_t ntp_time_ms, |
| rtc::Event* destruction_event, |
| int width, |
| int height) const { |
| return VideoFrame::Builder() |
| .set_video_frame_buffer(rtc::make_ref_counted<FakeNV12NativeBuffer>( |
| destruction_event, width, height)) |
| .set_ntp_time_ms(ntp_time_ms) |
| .set_timestamp_ms(ntp_time_ms) |
| .set_rotation(kVideoRotation_0) |
| .build(); |
| } |
| |
| VideoFrame CreateFakeNativeFrame(int64_t ntp_time_ms, |
| rtc::Event* destruction_event) const { |
| return CreateFakeNativeFrame(ntp_time_ms, destruction_event, codec_width_, |
| codec_height_); |
| } |
| |
| void VerifyAllocatedBitrate(const VideoBitrateAllocation& expected_bitrate) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(1, codec_width_, codec_height_)); |
| WaitForEncodedFrame(1); |
| EXPECT_EQ(expected_bitrate, sink_.GetLastVideoBitrateAllocation()); |
| } |
| |
| void WaitForEncodedFrame(int64_t expected_ntp_time) { |
| sink_.WaitForEncodedFrame(expected_ntp_time); |
| AdvanceTime(TimeDelta::Seconds(1) / max_framerate_); |
| } |
| |
| bool TimedWaitForEncodedFrame(int64_t expected_ntp_time, TimeDelta timeout) { |
| bool ok = sink_.TimedWaitForEncodedFrame(expected_ntp_time, timeout); |
| AdvanceTime(TimeDelta::Seconds(1) / max_framerate_); |
| return ok; |
| } |
| |
| void WaitForEncodedFrame(uint32_t expected_width, uint32_t expected_height) { |
| sink_.WaitForEncodedFrame(expected_width, expected_height); |
| AdvanceTime(TimeDelta::Seconds(1) / max_framerate_); |
| } |
| |
| void ExpectDroppedFrame() { |
| sink_.ExpectDroppedFrame(); |
| AdvanceTime(TimeDelta::Seconds(1) / max_framerate_); |
| } |
| |
| bool WaitForFrame(TimeDelta timeout) { |
| bool ok = sink_.WaitForFrame(timeout); |
| AdvanceTime(TimeDelta::Seconds(1) / max_framerate_); |
| return ok; |
| } |
| |
| class TestEncoder : public test::FakeEncoder { |
| public: |
| explicit TestEncoder(const Environment& env) : FakeEncoder(env) {} |
| |
| VideoEncoder::EncoderInfo GetEncoderInfo() const override { |
| MutexLock lock(&local_mutex_); |
| EncoderInfo info = FakeEncoder::GetEncoderInfo(); |
| if (initialized_ == EncoderState::kInitialized) { |
| if (quality_scaling_) { |
| info.scaling_settings = VideoEncoder::ScalingSettings( |
| kQpLow, kQpHigh, kMinPixelsPerFrame); |
| } |
| info.is_hardware_accelerated = is_hardware_accelerated_; |
| for (int i = 0; i < kMaxSpatialLayers; ++i) { |
| if (temporal_layers_supported_[i]) { |
| info.fps_allocation[i].clear(); |
| int num_layers = temporal_layers_supported_[i].value() ? 2 : 1; |
| for (int tid = 0; tid < num_layers; ++tid) |
| info.fps_allocation[i].push_back(255 / (num_layers - tid)); |
| } |
| } |
| } |
| |
| info.resolution_bitrate_limits = resolution_bitrate_limits_; |
| info.requested_resolution_alignment = requested_resolution_alignment_; |
| info.apply_alignment_to_all_simulcast_layers = |
| apply_alignment_to_all_simulcast_layers_; |
| info.preferred_pixel_formats = preferred_pixel_formats_; |
| if (is_qp_trusted_.has_value()) { |
| info.is_qp_trusted = is_qp_trusted_; |
| } |
| return info; |
| } |
| |
| int32_t RegisterEncodeCompleteCallback( |
| EncodedImageCallback* callback) override { |
| MutexLock lock(&local_mutex_); |
| encoded_image_callback_ = callback; |
| return FakeEncoder::RegisterEncodeCompleteCallback(callback); |
| } |
| |
| void ContinueEncode() { continue_encode_event_.Set(); } |
| |
| void CheckLastTimeStampsMatch(int64_t ntp_time_ms, |
| uint32_t timestamp) const { |
| MutexLock lock(&local_mutex_); |
| EXPECT_EQ(timestamp_, timestamp); |
| EXPECT_EQ(ntp_time_ms_, ntp_time_ms); |
| } |
| |
| void SetQualityScaling(bool b) { |
| MutexLock lock(&local_mutex_); |
| quality_scaling_ = b; |
| } |
| |
| void SetRequestedResolutionAlignment( |
| uint32_t requested_resolution_alignment) { |
| MutexLock lock(&local_mutex_); |
| requested_resolution_alignment_ = requested_resolution_alignment; |
| } |
| |
| void SetApplyAlignmentToAllSimulcastLayers(bool b) { |
| MutexLock lock(&local_mutex_); |
| apply_alignment_to_all_simulcast_layers_ = b; |
| } |
| |
| void SetIsHardwareAccelerated(bool is_hardware_accelerated) { |
| MutexLock lock(&local_mutex_); |
| is_hardware_accelerated_ = is_hardware_accelerated; |
| } |
| |
| void SetTemporalLayersSupported(size_t spatial_idx, bool supported) { |
| RTC_DCHECK_LT(spatial_idx, kMaxSpatialLayers); |
| MutexLock lock(&local_mutex_); |
| temporal_layers_supported_[spatial_idx] = supported; |
| } |
| |
| void SetResolutionBitrateLimits( |
| std::vector<ResolutionBitrateLimits> thresholds) { |
| MutexLock lock(&local_mutex_); |
| resolution_bitrate_limits_ = thresholds; |
| } |
| |
| void ForceInitEncodeFailure(bool force_failure) { |
| MutexLock lock(&local_mutex_); |
| force_init_encode_failed_ = force_failure; |
| } |
| |
| void SimulateOvershoot(double rate_factor) { |
| MutexLock lock(&local_mutex_); |
| rate_factor_ = rate_factor; |
| } |
| |
| uint32_t GetLastFramerate() const { |
| MutexLock lock(&local_mutex_); |
| return last_framerate_; |
| } |
| |
| VideoFrame::UpdateRect GetLastUpdateRect() const { |
| MutexLock lock(&local_mutex_); |
| return last_update_rect_; |
| } |
| |
| const std::vector<VideoFrameType>& LastFrameTypes() const { |
| MutexLock lock(&local_mutex_); |
| return last_frame_types_; |
| } |
| |
| void InjectFrame(const VideoFrame& input_image, bool keyframe) { |
| const std::vector<VideoFrameType> frame_type = { |
| keyframe ? VideoFrameType::kVideoFrameKey |
| : VideoFrameType::kVideoFrameDelta}; |
| { |
| MutexLock lock(&local_mutex_); |
| last_frame_types_ = frame_type; |
| } |
| FakeEncoder::Encode(input_image, &frame_type); |
| } |
| |
| void InjectEncodedImage(const EncodedImage& image, |
| const CodecSpecificInfo* codec_specific_info) { |
| MutexLock lock(&local_mutex_); |
| encoded_image_callback_->OnEncodedImage(image, codec_specific_info); |
| } |
| |
| void SetEncodedImageData( |
| rtc::scoped_refptr<EncodedImageBufferInterface> encoded_image_data) { |
| MutexLock lock(&local_mutex_); |
| encoded_image_data_ = encoded_image_data; |
| } |
| |
| void ExpectNullFrame() { |
| MutexLock lock(&local_mutex_); |
| expect_null_frame_ = true; |
| } |
| |
| std::optional<VideoEncoder::RateControlParameters> |
| GetAndResetLastRateControlSettings() { |
| auto settings = last_rate_control_settings_; |
| last_rate_control_settings_.reset(); |
| return settings; |
| } |
| |
| int GetLastInputWidth() const { |
| MutexLock lock(&local_mutex_); |
| return last_input_width_; |
| } |
| |
| int GetLastInputHeight() const { |
| MutexLock lock(&local_mutex_); |
| return last_input_height_; |
| } |
| |
| std::optional<VideoFrameBuffer::Type> GetLastInputPixelFormat() { |
| MutexLock lock(&local_mutex_); |
| return last_input_pixel_format_; |
| } |
| |
| int GetNumSetRates() const { |
| MutexLock lock(&local_mutex_); |
| return num_set_rates_; |
| } |
| |
| void SetPreferredPixelFormats( |
| absl::InlinedVector<VideoFrameBuffer::Type, kMaxPreferredPixelFormats> |
| pixel_formats) { |
| MutexLock lock(&local_mutex_); |
| preferred_pixel_formats_ = std::move(pixel_formats); |
| } |
| |
| void SetIsQpTrusted(std::optional<bool> trusted) { |
| MutexLock lock(&local_mutex_); |
| is_qp_trusted_ = trusted; |
| } |
| |
| VideoCodecComplexity LastEncoderComplexity() { |
| MutexLock lock(&local_mutex_); |
| return last_encoder_complexity_; |
| } |
| |
| private: |
| int32_t Encode(const VideoFrame& input_image, |
| const std::vector<VideoFrameType>* frame_types) override { |
| { |
| MutexLock lock(&local_mutex_); |
| if (expect_null_frame_) { |
| EXPECT_EQ(input_image.rtp_timestamp(), 0u); |
| EXPECT_EQ(input_image.width(), 1); |
| last_frame_types_ = *frame_types; |
| expect_null_frame_ = false; |
| } else { |
| EXPECT_GT(input_image.rtp_timestamp(), timestamp_); |
| EXPECT_GT(input_image.ntp_time_ms(), ntp_time_ms_); |
| EXPECT_EQ(input_image.rtp_timestamp(), |
| input_image.ntp_time_ms() * 90); |
| } |
| |
| timestamp_ = input_image.rtp_timestamp(); |
| ntp_time_ms_ = input_image.ntp_time_ms(); |
| last_input_width_ = input_image.width(); |
| last_input_height_ = input_image.height(); |
| last_update_rect_ = input_image.update_rect(); |
| last_frame_types_ = *frame_types; |
| last_input_pixel_format_ = input_image.video_frame_buffer()->type(); |
| } |
| int32_t result = FakeEncoder::Encode(input_image, frame_types); |
| return result; |
| } |
| |
| CodecSpecificInfo EncodeHook( |
| EncodedImage& encoded_image, |
| rtc::scoped_refptr<EncodedImageBuffer> buffer) override { |
| CodecSpecificInfo codec_specific; |
| { |
| MutexLock lock(&mutex_); |
| codec_specific.codecType = config_.codecType; |
| } |
| MutexLock lock(&local_mutex_); |
| if (encoded_image_data_) { |
| encoded_image.SetEncodedData(encoded_image_data_); |
| } |
| return codec_specific; |
| } |
| |
| int32_t InitEncode(const VideoCodec* config, |
| const Settings& settings) override { |
| int res = FakeEncoder::InitEncode(config, settings); |
| |
| MutexLock lock(&local_mutex_); |
| EXPECT_EQ(initialized_, EncoderState::kUninitialized); |
| |
| if (config->codecType == kVideoCodecVP8) { |
| // Simulate setting up temporal layers, in order to validate the life |
| // cycle of these objects. |
| Vp8TemporalLayersFactory factory; |
| frame_buffer_controller_ = |
| factory.Create(*config, settings, &fec_controller_override_); |
| } |
| |
| last_encoder_complexity_ = config->GetVideoEncoderComplexity(); |
| |
| if (force_init_encode_failed_) { |
| initialized_ = EncoderState::kInitializationFailed; |
| return -1; |
| } |
| |
| initialized_ = EncoderState::kInitialized; |
| return res; |
| } |
| |
| int32_t Release() override { |
| MutexLock lock(&local_mutex_); |
| EXPECT_NE(initialized_, EncoderState::kUninitialized); |
| initialized_ = EncoderState::kUninitialized; |
| return FakeEncoder::Release(); |
| } |
| |
| void SetRates(const RateControlParameters& parameters) { |
| MutexLock lock(&local_mutex_); |
| num_set_rates_++; |
| VideoBitrateAllocation adjusted_rate_allocation; |
| for (size_t si = 0; si < kMaxSpatialLayers; ++si) { |
| for (size_t ti = 0; ti < kMaxTemporalStreams; ++ti) { |
| if (parameters.bitrate.HasBitrate(si, ti)) { |
| adjusted_rate_allocation.SetBitrate( |
| si, ti, |
| static_cast<uint32_t>(parameters.bitrate.GetBitrate(si, ti) * |
| rate_factor_)); |
| } |
| } |
| } |
| last_framerate_ = static_cast<uint32_t>(parameters.framerate_fps + 0.5); |
| last_rate_control_settings_ = parameters; |
| RateControlParameters adjusted_paramters = parameters; |
| adjusted_paramters.bitrate = adjusted_rate_allocation; |
| FakeEncoder::SetRates(adjusted_paramters); |
| } |
| |
| mutable Mutex local_mutex_; |
| enum class EncoderState { |
| kUninitialized, |
| kInitializationFailed, |
| kInitialized |
| } initialized_ RTC_GUARDED_BY(local_mutex_) = EncoderState::kUninitialized; |
| rtc::Event continue_encode_event_; |
| uint32_t timestamp_ RTC_GUARDED_BY(local_mutex_) = 0; |
| int64_t ntp_time_ms_ RTC_GUARDED_BY(local_mutex_) = 0; |
| int last_input_width_ RTC_GUARDED_BY(local_mutex_) = 0; |
| int last_input_height_ RTC_GUARDED_BY(local_mutex_) = 0; |
| bool quality_scaling_ RTC_GUARDED_BY(local_mutex_) = true; |
| uint32_t requested_resolution_alignment_ RTC_GUARDED_BY(local_mutex_) = 1; |
| bool apply_alignment_to_all_simulcast_layers_ RTC_GUARDED_BY(local_mutex_) = |
| false; |
| bool is_hardware_accelerated_ RTC_GUARDED_BY(local_mutex_) = false; |
| rtc::scoped_refptr<EncodedImageBufferInterface> encoded_image_data_ |
| RTC_GUARDED_BY(local_mutex_); |
| std::unique_ptr<Vp8FrameBufferController> frame_buffer_controller_ |
| RTC_GUARDED_BY(local_mutex_); |
| std::optional<bool> |
| temporal_layers_supported_[kMaxSpatialLayers] RTC_GUARDED_BY( |
| local_mutex_); |
| bool force_init_encode_failed_ RTC_GUARDED_BY(local_mutex_) = false; |
| double rate_factor_ RTC_GUARDED_BY(local_mutex_) = 1.0; |
| uint32_t last_framerate_ RTC_GUARDED_BY(local_mutex_) = 0; |
| std::optional<VideoEncoder::RateControlParameters> |
| last_rate_control_settings_; |
| VideoFrame::UpdateRect last_update_rect_ RTC_GUARDED_BY(local_mutex_) = { |
| 0, 0, 0, 0}; |
| std::vector<VideoFrameType> last_frame_types_; |
| bool expect_null_frame_ = false; |
| EncodedImageCallback* encoded_image_callback_ RTC_GUARDED_BY(local_mutex_) = |
| nullptr; |
| NiceMock<MockFecControllerOverride> fec_controller_override_; |
| std::vector<ResolutionBitrateLimits> resolution_bitrate_limits_ |
| RTC_GUARDED_BY(local_mutex_); |
| int num_set_rates_ RTC_GUARDED_BY(local_mutex_) = 0; |
| std::optional<VideoFrameBuffer::Type> last_input_pixel_format_ |
| RTC_GUARDED_BY(local_mutex_); |
| absl::InlinedVector<VideoFrameBuffer::Type, kMaxPreferredPixelFormats> |
| preferred_pixel_formats_ RTC_GUARDED_BY(local_mutex_); |
| std::optional<bool> is_qp_trusted_ RTC_GUARDED_BY(local_mutex_); |
| VideoCodecComplexity last_encoder_complexity_ RTC_GUARDED_BY(local_mutex_){ |
| VideoCodecComplexity::kComplexityNormal}; |
| }; |
| |
| class TestSink : public VideoStreamEncoder::EncoderSink { |
| public: |
| TestSink(TimeController* time_controller, TestEncoder* test_encoder) |
| : time_controller_(time_controller), test_encoder_(test_encoder) { |
| RTC_DCHECK(time_controller_); |
| } |
| |
| void WaitForEncodedFrame(int64_t expected_ntp_time) { |
| EXPECT_TRUE(TimedWaitForEncodedFrame(expected_ntp_time, kDefaultTimeout)); |
| } |
| |
| bool TimedWaitForEncodedFrame(int64_t expected_ntp_time, |
| TimeDelta timeout) { |
| uint32_t timestamp = 0; |
| if (!WaitForFrame(timeout)) |
| return false; |
| { |
| MutexLock lock(&mutex_); |
| timestamp = last_timestamp_; |
| } |
| test_encoder_->CheckLastTimeStampsMatch(expected_ntp_time, timestamp); |
| return true; |
| } |
| |
| void WaitForEncodedFrame(uint32_t expected_width, |
| uint32_t expected_height) { |
| EXPECT_TRUE(WaitForFrame(kDefaultTimeout)); |
| CheckLastFrameSizeMatches(expected_width, expected_height); |
| } |
| |
| void CheckLastFrameSizeMatches(uint32_t expected_width, |
| uint32_t expected_height) { |
| uint32_t width = 0; |
| uint32_t height = 0; |
| { |
| MutexLock lock(&mutex_); |
| width = last_width_; |
| height = last_height_; |
| } |
| EXPECT_EQ(expected_height, height); |
| EXPECT_EQ(expected_width, width); |
| } |
| |
| void CheckLastFrameRotationMatches(VideoRotation expected_rotation) { |
| VideoRotation rotation; |
| { |
| MutexLock lock(&mutex_); |
| rotation = last_rotation_; |
| } |
| EXPECT_EQ(expected_rotation, rotation); |
| } |
| |
| void ExpectDroppedFrame() { |
| EXPECT_FALSE(WaitForFrame(TimeDelta::Millis(100))); |
| } |
| |
| bool WaitForFrame(TimeDelta timeout) { |
| RTC_DCHECK(time_controller_->GetMainThread()->IsCurrent()); |
| time_controller_->AdvanceTime(TimeDelta::Zero()); |
| bool ret = encoded_frame_event_.Wait(timeout); |
| time_controller_->AdvanceTime(TimeDelta::Zero()); |
| return ret; |
| } |
| |
| void SetExpectNoFrames() { |
| MutexLock lock(&mutex_); |
| expect_frames_ = false; |
| } |
| |
| int number_of_reconfigurations() const { |
| MutexLock lock(&mutex_); |
| return number_of_reconfigurations_; |
| } |
| |
| int last_min_transmit_bitrate() const { |
| MutexLock lock(&mutex_); |
| return min_transmit_bitrate_bps_; |
| } |
| |
| void SetNumExpectedLayers(size_t num_layers) { |
| MutexLock lock(&mutex_); |
| num_expected_layers_ = num_layers; |
| } |
| |
| int64_t GetLastCaptureTimeMs() const { |
| MutexLock lock(&mutex_); |
| return last_capture_time_ms_; |
| } |
| |
| const EncodedImage& GetLastEncodedImage() { |
| MutexLock lock(&mutex_); |
| return last_encoded_image_; |
| } |
| |
| std::vector<uint8_t> GetLastEncodedImageData() { |
| MutexLock lock(&mutex_); |
| return std::move(last_encoded_image_data_); |
| } |
| |
| VideoBitrateAllocation GetLastVideoBitrateAllocation() { |
| MutexLock lock(&mutex_); |
| return last_bitrate_allocation_; |
| } |
| |
| int number_of_bitrate_allocations() const { |
| MutexLock lock(&mutex_); |
| return number_of_bitrate_allocations_; |
| } |
| |
| VideoLayersAllocation GetLastVideoLayersAllocation() { |
| MutexLock lock(&mutex_); |
| return last_layers_allocation_; |
| } |
| |
| int number_of_layers_allocations() const { |
| MutexLock lock(&mutex_); |
| return number_of_layers_allocations_; |
| } |
| |
| std::optional< |
| absl::variant<FrameInstrumentationSyncData, FrameInstrumentationData>> |
| GetLastFrameInstrumentationData() const { |
| MutexLock lock(&mutex_); |
| return last_frame_instrumentation_data_; |
| } |
| |
| private: |
| Result OnEncodedImage( |
| const EncodedImage& encoded_image, |
| const CodecSpecificInfo* codec_specific_info) override { |
| MutexLock lock(&mutex_); |
| EXPECT_TRUE(expect_frames_); |
| last_encoded_image_ = EncodedImage(encoded_image); |
| last_encoded_image_data_ = std::vector<uint8_t>( |
| encoded_image.data(), encoded_image.data() + encoded_image.size()); |
| uint32_t timestamp = encoded_image.RtpTimestamp(); |
| if (last_timestamp_ != timestamp) { |
| num_received_layers_ = 1; |
| last_width_ = encoded_image._encodedWidth; |
| last_height_ = encoded_image._encodedHeight; |
| } else { |
| ++num_received_layers_; |
| last_width_ = std::max(encoded_image._encodedWidth, last_width_); |
| last_height_ = std::max(encoded_image._encodedHeight, last_height_); |
| } |
| last_timestamp_ = timestamp; |
| last_capture_time_ms_ = encoded_image.capture_time_ms_; |
| last_rotation_ = encoded_image.rotation_; |
| if (num_received_layers_ == num_expected_layers_) { |
| encoded_frame_event_.Set(); |
| } |
| if (codec_specific_info && |
| codec_specific_info->frame_instrumentation_data.has_value()) { |
| last_frame_instrumentation_data_ = |
| codec_specific_info->frame_instrumentation_data; |
| } |
| |
| return Result(Result::OK, last_timestamp_); |
| } |
| |
| void OnEncoderConfigurationChanged( |
| std::vector<VideoStream> streams, |
| bool is_svc, |
| VideoEncoderConfig::ContentType content_type, |
| int min_transmit_bitrate_bps) override { |
| MutexLock lock(&mutex_); |
| ++number_of_reconfigurations_; |
| min_transmit_bitrate_bps_ = min_transmit_bitrate_bps; |
| } |
| |
| void OnBitrateAllocationUpdated( |
| const VideoBitrateAllocation& allocation) override { |
| MutexLock lock(&mutex_); |
| ++number_of_bitrate_allocations_; |
| last_bitrate_allocation_ = allocation; |
| } |
| |
| void OnVideoLayersAllocationUpdated( |
| VideoLayersAllocation allocation) override { |
| MutexLock lock(&mutex_); |
| ++number_of_layers_allocations_; |
| last_layers_allocation_ = allocation; |
| rtc::StringBuilder log; |
| for (const auto& layer : allocation.active_spatial_layers) { |
| log << layer.width << "x" << layer.height << "@" << layer.frame_rate_fps |
| << "["; |
| for (const auto target_bitrate : |
| layer.target_bitrate_per_temporal_layer) { |
| log << target_bitrate.kbps() << ","; |
| } |
| log << "]"; |
| } |
| RTC_DLOG(LS_INFO) << "OnVideoLayersAllocationUpdated " << log.str(); |
| } |
| |
| TimeController* const time_controller_; |
| mutable Mutex mutex_; |
| TestEncoder* test_encoder_; |
| rtc::Event encoded_frame_event_; |
| EncodedImage last_encoded_image_; |
| std::vector<uint8_t> last_encoded_image_data_; |
| uint32_t last_timestamp_ = 0; |
| int64_t last_capture_time_ms_ = 0; |
| uint32_t last_height_ = 0; |
| uint32_t last_width_ = 0; |
| VideoRotation last_rotation_ = kVideoRotation_0; |
| size_t num_expected_layers_ = 1; |
| size_t num_received_layers_ = 0; |
| bool expect_frames_ = true; |
| int number_of_reconfigurations_ = 0; |
| int min_transmit_bitrate_bps_ = 0; |
| VideoBitrateAllocation last_bitrate_allocation_ RTC_GUARDED_BY(&mutex_); |
| int number_of_bitrate_allocations_ RTC_GUARDED_BY(&mutex_) = 0; |
| VideoLayersAllocation last_layers_allocation_ RTC_GUARDED_BY(&mutex_); |
| int number_of_layers_allocations_ RTC_GUARDED_BY(&mutex_) = 0; |
| std::optional< |
| absl::variant<FrameInstrumentationSyncData, FrameInstrumentationData>> |
| last_frame_instrumentation_data_ RTC_GUARDED_BY(&mutex_); |
| }; |
| |
| class VideoBitrateAllocatorProxyFactory |
| : public VideoBitrateAllocatorFactory { |
| public: |
| VideoBitrateAllocatorProxyFactory() |
| : bitrate_allocator_factory_( |
| CreateBuiltinVideoBitrateAllocatorFactory()) {} |
| |
| std::unique_ptr<VideoBitrateAllocator> Create( |
| const Environment& env, |
| const VideoCodec& codec) override { |
| MutexLock lock(&mutex_); |
| codec_config_ = codec; |
| return bitrate_allocator_factory_->Create(env, codec); |
| } |
| |
| VideoCodec codec_config() const { |
| MutexLock lock(&mutex_); |
| return codec_config_; |
| } |
| |
| private: |
| std::unique_ptr<VideoBitrateAllocatorFactory> bitrate_allocator_factory_; |
| |
| mutable Mutex mutex_; |
| VideoCodec codec_config_ RTC_GUARDED_BY(mutex_); |
| }; |
| |
| Clock* clock() { return time_controller_.GetClock(); } |
| void AdvanceTime(TimeDelta duration) { |
| time_controller_.AdvanceTime(duration); |
| } |
| |
| int64_t CurrentTimeMs() { return clock()->CurrentTime().ms(); } |
| |
| protected: |
| test::ScopedKeyValueConfig field_trials_; |
| GlobalSimulatedTimeController time_controller_{Timestamp::Micros(1234)}; |
| const Environment env_ = |
| CreateEnvironment(&field_trials_, |
| time_controller_.GetClock(), |
| time_controller_.GetTaskQueueFactory()); |
| VideoSendStream::Config video_send_config_; |
| VideoEncoderConfig video_encoder_config_; |
| int codec_width_; |
| int codec_height_; |
| int max_framerate_; |
| TestEncoder fake_encoder_; |
| test::VideoEncoderProxyFactory encoder_factory_; |
| VideoBitrateAllocatorProxyFactory bitrate_allocator_factory_; |
| std::unique_ptr<MockableSendStatisticsProxy> stats_proxy_; |
| TestSink sink_; |
| AdaptingFrameForwarder video_source_{&time_controller_}; |
| std::unique_ptr<VideoStreamEncoderUnderTest> video_stream_encoder_; |
| }; |
| |
| TEST_F(VideoStreamEncoderTest, EncodeOneFrame) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| rtc::Event frame_destroyed_event; |
| video_source_.IncomingCapturedFrame(CreateFrame(1, &frame_destroyed_event)); |
| WaitForEncodedFrame(1); |
| EXPECT_TRUE(frame_destroyed_event.Wait(kDefaultTimeout)); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, PopulatesFrameInstrumentationDataWhenSetTo) { |
| video_send_config_.encoder_settings.enable_frame_instrumentation_generator = |
| true; |
| ConfigureEncoder(video_encoder_config_.Copy()); |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // We need a QP for the encoded frame. |
| fake_encoder_.SetEncodedImageData(EncodedImageBuffer::Create( |
| kCodedFrameVp8Qp25, sizeof(kCodedFrameVp8Qp25))); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(1, codec_width_, codec_height_)); |
| WaitForEncodedFrame(1); |
| |
| EXPECT_TRUE(sink_.GetLastFrameInstrumentationData().has_value()); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| DoesNotPopulateFrameInstrumentationDataWhenSetNotTo) { |
| video_send_config_.encoder_settings.enable_frame_instrumentation_generator = |
| false; |
| ConfigureEncoder(video_encoder_config_.Copy()); |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // We need a QP for the encoded frame. |
| fake_encoder_.SetEncodedImageData(EncodedImageBuffer::Create( |
| kCodedFrameVp8Qp25, sizeof(kCodedFrameVp8Qp25))); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(1, codec_width_, codec_height_)); |
| WaitForEncodedFrame(1); |
| |
| EXPECT_FALSE(sink_.GetLastFrameInstrumentationData().has_value()); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, DropsFramesBeforeFirstOnBitrateUpdated) { |
| // Dropped since no target bitrate has been set. |
| rtc::Event frame_destroyed_event; |
| // The encoder will cache up to one frame for a short duration. Adding two |
| // frames means that the first frame will be dropped and the second frame will |
| // be sent when the encoder is enabled. |
| const int64_t kFrame1TimestampMs = CurrentTimeMs(); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(kFrame1TimestampMs, &frame_destroyed_event)); |
| AdvanceTime(TimeDelta::Millis(10)); |
| const int64_t kFrame2TimestampMs = CurrentTimeMs(); |
| video_source_.IncomingCapturedFrame(CreateFrame(kFrame2TimestampMs, nullptr)); |
| AdvanceTime(TimeDelta::Zero()); |
| EXPECT_TRUE(frame_destroyed_event.Wait(kDefaultTimeout)); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // The pending frame should be encoded. |
| WaitForEncodedFrame(kFrame2TimestampMs); |
| |
| const int64_t kFrame3TimestampMs = CurrentTimeMs(); |
| video_source_.IncomingCapturedFrame(CreateFrame(kFrame3TimestampMs, nullptr)); |
| |
| WaitForEncodedFrame(kFrame3TimestampMs); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, DropsFramesWhenRateSetToZero) { |
| int64_t time_ms = 123; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| video_source_.IncomingCapturedFrame(CreateFrame(time_ms, nullptr)); |
| WaitForEncodedFrame(time_ms); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| DataRate::Zero(), DataRate::Zero(), DataRate::Zero(), 0, 0, 0); |
| |
| // The encoder will cache up to one frame for a short duration. Adding two |
| // frames means that the first frame will be dropped and the second frame will |
| // be sent when the encoder is resumed. |
| time_ms += 30; |
| video_source_.IncomingCapturedFrame(CreateFrame(time_ms, nullptr)); |
| time_ms += 30; |
| video_source_.IncomingCapturedFrame(CreateFrame(time_ms, nullptr)); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| WaitForEncodedFrame(time_ms); |
| time_ms += 20; |
| video_source_.IncomingCapturedFrame(CreateFrame(time_ms, nullptr)); |
| WaitForEncodedFrame(time_ms); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, DropsFramesWithSameOrOldNtpTimestamp) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| video_source_.IncomingCapturedFrame(CreateFrame(1, nullptr)); |
| WaitForEncodedFrame(1); |
| |
| // This frame will be dropped since it has the same ntp timestamp. |
| video_source_.IncomingCapturedFrame(CreateFrame(1, nullptr)); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(2, nullptr)); |
| WaitForEncodedFrame(2); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, DropsFrameAfterStop) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(1, nullptr)); |
| WaitForEncodedFrame(1); |
| |
| video_stream_encoder_->Stop(); |
| sink_.SetExpectNoFrames(); |
| rtc::Event frame_destroyed_event; |
| video_source_.IncomingCapturedFrame(CreateFrame(2, &frame_destroyed_event)); |
| EXPECT_TRUE(frame_destroyed_event.Wait(kDefaultTimeout)); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, DropsPendingFramesOnSlowEncode) { |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource(&source, |
| DegradationPreference::MAINTAIN_FRAMERATE); |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| int dropped_count = 0; |
| stats_proxy_->SetDroppedFrameCallback( |
| [&dropped_count](VideoStreamEncoderObserver::DropReason) { |
| ++dropped_count; |
| }); |
| |
| source.IncomingCapturedFrame(CreateFrame(1, nullptr)); |
| source.IncomingCapturedFrame(CreateFrame(2, nullptr)); |
| WaitForEncodedFrame(2); |
| video_stream_encoder_->Stop(); |
| EXPECT_EQ(1, dropped_count); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, NativeFrameWithoutI420SupportGetsDelivered) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| rtc::Event frame_destroyed_event; |
| video_source_.IncomingCapturedFrame( |
| CreateFakeNativeFrame(1, &frame_destroyed_event)); |
| WaitForEncodedFrame(1); |
| EXPECT_EQ(VideoFrameBuffer::Type::kNative, |
| fake_encoder_.GetLastInputPixelFormat()); |
| EXPECT_EQ(fake_encoder_.config().width, fake_encoder_.GetLastInputWidth()); |
| EXPECT_EQ(fake_encoder_.config().height, fake_encoder_.GetLastInputHeight()); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| NativeFrameWithoutI420SupportGetsCroppedIfNecessary) { |
| // Use the cropping factory. |
| video_encoder_config_.video_stream_factory = |
| rtc::make_ref_counted<CroppingVideoStreamFactory>(); |
| video_stream_encoder_->ConfigureEncoder(std::move(video_encoder_config_), |
| kMaxPayloadLength); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| // Capture a frame at codec_width_/codec_height_. |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| video_source_.IncomingCapturedFrame(CreateFrame(1, nullptr)); |
| WaitForEncodedFrame(1); |
| // The encoder will have been configured once. |
| EXPECT_EQ(1, sink_.number_of_reconfigurations()); |
| EXPECT_EQ(codec_width_, fake_encoder_.config().width); |
| EXPECT_EQ(codec_height_, fake_encoder_.config().height); |
| |
| // Now send in a fake frame that needs to be cropped as the width/height |
| // aren't divisible by 4 (see CreateEncoderStreams above). |
| rtc::Event frame_destroyed_event; |
| video_source_.IncomingCapturedFrame(CreateFakeNativeFrame( |
| 2, &frame_destroyed_event, codec_width_ + 1, codec_height_ + 1)); |
| WaitForEncodedFrame(2); |
| EXPECT_EQ(VideoFrameBuffer::Type::kNative, |
| fake_encoder_.GetLastInputPixelFormat()); |
| EXPECT_EQ(fake_encoder_.config().width, fake_encoder_.GetLastInputWidth()); |
| EXPECT_EQ(fake_encoder_.config().height, fake_encoder_.GetLastInputHeight()); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, NonI420FramesShouldNotBeConvertedToI420) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| video_source_.IncomingCapturedFrame( |
| CreateNV12Frame(1, codec_width_, codec_height_)); |
| WaitForEncodedFrame(1); |
| EXPECT_EQ(VideoFrameBuffer::Type::kNV12, |
| fake_encoder_.GetLastInputPixelFormat()); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, NativeFrameGetsDelivered_NoFrameTypePreference) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| fake_encoder_.SetPreferredPixelFormats({}); |
| |
| rtc::Event frame_destroyed_event; |
| video_source_.IncomingCapturedFrame(CreateFakeNV12NativeFrame( |
| 1, &frame_destroyed_event, codec_width_, codec_height_)); |
| WaitForEncodedFrame(1); |
| EXPECT_EQ(VideoFrameBuffer::Type::kNative, |
| fake_encoder_.GetLastInputPixelFormat()); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| NativeFrameGetsDelivered_PixelFormatPreferenceMatches) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| fake_encoder_.SetPreferredPixelFormats({VideoFrameBuffer::Type::kNV12}); |
| |
| rtc::Event frame_destroyed_event; |
| video_source_.IncomingCapturedFrame(CreateFakeNV12NativeFrame( |
| 1, &frame_destroyed_event, codec_width_, codec_height_)); |
| WaitForEncodedFrame(1); |
| EXPECT_EQ(VideoFrameBuffer::Type::kNative, |
| fake_encoder_.GetLastInputPixelFormat()); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, NativeFrameGetsDelivered_MappingIsNotFeasible) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Fake NV12 native frame does not allow mapping to I444. |
| fake_encoder_.SetPreferredPixelFormats({VideoFrameBuffer::Type::kI444}); |
| |
| rtc::Event frame_destroyed_event; |
| video_source_.IncomingCapturedFrame(CreateFakeNV12NativeFrame( |
| 1, &frame_destroyed_event, codec_width_, codec_height_)); |
| WaitForEncodedFrame(1); |
| EXPECT_EQ(VideoFrameBuffer::Type::kNative, |
| fake_encoder_.GetLastInputPixelFormat()); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, NativeFrameGetsDelivered_BackedByNV12) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| rtc::Event frame_destroyed_event; |
| video_source_.IncomingCapturedFrame(CreateFakeNV12NativeFrame( |
| 1, &frame_destroyed_event, codec_width_, codec_height_)); |
| WaitForEncodedFrame(1); |
| EXPECT_EQ(VideoFrameBuffer::Type::kNative, |
| fake_encoder_.GetLastInputPixelFormat()); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, DropsFramesWhenCongestionWindowPushbackSet) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| video_source_.IncomingCapturedFrame(CreateFrame(1, nullptr)); |
| WaitForEncodedFrame(1); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0.5); |
| // The congestion window pushback is set to 0.5, which will drop 1/2 of |
| // frames. Adding two frames means that the first frame will be dropped and |
| // the second frame will be sent to the encoder. |
| video_source_.IncomingCapturedFrame(CreateFrame(2, nullptr)); |
| video_source_.IncomingCapturedFrame(CreateFrame(3, nullptr)); |
| WaitForEncodedFrame(3); |
| video_source_.IncomingCapturedFrame(CreateFrame(4, nullptr)); |
| video_source_.IncomingCapturedFrame(CreateFrame(5, nullptr)); |
| WaitForEncodedFrame(5); |
| EXPECT_EQ(2u, stats_proxy_->GetStats().frames_dropped_by_congestion_window); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| ConfigureEncoderTriggersOnEncoderConfigurationChanged) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| EXPECT_EQ(0, sink_.number_of_reconfigurations()); |
| |
| // Capture a frame and wait for it to synchronize with the encoder thread. |
| video_source_.IncomingCapturedFrame(CreateFrame(1, nullptr)); |
| WaitForEncodedFrame(1); |
| // The encoder will have been configured once when the first frame is |
| // received. |
| EXPECT_EQ(1, sink_.number_of_reconfigurations()); |
| |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(kVideoCodecVP8, 1, &video_encoder_config); |
| video_encoder_config.min_transmit_bitrate_bps = 9999; |
| video_stream_encoder_->ConfigureEncoder(std::move(video_encoder_config), |
| kMaxPayloadLength); |
| |
| // Capture a frame and wait for it to synchronize with the encoder thread. |
| video_source_.IncomingCapturedFrame(CreateFrame(2, nullptr)); |
| WaitForEncodedFrame(2); |
| EXPECT_EQ(2, sink_.number_of_reconfigurations()); |
| EXPECT_EQ(9999, sink_.last_min_transmit_bitrate()); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, FrameResolutionChangeReconfigureEncoder) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Capture a frame and wait for it to synchronize with the encoder thread. |
| video_source_.IncomingCapturedFrame(CreateFrame(1, nullptr)); |
| WaitForEncodedFrame(1); |
| // The encoder will have been configured once. |
| EXPECT_EQ(1, sink_.number_of_reconfigurations()); |
| EXPECT_EQ(codec_width_, fake_encoder_.config().width); |
| EXPECT_EQ(codec_height_, fake_encoder_.config().height); |
| |
| codec_width_ *= 2; |
| codec_height_ *= 2; |
| // Capture a frame with a higher resolution and wait for it to synchronize |
| // with the encoder thread. |
| video_source_.IncomingCapturedFrame(CreateFrame(2, nullptr)); |
| WaitForEncodedFrame(2); |
| EXPECT_EQ(codec_width_, fake_encoder_.config().width); |
| EXPECT_EQ(codec_height_, fake_encoder_.config().height); |
| EXPECT_EQ(2, sink_.number_of_reconfigurations()); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| EncoderInstanceDestroyedBeforeAnotherInstanceCreated) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Capture a frame and wait for it to synchronize with the encoder thread. |
| video_source_.IncomingCapturedFrame(CreateFrame(1, nullptr)); |
| WaitForEncodedFrame(1); |
| |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(kVideoCodecVP8, 1, &video_encoder_config); |
| // Changing the max payload data length recreates encoder. |
| video_stream_encoder_->ConfigureEncoder(std::move(video_encoder_config), |
| kMaxPayloadLength / 2); |
| |
| // Capture a frame and wait for it to synchronize with the encoder thread. |
| video_source_.IncomingCapturedFrame(CreateFrame(2, nullptr)); |
| WaitForEncodedFrame(2); |
| EXPECT_EQ(1, encoder_factory_.GetMaxNumberOfSimultaneousEncoderInstances()); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, BitrateLimitsChangeReconfigureRateAllocator) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(kVideoCodecVP8, 1, &video_encoder_config); |
| video_encoder_config.max_bitrate_bps = kTargetBitrate.bps(); |
| video_stream_encoder_->SetStartBitrate(kStartBitrate.bps()); |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config.Copy(), |
| kMaxPayloadLength); |
| |
| // Capture a frame and wait for it to synchronize with the encoder thread. |
| video_source_.IncomingCapturedFrame(CreateFrame(1, nullptr)); |
| WaitForEncodedFrame(1); |
| // The encoder will have been configured once when the first frame is |
| // received. |
| EXPECT_EQ(1, sink_.number_of_reconfigurations()); |
| EXPECT_EQ(kTargetBitrate.bps(), |
| bitrate_allocator_factory_.codec_config().maxBitrate * 1000); |
| EXPECT_EQ(kStartBitrate.bps(), |
| bitrate_allocator_factory_.codec_config().startBitrate * 1000); |
| |
| test::FillEncoderConfiguration(kVideoCodecVP8, 1, |
| &video_encoder_config); //??? |
| video_encoder_config.max_bitrate_bps = kTargetBitrate.bps() * 2; |
| video_stream_encoder_->SetStartBitrate(kStartBitrate.bps() * 2); |
| video_stream_encoder_->ConfigureEncoder(std::move(video_encoder_config), |
| kMaxPayloadLength); |
| |
| // Capture a frame and wait for it to synchronize with the encoder thread. |
| video_source_.IncomingCapturedFrame(CreateFrame(2, nullptr)); |
| WaitForEncodedFrame(2); |
| EXPECT_EQ(2, sink_.number_of_reconfigurations()); |
| // Bitrate limits have changed - rate allocator should be reconfigured, |
| // encoder should not be reconfigured. |
| EXPECT_EQ(kTargetBitrate.bps() * 2, |
| bitrate_allocator_factory_.codec_config().maxBitrate * 1000); |
| EXPECT_EQ(kStartBitrate.bps() * 2, |
| bitrate_allocator_factory_.codec_config().startBitrate * 1000); |
| EXPECT_EQ(1, fake_encoder_.GetNumInitializations()); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| IntersectionOfEncoderAndAppBitrateLimitsUsedWhenBothProvided) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| const uint32_t kMinEncBitrateKbps = 100; |
| const uint32_t kMaxEncBitrateKbps = 1000; |
| const VideoEncoder::ResolutionBitrateLimits encoder_bitrate_limits( |
| /*frame_size_pixels=*/codec_width_ * codec_height_, |
| /*min_start_bitrate_bps=*/0, |
| /*min_bitrate_bps=*/kMinEncBitrateKbps * 1000, |
| /*max_bitrate_bps=*/kMaxEncBitrateKbps * 1000); |
| fake_encoder_.SetResolutionBitrateLimits({encoder_bitrate_limits}); |
| |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(kVideoCodecVP8, 1, &video_encoder_config); |
| video_encoder_config.max_bitrate_bps = (kMaxEncBitrateKbps + 1) * 1000; |
| video_encoder_config.simulcast_layers[0].min_bitrate_bps = |
| (kMinEncBitrateKbps + 1) * 1000; |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config.Copy(), |
| kMaxPayloadLength); |
| |
| // When both encoder and app provide bitrate limits, the intersection of |
| // provided sets should be used. |
| video_source_.IncomingCapturedFrame(CreateFrame(1, nullptr)); |
| WaitForEncodedFrame(1); |
| EXPECT_EQ(kMaxEncBitrateKbps, |
| bitrate_allocator_factory_.codec_config().maxBitrate); |
| EXPECT_EQ(kMinEncBitrateKbps + 1, |
| bitrate_allocator_factory_.codec_config().minBitrate); |
| |
| video_encoder_config.max_bitrate_bps = (kMaxEncBitrateKbps - 1) * 1000; |
| video_encoder_config.simulcast_layers[0].min_bitrate_bps = |
| (kMinEncBitrateKbps - 1) * 1000; |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config.Copy(), |
| kMaxPayloadLength); |
| video_source_.IncomingCapturedFrame(CreateFrame(2, nullptr)); |
| WaitForEncodedFrame(2); |
| EXPECT_EQ(kMaxEncBitrateKbps - 1, |
| bitrate_allocator_factory_.codec_config().maxBitrate); |
| EXPECT_EQ(kMinEncBitrateKbps, |
| bitrate_allocator_factory_.codec_config().minBitrate); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| EncoderAndAppLimitsDontIntersectEncoderLimitsIgnored) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| const uint32_t kMinAppBitrateKbps = 100; |
| const uint32_t kMaxAppBitrateKbps = 200; |
| const uint32_t kMinEncBitrateKbps = kMaxAppBitrateKbps + 1; |
| const uint32_t kMaxEncBitrateKbps = kMaxAppBitrateKbps * 2; |
| const VideoEncoder::ResolutionBitrateLimits encoder_bitrate_limits( |
| /*frame_size_pixels=*/codec_width_ * codec_height_, |
| /*min_start_bitrate_bps=*/0, |
| /*min_bitrate_bps=*/kMinEncBitrateKbps * 1000, |
| /*max_bitrate_bps=*/kMaxEncBitrateKbps * 1000); |
| fake_encoder_.SetResolutionBitrateLimits({encoder_bitrate_limits}); |
| |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(kVideoCodecVP8, 1, &video_encoder_config); |
| video_encoder_config.max_bitrate_bps = kMaxAppBitrateKbps * 1000; |
| video_encoder_config.simulcast_layers[0].min_bitrate_bps = |
| kMinAppBitrateKbps * 1000; |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config.Copy(), |
| kMaxPayloadLength); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(1, nullptr)); |
| WaitForEncodedFrame(1); |
| EXPECT_EQ(kMaxAppBitrateKbps, |
| bitrate_allocator_factory_.codec_config().maxBitrate); |
| EXPECT_EQ(kMinAppBitrateKbps, |
| bitrate_allocator_factory_.codec_config().minBitrate); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| EncoderRecommendedMaxAndMinBitratesUsedForGivenResolution) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| const VideoEncoder::ResolutionBitrateLimits encoder_bitrate_limits_270p( |
| 480 * 270, 34 * 1000, 12 * 1000, 1234 * 1000); |
| const VideoEncoder::ResolutionBitrateLimits encoder_bitrate_limits_360p( |
| 640 * 360, 43 * 1000, 21 * 1000, 2345 * 1000); |
| fake_encoder_.SetResolutionBitrateLimits( |
| {encoder_bitrate_limits_270p, encoder_bitrate_limits_360p}); |
| |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(kVideoCodecVP8, 1, &video_encoder_config); |
| video_encoder_config.max_bitrate_bps = 0; |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config.Copy(), |
| kMaxPayloadLength); |
| |
| // 270p. The bitrate limits recommended by encoder for 270p should be used. |
| video_source_.IncomingCapturedFrame(CreateFrame(1, 480, 270)); |
| WaitForEncodedFrame(1); |
| EXPECT_EQ(static_cast<uint32_t>(encoder_bitrate_limits_270p.min_bitrate_bps), |
| bitrate_allocator_factory_.codec_config().minBitrate * 1000); |
| EXPECT_EQ(static_cast<uint32_t>(encoder_bitrate_limits_270p.max_bitrate_bps), |
| bitrate_allocator_factory_.codec_config().maxBitrate * 1000); |
| |
| // 360p. The bitrate limits recommended by encoder for 360p should be used. |
| video_source_.IncomingCapturedFrame(CreateFrame(2, 640, 360)); |
| WaitForEncodedFrame(2); |
| EXPECT_EQ(static_cast<uint32_t>(encoder_bitrate_limits_360p.min_bitrate_bps), |
| bitrate_allocator_factory_.codec_config().minBitrate * 1000); |
| EXPECT_EQ(static_cast<uint32_t>(encoder_bitrate_limits_360p.max_bitrate_bps), |
| bitrate_allocator_factory_.codec_config().maxBitrate * 1000); |
| |
| // Resolution between 270p and 360p. The bitrate limits recommended by |
| // encoder for 360p should be used. |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(3, (640 + 480) / 2, (360 + 270) / 2)); |
| WaitForEncodedFrame(3); |
| EXPECT_EQ(static_cast<uint32_t>(encoder_bitrate_limits_360p.min_bitrate_bps), |
| bitrate_allocator_factory_.codec_config().minBitrate * 1000); |
| EXPECT_EQ(static_cast<uint32_t>(encoder_bitrate_limits_360p.max_bitrate_bps), |
| bitrate_allocator_factory_.codec_config().maxBitrate * 1000); |
| |
| // Resolution higher than 360p. The caps recommended by encoder should be |
| // ignored. |
| video_source_.IncomingCapturedFrame(CreateFrame(4, 960, 540)); |
| WaitForEncodedFrame(4); |
| EXPECT_NE(static_cast<uint32_t>(encoder_bitrate_limits_270p.min_bitrate_bps), |
| bitrate_allocator_factory_.codec_config().minBitrate * 1000); |
| EXPECT_NE(static_cast<uint32_t>(encoder_bitrate_limits_270p.max_bitrate_bps), |
| bitrate_allocator_factory_.codec_config().maxBitrate * 1000); |
| EXPECT_NE(static_cast<uint32_t>(encoder_bitrate_limits_360p.min_bitrate_bps), |
| bitrate_allocator_factory_.codec_config().minBitrate * 1000); |
| EXPECT_NE(static_cast<uint32_t>(encoder_bitrate_limits_360p.max_bitrate_bps), |
| bitrate_allocator_factory_.codec_config().maxBitrate * 1000); |
| |
| // Resolution lower than 270p. The max bitrate limit recommended by encoder |
| // for 270p should be used. |
| video_source_.IncomingCapturedFrame(CreateFrame(5, 320, 180)); |
| WaitForEncodedFrame(5); |
| EXPECT_EQ(static_cast<uint32_t>(encoder_bitrate_limits_270p.min_bitrate_bps), |
| bitrate_allocator_factory_.codec_config().minBitrate * 1000); |
| EXPECT_EQ(static_cast<uint32_t>(encoder_bitrate_limits_270p.max_bitrate_bps), |
| bitrate_allocator_factory_.codec_config().maxBitrate * 1000); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, EncoderRecommendedMaxBitrateCapsTargetBitrate) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(kVideoCodecVP8, 1, &video_encoder_config); |
| video_encoder_config.max_bitrate_bps = 0; |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config.Copy(), |
| kMaxPayloadLength); |
| |
| // Encode 720p frame to get the default encoder target bitrate. |
| video_source_.IncomingCapturedFrame(CreateFrame(1, 1280, 720)); |
| WaitForEncodedFrame(1); |
| const uint32_t kDefaultTargetBitrateFor720pKbps = |
| bitrate_allocator_factory_.codec_config() |
| .simulcastStream[0] |
| .targetBitrate; |
| |
| // Set the max recommended encoder bitrate to something lower than the default |
| // target bitrate. |
| const VideoEncoder::ResolutionBitrateLimits encoder_bitrate_limits( |
| 1280 * 720, 10 * 1000, 10 * 1000, |
| kDefaultTargetBitrateFor720pKbps / 2 * 1000); |
| fake_encoder_.SetResolutionBitrateLimits({encoder_bitrate_limits}); |
| |
| // Change resolution to trigger encoder reinitialization. |
| video_source_.IncomingCapturedFrame(CreateFrame(2, 640, 360)); |
| WaitForEncodedFrame(2); |
| video_source_.IncomingCapturedFrame(CreateFrame(3, 1280, 720)); |
| WaitForEncodedFrame(3); |
| |
| // Ensure the target bitrate is capped by the max bitrate. |
| EXPECT_EQ(bitrate_allocator_factory_.codec_config().maxBitrate * 1000, |
| static_cast<uint32_t>(encoder_bitrate_limits.max_bitrate_bps)); |
| EXPECT_EQ(bitrate_allocator_factory_.codec_config() |
| .simulcastStream[0] |
| .targetBitrate * |
| 1000, |
| static_cast<uint32_t>(encoder_bitrate_limits.max_bitrate_bps)); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| EncoderMaxAndMinBitratesUsedForTwoStreamsHighestActive) { |
| const VideoEncoder::ResolutionBitrateLimits kEncoderLimits270p( |
| 480 * 270, 34 * 1000, 12 * 1000, 1234 * 1000); |
| const VideoEncoder::ResolutionBitrateLimits kEncoderLimits360p( |
| 640 * 360, 43 * 1000, 21 * 1000, 2345 * 1000); |
| fake_encoder_.SetResolutionBitrateLimits( |
| {kEncoderLimits270p, kEncoderLimits360p}); |
| |
| // Two streams, highest stream active. |
| VideoEncoderConfig config; |
| const int kNumStreams = 2; |
| test::FillEncoderConfiguration(kVideoCodecVP8, kNumStreams, &config); |
| config.max_bitrate_bps = 0; |
| config.simulcast_layers[0].active = false; |
| config.simulcast_layers[1].active = true; |
| config.video_stream_factory = nullptr; |
| video_stream_encoder_->ConfigureEncoder(config.Copy(), kMaxPayloadLength); |
| |
| // The encoder bitrate limits for 270p should be used. |
| video_source_.IncomingCapturedFrame(CreateFrame(1, 480, 270)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ(fake_encoder_.config().numberOfSimulcastStreams, kNumStreams); |
| EXPECT_EQ(static_cast<uint32_t>(kEncoderLimits270p.min_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].minBitrate * 1000); |
| EXPECT_EQ(static_cast<uint32_t>(kEncoderLimits270p.max_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].maxBitrate * 1000); |
| |
| // The encoder bitrate limits for 360p should be used. |
| video_source_.IncomingCapturedFrame(CreateFrame(2, 640, 360)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ(static_cast<uint32_t>(kEncoderLimits360p.min_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].minBitrate * 1000); |
| EXPECT_EQ(static_cast<uint32_t>(kEncoderLimits360p.max_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].maxBitrate * 1000); |
| |
| // Resolution b/w 270p and 360p. The encoder limits for 360p should be used. |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(3, (640 + 480) / 2, (360 + 270) / 2)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ(static_cast<uint32_t>(kEncoderLimits360p.min_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].minBitrate * 1000); |
| EXPECT_EQ(static_cast<uint32_t>(kEncoderLimits360p.max_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].maxBitrate * 1000); |
| |
| // Resolution higher than 360p. Encoder limits should be ignored. |
| video_source_.IncomingCapturedFrame(CreateFrame(4, 960, 540)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_NE(static_cast<uint32_t>(kEncoderLimits270p.min_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].minBitrate * 1000); |
| EXPECT_NE(static_cast<uint32_t>(kEncoderLimits270p.max_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].maxBitrate * 1000); |
| EXPECT_NE(static_cast<uint32_t>(kEncoderLimits360p.min_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].minBitrate * 1000); |
| EXPECT_NE(static_cast<uint32_t>(kEncoderLimits360p.max_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].maxBitrate * 1000); |
| |
| // Resolution lower than 270p. The encoder limits for 270p should be used. |
| video_source_.IncomingCapturedFrame(CreateFrame(5, 320, 180)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ(static_cast<uint32_t>(kEncoderLimits270p.min_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].minBitrate * 1000); |
| EXPECT_EQ(static_cast<uint32_t>(kEncoderLimits270p.max_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].maxBitrate * 1000); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| DefaultEncoderMaxAndMinBitratesUsedForTwoStreamsHighestActive) { |
| // Two streams, highest stream active. |
| VideoEncoderConfig config; |
| const int kNumStreams = 2; |
| test::FillEncoderConfiguration(kVideoCodecVP8, kNumStreams, &config); |
| config.max_bitrate_bps = 0; |
| config.simulcast_layers[0].active = false; |
| config.simulcast_layers[1].active = true; |
| config.video_stream_factory = nullptr; |
| video_stream_encoder_->ConfigureEncoder(config.Copy(), kMaxPayloadLength); |
| |
| // Default bitrate limits for 270p should be used. |
| const std::optional<VideoEncoder::ResolutionBitrateLimits> |
| kDefaultLimits270p = |
| EncoderInfoSettings::GetDefaultSinglecastBitrateLimitsForResolution( |
| kVideoCodecVP8, 480 * 270); |
| video_source_.IncomingCapturedFrame(CreateFrame(1, 480, 270)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ(fake_encoder_.config().numberOfSimulcastStreams, kNumStreams); |
| EXPECT_EQ(static_cast<uint32_t>(kDefaultLimits270p->min_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].minBitrate * 1000); |
| EXPECT_EQ(static_cast<uint32_t>(kDefaultLimits270p->max_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].maxBitrate * 1000); |
| |
| // Default bitrate limits for 360p should be used. |
| const std::optional<VideoEncoder::ResolutionBitrateLimits> |
| kDefaultLimits360p = |
| EncoderInfoSettings::GetDefaultSinglecastBitrateLimitsForResolution( |
| kVideoCodecVP8, 640 * 360); |
| video_source_.IncomingCapturedFrame(CreateFrame(2, 640, 360)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ(static_cast<uint32_t>(kDefaultLimits360p->min_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].minBitrate * 1000); |
| EXPECT_EQ(static_cast<uint32_t>(kDefaultLimits360p->max_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].maxBitrate * 1000); |
| |
| // Resolution b/w 270p and 360p. The default limits for 360p should be used. |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(3, (640 + 480) / 2, (360 + 270) / 2)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ(static_cast<uint32_t>(kDefaultLimits360p->min_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].minBitrate * 1000); |
| EXPECT_EQ(static_cast<uint32_t>(kDefaultLimits360p->max_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].maxBitrate * 1000); |
| |
| // Default bitrate limits for 540p should be used. |
| const std::optional<VideoEncoder::ResolutionBitrateLimits> |
| kDefaultLimits540p = |
| EncoderInfoSettings::GetDefaultSinglecastBitrateLimitsForResolution( |
| kVideoCodecVP8, 960 * 540); |
| video_source_.IncomingCapturedFrame(CreateFrame(4, 960, 540)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ(static_cast<uint32_t>(kDefaultLimits540p->min_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].minBitrate * 1000); |
| EXPECT_EQ(static_cast<uint32_t>(kDefaultLimits540p->max_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].maxBitrate * 1000); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| EncoderMaxAndMinBitratesUsedForThreeStreamsMiddleActive) { |
| const VideoEncoder::ResolutionBitrateLimits kEncoderLimits270p( |
| 480 * 270, 34 * 1000, 12 * 1000, 1234 * 1000); |
| const VideoEncoder::ResolutionBitrateLimits kEncoderLimits360p( |
| 640 * 360, 43 * 1000, 21 * 1000, 2345 * 1000); |
| const VideoEncoder::ResolutionBitrateLimits kEncoderLimits720p( |
| 1280 * 720, 54 * 1000, 31 * 1000, 3456 * 1000); |
| fake_encoder_.SetResolutionBitrateLimits( |
| {kEncoderLimits270p, kEncoderLimits360p, kEncoderLimits720p}); |
| |
| // Three streams, middle stream active. |
| VideoEncoderConfig config; |
| const int kNumStreams = 3; |
| test::FillEncoderConfiguration(kVideoCodecVP8, kNumStreams, &config); |
| config.simulcast_layers[0].active = false; |
| config.simulcast_layers[1].active = true; |
| config.simulcast_layers[2].active = false; |
| config.video_stream_factory = nullptr; |
| video_stream_encoder_->ConfigureEncoder(config.Copy(), kMaxPayloadLength); |
| |
| // The encoder bitrate limits for 360p should be used. |
| video_source_.IncomingCapturedFrame(CreateFrame(1, 1280, 720)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ(fake_encoder_.config().numberOfSimulcastStreams, kNumStreams); |
| EXPECT_EQ(static_cast<uint32_t>(kEncoderLimits360p.min_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].minBitrate * 1000); |
| EXPECT_EQ(static_cast<uint32_t>(kEncoderLimits360p.max_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].maxBitrate * 1000); |
| |
| // The encoder bitrate limits for 270p should be used. |
| video_source_.IncomingCapturedFrame(CreateFrame(2, 960, 540)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ(static_cast<uint32_t>(kEncoderLimits270p.min_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].minBitrate * 1000); |
| EXPECT_EQ(static_cast<uint32_t>(kEncoderLimits270p.max_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].maxBitrate * 1000); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| EncoderMaxAndMinBitratesNotUsedForThreeStreamsLowestActive) { |
| const VideoEncoder::ResolutionBitrateLimits kEncoderLimits270p( |
| 480 * 270, 34 * 1000, 12 * 1000, 1234 * 1000); |
| const VideoEncoder::ResolutionBitrateLimits kEncoderLimits360p( |
| 640 * 360, 43 * 1000, 21 * 1000, 2345 * 1000); |
| const VideoEncoder::ResolutionBitrateLimits kEncoderLimits720p( |
| 1280 * 720, 54 * 1000, 31 * 1000, 3456 * 1000); |
| fake_encoder_.SetResolutionBitrateLimits( |
| {kEncoderLimits270p, kEncoderLimits360p, kEncoderLimits720p}); |
| |
| // Three streams, lowest stream active. |
| VideoEncoderConfig config; |
| const int kNumStreams = 3; |
| test::FillEncoderConfiguration(kVideoCodecVP8, kNumStreams, &config); |
| config.simulcast_layers[0].active = true; |
| config.simulcast_layers[1].active = false; |
| config.simulcast_layers[2].active = false; |
| config.video_stream_factory = nullptr; |
| video_stream_encoder_->ConfigureEncoder(config.Copy(), kMaxPayloadLength); |
| |
| // Resolution on lowest stream lower than 270p. The encoder limits not applied |
| // on lowest stream, limits for 270p should not be used |
| video_source_.IncomingCapturedFrame(CreateFrame(1, 1280, 720)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ(fake_encoder_.config().numberOfSimulcastStreams, kNumStreams); |
| EXPECT_NE(static_cast<uint32_t>(kEncoderLimits270p.min_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].minBitrate * 1000); |
| EXPECT_NE(static_cast<uint32_t>(kEncoderLimits270p.max_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].maxBitrate * 1000); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| EncoderMaxBitrateCappedByConfigForTwoStreamsHighestActive) { |
| const VideoEncoder::ResolutionBitrateLimits kEncoderLimits270p( |
| 480 * 270, 34 * 1000, 12 * 1000, 1234 * 1000); |
| const VideoEncoder::ResolutionBitrateLimits kEncoderLimits360p( |
| 640 * 360, 43 * 1000, 21 * 1000, 2345 * 1000); |
| fake_encoder_.SetResolutionBitrateLimits( |
| {kEncoderLimits270p, kEncoderLimits360p}); |
| const int kMaxBitrateBps = kEncoderLimits360p.max_bitrate_bps - 100 * 1000; |
| |
| // Two streams, highest stream active. |
| VideoEncoderConfig config; |
| const int kNumStreams = 2; |
| test::FillEncoderConfiguration(kVideoCodecVP8, kNumStreams, &config); |
| config.simulcast_layers[0].active = false; |
| config.simulcast_layers[1].active = true; |
| config.simulcast_layers[1].max_bitrate_bps = kMaxBitrateBps; |
| config.video_stream_factory = nullptr; |
| video_stream_encoder_->ConfigureEncoder(config.Copy(), kMaxPayloadLength); |
| |
| // The encoder bitrate limits for 270p should be used. |
| video_source_.IncomingCapturedFrame(CreateFrame(1, 480, 270)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ(fake_encoder_.config().numberOfSimulcastStreams, kNumStreams); |
| EXPECT_EQ(static_cast<uint32_t>(kEncoderLimits270p.min_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].minBitrate * 1000); |
| EXPECT_EQ(static_cast<uint32_t>(kEncoderLimits270p.max_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].maxBitrate * 1000); |
| |
| // The max configured bitrate is less than the encoder limit for 360p. |
| video_source_.IncomingCapturedFrame(CreateFrame(2, 640, 360)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ(static_cast<uint32_t>(kEncoderLimits360p.min_bitrate_bps), |
| fake_encoder_.config().simulcastStream[1].minBitrate * 1000); |
| EXPECT_EQ(static_cast<uint32_t>(kMaxBitrateBps), |
| fake_encoder_.config().simulcastStream[1].maxBitrate * 1000); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, SwitchSourceDeregisterEncoderAsSink) { |
| EXPECT_TRUE(video_source_.has_sinks()); |
| test::FrameForwarder new_video_source; |
| video_stream_encoder_->SetSource( |
| &new_video_source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| EXPECT_FALSE(video_source_.has_sinks()); |
| EXPECT_TRUE(new_video_source.has_sinks()); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, SinkWantsRotationApplied) { |
| EXPECT_FALSE(video_source_.sink_wants().rotation_applied); |
| video_stream_encoder_->SetSink(&sink_, true /*rotation_applied*/); |
| EXPECT_TRUE(video_source_.sink_wants().rotation_applied); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, SinkWantsDefaultUnlimitedBeforeFirstFrame) { |
| ASSERT_TRUE(video_source_.has_sinks()); |
| EXPECT_THAT(video_source_.sink_wants(), UnlimitedSinkWants()); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| FrameRateLimitPropagatedToSinkWantsBeforeFirstFrame) { |
| ASSERT_THAT(video_encoder_config_.simulcast_layers, SizeIs(1)); |
| // Set max wanted frame rate. |
| video_encoder_config_.simulcast_layers[0].max_framerate = 15; |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config_.Copy(), |
| kMaxPayloadLength); |
| EXPECT_EQ(video_source_.sink_wants().max_framerate_fps, 15); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, FrameRateLimitIgnoredOnInactiveStreams) { |
| ASSERT_THAT(video_encoder_config_.simulcast_layers, SizeIs(1)); |
| VideoEncoderConfig encoder_config = video_encoder_config_.Copy(); |
| encoder_config.simulcast_layers.push_back(encoder_config.simulcast_layers[0]); |
| |
| encoder_config.simulcast_layers[0].max_framerate = 15; |
| encoder_config.simulcast_layers[1].max_framerate = 30; |
| encoder_config.simulcast_layers[1].active = false; |
| |
| video_stream_encoder_->ConfigureEncoder(std::move(encoder_config), |
| kMaxPayloadLength); |
| EXPECT_EQ(video_source_.sink_wants().max_framerate_fps, 15); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, FrameRateLimitCanBeReset) { |
| ASSERT_THAT(video_encoder_config_.simulcast_layers, SizeIs(1)); |
| // Set max wanted frame rate. |
| video_encoder_config_.simulcast_layers[0].max_framerate = 15; |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config_.Copy(), |
| kMaxPayloadLength); |
| EXPECT_EQ(video_source_.sink_wants().max_framerate_fps, 15); |
| |
| video_encoder_config_.simulcast_layers[0].max_framerate = |
| VideoStream().max_framerate; |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config_.Copy(), |
| kMaxPayloadLength); |
| EXPECT_THAT(video_source_.sink_wants(), FpsUnlimited()); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, RequestInSinkWantsBeforeFirstFrame) { |
| // Use a real video stream factory or else `scale_resolution_down_to` is not |
| // applied correctly. |
| video_encoder_config_.video_stream_factory = nullptr; |
| ConfigureEncoder(video_encoder_config_.Copy()); |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| ASSERT_THAT(video_encoder_config_.simulcast_layers, SizeIs(1)); |
| video_encoder_config_.simulcast_layers[0].scale_resolution_down_to.emplace( |
| Resolution({.width = 320, .height = 160})); |
| |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config_.Copy(), |
| kMaxPayloadLength); |
| |
| EXPECT_EQ(video_source_.sink_wants().requested_resolution, |
| rtc::VideoSinkWants::FrameSize(320, 160)); |
| |
| video_encoder_config_.simulcast_layers[0].scale_resolution_down_to->height = |
| 320; |
| video_encoder_config_.simulcast_layers[0].scale_resolution_down_to->width = |
| 640; |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config_.Copy(), |
| kMaxPayloadLength); |
| |
| EXPECT_EQ(video_source_.sink_wants().requested_resolution, |
| rtc::VideoSinkWants::FrameSize(640, 320)); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, RequestInWrongAspectRatioWithAdapter) { |
| // Use a real video stream factory or else `scale_resolution_down_to` is not |
| // applied correctly. |
| video_encoder_config_.video_stream_factory = nullptr; |
| ConfigureEncoder(video_encoder_config_.Copy()); |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Use a source that adapts resolution based on OnSinkWants. |
| AdaptingFrameForwarder source(&time_controller_); |
| source.set_adaptation_enabled(true); |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| |
| ASSERT_THAT(video_encoder_config_.simulcast_layers, SizeIs(1)); |
| video_encoder_config_.simulcast_layers[0].scale_resolution_down_to = { |
| .width = 30, .height = 30}; |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config_.Copy(), |
| kMaxPayloadLength); |
| |
| // Capture a 60x30 frame. |
| source.IncomingCapturedFrame(CreateFrame(1, 60, 30)); |
| // The 60x30 frame does not fit inside the 30x30 restrictions. |
| // Expect 30x15, maintaining aspect ratio. |
| WaitForEncodedFrame(30, 15); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| EncodingActiveFlagPropagatedToSinkWantsBeforeFirstFrame) { |
| ASSERT_THAT(video_encoder_config_.simulcast_layers, SizeIs(1)); |
| video_encoder_config_.simulcast_layers[0].active = false; |
| |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config_.Copy(), |
| kMaxPayloadLength); |
| EXPECT_FALSE(video_source_.sink_wants().is_active); |
| |
| video_encoder_config_.simulcast_layers[0].active = true; |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config_.Copy(), |
| kMaxPayloadLength); |
| EXPECT_TRUE(video_source_.sink_wants().is_active); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, CorrectlyAdjustsAv1Bitrate) { |
| ResetEncoder("AV1", /*num_streams*/ 2, /*num_temporal_layers=*/2, |
| /*num_spatial_layers=*/1, /*screenshare*/ false, |
| kDefaultFramerate, |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoLayersAllocation); |
| |
| // Let link allocation and stable bitrate be 2x the target bitrate. |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, 2 * kTargetBitrate, 2 * kTargetBitrate, 0, 0, 0); |
| |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(CurrentTimeMs(), codec_width_, codec_height_)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| |
| // Before enough data has been gathered, some default pushback is applied. |
| VideoEncoder::RateControlParameters rate_settings = |
| *fake_encoder_.GetAndResetLastRateControlSettings(); |
| // Allow 5% diff from target bitrate. |
| const double allowed_error_bps = |
| rate_settings.target_bitrate.get_sum_bps() * 0.05; |
| EXPECT_NEAR(rate_settings.bitrate.get_sum_bps(), |
| rate_settings.target_bitrate.get_sum_bps() / |
| EncoderBitrateAdjuster::kDefaultUtilizationFactor, |
| allowed_error_bps); |
| |
| // Insert frames until bitrate adjuster is saturated. |
| const TimeDelta runtime = EncoderBitrateAdjuster::kWindowSize; |
| const Timestamp start_time = clock()->CurrentTime(); |
| while (clock()->CurrentTime() - start_time < runtime) { |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(CurrentTimeMs(), codec_width_, codec_height_)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| } |
| |
| // Make sure rate has been reallocated. |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate - DataRate::BitsPerSec(500), 2 * kTargetBitrate, |
| 2 * kTargetBitrate, 0, 0, 0); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(CurrentTimeMs(), codec_width_, codec_height_)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| |
| // Pushback should no longer happen. |
| rate_settings = *fake_encoder_.GetAndResetLastRateControlSettings(); |
| EXPECT_NEAR(rate_settings.bitrate.get_sum_bps(), |
| rate_settings.target_bitrate.get_sum_bps(), allowed_error_bps); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| class ResolutionAlignmentTest |
| : public VideoStreamEncoderTest, |
| public ::testing::WithParamInterface< |
| ::testing::tuple<int, std::vector<double>>> { |
| public: |
| ResolutionAlignmentTest() |
| : requested_alignment_(::testing::get<0>(GetParam())), |
| scale_factors_(::testing::get<1>(GetParam())) {} |
| |
| protected: |
| const uint32_t requested_alignment_; |
| const std::vector<double> scale_factors_; |
| }; |
| |
| INSTANTIATE_TEST_SUITE_P( |
| AlignmentAndScaleFactors, |
| ResolutionAlignmentTest, |
| ::testing::Combine( |
| ::testing::Values(1, 2, 3, 4, 5, 6, 16, 22), // requested_alignment_ |
| ::testing::Values(std::vector<double>{-1.0}, // scale_factors_ |
| std::vector<double>{-1.0, -1.0}, |
| std::vector<double>{-1.0, -1.0, -1.0}, |
| std::vector<double>{4.0, 2.0, 1.0}, |
| std::vector<double>{9999.0, -1.0, 1.0}, |
| std::vector<double>{3.99, 2.01, 1.0}, |
| std::vector<double>{4.9, 1.7, 1.25}, |
| std::vector<double>{10.0, 4.0, 3.0}, |
| std::vector<double>{1.75, 3.5}, |
| std::vector<double>{1.5, 2.5}, |
| std::vector<double>{1.3, 1.0}))); |
| |
| TEST_P(ResolutionAlignmentTest, SinkWantsAlignmentApplied) { |
| // Set requested resolution alignment. |
| video_source_.set_adaptation_enabled(true); |
| fake_encoder_.SetRequestedResolutionAlignment(requested_alignment_); |
| fake_encoder_.SetApplyAlignmentToAllSimulcastLayers(true); |
| |
| // Fill config with the scaling factor by which to reduce encoding size. |
| const int num_streams = scale_factors_.size(); |
| VideoEncoderConfig config; |
| test::FillEncoderConfiguration(kVideoCodecVP8, num_streams, &config); |
| for (int i = 0; i < num_streams; ++i) { |
| config.simulcast_layers[i].scale_resolution_down_by = scale_factors_[i]; |
| } |
| config.video_stream_factory = nullptr; |
| video_stream_encoder_->ConfigureEncoder(std::move(config), kMaxPayloadLength); |
| |
| // We can get up to 3 streams of 1280x720 resolution each in this test. Make |
| // available bitrate large enough to get all streams encoded. |
| const DataRate kAvailableBitrate = 3 * kSimulcastTargetBitrate; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kAvailableBitrate, kAvailableBitrate, kAvailableBitrate, 0, 0, 0); |
| // Wait for all layers before triggering event. |
| sink_.SetNumExpectedLayers(num_streams); |
| |
| // On the 1st frame, we should have initialized the encoder and |
| // asked for its resolution requirements. |
| int64_t timestamp_ms = kFrameIntervalMs; |
| video_source_.IncomingCapturedFrame(CreateFrame(timestamp_ms, 1280, 720)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_EQ(1, fake_encoder_.GetNumInitializations()); |
| |
| // On the 2nd frame, we should be receiving a correctly aligned resolution. |
| // (It's up the to the encoder to potentially drop the previous frame, |
| // to avoid coding back-to-back keyframes.) |
| timestamp_ms += kFrameIntervalMs; |
| video_source_.IncomingCapturedFrame(CreateFrame(timestamp_ms, 1280, 720)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_GE(fake_encoder_.GetNumInitializations(), 1); |
| |
| VideoCodec codec = fake_encoder_.config(); |
| EXPECT_EQ(codec.numberOfSimulcastStreams, num_streams); |
| // Frame size should be a multiple of the requested alignment. |
| for (int i = 0; i < codec.numberOfSimulcastStreams; ++i) { |
| EXPECT_EQ(codec.simulcastStream[i].width % requested_alignment_, 0u); |
| EXPECT_EQ(codec.simulcastStream[i].height % requested_alignment_, 0u); |
| // Aspect ratio should match. |
| EXPECT_EQ(codec.width * codec.simulcastStream[i].height, |
| codec.height * codec.simulcastStream[i].width); |
| } |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, TestCpuDowngrades_BalancedMode) { |
| const int kFramerateFps = 30; |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| |
| ASSERT_EQ(video_encoder_config_.simulcast_layers.size(), 1u); |
| video_encoder_config_.simulcast_layers[0].width = kWidth; |
| video_encoder_config_.simulcast_layers[0].height = kHeight; |
| video_encoder_config_.simulcast_layers[0].max_framerate = kFramerateFps; |
| ConfigureEncoder(video_encoder_config_.Copy()); |
| |
| // We rely on the automatic resolution adaptation, but we handle framerate |
| // adaptation manually by mocking the stats proxy. |
| video_source_.set_adaptation_enabled(true); |
| |
| // Enable BALANCED preference, no initial limitation. |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| video_stream_encoder_->SetSource(&video_source_, |
| webrtc::DegradationPreference::BALANCED); |
| EXPECT_THAT(video_source_.sink_wants(), WantsFps(Eq(kFramerateFps))); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| // Adapt down as far as possible. |
| rtc::VideoSinkWants last_wants; |
| int64_t t = 1; |
| int loop_count = 0; |
| do { |
| ++loop_count; |
| last_wants = video_source_.sink_wants(); |
| |
| // Simulate the framerate we've been asked to adapt to. |
| const int fps = std::min(kFramerateFps, last_wants.max_framerate_fps); |
| const int frame_interval_ms = rtc::kNumMillisecsPerSec / fps; |
| VideoSendStream::Stats mock_stats = stats_proxy_->GetStats(); |
| mock_stats.input_frame_rate = fps; |
| stats_proxy_->SetMockStats(mock_stats); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(t, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(t); |
| t += frame_interval_ms; |
| |
| video_stream_encoder_->TriggerCpuOveruse(); |
| EXPECT_THAT( |
| video_source_.sink_wants(), |
| FpsInRangeForPixelsInBalanced(*video_source_.last_sent_width() * |
| *video_source_.last_sent_height())); |
| } while (video_source_.sink_wants().max_pixel_count < |
| last_wants.max_pixel_count || |
| video_source_.sink_wants().max_framerate_fps < |
| last_wants.max_framerate_fps); |
| |
| // Verify that we've adapted all the way down. |
| stats_proxy_->ResetMockStats(); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(loop_count - 1, |
| stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(kMinPixelsPerFrame, *video_source_.last_sent_width() * |
| *video_source_.last_sent_height()); |
| EXPECT_EQ(kMinBalancedFramerateFps, |
| video_source_.sink_wants().max_framerate_fps); |
| |
| // Adapt back up the same number of times we adapted down. |
| for (int i = 0; i < loop_count - 1; ++i) { |
| last_wants = video_source_.sink_wants(); |
| |
| // Simulate the framerate we've been asked to adapt to. |
| const int fps = std::min(kFramerateFps, last_wants.max_framerate_fps); |
| const int frame_interval_ms = rtc::kNumMillisecsPerSec / fps; |
| VideoSendStream::Stats mock_stats = stats_proxy_->GetStats(); |
| mock_stats.input_frame_rate = fps; |
| stats_proxy_->SetMockStats(mock_stats); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(t, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(t); |
| t += frame_interval_ms; |
| |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| EXPECT_THAT( |
| video_source_.sink_wants(), |
| FpsInRangeForPixelsInBalanced(*video_source_.last_sent_width() * |
| *video_source_.last_sent_height())); |
| EXPECT_TRUE(video_source_.sink_wants().max_pixel_count > |
| last_wants.max_pixel_count || |
| video_source_.sink_wants().max_framerate_fps > |
| last_wants.max_framerate_fps); |
| } |
| |
| EXPECT_THAT(video_source_.sink_wants(), FpsMaxResolutionMax()); |
| stats_proxy_->ResetMockStats(); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ((loop_count - 1) * 2, |
| stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| SinkWantsNotChangedByResourceLimitedBeforeDegradationPreferenceChange) { |
| video_stream_encoder_->OnBitrateUpdated(kTargetBitrate, kTargetBitrate, |
| kTargetBitrate, 0, 0, 0); |
| EXPECT_THAT(video_source_.sink_wants(), UnlimitedSinkWants()); |
| |
| const int kFrameWidth = 1280; |
| const int kFrameHeight = 720; |
| |
| int64_t ntp_time = kFrameIntervalMs; |
| |
| // Force an input frame rate to be available, or the adaptation call won't |
| // know what framerate to adapt form. |
| const int kInputFps = 30; |
| VideoSendStream::Stats stats = stats_proxy_->GetStats(); |
| stats.input_frame_rate = kInputFps; |
| stats_proxy_->SetMockStats(stats); |
| |
| video_source_.set_adaptation_enabled(true); |
| video_stream_encoder_->SetSource( |
| &video_source_, webrtc::DegradationPreference::MAINTAIN_RESOLUTION); |
| EXPECT_THAT(video_source_.sink_wants(), UnlimitedSinkWants()); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(ntp_time, kFrameWidth, kFrameHeight)); |
| sink_.WaitForEncodedFrame(ntp_time); |
| ntp_time += kFrameIntervalMs; |
| |
| // Trigger CPU overuse. |
| video_stream_encoder_->TriggerCpuOveruse(); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(ntp_time, kFrameWidth, kFrameHeight)); |
| sink_.WaitForEncodedFrame(ntp_time); |
| ntp_time += kFrameIntervalMs; |
| |
| EXPECT_FALSE(video_source_.sink_wants().target_pixel_count); |
| EXPECT_EQ(std::numeric_limits<int>::max(), |
| video_source_.sink_wants().max_pixel_count); |
| // Some framerate constraint should be set. |
| int restricted_fps = video_source_.sink_wants().max_framerate_fps; |
| EXPECT_LT(restricted_fps, kInputFps); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(ntp_time, kFrameWidth, kFrameHeight)); |
| sink_.WaitForEncodedFrame(ntp_time); |
| ntp_time += 100; |
| |
| video_stream_encoder_->SetSourceAndWaitForRestrictionsUpdated( |
| &video_source_, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| // Give the encoder queue time to process the change in degradation preference |
| // by waiting for an encoded frame. |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(ntp_time, kFrameWidth, kFrameHeight)); |
| sink_.WaitForEncodedFrame(ntp_time); |
| ntp_time += kFrameIntervalMs; |
| |
| video_stream_encoder_->TriggerQualityLow(); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(ntp_time, kFrameWidth, kFrameHeight)); |
| sink_.WaitForEncodedFrame(ntp_time); |
| ntp_time += kFrameIntervalMs; |
| |
| // Some resolution constraint should be set. |
| EXPECT_FALSE(video_source_.sink_wants().target_pixel_count); |
| EXPECT_LT(video_source_.sink_wants().max_pixel_count, |
| kFrameWidth * kFrameHeight); |
| EXPECT_THAT(video_source_.sink_wants(), FpsUnlimited()); |
| |
| int pixel_count = video_source_.sink_wants().max_pixel_count; |
| // Triggering a CPU underuse should not change the sink wants since it has |
| // not been overused for resolution since we changed degradation preference. |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(ntp_time, kFrameWidth, kFrameHeight)); |
| sink_.WaitForEncodedFrame(ntp_time); |
| ntp_time += kFrameIntervalMs; |
| EXPECT_EQ(video_source_.sink_wants().max_pixel_count, pixel_count); |
| |
| EXPECT_THAT(video_source_.sink_wants(), FpsUnlimited()); |
| |
| // Change the degradation preference back. CPU underuse should not adapt since |
| // QP is most limited. |
| video_stream_encoder_->SetSourceAndWaitForRestrictionsUpdated( |
| &video_source_, webrtc::DegradationPreference::MAINTAIN_RESOLUTION); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(ntp_time, kFrameWidth, kFrameHeight)); |
| sink_.WaitForEncodedFrame(ntp_time); |
| ntp_time += 100; |
| // Resolution adaptations is gone after changing degradation preference. |
| EXPECT_FALSE(video_source_.sink_wants().target_pixel_count); |
| EXPECT_EQ(std::numeric_limits<int>::max(), |
| video_source_.sink_wants().max_pixel_count); |
| // The fps adaptation from above is now back. |
| EXPECT_EQ(video_source_.sink_wants().max_framerate_fps, restricted_fps); |
| |
| // Trigger CPU underuse. |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(ntp_time, kFrameWidth, kFrameHeight)); |
| sink_.WaitForEncodedFrame(ntp_time); |
| ntp_time += kFrameIntervalMs; |
| EXPECT_EQ(video_source_.sink_wants().max_framerate_fps, restricted_fps); |
| |
| // Trigger QP underuse, fps should return to normal. |
| video_stream_encoder_->TriggerQualityHigh(); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(ntp_time, kFrameWidth, kFrameHeight)); |
| sink_.WaitForEncodedFrame(ntp_time); |
| ntp_time += kFrameIntervalMs; |
| EXPECT_THAT(video_source_.sink_wants(), UnlimitedSinkWants()); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, SinkWantsStoredByDegradationPreference) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| EXPECT_THAT(video_source_.sink_wants(), UnlimitedSinkWants()); |
| |
| const int kFrameWidth = 1280; |
| const int kFrameHeight = 720; |
| |
| int64_t frame_timestamp = 1; |
| |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(frame_timestamp, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(frame_timestamp); |
| frame_timestamp += kFrameIntervalMs; |
| |
| // Trigger CPU overuse. |
| video_stream_encoder_->TriggerCpuOveruse(); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(frame_timestamp, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(frame_timestamp); |
| frame_timestamp += kFrameIntervalMs; |
| |
| // Default degradation preference is maintain-framerate, so will lower max |
| // wanted resolution. |
| EXPECT_FALSE(video_source_.sink_wants().target_pixel_count); |
| EXPECT_LT(video_source_.sink_wants().max_pixel_count, |
| kFrameWidth * kFrameHeight); |
| EXPECT_THAT(video_source_.sink_wants(), FpsUnlimited()); |
| |
| // Set new source, switch to maintain-resolution. |
| test::FrameForwarder new_video_source; |
| video_stream_encoder_->SetSourceAndWaitForRestrictionsUpdated( |
| &new_video_source, webrtc::DegradationPreference::MAINTAIN_RESOLUTION); |
| // Give the encoder queue time to process the change in degradation preference |
| // by waiting for an encoded frame. |
| new_video_source.IncomingCapturedFrame( |
| CreateFrame(frame_timestamp, kFrameWidth, kFrameWidth)); |
| sink_.WaitForEncodedFrame(frame_timestamp); |
| frame_timestamp += kFrameIntervalMs; |
| // Initially no degradation registered. |
| EXPECT_THAT(new_video_source.sink_wants(), UnlimitedSinkWants()); |
| |
| // Force an input frame rate to be available, or the adaptation call won't |
| // know what framerate to adapt form. |
| const int kInputFps = 30; |
| VideoSendStream::Stats stats = stats_proxy_->GetStats(); |
| stats.input_frame_rate = kInputFps; |
| stats_proxy_->SetMockStats(stats); |
| |
| video_stream_encoder_->TriggerCpuOveruse(); |
| new_video_source.IncomingCapturedFrame( |
| CreateFrame(frame_timestamp, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(frame_timestamp); |
| frame_timestamp += kFrameIntervalMs; |
| |
| // Some framerate constraint should be set. |
| EXPECT_FALSE(new_video_source.sink_wants().target_pixel_count); |
| EXPECT_EQ(std::numeric_limits<int>::max(), |
| new_video_source.sink_wants().max_pixel_count); |
| EXPECT_LT(new_video_source.sink_wants().max_framerate_fps, kInputFps); |
| |
| // Turn off degradation completely. |
| video_stream_encoder_->SetSourceAndWaitForRestrictionsUpdated( |
| &new_video_source, webrtc::DegradationPreference::DISABLED); |
| // Give the encoder queue time to process the change in degradation preference |
| // by waiting for an encoded frame. |
| new_video_source.IncomingCapturedFrame( |
| CreateFrame(frame_timestamp, kFrameWidth, kFrameWidth)); |
| sink_.WaitForEncodedFrame(frame_timestamp); |
| frame_timestamp += kFrameIntervalMs; |
| EXPECT_THAT(new_video_source.sink_wants(), UnlimitedSinkWants()); |
| |
| video_stream_encoder_->TriggerCpuOveruse(); |
| new_video_source.IncomingCapturedFrame( |
| CreateFrame(frame_timestamp, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(frame_timestamp); |
| frame_timestamp += kFrameIntervalMs; |
| |
| // Still no degradation. |
| EXPECT_THAT(new_video_source.sink_wants(), UnlimitedSinkWants()); |
| |
| // Calling SetSource with resolution scaling enabled apply the old SinkWants. |
| video_stream_encoder_->SetSourceAndWaitForRestrictionsUpdated( |
| &new_video_source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| // Give the encoder queue time to process the change in degradation preference |
| // by waiting for an encoded frame. |
| new_video_source.IncomingCapturedFrame( |
| CreateFrame(frame_timestamp, kFrameWidth, kFrameWidth)); |
| sink_.WaitForEncodedFrame(frame_timestamp); |
| frame_timestamp += kFrameIntervalMs; |
| EXPECT_LT(new_video_source.sink_wants().max_pixel_count, |
| kFrameWidth * kFrameHeight); |
| EXPECT_FALSE(new_video_source.sink_wants().target_pixel_count); |
| EXPECT_THAT(new_video_source.sink_wants(), FpsUnlimited()); |
| |
| // Calling SetSource with framerate scaling enabled apply the old SinkWants. |
| video_stream_encoder_->SetSourceAndWaitForRestrictionsUpdated( |
| &new_video_source, webrtc::DegradationPreference::MAINTAIN_RESOLUTION); |
| // Give the encoder queue time to process the change in degradation preference |
| // by waiting for an encoded frame. |
| new_video_source.IncomingCapturedFrame( |
| CreateFrame(frame_timestamp, kFrameWidth, kFrameWidth)); |
| sink_.WaitForEncodedFrame(frame_timestamp); |
| frame_timestamp += kFrameIntervalMs; |
| EXPECT_FALSE(new_video_source.sink_wants().target_pixel_count); |
| EXPECT_EQ(std::numeric_limits<int>::max(), |
| new_video_source.sink_wants().max_pixel_count); |
| EXPECT_LT(new_video_source.sink_wants().max_framerate_fps, kInputFps); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, StatsTracksQualityAdaptationStats) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| video_source_.IncomingCapturedFrame(CreateFrame(1, kWidth, kHeight)); |
| WaitForEncodedFrame(1); |
| VideoSendStream::Stats stats = stats_proxy_->GetStats(); |
| EXPECT_FALSE(stats.bw_limited_resolution); |
| EXPECT_EQ(0, stats.number_of_quality_adapt_changes); |
| |
| // Trigger adapt down. |
| video_stream_encoder_->TriggerQualityLow(); |
| video_source_.IncomingCapturedFrame(CreateFrame(2, kWidth, kHeight)); |
| WaitForEncodedFrame(2); |
| |
| stats = stats_proxy_->GetStats(); |
| EXPECT_TRUE(stats.bw_limited_resolution); |
| EXPECT_EQ(1, stats.number_of_quality_adapt_changes); |
| |
| // Trigger adapt up. |
| video_stream_encoder_->TriggerQualityHigh(); |
| video_source_.IncomingCapturedFrame(CreateFrame(3, kWidth, kHeight)); |
| WaitForEncodedFrame(3); |
| |
| stats = stats_proxy_->GetStats(); |
| EXPECT_FALSE(stats.bw_limited_resolution); |
| EXPECT_EQ(2, stats.number_of_quality_adapt_changes); |
| EXPECT_EQ(0, stats.number_of_cpu_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, StatsTracksCpuAdaptationStats) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| video_source_.IncomingCapturedFrame(CreateFrame(1, kWidth, kHeight)); |
| WaitForEncodedFrame(1); |
| VideoSendStream::Stats stats = stats_proxy_->GetStats(); |
| EXPECT_FALSE(stats.cpu_limited_resolution); |
| EXPECT_EQ(0, stats.number_of_cpu_adapt_changes); |
| |
| // Trigger CPU overuse. |
| video_stream_encoder_->TriggerCpuOveruse(); |
| video_source_.IncomingCapturedFrame(CreateFrame(2, kWidth, kHeight)); |
| WaitForEncodedFrame(2); |
| |
| stats = stats_proxy_->GetStats(); |
| EXPECT_TRUE(stats.cpu_limited_resolution); |
| EXPECT_EQ(1, stats.number_of_cpu_adapt_changes); |
| |
| // Trigger CPU normal use. |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| video_source_.IncomingCapturedFrame(CreateFrame(3, kWidth, kHeight)); |
| WaitForEncodedFrame(3); |
| |
| stats = stats_proxy_->GetStats(); |
| EXPECT_FALSE(stats.cpu_limited_resolution); |
| EXPECT_EQ(2, stats.number_of_cpu_adapt_changes); |
| EXPECT_EQ(0, stats.number_of_quality_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, SwitchingSourceKeepsCpuAdaptation) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| video_source_.IncomingCapturedFrame(CreateFrame(1, kWidth, kHeight)); |
| WaitForEncodedFrame(1); |
| VideoSendStream::Stats stats = stats_proxy_->GetStats(); |
| EXPECT_FALSE(stats.bw_limited_resolution); |
| EXPECT_FALSE(stats.cpu_limited_resolution); |
| EXPECT_EQ(0, stats.number_of_cpu_adapt_changes); |
| |
| // Trigger CPU overuse. |
| video_stream_encoder_->TriggerCpuOveruse(); |
| video_source_.IncomingCapturedFrame(CreateFrame(2, kWidth, kHeight)); |
| WaitForEncodedFrame(2); |
| stats = stats_proxy_->GetStats(); |
| EXPECT_FALSE(stats.bw_limited_resolution); |
| EXPECT_TRUE(stats.cpu_limited_resolution); |
| EXPECT_EQ(1, stats.number_of_cpu_adapt_changes); |
| |
| // Set new source with adaptation still enabled. |
| test::FrameForwarder new_video_source; |
| video_stream_encoder_->SetSource( |
| &new_video_source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| |
| new_video_source.IncomingCapturedFrame(CreateFrame(3, kWidth, kHeight)); |
| WaitForEncodedFrame(3); |
| stats = stats_proxy_->GetStats(); |
| EXPECT_FALSE(stats.bw_limited_resolution); |
| EXPECT_TRUE(stats.cpu_limited_resolution); |
| EXPECT_EQ(1, stats.number_of_cpu_adapt_changes); |
| |
| // Set adaptation disabled. |
| video_stream_encoder_->SetSource(&new_video_source, |
| webrtc::DegradationPreference::DISABLED); |
| |
| new_video_source.IncomingCapturedFrame(CreateFrame(4, kWidth, kHeight)); |
| WaitForEncodedFrame(4); |
| stats = stats_proxy_->GetStats(); |
| EXPECT_FALSE(stats.bw_limited_resolution); |
| EXPECT_FALSE(stats.cpu_limited_resolution); |
| EXPECT_EQ(1, stats.number_of_cpu_adapt_changes); |
| |
| // Set adaptation back to enabled. |
| video_stream_encoder_->SetSource( |
| &new_video_source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| |
| new_video_source.IncomingCapturedFrame(CreateFrame(5, kWidth, kHeight)); |
| WaitForEncodedFrame(5); |
| stats = stats_proxy_->GetStats(); |
| EXPECT_FALSE(stats.bw_limited_resolution); |
| EXPECT_TRUE(stats.cpu_limited_resolution); |
| EXPECT_EQ(1, stats.number_of_cpu_adapt_changes); |
| |
| // Trigger CPU normal use. |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| new_video_source.IncomingCapturedFrame(CreateFrame(6, kWidth, kHeight)); |
| WaitForEncodedFrame(6); |
| stats = stats_proxy_->GetStats(); |
| EXPECT_FALSE(stats.bw_limited_resolution); |
| EXPECT_FALSE(stats.cpu_limited_resolution); |
| EXPECT_EQ(2, stats.number_of_cpu_adapt_changes); |
| EXPECT_EQ(0, stats.number_of_quality_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, SwitchingSourceKeepsQualityAdaptation) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| video_source_.IncomingCapturedFrame(CreateFrame(1, kWidth, kHeight)); |
| WaitForEncodedFrame(1); |
| VideoSendStream::Stats stats = stats_proxy_->GetStats(); |
| EXPECT_FALSE(stats.bw_limited_resolution); |
| EXPECT_FALSE(stats.bw_limited_framerate); |
| EXPECT_EQ(0, stats.number_of_quality_adapt_changes); |
| |
| // Set new source with adaptation still enabled. |
| test::FrameForwarder new_video_source; |
| video_stream_encoder_->SetSource(&new_video_source, |
| webrtc::DegradationPreference::BALANCED); |
| |
| new_video_source.IncomingCapturedFrame(CreateFrame(2, kWidth, kHeight)); |
| WaitForEncodedFrame(2); |
| stats = stats_proxy_->GetStats(); |
| EXPECT_FALSE(stats.bw_limited_resolution); |
| EXPECT_FALSE(stats.bw_limited_framerate); |
| EXPECT_EQ(0, stats.number_of_quality_adapt_changes); |
| |
| // Trigger adapt down. |
| video_stream_encoder_->TriggerQualityLow(); |
| new_video_source.IncomingCapturedFrame(CreateFrame(3, kWidth, kHeight)); |
| WaitForEncodedFrame(3); |
| stats = stats_proxy_->GetStats(); |
| EXPECT_TRUE(stats.bw_limited_resolution); |
| EXPECT_FALSE(stats.bw_limited_framerate); |
| EXPECT_EQ(1, stats.number_of_quality_adapt_changes); |
| |
| // Set new source with adaptation still enabled. |
| video_stream_encoder_->SetSource(&new_video_source, |
| webrtc::DegradationPreference::BALANCED); |
| |
| new_video_source.IncomingCapturedFrame(CreateFrame(4, kWidth, kHeight)); |
| WaitForEncodedFrame(4); |
| stats = stats_proxy_->GetStats(); |
| EXPECT_TRUE(stats.bw_limited_resolution); |
| EXPECT_FALSE(stats.bw_limited_framerate); |
| EXPECT_EQ(1, stats.number_of_quality_adapt_changes); |
| |
| // Disable resolution scaling. |
| video_stream_encoder_->SetSource( |
| &new_video_source, webrtc::DegradationPreference::MAINTAIN_RESOLUTION); |
| |
| new_video_source.IncomingCapturedFrame(CreateFrame(5, kWidth, kHeight)); |
| WaitForEncodedFrame(5); |
| stats = stats_proxy_->GetStats(); |
| EXPECT_FALSE(stats.bw_limited_resolution); |
| EXPECT_FALSE(stats.bw_limited_framerate); |
| EXPECT_EQ(1, stats.number_of_quality_adapt_changes); |
| EXPECT_EQ(0, stats.number_of_cpu_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| QualityAdaptationStatsAreResetWhenScalerIsDisabled) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| int64_t timestamp_ms = kFrameIntervalMs; |
| video_source_.set_adaptation_enabled(true); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| // Trigger adapt down. |
| video_stream_encoder_->TriggerQualityLow(); |
| timestamp_ms += kFrameIntervalMs; |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| // Trigger overuse. |
| video_stream_encoder_->TriggerCpuOveruse(); |
| timestamp_ms += kFrameIntervalMs; |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| // Leave source unchanged, but disable quality scaler. |
| fake_encoder_.SetQualityScaling(false); |
| |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(kVideoCodecVP8, 1, &video_encoder_config); |
| // Make format different, to force recreation of encoder. |
| video_encoder_config.video_format.parameters["foo"] = "foo"; |
| video_stream_encoder_->ConfigureEncoder(std::move(video_encoder_config), |
| kMaxPayloadLength); |
| timestamp_ms += kFrameIntervalMs; |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| StatsTracksCpuAdaptationStatsWhenSwitchingSource_Balanced) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| int sequence = 1; |
| |
| // Enable BALANCED preference, no initial limitation. |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource(&source, |
| webrtc::DegradationPreference::BALANCED); |
| source.IncomingCapturedFrame(CreateFrame(sequence, kWidth, kHeight)); |
| WaitForEncodedFrame(sequence++); |
| VideoSendStream::Stats stats = stats_proxy_->GetStats(); |
| EXPECT_FALSE(stats.cpu_limited_resolution); |
| EXPECT_FALSE(stats.cpu_limited_framerate); |
| EXPECT_EQ(0, stats.number_of_cpu_adapt_changes); |
| |
| // Trigger CPU overuse, should now adapt down. |
| video_stream_encoder_->TriggerCpuOveruse(); |
| source.IncomingCapturedFrame(CreateFrame(sequence, kWidth, kHeight)); |
| WaitForEncodedFrame(sequence++); |
| stats = stats_proxy_->GetStats(); |
| EXPECT_EQ(1, stats.number_of_cpu_adapt_changes); |
| |
| // Set new degradation preference should clear restrictions since we changed |
| // from BALANCED. |
| video_stream_encoder_->SetSourceAndWaitForRestrictionsUpdated( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| source.IncomingCapturedFrame(CreateFrame(sequence, kWidth, kHeight)); |
| WaitForEncodedFrame(sequence++); |
| stats = stats_proxy_->GetStats(); |
| EXPECT_FALSE(stats.cpu_limited_resolution); |
| EXPECT_FALSE(stats.cpu_limited_framerate); |
| EXPECT_EQ(1, stats.number_of_cpu_adapt_changes); |
| |
| // Force an input frame rate to be available, or the adaptation call won't |
| // know what framerate to adapt from. |
| VideoSendStream::Stats mock_stats = stats_proxy_->GetStats(); |
| mock_stats.input_frame_rate = 30; |
| stats_proxy_->SetMockStats(mock_stats); |
| video_stream_encoder_->TriggerCpuOveruse(); |
| stats_proxy_->ResetMockStats(); |
| source.IncomingCapturedFrame(CreateFrame(sequence, kWidth, kHeight)); |
| WaitForEncodedFrame(sequence++); |
| |
| // We have now adapted once. |
| stats = stats_proxy_->GetStats(); |
| EXPECT_EQ(2, stats.number_of_cpu_adapt_changes); |
| |
| // Back to BALANCED, should clear the restrictions again. |
| video_stream_encoder_->SetSourceAndWaitForRestrictionsUpdated( |
| &source, webrtc::DegradationPreference::BALANCED); |
| source.IncomingCapturedFrame(CreateFrame(sequence, kWidth, kHeight)); |
| WaitForEncodedFrame(sequence++); |
| stats = stats_proxy_->GetStats(); |
| EXPECT_FALSE(stats.cpu_limited_resolution); |
| EXPECT_FALSE(stats.cpu_limited_framerate); |
| EXPECT_EQ(2, stats.number_of_cpu_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| StatsTracksCpuAdaptationStatsWhenSwitchingSource) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| int sequence = 1; |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(sequence, kWidth, kHeight)); |
| WaitForEncodedFrame(sequence++); |
| VideoSendStream::Stats stats = stats_proxy_->GetStats(); |
| EXPECT_FALSE(stats.cpu_limited_resolution); |
| EXPECT_FALSE(stats.cpu_limited_framerate); |
| EXPECT_EQ(0, stats.number_of_cpu_adapt_changes); |
| |
| // Trigger CPU overuse, should now adapt down. |
| video_stream_encoder_->TriggerCpuOveruse(); |
| video_source_.IncomingCapturedFrame(CreateFrame(sequence, kWidth, kHeight)); |
| WaitForEncodedFrame(sequence++); |
| stats = stats_proxy_->GetStats(); |
| EXPECT_TRUE(stats.cpu_limited_resolution); |
| EXPECT_FALSE(stats.cpu_limited_framerate); |
| EXPECT_EQ(1, stats.number_of_cpu_adapt_changes); |
| |
| // Set new source with adaptation still enabled. |
| test::FrameForwarder new_video_source; |
| video_stream_encoder_->SetSource( |
| &new_video_source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| |
| new_video_source.IncomingCapturedFrame( |
| CreateFrame(sequence, kWidth, kHeight)); |
| WaitForEncodedFrame(sequence++); |
| stats = stats_proxy_->GetStats(); |
| EXPECT_TRUE(stats.cpu_limited_resolution); |
| EXPECT_FALSE(stats.cpu_limited_framerate); |
| EXPECT_EQ(1, stats.number_of_cpu_adapt_changes); |
| |
| // Set cpu adaptation by frame dropping. |
| video_stream_encoder_->SetSource( |
| &new_video_source, webrtc::DegradationPreference::MAINTAIN_RESOLUTION); |
| new_video_source.IncomingCapturedFrame( |
| CreateFrame(sequence, kWidth, kHeight)); |
| WaitForEncodedFrame(sequence++); |
| stats = stats_proxy_->GetStats(); |
| // Not adapted at first. |
| EXPECT_FALSE(stats.cpu_limited_resolution); |
| EXPECT_FALSE(stats.cpu_limited_framerate); |
| EXPECT_EQ(1, stats.number_of_cpu_adapt_changes); |
| |
| // Force an input frame rate to be available, or the adaptation call won't |
| // know what framerate to adapt from. |
| VideoSendStream::Stats mock_stats = stats_proxy_->GetStats(); |
| mock_stats.input_frame_rate = 30; |
| stats_proxy_->SetMockStats(mock_stats); |
| video_stream_encoder_->TriggerCpuOveruse(); |
| stats_proxy_->ResetMockStats(); |
| |
| new_video_source.IncomingCapturedFrame( |
| CreateFrame(sequence, kWidth, kHeight)); |
| WaitForEncodedFrame(sequence++); |
| |
| // Framerate now adapted. |
| stats = stats_proxy_->GetStats(); |
| EXPECT_FALSE(stats.cpu_limited_resolution); |
| EXPECT_TRUE(stats.cpu_limited_framerate); |
| EXPECT_EQ(2, stats.number_of_cpu_adapt_changes); |
| |
| // Disable CPU adaptation. |
| video_stream_encoder_->SetSource(&new_video_source, |
| webrtc::DegradationPreference::DISABLED); |
| new_video_source.IncomingCapturedFrame( |
| CreateFrame(sequence, kWidth, kHeight)); |
| WaitForEncodedFrame(sequence++); |
| |
| stats = stats_proxy_->GetStats(); |
| EXPECT_FALSE(stats.cpu_limited_resolution); |
| EXPECT_FALSE(stats.cpu_limited_framerate); |
| EXPECT_EQ(2, stats.number_of_cpu_adapt_changes); |
| |
| // Try to trigger overuse. Should not succeed. |
| stats_proxy_->SetMockStats(mock_stats); |
| video_stream_encoder_->TriggerCpuOveruse(); |
| stats_proxy_->ResetMockStats(); |
| |
| stats = stats_proxy_->GetStats(); |
| EXPECT_FALSE(stats.cpu_limited_resolution); |
| EXPECT_FALSE(stats.cpu_limited_framerate); |
| EXPECT_EQ(2, stats.number_of_cpu_adapt_changes); |
| |
| // Switch back the source with resolution adaptation enabled. |
| video_stream_encoder_->SetSource( |
| &video_source_, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| video_source_.IncomingCapturedFrame(CreateFrame(sequence, kWidth, kHeight)); |
| WaitForEncodedFrame(sequence++); |
| stats = stats_proxy_->GetStats(); |
| EXPECT_TRUE(stats.cpu_limited_resolution); |
| EXPECT_FALSE(stats.cpu_limited_framerate); |
| EXPECT_EQ(2, stats.number_of_cpu_adapt_changes); |
| |
| // Trigger CPU normal usage. |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| video_source_.IncomingCapturedFrame(CreateFrame(sequence, kWidth, kHeight)); |
| WaitForEncodedFrame(sequence++); |
| stats = stats_proxy_->GetStats(); |
| EXPECT_FALSE(stats.cpu_limited_resolution); |
| EXPECT_FALSE(stats.cpu_limited_framerate); |
| EXPECT_EQ(3, stats.number_of_cpu_adapt_changes); |
| |
| // Back to the source with adaptation off, set it back to maintain-resolution. |
| video_stream_encoder_->SetSource( |
| &new_video_source, webrtc::DegradationPreference::MAINTAIN_RESOLUTION); |
| new_video_source.IncomingCapturedFrame( |
| CreateFrame(sequence, kWidth, kHeight)); |
| WaitForEncodedFrame(sequence++); |
| stats = stats_proxy_->GetStats(); |
| // Disabled, since we previously switched the source to disabled. |
| EXPECT_FALSE(stats.cpu_limited_resolution); |
| EXPECT_TRUE(stats.cpu_limited_framerate); |
| EXPECT_EQ(3, stats.number_of_cpu_adapt_changes); |
| |
| // Trigger CPU normal usage. |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| new_video_source.IncomingCapturedFrame( |
| CreateFrame(sequence, kWidth, kHeight)); |
| WaitForEncodedFrame(sequence++); |
| stats = stats_proxy_->GetStats(); |
| EXPECT_FALSE(stats.cpu_limited_resolution); |
| EXPECT_FALSE(stats.cpu_limited_framerate); |
| EXPECT_EQ(4, stats.number_of_cpu_adapt_changes); |
| EXPECT_EQ(0, stats.number_of_quality_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| ScalingUpAndDownDoesNothingWithMaintainResolution) { |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Expect no scaling to begin with. |
| EXPECT_THAT(video_source_.sink_wants(), UnlimitedSinkWants()); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(1, kWidth, kHeight)); |
| WaitForEncodedFrame(1); |
| |
| // Trigger scale down. |
| video_stream_encoder_->TriggerQualityLow(); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(2, kWidth, kHeight)); |
| WaitForEncodedFrame(2); |
| |
| // Expect a scale down. |
| EXPECT_TRUE(video_source_.sink_wants().max_pixel_count); |
| EXPECT_LT(video_source_.sink_wants().max_pixel_count, kWidth * kHeight); |
| |
| // Set resolution scaling disabled. |
| test::FrameForwarder new_video_source; |
| video_stream_encoder_->SetSource( |
| &new_video_source, webrtc::DegradationPreference::MAINTAIN_RESOLUTION); |
| |
| // Trigger scale down. |
| video_stream_encoder_->TriggerQualityLow(); |
| new_video_source.IncomingCapturedFrame(CreateFrame(3, kWidth, kHeight)); |
| WaitForEncodedFrame(3); |
| |
| // Expect no scaling. |
| EXPECT_EQ(std::numeric_limits<int>::max(), |
| new_video_source.sink_wants().max_pixel_count); |
| |
| // Trigger scale up. |
| video_stream_encoder_->TriggerQualityHigh(); |
| new_video_source.IncomingCapturedFrame(CreateFrame(4, kWidth, kHeight)); |
| WaitForEncodedFrame(4); |
| |
| // Expect nothing to change, still no scaling. |
| EXPECT_EQ(std::numeric_limits<int>::max(), |
| new_video_source.sink_wants().max_pixel_count); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| SkipsSameAdaptDownRequest_MaintainFramerateMode) { |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Enable MAINTAIN_FRAMERATE preference, no initial limitation. |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| |
| source.IncomingCapturedFrame(CreateFrame(1, kWidth, kHeight)); |
| WaitForEncodedFrame(1); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| // Trigger adapt down, expect scaled down resolution. |
| video_stream_encoder_->TriggerCpuOveruse(); |
| EXPECT_THAT(source.sink_wants(), |
| FpsUnlimitedResolutionMatches(Lt(kWidth * kHeight))); |
| const int kLastMaxPixelCount = source.sink_wants().max_pixel_count; |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| // Trigger adapt down for same input resolution, expect no change. |
| video_stream_encoder_->TriggerCpuOveruse(); |
| EXPECT_EQ(kLastMaxPixelCount, source.sink_wants().max_pixel_count); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, SkipsSameOrLargerAdaptDownRequest_BalancedMode) { |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Enable BALANCED preference, no initial limitation. |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource(&source, |
| webrtc::DegradationPreference::BALANCED); |
| source.IncomingCapturedFrame(CreateFrame(1, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(1); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| |
| // Trigger adapt down, expect scaled down resolution. |
| video_stream_encoder_->TriggerQualityLow(); |
| EXPECT_THAT(source.sink_wants(), |
| FpsUnlimitedResolutionMatches(Lt(kWidth * kHeight))); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| const int kLastMaxPixelCount = source.sink_wants().max_pixel_count; |
| |
| // Trigger adapt down for same input resolution, expect no change. |
| source.IncomingCapturedFrame(CreateFrame(2, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(2); |
| video_stream_encoder_->TriggerQualityLow(); |
| EXPECT_EQ(kLastMaxPixelCount, source.sink_wants().max_pixel_count); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down for larger input resolution, expect no change. |
| source.IncomingCapturedFrame(CreateFrame(3, kWidth + 1, kHeight + 1)); |
| sink_.WaitForEncodedFrame(3); |
| video_stream_encoder_->TriggerQualityLow(); |
| EXPECT_EQ(kLastMaxPixelCount, source.sink_wants().max_pixel_count); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| FpsCountReturnsToZeroForFewerAdaptationsUpThanDown) { |
| const int kWidth = 640; |
| const int kHeight = 360; |
| const int64_t kFrameIntervalMs = 150; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Enable BALANCED preference, no initial limitation. |
| AdaptingFrameForwarder source(&time_controller_); |
| source.set_adaptation_enabled(true); |
| video_stream_encoder_->SetSource(&source, |
| webrtc::DegradationPreference::BALANCED); |
| |
| int64_t timestamp_ms = kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(kWidth, kHeight); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect reduced fps (640x360@15fps). |
| video_stream_encoder_->TriggerQualityLow(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), |
| FpsMatchesResolutionMax(Lt(kDefaultFramerate))); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Source requests 270p, expect reduced resolution (480x270@15fps). |
| source.OnOutputFormatRequest(480, 270); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(480, 270); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect reduced fps (480x270@10fps). |
| video_stream_encoder_->TriggerQualityLow(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsLtResolutionEq(source.last_wants())); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Source requests QVGA, expect reduced resolution (320x180@10fps). |
| source.OnOutputFormatRequest(320, 180); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(320, 180); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect reduced fps (320x180@7fps). |
| video_stream_encoder_->TriggerQualityLow(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsLtResolutionEq(source.last_wants())); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Source requests VGA, expect increased resolution (640x360@7fps). |
| source.OnOutputFormatRequest(640, 360); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect increased fps (640x360@(max-2)fps). |
| video_stream_encoder_->TriggerQualityHigh(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsGtResolutionEq(source.last_wants())); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(4, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect increased fps (640x360@(max-1)fps). |
| video_stream_encoder_->TriggerQualityHigh(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsGtResolutionEq(source.last_wants())); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(5, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect increased fps (640x360@maxfps). |
| video_stream_encoder_->TriggerQualityHigh(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsGtResolutionEq(source.last_wants())); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(6, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| FpsCountReturnsToZeroForFewerAdaptationsUpThanDownWithTwoResources) { |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| const int64_t kFrameIntervalMs = 150; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Enable BALANCED preference, no initial limitation. |
| AdaptingFrameForwarder source(&time_controller_); |
| source.set_adaptation_enabled(true); |
| video_stream_encoder_->SetSource(&source, |
| webrtc::DegradationPreference::BALANCED); |
| |
| int64_t timestamp_ms = kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(kWidth, kHeight); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect scaled down resolution (960x540@maxfps). |
| video_stream_encoder_->TriggerQualityLow(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), |
| FpsUnlimitedResolutionMatches(Lt(kWidth * kHeight))); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect scaled down resolution (640x360@maxfps). |
| video_stream_encoder_->TriggerQualityLow(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), |
| FpsUnlimitedResolutionLt(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect reduced fps (640x360@15fps). |
| video_stream_encoder_->TriggerQualityLow(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsLtResolutionEq(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Source requests QVGA, expect reduced resolution (320x180@15fps). |
| source.OnOutputFormatRequest(320, 180); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(320, 180); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| // Trigger adapt down, expect reduced fps (320x180@7fps). |
| video_stream_encoder_->TriggerCpuOveruse(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsLtResolutionEq(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| // Source requests HD, expect increased resolution (640x360@7fps). |
| source.OnOutputFormatRequest(1280, 720); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| // Trigger adapt up, expect increased fps (640x360@(max-1)fps). |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsGtResolutionEq(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| // Trigger adapt up, expect increased fps (640x360@maxfps). |
| video_stream_encoder_->TriggerQualityHigh(); |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsGtResolutionEq(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(4, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| // Trigger adapt up, expect increased resolution (960x570@maxfps). |
| video_stream_encoder_->TriggerQualityHigh(); |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsEqResolutionGt(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(5, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| EXPECT_EQ(4, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| // Trigger adapt up, expect increased resolution (1280x720@maxfps). |
| video_stream_encoder_->TriggerQualityHigh(); |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsEqResolutionGt(source.last_wants())); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(6, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| EXPECT_EQ(5, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| NoChangeForInitialNormalUsage_MaintainFramerateMode) { |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Enable MAINTAIN_FRAMERATE preference, no initial limitation. |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| |
| source.IncomingCapturedFrame(CreateFrame(1, kWidth, kHeight)); |
| WaitForEncodedFrame(kWidth, kHeight); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| // Trigger adapt up, expect no change. |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| NoChangeForInitialNormalUsage_MaintainResolutionMode) { |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Enable MAINTAIN_RESOLUTION preference, no initial limitation. |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_RESOLUTION); |
| |
| source.IncomingCapturedFrame(CreateFrame(1, kWidth, kHeight)); |
| WaitForEncodedFrame(kWidth, kHeight); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| // Trigger adapt up, expect no change. |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, NoChangeForInitialNormalUsage_BalancedMode) { |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Enable BALANCED preference, no initial limitation. |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource(&source, |
| webrtc::DegradationPreference::BALANCED); |
| |
| source.IncomingCapturedFrame(CreateFrame(1, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(kWidth, kHeight); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect no change. |
| video_stream_encoder_->TriggerQualityHigh(); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, NoChangeForInitialNormalUsage_DisabledMode) { |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Enable DISABLED preference, no initial limitation. |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource(&source, |
| webrtc::DegradationPreference::DISABLED); |
| |
| source.IncomingCapturedFrame(CreateFrame(1, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(kWidth, kHeight); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect no change. |
| video_stream_encoder_->TriggerQualityHigh(); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| AdaptsResolutionForLowQuality_MaintainFramerateMode) { |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Enable MAINTAIN_FRAMERATE preference, no initial limitation. |
| AdaptingFrameForwarder source(&time_controller_); |
| source.set_adaptation_enabled(true); |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| |
| source.IncomingCapturedFrame(CreateFrame(1, kWidth, kHeight)); |
| WaitForEncodedFrame(1); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect scaled down resolution. |
| video_stream_encoder_->TriggerQualityLow(); |
| source.IncomingCapturedFrame(CreateFrame(2, kWidth, kHeight)); |
| WaitForEncodedFrame(2); |
| EXPECT_THAT(source.sink_wants(), |
| FpsUnlimitedResolutionMatches(Lt(kWidth * kHeight))); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect no restriction. |
| video_stream_encoder_->TriggerQualityHigh(); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| AdaptsFramerateForLowQuality_MaintainResolutionMode) { |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| const int kInputFps = 30; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| VideoSendStream::Stats stats = stats_proxy_->GetStats(); |
| stats.input_frame_rate = kInputFps; |
| stats_proxy_->SetMockStats(stats); |
| |
| // Expect no scaling to begin with (preference: MAINTAIN_FRAMERATE). |
| video_source_.IncomingCapturedFrame(CreateFrame(1, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(1); |
| EXPECT_THAT(video_source_.sink_wants(), UnlimitedSinkWants()); |
| |
| // Trigger adapt down, expect scaled down resolution. |
| video_stream_encoder_->TriggerQualityLow(); |
| video_source_.IncomingCapturedFrame(CreateFrame(2, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(2); |
| EXPECT_THAT(video_source_.sink_wants(), |
| FpsUnlimitedResolutionMatches(Lt(kWidth * kHeight))); |
| |
| // Enable MAINTAIN_RESOLUTION preference. |
| test::FrameForwarder new_video_source; |
| video_stream_encoder_->SetSourceAndWaitForRestrictionsUpdated( |
| &new_video_source, webrtc::DegradationPreference::MAINTAIN_RESOLUTION); |
| // Give the encoder queue time to process the change in degradation preference |
| // by waiting for an encoded frame. |
| new_video_source.IncomingCapturedFrame(CreateFrame(3, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(3); |
| EXPECT_THAT(new_video_source.sink_wants(), UnlimitedSinkWants()); |
| |
| // Trigger adapt down, expect reduced framerate. |
| video_stream_encoder_->TriggerQualityLow(); |
| new_video_source.IncomingCapturedFrame(CreateFrame(4, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(4); |
| EXPECT_THAT(new_video_source.sink_wants(), |
| FpsMatchesResolutionMax(Lt(kInputFps))); |
| |
| // Trigger adapt up, expect no restriction. |
| video_stream_encoder_->TriggerQualityHigh(); |
| EXPECT_THAT(new_video_source.sink_wants(), UnlimitedSinkWants()); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, DoesNotScaleBelowSetResolutionLimit) { |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| const size_t kNumFrames = 10; |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Enable adapter, expected input resolutions when downscaling: |
| // 1280x720 -> 960x540 -> 640x360 -> 480x270 -> 320x180 (kMinPixelsPerFrame) |
| video_source_.set_adaptation_enabled(true); |
| |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| int downscales = 0; |
| for (size_t i = 1; i <= kNumFrames; i++) { |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(i * kFrameIntervalMs, kWidth, kHeight)); |
| WaitForEncodedFrame(i * kFrameIntervalMs); |
| |
| // Trigger scale down. |
| rtc::VideoSinkWants last_wants = video_source_.sink_wants(); |
| video_stream_encoder_->TriggerQualityLow(); |
| EXPECT_GE(video_source_.sink_wants().max_pixel_count, kMinPixelsPerFrame); |
| |
| if (video_source_.sink_wants().max_pixel_count < last_wants.max_pixel_count) |
| ++downscales; |
| |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(downscales, |
| stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| EXPECT_GT(downscales, 0); |
| } |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| AdaptsResolutionUpAndDownTwiceOnOveruse_MaintainFramerateMode) { |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Enable MAINTAIN_FRAMERATE preference, no initial limitation. |
| AdaptingFrameForwarder source(&time_controller_); |
| source.set_adaptation_enabled(true); |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| |
| int64_t timestamp_ms = kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(kWidth, kHeight); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| // Trigger adapt down, expect scaled down resolution. |
| video_stream_encoder_->TriggerCpuOveruse(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), |
| FpsUnlimitedResolutionMatches(Lt(kWidth * kHeight))); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| // Trigger adapt up, expect no restriction. |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(kWidth, kHeight); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| // Trigger adapt down, expect scaled down resolution. |
| video_stream_encoder_->TriggerCpuOveruse(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), |
| FpsUnlimitedResolutionMatches(Lt(kWidth * kHeight))); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| // Trigger adapt up, expect no restriction. |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(kWidth, kHeight); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_EQ(4, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| AdaptsResolutionUpAndDownTwiceForLowQuality_BalancedMode_NoFpsLimit) { |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Enable BALANCED preference, no initial limitation. |
| AdaptingFrameForwarder source(&time_controller_); |
| source.set_adaptation_enabled(true); |
| video_stream_encoder_->SetSource(&source, |
| webrtc::DegradationPreference::BALANCED); |
| |
| int64_t timestamp_ms = kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(kWidth, kHeight); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect scaled down resolution. |
| video_stream_encoder_->TriggerQualityLow(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), |
| FpsUnlimitedResolutionMatches(Lt(kWidth * kHeight))); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect no restriction. |
| video_stream_encoder_->TriggerQualityHigh(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(kWidth, kHeight); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect scaled down resolution. |
| video_stream_encoder_->TriggerQualityLow(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), |
| FpsUnlimitedResolutionMatches(Lt(kWidth * kHeight))); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect no restriction. |
| video_stream_encoder_->TriggerQualityHigh(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(kWidth, kHeight); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(4, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, AdaptUpIfBwEstimateIsHigherThanMinBitrate) { |
| fake_encoder_.SetResolutionBitrateLimits( |
| {kEncoderBitrateLimits540p, kEncoderBitrateLimits720p}); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| DataRate::BitsPerSec(kEncoderBitrateLimits720p.min_start_bitrate_bps), |
| DataRate::BitsPerSec(kEncoderBitrateLimits720p.min_start_bitrate_bps), |
| DataRate::BitsPerSec(kEncoderBitrateLimits720p.min_start_bitrate_bps), 0, |
| 0, 0); |
| |
| // Enable MAINTAIN_FRAMERATE preference, no initial limitation. |
| AdaptingFrameForwarder source(&time_controller_); |
| source.set_adaptation_enabled(true); |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| |
| // Insert 720p frame. |
| int64_t timestamp_ms = kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, 1280, 720)); |
| WaitForEncodedFrame(1280, 720); |
| |
| // Reduce bitrate and trigger adapt down. |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| DataRate::BitsPerSec(kEncoderBitrateLimits540p.min_start_bitrate_bps), |
| DataRate::BitsPerSec(kEncoderBitrateLimits540p.min_start_bitrate_bps), |
| DataRate::BitsPerSec(kEncoderBitrateLimits540p.min_start_bitrate_bps), 0, |
| 0, 0); |
| video_stream_encoder_->TriggerQualityLow(); |
| |
| // Insert 720p frame. It should be downscaled and encoded. |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, 1280, 720)); |
| WaitForEncodedFrame(960, 540); |
| |
| // Trigger adapt up. Higher resolution should not be requested duo to lack |
| // of bitrate. |
| video_stream_encoder_->TriggerQualityHigh(); |
| EXPECT_THAT(source.sink_wants(), |
| FpsUnlimitedResolutionMatches(Lt(1280 * 720))); |
| |
| // Increase bitrate. |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| DataRate::BitsPerSec(kEncoderBitrateLimits720p.min_start_bitrate_bps), |
| DataRate::BitsPerSec(kEncoderBitrateLimits720p.min_start_bitrate_bps), |
| DataRate::BitsPerSec(kEncoderBitrateLimits720p.min_start_bitrate_bps), 0, |
| 0, 0); |
| |
| // Trigger adapt up. Higher resolution should be requested. |
| video_stream_encoder_->TriggerQualityHigh(); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, DropFirstFramesIfBwEstimateIsTooLow) { |
| fake_encoder_.SetResolutionBitrateLimits( |
| {kEncoderBitrateLimits540p, kEncoderBitrateLimits720p}); |
| |
| // Set bitrate equal to min bitrate of 540p. |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| DataRate::BitsPerSec(kEncoderBitrateLimits540p.min_start_bitrate_bps), |
| DataRate::BitsPerSec(kEncoderBitrateLimits540p.min_start_bitrate_bps), |
| DataRate::BitsPerSec(kEncoderBitrateLimits540p.min_start_bitrate_bps), 0, |
| 0, 0); |
| |
| // Enable MAINTAIN_FRAMERATE preference, no initial limitation. |
| AdaptingFrameForwarder source(&time_controller_); |
| source.set_adaptation_enabled(true); |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| |
| // Insert 720p frame. It should be dropped and lower resolution should be |
| // requested. |
| int64_t timestamp_ms = kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, 1280, 720)); |
| ExpectDroppedFrame(); |
| EXPECT_TRUE_WAIT(source.sink_wants().max_pixel_count < 1280 * 720, 5000); |
| |
| // Insert 720p frame. It should be downscaled and encoded. |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, 1280, 720)); |
| WaitForEncodedFrame(960, 540); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| class BalancedDegradationTest : public VideoStreamEncoderTest { |
| protected: |
| void SetupTest() { |
| // Reset encoder for field trials to take effect. |
| ConfigureEncoder(video_encoder_config_.Copy()); |
| OnBitrateUpdated(kTargetBitrate); |
| |
| // Enable BALANCED preference. |
| source_.set_adaptation_enabled(true); |
| video_stream_encoder_->SetSource(&source_, DegradationPreference::BALANCED); |
| } |
| |
| void OnBitrateUpdated(DataRate bitrate) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| bitrate, bitrate, bitrate, 0, 0, 0); |
| } |
| |
| void InsertFrame() { |
| timestamp_ms_ += kFrameIntervalMs; |
| source_.IncomingCapturedFrame(CreateFrame(timestamp_ms_, kWidth, kHeight)); |
| } |
| |
| void InsertFrameAndWaitForEncoded() { |
| InsertFrame(); |
| sink_.WaitForEncodedFrame(timestamp_ms_); |
| } |
| |
| const int kWidth = 640; // pixels:640x360=230400 |
| const int kHeight = 360; |
| const int64_t kFrameIntervalMs = 150; // Use low fps to not drop any frame. |
| int64_t timestamp_ms_ = 0; |
| AdaptingFrameForwarder source_{&time_controller_}; |
| }; |
| |
| TEST_F(BalancedDegradationTest, AdaptDownTwiceIfMinFpsDiffLtThreshold) { |
| test::ScopedKeyValueConfig field_trials( |
| field_trials_, |
| "WebRTC-Video-BalancedDegradationSettings/" |
| "pixels:57600|129600|230400,fps:7|10|24,fps_diff:1|1|1/"); |
| SetupTest(); |
| |
| // Force input frame rate. |
| const int kInputFps = 24; |
| VideoSendStream::Stats stats = stats_proxy_->GetStats(); |
| stats.input_frame_rate = kInputFps; |
| stats_proxy_->SetMockStats(stats); |
| |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_THAT(source_.sink_wants(), UnlimitedSinkWants()); |
| |
| // Trigger adapt down, expect scaled down framerate and resolution, |
| // since Fps diff (input-requested:0) < threshold. |
| video_stream_encoder_->TriggerQualityLow(); |
| EXPECT_THAT(source_.sink_wants(), |
| AllOf(WantsFps(Eq(24)), WantsMaxPixels(Le(230400)))); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(BalancedDegradationTest, AdaptDownOnceIfFpsDiffGeThreshold) { |
| test::ScopedKeyValueConfig field_trials( |
| field_trials_, |
| "WebRTC-Video-BalancedDegradationSettings/" |
| "pixels:57600|129600|230400,fps:7|10|24,fps_diff:1|1|1/"); |
| SetupTest(); |
| |
| // Force input frame rate. |
| const int kInputFps = 25; |
| VideoSendStream::Stats stats = stats_proxy_->GetStats(); |
| stats.input_frame_rate = kInputFps; |
| stats_proxy_->SetMockStats(stats); |
| |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_THAT(source_.sink_wants(), UnlimitedSinkWants()); |
| |
| // Trigger adapt down, expect scaled down framerate only (640x360@24fps). |
| // Fps diff (input-requested:1) == threshold. |
| video_stream_encoder_->TriggerQualityLow(); |
| EXPECT_THAT(source_.sink_wants(), FpsMatchesResolutionMax(Eq(24))); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(BalancedDegradationTest, AdaptDownUsesCodecSpecificFps) { |
| test::ScopedKeyValueConfig field_trials( |
| field_trials_, |
| "WebRTC-Video-BalancedDegradationSettings/" |
| "pixels:57600|129600|230400,fps:7|10|24,vp8_fps:8|11|22/"); |
| SetupTest(); |
| |
| EXPECT_EQ(kVideoCodecVP8, video_encoder_config_.codec_type); |
| |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_THAT(source_.sink_wants(), UnlimitedSinkWants()); |
| |
| // Trigger adapt down, expect scaled down framerate (640x360@22fps). |
| video_stream_encoder_->TriggerQualityLow(); |
| EXPECT_THAT(source_.sink_wants(), FpsMatchesResolutionMax(Eq(22))); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(BalancedDegradationTest, NoAdaptUpIfBwEstimateIsLessThanMinBitrate) { |
| test::ScopedKeyValueConfig field_trials( |
| field_trials_, |
| "WebRTC-Video-BalancedDegradationSettings/" |
| "pixels:57600|129600|230400,fps:7|10|14,kbps:0|0|425/"); |
| SetupTest(); |
| |
| const DataRate kMinBitrate = DataRate::KilobitsPerSec(425); |
| const DataRate kTooLowMinBitrate = DataRate::KilobitsPerSec(424); |
| OnBitrateUpdated(kTooLowMinBitrate); |
| |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_THAT(source_.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect scaled down framerate (640x360@14fps). |
| video_stream_encoder_->TriggerQualityLow(); |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_THAT(source_.sink_wants(), FpsMatchesResolutionMax(Eq(14))); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect scaled down resolution (480x270@14fps). |
| video_stream_encoder_->TriggerQualityLow(); |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_THAT(source_.sink_wants(), FpsEqResolutionLt(source_.last_wants())); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect scaled down framerate (480x270@10fps). |
| video_stream_encoder_->TriggerQualityLow(); |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_THAT(source_.sink_wants(), FpsLtResolutionEq(source_.last_wants())); |
| EXPECT_EQ(source_.sink_wants().max_framerate_fps, 10); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect no upscale in fps (target bitrate < min bitrate). |
| video_stream_encoder_->TriggerQualityHigh(); |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect upscaled fps (target bitrate == min bitrate). |
| OnBitrateUpdated(kMinBitrate); |
| video_stream_encoder_->TriggerQualityHigh(); |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_EQ(source_.sink_wants().max_framerate_fps, 14); |
| EXPECT_EQ(4, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(BalancedDegradationTest, |
| InitialFrameDropAdaptsFpsAndResolutionInOneStep) { |
| test::ScopedKeyValueConfig field_trials( |
| field_trials_, |
| "WebRTC-Video-BalancedDegradationSettings/" |
| "pixels:57600|129600|230400,fps:7|24|24/"); |
| SetupTest(); |
| OnBitrateUpdated(kLowTargetBitrate); |
| |
| EXPECT_THAT(source_.sink_wants(), UnlimitedSinkWants()); |
| |
| // Insert frame, expect scaled down: |
| // framerate (640x360@24fps) -> resolution (480x270@24fps). |
| InsertFrame(); |
| EXPECT_FALSE(WaitForFrame(TimeDelta::Seconds(1))); |
| EXPECT_LT(source_.sink_wants().max_pixel_count, kWidth * kHeight); |
| EXPECT_EQ(source_.sink_wants().max_framerate_fps, 24); |
| |
| // Insert frame, expect scaled down: |
| // resolution (320x180@24fps). |
| InsertFrame(); |
| EXPECT_FALSE(WaitForFrame(TimeDelta::Seconds(1))); |
| EXPECT_LT(source_.sink_wants().max_pixel_count, |
| source_.last_wants().max_pixel_count); |
| EXPECT_EQ(source_.sink_wants().max_framerate_fps, 24); |
| |
| // Frame should not be dropped (min pixels per frame reached). |
| InsertFrameAndWaitForEncoded(); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(BalancedDegradationTest, |
| NoAdaptUpInResolutionIfBwEstimateIsLessThanMinBitrate) { |
| test::ScopedKeyValueConfig field_trials( |
| field_trials_, |
| "WebRTC-Video-BalancedDegradationSettings/" |
| "pixels:57600|129600|230400,fps:7|10|14,kbps_res:0|0|435/"); |
| SetupTest(); |
| |
| const DataRate kResolutionMinBitrate = DataRate::KilobitsPerSec(435); |
| const DataRate kTooLowMinResolutionBitrate = DataRate::KilobitsPerSec(434); |
| OnBitrateUpdated(kTooLowMinResolutionBitrate); |
| |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_THAT(source_.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect scaled down framerate (640x360@14fps). |
| video_stream_encoder_->TriggerQualityLow(); |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_THAT(source_.sink_wants(), FpsMatchesResolutionMax(Eq(14))); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect scaled down resolution (480x270@14fps). |
| video_stream_encoder_->TriggerQualityLow(); |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_THAT(source_.sink_wants(), FpsEqResolutionLt(source_.last_wants())); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect scaled down framerate (480x270@10fps). |
| video_stream_encoder_->TriggerQualityLow(); |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_THAT(source_.sink_wants(), FpsLtResolutionEq(source_.last_wants())); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect upscaled fps (no bitrate limit) (480x270@14fps). |
| video_stream_encoder_->TriggerQualityHigh(); |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_THAT(source_.sink_wants(), FpsGtResolutionEq(source_.last_wants())); |
| EXPECT_EQ(4, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect no upscale in res (target bitrate < min bitrate). |
| video_stream_encoder_->TriggerQualityHigh(); |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_EQ(4, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect upscaled res (target bitrate == min bitrate). |
| OnBitrateUpdated(kResolutionMinBitrate); |
| video_stream_encoder_->TriggerQualityHigh(); |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_THAT(source_.sink_wants(), FpsEqResolutionGt(source_.last_wants())); |
| EXPECT_EQ(5, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(BalancedDegradationTest, |
| NoAdaptUpInFpsAndResolutionIfBwEstimateIsLessThanMinBitrate) { |
| test::ScopedKeyValueConfig field_trials( |
| field_trials_, |
| "WebRTC-Video-BalancedDegradationSettings/" |
| "pixels:57600|129600|230400,fps:7|10|14,kbps:0|0|425,kbps_res:0|0|435/"); |
| SetupTest(); |
| |
| const DataRate kMinBitrate = DataRate::KilobitsPerSec(425); |
| const DataRate kTooLowMinBitrate = DataRate::KilobitsPerSec(424); |
| const DataRate kResolutionMinBitrate = DataRate::KilobitsPerSec(435); |
| const DataRate kTooLowMinResolutionBitrate = DataRate::KilobitsPerSec(434); |
| OnBitrateUpdated(kTooLowMinBitrate); |
| |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_THAT(source_.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect scaled down framerate (640x360@14fps). |
| video_stream_encoder_->TriggerQualityLow(); |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_THAT(source_.sink_wants(), FpsMatchesResolutionMax(Eq(14))); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect scaled down resolution (480x270@14fps). |
| video_stream_encoder_->TriggerQualityLow(); |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_THAT(source_.sink_wants(), FpsEqResolutionLt(source_.last_wants())); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect scaled down framerate (480x270@10fps). |
| video_stream_encoder_->TriggerQualityLow(); |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_THAT(source_.sink_wants(), FpsLtResolutionEq(source_.last_wants())); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect no upscale (target bitrate < min bitrate). |
| video_stream_encoder_->TriggerQualityHigh(); |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect upscaled fps (target bitrate == min bitrate). |
| OnBitrateUpdated(kMinBitrate); |
| video_stream_encoder_->TriggerQualityHigh(); |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_THAT(source_.sink_wants(), FpsGtResolutionEq(source_.last_wants())); |
| EXPECT_EQ(4, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect no upscale in res (target bitrate < min bitrate). |
| OnBitrateUpdated(kTooLowMinResolutionBitrate); |
| video_stream_encoder_->TriggerQualityHigh(); |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_EQ(4, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect upscaled res (target bitrate == min bitrate). |
| OnBitrateUpdated(kResolutionMinBitrate); |
| video_stream_encoder_->TriggerQualityHigh(); |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_THAT(source_.sink_wants(), FpsEqResolutionGt(source_.last_wants())); |
| EXPECT_EQ(5, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| AdaptsResolutionOnOveruseAndLowQuality_MaintainFramerateMode) { |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Enable MAINTAIN_FRAMERATE preference, no initial limitation. |
| AdaptingFrameForwarder source(&time_controller_); |
| source.set_adaptation_enabled(true); |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| |
| int64_t timestamp_ms = kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(kWidth, kHeight); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger cpu adapt down, expect scaled down resolution (960x540). |
| video_stream_encoder_->TriggerCpuOveruse(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), |
| FpsUnlimitedResolutionMatches(Lt(kWidth * kHeight))); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger cpu adapt down, expect scaled down resolution (640x360). |
| video_stream_encoder_->TriggerCpuOveruse(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), |
| FpsUnlimitedResolutionLt(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger cpu adapt down, expect scaled down resolution (480x270). |
| video_stream_encoder_->TriggerCpuOveruse(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), |
| FpsUnlimitedResolutionLt(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger quality adapt down, expect scaled down resolution (320x180). |
| video_stream_encoder_->TriggerQualityLow(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), |
| FpsUnlimitedResolutionLt(source.last_wants())); |
| rtc::VideoSinkWants last_wants = source.sink_wants(); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger quality adapt down, expect no change (min resolution reached). |
| video_stream_encoder_->TriggerQualityLow(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsUnlimited()); |
| EXPECT_EQ(source.sink_wants().max_pixel_count, last_wants.max_pixel_count); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger quality adapt up, expect upscaled resolution (480x270). |
| video_stream_encoder_->TriggerQualityHigh(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), |
| FpsUnlimitedResolutionGt(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger quality and cpu adapt up since both are most limited, expect |
| // upscaled resolution (640x360). |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| video_stream_encoder_->TriggerQualityHigh(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), |
| FpsUnlimitedResolutionGt(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(4, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger quality and cpu adapt up since both are most limited, expect |
| // upscaled resolution (960x540). |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| video_stream_encoder_->TriggerQualityHigh(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), |
| FpsUnlimitedResolutionGt(source.last_wants())); |
| last_wants = source.sink_wants(); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(5, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(4, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger cpu adapt up, expect no change since not most limited (960x540). |
| // However the stats will change since the CPU resource is no longer limited. |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsEqResolutionEqTo(last_wants)); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(6, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(4, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger quality adapt up, expect no restriction (1280x720). |
| video_stream_encoder_->TriggerQualityHigh(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(kWidth, kHeight); |
| EXPECT_THAT(source.sink_wants(), |
| FpsUnlimitedResolutionGt(source.last_wants())); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_EQ(6, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(5, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, CpuLimitedHistogramIsReported) { |
| const int kWidth = 640; |
| const int kHeight = 360; |
| int64_t ntp_timestamp_ms = 123; |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| for (int i = 1; i <= SendStatisticsProxy::kMinRequiredMetricsSamples; ++i) { |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(ntp_timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(ntp_timestamp_ms); |
| ntp_timestamp_ms += 20; |
| } |
| |
| video_stream_encoder_->TriggerCpuOveruse(); |
| for (int i = 1; i <= SendStatisticsProxy::kMinRequiredMetricsSamples; ++i) { |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(ntp_timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(ntp_timestamp_ms); |
| ntp_timestamp_ms += 20; |
| } |
| |
| video_stream_encoder_->Stop(); |
| video_stream_encoder_.reset(); |
| stats_proxy_.reset(); |
| |
| EXPECT_METRIC_EQ( |
| 1, metrics::NumSamples("WebRTC.Video.CpuLimitedResolutionInPercent")); |
| EXPECT_METRIC_EQ( |
| 1, metrics::NumEvents("WebRTC.Video.CpuLimitedResolutionInPercent", 50)); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| CpuLimitedHistogramIsNotReportedForDisabledDegradation) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| const int kWidth = 640; |
| const int kHeight = 360; |
| int64_t ntp_timestamp_ms = 123; |
| |
| video_stream_encoder_->SetSource(&video_source_, |
| webrtc::DegradationPreference::DISABLED); |
| |
| for (int i = 1; i <= SendStatisticsProxy::kMinRequiredMetricsSamples; ++i) { |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(ntp_timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(ntp_timestamp_ms); |
| ntp_timestamp_ms += 20; |
| } |
| |
| video_stream_encoder_->Stop(); |
| video_stream_encoder_.reset(); |
| stats_proxy_.reset(); |
| |
| EXPECT_EQ(0, |
| metrics::NumSamples("WebRTC.Video.CpuLimitedResolutionInPercent")); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, ReportsVideoBitrateAllocation) { |
| ResetEncoder("FAKE", 1, 1, 1, /*screenshare*/ false, kDefaultFramerate, |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoBitrateAllocation); |
| |
| const int kDefaultFps = 30; |
| const VideoBitrateAllocation expected_bitrate = |
| SimulcastRateAllocator(env_, fake_encoder_.config()) |
| .Allocate(VideoBitrateAllocationParameters(kLowTargetBitrate.bps(), |
| kDefaultFps)); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kLowTargetBitrate, kLowTargetBitrate, kLowTargetBitrate, 0, 0, 0); |
| |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(CurrentTimeMs(), codec_width_, codec_height_)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| EXPECT_EQ(sink_.GetLastVideoBitrateAllocation(), expected_bitrate); |
| EXPECT_EQ(sink_.number_of_bitrate_allocations(), 1); |
| |
| // Check that encoder has been updated too, not just allocation observer. |
| EXPECT_TRUE(fake_encoder_.GetAndResetLastRateControlSettings().has_value()); |
| AdvanceTime(TimeDelta::Seconds(1) / kDefaultFps); |
| |
| // VideoBitrateAllocation not updated on second frame. |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(CurrentTimeMs(), codec_width_, codec_height_)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| EXPECT_EQ(sink_.number_of_bitrate_allocations(), 1); |
| AdvanceTime(TimeDelta::Millis(1) / kDefaultFps); |
| |
| // VideoBitrateAllocation updated after a process interval. |
| const int64_t start_time_ms = CurrentTimeMs(); |
| while (CurrentTimeMs() - start_time_ms < 5 * kProcessIntervalMs) { |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(CurrentTimeMs(), codec_width_, codec_height_)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| AdvanceTime(TimeDelta::Millis(1) / kDefaultFps); |
| } |
| EXPECT_GT(sink_.number_of_bitrate_allocations(), 3); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, ReportsVideoLayersAllocationForVP8Simulcast) { |
| ResetEncoder("VP8", /*num_streams*/ 2, 1, 1, /*screenshare*/ false, |
| kDefaultFramerate, |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoLayersAllocation); |
| |
| const int kDefaultFps = 30; |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kLowTargetBitrate, kLowTargetBitrate, kLowTargetBitrate, 0, 0, 0); |
| |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(CurrentTimeMs(), codec_width_, codec_height_)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| EXPECT_EQ(sink_.number_of_layers_allocations(), 1); |
| VideoLayersAllocation last_layer_allocation = |
| sink_.GetLastVideoLayersAllocation(); |
| // kLowTargetBitrate is only enough for one spatial layer. |
| ASSERT_EQ(last_layer_allocation.active_spatial_layers.size(), 1u); |
| |
| VideoBitrateAllocation bitrate_allocation = |
| fake_encoder_.GetAndResetLastRateControlSettings()->target_bitrate; |
| // Check that encoder has been updated too, not just allocation observer. |
| EXPECT_EQ(bitrate_allocation.get_sum_bps(), kLowTargetBitrate.bps()); |
| AdvanceTime(TimeDelta::Seconds(1) / kDefaultFps); |
| |
| // VideoLayersAllocation might be updated if frame rate changes. |
| int number_of_layers_allocation = 1; |
| const int64_t start_time_ms = CurrentTimeMs(); |
| while (CurrentTimeMs() - start_time_ms < 10 * kProcessIntervalMs) { |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(CurrentTimeMs(), codec_width_, codec_height_)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| if (number_of_layers_allocation != sink_.number_of_layers_allocations()) { |
| number_of_layers_allocation = sink_.number_of_layers_allocations(); |
| VideoLayersAllocation new_allocation = |
| sink_.GetLastVideoLayersAllocation(); |
| ASSERT_EQ(new_allocation.active_spatial_layers.size(), 1u); |
| EXPECT_NE(new_allocation.active_spatial_layers[0].frame_rate_fps, |
| last_layer_allocation.active_spatial_layers[0].frame_rate_fps); |
| EXPECT_EQ(new_allocation.active_spatial_layers[0] |
| .target_bitrate_per_temporal_layer, |
| last_layer_allocation.active_spatial_layers[0] |
| .target_bitrate_per_temporal_layer); |
| last_layer_allocation = new_allocation; |
| } |
| } |
| EXPECT_LE(sink_.number_of_layers_allocations(), 3); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| ReportsVideoLayersAllocationForVP8WithMiddleLayerDisabled) { |
| fake_encoder_.SetTemporalLayersSupported(/*spatial_idx=*/0, true); |
| fake_encoder_.SetTemporalLayersSupported(/*spatial_idx*/ 1, true); |
| fake_encoder_.SetTemporalLayersSupported(/*spatial_idx*/ 2, true); |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(VideoCodecType::kVideoCodecVP8, |
| /* num_streams*/ 3, &video_encoder_config); |
| video_encoder_config.max_bitrate_bps = 2 * kTargetBitrate.bps(); |
| video_encoder_config.content_type = |
| VideoEncoderConfig::ContentType::kRealtimeVideo; |
| video_encoder_config.encoder_specific_settings = |
| rtc::make_ref_counted<VideoEncoderConfig::Vp8EncoderSpecificSettings>( |
| VideoEncoder::GetDefaultVp8Settings()); |
| for (auto& layer : video_encoder_config.simulcast_layers) { |
| layer.num_temporal_layers = 2; |
| } |
| // Simulcast layers are used for enabling/disabling streams. |
| video_encoder_config.simulcast_layers[0].active = true; |
| video_encoder_config.simulcast_layers[1].active = false; |
| video_encoder_config.simulcast_layers[2].active = true; |
| ConfigureEncoder(std::move(video_encoder_config), |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoLayersAllocation); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(CurrentTimeMs(), 1280, 720)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| EXPECT_EQ(sink_.number_of_layers_allocations(), 1); |
| VideoLayersAllocation last_layer_allocation = |
| sink_.GetLastVideoLayersAllocation(); |
| |
| ASSERT_THAT(last_layer_allocation.active_spatial_layers, SizeIs(2)); |
| EXPECT_THAT(last_layer_allocation.active_spatial_layers[0] |
| .target_bitrate_per_temporal_layer, |
| SizeIs(2)); |
| EXPECT_LT(last_layer_allocation.active_spatial_layers[0].width, 1280); |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[1].width, 1280); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| ReportsVideoLayersAllocationForVP8WithMiddleAndHighestLayerDisabled) { |
| fake_encoder_.SetTemporalLayersSupported(/*spatial_idx=*/0, true); |
| fake_encoder_.SetTemporalLayersSupported(/*spatial_idx*/ 1, true); |
| fake_encoder_.SetTemporalLayersSupported(/*spatial_idx*/ 2, true); |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(VideoCodecType::kVideoCodecVP8, |
| /* num_streams*/ 3, &video_encoder_config); |
| video_encoder_config.max_bitrate_bps = 2 * kTargetBitrate.bps(); |
| video_encoder_config.content_type = |
| VideoEncoderConfig::ContentType::kRealtimeVideo; |
| video_encoder_config.encoder_specific_settings = |
| rtc::make_ref_counted<VideoEncoderConfig::Vp8EncoderSpecificSettings>( |
| VideoEncoder::GetDefaultVp8Settings()); |
| for (auto& layer : video_encoder_config.simulcast_layers) { |
| layer.num_temporal_layers = 2; |
| } |
| // Simulcast layers are used for enabling/disabling streams. |
| video_encoder_config.simulcast_layers[0].active = true; |
| video_encoder_config.simulcast_layers[1].active = false; |
| video_encoder_config.simulcast_layers[2].active = false; |
| ConfigureEncoder(std::move(video_encoder_config), |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoLayersAllocation); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(CurrentTimeMs(), 1280, 720)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| EXPECT_EQ(sink_.number_of_layers_allocations(), 1); |
| VideoLayersAllocation last_layer_allocation = |
| sink_.GetLastVideoLayersAllocation(); |
| |
| ASSERT_THAT(last_layer_allocation.active_spatial_layers, SizeIs(1)); |
| EXPECT_THAT(last_layer_allocation.active_spatial_layers[0] |
| .target_bitrate_per_temporal_layer, |
| SizeIs(2)); |
| EXPECT_LT(last_layer_allocation.active_spatial_layers[0].width, 1280); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| ReportsVideoLayersAllocationForV9SvcWithTemporalLayerSupport) { |
| fake_encoder_.SetTemporalLayersSupported(/*spatial_idx=*/0, true); |
| fake_encoder_.SetTemporalLayersSupported(/*spatial_idx*/ 1, true); |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(VideoCodecType::kVideoCodecVP9, |
| /* num_streams*/ 1, &video_encoder_config); |
| video_encoder_config.max_bitrate_bps = 2 * kTargetBitrate.bps(); |
| video_encoder_config.content_type = |
| VideoEncoderConfig::ContentType::kRealtimeVideo; |
| VideoCodecVP9 vp9_settings = VideoEncoder::GetDefaultVp9Settings(); |
| vp9_settings.numberOfSpatialLayers = 2; |
| vp9_settings.numberOfTemporalLayers = 2; |
| vp9_settings.interLayerPred = InterLayerPredMode::kOn; |
| vp9_settings.automaticResizeOn = false; |
| video_encoder_config.encoder_specific_settings = |
| rtc::make_ref_counted<VideoEncoderConfig::Vp9EncoderSpecificSettings>( |
| vp9_settings); |
| ConfigureEncoder(std::move(video_encoder_config), |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoLayersAllocation); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(CurrentTimeMs(), 1280, 720)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| EXPECT_EQ(sink_.number_of_layers_allocations(), 1); |
| VideoLayersAllocation last_layer_allocation = |
| sink_.GetLastVideoLayersAllocation(); |
| |
| ASSERT_THAT(last_layer_allocation.active_spatial_layers, SizeIs(2)); |
| EXPECT_THAT(last_layer_allocation.active_spatial_layers[0] |
| .target_bitrate_per_temporal_layer, |
| SizeIs(2)); |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[0].width, 640); |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[0].height, 360); |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[0].frame_rate_fps, 30); |
| EXPECT_THAT(last_layer_allocation.active_spatial_layers[1] |
| .target_bitrate_per_temporal_layer, |
| SizeIs(2)); |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[1].width, 1280); |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[1].height, 720); |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[1].frame_rate_fps, 30); |
| |
| // Since full SVC is used, expect the top layer to utilize the full target |
| // rate. |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[1] |
| .target_bitrate_per_temporal_layer[1], |
| kTargetBitrate); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| ReportsVideoLayersAllocationForV9SvcWithoutTemporalLayerSupport) { |
| fake_encoder_.SetTemporalLayersSupported(/*spatial_idx=*/0, false); |
| fake_encoder_.SetTemporalLayersSupported(/*spatial_idx*/ 1, false); |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(VideoCodecType::kVideoCodecVP9, |
| /* num_streams*/ 1, &video_encoder_config); |
| video_encoder_config.max_bitrate_bps = 2 * kTargetBitrate.bps(); |
| video_encoder_config.content_type = |
| VideoEncoderConfig::ContentType::kRealtimeVideo; |
| VideoCodecVP9 vp9_settings = VideoEncoder::GetDefaultVp9Settings(); |
| vp9_settings.numberOfSpatialLayers = 2; |
| vp9_settings.numberOfTemporalLayers = 2; |
| vp9_settings.interLayerPred = InterLayerPredMode::kOn; |
| vp9_settings.automaticResizeOn = false; |
| video_encoder_config.encoder_specific_settings = |
| rtc::make_ref_counted<VideoEncoderConfig::Vp9EncoderSpecificSettings>( |
| vp9_settings); |
| ConfigureEncoder(std::move(video_encoder_config), |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoLayersAllocation); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(CurrentTimeMs(), 1280, 720)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| EXPECT_EQ(sink_.number_of_layers_allocations(), 1); |
| VideoLayersAllocation last_layer_allocation = |
| sink_.GetLastVideoLayersAllocation(); |
| |
| ASSERT_THAT(last_layer_allocation.active_spatial_layers, SizeIs(2)); |
| EXPECT_THAT(last_layer_allocation.active_spatial_layers[0] |
| .target_bitrate_per_temporal_layer, |
| SizeIs(1)); |
| EXPECT_THAT(last_layer_allocation.active_spatial_layers[1] |
| .target_bitrate_per_temporal_layer, |
| SizeIs(1)); |
| // Since full SVC is used, expect the top layer to utilize the full target |
| // rate. |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[1] |
| .target_bitrate_per_temporal_layer[0], |
| kTargetBitrate); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| ReportsVideoLayersAllocationForVP9KSvcWithTemporalLayerSupport) { |
| fake_encoder_.SetTemporalLayersSupported(/*spatial_idx=*/0, true); |
| fake_encoder_.SetTemporalLayersSupported(/*spatial_idx*/ 1, true); |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(VideoCodecType::kVideoCodecVP9, |
| /* num_streams*/ 1, &video_encoder_config); |
| video_encoder_config.max_bitrate_bps = 2 * kTargetBitrate.bps(); |
| video_encoder_config.content_type = |
| VideoEncoderConfig::ContentType::kRealtimeVideo; |
| VideoCodecVP9 vp9_settings = VideoEncoder::GetDefaultVp9Settings(); |
| vp9_settings.numberOfSpatialLayers = 2; |
| vp9_settings.numberOfTemporalLayers = 2; |
| vp9_settings.interLayerPred = InterLayerPredMode::kOnKeyPic; |
| vp9_settings.automaticResizeOn = false; |
| video_encoder_config.encoder_specific_settings = |
| rtc::make_ref_counted<VideoEncoderConfig::Vp9EncoderSpecificSettings>( |
| vp9_settings); |
| ConfigureEncoder(std::move(video_encoder_config), |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoLayersAllocation); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(CurrentTimeMs(), 1280, 720)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| EXPECT_EQ(sink_.number_of_layers_allocations(), 1); |
| VideoLayersAllocation last_layer_allocation = |
| sink_.GetLastVideoLayersAllocation(); |
| |
| ASSERT_THAT(last_layer_allocation.active_spatial_layers, SizeIs(2)); |
| EXPECT_THAT(last_layer_allocation.active_spatial_layers[0] |
| .target_bitrate_per_temporal_layer, |
| SizeIs(2)); |
| EXPECT_THAT(last_layer_allocation.active_spatial_layers[1] |
| .target_bitrate_per_temporal_layer, |
| SizeIs(2)); |
| // Since KSVC is, spatial layers are independend except on key frames. |
| EXPECT_LT(last_layer_allocation.active_spatial_layers[1] |
| .target_bitrate_per_temporal_layer[1], |
| kTargetBitrate); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| ReportsVideoLayersAllocationForV9SvcWithLowestLayerDisabled) { |
| fake_encoder_.SetTemporalLayersSupported(/*spatial_idx=*/0, true); |
| fake_encoder_.SetTemporalLayersSupported(/*spatial_idx*/ 1, true); |
| fake_encoder_.SetTemporalLayersSupported(/*spatial_idx*/ 2, true); |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(VideoCodecType::kVideoCodecVP9, |
| /* num_streams*/ 1, &video_encoder_config); |
| video_encoder_config.max_bitrate_bps = 2 * kTargetBitrate.bps(); |
| video_encoder_config.content_type = |
| VideoEncoderConfig::ContentType::kRealtimeVideo; |
| VideoCodecVP9 vp9_settings = VideoEncoder::GetDefaultVp9Settings(); |
| vp9_settings.numberOfSpatialLayers = 3; |
| vp9_settings.numberOfTemporalLayers = 2; |
| vp9_settings.interLayerPred = InterLayerPredMode::kOn; |
| vp9_settings.automaticResizeOn = false; |
| video_encoder_config.encoder_specific_settings = |
| rtc::make_ref_counted<VideoEncoderConfig::Vp9EncoderSpecificSettings>( |
| vp9_settings); |
| // Simulcast layers are used for enabling/disabling streams. |
| video_encoder_config.simulcast_layers.resize(3); |
| video_encoder_config.simulcast_layers[0].active = false; |
| video_encoder_config.simulcast_layers[1].active = true; |
| video_encoder_config.simulcast_layers[2].active = true; |
| ConfigureEncoder(std::move(video_encoder_config), |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoLayersAllocation); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(CurrentTimeMs(), 1280, 720)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| EXPECT_EQ(sink_.number_of_layers_allocations(), 1); |
| VideoLayersAllocation last_layer_allocation = |
| sink_.GetLastVideoLayersAllocation(); |
| |
| ASSERT_THAT(last_layer_allocation.active_spatial_layers, SizeIs(2)); |
| EXPECT_THAT(last_layer_allocation.active_spatial_layers[0] |
| .target_bitrate_per_temporal_layer, |
| SizeIs(2)); |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[0].width, 640); |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[0].spatial_id, 0); |
| |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[1].width, 1280); |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[1].spatial_id, 1); |
| EXPECT_THAT(last_layer_allocation.active_spatial_layers[1] |
| .target_bitrate_per_temporal_layer, |
| SizeIs(2)); |
| // Since full SVC is used, expect the top layer to utilize the full target |
| // rate. |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[1] |
| .target_bitrate_per_temporal_layer[1], |
| kTargetBitrate); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| ReportsVideoLayersAllocationForV9SvcWithHighestLayerDisabled) { |
| fake_encoder_.SetTemporalLayersSupported(/*spatial_idx=*/0, true); |
| fake_encoder_.SetTemporalLayersSupported(/*spatial_idx*/ 1, true); |
| fake_encoder_.SetTemporalLayersSupported(/*spatial_idx*/ 2, true); |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(VideoCodecType::kVideoCodecVP9, |
| /* num_streams*/ 1, &video_encoder_config); |
| video_encoder_config.max_bitrate_bps = 2 * kTargetBitrate.bps(); |
| video_encoder_config.content_type = |
| VideoEncoderConfig::ContentType::kRealtimeVideo; |
| VideoCodecVP9 vp9_settings = VideoEncoder::GetDefaultVp9Settings(); |
| vp9_settings.numberOfSpatialLayers = 3; |
| vp9_settings.numberOfTemporalLayers = 2; |
| vp9_settings.interLayerPred = InterLayerPredMode::kOn; |
| vp9_settings.automaticResizeOn = false; |
| video_encoder_config.encoder_specific_settings = |
| rtc::make_ref_counted<VideoEncoderConfig::Vp9EncoderSpecificSettings>( |
| vp9_settings); |
| // Simulcast layers are used for enabling/disabling streams. |
| video_encoder_config.simulcast_layers.resize(3); |
| video_encoder_config.simulcast_layers[2].active = false; |
| ConfigureEncoder(std::move(video_encoder_config), |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoLayersAllocation); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(CurrentTimeMs(), 1280, 720)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| EXPECT_EQ(sink_.number_of_layers_allocations(), 1); |
| VideoLayersAllocation last_layer_allocation = |
| sink_.GetLastVideoLayersAllocation(); |
| |
| ASSERT_THAT(last_layer_allocation.active_spatial_layers, SizeIs(2)); |
| EXPECT_THAT(last_layer_allocation.active_spatial_layers[0] |
| .target_bitrate_per_temporal_layer, |
| SizeIs(2)); |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[0].width, 320); |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[0].spatial_id, 0); |
| |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[1].width, 640); |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[1].spatial_id, 1); |
| EXPECT_THAT(last_layer_allocation.active_spatial_layers[1] |
| .target_bitrate_per_temporal_layer, |
| SizeIs(2)); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| ReportsVideoLayersAllocationForV9SvcWithAllButHighestLayerDisabled) { |
| fake_encoder_.SetTemporalLayersSupported(/*spatial_idx=*/0, true); |
| fake_encoder_.SetTemporalLayersSupported(/*spatial_idx*/ 1, true); |
| fake_encoder_.SetTemporalLayersSupported(/*spatial_idx*/ 2, true); |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(VideoCodecType::kVideoCodecVP9, |
| /* num_streams*/ 1, &video_encoder_config); |
| video_encoder_config.max_bitrate_bps = 2 * kTargetBitrate.bps(); |
| video_encoder_config.content_type = |
| VideoEncoderConfig::ContentType::kRealtimeVideo; |
| VideoCodecVP9 vp9_settings = VideoEncoder::GetDefaultVp9Settings(); |
| vp9_settings.numberOfSpatialLayers = 3; |
| vp9_settings.numberOfTemporalLayers = 2; |
| vp9_settings.interLayerPred = InterLayerPredMode::kOn; |
| vp9_settings.automaticResizeOn = false; |
| video_encoder_config.encoder_specific_settings = |
| rtc::make_ref_counted<VideoEncoderConfig::Vp9EncoderSpecificSettings>( |
| vp9_settings); |
| // Simulcast layers are used for enabling/disabling streams. |
| video_encoder_config.simulcast_layers.resize(3); |
| video_encoder_config.simulcast_layers[0].active = false; |
| video_encoder_config.simulcast_layers[1].active = false; |
| video_encoder_config.simulcast_layers[2].active = true; |
| ConfigureEncoder(std::move(video_encoder_config), |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoLayersAllocation); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(CurrentTimeMs(), 1280, 720)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| EXPECT_EQ(sink_.number_of_layers_allocations(), 1); |
| VideoLayersAllocation last_layer_allocation = |
| sink_.GetLastVideoLayersAllocation(); |
| |
| ASSERT_THAT(last_layer_allocation.active_spatial_layers, SizeIs(1)); |
| EXPECT_THAT(last_layer_allocation.active_spatial_layers[0] |
| .target_bitrate_per_temporal_layer, |
| SizeIs(2)); |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[0].width, 1280); |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[0].spatial_id, 0); |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[0] |
| .target_bitrate_per_temporal_layer[1], |
| kTargetBitrate); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, ReportsVideoLayersAllocationForH264) { |
| ResetEncoder("H264", 1, 1, 1, false, kDefaultFramerate, |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoLayersAllocation); |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(CurrentTimeMs(), 1280, 720)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| EXPECT_EQ(sink_.number_of_layers_allocations(), 1); |
| VideoLayersAllocation last_layer_allocation = |
| sink_.GetLastVideoLayersAllocation(); |
| |
| ASSERT_THAT(last_layer_allocation.active_spatial_layers, SizeIs(1)); |
| ASSERT_THAT(last_layer_allocation.active_spatial_layers[0] |
| .target_bitrate_per_temporal_layer, |
| SizeIs(1)); |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[0] |
| .target_bitrate_per_temporal_layer[0], |
| kTargetBitrate); |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[0].width, 1280); |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[0].height, 720); |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[0].frame_rate_fps, 30); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| ReportsUpdatedVideoLayersAllocationWhenBweChanges) { |
| ResetEncoder("VP8", /*num_streams*/ 2, 1, 1, /*screenshare*/ false, |
| kDefaultFramerate, |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoLayersAllocation); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kLowTargetBitrate, kLowTargetBitrate, kLowTargetBitrate, 0, 0, 0); |
| |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(CurrentTimeMs(), codec_width_, codec_height_)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| EXPECT_EQ(sink_.number_of_layers_allocations(), 1); |
| VideoLayersAllocation last_layer_allocation = |
| sink_.GetLastVideoLayersAllocation(); |
| // kLowTargetBitrate is only enough for one spatial layer. |
| ASSERT_EQ(last_layer_allocation.active_spatial_layers.size(), 1u); |
| EXPECT_EQ(last_layer_allocation.active_spatial_layers[0] |
| .target_bitrate_per_temporal_layer[0], |
| kLowTargetBitrate); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kSimulcastTargetBitrate, kSimulcastTargetBitrate, kSimulcastTargetBitrate, |
| 0, 0, 0); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(CurrentTimeMs(), codec_width_, codec_height_)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| |
| EXPECT_EQ(sink_.number_of_layers_allocations(), 2); |
| last_layer_allocation = sink_.GetLastVideoLayersAllocation(); |
| ASSERT_EQ(last_layer_allocation.active_spatial_layers.size(), 2u); |
| EXPECT_GT(last_layer_allocation.active_spatial_layers[1] |
| .target_bitrate_per_temporal_layer[0], |
| DataRate::Zero()); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| ReportsUpdatedVideoLayersAllocationWhenResolutionChanges) { |
| ResetEncoder("VP8", /*num_streams*/ 2, 1, 1, /*screenshare*/ false, |
| kDefaultFramerate, |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoLayersAllocation); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kSimulcastTargetBitrate, kSimulcastTargetBitrate, kSimulcastTargetBitrate, |
| 0, 0, 0); |
| |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(CurrentTimeMs(), codec_width_, codec_height_)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| EXPECT_EQ(sink_.number_of_layers_allocations(), 1); |
| ASSERT_THAT(sink_.GetLastVideoLayersAllocation().active_spatial_layers, |
| SizeIs(2)); |
| EXPECT_EQ(sink_.GetLastVideoLayersAllocation().active_spatial_layers[1].width, |
| codec_width_); |
| EXPECT_EQ( |
| sink_.GetLastVideoLayersAllocation().active_spatial_layers[1].height, |
| codec_height_); |
| |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(CurrentTimeMs(), codec_width_ / 2, codec_height_ / 2)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| EXPECT_EQ(sink_.number_of_layers_allocations(), 2); |
| ASSERT_THAT(sink_.GetLastVideoLayersAllocation().active_spatial_layers, |
| SizeIs(2)); |
| EXPECT_EQ(sink_.GetLastVideoLayersAllocation().active_spatial_layers[1].width, |
| codec_width_ / 2); |
| EXPECT_EQ( |
| sink_.GetLastVideoLayersAllocation().active_spatial_layers[1].height, |
| codec_height_ / 2); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, TemporalLayersNotDisabledIfSupported) { |
| // 2 TLs configured, temporal layers supported by encoder. |
| const int kNumTemporalLayers = 2; |
| ResetEncoder("VP8", 1, kNumTemporalLayers, 1, /*screenshare*/ false, |
| kDefaultFramerate, |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoBitrateAllocation); |
| fake_encoder_.SetTemporalLayersSupported(0, true); |
| |
| // Bitrate allocated across temporal layers. |
| const int kTl0Bps = kTargetBitrate.bps() * |
| webrtc::SimulcastRateAllocator::GetTemporalRateAllocation( |
| kNumTemporalLayers, /*temporal_id*/ 0, |
| /*base_heavy_tl3_alloc*/ false); |
| const int kTl1Bps = kTargetBitrate.bps() * |
| webrtc::SimulcastRateAllocator::GetTemporalRateAllocation( |
| kNumTemporalLayers, /*temporal_id*/ 1, |
| /*base_heavy_tl3_alloc*/ false); |
| VideoBitrateAllocation expected_bitrate; |
| expected_bitrate.SetBitrate(/*si*/ 0, /*ti*/ 0, kTl0Bps); |
| expected_bitrate.SetBitrate(/*si*/ 0, /*ti*/ 1, kTl1Bps - kTl0Bps); |
| |
| VerifyAllocatedBitrate(expected_bitrate); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, TemporalLayersDisabledIfNotSupported) { |
| // 2 TLs configured, temporal layers not supported by encoder. |
| ResetEncoder("VP8", 1, /*num_temporal_layers*/ 2, 1, /*screenshare*/ false, |
| kDefaultFramerate, |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoBitrateAllocation); |
| fake_encoder_.SetTemporalLayersSupported(0, false); |
| |
| // Temporal layers not supported by the encoder. |
| // Total bitrate should be at ti:0. |
| VideoBitrateAllocation expected_bitrate; |
| expected_bitrate.SetBitrate(/*si*/ 0, /*ti*/ 0, kTargetBitrate.bps()); |
| |
| VerifyAllocatedBitrate(expected_bitrate); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, VerifyBitrateAllocationForTwoStreams) { |
| webrtc::test::ScopedKeyValueConfig field_trials( |
| field_trials_, |
| "WebRTC-Video-QualityScalerSettings/" |
| "initial_bitrate_interval_ms:1000,initial_bitrate_factor:0.2/"); |
| // Reset encoder for field trials to take effect. |
| ConfigureEncoder(video_encoder_config_.Copy()); |
| |
| // 2 TLs configured, temporal layers only supported for first stream. |
| ResetEncoder("VP8", 2, /*num_temporal_layers*/ 2, 1, /*screenshare*/ false, |
| kDefaultFramerate, |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoBitrateAllocation); |
| fake_encoder_.SetTemporalLayersSupported(0, true); |
| fake_encoder_.SetTemporalLayersSupported(1, false); |
| |
| const int kS0Bps = 150000; |
| const int kS0Tl0Bps = |
| kS0Bps * |
| webrtc::SimulcastRateAllocator::GetTemporalRateAllocation( |
| /*num_layers*/ 2, /*temporal_id*/ 0, /*base_heavy_tl3_alloc*/ false); |
| const int kS0Tl1Bps = |
| kS0Bps * |
| webrtc::SimulcastRateAllocator::GetTemporalRateAllocation( |
| /*num_layers*/ 2, /*temporal_id*/ 1, /*base_heavy_tl3_alloc*/ false); |
| const int kS1Bps = kTargetBitrate.bps() - kS0Tl1Bps; |
| // Temporal layers not supported by si:1. |
| VideoBitrateAllocation expected_bitrate; |
| expected_bitrate.SetBitrate(/*si*/ 0, /*ti*/ 0, kS0Tl0Bps); |
| expected_bitrate.SetBitrate(/*si*/ 0, /*ti*/ 1, kS0Tl1Bps - kS0Tl0Bps); |
| expected_bitrate.SetBitrate(/*si*/ 1, /*ti*/ 0, kS1Bps); |
| |
| VerifyAllocatedBitrate(expected_bitrate); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, OveruseDetectorUpdatedOnReconfigureAndAdaption) { |
| const int kFrameWidth = 1280; |
| const int kFrameHeight = 720; |
| const int kFramerate = 24; |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_RESOLUTION); |
| |
| // Insert a single frame, triggering initial configuration. |
| source.IncomingCapturedFrame(CreateFrame(1, kFrameWidth, kFrameHeight)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| EXPECT_EQ( |
| video_stream_encoder_->overuse_detector_proxy_->GetLastTargetFramerate(), |
| kDefaultFramerate); |
| |
| // Trigger reconfigure encoder (without resetting the entire instance). |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(kVideoCodecVP8, 1, &video_encoder_config); |
| video_encoder_config.simulcast_layers[0].max_framerate = kFramerate; |
| video_encoder_config.max_bitrate_bps = kTargetBitrate.bps(); |
| video_stream_encoder_->ConfigureEncoder(std::move(video_encoder_config), |
| kMaxPayloadLength); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| // Detector should be updated with fps limit from codec config. |
| EXPECT_EQ( |
| video_stream_encoder_->overuse_detector_proxy_->GetLastTargetFramerate(), |
| kFramerate); |
| |
| // Trigger overuse, max framerate should be reduced. |
| VideoSendStream::Stats stats = stats_proxy_->GetStats(); |
| stats.input_frame_rate = kFramerate; |
| stats_proxy_->SetMockStats(stats); |
| video_stream_encoder_->TriggerCpuOveruse(); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| int adapted_framerate = |
| video_stream_encoder_->overuse_detector_proxy_->GetLastTargetFramerate(); |
| EXPECT_LT(adapted_framerate, kFramerate); |
| |
| // Trigger underuse, max framerate should go back to codec configured fps. |
| // Set extra low fps, to make sure it's actually reset, not just incremented. |
| stats = stats_proxy_->GetStats(); |
| stats.input_frame_rate = adapted_framerate / 2; |
| stats_proxy_->SetMockStats(stats); |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ( |
| video_stream_encoder_->overuse_detector_proxy_->GetLastTargetFramerate(), |
| kFramerate); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| OveruseDetectorUpdatedRespectsFramerateAfterUnderuse) { |
| const int kFrameWidth = 1280; |
| const int kFrameHeight = 720; |
| const int kLowFramerate = 15; |
| const int kHighFramerate = 25; |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_RESOLUTION); |
| |
| // Trigger initial configuration. |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(kVideoCodecVP8, 1, &video_encoder_config); |
| video_encoder_config.simulcast_layers[0].max_framerate = kLowFramerate; |
| video_encoder_config.max_bitrate_bps = kTargetBitrate.bps(); |
| source.IncomingCapturedFrame(CreateFrame(1, kFrameWidth, kFrameHeight)); |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config.Copy(), |
| kMaxPayloadLength); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| EXPECT_EQ( |
| video_stream_encoder_->overuse_detector_proxy_->GetLastTargetFramerate(), |
| kLowFramerate); |
| |
| // Trigger overuse, max framerate should be reduced. |
| VideoSendStream::Stats stats = stats_proxy_->GetStats(); |
| stats.input_frame_rate = kLowFramerate; |
| stats_proxy_->SetMockStats(stats); |
| video_stream_encoder_->TriggerCpuOveruse(); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| int adapted_framerate = |
| video_stream_encoder_->overuse_detector_proxy_->GetLastTargetFramerate(); |
| EXPECT_LT(adapted_framerate, kLowFramerate); |
| |
| // Reconfigure the encoder with a new (higher max framerate), max fps should |
| // still respect the adaptation. |
| video_encoder_config.simulcast_layers[0].max_framerate = kHighFramerate; |
| source.IncomingCapturedFrame(CreateFrame(2, kFrameWidth, kFrameHeight)); |
| video_stream_encoder_->ConfigureEncoder(std::move(video_encoder_config), |
| kMaxPayloadLength); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| EXPECT_EQ( |
| video_stream_encoder_->overuse_detector_proxy_->GetLastTargetFramerate(), |
| adapted_framerate); |
| |
| // Trigger underuse, max framerate should go back to codec configured fps. |
| stats = stats_proxy_->GetStats(); |
| stats.input_frame_rate = adapted_framerate; |
| stats_proxy_->SetMockStats(stats); |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ( |
| video_stream_encoder_->overuse_detector_proxy_->GetLastTargetFramerate(), |
| kHighFramerate); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| OveruseDetectorUpdatedOnDegradationPreferenceChange) { |
| const int kFrameWidth = 1280; |
| const int kFrameHeight = 720; |
| const int kFramerate = 24; |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_RESOLUTION); |
| |
| // Trigger initial configuration. |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(kVideoCodecVP8, 1, &video_encoder_config); |
| video_encoder_config.simulcast_layers[0].max_framerate = kFramerate; |
| video_encoder_config.max_bitrate_bps = kTargetBitrate.bps(); |
| source.IncomingCapturedFrame(CreateFrame(1, kFrameWidth, kFrameHeight)); |
| video_stream_encoder_->ConfigureEncoder(std::move(video_encoder_config), |
| kMaxPayloadLength); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| EXPECT_EQ( |
| video_stream_encoder_->overuse_detector_proxy_->GetLastTargetFramerate(), |
| kFramerate); |
| |
| // Trigger overuse, max framerate should be reduced. |
| VideoSendStream::Stats stats = stats_proxy_->GetStats(); |
| stats.input_frame_rate = kFramerate; |
| stats_proxy_->SetMockStats(stats); |
| video_stream_encoder_->TriggerCpuOveruse(); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| int adapted_framerate = |
| video_stream_encoder_->overuse_detector_proxy_->GetLastTargetFramerate(); |
| EXPECT_LT(adapted_framerate, kFramerate); |
| |
| // Change degradation preference to not enable framerate scaling. Target |
| // framerate should be changed to codec defined limit. |
| video_stream_encoder_->SetSourceAndWaitForFramerateUpdated( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| EXPECT_EQ( |
| video_stream_encoder_->overuse_detector_proxy_->GetLastTargetFramerate(), |
| kFramerate); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, DropsFramesAndScalesWhenBitrateIsTooLow) { |
| const int kTooLowBitrateForFrameSizeBps = 10000; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| DataRate::BitsPerSec(kTooLowBitrateForFrameSizeBps), |
| DataRate::BitsPerSec(kTooLowBitrateForFrameSizeBps), |
| DataRate::BitsPerSec(kTooLowBitrateForFrameSizeBps), 0, 0, 0); |
| const int kWidth = 640; |
| const int kHeight = 360; |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(1, kWidth, kHeight)); |
| |
| // Expect to drop this frame, the wait should time out. |
| ExpectDroppedFrame(); |
| |
| // Expect the sink_wants to specify a scaled frame. |
| EXPECT_TRUE_WAIT( |
| video_source_.sink_wants().max_pixel_count < kWidth * kHeight, 5000); |
| |
| int last_pixel_count = video_source_.sink_wants().max_pixel_count; |
| |
| // Next frame is scaled. |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(2, kWidth * 3 / 4, kHeight * 3 / 4)); |
| |
| // Expect to drop this frame, the wait should time out. |
| ExpectDroppedFrame(); |
| |
| EXPECT_TRUE_WAIT( |
| video_source_.sink_wants().max_pixel_count < last_pixel_count, 5000); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| NumberOfDroppedFramesLimitedWhenBitrateIsTooLow) { |
| const int kTooLowBitrateForFrameSizeBps = 10000; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| DataRate::BitsPerSec(kTooLowBitrateForFrameSizeBps), |
| DataRate::BitsPerSec(kTooLowBitrateForFrameSizeBps), |
| DataRate::BitsPerSec(kTooLowBitrateForFrameSizeBps), 0, 0, 0); |
| const int kWidth = 640; |
| const int kHeight = 360; |
| |
| // We expect the n initial frames to get dropped. |
| int i; |
| for (i = 1; i <= kMaxInitialFramedrop; ++i) { |
| video_source_.IncomingCapturedFrame(CreateFrame(i, kWidth, kHeight)); |
| ExpectDroppedFrame(); |
| } |
| // The n+1th frame should not be dropped, even though it's size is too large. |
| video_source_.IncomingCapturedFrame(CreateFrame(i, kWidth, kHeight)); |
| WaitForEncodedFrame(i); |
| |
| // Expect the sink_wants to specify a scaled frame. |
| EXPECT_LT(video_source_.sink_wants().max_pixel_count, kWidth * kHeight); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| InitialFrameDropOffWithMaintainResolutionPreference) { |
| const int kWidth = 640; |
| const int kHeight = 360; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kLowTargetBitrate, kLowTargetBitrate, kLowTargetBitrate, 0, 0, 0); |
| |
| // Set degradation preference. |
| video_stream_encoder_->SetSource( |
| &video_source_, webrtc::DegradationPreference::MAINTAIN_RESOLUTION); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(1, kWidth, kHeight)); |
| // Frame should not be dropped, even if it's too large. |
| WaitForEncodedFrame(1); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, InitialFrameDropOffWhenEncoderDisabledScaling) { |
| const int kWidth = 640; |
| const int kHeight = 360; |
| fake_encoder_.SetQualityScaling(false); |
| |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(kVideoCodecVP8, 1, &video_encoder_config); |
| // Make format different, to force recreation of encoder. |
| video_encoder_config.video_format.parameters["foo"] = "foo"; |
| video_stream_encoder_->ConfigureEncoder(std::move(video_encoder_config), |
| kMaxPayloadLength); |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kLowTargetBitrate, kLowTargetBitrate, kLowTargetBitrate, 0, 0, 0); |
| |
| // Force quality scaler reconfiguration by resetting the source. |
| video_stream_encoder_->SetSource(&video_source_, |
| webrtc::DegradationPreference::BALANCED); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(1, kWidth, kHeight)); |
| // Frame should not be dropped, even if it's too large. |
| WaitForEncodedFrame(1); |
| |
| video_stream_encoder_->Stop(); |
| fake_encoder_.SetQualityScaling(true); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, InitialFrameDropActivatesWhenBweDrops) { |
| webrtc::test::ScopedKeyValueConfig field_trials( |
| field_trials_, |
| "WebRTC-Video-QualityScalerSettings/" |
| "initial_bitrate_interval_ms:1000,initial_bitrate_factor:0.2/"); |
| // Reset encoder for field trials to take effect. |
| ConfigureEncoder(video_encoder_config_.Copy()); |
| const int kNotTooLowBitrateForFrameSizeBps = kTargetBitrate.bps() * 0.2; |
| const int kTooLowBitrateForFrameSizeBps = kTargetBitrate.bps() * 0.19; |
| const int kWidth = 640; |
| const int kHeight = 360; |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| video_source_.IncomingCapturedFrame(CreateFrame(1, kWidth, kHeight)); |
| // Frame should not be dropped. |
| WaitForEncodedFrame(1); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| DataRate::BitsPerSec(kNotTooLowBitrateForFrameSizeBps), |
| DataRate::BitsPerSec(kNotTooLowBitrateForFrameSizeBps), |
| DataRate::BitsPerSec(kNotTooLowBitrateForFrameSizeBps), 0, 0, 0); |
| video_source_.IncomingCapturedFrame(CreateFrame(2, kWidth, kHeight)); |
| // Frame should not be dropped. |
| WaitForEncodedFrame(2); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| DataRate::BitsPerSec(kTooLowBitrateForFrameSizeBps), |
| DataRate::BitsPerSec(kTooLowBitrateForFrameSizeBps), |
| DataRate::BitsPerSec(kTooLowBitrateForFrameSizeBps), 0, 0, 0); |
| video_source_.IncomingCapturedFrame(CreateFrame(3, kWidth, kHeight)); |
| // Expect to drop this frame, the wait should time out. |
| ExpectDroppedFrame(); |
| |
| // Expect the sink_wants to specify a scaled frame. |
| EXPECT_TRUE_WAIT( |
| video_source_.sink_wants().max_pixel_count < kWidth * kHeight, 5000); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| InitialFrameDropNotReactivatedWhenBweDropsWhenScalingDisabled) { |
| webrtc::test::ScopedKeyValueConfig field_trials( |
| field_trials_, |
| "WebRTC-Video-QualityScalerSettings/" |
| "initial_bitrate_interval_ms:1000,initial_bitrate_factor:0.2/"); |
| fake_encoder_.SetQualityScaling(false); |
| ConfigureEncoder(video_encoder_config_.Copy()); |
| const int kNotTooLowBitrateForFrameSizeBps = kTargetBitrate.bps() * 0.2; |
| const int kTooLowBitrateForFrameSizeBps = kTargetBitrate.bps() * 0.19; |
| const int kWidth = 640; |
| const int kHeight = 360; |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| video_source_.IncomingCapturedFrame(CreateFrame(1, kWidth, kHeight)); |
| // Frame should not be dropped. |
| WaitForEncodedFrame(1); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| DataRate::BitsPerSec(kNotTooLowBitrateForFrameSizeBps), |
| DataRate::BitsPerSec(kNotTooLowBitrateForFrameSizeBps), |
| DataRate::BitsPerSec(kNotTooLowBitrateForFrameSizeBps), 0, 0, 0); |
| video_source_.IncomingCapturedFrame(CreateFrame(2, kWidth, kHeight)); |
| // Frame should not be dropped. |
| WaitForEncodedFrame(2); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| DataRate::BitsPerSec(kTooLowBitrateForFrameSizeBps), |
| DataRate::BitsPerSec(kTooLowBitrateForFrameSizeBps), |
| DataRate::BitsPerSec(kTooLowBitrateForFrameSizeBps), 0, 0, 0); |
| video_source_.IncomingCapturedFrame(CreateFrame(3, kWidth, kHeight)); |
| // Not dropped since quality scaling is disabled. |
| WaitForEncodedFrame(3); |
| |
| // Expect the sink_wants to specify a scaled frame. |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_THAT(video_source_.sink_wants(), ResolutionMax()); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, InitialFrameDropAccountsForResolutionScaling) { |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(PayloadStringToCodecType("VP8"), 1, |
| &video_encoder_config); |
| video_encoder_config.video_stream_factory = nullptr; |
| for (auto& layer : video_encoder_config.simulcast_layers) { |
| layer.num_temporal_layers = 1; |
| layer.max_framerate = kDefaultFramerate; |
| } |
| video_encoder_config.max_bitrate_bps = kSimulcastTargetBitrate.bps(); |
| video_encoder_config.content_type = |
| VideoEncoderConfig::ContentType::kRealtimeVideo; |
| |
| video_encoder_config.simulcast_layers[0].active = true; |
| video_encoder_config.simulcast_layers[0].scale_resolution_down_by = 4; |
| |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config.Copy(), |
| kMaxPayloadLength); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| // Bitrate is not enough for 720p. |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| DataRate::KilobitsPerSec(30), DataRate::KilobitsPerSec(30), |
| DataRate::KilobitsPerSec(30), 0, 0, 0); |
| |
| // Pass 720p frame. Resolution scaling factor is set to 4 which means that |
| // the target encode resolution is 180p. The default initial frame dropping |
| // should not be active for 180p no matter of available bitrate. |
| video_source_.IncomingCapturedFrame(CreateFrame(1, 1280, 720)); |
| WaitForEncodedFrame(1); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, InitialFrameDropActivatesWhenLayersChange) { |
| const DataRate kLowTargetBitrate = DataRate::KilobitsPerSec(400); |
| // Set simulcast. |
| ResetEncoder("VP8", 3, 1, 1, false); |
| fake_encoder_.SetQualityScaling(true); |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kLowTargetBitrate, kLowTargetBitrate, kLowTargetBitrate, 0, 0, 0); |
| video_source_.IncomingCapturedFrame(CreateFrame(1, kWidth, kHeight)); |
| // Frame should not be dropped. |
| WaitForEncodedFrame(1); |
| |
| // Trigger QVGA "singlecast" |
| // Update the config. |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(PayloadStringToCodecType("VP8"), 3, |
| &video_encoder_config); |
| video_encoder_config.video_stream_factory = nullptr; |
| for (auto& layer : video_encoder_config.simulcast_layers) { |
| layer.num_temporal_layers = 1; |
| layer.max_framerate = kDefaultFramerate; |
| } |
| video_encoder_config.max_bitrate_bps = kSimulcastTargetBitrate.bps(); |
| video_encoder_config.content_type = |
| VideoEncoderConfig::ContentType::kRealtimeVideo; |
| |
| video_encoder_config.simulcast_layers[0].active = true; |
| video_encoder_config.simulcast_layers[1].active = false; |
| video_encoder_config.simulcast_layers[2].active = false; |
| |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config.Copy(), |
| kMaxPayloadLength); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(2, kWidth, kHeight)); |
| // Frame should not be dropped. |
| WaitForEncodedFrame(2); |
| |
| // Trigger HD "singlecast" |
| video_encoder_config.simulcast_layers[0].active = false; |
| video_encoder_config.simulcast_layers[1].active = false; |
| video_encoder_config.simulcast_layers[2].active = true; |
| |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config.Copy(), |
| kMaxPayloadLength); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(3, kWidth, kHeight)); |
| // Frame should be dropped because of initial frame drop. |
| ExpectDroppedFrame(); |
| |
| // Expect the sink_wants to specify a scaled frame. |
| EXPECT_TRUE_WAIT( |
| video_source_.sink_wants().max_pixel_count < kWidth * kHeight, 5000); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, InitialFrameDropActivatesWhenSVCLayersChange) { |
| const DataRate kLowTargetBitrate = DataRate::KilobitsPerSec(400); |
| // Set simulcast. |
| ResetEncoder("VP9", 1, 1, 3, false); |
| fake_encoder_.SetQualityScaling(true); |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kLowTargetBitrate, kLowTargetBitrate, kLowTargetBitrate, 0, 0, 0); |
| video_source_.IncomingCapturedFrame(CreateFrame(1, kWidth, kHeight)); |
| // Frame should not be dropped. |
| WaitForEncodedFrame(1); |
| |
| // Trigger QVGA "singlecast" |
| // Update the config. |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(PayloadStringToCodecType("VP9"), 1, |
| &video_encoder_config); |
| VideoCodecVP9 vp9_settings = VideoEncoder::GetDefaultVp9Settings(); |
| vp9_settings.numberOfSpatialLayers = 3; |
| // Since only one layer is active - automatic resize should be enabled. |
| vp9_settings.automaticResizeOn = true; |
| video_encoder_config.encoder_specific_settings = |
| rtc::make_ref_counted<VideoEncoderConfig::Vp9EncoderSpecificSettings>( |
| vp9_settings); |
| video_encoder_config.max_bitrate_bps = kSimulcastTargetBitrate.bps(); |
| video_encoder_config.content_type = |
| VideoEncoderConfig::ContentType::kRealtimeVideo; |
| // Currently simulcast layers `active` flags are used to inidicate |
| // which SVC layers are active. |
| video_encoder_config.simulcast_layers.resize(3); |
| |
| video_encoder_config.simulcast_layers[0].active = true; |
| video_encoder_config.simulcast_layers[1].active = false; |
| video_encoder_config.simulcast_layers[2].active = false; |
| |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config.Copy(), |
| kMaxPayloadLength); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(2, kWidth, kHeight)); |
| // Frame should not be dropped. |
| WaitForEncodedFrame(2); |
| |
| // Trigger HD "singlecast" |
| video_encoder_config.simulcast_layers[0].active = false; |
| video_encoder_config.simulcast_layers[1].active = false; |
| video_encoder_config.simulcast_layers[2].active = true; |
| |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config.Copy(), |
| kMaxPayloadLength); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(3, kWidth, kHeight)); |
| // Frame should be dropped because of initial frame drop. |
| ExpectDroppedFrame(); |
| |
| // Expect the sink_wants to specify a scaled frame. |
| EXPECT_TRUE_WAIT( |
| video_source_.sink_wants().max_pixel_count < kWidth * kHeight, 5000); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| EncoderMaxAndMinBitratesUsedIfMiddleStreamActive) { |
| const VideoEncoder::ResolutionBitrateLimits kEncoderLimits270p( |
| 480 * 270, 34 * 1000, 12 * 1000, 1234 * 1000); |
| const VideoEncoder::ResolutionBitrateLimits kEncoderLimits360p( |
| 640 * 360, 43 * 1000, 21 * 1000, 2345 * 1000); |
| const VideoEncoder::ResolutionBitrateLimits kEncoderLimits720p( |
| 1280 * 720, 54 * 1000, 31 * 1000, 2500 * 1000); |
| fake_encoder_.SetResolutionBitrateLimits( |
| {kEncoderLimits270p, kEncoderLimits360p, kEncoderLimits720p}); |
| |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(PayloadStringToCodecType("VP9"), 1, |
| &video_encoder_config); |
| VideoCodecVP9 vp9_settings = VideoEncoder::GetDefaultVp9Settings(); |
| vp9_settings.numberOfSpatialLayers = 3; |
| // Since only one layer is active - automatic resize should be enabled. |
| vp9_settings.automaticResizeOn = true; |
| video_encoder_config.encoder_specific_settings = |
| rtc::make_ref_counted<VideoEncoderConfig::Vp9EncoderSpecificSettings>( |
| vp9_settings); |
| video_encoder_config.max_bitrate_bps = kSimulcastTargetBitrate.bps(); |
| video_encoder_config.content_type = |
| VideoEncoderConfig::ContentType::kRealtimeVideo; |
| // Simulcast layers are used to indicate which spatial layers are active. |
| video_encoder_config.simulcast_layers.resize(3); |
| video_encoder_config.simulcast_layers[0].active = false; |
| video_encoder_config.simulcast_layers[1].active = true; |
| video_encoder_config.simulcast_layers[2].active = false; |
| |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config.Copy(), |
| kMaxPayloadLength); |
| |
| // The encoder bitrate limits for 360p should be used. |
| video_source_.IncomingCapturedFrame(CreateFrame(1, 1280, 720)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ(fake_encoder_.config().numberOfSimulcastStreams, 1); |
| EXPECT_EQ(fake_encoder_.config().codecType, VideoCodecType::kVideoCodecVP9); |
| EXPECT_EQ(fake_encoder_.config().VP9().numberOfSpatialLayers, 2); |
| EXPECT_TRUE(fake_encoder_.config().spatialLayers[0].active); |
| EXPECT_EQ(640, fake_encoder_.config().spatialLayers[0].width); |
| EXPECT_EQ(360, fake_encoder_.config().spatialLayers[0].height); |
| EXPECT_EQ(static_cast<uint32_t>(kEncoderLimits360p.min_bitrate_bps), |
| fake_encoder_.config().spatialLayers[0].minBitrate * 1000); |
| EXPECT_EQ(static_cast<uint32_t>(kEncoderLimits360p.max_bitrate_bps), |
| fake_encoder_.config().spatialLayers[0].maxBitrate * 1000); |
| |
| // The encoder bitrate limits for 270p should be used. |
| video_source_.IncomingCapturedFrame(CreateFrame(2, 960, 540)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ(fake_encoder_.config().numberOfSimulcastStreams, 1); |
| EXPECT_EQ(fake_encoder_.config().codecType, VideoCodecType::kVideoCodecVP9); |
| EXPECT_EQ(fake_encoder_.config().VP9().numberOfSpatialLayers, 2); |
| EXPECT_TRUE(fake_encoder_.config().spatialLayers[0].active); |
| EXPECT_EQ(480, fake_encoder_.config().spatialLayers[0].width); |
| EXPECT_EQ(270, fake_encoder_.config().spatialLayers[0].height); |
| EXPECT_EQ(static_cast<uint32_t>(kEncoderLimits270p.min_bitrate_bps), |
| fake_encoder_.config().spatialLayers[0].minBitrate * 1000); |
| EXPECT_EQ(static_cast<uint32_t>(kEncoderLimits270p.max_bitrate_bps), |
| fake_encoder_.config().spatialLayers[0].maxBitrate * 1000); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| DefaultMaxAndMinBitratesUsedIfMiddleStreamActive) { |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(PayloadStringToCodecType("VP9"), 1, |
| &video_encoder_config); |
| VideoCodecVP9 vp9_settings = VideoEncoder::GetDefaultVp9Settings(); |
| vp9_settings.numberOfSpatialLayers = 3; |
| // Since only one layer is active - automatic resize should be enabled. |
| vp9_settings.automaticResizeOn = true; |
| video_encoder_config.encoder_specific_settings = |
| rtc::make_ref_counted<VideoEncoderConfig::Vp9EncoderSpecificSettings>( |
| vp9_settings); |
| video_encoder_config.max_bitrate_bps = kSimulcastTargetBitrate.bps(); |
| video_encoder_config.content_type = |
| VideoEncoderConfig::ContentType::kRealtimeVideo; |
| // Simulcast layers are used to indicate which spatial layers are active. |
| video_encoder_config.simulcast_layers.resize(3); |
| video_encoder_config.simulcast_layers[0].active = false; |
| video_encoder_config.simulcast_layers[1].active = true; |
| video_encoder_config.simulcast_layers[2].active = false; |
| |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config.Copy(), |
| kMaxPayloadLength); |
| |
| // The default bitrate limits for 360p should be used. |
| const std::optional<VideoEncoder::ResolutionBitrateLimits> kLimits360p = |
| EncoderInfoSettings::GetDefaultSinglecastBitrateLimitsForResolution( |
| kVideoCodecVP9, 640 * 360); |
| video_source_.IncomingCapturedFrame(CreateFrame(1, 1280, 720)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ(fake_encoder_.config().numberOfSimulcastStreams, 1); |
| EXPECT_EQ(fake_encoder_.config().codecType, VideoCodecType::kVideoCodecVP9); |
| EXPECT_EQ(fake_encoder_.config().VP9().numberOfSpatialLayers, 2); |
| EXPECT_TRUE(fake_encoder_.config().spatialLayers[0].active); |
| EXPECT_EQ(640, fake_encoder_.config().spatialLayers[0].width); |
| EXPECT_EQ(360, fake_encoder_.config().spatialLayers[0].height); |
| EXPECT_EQ(static_cast<uint32_t>(kLimits360p->min_bitrate_bps), |
| fake_encoder_.config().spatialLayers[0].minBitrate * 1000); |
| EXPECT_EQ(static_cast<uint32_t>(kLimits360p->max_bitrate_bps), |
| fake_encoder_.config().spatialLayers[0].maxBitrate * 1000); |
| |
| // The default bitrate limits for 270p should be used. |
| const std::optional<VideoEncoder::ResolutionBitrateLimits> kLimits270p = |
| EncoderInfoSettings::GetDefaultSinglecastBitrateLimitsForResolution( |
| kVideoCodecVP9, 480 * 270); |
| video_source_.IncomingCapturedFrame(CreateFrame(2, 960, 540)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ(fake_encoder_.config().numberOfSimulcastStreams, 1); |
| EXPECT_EQ(fake_encoder_.config().codecType, VideoCodecType::kVideoCodecVP9); |
| EXPECT_EQ(fake_encoder_.config().VP9().numberOfSpatialLayers, 2); |
| EXPECT_TRUE(fake_encoder_.config().spatialLayers[0].active); |
| EXPECT_EQ(480, fake_encoder_.config().spatialLayers[0].width); |
| EXPECT_EQ(270, fake_encoder_.config().spatialLayers[0].height); |
| EXPECT_EQ(static_cast<uint32_t>(kLimits270p->min_bitrate_bps), |
| fake_encoder_.config().spatialLayers[0].minBitrate * 1000); |
| EXPECT_EQ(static_cast<uint32_t>(kLimits270p->max_bitrate_bps), |
| fake_encoder_.config().spatialLayers[0].maxBitrate * 1000); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, DefaultMaxAndMinBitratesNotUsedIfDisabled) { |
| webrtc::test::ScopedKeyValueConfig field_trials( |
| field_trials_, "WebRTC-DefaultBitrateLimitsKillSwitch/Enabled/"); |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(PayloadStringToCodecType("VP9"), 1, |
| &video_encoder_config); |
| VideoCodecVP9 vp9_settings = VideoEncoder::GetDefaultVp9Settings(); |
| vp9_settings.numberOfSpatialLayers = 3; |
| // Since only one layer is active - automatic resize should be enabled. |
| vp9_settings.automaticResizeOn = true; |
| video_encoder_config.encoder_specific_settings = |
| rtc::make_ref_counted<VideoEncoderConfig::Vp9EncoderSpecificSettings>( |
| vp9_settings); |
| video_encoder_config.max_bitrate_bps = kSimulcastTargetBitrate.bps(); |
| video_encoder_config.content_type = |
| VideoEncoderConfig::ContentType::kRealtimeVideo; |
| // Simulcast layers are used to indicate which spatial layers are active. |
| video_encoder_config.simulcast_layers.resize(3); |
| video_encoder_config.simulcast_layers[0].active = false; |
| video_encoder_config.simulcast_layers[1].active = true; |
| video_encoder_config.simulcast_layers[2].active = false; |
| |
| // Reset encoder for field trials to take effect. |
| ConfigureEncoder(video_encoder_config.Copy()); |
| |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config.Copy(), |
| kMaxPayloadLength); |
| |
| // The default bitrate limits for 360p should not be used. |
| const std::optional<VideoEncoder::ResolutionBitrateLimits> kLimits360p = |
| EncoderInfoSettings::GetDefaultSinglecastBitrateLimitsForResolution( |
| kVideoCodecVP9, 640 * 360); |
| video_source_.IncomingCapturedFrame(CreateFrame(1, 1280, 720)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ(fake_encoder_.config().numberOfSimulcastStreams, 1); |
| EXPECT_EQ(fake_encoder_.config().codecType, kVideoCodecVP9); |
| EXPECT_EQ(fake_encoder_.config().VP9().numberOfSpatialLayers, 2); |
| EXPECT_TRUE(fake_encoder_.config().spatialLayers[0].active); |
| EXPECT_EQ(640, fake_encoder_.config().spatialLayers[0].width); |
| EXPECT_EQ(360, fake_encoder_.config().spatialLayers[0].height); |
| EXPECT_NE(static_cast<uint32_t>(kLimits360p->max_bitrate_bps), |
| fake_encoder_.config().spatialLayers[0].maxBitrate * 1000); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, SinglecastBitrateLimitsNotUsedForOneStream) { |
| ResetEncoder("VP9", /*num_streams=*/1, /*num_temporal_layers=*/1, |
| /*num_spatial_layers=*/1, /*screenshare=*/false); |
| |
| // The default singlecast bitrate limits for 720p should not be used. |
| const std::optional<VideoEncoder::ResolutionBitrateLimits> kLimits720p = |
| EncoderInfoSettings::GetDefaultSinglecastBitrateLimitsForResolution( |
| kVideoCodecVP9, 1280 * 720); |
| video_source_.IncomingCapturedFrame(CreateFrame(1, 1280, 720)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ(fake_encoder_.config().numberOfSimulcastStreams, 1); |
| EXPECT_EQ(fake_encoder_.config().codecType, VideoCodecType::kVideoCodecVP9); |
| EXPECT_EQ(fake_encoder_.config().VP9().numberOfSpatialLayers, 1); |
| EXPECT_TRUE(fake_encoder_.config().spatialLayers[0].active); |
| EXPECT_EQ(1280, fake_encoder_.config().spatialLayers[0].width); |
| EXPECT_EQ(720, fake_encoder_.config().spatialLayers[0].height); |
| EXPECT_NE(static_cast<uint32_t>(kLimits720p->max_bitrate_bps), |
| fake_encoder_.config().spatialLayers[0].maxBitrate * 1000); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| EncoderMaxAndMinBitratesNotUsedIfLowestStreamActive) { |
| const VideoEncoder::ResolutionBitrateLimits kEncoderLimits180p( |
| 320 * 180, 34 * 1000, 12 * 1000, 1234 * 1000); |
| const VideoEncoder::ResolutionBitrateLimits kEncoderLimits720p( |
| 1280 * 720, 54 * 1000, 31 * 1000, 2500 * 1000); |
| fake_encoder_.SetResolutionBitrateLimits( |
| {kEncoderLimits180p, kEncoderLimits720p}); |
| |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(PayloadStringToCodecType("VP9"), 1, |
| &video_encoder_config); |
| VideoCodecVP9 vp9_settings = VideoEncoder::GetDefaultVp9Settings(); |
| vp9_settings.numberOfSpatialLayers = 3; |
| // Since only one layer is active - automatic resize should be enabled. |
| vp9_settings.automaticResizeOn = true; |
| video_encoder_config.encoder_specific_settings = |
| rtc::make_ref_counted<VideoEncoderConfig::Vp9EncoderSpecificSettings>( |
| vp9_settings); |
| video_encoder_config.max_bitrate_bps = kSimulcastTargetBitrate.bps(); |
| video_encoder_config.content_type = |
| VideoEncoderConfig::ContentType::kRealtimeVideo; |
| // Simulcast layers are used to indicate which spatial layers are active. |
| video_encoder_config.simulcast_layers.resize(3); |
| video_encoder_config.simulcast_layers[0].active = true; |
| video_encoder_config.simulcast_layers[1].active = false; |
| video_encoder_config.simulcast_layers[2].active = false; |
| |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config.Copy(), |
| kMaxPayloadLength); |
| |
| // Limits not applied on lowest stream, limits for 180p should not be used. |
| video_source_.IncomingCapturedFrame(CreateFrame(1, 1280, 720)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ(fake_encoder_.config().numberOfSimulcastStreams, 1); |
| EXPECT_EQ(fake_encoder_.config().codecType, VideoCodecType::kVideoCodecVP9); |
| EXPECT_EQ(fake_encoder_.config().VP9().numberOfSpatialLayers, 3); |
| EXPECT_TRUE(fake_encoder_.config().spatialLayers[0].active); |
| EXPECT_EQ(320, fake_encoder_.config().spatialLayers[0].width); |
| EXPECT_EQ(180, fake_encoder_.config().spatialLayers[0].height); |
| EXPECT_NE(static_cast<uint32_t>(kEncoderLimits180p.min_bitrate_bps), |
| fake_encoder_.config().spatialLayers[0].minBitrate * 1000); |
| EXPECT_NE(static_cast<uint32_t>(kEncoderLimits180p.max_bitrate_bps), |
| fake_encoder_.config().spatialLayers[0].maxBitrate * 1000); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| enum class FrameResolutionChangeMethod { |
| MODIFY_SOURCE, |
| MODIFY_SCALE_RESOLUTION_DOWN_TO, |
| MODIFY_SCALE_RESOLUTION_DOWN_BY, |
| }; |
| class VideoStreamEncoderInitialFrameDropperTest |
| : public VideoStreamEncoderTest, |
| public ::testing::WithParamInterface<FrameResolutionChangeMethod> { |
| public: |
| VideoStreamEncoderInitialFrameDropperTest() |
| : VideoStreamEncoderTest(), frame_resolution_change_method_(GetParam()) {} |
| |
| void SetUp() override { |
| VideoStreamEncoderTest::SetUp(); |
| switch (frame_resolution_change_method_) { |
| case FrameResolutionChangeMethod::MODIFY_SOURCE: |
| break; |
| case FrameResolutionChangeMethod::MODIFY_SCALE_RESOLUTION_DOWN_TO: |
| video_encoder_config_.video_stream_factory = nullptr; |
| captureWidth = kWidth; |
| captureHeight = kHeight; |
| break; |
| case FrameResolutionChangeMethod::MODIFY_SCALE_RESOLUTION_DOWN_BY: |
| captureWidth = kWidth; |
| captureHeight = kHeight; |
| break; |
| } |
| } |
| |
| void SetEncoderFrameSize(int width, int height) { |
| switch (frame_resolution_change_method_) { |
| case FrameResolutionChangeMethod::MODIFY_SOURCE: |
| captureWidth = width; |
| captureHeight = height; |
| break; |
| case FrameResolutionChangeMethod::MODIFY_SCALE_RESOLUTION_DOWN_TO: |
| ASSERT_THAT(video_encoder_config_.simulcast_layers, SizeIs(1)); |
| video_encoder_config_.simulcast_layers[0] |
| .scale_resolution_down_to.emplace( |
| Resolution({.width = width, .height = height})); |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config_.Copy(), |
| kMaxPayloadLength); |
| break; |
| case FrameResolutionChangeMethod::MODIFY_SCALE_RESOLUTION_DOWN_BY: |
| ASSERT_THAT(video_encoder_config_.simulcast_layers, SizeIs(1)); |
| double scale_height = |
| static_cast<double>(kHeight) / static_cast<double>(height); |
| double scale_width = |
| static_cast<double>(kWidth) / static_cast<double>(width); |
| video_encoder_config_.simulcast_layers[0].scale_resolution_down_by = |
| std::max(scale_width, scale_height); |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config_.Copy(), |
| kMaxPayloadLength); |
| break; |
| } |
| } |
| |
| const int kWidth = 640; |
| const int kHeight = 360; |
| |
| int captureWidth = 0; |
| int captureHeight = 0; |
| |
| protected: |
| const FrameResolutionChangeMethod frame_resolution_change_method_; |
| }; |
| |
| INSTANTIATE_TEST_SUITE_P( |
| VideoStreamEncoderInitialFrameDropperTest, |
| VideoStreamEncoderInitialFrameDropperTest, |
| ::testing::Values( |
| FrameResolutionChangeMethod::MODIFY_SOURCE, |
| FrameResolutionChangeMethod::MODIFY_SCALE_RESOLUTION_DOWN_TO, |
| FrameResolutionChangeMethod::MODIFY_SCALE_RESOLUTION_DOWN_BY)); |
| |
| TEST_P(VideoStreamEncoderInitialFrameDropperTest, |
| InitialFrameDropActivatesWhenResolutionIncreases) { |
| SetEncoderFrameSize(kWidth / 2, kHeight / 2); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(1, captureWidth, captureHeight)); |
| // Frame should not be dropped. |
| WaitForEncodedFrame(1); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kLowTargetBitrate, kLowTargetBitrate, kLowTargetBitrate, 0, 0, 0); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(2, captureWidth, captureHeight)); |
| // Frame should not be dropped, bitrate not too low for frame. |
| WaitForEncodedFrame(2); |
| |
| // Incoming resolution increases. |
| SetEncoderFrameSize(kWidth, kHeight); |
| |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(3, captureWidth, captureHeight)); |
| // Expect to drop this frame, bitrate too low for frame. |
| ExpectDroppedFrame(); |
| |
| // Expect the sink_wants to specify a scaled frame. |
| EXPECT_TRUE_WAIT( |
| video_source_.sink_wants().max_pixel_count < kWidth * kHeight, 5000); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_P(VideoStreamEncoderInitialFrameDropperTest, |
| InitialFrameDropIsNotReactivatedWhenAdaptingUp) { |
| const int kWidth = 640; |
| const int kHeight = 360; |
| // So that quality scaling doesn't happen by itself. |
| fake_encoder_.SetQp(kQpHigh); |
| |
| AdaptingFrameForwarder source(&time_controller_); |
| source.set_adaptation_enabled(true); |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| |
| int timestamp = 1; |
| |
| // By using the `scale_resolution_down_to` API, ReconfigureEncoder() gets |
| // triggered from VideoStreamEncoder::OnVideoSourceRestrictionsUpdated(). |
| SetEncoderFrameSize(kWidth, kHeight); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| source.IncomingCapturedFrame( |
| CreateFrame(timestamp, captureWidth, captureHeight)); |
| WaitForEncodedFrame(timestamp); |
| timestamp += 9000; |
| // Long pause to disable all first BWE drop logic. |
| AdvanceTime(TimeDelta::Millis(1000)); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kLowTargetBitrate, kLowTargetBitrate, kLowTargetBitrate, 0, 0, 0); |
| source.IncomingCapturedFrame( |
| CreateFrame(timestamp, captureWidth, captureHeight)); |
| // Not dropped frame, as initial frame drop is disabled by now. |
| WaitForEncodedFrame(timestamp); |
| timestamp += 9000; |
| AdvanceTime(TimeDelta::Millis(100)); |
| |
| // Quality adaptation down. |
| video_stream_encoder_->TriggerQualityLow(); |
| |
| // Adaptation has an effect. |
| EXPECT_TRUE_WAIT(source.sink_wants().max_pixel_count < kWidth * kHeight, |
| 5000); |
| |
| // Frame isn't dropped as initial frame dropper is disabled. |
| source.IncomingCapturedFrame( |
| CreateFrame(timestamp, captureWidth, captureHeight)); |
| WaitForEncodedFrame(timestamp); |
| timestamp += 9000; |
| AdvanceTime(TimeDelta::Millis(100)); |
| |
| // Quality adaptation up. |
| video_stream_encoder_->TriggerQualityHigh(); |
| |
| // Adaptation has an effect. |
| EXPECT_TRUE_WAIT(source.sink_wants().max_pixel_count > kWidth * kHeight, |
| 5000); |
| |
| source.IncomingCapturedFrame( |
| CreateFrame(timestamp, captureWidth, captureHeight)); |
| // Frame should not be dropped, as initial framedropper is off. |
| WaitForEncodedFrame(timestamp); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_P(VideoStreamEncoderInitialFrameDropperTest, |
| FrameDroppedWhenResolutionIncreasesAndLinkAllocationIsLow) { |
| const int kMinStartBps360p = 222000; |
| fake_encoder_.SetResolutionBitrateLimits( |
| {VideoEncoder::ResolutionBitrateLimits(320 * 180, 0, 30000, 400000), |
| VideoEncoder::ResolutionBitrateLimits(640 * 360, kMinStartBps360p, 30000, |
| 800000)}); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| DataRate::BitsPerSec(kMinStartBps360p - 1), // target_bitrate |
| DataRate::BitsPerSec(kMinStartBps360p - 1), // stable_target_bitrate |
| DataRate::BitsPerSec(kMinStartBps360p - 1), // link_allocation |
| 0, 0, 0); |
| |
| SetEncoderFrameSize(kWidth / 2, kHeight / 2); |
| |
| // Frame should not be dropped, bitrate not too low for frame. |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(1, captureWidth, captureHeight)); |
| WaitForEncodedFrame(1); |
| |
| // Incoming resolution increases, initial frame drop activates. |
| // Frame should be dropped, link allocation too low for frame. |
| SetEncoderFrameSize(kWidth, kHeight); |
| |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(2, captureWidth, captureHeight)); |
| ExpectDroppedFrame(); |
| |
| // Expect sink_wants to specify a scaled frame. |
| EXPECT_TRUE_WAIT(video_source_.sink_wants().max_pixel_count < 640 * 360, |
| 5000); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_P(VideoStreamEncoderInitialFrameDropperTest, |
| FrameNotDroppedWhenResolutionIncreasesAndLinkAllocationIsHigh) { |
| const int kMinStartBps360p = 222000; |
| fake_encoder_.SetResolutionBitrateLimits( |
| {VideoEncoder::ResolutionBitrateLimits(320 * 180, 0, 30000, 400000), |
| VideoEncoder::ResolutionBitrateLimits(640 * 360, kMinStartBps360p, 30000, |
| 800000)}); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| DataRate::BitsPerSec(kMinStartBps360p - 1), // target_bitrate |
| DataRate::BitsPerSec(kMinStartBps360p - 1), // stable_target_bitrate |
| DataRate::BitsPerSec(kMinStartBps360p), // link_allocation |
| 0, 0, 0); |
| |
| const int kWidth = 640; |
| const int kHeight = 360; |
| |
| SetEncoderFrameSize(kWidth / 2, kHeight / 2); |
| |
| // Frame should not be dropped, bitrate not too low for frame. |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(1, captureWidth, captureHeight)); |
| WaitForEncodedFrame(1); |
| |
| // Incoming resolution increases, initial frame drop activates. |
| SetEncoderFrameSize(kWidth, kHeight); |
| |
| // Frame should be dropped, link allocation not too low for frame. |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(2, captureWidth, captureHeight)); |
| WaitForEncodedFrame(2); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| QualityScalerAdaptationsRemovedWhenQualityScalingDisabled) { |
| webrtc::test::ScopedKeyValueConfig field_trials( |
| field_trials_, "WebRTC-Video-QualityScaling/Disabled/"); |
| AdaptingFrameForwarder source(&time_controller_); |
| source.set_adaptation_enabled(true); |
| video_stream_encoder_->SetSource(&source, |
| DegradationPreference::MAINTAIN_FRAMERATE); |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| fake_encoder_.SetQp(kQpHigh + 1); |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| const int64_t kFrameIntervalMs = 100; |
| int64_t timestamp_ms = kFrameIntervalMs; |
| for (size_t i = 1; i <= 100; i++) { |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| } |
| // Wait for QualityScaler, which will wait for 2000*2.5 ms until checking QP |
| // for the first time. |
| // TODO(eshr): We should avoid these waits by using threads with simulated |
| // time. |
| EXPECT_TRUE_WAIT(stats_proxy_->GetStats().bw_limited_resolution, |
| 2000 * 2.5 * 2); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_THAT(source.sink_wants(), WantsMaxPixels(Lt(kWidth * kHeight))); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| |
| // Disable Quality scaling by turning off scaler on the encoder and |
| // reconfiguring. |
| fake_encoder_.SetQualityScaling(false); |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config_.Copy(), |
| kMaxPayloadLength); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| AdvanceTime(TimeDelta::Zero()); |
| // Since we turned off the quality scaler, the adaptations made by it are |
| // removed. |
| EXPECT_THAT(source.sink_wants(), ResolutionMax()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| ResolutionNotAdaptedForTooSmallFrame_MaintainFramerateMode) { |
| const int kTooSmallWidth = 10; |
| const int kTooSmallHeight = 10; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Enable MAINTAIN_FRAMERATE preference, no initial limitation. |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_resolution); |
| |
| // Trigger adapt down, too small frame, expect no change. |
| source.IncomingCapturedFrame(CreateFrame(1, kTooSmallWidth, kTooSmallHeight)); |
| WaitForEncodedFrame(1); |
| video_stream_encoder_->TriggerCpuOveruse(); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| ResolutionNotAdaptedForTooSmallFrame_BalancedMode) { |
| const int kTooSmallWidth = 10; |
| const int kTooSmallHeight = 10; |
| const int kFpsLimit = 7; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Enable BALANCED preference, no initial limitation. |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource(&source, |
| webrtc::DegradationPreference::BALANCED); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| |
| // Trigger adapt down, expect limited framerate. |
| source.IncomingCapturedFrame(CreateFrame(1, kTooSmallWidth, kTooSmallHeight)); |
| WaitForEncodedFrame(1); |
| video_stream_encoder_->TriggerQualityLow(); |
| EXPECT_THAT(source.sink_wants(), FpsMatchesResolutionMax(Eq(kFpsLimit))); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, too small frame, expect no change. |
| source.IncomingCapturedFrame(CreateFrame(2, kTooSmallWidth, kTooSmallHeight)); |
| WaitForEncodedFrame(2); |
| video_stream_encoder_->TriggerQualityLow(); |
| EXPECT_THAT(source.sink_wants(), FpsMatchesResolutionMax(Eq(kFpsLimit))); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, FailingInitEncodeDoesntCauseCrash) { |
| fake_encoder_.ForceInitEncodeFailure(true); |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| ResetEncoder("VP8", 2, 1, 1, false); |
| const int kFrameWidth = 1280; |
| const int kFrameHeight = 720; |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(1, kFrameWidth, kFrameHeight)); |
| ExpectDroppedFrame(); |
| video_stream_encoder_->Stop(); |
| } |
| |
| // TODO(sprang): Extend this with fps throttling and any "balanced" extensions. |
| TEST_F(VideoStreamEncoderTest, |
| AdaptsResolutionOnOveruse_MaintainFramerateMode) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| const int kFrameWidth = 1280; |
| const int kFrameHeight = 720; |
| // Enabled default VideoAdapter downscaling. First step is 3/4, not 3/5 as |
| // requested by |
| // VideoStreamEncoder::VideoSourceProxy::RequestResolutionLowerThan(). |
| video_source_.set_adaptation_enabled(true); |
| |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(1 * kFrameIntervalMs, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(kFrameWidth, kFrameHeight); |
| |
| // Trigger CPU overuse, downscale by 3/4. |
| video_stream_encoder_->TriggerCpuOveruse(); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(2 * kFrameIntervalMs, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame((kFrameWidth * 3) / 4, (kFrameHeight * 3) / 4); |
| |
| // Trigger CPU normal use, return to original resolution. |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(3 * kFrameIntervalMs, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(kFrameWidth, kFrameHeight); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| AdaptsFramerateOnOveruse_MaintainResolutionMode) { |
| const int kFrameWidth = 1280; |
| const int kFrameHeight = 720; |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| video_stream_encoder_->SetSource( |
| &video_source_, webrtc::DegradationPreference::MAINTAIN_RESOLUTION); |
| video_source_.set_adaptation_enabled(true); |
| |
| int64_t timestamp_ms = CurrentTimeMs(); |
| |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| |
| // Try to trigger overuse. No fps estimate available => no effect. |
| video_stream_encoder_->TriggerCpuOveruse(); |
| |
| // Insert frames for one second to get a stable estimate. |
| for (int i = 0; i < max_framerate_; ++i) { |
| timestamp_ms += kFrameIntervalMs; |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| } |
| |
| // Trigger CPU overuse, reduce framerate by 2/3. |
| video_stream_encoder_->TriggerCpuOveruse(); |
| int num_frames_dropped = 0; |
| for (int i = 0; i < max_framerate_; ++i) { |
| timestamp_ms += kFrameIntervalMs; |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| if (!WaitForFrame(kFrameTimeout)) { |
| ++num_frames_dropped; |
| } else { |
| sink_.CheckLastFrameSizeMatches(kFrameWidth, kFrameHeight); |
| } |
| } |
| |
| // Add some slack to account for frames dropped by the frame dropper. |
| const int kErrorMargin = 1; |
| EXPECT_NEAR(num_frames_dropped, max_framerate_ - (max_framerate_ * 2 / 3), |
| kErrorMargin); |
| |
| // Trigger CPU overuse, reduce framerate by 2/3 again. |
| video_stream_encoder_->TriggerCpuOveruse(); |
| num_frames_dropped = 0; |
| for (int i = 0; i <= max_framerate_; ++i) { |
| timestamp_ms += kFrameIntervalMs; |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| if (!WaitForFrame(kFrameTimeout)) { |
| ++num_frames_dropped; |
| } else { |
| sink_.CheckLastFrameSizeMatches(kFrameWidth, kFrameHeight); |
| } |
| } |
| EXPECT_NEAR(num_frames_dropped, max_framerate_ - (max_framerate_ * 4 / 9), |
| kErrorMargin); |
| |
| // Go back up one step. |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| num_frames_dropped = 0; |
| for (int i = 0; i < max_framerate_; ++i) { |
| timestamp_ms += kFrameIntervalMs; |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| if (!WaitForFrame(kFrameTimeout)) { |
| ++num_frames_dropped; |
| } else { |
| sink_.CheckLastFrameSizeMatches(kFrameWidth, kFrameHeight); |
| } |
| } |
| EXPECT_NEAR(num_frames_dropped, max_framerate_ - (max_framerate_ * 2 / 3), |
| kErrorMargin); |
| |
| // Go back up to original mode. |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| num_frames_dropped = 0; |
| for (int i = 0; i < max_framerate_; ++i) { |
| timestamp_ms += kFrameIntervalMs; |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| if (!WaitForFrame(kFrameTimeout)) { |
| ++num_frames_dropped; |
| } else { |
| sink_.CheckLastFrameSizeMatches(kFrameWidth, kFrameHeight); |
| } |
| } |
| EXPECT_NEAR(num_frames_dropped, 0, kErrorMargin); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, DoesntAdaptDownPastMinFramerate) { |
| const int kFramerateFps = 5; |
| const int kFrameIntervalMs = rtc::kNumMillisecsPerSec / kFramerateFps; |
| const int kFrameWidth = 1280; |
| const int kFrameHeight = 720; |
| |
| // Reconfigure encoder with two temporal layers and screensharing, which will |
| // disable frame dropping and make testing easier. |
| ResetEncoder("VP8", 1, 2, 1, true); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| video_stream_encoder_->SetSource( |
| &video_source_, webrtc::DegradationPreference::MAINTAIN_RESOLUTION); |
| video_source_.set_adaptation_enabled(true); |
| |
| int64_t timestamp_ms = CurrentTimeMs(); |
| |
| // Trigger overuse as much as we can. |
| rtc::VideoSinkWants last_wants; |
| do { |
| last_wants = video_source_.sink_wants(); |
| |
| // Insert frames to get a new fps estimate... |
| for (int j = 0; j < kFramerateFps; ++j) { |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| if (video_source_.last_sent_width()) { |
| sink_.WaitForEncodedFrame(timestamp_ms); |
| } |
| timestamp_ms += kFrameIntervalMs; |
| AdvanceTime(TimeDelta::Millis(kFrameIntervalMs)); |
| } |
| // ...and then try to adapt again. |
| video_stream_encoder_->TriggerCpuOveruse(); |
| } while (video_source_.sink_wants().max_framerate_fps < |
| last_wants.max_framerate_fps); |
| |
| EXPECT_THAT(video_source_.sink_wants(), |
| FpsMatchesResolutionMax(Eq(kMinFramerateFps))); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| AdaptsResolutionAndFramerateForLowQuality_BalancedMode) { |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| const int64_t kFrameIntervalMs = 150; |
| int64_t timestamp_ms = kFrameIntervalMs; |
| ASSERT_EQ(video_encoder_config_.simulcast_layers.size(), 1u); |
| video_encoder_config_.simulcast_layers[0].width = kWidth; |
| video_encoder_config_.simulcast_layers[0].height = kHeight; |
| video_encoder_config_.simulcast_layers[0].max_framerate = kDefaultFramerate; |
| ConfigureEncoder(video_encoder_config_.Copy()); |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Enable BALANCED preference, no initial limitation. |
| AdaptingFrameForwarder source(&time_controller_); |
| source.set_adaptation_enabled(true); |
| video_stream_encoder_->SetSource(&source, |
| webrtc::DegradationPreference::BALANCED); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(kWidth, kHeight); |
| EXPECT_THAT(source.sink_wants(), FpsMaxResolutionMax()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect scaled down resolution (960x540@30fps). |
| video_stream_encoder_->TriggerQualityLow(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), |
| FpsMaxResolutionMatches(Lt(kWidth * kHeight))); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect scaled down resolution (640x360@30fps). |
| video_stream_encoder_->TriggerQualityLow(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsMaxResolutionLt(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect reduced fps (640x360@15fps). |
| video_stream_encoder_->TriggerQualityLow(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsLtResolutionEq(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect scaled down resolution (480x270@15fps). |
| video_stream_encoder_->TriggerQualityLow(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsEqResolutionLt(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(4, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Restrict bitrate, trigger adapt down, expect reduced fps (480x270@10fps). |
| video_stream_encoder_->TriggerQualityLow(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsLtResolutionEq(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(5, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect scaled down resolution (320x180@10fps). |
| video_stream_encoder_->TriggerQualityLow(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsEqResolutionLt(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(6, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, expect reduced fps (320x180@7fps). |
| video_stream_encoder_->TriggerQualityLow(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsLtResolutionEq(source.last_wants())); |
| rtc::VideoSinkWants last_wants = source.sink_wants(); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(7, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt down, min resolution reached, expect no change. |
| video_stream_encoder_->TriggerQualityLow(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsEqResolutionEqTo(last_wants)); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(7, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect increased fps (320x180@10fps). |
| video_stream_encoder_->TriggerQualityHigh(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsGtResolutionEq(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(8, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect upscaled resolution (480x270@10fps). |
| video_stream_encoder_->TriggerQualityHigh(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsEqResolutionGt(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(9, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Increase bitrate, trigger adapt up, expect increased fps (480x270@15fps). |
| video_stream_encoder_->TriggerQualityHigh(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsGtResolutionEq(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(10, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect upscaled resolution (640x360@15fps). |
| video_stream_encoder_->TriggerQualityHigh(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsEqResolutionGt(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(11, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect increased fps (640x360@30fps). |
| video_stream_encoder_->TriggerQualityHigh(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsMax()); |
| EXPECT_EQ(source.sink_wants().max_pixel_count, |
| source.last_wants().max_pixel_count); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(12, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect upscaled resolution (960x540@30fps). |
| video_stream_encoder_->TriggerQualityHigh(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsMaxResolutionGt(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(13, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect no restriction (1280x720fps@30fps). |
| video_stream_encoder_->TriggerQualityHigh(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(kWidth, kHeight); |
| EXPECT_THAT(source.sink_wants(), FpsMaxResolutionGt(source.last_wants())); |
| EXPECT_THAT(source.sink_wants(), FpsMaxResolutionMax()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_EQ(14, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect no change. |
| video_stream_encoder_->TriggerQualityHigh(); |
| EXPECT_THAT(source.sink_wants(), FpsMaxResolutionMax()); |
| EXPECT_EQ(14, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, AdaptWithTwoReasonsAndDifferentOrder_Framerate) { |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| const int64_t kFrameIntervalMs = 150; |
| int64_t timestamp_ms = kFrameIntervalMs; |
| ASSERT_EQ(video_encoder_config_.simulcast_layers.size(), 1u); |
| video_encoder_config_.simulcast_layers[0].width = kWidth; |
| video_encoder_config_.simulcast_layers[0].height = kHeight; |
| video_encoder_config_.simulcast_layers[0].max_framerate = kDefaultFramerate; |
| ConfigureEncoder(video_encoder_config_.Copy()); |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Enable BALANCED preference, no initial limitation. |
| AdaptingFrameForwarder source(&time_controller_); |
| source.set_adaptation_enabled(true); |
| video_stream_encoder_->SetSource(&source, |
| webrtc::DegradationPreference::BALANCED); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(kWidth, kHeight); |
| EXPECT_THAT(source.sink_wants(), FpsMaxResolutionMax()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger cpu adapt down, expect scaled down resolution (960x540@30fps). |
| video_stream_encoder_->TriggerCpuOveruse(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), |
| FpsMaxResolutionMatches(Lt(kWidth * kHeight))); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger cpu adapt down, expect scaled down resolution (640x360@30fps). |
| video_stream_encoder_->TriggerCpuOveruse(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsMaxResolutionLt(source.last_wants())); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger quality adapt down, expect reduced fps (640x360@15fps). |
| video_stream_encoder_->TriggerQualityLow(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsLtResolutionEq(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger cpu adapt up, expect no change since QP is most limited. |
| { |
| // Store current sink wants since we expect no change and if there is no |
| // change then last_wants() is not updated. |
| auto previous_sink_wants = source.sink_wants(); |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsEqResolutionEqTo(previous_sink_wants)); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| } |
| |
| // Trigger quality adapt up, expect increased fps (640x360@30fps). |
| video_stream_encoder_->TriggerQualityHigh(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsGtResolutionEq(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger quality adapt up and Cpu adapt up since both are most limited, |
| // expect increased resolution (960x540@30fps). |
| video_stream_encoder_->TriggerQualityHigh(); |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsMaxResolutionGt(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger quality adapt up and Cpu adapt up since both are most limited, |
| // expect no restriction (1280x720fps@30fps). |
| video_stream_encoder_->TriggerQualityHigh(); |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(kWidth, kHeight); |
| EXPECT_THAT(source.sink_wants(), FpsMaxResolutionGt(source.last_wants())); |
| EXPECT_THAT(source.sink_wants(), FpsMaxResolutionMax()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(4, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(4, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect no change. |
| video_stream_encoder_->TriggerQualityHigh(); |
| EXPECT_THAT(source.sink_wants(), FpsMaxResolutionMax()); |
| EXPECT_EQ(4, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(4, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| AdaptWithTwoReasonsAndDifferentOrder_Resolution) { |
| const int kWidth = 640; |
| const int kHeight = 360; |
| const int kFpsLimit = 15; |
| const int64_t kFrameIntervalMs = 150; |
| ASSERT_EQ(video_encoder_config_.simulcast_layers.size(), 1u); |
| video_encoder_config_.simulcast_layers[0].width = kWidth; |
| video_encoder_config_.simulcast_layers[0].height = kHeight; |
| video_encoder_config_.simulcast_layers[0].max_framerate = kDefaultFramerate; |
| ConfigureEncoder(video_encoder_config_.Copy()); |
| int64_t timestamp_ms = kFrameIntervalMs; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Enable BALANCED preference, no initial limitation. |
| AdaptingFrameForwarder source(&time_controller_); |
| source.set_adaptation_enabled(true); |
| video_stream_encoder_->SetSource(&source, |
| webrtc::DegradationPreference::BALANCED); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(kWidth, kHeight); |
| EXPECT_THAT(source.sink_wants(), FpsMaxResolutionMax()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger cpu adapt down, expect scaled down framerate (640x360@15fps). |
| video_stream_encoder_->TriggerCpuOveruse(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsMatchesResolutionMax(Eq(kFpsLimit))); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(0, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger quality adapt down, expect scaled down resolution (480x270@15fps). |
| video_stream_encoder_->TriggerQualityLow(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsEqResolutionLt(source.last_wants())); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger cpu adapt up, expect no change because quality is most limited. |
| { |
| auto previous_sink_wants = source.sink_wants(); |
| // Store current sink wants since we expect no change ind if there is no |
| // change then last__wants() is not updated. |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsEqResolutionEqTo(previous_sink_wants)); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| } |
| |
| // Trigger quality adapt up, expect upscaled resolution (640x360@15fps). |
| video_stream_encoder_->TriggerQualityHigh(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsEqResolutionGt(source.last_wants())); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_TRUE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(1, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger quality and cpu adapt up, expect increased fps (640x360@30fps). |
| video_stream_encoder_->TriggerQualityHigh(); |
| video_stream_encoder_->TriggerCpuUnderuse(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_THAT(source.sink_wants(), FpsMaxResolutionMax()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_framerate); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_resolution); |
| EXPECT_FALSE(stats_proxy_->GetStats().cpu_limited_framerate); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect no change. |
| video_stream_encoder_->TriggerQualityHigh(); |
| EXPECT_THAT(source.sink_wants(), FpsMaxResolutionMax()); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(3, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, AcceptsFullHdAdaptedDownSimulcastFrames) { |
| const int kFrameWidth = 1920; |
| const int kFrameHeight = 1080; |
| // 2/3 of 1920. |
| const int kAdaptedFrameWidth = 1280; |
| // 2/3 of 1080. |
| const int kAdaptedFrameHeight = 720; |
| const int kFramerate = 24; |
| uint64_t ntp_time_ms = 123; |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| // Trigger reconfigure encoder (without resetting the entire instance). |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(kVideoCodecVP8, 1, &video_encoder_config); |
| video_encoder_config.simulcast_layers[0].max_framerate = kFramerate; |
| video_encoder_config.max_bitrate_bps = kTargetBitrate.bps(); |
| video_encoder_config.video_stream_factory = |
| rtc::make_ref_counted<CroppingVideoStreamFactory>(); |
| video_stream_encoder_->ConfigureEncoder(std::move(video_encoder_config), |
| kMaxPayloadLength); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| video_source_.set_adaptation_enabled(true); |
| |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(ntp_time_ms, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(kFrameWidth, kFrameHeight); |
| |
| // Trigger CPU overuse, downscale by 3/4. |
| video_stream_encoder_->TriggerCpuOveruse(); |
| ntp_time_ms += 1000 / kFramerate; |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(ntp_time_ms, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(kAdaptedFrameWidth, kAdaptedFrameHeight); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, PeriodicallyUpdatesChannelParameters) { |
| const int kFrameWidth = 1280; |
| const int kFrameHeight = 720; |
| const int kLowFps = 2; |
| const int kHighFps = 30; |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| int64_t timestamp_ms = CurrentTimeMs(); |
| max_framerate_ = kLowFps; |
| |
| // Insert 2 seconds of 2fps video. |
| for (int i = 0; i < kLowFps * 2; ++i) { |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| timestamp_ms += 1000 / kLowFps; |
| } |
| |
| // Make sure encoder is updated with new target. |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| timestamp_ms += 1000 / kLowFps; |
| |
| EXPECT_EQ(kLowFps, fake_encoder_.GetConfiguredInputFramerate()); |
| |
| // Insert 30fps frames for just a little more than the forced update period. |
| const int kVcmTimerIntervalFrames = (kProcessIntervalMs * kHighFps) / 1000; |
| constexpr TimeDelta kFrameInterval = TimeDelta::Seconds(1) / kHighFps; |
| max_framerate_ = kHighFps; |
| for (int i = 0; i < kVcmTimerIntervalFrames + 2; ++i) { |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| // Wait for encoded frame, but skip ahead if it doesn't arrive as it might |
| // be dropped if the encoder hans't been updated with the new higher target |
| // framerate yet, causing it to overshoot the target bitrate and then |
| // suffering the wrath of the media optimizer. |
| TimedWaitForEncodedFrame(timestamp_ms, 2 * kFrameInterval); |
| timestamp_ms += kFrameInterval.ms(); |
| } |
| |
| // Don expect correct measurement just yet, but it should be higher than |
| // before. |
| EXPECT_GT(fake_encoder_.GetConfiguredInputFramerate(), kLowFps); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, DoesNotUpdateBitrateAllocationWhenSuspended) { |
| const int kFrameWidth = 1280; |
| const int kFrameHeight = 720; |
| ResetEncoder("FAKE", 1, 1, 1, false, kDefaultFramerate, |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoBitrateAllocation); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| // Insert a first video frame, causes another bitrate update. |
| int64_t timestamp_ms = CurrentTimeMs(); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_EQ(sink_.number_of_bitrate_allocations(), 1); |
| |
| // Next, simulate video suspension due to pacer queue overrun. |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| DataRate::Zero(), DataRate::Zero(), DataRate::Zero(), 0, 1, 0); |
| |
| // Skip ahead until a new periodic parameter update should have occured. |
| timestamp_ms += kProcessIntervalMs; |
| AdvanceTime(TimeDelta::Millis(kProcessIntervalMs)); |
| |
| // No more allocations has been made. |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| ExpectDroppedFrame(); |
| EXPECT_EQ(sink_.number_of_bitrate_allocations(), 1); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| DefaultCpuAdaptationThresholdsForSoftwareEncoder) { |
| const int kFrameWidth = 1280; |
| const int kFrameHeight = 720; |
| const CpuOveruseOptions default_options; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(1, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(1); |
| EXPECT_EQ(video_stream_encoder_->overuse_detector_proxy_->GetOptions() |
| .low_encode_usage_threshold_percent, |
| default_options.low_encode_usage_threshold_percent); |
| EXPECT_EQ(video_stream_encoder_->overuse_detector_proxy_->GetOptions() |
| .high_encode_usage_threshold_percent, |
| default_options.high_encode_usage_threshold_percent); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| HigherCpuAdaptationThresholdsForHardwareEncoder) { |
| const int kFrameWidth = 1280; |
| const int kFrameHeight = 720; |
| CpuOveruseOptions hardware_options; |
| hardware_options.low_encode_usage_threshold_percent = 150; |
| hardware_options.high_encode_usage_threshold_percent = 200; |
| fake_encoder_.SetIsHardwareAccelerated(true); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(1, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(1); |
| EXPECT_EQ(video_stream_encoder_->overuse_detector_proxy_->GetOptions() |
| .low_encode_usage_threshold_percent, |
| hardware_options.low_encode_usage_threshold_percent); |
| EXPECT_EQ(video_stream_encoder_->overuse_detector_proxy_->GetOptions() |
| .high_encode_usage_threshold_percent, |
| hardware_options.high_encode_usage_threshold_percent); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| CpuAdaptationThresholdsUpdatesWhenHardwareAccelerationChange) { |
| const int kFrameWidth = 1280; |
| const int kFrameHeight = 720; |
| |
| const CpuOveruseOptions default_options; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(1, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(1); |
| EXPECT_EQ(video_stream_encoder_->overuse_detector_proxy_->GetOptions() |
| .low_encode_usage_threshold_percent, |
| default_options.low_encode_usage_threshold_percent); |
| EXPECT_EQ(video_stream_encoder_->overuse_detector_proxy_->GetOptions() |
| .high_encode_usage_threshold_percent, |
| default_options.high_encode_usage_threshold_percent); |
| |
| CpuOveruseOptions hardware_options; |
| hardware_options.low_encode_usage_threshold_percent = 150; |
| hardware_options.high_encode_usage_threshold_percent = 200; |
| fake_encoder_.SetIsHardwareAccelerated(true); |
| |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(2, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(2); |
| |
| EXPECT_EQ(video_stream_encoder_->overuse_detector_proxy_->GetOptions() |
| .low_encode_usage_threshold_percent, |
| hardware_options.low_encode_usage_threshold_percent); |
| EXPECT_EQ(video_stream_encoder_->overuse_detector_proxy_->GetOptions() |
| .high_encode_usage_threshold_percent, |
| hardware_options.high_encode_usage_threshold_percent); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, DropsFramesWhenEncoderOvershoots) { |
| const int kFrameWidth = 320; |
| const int kFrameHeight = 240; |
| const int kFps = 30; |
| const DataRate kTargetBitrate = DataRate::KilobitsPerSec(120); |
| const int kNumFramesInRun = kFps * 5; // Runs of five seconds. |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| int64_t timestamp_ms = CurrentTimeMs(); |
| max_framerate_ = kFps; |
| |
| // Insert 3 seconds of video, verify number of drops with normal bitrate. |
| fake_encoder_.SimulateOvershoot(1.0); |
| int num_dropped = 0; |
| for (int i = 0; i < kNumFramesInRun; ++i) { |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| // Wait up to two frame durations for a frame to arrive. |
| if (!TimedWaitForEncodedFrame(timestamp_ms, |
| 2 * TimeDelta::Seconds(1) / kFps)) { |
| ++num_dropped; |
| } |
| timestamp_ms += 1000 / kFps; |
| } |
| |
| // Framerate should be measured to be near the expected target rate. |
| EXPECT_NEAR(fake_encoder_.GetLastFramerate(), kFps, 1); |
| |
| // Frame drops should be within 5% of expected 0%. |
| EXPECT_NEAR(num_dropped, 0, 5 * kNumFramesInRun / 100); |
| |
| // Make encoder produce frames at double the expected bitrate during 3 seconds |
| // of video, verify number of drops. Rate needs to be slightly changed in |
| // order to force the rate to be reconfigured. |
| double overshoot_factor = 2.0; |
| const RateControlSettings trials(env_.field_trials()); |
| if (trials.UseEncoderBitrateAdjuster()) { |
| // With bitrate adjuster, when need to overshoot even more to trigger |
| // frame dropping since the adjuter will try to just lower the target |
| // bitrate rather than drop frames. If network headroom can be used, it |
| // doesn't push back as hard so we don't need quite as much overshoot. |
| // These numbers are unfortunately a bit magical but there's not trivial |
| // way to algebraically infer them. |
| overshoot_factor = 3.0; |
| } |
| fake_encoder_.SimulateOvershoot(overshoot_factor); |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate + DataRate::KilobitsPerSec(1), |
| kTargetBitrate + DataRate::KilobitsPerSec(1), |
| kTargetBitrate + DataRate::KilobitsPerSec(1), 0, 0, 0); |
| num_dropped = 0; |
| for (int i = 0; i < kNumFramesInRun; ++i) { |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| // Wait up to two frame durations for a frame to arrive. |
| if (!TimedWaitForEncodedFrame(timestamp_ms, |
| 2 * TimeDelta::Seconds(1) / kFps)) { |
| ++num_dropped; |
| } |
| timestamp_ms += 1000 / kFps; |
| } |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Target framerate should be still be near the expected target, despite |
| // the frame drops. |
| EXPECT_NEAR(fake_encoder_.GetLastFramerate(), kFps, 1); |
| |
| // Frame drops should be within 5% of expected 50%. |
| EXPECT_NEAR(num_dropped, kNumFramesInRun / 2, 5 * kNumFramesInRun / 100); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, ConfiguresCorrectFrameRate) { |
| const int kFrameWidth = 320; |
| const int kFrameHeight = 240; |
| const int kActualInputFps = 24; |
| const DataRate kTargetBitrate = DataRate::KilobitsPerSec(120); |
| |
| ASSERT_GT(max_framerate_, kActualInputFps); |
| |
| int64_t timestamp_ms = CurrentTimeMs(); |
| max_framerate_ = kActualInputFps; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Insert 3 seconds of video, with an input fps lower than configured max. |
| for (int i = 0; i < kActualInputFps * 3; ++i) { |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| // Wait up to two frame durations for a frame to arrive. |
| WaitForEncodedFrame(timestamp_ms); |
| timestamp_ms += 1000 / kActualInputFps; |
| } |
| |
| EXPECT_NEAR(kActualInputFps, fake_encoder_.GetLastFramerate(), 1); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, AccumulatesUpdateRectOnDroppedFrames) { |
| VideoFrame::UpdateRect rect; |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource(&source, |
| DegradationPreference::MAINTAIN_FRAMERATE); |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| source.IncomingCapturedFrame(CreateFrameWithUpdatedPixel(1, nullptr, 0)); |
| WaitForEncodedFrame(1); |
| // On the very first frame full update should be forced. |
| rect = fake_encoder_.GetLastUpdateRect(); |
| EXPECT_EQ(rect.offset_x, 0); |
| EXPECT_EQ(rect.offset_y, 0); |
| EXPECT_EQ(rect.height, codec_height_); |
| EXPECT_EQ(rect.width, codec_width_); |
| // Frame with NTP timestamp 2 will be dropped due to outstanding frames |
| // scheduled for processing during encoder queue processing of frame 2. |
| source.IncomingCapturedFrame(CreateFrameWithUpdatedPixel(2, nullptr, 1)); |
| source.IncomingCapturedFrame(CreateFrameWithUpdatedPixel(3, nullptr, 10)); |
| WaitForEncodedFrame(3); |
| // Updates to pixels 1 and 10 should be accumulated to one 10x1 rect. |
| rect = fake_encoder_.GetLastUpdateRect(); |
| EXPECT_EQ(rect.offset_x, 1); |
| EXPECT_EQ(rect.offset_y, 0); |
| EXPECT_EQ(rect.width, 10); |
| EXPECT_EQ(rect.height, 1); |
| |
| source.IncomingCapturedFrame(CreateFrameWithUpdatedPixel(4, nullptr, 0)); |
| WaitForEncodedFrame(4); |
| // Previous frame was encoded, so no accumulation should happen. |
| rect = fake_encoder_.GetLastUpdateRect(); |
| EXPECT_EQ(rect.offset_x, 0); |
| EXPECT_EQ(rect.offset_y, 0); |
| EXPECT_EQ(rect.width, 1); |
| EXPECT_EQ(rect.height, 1); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, SetsFrameTypes) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // First frame is always keyframe. |
| video_source_.IncomingCapturedFrame(CreateFrame(1, nullptr)); |
| WaitForEncodedFrame(1); |
| EXPECT_THAT( |
| fake_encoder_.LastFrameTypes(), |
| ::testing::ElementsAre(VideoFrameType{VideoFrameType::kVideoFrameKey})); |
| |
| // Insert delta frame. |
| video_source_.IncomingCapturedFrame(CreateFrame(2, nullptr)); |
| WaitForEncodedFrame(2); |
| EXPECT_THAT( |
| fake_encoder_.LastFrameTypes(), |
| ::testing::ElementsAre(VideoFrameType{VideoFrameType::kVideoFrameDelta})); |
| |
| // Request next frame be a key-frame. |
| video_stream_encoder_->SendKeyFrame(); |
| video_source_.IncomingCapturedFrame(CreateFrame(3, nullptr)); |
| WaitForEncodedFrame(3); |
| EXPECT_THAT( |
| fake_encoder_.LastFrameTypes(), |
| ::testing::ElementsAre(VideoFrameType{VideoFrameType::kVideoFrameKey})); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, SetsFrameTypesSimulcast) { |
| // Setup simulcast with three streams. |
| ResetEncoder("VP8", 3, 1, 1, false); |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kSimulcastTargetBitrate, kSimulcastTargetBitrate, kSimulcastTargetBitrate, |
| 0, 0, 0); |
| // Wait for all three layers before triggering event. |
| sink_.SetNumExpectedLayers(3); |
| |
| // First frame is always keyframe. |
| video_source_.IncomingCapturedFrame(CreateFrame(1, nullptr)); |
| WaitForEncodedFrame(1); |
| EXPECT_THAT(fake_encoder_.LastFrameTypes(), |
| ::testing::ElementsAreArray({VideoFrameType::kVideoFrameKey, |
| VideoFrameType::kVideoFrameKey, |
| VideoFrameType::kVideoFrameKey})); |
| |
| // Insert delta frame. |
| video_source_.IncomingCapturedFrame(CreateFrame(2, nullptr)); |
| WaitForEncodedFrame(2); |
| EXPECT_THAT(fake_encoder_.LastFrameTypes(), |
| ::testing::ElementsAreArray({VideoFrameType::kVideoFrameDelta, |
| VideoFrameType::kVideoFrameDelta, |
| VideoFrameType::kVideoFrameDelta})); |
| |
| // Request next frame be a key-frame. |
| // Only first stream is configured to produce key-frame. |
| video_stream_encoder_->SendKeyFrame(); |
| video_source_.IncomingCapturedFrame(CreateFrame(3, nullptr)); |
| WaitForEncodedFrame(3); |
| |
| // TODO(webrtc:10615): Map keyframe request to spatial layer. Currently |
| // keyframe request on any layer triggers keyframe on all layers. |
| EXPECT_THAT(fake_encoder_.LastFrameTypes(), |
| ::testing::ElementsAreArray({VideoFrameType::kVideoFrameKey, |
| VideoFrameType::kVideoFrameKey, |
| VideoFrameType::kVideoFrameKey})); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, DoesNotRewriteH264BitstreamWithOptimalSps) { |
| // SPS contains VUI with restrictions on the maximum number of reordered |
| // pictures, there is no need to rewrite the bitstream to enable faster |
| // decoding. |
| ResetEncoder("H264", 1, 1, 1, false); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| fake_encoder_.SetEncodedImageData( |
| EncodedImageBuffer::Create(kOptimalSps, sizeof(kOptimalSps))); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(1, nullptr)); |
| WaitForEncodedFrame(1); |
| |
| EXPECT_THAT(sink_.GetLastEncodedImageData(), |
| testing::ElementsAreArray(kOptimalSps)); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, RewritesH264BitstreamWithNonOptimalSps) { |
| // SPS does not contain VUI, the bitstream is will be rewritten with added |
| // VUI with restrictions on the maximum number of reordered pictures to |
| // enable faster decoding. |
| uint8_t original_sps[] = {0, 0, 0, 1, H264::NaluType::kSps, |
| 0x00, 0x00, 0x03, 0x03, 0xF4, |
| 0x05, 0x03, 0xC7, 0xC0}; |
| ResetEncoder("H264", 1, 1, 1, false); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| fake_encoder_.SetEncodedImageData( |
| EncodedImageBuffer::Create(original_sps, sizeof(original_sps))); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(1, nullptr)); |
| WaitForEncodedFrame(1); |
| |
| EXPECT_THAT(sink_.GetLastEncodedImageData(), |
| testing::ElementsAreArray(kOptimalSps)); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, CopiesVideoFrameMetadataAfterDownscale) { |
| const int kFrameWidth = 1280; |
| const int kFrameHeight = 720; |
| const DataRate kTargetBitrate = |
| DataRate::KilobitsPerSec(300); // Too low for HD resolution. |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| // Insert a first video frame. It should be dropped because of downscale in |
| // resolution. |
| int64_t timestamp_ms = CurrentTimeMs(); |
| VideoFrame frame = CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight); |
| frame.set_rotation(kVideoRotation_270); |
| video_source_.IncomingCapturedFrame(frame); |
| |
| ExpectDroppedFrame(); |
| |
| // Second frame is downscaled. |
| timestamp_ms = CurrentTimeMs(); |
| frame = CreateFrame(timestamp_ms, kFrameWidth / 2, kFrameHeight / 2); |
| frame.set_rotation(kVideoRotation_90); |
| video_source_.IncomingCapturedFrame(frame); |
| |
| WaitForEncodedFrame(timestamp_ms); |
| sink_.CheckLastFrameRotationMatches(kVideoRotation_90); |
| |
| // Insert another frame, also downscaled. |
| timestamp_ms = CurrentTimeMs(); |
| frame = CreateFrame(timestamp_ms, kFrameWidth / 2, kFrameHeight / 2); |
| frame.set_rotation(kVideoRotation_180); |
| video_source_.IncomingCapturedFrame(frame); |
| |
| WaitForEncodedFrame(timestamp_ms); |
| sink_.CheckLastFrameRotationMatches(kVideoRotation_180); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, BandwidthAllocationLowerBound) { |
| const int kFrameWidth = 320; |
| const int kFrameHeight = 180; |
| |
| // Initial rate. |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| /*target_bitrate=*/DataRate::KilobitsPerSec(300), |
| /*stable_target_bitrate=*/DataRate::KilobitsPerSec(300), |
| /*link_allocation=*/DataRate::KilobitsPerSec(300), |
| /*fraction_lost=*/0, |
| /*round_trip_time_ms=*/0, |
| /*cwnd_reduce_ratio=*/0); |
| |
| // Insert a first video frame so that encoder gets configured. |
| int64_t timestamp_ms = CurrentTimeMs(); |
| VideoFrame frame = CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight); |
| frame.set_rotation(kVideoRotation_270); |
| video_source_.IncomingCapturedFrame(frame); |
| WaitForEncodedFrame(timestamp_ms); |
| |
| // Set a target rate below the minimum allowed by the codec settings. |
| VideoCodec codec_config = fake_encoder_.config(); |
| DataRate min_rate = DataRate::KilobitsPerSec(codec_config.minBitrate); |
| DataRate target_rate = min_rate - DataRate::KilobitsPerSec(1); |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| /*target_bitrate=*/target_rate, |
| /*stable_target_bitrate=*/target_rate, |
| /*link_allocation=*/target_rate, |
| /*fraction_lost=*/0, |
| /*round_trip_time_ms=*/0, |
| /*cwnd_reduce_ratio=*/0); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| // Target bitrate and bandwidth allocation should both be capped at min_rate. |
| auto rate_settings = fake_encoder_.GetAndResetLastRateControlSettings(); |
| ASSERT_TRUE(rate_settings.has_value()); |
| DataRate allocation_sum = |
| DataRate::BitsPerSec(rate_settings->bitrate.get_sum_bps()); |
| EXPECT_EQ(min_rate, allocation_sum); |
| EXPECT_EQ(rate_settings->bandwidth_allocation, min_rate); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, EncoderRatesPropagatedOnReconfigure) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| // Capture a frame and wait for it to synchronize with the encoder thread. |
| int64_t timestamp_ms = CurrentTimeMs(); |
| video_source_.IncomingCapturedFrame(CreateFrame(timestamp_ms, nullptr)); |
| WaitForEncodedFrame(1); |
| |
| auto prev_rate_settings = fake_encoder_.GetAndResetLastRateControlSettings(); |
| ASSERT_TRUE(prev_rate_settings.has_value()); |
| EXPECT_EQ(static_cast<int>(prev_rate_settings->framerate_fps), |
| kDefaultFramerate); |
| |
| // Send 1s of video to ensure the framerate is stable at kDefaultFramerate. |
| for (int i = 0; i < 2 * kDefaultFramerate; i++) { |
| timestamp_ms += 1000 / kDefaultFramerate; |
| video_source_.IncomingCapturedFrame(CreateFrame(timestamp_ms, nullptr)); |
| WaitForEncodedFrame(timestamp_ms); |
| } |
| EXPECT_EQ(static_cast<int>(fake_encoder_.GetLastFramerate()), |
| kDefaultFramerate); |
| // Capture larger frame to trigger a reconfigure. |
| codec_height_ *= 2; |
| codec_width_ *= 2; |
| timestamp_ms += 1000 / kDefaultFramerate; |
| video_source_.IncomingCapturedFrame(CreateFrame(timestamp_ms, nullptr)); |
| WaitForEncodedFrame(timestamp_ms); |
| |
| EXPECT_EQ(2, sink_.number_of_reconfigurations()); |
| auto current_rate_settings = |
| fake_encoder_.GetAndResetLastRateControlSettings(); |
| // Ensure we have actually reconfigured twice |
| // The rate settings should have been set again even though |
| // they haven't changed. |
| ASSERT_TRUE(current_rate_settings.has_value()); |
| EXPECT_EQ(prev_rate_settings, current_rate_settings); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| struct MockEncoderSwitchRequestCallback : public EncoderSwitchRequestCallback { |
| MOCK_METHOD(void, RequestEncoderFallback, (), (override)); |
| MOCK_METHOD(void, |
| RequestEncoderSwitch, |
| (const webrtc::SdpVideoFormat& format, |
| bool allow_default_fallback), |
| (override)); |
| }; |
| |
| TEST_F(VideoStreamEncoderTest, EncoderSelectorCurrentEncoderIsSignaled) { |
| constexpr int kDontCare = 100; |
| StrictMock<MockEncoderSelector> encoder_selector; |
| auto encoder_factory = std::make_unique<test::VideoEncoderProxyFactory>( |
| &fake_encoder_, &encoder_selector); |
| video_send_config_.encoder_settings.encoder_factory = encoder_factory.get(); |
| |
| // Reset encoder for new configuration to take effect. |
| ConfigureEncoder(video_encoder_config_.Copy()); |
| |
| EXPECT_CALL(encoder_selector, OnCurrentEncoder); |
| |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(kDontCare, kDontCare, kDontCare)); |
| AdvanceTime(TimeDelta::Zero()); |
| video_stream_encoder_->Stop(); |
| |
| // The encoders produced by the VideoEncoderProxyFactory have a pointer back |
| // to it's factory, so in order for the encoder instance in the |
| // `video_stream_encoder_` to be destroyed before the `encoder_factory` we |
| // reset the `video_stream_encoder_` here. |
| video_stream_encoder_.reset(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, EncoderSelectorBitrateSwitch) { |
| constexpr int kDontCare = 100; |
| |
| NiceMock<MockEncoderSelector> encoder_selector; |
| StrictMock<MockEncoderSwitchRequestCallback> switch_callback; |
| video_send_config_.encoder_settings.encoder_switch_request_callback = |
| &switch_callback; |
| auto encoder_factory = std::make_unique<test::VideoEncoderProxyFactory>( |
| &fake_encoder_, &encoder_selector); |
| video_send_config_.encoder_settings.encoder_factory = encoder_factory.get(); |
| |
| // Reset encoder for new configuration to take effect. |
| ConfigureEncoder(video_encoder_config_.Copy()); |
| |
| ON_CALL(encoder_selector, OnAvailableBitrate) |
| .WillByDefault(Return(SdpVideoFormat("AV1"))); |
| EXPECT_CALL(switch_callback, |
| RequestEncoderSwitch(Field(&SdpVideoFormat::name, "AV1"), |
| /*allow_default_fallback=*/false)); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| /*target_bitrate=*/DataRate::KilobitsPerSec(50), |
| /*stable_target_bitrate=*/DataRate::KilobitsPerSec(kDontCare), |
| /*link_allocation=*/DataRate::KilobitsPerSec(kDontCare), |
| /*fraction_lost=*/0, |
| /*round_trip_time_ms=*/0, |
| /*cwnd_reduce_ratio=*/0); |
| AdvanceTime(TimeDelta::Zero()); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, EncoderSelectorResolutionSwitch) { |
| NiceMock<MockEncoderSelector> encoder_selector; |
| StrictMock<MockEncoderSwitchRequestCallback> switch_callback; |
| video_send_config_.encoder_settings.encoder_switch_request_callback = |
| &switch_callback; |
| auto encoder_factory = std::make_unique<test::VideoEncoderProxyFactory>( |
| &fake_encoder_, &encoder_selector); |
| video_send_config_.encoder_settings.encoder_factory = encoder_factory.get(); |
| |
| // Reset encoder for new configuration to take effect. |
| ConfigureEncoder(video_encoder_config_.Copy()); |
| |
| EXPECT_CALL(encoder_selector, OnResolutionChange(RenderResolution(640, 480))) |
| .WillOnce(Return(std::nullopt)); |
| EXPECT_CALL(encoder_selector, OnResolutionChange(RenderResolution(320, 240))) |
| .WillOnce(Return(SdpVideoFormat("AV1"))); |
| EXPECT_CALL(switch_callback, |
| RequestEncoderSwitch(Field(&SdpVideoFormat::name, "AV1"), |
| /*allow_default_fallback=*/false)); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| /*target_bitrate=*/DataRate::KilobitsPerSec(800), |
| /*stable_target_bitrate=*/DataRate::KilobitsPerSec(1000), |
| /*link_allocation=*/DataRate::KilobitsPerSec(1000), |
| /*fraction_lost=*/0, |
| /*round_trip_time_ms=*/0, |
| /*cwnd_reduce_ratio=*/0); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(1, 640, 480)); |
| video_source_.IncomingCapturedFrame(CreateFrame(2, 640, 480)); |
| video_source_.IncomingCapturedFrame(CreateFrame(3, 320, 240)); |
| |
| AdvanceTime(TimeDelta::Zero()); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, EncoderSelectorBrokenEncoderSwitch) { |
| constexpr int kSufficientBitrateToNotDrop = 1000; |
| constexpr int kDontCare = 100; |
| |
| NiceMock<MockVideoEncoder> video_encoder; |
| NiceMock<MockEncoderSelector> encoder_selector; |
| StrictMock<MockEncoderSwitchRequestCallback> switch_callback; |
| video_send_config_.encoder_settings.encoder_switch_request_callback = |
| &switch_callback; |
| auto encoder_factory = std::make_unique<test::VideoEncoderProxyFactory>( |
| &video_encoder, &encoder_selector); |
| video_send_config_.encoder_settings.encoder_factory = encoder_factory.get(); |
| |
| // Reset encoder for new configuration to take effect. |
| ConfigureEncoder(video_encoder_config_.Copy()); |
| |
| // The VideoStreamEncoder needs some bitrate before it can start encoding, |
| // setting some bitrate so that subsequent calls to WaitForEncodedFrame does |
| // not fail. |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| /*target_bitrate=*/DataRate::KilobitsPerSec(kSufficientBitrateToNotDrop), |
| /*stable_target_bitrate=*/ |
| DataRate::KilobitsPerSec(kSufficientBitrateToNotDrop), |
| /*link_allocation=*/DataRate::KilobitsPerSec(kSufficientBitrateToNotDrop), |
| /*fraction_lost=*/0, |
| /*round_trip_time_ms=*/0, |
| /*cwnd_reduce_ratio=*/0); |
| |
| ON_CALL(video_encoder, Encode) |
| .WillByDefault(Return(WEBRTC_VIDEO_CODEC_ENCODER_FAILURE)); |
| ON_CALL(encoder_selector, OnEncoderBroken) |
| .WillByDefault(Return(SdpVideoFormat("AV2"))); |
| |
| rtc::Event encode_attempted; |
| EXPECT_CALL(switch_callback, |
| RequestEncoderSwitch(Field(&SdpVideoFormat::name, "AV2"), |
| /*allow_default_fallback=*/true)) |
| .WillOnce([&encode_attempted]() { encode_attempted.Set(); }); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(1, kDontCare, kDontCare)); |
| encode_attempted.Wait(TimeDelta::Seconds(3)); |
| |
| AdvanceTime(TimeDelta::Zero()); |
| |
| video_stream_encoder_->Stop(); |
| |
| // The encoders produced by the VideoEncoderProxyFactory have a pointer back |
| // to it's factory, so in order for the encoder instance in the |
| // `video_stream_encoder_` to be destroyed before the `encoder_factory` we |
| // reset the `video_stream_encoder_` here. |
| video_stream_encoder_.reset(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, SwitchEncoderOnInitFailureWithEncoderSelector) { |
| NiceMock<MockVideoEncoder> video_encoder; |
| NiceMock<MockEncoderSelector> encoder_selector; |
| StrictMock<MockEncoderSwitchRequestCallback> switch_callback; |
| video_send_config_.encoder_settings.encoder_switch_request_callback = |
| &switch_callback; |
| auto encoder_factory = std::make_unique<test::VideoEncoderProxyFactory>( |
| &video_encoder, &encoder_selector); |
| video_send_config_.encoder_settings.encoder_factory = encoder_factory.get(); |
| |
| // Reset encoder for new configuration to take effect. |
| ConfigureEncoder(video_encoder_config_.Copy()); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, /*fraction_lost=*/0, |
| /*round_trip_time_ms=*/0, |
| /*cwnd_reduce_ratio=*/0); |
| ASSERT_EQ(0, sink_.number_of_reconfigurations()); |
| |
| ON_CALL(video_encoder, InitEncode(_, _)) |
| .WillByDefault(Return(WEBRTC_VIDEO_CODEC_ENCODER_FAILURE)); |
| ON_CALL(encoder_selector, OnEncoderBroken) |
| .WillByDefault(Return(SdpVideoFormat("AV2"))); |
| |
| rtc::Event encode_attempted; |
| EXPECT_CALL(switch_callback, |
| RequestEncoderSwitch(Field(&SdpVideoFormat::name, "AV2"), |
| /*allow_default_fallback=*/true)) |
| .WillOnce([&encode_attempted]() { encode_attempted.Set(); }); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(1, nullptr)); |
| encode_attempted.Wait(TimeDelta::Seconds(3)); |
| |
| AdvanceTime(TimeDelta::Zero()); |
| |
| video_stream_encoder_->Stop(); |
| |
| // The encoders produced by the VideoEncoderProxyFactory have a pointer back |
| // to it's factory, so in order for the encoder instance in the |
| // `video_stream_encoder_` to be destroyed before the `encoder_factory` we |
| // reset the `video_stream_encoder_` here. |
| video_stream_encoder_.reset(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| SwitchEncoderOnInitFailureWithoutEncoderSelector) { |
| NiceMock<MockVideoEncoder> video_encoder; |
| StrictMock<MockEncoderSwitchRequestCallback> switch_callback; |
| video_send_config_.encoder_settings.encoder_switch_request_callback = |
| &switch_callback; |
| auto encoder_factory = std::make_unique<test::VideoEncoderProxyFactory>( |
| &video_encoder, /*encoder_selector=*/nullptr); |
| video_send_config_.encoder_settings.encoder_factory = encoder_factory.get(); |
| |
| // Reset encoder for new configuration to take effect. |
| ConfigureEncoder(video_encoder_config_.Copy()); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, /*fraction_lost=*/0, |
| /*round_trip_time_ms=*/0, |
| /*cwnd_reduce_ratio=*/0); |
| ASSERT_EQ(0, sink_.number_of_reconfigurations()); |
| |
| ON_CALL(video_encoder, InitEncode(_, _)) |
| .WillByDefault(Return(WEBRTC_VIDEO_CODEC_ENCODER_FAILURE)); |
| |
| rtc::Event encode_attempted; |
| EXPECT_CALL(switch_callback, |
| RequestEncoderSwitch(Field(&SdpVideoFormat::name, "VP8"), |
| /*allow_default_fallback=*/true)) |
| .WillOnce([&encode_attempted]() { encode_attempted.Set(); }); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(1, nullptr)); |
| encode_attempted.Wait(TimeDelta::Seconds(3)); |
| |
| AdvanceTime(TimeDelta::Zero()); |
| |
| video_stream_encoder_->Stop(); |
| |
| // The encoders produced by the VideoEncoderProxyFactory have a pointer back |
| // to it's factory, so in order for the encoder instance in the |
| // `video_stream_encoder_` to be destroyed before the `encoder_factory` we |
| // reset the `video_stream_encoder_` here. |
| video_stream_encoder_.reset(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, NullEncoderReturnSwitch) { |
| // As a variant of EncoderSelectorBrokenEncoderSwitch, when a null |
| // VideoEncoder is passed in encoder_factory, it checks whether |
| // Codec Switch occurs without a crash. |
| constexpr int kSufficientBitrateToNotDrop = 1000; |
| constexpr int kDontCare = 100; |
| |
| NiceMock<MockEncoderSelector> encoder_selector; |
| StrictMock<MockEncoderSwitchRequestCallback> switch_callback; |
| video_send_config_.encoder_settings.encoder_switch_request_callback = |
| &switch_callback; |
| auto encoder_factory = |
| std::make_unique<test::VideoEncoderNullableProxyFactory>( |
| /*encoder=*/nullptr, &encoder_selector); |
| video_send_config_.encoder_settings.encoder_factory = encoder_factory.get(); |
| |
| // Reset encoder for new configuration to take effect. |
| ConfigureEncoder(video_encoder_config_.Copy()); |
| // The VideoStreamEncoder needs some bitrate before it can start encoding, |
| // setting some bitrate so that subsequent calls to WaitForEncodedFrame does |
| // not fail. |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| /*target_bitrate=*/DataRate::KilobitsPerSec(kSufficientBitrateToNotDrop), |
| /*stable_target_bitrate=*/ |
| DataRate::KilobitsPerSec(kSufficientBitrateToNotDrop), |
| /*link_allocation=*/DataRate::KilobitsPerSec(kSufficientBitrateToNotDrop), |
| /*fraction_lost=*/0, |
| /*round_trip_time_ms=*/0, |
| /*cwnd_reduce_ratio=*/0); |
| ON_CALL(encoder_selector, OnEncoderBroken) |
| .WillByDefault(Return(SdpVideoFormat("AV2"))); |
| rtc::Event encode_attempted; |
| EXPECT_CALL(switch_callback, |
| RequestEncoderSwitch(Field(&SdpVideoFormat::name, "AV2"), |
| /*allow_default_fallback=*/_)) |
| .WillOnce([&encode_attempted]() { encode_attempted.Set(); }); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(1, kDontCare, kDontCare)); |
| encode_attempted.Wait(TimeDelta::Seconds(3)); |
| |
| AdvanceTime(TimeDelta::Zero()); |
| |
| video_stream_encoder_->Stop(); |
| |
| // The encoders produced by the VideoEncoderProxyFactory have a pointer back |
| // to it's factory, so in order for the encoder instance in the |
| // `video_stream_encoder_` to be destroyed before the `encoder_factory` we |
| // reset the `video_stream_encoder_` here. |
| video_stream_encoder_.reset(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| AllocationPropagatedToEncoderWhenTargetRateChanged) { |
| const int kFrameWidth = 320; |
| const int kFrameHeight = 180; |
| |
| // Set initial rate. |
| auto rate = DataRate::KilobitsPerSec(100); |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| /*target_bitrate=*/rate, |
| /*stable_target_bitrate=*/rate, |
| /*link_allocation=*/rate, |
| /*fraction_lost=*/0, |
| /*round_trip_time_ms=*/0, |
| /*cwnd_reduce_ratio=*/0); |
| |
| // Insert a first video frame so that encoder gets configured. |
| int64_t timestamp_ms = CurrentTimeMs(); |
| VideoFrame frame = CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight); |
| frame.set_rotation(kVideoRotation_270); |
| video_source_.IncomingCapturedFrame(frame); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_EQ(1, fake_encoder_.GetNumSetRates()); |
| |
| // Change of target bitrate propagates to the encoder. |
| auto new_stable_rate = rate - DataRate::KilobitsPerSec(5); |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| /*target_bitrate=*/new_stable_rate, |
| /*stable_target_bitrate=*/new_stable_rate, |
| /*link_allocation=*/rate, |
| /*fraction_lost=*/0, |
| /*round_trip_time_ms=*/0, |
| /*cwnd_reduce_ratio=*/0); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ(2, fake_encoder_.GetNumSetRates()); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| AllocationNotPropagatedToEncoderWhenTargetRateUnchanged) { |
| const int kFrameWidth = 320; |
| const int kFrameHeight = 180; |
| |
| // Set initial rate. |
| auto rate = DataRate::KilobitsPerSec(100); |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| /*target_bitrate=*/rate, |
| /*stable_target_bitrate=*/rate, |
| /*link_allocation=*/rate, |
| /*fraction_lost=*/0, |
| /*round_trip_time_ms=*/0, |
| /*cwnd_reduce_ratio=*/0); |
| |
| // Insert a first video frame so that encoder gets configured. |
| int64_t timestamp_ms = CurrentTimeMs(); |
| VideoFrame frame = CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight); |
| frame.set_rotation(kVideoRotation_270); |
| video_source_.IncomingCapturedFrame(frame); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_EQ(1, fake_encoder_.GetNumSetRates()); |
| |
| // Set a higher target rate without changing the link_allocation. Should not |
| // reset encoder's rate. |
| auto new_stable_rate = rate - DataRate::KilobitsPerSec(5); |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| /*target_bitrate=*/rate, |
| /*stable_target_bitrate=*/new_stable_rate, |
| /*link_allocation=*/rate, |
| /*fraction_lost=*/0, |
| /*round_trip_time_ms=*/0, |
| /*cwnd_reduce_ratio=*/0); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ(1, fake_encoder_.GetNumSetRates()); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, ConfiguresVp9SvcAtOddResolutions) { |
| const int kWidth = 720; // 540p adapted down. |
| const int kHeight = 405; |
| const int kNumFrames = 3; |
| // Works on screenshare mode. |
| ResetEncoder("VP9", /*num_streams=*/1, /*num_temporal_layers=*/1, |
| /*num_spatial_layers=*/2, /*screenshare=*/true); |
| |
| video_source_.set_adaptation_enabled(true); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| VideoFrame frame = CreateFrame(1, kWidth, kHeight); |
| |
| // Pass enough frames with the full update to trigger animation detection. |
| for (int i = 0; i < kNumFrames; ++i) { |
| int64_t timestamp_ms = CurrentTimeMs(); |
| frame.set_ntp_time_ms(timestamp_ms); |
| frame.set_timestamp_us(timestamp_ms * 1000); |
| video_source_.IncomingCapturedFrame(frame); |
| WaitForEncodedFrame(timestamp_ms); |
| } |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, EncoderResetAccordingToParameterChange) { |
| const float downscale_factors[] = {4.0, 2.0, 1.0}; |
| const int number_layers = |
| sizeof(downscale_factors) / sizeof(downscale_factors[0]); |
| VideoEncoderConfig config; |
| test::FillEncoderConfiguration(kVideoCodecVP8, number_layers, &config); |
| for (int i = 0; i < number_layers; ++i) { |
| config.simulcast_layers[i].scale_resolution_down_by = downscale_factors[i]; |
| config.simulcast_layers[i].active = true; |
| } |
| config.video_stream_factory = nullptr; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kSimulcastTargetBitrate, kSimulcastTargetBitrate, kSimulcastTargetBitrate, |
| 0, 0, 0); |
| |
| // First initialization. |
| // Encoder should be initialized. Next frame should be key frame. |
| video_stream_encoder_->ConfigureEncoder(config.Copy(), kMaxPayloadLength); |
| sink_.SetNumExpectedLayers(number_layers); |
| int64_t timestamp_ms = kFrameIntervalMs; |
| video_source_.IncomingCapturedFrame(CreateFrame(timestamp_ms, 1280, 720)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_EQ(1, fake_encoder_.GetNumInitializations()); |
| EXPECT_THAT(fake_encoder_.LastFrameTypes(), |
| ::testing::ElementsAreArray({VideoFrameType::kVideoFrameKey, |
| VideoFrameType::kVideoFrameKey, |
| VideoFrameType::kVideoFrameKey})); |
| |
| // Disable top layer. |
| // Encoder shouldn't be re-initialized. Next frame should be delta frame. |
| config.simulcast_layers[number_layers - 1].active = false; |
| video_stream_encoder_->ConfigureEncoder(config.Copy(), kMaxPayloadLength); |
| sink_.SetNumExpectedLayers(number_layers - 1); |
| timestamp_ms += kFrameIntervalMs; |
| video_source_.IncomingCapturedFrame(CreateFrame(timestamp_ms, 1280, 720)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_EQ(1, fake_encoder_.GetNumInitializations()); |
| EXPECT_THAT(fake_encoder_.LastFrameTypes(), |
| ::testing::ElementsAreArray({VideoFrameType::kVideoFrameDelta, |
| VideoFrameType::kVideoFrameDelta, |
| VideoFrameType::kVideoFrameDelta})); |
| |
| // Re-enable top layer. |
| // Encoder should be re-initialized. Next frame should be key frame. |
| config.simulcast_layers[number_layers - 1].active = true; |
| video_stream_encoder_->ConfigureEncoder(config.Copy(), kMaxPayloadLength); |
| sink_.SetNumExpectedLayers(number_layers); |
| timestamp_ms += kFrameIntervalMs; |
| video_source_.IncomingCapturedFrame(CreateFrame(timestamp_ms, 1280, 720)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_EQ(2, fake_encoder_.GetNumInitializations()); |
| EXPECT_THAT(fake_encoder_.LastFrameTypes(), |
| ::testing::ElementsAreArray({VideoFrameType::kVideoFrameKey, |
| VideoFrameType::kVideoFrameKey, |
| VideoFrameType::kVideoFrameKey})); |
| |
| // Top layer max rate change. |
| // Encoder shouldn't be re-initialized. Next frame should be delta frame. |
| config.simulcast_layers[number_layers - 1].max_bitrate_bps -= 100; |
| video_stream_encoder_->ConfigureEncoder(config.Copy(), kMaxPayloadLength); |
| sink_.SetNumExpectedLayers(number_layers); |
| timestamp_ms += kFrameIntervalMs; |
| video_source_.IncomingCapturedFrame(CreateFrame(timestamp_ms, 1280, 720)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_EQ(2, fake_encoder_.GetNumInitializations()); |
| EXPECT_THAT(fake_encoder_.LastFrameTypes(), |
| ::testing::ElementsAreArray({VideoFrameType::kVideoFrameDelta, |
| VideoFrameType::kVideoFrameDelta, |
| VideoFrameType::kVideoFrameDelta})); |
| |
| // Top layer resolution change. |
| // Encoder should be re-initialized. Next frame should be key frame. |
| config.simulcast_layers[number_layers - 1].scale_resolution_down_by += 0.1; |
| video_stream_encoder_->ConfigureEncoder(config.Copy(), kMaxPayloadLength); |
| sink_.SetNumExpectedLayers(number_layers); |
| timestamp_ms += kFrameIntervalMs; |
| video_source_.IncomingCapturedFrame(CreateFrame(timestamp_ms, 1280, 720)); |
| WaitForEncodedFrame(timestamp_ms); |
| EXPECT_EQ(3, fake_encoder_.GetNumInitializations()); |
| EXPECT_THAT(fake_encoder_.LastFrameTypes(), |
| ::testing::ElementsAreArray({VideoFrameType::kVideoFrameKey, |
| VideoFrameType::kVideoFrameKey, |
| VideoFrameType::kVideoFrameKey})); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, EncoderResolutionsExposedInSinglecast) { |
| const int kFrameWidth = 1280; |
| const int kFrameHeight = 720; |
| |
| SetUp(); |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| // Capturing a frame should reconfigure the encoder and expose the encoder |
| // resolution, which is the same as the input frame. |
| int64_t timestamp_ms = kFrameIntervalMs; |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_THAT(video_source_.sink_wants().resolutions, |
| ::testing::ElementsAreArray( |
| {rtc::VideoSinkWants::FrameSize(kFrameWidth, kFrameHeight)})); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, EncoderResolutionsExposedInSimulcast) { |
| // Pick downscale factors such that we never encode at full resolution - this |
| // is an interesting use case. The frame resolution influences the encoder |
| // resolutions, but if no layer has `scale_resolution_down_by` == 1 then the |
| // encoder should not ask for the frame resolution. This allows video frames |
| // to have the appearence of one resolution but optimize its internal buffers |
| // for what is actually encoded. |
| const size_t kNumSimulcastLayers = 3u; |
| const float kDownscaleFactors[] = {8.0, 4.0, 2.0}; |
| const int kFrameWidth = 1280; |
| const int kFrameHeight = 720; |
| const rtc::VideoSinkWants::FrameSize kLayer0Size( |
| kFrameWidth / kDownscaleFactors[0], kFrameHeight / kDownscaleFactors[0]); |
| const rtc::VideoSinkWants::FrameSize kLayer1Size( |
| kFrameWidth / kDownscaleFactors[1], kFrameHeight / kDownscaleFactors[1]); |
| const rtc::VideoSinkWants::FrameSize kLayer2Size( |
| kFrameWidth / kDownscaleFactors[2], kFrameHeight / kDownscaleFactors[2]); |
| |
| VideoEncoderConfig config; |
| test::FillEncoderConfiguration(kVideoCodecVP8, kNumSimulcastLayers, &config); |
| for (size_t i = 0; i < kNumSimulcastLayers; ++i) { |
| config.simulcast_layers[i].scale_resolution_down_by = kDownscaleFactors[i]; |
| config.simulcast_layers[i].active = true; |
| } |
| config.video_stream_factory = nullptr; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kSimulcastTargetBitrate, kSimulcastTargetBitrate, kSimulcastTargetBitrate, |
| 0, 0, 0); |
| |
| // Capture a frame with all layers active. |
| int64_t timestamp_ms = kFrameIntervalMs; |
| sink_.SetNumExpectedLayers(kNumSimulcastLayers); |
| video_stream_encoder_->ConfigureEncoder(config.Copy(), kMaxPayloadLength); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| // Expect encoded resolutions to match the expected simulcast layers. |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_THAT( |
| video_source_.sink_wants().resolutions, |
| ::testing::ElementsAreArray({kLayer0Size, kLayer1Size, kLayer2Size})); |
| |
| // Capture a frame with one of the layers inactive. |
| timestamp_ms += kFrameIntervalMs; |
| config.simulcast_layers[2].active = false; |
| sink_.SetNumExpectedLayers(kNumSimulcastLayers - 1); |
| video_stream_encoder_->ConfigureEncoder(config.Copy(), kMaxPayloadLength); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| |
| // Expect encoded resolutions to match the expected simulcast layers. |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_THAT(video_source_.sink_wants().resolutions, |
| ::testing::ElementsAreArray({kLayer0Size, kLayer1Size})); |
| |
| // Capture a frame with all but one layer turned off. |
| timestamp_ms += kFrameIntervalMs; |
| config.simulcast_layers[1].active = false; |
| sink_.SetNumExpectedLayers(kNumSimulcastLayers - 2); |
| video_stream_encoder_->ConfigureEncoder(config.Copy(), kMaxPayloadLength); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| |
| // Expect encoded resolutions to match the expected simulcast layers. |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_THAT(video_source_.sink_wants().resolutions, |
| ::testing::ElementsAreArray({kLayer0Size})); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, QpPresent_QpKept) { |
| ResetEncoder("VP8", 1, 1, 1, false); |
| |
| // Force encoder reconfig. |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(1, codec_width_, codec_height_)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| // Set QP on encoded frame and pass the frame to encode complete callback. |
| // Since QP is present QP parsing won't be triggered and the original value |
| // should be kept. |
| EncodedImage encoded_image; |
| encoded_image.qp_ = 123; |
| encoded_image.SetEncodedData(EncodedImageBuffer::Create( |
| kCodedFrameVp8Qp25, sizeof(kCodedFrameVp8Qp25))); |
| CodecSpecificInfo codec_info; |
| codec_info.codecType = kVideoCodecVP8; |
| fake_encoder_.InjectEncodedImage(encoded_image, &codec_info); |
| EXPECT_TRUE(sink_.WaitForFrame(kDefaultTimeout)); |
| EXPECT_EQ(sink_.GetLastEncodedImage().qp_, 123); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, QpAbsent_QpParsed) { |
| ResetEncoder("VP8", 1, 1, 1, false); |
| |
| // Force encoder reconfig. |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(1, codec_width_, codec_height_)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| // Pass an encoded frame without QP to encode complete callback. QP should be |
| // parsed and set. |
| EncodedImage encoded_image; |
| encoded_image.qp_ = -1; |
| encoded_image.SetEncodedData(EncodedImageBuffer::Create( |
| kCodedFrameVp8Qp25, sizeof(kCodedFrameVp8Qp25))); |
| CodecSpecificInfo codec_info; |
| codec_info.codecType = kVideoCodecVP8; |
| fake_encoder_.InjectEncodedImage(encoded_image, &codec_info); |
| EXPECT_TRUE(sink_.WaitForFrame(kDefaultTimeout)); |
| EXPECT_EQ(sink_.GetLastEncodedImage().qp_, 25); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, QpAbsentParsingDisabled_QpAbsent) { |
| webrtc::test::ScopedKeyValueConfig field_trials( |
| field_trials_, "WebRTC-QpParsingKillSwitch/Enabled/"); |
| |
| ResetEncoder("VP8", 1, 1, 1, false); |
| |
| // Force encoder reconfig. |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(1, codec_width_, codec_height_)); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| EncodedImage encoded_image; |
| encoded_image.qp_ = -1; |
| encoded_image.SetEncodedData(EncodedImageBuffer::Create( |
| kCodedFrameVp8Qp25, sizeof(kCodedFrameVp8Qp25))); |
| CodecSpecificInfo codec_info; |
| codec_info.codecType = kVideoCodecVP8; |
| fake_encoder_.InjectEncodedImage(encoded_image, &codec_info); |
| EXPECT_TRUE(sink_.WaitForFrame(kDefaultTimeout)); |
| EXPECT_EQ(sink_.GetLastEncodedImage().qp_, -1); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| QualityScalingNotAllowed_QualityScalingDisabled) { |
| VideoEncoderConfig video_encoder_config = video_encoder_config_.Copy(); |
| video_encoder_config.simulcast_layers[0].max_framerate = |
| -1; // No max frame rate. |
| |
| // Disable scaling settings in encoder info. |
| fake_encoder_.SetQualityScaling(false); |
| // Disable quality scaling in encoder config. |
| video_encoder_config.is_quality_scaling_allowed = false; |
| ConfigureEncoder(std::move(video_encoder_config)); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| |
| source.IncomingCapturedFrame(CreateFrame(1, 1280, 720)); |
| WaitForEncodedFrame(1); |
| video_stream_encoder_->TriggerQualityLow(); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, QualityScalingNotAllowed_IsQpTrustedSetTrue) { |
| VideoEncoderConfig video_encoder_config = video_encoder_config_.Copy(); |
| |
| // Disable scaling settings in encoder info. |
| fake_encoder_.SetQualityScaling(false); |
| // Set QP trusted in encoder info. |
| fake_encoder_.SetIsQpTrusted(true); |
| // Enable quality scaling in encoder config. |
| video_encoder_config.is_quality_scaling_allowed = false; |
| ConfigureEncoder(std::move(video_encoder_config)); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| |
| source.IncomingCapturedFrame(CreateFrame(1, 1280, 720)); |
| WaitForEncodedFrame(1); |
| video_stream_encoder_->TriggerQualityLow(); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| QualityScalingNotAllowedAndQPIsTrusted_BandwidthScalerDisable) { |
| VideoEncoderConfig video_encoder_config = video_encoder_config_.Copy(); |
| |
| // Disable scaling settings in encoder info. |
| fake_encoder_.SetQualityScaling(false); |
| // Set QP trusted in encoder info. |
| fake_encoder_.SetIsQpTrusted(true); |
| // Enable quality scaling in encoder config. |
| video_encoder_config.is_quality_scaling_allowed = false; |
| ConfigureEncoder(std::move(video_encoder_config)); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| |
| source.IncomingCapturedFrame(CreateFrame(1, 1280, 720)); |
| WaitForEncodedFrame(1); |
| video_stream_encoder_->TriggerQualityLow(); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| QualityScalingNotAllowedAndQPIsNotTrusted_BandwidthScalerDisable) { |
| VideoEncoderConfig video_encoder_config = video_encoder_config_.Copy(); |
| |
| // Disable scaling settings in encoder info. |
| fake_encoder_.SetQualityScaling(false); |
| // Set QP trusted in encoder info. |
| fake_encoder_.SetIsQpTrusted(false); |
| // Enable quality scaling in encoder config. |
| video_encoder_config.is_quality_scaling_allowed = false; |
| ConfigureEncoder(std::move(video_encoder_config)); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| |
| source.IncomingCapturedFrame(CreateFrame(1, 1280, 720)); |
| WaitForEncodedFrame(1); |
| video_stream_encoder_->TriggerQualityLow(); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, EncoderProvideLimitsWhenQPIsNotTrusted) { |
| // Set QP trusted in encoder info. |
| fake_encoder_.SetIsQpTrusted(false); |
| |
| const int MinEncBitrateKbps = 30; |
| const int MaxEncBitrateKbps = 100; |
| const int MinStartBitrateKbp = 50; |
| const VideoEncoder::ResolutionBitrateLimits encoder_bitrate_limits( |
| /*frame_size_pixels=*/codec_width_ * codec_height_, |
| /*min_start_bitrate_bps=*/MinStartBitrateKbp, |
| /*min_bitrate_bps=*/MinEncBitrateKbps * 1000, |
| /*max_bitrate_bps=*/MaxEncBitrateKbps * 1000); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| fake_encoder_.SetResolutionBitrateLimits({encoder_bitrate_limits}); |
| |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(kVideoCodecH264, 1, &video_encoder_config); |
| video_encoder_config.max_bitrate_bps = MaxEncBitrateKbps * 1000; |
| video_encoder_config.simulcast_layers[0].min_bitrate_bps = |
| MinEncBitrateKbps * 1000; |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config.Copy(), |
| kMaxPayloadLength); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(1, nullptr)); |
| WaitForEncodedFrame(1); |
| EXPECT_EQ( |
| MaxEncBitrateKbps, |
| static_cast<int>(bitrate_allocator_factory_.codec_config().maxBitrate)); |
| EXPECT_EQ( |
| MinEncBitrateKbps, |
| static_cast<int>(bitrate_allocator_factory_.codec_config().minBitrate)); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, EncoderDoesnotProvideLimitsWhenQPIsNotTrusted) { |
| // Set QP not trusted in encoder info. |
| fake_encoder_.SetIsQpTrusted(false); |
| |
| std::optional<VideoEncoder::ResolutionBitrateLimits> suitable_bitrate_limit = |
| EncoderInfoSettings:: |
| GetSinglecastBitrateLimitForResolutionWhenQpIsUntrusted( |
| codec_width_ * codec_height_, |
| EncoderInfoSettings:: |
| GetDefaultSinglecastBitrateLimitsWhenQpIsUntrusted()); |
| EXPECT_TRUE(suitable_bitrate_limit.has_value()); |
| |
| const int max_encoder_bitrate = suitable_bitrate_limit->max_bitrate_bps; |
| const int min_encoder_bitrate = suitable_bitrate_limit->min_bitrate_bps; |
| const int target_encoder_bitrate = max_encoder_bitrate; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| DataRate::BitsPerSec(target_encoder_bitrate), |
| DataRate::BitsPerSec(target_encoder_bitrate), |
| DataRate::BitsPerSec(target_encoder_bitrate), 0, 0, 0); |
| |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(kVideoCodecH264, 1, &video_encoder_config); |
| video_encoder_config.max_bitrate_bps = max_encoder_bitrate; |
| video_encoder_config.simulcast_layers[0].min_bitrate_bps = |
| min_encoder_bitrate; |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config.Copy(), |
| kMaxPayloadLength); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(1, nullptr)); |
| WaitForEncodedFrame(1); |
| EXPECT_EQ( |
| max_encoder_bitrate / 1000, |
| static_cast<int>(bitrate_allocator_factory_.codec_config().maxBitrate)); |
| EXPECT_EQ( |
| min_encoder_bitrate / 1000, |
| static_cast<int>(bitrate_allocator_factory_.codec_config().minBitrate)); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| RespectsLowerThanDefaultMinBitrateWhenQPIsNotTrusted) { |
| // Set QP not trusted in encoder info. |
| fake_encoder_.SetIsQpTrusted(false); |
| |
| std::optional<VideoEncoder::ResolutionBitrateLimits> suitable_bitrate_limit = |
| EncoderInfoSettings:: |
| GetSinglecastBitrateLimitForResolutionWhenQpIsUntrusted( |
| codec_width_ * codec_height_, |
| EncoderInfoSettings:: |
| GetDefaultSinglecastBitrateLimitsWhenQpIsUntrusted()); |
| EXPECT_TRUE(suitable_bitrate_limit.has_value()); |
| |
| const int max_encoder_bitrate = suitable_bitrate_limit->max_bitrate_bps; |
| const int min_encoder_bitrate = suitable_bitrate_limit->min_bitrate_bps; |
| const int target_encoder_bitrate = max_encoder_bitrate; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| DataRate::BitsPerSec(target_encoder_bitrate), |
| DataRate::BitsPerSec(target_encoder_bitrate), |
| DataRate::BitsPerSec(target_encoder_bitrate), 0, 0, 0); |
| |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(kVideoCodecH264, 1, &video_encoder_config); |
| // Set the max bitrate config to be lower than what the resolution bitrate |
| // limits would suggest for the current resolution. |
| video_encoder_config.max_bitrate_bps = |
| (max_encoder_bitrate + min_encoder_bitrate) / 2; |
| video_encoder_config.simulcast_layers[0].min_bitrate_bps = |
| min_encoder_bitrate; |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config.Copy(), |
| kMaxPayloadLength); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(1, nullptr)); |
| WaitForEncodedFrame(1); |
| EXPECT_EQ( |
| video_encoder_config.max_bitrate_bps / 1000, |
| static_cast<int>(bitrate_allocator_factory_.codec_config().maxBitrate)); |
| EXPECT_EQ( |
| min_encoder_bitrate / 1000, |
| static_cast<int>(bitrate_allocator_factory_.codec_config().minBitrate)); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, NormalComplexityWithMoreThanTwoCores) { |
| ResetEncoder("VP9", /*num_stream=*/1, /*num_temporal_layers=*/1, |
| /*num_spatial_layers=*/1, |
| /*screenshare=*/false, |
| kDefaultFramerate, /*allocation_callback_type=*/ |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoBitrateAllocationWhenScreenSharing, |
| /*num_cores=*/3); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(1, /*width=*/320, /*height=*/180)); |
| WaitForEncodedFrame(1); |
| EXPECT_EQ(fake_encoder_.LastEncoderComplexity(), |
| VideoCodecComplexity::kComplexityNormal); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| NormalComplexityWhenLowTierOptimizationsAreDisabled) { |
| webrtc::test::ScopedKeyValueConfig field_trials( |
| field_trials_, "WebRTC-VP9-LowTierOptimizations/Disabled/"); |
| |
| ResetEncoder("VP9", /*num_stream=*/1, /*num_temporal_layers=*/1, |
| /*num_spatial_layers=*/1, |
| /*screenshare=*/false, |
| kDefaultFramerate, /*allocation_callback_type=*/ |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoBitrateAllocationWhenScreenSharing, |
| /*num_cores=*/2); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(1, /*width=*/320, /*height=*/180)); |
| WaitForEncodedFrame(1); |
| EXPECT_EQ(fake_encoder_.LastEncoderComplexity(), |
| VideoCodecComplexity::kComplexityNormal); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, LowComplexityWithTwoCores) { |
| ResetEncoder("VP9", /*num_stream=*/1, /*num_temporal_layers=*/1, |
| /*num_spatial_layers=*/1, |
| /*screenshare=*/false, |
| kDefaultFramerate, /*allocation_callback_type=*/ |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoBitrateAllocationWhenScreenSharing, |
| /*num_cores=*/2); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(1, /*width=*/320, /*height=*/180)); |
| WaitForEncodedFrame(1); |
| EXPECT_EQ(fake_encoder_.LastEncoderComplexity(), |
| VideoCodecComplexity::kComplexityLow); |
| video_stream_encoder_->Stop(); |
| } |
| |
| #if !defined(WEBRTC_IOS) |
| // TODO(bugs.webrtc.org/12401): Disabled because WebRTC-Video-QualityScaling is |
| // disabled by default on iOS. |
| TEST_F(VideoStreamEncoderTest, QualityScalingAllowed_QualityScalingEnabled) { |
| VideoEncoderConfig video_encoder_config = video_encoder_config_.Copy(); |
| |
| // Disable scaling settings in encoder info. |
| fake_encoder_.SetQualityScaling(false); |
| // Enable quality scaling in encoder config. |
| video_encoder_config.is_quality_scaling_allowed = true; |
| ConfigureEncoder(std::move(video_encoder_config)); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| |
| source.IncomingCapturedFrame(CreateFrame(1, 1280, 720)); |
| WaitForEncodedFrame(1); |
| video_stream_encoder_->TriggerQualityLow(); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, QualityScalingAllowed_IsQpTrustedSetTrue) { |
| VideoEncoderConfig video_encoder_config = video_encoder_config_.Copy(); |
| |
| // Disable scaling settings in encoder info. |
| fake_encoder_.SetQualityScaling(false); |
| // Set QP trusted in encoder info. |
| fake_encoder_.SetIsQpTrusted(true); |
| // Enable quality scaling in encoder config. |
| video_encoder_config.is_quality_scaling_allowed = true; |
| ConfigureEncoder(std::move(video_encoder_config)); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| |
| source.IncomingCapturedFrame(CreateFrame(1, 1280, 720)); |
| WaitForEncodedFrame(1); |
| video_stream_encoder_->TriggerQualityLow(); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, QualityScalingAllowed_IsQpTrustedSetFalse) { |
| VideoEncoderConfig video_encoder_config = video_encoder_config_.Copy(); |
| |
| // Disable scaling settings in encoder info. |
| fake_encoder_.SetQualityScaling(false); |
| // Set QP not trusted in encoder info. |
| fake_encoder_.SetIsQpTrusted(false); |
| // Enable quality scaling in encoder config. |
| video_encoder_config.is_quality_scaling_allowed = true; |
| ConfigureEncoder(std::move(video_encoder_config)); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| |
| source.IncomingCapturedFrame(CreateFrame(1, 1280, 720)); |
| WaitForEncodedFrame(1); |
| video_stream_encoder_->TriggerQualityLow(); |
| // When quality_scaler doesn't work and is_quality_scaling_allowed is |
| // true,the bandwidth_quality_scaler_ works,so bw_limited_resolution is true. |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| QualityScalingAllowedAndQPIsTrusted_BandwidthScalerDisable) { |
| VideoEncoderConfig video_encoder_config = video_encoder_config_.Copy(); |
| |
| // Disable scaling settings in encoder info. |
| fake_encoder_.SetQualityScaling(false); |
| // Set QP trusted in encoder info. |
| fake_encoder_.SetIsQpTrusted(true); |
| // Enable quality scaling in encoder config. |
| video_encoder_config.is_quality_scaling_allowed = true; |
| ConfigureEncoder(std::move(video_encoder_config)); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| |
| source.IncomingCapturedFrame(CreateFrame(1, 1280, 720)); |
| WaitForEncodedFrame(1); |
| video_stream_encoder_->TriggerQualityLow(); |
| // bandwidth_quality_scaler isn't working, but quality_scaler is working. |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| QualityScalingAllowedAndQPIsNotTrusted_BandwidthScalerEnabled) { |
| VideoEncoderConfig video_encoder_config = video_encoder_config_.Copy(); |
| |
| // Disable scaling settings in encoder info. |
| fake_encoder_.SetQualityScaling(false); |
| // Set QP trusted in encoder info. |
| fake_encoder_.SetIsQpTrusted(false); |
| // Enable quality scaling in encoder config. |
| video_encoder_config.is_quality_scaling_allowed = true; |
| ConfigureEncoder(std::move(video_encoder_config)); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| EXPECT_THAT(source.sink_wants(), UnlimitedSinkWants()); |
| EXPECT_FALSE(stats_proxy_->GetStats().bw_limited_resolution); |
| |
| source.IncomingCapturedFrame(CreateFrame(1, 1280, 720)); |
| WaitForEncodedFrame(1); |
| video_stream_encoder_->TriggerQualityLow(); |
| EXPECT_TRUE(stats_proxy_->GetStats().bw_limited_resolution); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| RequestsRefreshFrameAfterEarlyDroppedNativeFrame) { |
| // Send a native frame before encoder rates have been set. The encoder is |
| // seen as paused at this time. |
| rtc::Event frame_destroyed_event; |
| video_source_.IncomingCapturedFrame(CreateFakeNativeFrame( |
| /*ntp_time_ms=*/1, &frame_destroyed_event, codec_width_, codec_height_)); |
| |
| // Frame should be dropped and destroyed. |
| ExpectDroppedFrame(); |
| EXPECT_TRUE(frame_destroyed_event.Wait(kDefaultTimeout)); |
| EXPECT_EQ(video_source_.refresh_frames_requested_, 0); |
| |
| // Set bitrates, unpausing the encoder and triggering a request for a refresh |
| // frame. |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| EXPECT_EQ(video_source_.refresh_frames_requested_, 1); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, RecreatesEncoderWhenEnableVp9SpatialLayer) { |
| // Set up encoder to use VP9 SVC using two spatial layers. |
| fake_encoder_.SetTemporalLayersSupported(/*spatial_idx=*/0, true); |
| fake_encoder_.SetTemporalLayersSupported(/*spatial_idx*/ 1, true); |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(VideoCodecType::kVideoCodecVP9, |
| /* num_streams*/ 1, &video_encoder_config); |
| video_encoder_config.max_bitrate_bps = 2 * kTargetBitrate.bps(); |
| video_encoder_config.content_type = |
| VideoEncoderConfig::ContentType::kRealtimeVideo; |
| VideoCodecVP9 vp9_settings = VideoEncoder::GetDefaultVp9Settings(); |
| vp9_settings.numberOfSpatialLayers = 2; |
| vp9_settings.numberOfTemporalLayers = 2; |
| vp9_settings.interLayerPred = InterLayerPredMode::kOn; |
| vp9_settings.automaticResizeOn = false; |
| video_encoder_config.encoder_specific_settings = |
| rtc::make_ref_counted<VideoEncoderConfig::Vp9EncoderSpecificSettings>( |
| vp9_settings); |
| video_encoder_config.spatial_layers = GetSvcConfig(1280, 720, |
| /*fps=*/30.0, |
| /*first_active_layer=*/0, |
| /*num_spatial_layers=*/2, |
| /*num_temporal_layers=*/3, |
| /*is_screenshare=*/false); |
| ConfigureEncoder(video_encoder_config.Copy(), |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoLayersAllocation); |
| |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| |
| video_source_.IncomingCapturedFrame(CreateFrame(CurrentTimeMs(), 1280, 720)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| EXPECT_EQ(fake_encoder_.GetNumInitializations(), 1); |
| |
| // Turn off the top spatial layer. This does not require an encoder reset. |
| video_encoder_config.spatial_layers[1].active = false; |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config.Copy(), |
| kMaxPayloadLength, nullptr); |
| |
| time_controller_.AdvanceTime(TimeDelta::Millis(33)); |
| video_source_.IncomingCapturedFrame(CreateFrame(CurrentTimeMs(), 1280, 720)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| EXPECT_EQ(fake_encoder_.GetNumInitializations(), 1); |
| |
| // Turn on the top spatial layer again, this does require an encoder reset. |
| video_encoder_config.spatial_layers[1].active = true; |
| video_stream_encoder_->ConfigureEncoder(video_encoder_config.Copy(), |
| kMaxPayloadLength, nullptr); |
| |
| time_controller_.AdvanceTime(TimeDelta::Millis(33)); |
| video_source_.IncomingCapturedFrame(CreateFrame(CurrentTimeMs(), 1280, 720)); |
| WaitForEncodedFrame(CurrentTimeMs()); |
| EXPECT_EQ(fake_encoder_.GetNumInitializations(), 2); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| #endif // !defined(WEBRTC_IOS) |
| |
| // Test parameters: (VideoCodecType codec, bool allow_i420_conversion) |
| class VideoStreamEncoderWithRealEncoderTest |
| : public VideoStreamEncoderTest, |
| public ::testing::WithParamInterface<std::pair<VideoCodecType, bool>> { |
| public: |
| VideoStreamEncoderWithRealEncoderTest() |
| : VideoStreamEncoderTest(), |
| codec_type_(std::get<0>(GetParam())), |
| allow_i420_conversion_(std::get<1>(GetParam())) {} |
| |
| void SetUp() override { |
| VideoStreamEncoderTest::SetUp(); |
| Environment env = CreateEnvironment(&field_trials_); |
| std::unique_ptr<VideoEncoder> encoder; |
| switch (codec_type_) { |
| case kVideoCodecVP8: |
| encoder = CreateVp8Encoder(env); |
| break; |
| case kVideoCodecVP9: |
| encoder = CreateVp9Encoder(env); |
| break; |
| case kVideoCodecAV1: |
| encoder = CreateLibaomAv1Encoder(env); |
| break; |
| case kVideoCodecH264: |
| encoder = CreateH264Encoder(env); |
| break; |
| case kVideoCodecH265: |
| // TODO(bugs.webrtc.org/13485): Use a fake encoder |
| break; |
| default: |
| RTC_DCHECK_NOTREACHED(); |
| } |
| ConfigureEncoderAndBitrate(codec_type_, std::move(encoder)); |
| } |
| |
| void TearDown() override { |
| video_stream_encoder_->Stop(); |
| // Ensure `video_stream_encoder_` is destroyed before |
| // `encoder_proxy_factory_`. |
| video_stream_encoder_.reset(); |
| VideoStreamEncoderTest::TearDown(); |
| } |
| |
| protected: |
| void ConfigureEncoderAndBitrate(VideoCodecType codec_type, |
| std::unique_ptr<VideoEncoder> encoder) { |
| // Configure VSE to use the encoder. |
| encoder_ = std::move(encoder); |
| encoder_proxy_factory_ = std::make_unique<test::VideoEncoderProxyFactory>( |
| encoder_.get(), &encoder_selector_); |
| video_send_config_.encoder_settings.encoder_factory = |
| encoder_proxy_factory_.get(); |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(codec_type, 1, &video_encoder_config); |
| video_encoder_config_ = video_encoder_config.Copy(); |
| ConfigureEncoder(video_encoder_config_.Copy()); |
| |
| // Set bitrate to ensure frame is not dropped. |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTargetBitrate, kTargetBitrate, kTargetBitrate, 0, 0, 0); |
| } |
| |
| const VideoCodecType codec_type_; |
| const bool allow_i420_conversion_; |
| NiceMock<MockEncoderSelector> encoder_selector_; |
| std::unique_ptr<test::VideoEncoderProxyFactory> encoder_proxy_factory_; |
| std::unique_ptr<VideoEncoder> encoder_; |
| std::unique_ptr<MockVideoEncoderFactory> mock_encoder_factory_for_multiplex_; |
| }; |
| |
| TEST_P(VideoStreamEncoderWithRealEncoderTest, EncoderMapsNativeI420) { |
| auto native_i420_frame = test::CreateMappableNativeFrame( |
| 1, VideoFrameBuffer::Type::kI420, codec_width_, codec_height_); |
| video_source_.IncomingCapturedFrame(native_i420_frame); |
| WaitForEncodedFrame(codec_width_, codec_height_); |
| |
| auto mappable_native_buffer = |
| test::GetMappableNativeBufferFromVideoFrame(native_i420_frame); |
| std::vector<rtc::scoped_refptr<VideoFrameBuffer>> mapped_frame_buffers = |
| mappable_native_buffer->GetMappedFramedBuffers(); |
| ASSERT_EQ(mapped_frame_buffers.size(), 1u); |
| EXPECT_EQ(mapped_frame_buffers[0]->width(), codec_width_); |
| EXPECT_EQ(mapped_frame_buffers[0]->height(), codec_height_); |
| EXPECT_EQ(mapped_frame_buffers[0]->type(), VideoFrameBuffer::Type::kI420); |
| } |
| |
| TEST_P(VideoStreamEncoderWithRealEncoderTest, EncoderMapsNativeNV12) { |
| auto native_nv12_frame = test::CreateMappableNativeFrame( |
| 1, VideoFrameBuffer::Type::kNV12, codec_width_, codec_height_); |
| video_source_.IncomingCapturedFrame(native_nv12_frame); |
| WaitForEncodedFrame(codec_width_, codec_height_); |
| |
| auto mappable_native_buffer = |
| test::GetMappableNativeBufferFromVideoFrame(native_nv12_frame); |
| std::vector<rtc::scoped_refptr<VideoFrameBuffer>> mapped_frame_buffers = |
| mappable_native_buffer->GetMappedFramedBuffers(); |
| ASSERT_EQ(mapped_frame_buffers.size(), 1u); |
| EXPECT_EQ(mapped_frame_buffers[0]->width(), codec_width_); |
| EXPECT_EQ(mapped_frame_buffers[0]->height(), codec_height_); |
| EXPECT_EQ(mapped_frame_buffers[0]->type(), VideoFrameBuffer::Type::kNV12); |
| |
| if (!allow_i420_conversion_) { |
| EXPECT_FALSE(mappable_native_buffer->DidConvertToI420()); |
| } |
| } |
| |
| TEST_P(VideoStreamEncoderWithRealEncoderTest, HandlesLayerToggling) { |
| const size_t kNumSpatialLayers = 3u; |
| const float kDownscaleFactors[] = {4.0, 2.0, 1.0}; |
| const int kFrameWidth = 1280; |
| const int kFrameHeight = 720; |
| const rtc::VideoSinkWants::FrameSize kLayer0Size( |
| kFrameWidth / kDownscaleFactors[0], kFrameHeight / kDownscaleFactors[0]); |
| const rtc::VideoSinkWants::FrameSize kLayer1Size( |
| kFrameWidth / kDownscaleFactors[1], kFrameHeight / kDownscaleFactors[1]); |
| const rtc::VideoSinkWants::FrameSize kLayer2Size( |
| kFrameWidth / kDownscaleFactors[2], kFrameHeight / kDownscaleFactors[2]); |
| |
| VideoEncoderConfig config; |
| if (codec_type_ == VideoCodecType::kVideoCodecVP9) { |
| test::FillEncoderConfiguration(codec_type_, 1, &config); |
| config.max_bitrate_bps = kSimulcastTargetBitrate.bps(); |
| VideoCodecVP9 vp9_settings = VideoEncoder::GetDefaultVp9Settings(); |
| vp9_settings.numberOfSpatialLayers = kNumSpatialLayers; |
| vp9_settings.numberOfTemporalLayers = 3; |
| vp9_settings.automaticResizeOn = false; |
| config.encoder_specific_settings = |
| rtc::make_ref_counted<VideoEncoderConfig::Vp9EncoderSpecificSettings>( |
| vp9_settings); |
| config.spatial_layers = GetSvcConfig(kFrameWidth, kFrameHeight, |
| /*fps=*/30.0, |
| /*first_active_layer=*/0, |
| /*num_spatial_layers=*/3, |
| /*num_temporal_layers=*/3, |
| /*is_screenshare=*/false); |
| } else if (codec_type_ == VideoCodecType::kVideoCodecAV1) { |
| test::FillEncoderConfiguration(codec_type_, 1, &config); |
| config.max_bitrate_bps = kSimulcastTargetBitrate.bps(); |
| config.spatial_layers = GetSvcConfig(kFrameWidth, kFrameHeight, |
| /*fps=*/30.0, |
| /*first_active_layer=*/0, |
| /*num_spatial_layers=*/3, |
| /*num_temporal_layers=*/3, |
| /*is_screenshare=*/false); |
| config.simulcast_layers[0].scalability_mode = ScalabilityMode::kL3T3_KEY; |
| } else { |
| // Simulcast for VP8/H264. |
| test::FillEncoderConfiguration(codec_type_, kNumSpatialLayers, &config); |
| for (size_t i = 0; i < kNumSpatialLayers; ++i) { |
| config.simulcast_layers[i].scale_resolution_down_by = |
| kDownscaleFactors[i]; |
| config.simulcast_layers[i].active = true; |
| } |
| if (codec_type_ == VideoCodecType::kVideoCodecH264) { |
| // Turn off frame dropping to prevent flakiness. |
| config.frame_drop_enabled = false; |
| } |
| } |
| |
| auto set_layer_active = [&](int layer_idx, bool active) { |
| if (codec_type_ == VideoCodecType::kVideoCodecVP9 || |
| codec_type_ == VideoCodecType::kVideoCodecAV1) { |
| config.spatial_layers[layer_idx].active = active; |
| } else { |
| config.simulcast_layers[layer_idx].active = active; |
| } |
| }; |
| |
| config.video_stream_factory = nullptr; |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kSimulcastTargetBitrate, kSimulcastTargetBitrate, kSimulcastTargetBitrate, |
| 0, 0, 0); |
| |
| // Capture a frame with all layers active. |
| sink_.SetNumExpectedLayers(kNumSpatialLayers); |
| video_stream_encoder_->ConfigureEncoder(config.Copy(), kMaxPayloadLength); |
| int64_t timestamp_ms = kFrameIntervalMs; |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| |
| WaitForEncodedFrame(kLayer2Size.width, kLayer2Size.height); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| // Capture a frame with one of the layers inactive. |
| set_layer_active(2, false); |
| sink_.SetNumExpectedLayers(kNumSpatialLayers - 1); |
| video_stream_encoder_->ConfigureEncoder(config.Copy(), kMaxPayloadLength); |
| timestamp_ms += kFrameIntervalMs; |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(kLayer1Size.width, kLayer1Size.height); |
| |
| // New target bitrates signaled based on lower resolution. |
| DataRate kTwoLayerBitrate = DataRate::KilobitsPerSec(833); |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| kTwoLayerBitrate, kTwoLayerBitrate, kTwoLayerBitrate, 0, 0, 0); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| // Re-enable the top layer. |
| set_layer_active(2, true); |
| sink_.SetNumExpectedLayers(kNumSpatialLayers); |
| video_stream_encoder_->ConfigureEncoder(config.Copy(), kMaxPayloadLength); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| // Bitrate target adjusted back up to enable HD layer... |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| DataRate::KilobitsPerSec(1800), DataRate::KilobitsPerSec(1800), |
| DataRate::KilobitsPerSec(1800), 0, 0, 0); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| // ...then add a new frame. |
| timestamp_ms += kFrameIntervalMs; |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(kLayer2Size.width, kLayer2Size.height); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| std::string TestParametersVideoCodecAndAllowI420ConversionToString( |
| testing::TestParamInfo<std::pair<VideoCodecType, bool>> info) { |
| VideoCodecType codec_type = std::get<0>(info.param); |
| bool allow_i420_conversion = std::get<1>(info.param); |
| return std::string(CodecTypeToPayloadString(codec_type)) + |
| (allow_i420_conversion ? "_AllowToI420" : "_DisallowToI420"); |
| } |
| |
| constexpr std::pair<VideoCodecType, bool> kVP8DisallowConversion = |
| std::make_pair(kVideoCodecVP8, /*allow_i420_conversion=*/false); |
| constexpr std::pair<VideoCodecType, bool> kVP9DisallowConversion = |
| std::make_pair(kVideoCodecVP9, /*allow_i420_conversion=*/false); |
| constexpr std::pair<VideoCodecType, bool> kAV1AllowConversion = |
| std::make_pair(kVideoCodecAV1, /*allow_i420_conversion=*/false); |
| #if defined(WEBRTC_USE_H264) |
| constexpr std::pair<VideoCodecType, bool> kH264AllowConversion = |
| std::make_pair(kVideoCodecH264, /*allow_i420_conversion=*/true); |
| |
| // The windows compiler does not tolerate #if statements inside the |
| // INSTANTIATE_TEST_SUITE_P() macro, so we have to have two definitions (with |
| // and without H264). |
| INSTANTIATE_TEST_SUITE_P( |
| All, |
| VideoStreamEncoderWithRealEncoderTest, |
| ::testing::Values(kVP8DisallowConversion, |
| kVP9DisallowConversion, |
| kAV1AllowConversion, |
| kH264AllowConversion), |
| TestParametersVideoCodecAndAllowI420ConversionToString); |
| #else |
| INSTANTIATE_TEST_SUITE_P( |
| All, |
| VideoStreamEncoderWithRealEncoderTest, |
| ::testing::Values(kVP8DisallowConversion, |
| kVP9DisallowConversion, |
| kAV1AllowConversion), |
| TestParametersVideoCodecAndAllowI420ConversionToString); |
| #endif |
| |
| class ReconfigureEncoderTest : public VideoStreamEncoderTest { |
| protected: |
| void RunTest(const std::vector<VideoStream>& configs, |
| const int expected_num_init_encode) { |
| ConfigureEncoder(configs[0]); |
| OnBitrateUpdated(kTargetBitrate); |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_EQ(1, sink_.number_of_reconfigurations()); |
| ExpectEqual(bitrate_allocator_factory_.codec_config(), configs[0]); |
| EXPECT_EQ(1, fake_encoder_.GetNumInitializations()); |
| ExpectEqual(fake_encoder_.config(), configs[0]); |
| |
| // Reconfigure encoder, the encoder should only be reconfigured if needed. |
| ConfigureEncoder(configs[1]); |
| InsertFrameAndWaitForEncoded(); |
| EXPECT_EQ(2, sink_.number_of_reconfigurations()); |
| ExpectEqual(bitrate_allocator_factory_.codec_config(), configs[1]); |
| EXPECT_EQ(expected_num_init_encode, fake_encoder_.GetNumInitializations()); |
| if (expected_num_init_encode > 1) |
| ExpectEqual(fake_encoder_.config(), configs[1]); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| void ConfigureEncoder(const VideoStream& stream) { |
| VideoEncoderConfig config; |
| test::FillEncoderConfiguration(kVideoCodecVP8, /*num_streams=*/1, &config); |
| config.max_bitrate_bps = stream.max_bitrate_bps; |
| config.simulcast_layers[0] = stream; |
| config.video_stream_factory = nullptr; |
| video_stream_encoder_->ConfigureEncoder(std::move(config), |
| kMaxPayloadLength); |
| } |
| |
| void OnBitrateUpdated(DataRate bitrate) { |
| video_stream_encoder_->OnBitrateUpdatedAndWaitForManagedResources( |
| bitrate, bitrate, bitrate, 0, 0, 0); |
| } |
| |
| void InsertFrameAndWaitForEncoded() { |
| timestamp_ms_ += kFrameIntervalMs; |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms_, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(timestamp_ms_); |
| } |
| |
| void ExpectEqual(const VideoCodec& actual, |
| const VideoStream& expected) const { |
| EXPECT_EQ(actual.numberOfSimulcastStreams, 1); |
| EXPECT_EQ(actual.simulcastStream[0].maxFramerate, expected.max_framerate); |
| EXPECT_EQ(actual.simulcastStream[0].minBitrate * 1000, |
| static_cast<unsigned int>(expected.min_bitrate_bps)); |
| EXPECT_EQ(actual.simulcastStream[0].maxBitrate * 1000, |
| static_cast<unsigned int>(expected.max_bitrate_bps)); |
| EXPECT_EQ(actual.simulcastStream[0].width, |
| kWidth / expected.scale_resolution_down_by); |
| EXPECT_EQ(actual.simulcastStream[0].height, |
| kHeight / expected.scale_resolution_down_by); |
| EXPECT_EQ(actual.simulcastStream[0].numberOfTemporalLayers, |
| expected.num_temporal_layers); |
| EXPECT_EQ(actual.GetScalabilityMode(), expected.scalability_mode); |
| } |
| |
| VideoStream DefaultConfig() const { |
| VideoStream stream; |
| stream.max_framerate = 25; |
| stream.min_bitrate_bps = 35000; |
| stream.max_bitrate_bps = 900000; |
| stream.scale_resolution_down_by = 1.0; |
| stream.num_temporal_layers = 1; |
| stream.bitrate_priority = 1.0; |
| stream.scalability_mode = std::nullopt; |
| return stream; |
| } |
| |
| const int kWidth = 640; |
| const int kHeight = 360; |
| int64_t timestamp_ms_ = 0; |
| }; |
| |
| TEST_F(ReconfigureEncoderTest, NotReconfiguredIfMaxFramerateChanges) { |
| VideoStream config1 = DefaultConfig(); |
| VideoStream config2 = config1; |
| config2.max_framerate++; |
| |
| RunTest({config1, config2}, /*expected_num_init_encode=*/1); |
| } |
| |
| TEST_F(ReconfigureEncoderTest, NotReconfiguredIfMinBitrateChanges) { |
| VideoStream config1 = DefaultConfig(); |
| VideoStream config2 = config1; |
| config2.min_bitrate_bps += 10000; |
| |
| RunTest({config1, config2}, /*expected_num_init_encode=*/1); |
| } |
| |
| TEST_F(ReconfigureEncoderTest, NotReconfiguredIfMaxBitrateChanges) { |
| VideoStream config1 = DefaultConfig(); |
| VideoStream config2 = config1; |
| config2.max_bitrate_bps += 100000; |
| |
| RunTest({config1, config2}, /*expected_num_init_encode=*/1); |
| } |
| |
| TEST_F(ReconfigureEncoderTest, NotReconfiguredIfBitratePriorityChanges) { |
| VideoStream config1 = DefaultConfig(); |
| VideoStream config2 = config1; |
| config2.bitrate_priority = config1.bitrate_priority.value() * 2.0; |
| |
| RunTest({config1, config2}, /*expected_num_init_encode=*/1); |
| } |
| |
| TEST_F(ReconfigureEncoderTest, ReconfiguredIfResolutionChanges) { |
| VideoStream config1 = DefaultConfig(); |
| VideoStream config2 = config1; |
| config2.scale_resolution_down_by *= 2; |
| |
| RunTest({config1, config2}, /*expected_num_init_encode=*/2); |
| } |
| |
| TEST_F(ReconfigureEncoderTest, ReconfiguredIfNumTemporalLayerChanges) { |
| VideoStream config1 = DefaultConfig(); |
| VideoStream config2 = config1; |
| config2.num_temporal_layers = config1.num_temporal_layers.value() + 1; |
| |
| RunTest({config1, config2}, /*expected_num_init_encode=*/2); |
| } |
| |
| TEST_F(ReconfigureEncoderTest, ReconfiguredIfScalabilityModeChanges) { |
| VideoStream config1 = DefaultConfig(); |
| VideoStream config2 = config1; |
| config2.scalability_mode = ScalabilityMode::kL2T1; |
| |
| RunTest({config1, config2}, /*expected_num_init_encode=*/2); |
| } |
| |
| TEST_F(ReconfigureEncoderTest, |
| UpdatesNumTemporalLayersFromScalabilityModeChanges) { |
| VideoStream config1 = DefaultConfig(); |
| VideoStream config2 = config1; |
| config2.scalability_mode = ScalabilityMode::kL1T2; |
| config2.num_temporal_layers = 2; |
| |
| RunTest({config1, config2}, /*expected_num_init_encode=*/2); |
| } |
| |
| // Simple test that just creates and then immediately destroys an encoder. |
| // The purpose of the test is to make sure that nothing bad happens if the |
| // initialization step on the encoder queue, doesn't run. |
| TEST(VideoStreamEncoderSimpleTest, CreateDestroy) { |
| class SuperLazyTaskQueue : public webrtc::TaskQueueBase { |
| public: |
| SuperLazyTaskQueue() = default; |
| ~SuperLazyTaskQueue() override = default; |
| |
| private: |
| void Delete() override { delete this; } |
| void PostTaskImpl(absl::AnyInvocable<void() &&> task, |
| const PostTaskTraits& traits, |
| const Location& location) override { |
| // meh. |
| } |
| void PostDelayedTaskImpl(absl::AnyInvocable<void() &&> task, |
| TimeDelta delay, |
| const PostDelayedTaskTraits& traits, |
| const Location& location) override { |
| ADD_FAILURE(); |
| } |
| }; |
| |
| // Lots of boiler plate. |
| GlobalSimulatedTimeController time_controller(Timestamp::Zero()); |
| Environment env = CreateEnvironment(time_controller.GetClock()); |
| MockableSendStatisticsProxy stats_proxy( |
| &env.clock(), VideoSendStream::Config(nullptr), |
| webrtc::VideoEncoderConfig::ContentType::kRealtimeVideo, |
| env.field_trials()); |
| SimpleVideoStreamEncoderFactory::MockFakeEncoder mock_fake_encoder(env); |
| test::VideoEncoderProxyFactory encoder_factory(&mock_fake_encoder); |
| std::unique_ptr<VideoBitrateAllocatorFactory> bitrate_allocator_factory = |
| CreateBuiltinVideoBitrateAllocatorFactory(); |
| VideoStreamEncoderSettings encoder_settings{ |
| VideoEncoder::Capabilities(/*loss_notification=*/false)}; |
| encoder_settings.encoder_factory = &encoder_factory; |
| encoder_settings.bitrate_allocator_factory = bitrate_allocator_factory.get(); |
| |
| auto adapter = std::make_unique<MockFrameCadenceAdapter>(); |
| EXPECT_CALL((*adapter.get()), Initialize).WillOnce(Return()); |
| |
| std::unique_ptr<webrtc::TaskQueueBase, webrtc::TaskQueueDeleter> |
| encoder_queue(new SuperLazyTaskQueue()); |
| |
| // Construct a VideoStreamEncoder instance and let it go out of scope without |
| // doing anything else. This should be fine since the posted init task will |
| // simply be deleted. |
| VideoStreamEncoder encoder( |
| env, 1, &stats_proxy, encoder_settings, |
| std::make_unique<CpuOveruseDetectorProxy>(env, &stats_proxy), |
| std::move(adapter), std::move(encoder_queue), |
| VideoStreamEncoder::BitrateAllocationCallbackType:: |
| kVideoBitrateAllocation); |
| |
| // Stop the encoder explicitly. This additional step tests if we could |
| // hang when calling stop and the TQ has been stopped and/or isn't accepting |
| // any more tasks. |
| encoder.Stop(); |
| } |
| |
| TEST(VideoStreamEncoderFrameCadenceTest, ActivatesFrameCadenceOnContentType) { |
| auto adapter = std::make_unique<MockFrameCadenceAdapter>(); |
| auto* adapter_ptr = adapter.get(); |
| SimpleVideoStreamEncoderFactory factory; |
| FrameCadenceAdapterInterface::Callback* video_stream_encoder_callback = |
| nullptr; |
| EXPECT_CALL(*adapter_ptr, Initialize) |
| .WillOnce(Invoke([&video_stream_encoder_callback]( |
| FrameCadenceAdapterInterface::Callback* callback) { |
| video_stream_encoder_callback = callback; |
| })); |
| TaskQueueBase* encoder_queue = nullptr; |
| auto video_stream_encoder = |
| factory.Create(std::move(adapter), &encoder_queue); |
| |
| // First a call before we know the frame size and hence cannot compute the |
| // number of simulcast layers. |
| EXPECT_CALL(*adapter_ptr, SetZeroHertzModeEnabled(Optional(Field( |
| &FrameCadenceAdapterInterface:: |
| ZeroHertzModeParams::num_simulcast_layers, |
| Eq(0u))))); |
| VideoEncoderConfig config; |
| test::FillEncoderConfiguration(kVideoCodecVP8, 1, &config); |
| config.content_type = VideoEncoderConfig::ContentType::kScreen; |
| video_stream_encoder->ConfigureEncoder(std::move(config), 0); |
| factory.DepleteTaskQueues(); |
| |
| // Then a call as we've computed the number of simulcast layers after a passed |
| // frame. |
| EXPECT_CALL(*adapter_ptr, SetZeroHertzModeEnabled(Optional(Field( |
| &FrameCadenceAdapterInterface:: |
| ZeroHertzModeParams::num_simulcast_layers, |
| Gt(0u))))); |
| PassAFrame(encoder_queue, video_stream_encoder_callback, /*ntp_time_ms=*/1); |
| factory.DepleteTaskQueues(); |
| Mock::VerifyAndClearExpectations(adapter_ptr); |
| |
| // Expect a disabled zero-hertz mode after passing realtime video. |
| EXPECT_CALL(*adapter_ptr, SetZeroHertzModeEnabled(Eq(std::nullopt))); |
| VideoEncoderConfig config2; |
| test::FillEncoderConfiguration(kVideoCodecVP8, 1, &config2); |
| config2.content_type = VideoEncoderConfig::ContentType::kRealtimeVideo; |
| video_stream_encoder->ConfigureEncoder(std::move(config2), 0); |
| PassAFrame(encoder_queue, video_stream_encoder_callback, /*ntp_time_ms=*/2); |
| factory.DepleteTaskQueues(); |
| } |
| |
| TEST(VideoStreamEncoderFrameCadenceTest, |
| ForwardsFramesIntoFrameCadenceAdapter) { |
| auto adapter = std::make_unique<MockFrameCadenceAdapter>(); |
| auto* adapter_ptr = adapter.get(); |
| test::FrameForwarder video_source; |
| SimpleVideoStreamEncoderFactory factory; |
| auto video_stream_encoder = factory.Create(std::move(adapter)); |
| video_stream_encoder->SetSource( |
| &video_source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| |
| EXPECT_CALL(*adapter_ptr, OnFrame); |
| auto buffer = rtc::make_ref_counted<NV12Buffer>(/*width=*/16, /*height=*/16); |
| video_source.IncomingCapturedFrame( |
| VideoFrame::Builder().set_video_frame_buffer(std::move(buffer)).build()); |
| } |
| |
| TEST(VideoStreamEncoderFrameCadenceTest, UsesFrameCadenceAdapterForFrameRate) { |
| auto adapter = std::make_unique<MockFrameCadenceAdapter>(); |
| auto* adapter_ptr = adapter.get(); |
| test::FrameForwarder video_source; |
| SimpleVideoStreamEncoderFactory factory; |
| FrameCadenceAdapterInterface::Callback* video_stream_encoder_callback = |
| nullptr; |
| EXPECT_CALL(*adapter_ptr, Initialize) |
| .WillOnce(Invoke([&video_stream_encoder_callback]( |
| FrameCadenceAdapterInterface::Callback* callback) { |
| video_stream_encoder_callback = callback; |
| })); |
| TaskQueueBase* encoder_queue = nullptr; |
| auto video_stream_encoder = |
| factory.Create(std::move(adapter), &encoder_queue); |
| |
| // This is just to make the VSE operational. We'll feed a frame directly by |
| // the callback interface. |
| video_stream_encoder->SetSource( |
| &video_source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(kVideoCodecGeneric, 1, &video_encoder_config); |
| video_stream_encoder->ConfigureEncoder(std::move(video_encoder_config), |
| /*max_data_payload_length=*/1000); |
| |
| EXPECT_CALL(*adapter_ptr, GetInputFrameRateFps); |
| PassAFrame(encoder_queue, video_stream_encoder_callback, /*ntp_time_ms=*/1); |
| factory.DepleteTaskQueues(); |
| } |
| |
| TEST(VideoStreamEncoderFrameCadenceTest, |
| DeactivatesActivatesLayersOnBitrateChanges) { |
| auto adapter = std::make_unique<MockFrameCadenceAdapter>(); |
| auto* adapter_ptr = adapter.get(); |
| SimpleVideoStreamEncoderFactory factory; |
| FrameCadenceAdapterInterface::Callback* video_stream_encoder_callback = |
| nullptr; |
| EXPECT_CALL(*adapter_ptr, Initialize) |
| .WillOnce(Invoke([&video_stream_encoder_callback]( |
| FrameCadenceAdapterInterface::Callback* callback) { |
| video_stream_encoder_callback = callback; |
| })); |
| TaskQueueBase* encoder_queue = nullptr; |
| auto video_stream_encoder = |
| factory.Create(std::move(adapter), &encoder_queue); |
| |
| // Configure 2 simulcast layers. FillEncoderConfiguration sets min bitrates to |
| // {150000, 450000}. |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(kVideoCodecVP8, 2, &video_encoder_config); |
| video_stream_encoder->ConfigureEncoder(video_encoder_config.Copy(), |
| kMaxPayloadLength); |
| // Ensure an encoder is created. |
| PassAFrame(encoder_queue, video_stream_encoder_callback, /*ntp_time_ms=*/1); |
| |
| // Both layers enabled at 1 MBit/s. |
| video_stream_encoder->OnBitrateUpdated( |
| DataRate::KilobitsPerSec(1000), DataRate::KilobitsPerSec(1000), |
| DataRate::KilobitsPerSec(1000), 0, 0, 0); |
| EXPECT_CALL(*adapter_ptr, UpdateLayerStatus(0, /*enabled=*/true)); |
| EXPECT_CALL(*adapter_ptr, UpdateLayerStatus(1, /*enabled=*/true)); |
| factory.DepleteTaskQueues(); |
| Mock::VerifyAndClearExpectations(adapter_ptr); |
| |
| // Layer 1 disabled at 200 KBit/s. |
| video_stream_encoder->OnBitrateUpdated( |
| DataRate::KilobitsPerSec(200), DataRate::KilobitsPerSec(200), |
| DataRate::KilobitsPerSec(200), 0, 0, 0); |
| EXPECT_CALL(*adapter_ptr, UpdateLayerStatus(0, /*enabled=*/true)); |
| EXPECT_CALL(*adapter_ptr, UpdateLayerStatus(1, /*enabled=*/false)); |
| factory.DepleteTaskQueues(); |
| Mock::VerifyAndClearExpectations(adapter_ptr); |
| |
| // All layers off at suspended video. |
| video_stream_encoder->OnBitrateUpdated(DataRate::Zero(), DataRate::Zero(), |
| DataRate::Zero(), 0, 0, 0); |
| EXPECT_CALL(*adapter_ptr, UpdateLayerStatus(0, /*enabled=*/false)); |
| EXPECT_CALL(*adapter_ptr, UpdateLayerStatus(1, /*enabled=*/false)); |
| factory.DepleteTaskQueues(); |
| Mock::VerifyAndClearExpectations(adapter_ptr); |
| |
| // Both layers enabled again back at 1 MBit/s. |
| video_stream_encoder->OnBitrateUpdated( |
| DataRate::KilobitsPerSec(1000), DataRate::KilobitsPerSec(1000), |
| DataRate::KilobitsPerSec(1000), 0, 0, 0); |
| EXPECT_CALL(*adapter_ptr, UpdateLayerStatus(0, /*enabled=*/true)); |
| EXPECT_CALL(*adapter_ptr, UpdateLayerStatus(1, /*enabled=*/true)); |
| factory.DepleteTaskQueues(); |
| } |
| |
| TEST(VideoStreamEncoderFrameCadenceTest, UpdatesQualityConvergence) { |
| auto adapter = std::make_unique<MockFrameCadenceAdapter>(); |
| auto* adapter_ptr = adapter.get(); |
| SimpleVideoStreamEncoderFactory factory; |
| FrameCadenceAdapterInterface::Callback* video_stream_encoder_callback = |
| nullptr; |
| EXPECT_CALL(*adapter_ptr, Initialize) |
| .WillOnce(Invoke([&video_stream_encoder_callback]( |
| FrameCadenceAdapterInterface::Callback* callback) { |
| video_stream_encoder_callback = callback; |
| })); |
| TaskQueueBase* encoder_queue = nullptr; |
| auto video_stream_encoder = |
| factory.Create(std::move(adapter), &encoder_queue); |
| |
| // Set minimum QP. |
| VideoEncoder::EncoderInfo info; |
| info.min_qp = kVp8SteadyStateQpThreshold; |
| EXPECT_CALL(factory.GetMockFakeEncoder(), GetEncoderInfo) |
| .WillRepeatedly(Return(info)); |
| |
| // Configure 2 simulcast layers and setup 1 MBit/s to unpause the encoder. |
| VideoEncoderConfig video_encoder_config; |
| test::FillEncoderConfiguration(kVideoCodecVP8, 2, &video_encoder_config); |
| video_stream_encoder->ConfigureEncoder(video_encoder_config.Copy(), |
| kMaxPayloadLength); |
| video_stream_encoder->OnBitrateUpdated( |
| DataRate::KilobitsPerSec(1000), DataRate::KilobitsPerSec(1000), |
| DataRate::KilobitsPerSec(1000), 0, 0, 0); |
| |
| // Pass a frame which has unconverged results. |
| PassAFrame(encoder_queue, video_stream_encoder_callback, /*ntp_time_ms=*/1); |
| EXPECT_CALL(factory.GetMockFakeEncoder(), EncodeHook) |
| .WillRepeatedly(Invoke([](EncodedImage& encoded_image, |
| rtc::scoped_refptr<EncodedImageBuffer> buffer) { |
| encoded_image.qp_ = kVp8SteadyStateQpThreshold + 1; |
| CodecSpecificInfo codec_specific; |
| codec_specific.codecType = kVideoCodecVP8; |
| return codec_specific; |
| })); |
| EXPECT_CALL(*adapter_ptr, UpdateLayerQualityConvergence(0, false)); |
| EXPECT_CALL(*adapter_ptr, UpdateLayerQualityConvergence(1, false)); |
| factory.DepleteTaskQueues(); |
| Mock::VerifyAndClearExpectations(adapter_ptr); |
| Mock::VerifyAndClearExpectations(&factory.GetMockFakeEncoder()); |
| |
| // Pass a frame which converges in layer 0 and not in layer 1. |
| PassAFrame(encoder_queue, video_stream_encoder_callback, /*ntp_time_ms=*/2); |
| EXPECT_CALL(factory.GetMockFakeEncoder(), EncodeHook) |
| .WillRepeatedly(Invoke([](EncodedImage& encoded_image, |
| rtc::scoped_refptr<EncodedImageBuffer> buffer) { |
| // This sets simulcast index 0 content to be at target quality, while |
| // index 1 content is not. |
| encoded_image.qp_ = kVp8SteadyStateQpThreshold + |
| (encoded_image.SimulcastIndex() == 0 ? 0 : 1); |
| CodecSpecificInfo codec_specific; |
| codec_specific.codecType = kVideoCodecVP8; |
| return codec_specific; |
| })); |
| EXPECT_CALL(*adapter_ptr, UpdateLayerQualityConvergence(0, true)); |
| EXPECT_CALL(*adapter_ptr, UpdateLayerQualityConvergence(1, false)); |
| factory.DepleteTaskQueues(); |
| Mock::VerifyAndClearExpectations(adapter_ptr); |
| Mock::VerifyAndClearExpectations(&factory.GetMockFakeEncoder()); |
| } |
| |
| TEST(VideoStreamEncoderFrameCadenceTest, |
| RequestsRefreshFramesWhenCadenceAdapterInstructs) { |
| auto adapter = std::make_unique<MockFrameCadenceAdapter>(); |
| auto* adapter_ptr = adapter.get(); |
| MockVideoSourceInterface mock_source; |
| SimpleVideoStreamEncoderFactory factory; |
| FrameCadenceAdapterInterface::Callback* video_stream_encoder_callback = |
| nullptr; |
| EXPECT_CALL(*adapter_ptr, Initialize) |
| .WillOnce(Invoke([&video_stream_encoder_callback]( |
| FrameCadenceAdapterInterface::Callback* callback) { |
| video_stream_encoder_callback = callback; |
| })); |
| TaskQueueBase* encoder_queue = nullptr; |
| auto video_stream_encoder = |
| factory.Create(std::move(adapter), &encoder_queue); |
| video_stream_encoder->SetSource( |
| &mock_source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| VideoEncoderConfig config; |
| config.content_type = VideoEncoderConfig::ContentType::kScreen; |
| test::FillEncoderConfiguration(kVideoCodecVP8, 1, &config); |
| video_stream_encoder->ConfigureEncoder(std::move(config), 0); |
| PassAFrame(encoder_queue, video_stream_encoder_callback, /*ntp_time_ms=*/2); |
| // Ensure the encoder is set up. |
| factory.DepleteTaskQueues(); |
| |
| EXPECT_CALL(*adapter_ptr, ProcessKeyFrameRequest) |
| .WillOnce(Invoke([video_stream_encoder_callback] { |
| video_stream_encoder_callback->RequestRefreshFrame(); |
| })); |
| EXPECT_CALL(mock_source, RequestRefreshFrame); |
| video_stream_encoder->SendKeyFrame(); |
| factory.DepleteTaskQueues(); |
| Mock::VerifyAndClearExpectations(adapter_ptr); |
| Mock::VerifyAndClearExpectations(&mock_source); |
| |
| EXPECT_CALL(*adapter_ptr, ProcessKeyFrameRequest); |
| EXPECT_CALL(mock_source, RequestRefreshFrame).Times(0); |
| video_stream_encoder->SendKeyFrame(); |
| factory.DepleteTaskQueues(); |
| } |
| |
| TEST(VideoStreamEncoderFrameCadenceTest, |
| RequestsRefreshFrameForEarlyZeroHertzKeyFrameRequest) { |
| SimpleVideoStreamEncoderFactory factory; |
| auto encoder_queue = |
| factory.GetTimeController()->GetTaskQueueFactory()->CreateTaskQueue( |
| "EncoderQueue", TaskQueueFactory::Priority::NORMAL); |
| |
| test::ScopedKeyValueConfig field_trials; |
| auto adapter = FrameCadenceAdapterInterface::Create( |
| factory.GetTimeController()->GetClock(), encoder_queue.get(), |
| /*metronome=*/nullptr, /*worker_queue=*/nullptr, field_trials); |
| FrameCadenceAdapterInterface* adapter_ptr = adapter.get(); |
| |
| MockVideoSourceInterface mock_source; |
| auto video_stream_encoder = factory.CreateWithEncoderQueue( |
| std::move(adapter), std::move(encoder_queue), &field_trials); |
| |
| video_stream_encoder->SetSource( |
| &mock_source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| VideoEncoderConfig config; |
| config.content_type = VideoEncoderConfig::ContentType::kScreen; |
| test::FillEncoderConfiguration(kVideoCodecVP8, 1, &config); |
| video_stream_encoder->ConfigureEncoder(std::move(config), 0); |
| |
| // Eventually expect a refresh frame request when requesting a key frame |
| // before initializing zero-hertz mode. This can happen in reality because the |
| // threads invoking key frame requests and constraints setup aren't |
| // synchronized. |
| EXPECT_CALL(mock_source, RequestRefreshFrame); |
| video_stream_encoder->SendKeyFrame(); |
| constexpr int kMaxFps = 30; |
| adapter_ptr->OnConstraintsChanged(VideoTrackSourceConstraints{0, kMaxFps}); |
| factory.GetTimeController()->AdvanceTime( |
| TimeDelta::Seconds(1) * |
| FrameCadenceAdapterInterface::kOnDiscardedFrameRefreshFramePeriod / |
| kMaxFps); |
| } |
| |
| class VideoStreamEncoderFrameCadenceRestrictionTest : public ::testing::Test { |
| public: |
| VideoStreamEncoderFrameCadenceRestrictionTest() |
| : adapter_ptr_(adapter_.get()), |
| fake_resource_(FakeResource::Create("FakeResource")), |
| video_stream_encoder_( |
| factory_.Create(std::move(adapter_), &encoder_queue_)) {} |
| |
| ~VideoStreamEncoderFrameCadenceRestrictionTest() { |
| factory_.DepleteTaskQueues(); |
| } |
| |
| void UpdateVideoSourceRestrictions(VideoSourceRestrictions restrictions) { |
| encoder_queue_->PostTask([this, restrictions] { |
| RTC_DCHECK_RUN_ON(encoder_queue_); |
| video_stream_encoder_->OnVideoSourceRestrictionsUpdated( |
| restrictions, VideoAdaptationCounters(), fake_resource_, |
| VideoSourceRestrictions()); |
| }); |
| } |
| |
| protected: |
| SimpleVideoStreamEncoderFactory factory_; |
| std::unique_ptr<NiceMock<MockFrameCadenceAdapter>> adapter_{ |
| std::make_unique<NiceMock<MockFrameCadenceAdapter>>()}; |
| NiceMock<MockFrameCadenceAdapter>* adapter_ptr_; |
| TaskQueueBase* encoder_queue_{nullptr}; |
| rtc::scoped_refptr<FakeResource> fake_resource_; |
| VideoSourceRestrictions restrictions_; |
| std::unique_ptr<SimpleVideoStreamEncoderFactory::AdaptedVideoStreamEncoder> |
| video_stream_encoder_; |
| }; |
| |
| TEST_F(VideoStreamEncoderFrameCadenceRestrictionTest, |
| UpdatesVideoSourceRestrictionsUnRestricted) { |
| EXPECT_CALL(*adapter_ptr_, UpdateVideoSourceRestrictions(Eq(std::nullopt))); |
| UpdateVideoSourceRestrictions(VideoSourceRestrictions()); |
| } |
| |
| TEST_F(VideoStreamEncoderFrameCadenceRestrictionTest, |
| UpdatesVideoSourceRestrictionsWithMaxFrameRateRestriction) { |
| restrictions_.set_max_frame_rate(20); |
| EXPECT_CALL(*adapter_ptr_, UpdateVideoSourceRestrictions(Optional(20))); |
| UpdateVideoSourceRestrictions(restrictions_); |
| } |
| |
| TEST_F(VideoStreamEncoderFrameCadenceRestrictionTest, |
| UpdatesVideoSourceRestrictionsWithoutMaxFrameRateRestriction) { |
| // Restrictions in resolution count as restriction updated, even though the |
| // FPS is unlimited. |
| restrictions_.set_max_pixels_per_frame(99); |
| restrictions_.set_target_pixels_per_frame(101); |
| EXPECT_CALL(*adapter_ptr_, UpdateVideoSourceRestrictions(Eq(std::nullopt))); |
| UpdateVideoSourceRestrictions(restrictions_); |
| } |
| |
| } // namespace webrtc |