| /* |
| * 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 <limits> |
| #include <memory> |
| #include <utility> |
| |
| #include "api/task_queue/default_task_queue_factory.h" |
| #include "api/video/builtin_video_bitrate_allocator_factory.h" |
| #include "api/video/i420_buffer.h" |
| #include "api/video/video_bitrate_allocation.h" |
| #include "api/video_codecs/vp8_temporal_layers.h" |
| #include "api/video_codecs/vp8_temporal_layers_factory.h" |
| #include "media/base/video_adapter.h" |
| #include "modules/video_coding/codecs/vp9/include/vp9_globals.h" |
| #include "modules/video_coding/utility/default_video_bitrate_allocator.h" |
| #include "modules/video_coding/utility/simulcast_rate_allocator.h" |
| #include "rtc_base/fake_clock.h" |
| #include "rtc_base/logging.h" |
| #include "rtc_base/ref_counted_object.h" |
| #include "system_wrappers/include/field_trial.h" |
| #include "system_wrappers/include/metrics.h" |
| #include "system_wrappers/include/sleep.h" |
| #include "test/encoder_settings.h" |
| #include "test/fake_encoder.h" |
| #include "test/field_trial.h" |
| #include "test/frame_generator.h" |
| #include "test/gmock.h" |
| #include "test/gtest.h" |
| #include "test/video_encoder_proxy_factory.h" |
| #include "video/send_statistics_proxy.h" |
| |
| namespace webrtc { |
| |
| using ScaleReason = AdaptationObserverInterface::AdaptReason; |
| using ::testing::_; |
| |
| namespace { |
| const int kMinPixelsPerFrame = 320 * 180; |
| const int kMinFramerateFps = 2; |
| const int kMinBalancedFramerateFps = 7; |
| const int64_t kFrameTimeoutMs = 100; |
| const size_t kMaxPayloadLength = 1440; |
| const uint32_t kTargetBitrateBps = 1000000; |
| const uint32_t kSimulcastTargetBitrateBps = 3150000; |
| const uint32_t kLowTargetBitrateBps = kTargetBitrateBps / 10; |
| const int kMaxInitialFramedrop = 4; |
| const int kDefaultFramerate = 30; |
| const int64_t kFrameIntervalMs = rtc::kNumMillisecsPerSec / kDefaultFramerate; |
| |
| class TestBuffer : public webrtc::I420Buffer { |
| public: |
| TestBuffer(rtc::Event* event, int width, int height) |
| : I420Buffer(width, height), event_(event) {} |
| |
| private: |
| friend class rtc::RefCountedObject<TestBuffer>; |
| ~TestBuffer() override { |
| if (event_) |
| event_->Set(); |
| } |
| rtc::Event* const event_; |
| }; |
| |
| class CpuOveruseDetectorProxy : public OveruseFrameDetector { |
| public: |
| explicit CpuOveruseDetectorProxy(CpuOveruseMetricsObserver* metrics_observer) |
| : OveruseFrameDetector(metrics_observer), |
| last_target_framerate_fps_(-1) {} |
| virtual ~CpuOveruseDetectorProxy() {} |
| |
| void OnTargetFramerateUpdated(int framerate_fps) override { |
| rtc::CritScope cs(&lock_); |
| last_target_framerate_fps_ = framerate_fps; |
| OveruseFrameDetector::OnTargetFramerateUpdated(framerate_fps); |
| } |
| |
| int GetLastTargetFramerate() { |
| rtc::CritScope cs(&lock_); |
| return last_target_framerate_fps_; |
| } |
| |
| CpuOveruseOptions GetOptions() { return options_; } |
| |
| private: |
| rtc::CriticalSection lock_; |
| int last_target_framerate_fps_ RTC_GUARDED_BY(lock_); |
| }; |
| |
| class VideoStreamEncoderUnderTest : public VideoStreamEncoder { |
| public: |
| VideoStreamEncoderUnderTest(SendStatisticsProxy* stats_proxy, |
| const VideoStreamEncoderSettings& settings, |
| TaskQueueFactory* task_queue_factory) |
| : VideoStreamEncoder(Clock::GetRealTimeClock(), |
| 1 /* number_of_cores */, |
| stats_proxy, |
| settings, |
| std::unique_ptr<OveruseFrameDetector>( |
| overuse_detector_proxy_ = |
| new CpuOveruseDetectorProxy(stats_proxy)), |
| task_queue_factory) {} |
| |
| void PostTaskAndWait(bool down, AdaptReason reason) { |
| rtc::Event event; |
| encoder_queue()->PostTask([this, &event, reason, down] { |
| down ? AdaptDown(reason) : AdaptUp(reason); |
| event.Set(); |
| }); |
| ASSERT_TRUE(event.Wait(5000)); |
| } |
| |
| // 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() { |
| rtc::Event event; |
| encoder_queue()->PostTask([&event] { event.Set(); }); |
| ASSERT_TRUE(event.Wait(5000)); |
| } |
| |
| void TriggerCpuOveruse() { PostTaskAndWait(true, AdaptReason::kCpu); } |
| |
| void TriggerCpuNormalUsage() { PostTaskAndWait(false, AdaptReason::kCpu); } |
| |
| void TriggerQualityLow() { PostTaskAndWait(true, AdaptReason::kQuality); } |
| |
| void TriggerQualityHigh() { PostTaskAndWait(false, AdaptReason::kQuality); } |
| |
| CpuOveruseDetectorProxy* overuse_detector_proxy_; |
| }; |
| |
| class VideoStreamFactory |
| : public VideoEncoderConfig::VideoStreamFactoryInterface { |
| public: |
| explicit VideoStreamFactory(size_t num_temporal_layers, int framerate) |
| : num_temporal_layers_(num_temporal_layers), framerate_(framerate) { |
| EXPECT_GT(num_temporal_layers, 0u); |
| EXPECT_GT(framerate, 0); |
| } |
| |
| private: |
| std::vector<VideoStream> CreateEncoderStreams( |
| int width, |
| int height, |
| const VideoEncoderConfig& encoder_config) override { |
| std::vector<VideoStream> streams = |
| test::CreateVideoStreams(width, height, encoder_config); |
| for (VideoStream& stream : streams) { |
| stream.num_temporal_layers = num_temporal_layers_; |
| stream.max_framerate = framerate_; |
| } |
| return streams; |
| } |
| |
| const size_t num_temporal_layers_; |
| const int framerate_; |
| }; |
| |
| class AdaptingFrameForwarder : public test::FrameForwarder { |
| public: |
| AdaptingFrameForwarder() : adaptation_enabled_(false) {} |
| ~AdaptingFrameForwarder() override {} |
| |
| void set_adaptation_enabled(bool enabled) { |
| rtc::CritScope cs(&crit_); |
| adaptation_enabled_ = enabled; |
| } |
| |
| bool adaption_enabled() const { |
| rtc::CritScope cs(&crit_); |
| return adaptation_enabled_; |
| } |
| |
| rtc::VideoSinkWants last_wants() const { |
| rtc::CritScope cs(&crit_); |
| return last_wants_; |
| } |
| |
| absl::optional<int> last_sent_width() const { return last_width_; } |
| absl::optional<int> last_sent_height() const { return last_height_; } |
| |
| void IncomingCapturedFrame(const VideoFrame& video_frame) override { |
| int cropped_width = 0; |
| int cropped_height = 0; |
| int out_width = 0; |
| int out_height = 0; |
| if (adaption_enabled()) { |
| 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(new rtc::RefCountedObject<TestBuffer>( |
| nullptr, out_width, out_height)) |
| .set_timestamp_rtp(99) |
| .set_timestamp_ms(99) |
| .set_rotation(kVideoRotation_0) |
| .build(); |
| adapted_frame.set_ntp_time_ms(video_frame.ntp_time_ms()); |
| test::FrameForwarder::IncomingCapturedFrame(adapted_frame); |
| last_width_.emplace(adapted_frame.width()); |
| last_height_.emplace(adapted_frame.height()); |
| } else { |
| last_width_ = absl::nullopt; |
| last_height_ = absl::nullopt; |
| } |
| } else { |
| test::FrameForwarder::IncomingCapturedFrame(video_frame); |
| last_width_.emplace(video_frame.width()); |
| last_height_.emplace(video_frame.height()); |
| } |
| } |
| |
| void AddOrUpdateSink(rtc::VideoSinkInterface<VideoFrame>* sink, |
| const rtc::VideoSinkWants& wants) override { |
| rtc::CritScope cs(&crit_); |
| last_wants_ = sink_wants(); |
| adapter_.OnResolutionFramerateRequest(wants.target_pixel_count, |
| wants.max_pixel_count, |
| wants.max_framerate_fps); |
| test::FrameForwarder::AddOrUpdateSink(sink, wants); |
| } |
| cricket::VideoAdapter adapter_; |
| bool adaptation_enabled_ RTC_GUARDED_BY(crit_); |
| rtc::VideoSinkWants last_wants_ RTC_GUARDED_BY(crit_); |
| absl::optional<int> last_width_; |
| absl::optional<int> last_height_; |
| }; |
| |
| // TODO(nisse): Mock only VideoStreamEncoderObserver. |
| class MockableSendStatisticsProxy : public SendStatisticsProxy { |
| public: |
| MockableSendStatisticsProxy(Clock* clock, |
| const VideoSendStream::Config& config, |
| VideoEncoderConfig::ContentType content_type) |
| : SendStatisticsProxy(clock, config, content_type) {} |
| |
| VideoSendStream::Stats GetStats() override { |
| rtc::CritScope cs(&lock_); |
| if (mock_stats_) |
| return *mock_stats_; |
| return SendStatisticsProxy::GetStats(); |
| } |
| |
| int GetInputFrameRate() const override { |
| rtc::CritScope cs(&lock_); |
| if (mock_stats_) |
| return mock_stats_->input_frame_rate; |
| return SendStatisticsProxy::GetInputFrameRate(); |
| } |
| void SetMockStats(const VideoSendStream::Stats& stats) { |
| rtc::CritScope cs(&lock_); |
| mock_stats_.emplace(stats); |
| } |
| |
| void ResetMockStats() { |
| rtc::CritScope cs(&lock_); |
| mock_stats_.reset(); |
| } |
| |
| private: |
| rtc::CriticalSection lock_; |
| absl::optional<VideoSendStream::Stats> mock_stats_ RTC_GUARDED_BY(lock_); |
| }; |
| |
| class MockBitrateObserver : public VideoBitrateAllocationObserver { |
| public: |
| MOCK_METHOD1(OnBitrateAllocationUpdated, void(const VideoBitrateAllocation&)); |
| }; |
| |
| } // namespace |
| |
| class VideoStreamEncoderTest : public ::testing::Test { |
| public: |
| static const int kDefaultTimeoutMs = 30 * 1000; |
| |
| VideoStreamEncoderTest() |
| : video_send_config_(VideoSendStream::Config(nullptr)), |
| codec_width_(320), |
| codec_height_(240), |
| max_framerate_(kDefaultFramerate), |
| task_queue_factory_(CreateDefaultTaskQueueFactory()), |
| fake_encoder_(), |
| encoder_factory_(&fake_encoder_), |
| bitrate_allocator_factory_(CreateBuiltinVideoBitrateAllocatorFactory()), |
| stats_proxy_(new MockableSendStatisticsProxy( |
| Clock::GetRealTimeClock(), |
| video_send_config_, |
| webrtc::VideoEncoderConfig::ContentType::kRealtimeVideo)), |
| sink_(&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_.get(); |
| 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); |
| video_encoder_config.video_stream_factory = |
| new rtc::RefCountedObject<VideoStreamFactory>(1, max_framerate_); |
| video_encoder_config_ = video_encoder_config.Copy(); |
| |
| // Framerate limit is specified by the VideoStreamFactory. |
| std::vector<VideoStream> streams = |
| video_encoder_config.video_stream_factory->CreateEncoderStreams( |
| codec_width_, codec_height_, video_encoder_config); |
| max_framerate_ = streams[0].max_framerate; |
| fake_clock_.SetTimeMicros(1234); |
| |
| ConfigureEncoder(std::move(video_encoder_config)); |
| } |
| |
| void ConfigureEncoder(VideoEncoderConfig video_encoder_config) { |
| if (video_stream_encoder_) |
| video_stream_encoder_->Stop(); |
| video_stream_encoder_.reset(new VideoStreamEncoderUnderTest( |
| stats_proxy_.get(), video_send_config_.encoder_settings, |
| task_queue_factory_.get())); |
| video_stream_encoder_->SetSink(&sink_, false /* rotation_applied */); |
| video_stream_encoder_->SetSource( |
| &video_source_, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| video_stream_encoder_->SetStartBitrate(kTargetBitrateBps); |
| video_stream_encoder_->ConfigureEncoder(std::move(video_encoder_config), |
| kMaxPayloadLength); |
| 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) { |
| video_send_config_.rtp.payload_name = payload_name; |
| |
| VideoEncoderConfig video_encoder_config; |
| video_encoder_config.codec_type = PayloadStringToCodecType(payload_name); |
| video_encoder_config.number_of_streams = num_streams; |
| video_encoder_config.max_bitrate_bps = |
| num_streams == 1 ? kTargetBitrateBps : kSimulcastTargetBitrateBps; |
| video_encoder_config.video_stream_factory = |
| new rtc::RefCountedObject<VideoStreamFactory>(num_temporal_layers, |
| kDefaultFramerate); |
| 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; |
| video_encoder_config.encoder_specific_settings = |
| new rtc::RefCountedObject< |
| VideoEncoderConfig::Vp9EncoderSpecificSettings>(vp9_settings); |
| } |
| ConfigureEncoder(std::move(video_encoder_config)); |
| } |
| |
| VideoFrame CreateFrame(int64_t ntp_time_ms, |
| rtc::Event* destruction_event) const { |
| VideoFrame frame = |
| VideoFrame::Builder() |
| .set_video_frame_buffer(new rtc::RefCountedObject<TestBuffer>( |
| destruction_event, codec_width_, codec_height_)) |
| .set_timestamp_rtp(99) |
| .set_timestamp_ms(99) |
| .set_rotation(kVideoRotation_0) |
| .build(); |
| frame.set_ntp_time_ms(ntp_time_ms); |
| return frame; |
| } |
| |
| VideoFrame CreateFrameWithUpdatedPixel(int64_t ntp_time_ms, |
| rtc::Event* destruction_event, |
| int offset_x) const { |
| VideoFrame frame = |
| VideoFrame::Builder() |
| .set_video_frame_buffer(new rtc::RefCountedObject<TestBuffer>( |
| destruction_event, codec_width_, codec_height_)) |
| .set_timestamp_rtp(99) |
| .set_timestamp_ms(99) |
| .set_rotation(kVideoRotation_0) |
| .set_update_rect({offset_x, 0, 1, 1}) |
| .build(); |
| frame.set_ntp_time_ms(ntp_time_ms); |
| return frame; |
| } |
| |
| VideoFrame CreateFrame(int64_t ntp_time_ms, int width, int height) const { |
| VideoFrame frame = |
| VideoFrame::Builder() |
| .set_video_frame_buffer( |
| new rtc::RefCountedObject<TestBuffer>(nullptr, width, height)) |
| .set_timestamp_rtp(99) |
| .set_timestamp_ms(99) |
| .set_rotation(kVideoRotation_0) |
| .build(); |
| frame.set_ntp_time_ms(ntp_time_ms); |
| frame.set_timestamp_us(ntp_time_ms * 1000); |
| return frame; |
| } |
| |
| void VerifyAllocatedBitrate(const VideoBitrateAllocation& expected_bitrate) { |
| MockBitrateObserver bitrate_observer; |
| video_stream_encoder_->SetBitrateAllocationObserver(&bitrate_observer); |
| |
| EXPECT_CALL(bitrate_observer, OnBitrateAllocationUpdated(expected_bitrate)) |
| .Times(1); |
| video_stream_encoder_->OnBitrateUpdated(DataRate::bps(kTargetBitrateBps), |
| DataRate::bps(kTargetBitrateBps), 0, |
| 0); |
| |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(1, codec_width_, codec_height_)); |
| WaitForEncodedFrame(1); |
| } |
| |
| void VerifyNoLimitation(const rtc::VideoSinkWants& wants) { |
| EXPECT_EQ(std::numeric_limits<int>::max(), wants.max_framerate_fps); |
| EXPECT_EQ(std::numeric_limits<int>::max(), wants.max_pixel_count); |
| EXPECT_FALSE(wants.target_pixel_count); |
| } |
| |
| void VerifyFpsEqResolutionEq(const rtc::VideoSinkWants& wants1, |
| const rtc::VideoSinkWants& wants2) { |
| EXPECT_EQ(wants1.max_framerate_fps, wants2.max_framerate_fps); |
| EXPECT_EQ(wants1.max_pixel_count, wants2.max_pixel_count); |
| } |
| |
| void VerifyFpsMaxResolutionMax(const rtc::VideoSinkWants& wants) { |
| EXPECT_EQ(kDefaultFramerate, wants.max_framerate_fps); |
| EXPECT_EQ(std::numeric_limits<int>::max(), wants.max_pixel_count); |
| EXPECT_FALSE(wants.target_pixel_count); |
| } |
| |
| void VerifyFpsMaxResolutionLt(const rtc::VideoSinkWants& wants1, |
| const rtc::VideoSinkWants& wants2) { |
| EXPECT_EQ(kDefaultFramerate, wants1.max_framerate_fps); |
| EXPECT_LT(wants1.max_pixel_count, wants2.max_pixel_count); |
| EXPECT_GT(wants1.max_pixel_count, 0); |
| } |
| |
| void VerifyFpsMaxResolutionGt(const rtc::VideoSinkWants& wants1, |
| const rtc::VideoSinkWants& wants2) { |
| EXPECT_EQ(kDefaultFramerate, wants1.max_framerate_fps); |
| EXPECT_GT(wants1.max_pixel_count, wants2.max_pixel_count); |
| } |
| |
| void VerifyFpsMaxResolutionEq(const rtc::VideoSinkWants& wants1, |
| const rtc::VideoSinkWants& wants2) { |
| EXPECT_EQ(kDefaultFramerate, wants1.max_framerate_fps); |
| EXPECT_EQ(wants1.max_pixel_count, wants2.max_pixel_count); |
| } |
| |
| void VerifyFpsLtResolutionEq(const rtc::VideoSinkWants& wants1, |
| const rtc::VideoSinkWants& wants2) { |
| EXPECT_LT(wants1.max_framerate_fps, wants2.max_framerate_fps); |
| EXPECT_EQ(wants1.max_pixel_count, wants2.max_pixel_count); |
| } |
| |
| void VerifyFpsGtResolutionEq(const rtc::VideoSinkWants& wants1, |
| const rtc::VideoSinkWants& wants2) { |
| EXPECT_GT(wants1.max_framerate_fps, wants2.max_framerate_fps); |
| EXPECT_EQ(wants1.max_pixel_count, wants2.max_pixel_count); |
| } |
| |
| void VerifyFpsEqResolutionLt(const rtc::VideoSinkWants& wants1, |
| const rtc::VideoSinkWants& wants2) { |
| EXPECT_EQ(wants1.max_framerate_fps, wants2.max_framerate_fps); |
| EXPECT_LT(wants1.max_pixel_count, wants2.max_pixel_count); |
| EXPECT_GT(wants1.max_pixel_count, 0); |
| } |
| |
| void VerifyFpsEqResolutionGt(const rtc::VideoSinkWants& wants1, |
| const rtc::VideoSinkWants& wants2) { |
| EXPECT_EQ(wants1.max_framerate_fps, wants2.max_framerate_fps); |
| EXPECT_GT(wants1.max_pixel_count, wants2.max_pixel_count); |
| } |
| |
| void VerifyFpsMaxResolutionLt(const rtc::VideoSinkWants& wants, |
| int pixel_count) { |
| EXPECT_EQ(kDefaultFramerate, wants.max_framerate_fps); |
| EXPECT_LT(wants.max_pixel_count, pixel_count); |
| EXPECT_GT(wants.max_pixel_count, 0); |
| } |
| |
| void VerifyFpsLtResolutionMax(const rtc::VideoSinkWants& wants, int fps) { |
| EXPECT_LT(wants.max_framerate_fps, fps); |
| EXPECT_EQ(std::numeric_limits<int>::max(), wants.max_pixel_count); |
| EXPECT_FALSE(wants.target_pixel_count); |
| } |
| |
| void VerifyFpsEqResolutionMax(const rtc::VideoSinkWants& wants, |
| int expected_fps) { |
| EXPECT_EQ(expected_fps, wants.max_framerate_fps); |
| EXPECT_EQ(std::numeric_limits<int>::max(), wants.max_pixel_count); |
| EXPECT_FALSE(wants.target_pixel_count); |
| } |
| |
| void VerifyBalancedModeFpsRange(const rtc::VideoSinkWants& wants, |
| int last_frame_pixels) { |
| // Balanced mode should always scale FPS to the desired range before |
| // attempting to scale resolution. |
| int fps_limit = wants.max_framerate_fps; |
| if (last_frame_pixels <= 320 * 240) { |
| EXPECT_TRUE(7 <= fps_limit && fps_limit <= 10); |
| } else if (last_frame_pixels <= 480 * 270) { |
| EXPECT_TRUE(10 <= fps_limit && fps_limit <= 15); |
| } else if (last_frame_pixels <= 640 * 480) { |
| EXPECT_LE(15, fps_limit); |
| } else { |
| EXPECT_EQ(kDefaultFramerate, fps_limit); |
| } |
| } |
| |
| void WaitForEncodedFrame(int64_t expected_ntp_time) { |
| sink_.WaitForEncodedFrame(expected_ntp_time); |
| fake_clock_.AdvanceTimeMicros(rtc::kNumMicrosecsPerSec / max_framerate_); |
| } |
| |
| bool TimedWaitForEncodedFrame(int64_t expected_ntp_time, int64_t timeout_ms) { |
| bool ok = sink_.TimedWaitForEncodedFrame(expected_ntp_time, timeout_ms); |
| fake_clock_.AdvanceTimeMicros(rtc::kNumMicrosecsPerSec / max_framerate_); |
| return ok; |
| } |
| |
| void WaitForEncodedFrame(uint32_t expected_width, uint32_t expected_height) { |
| sink_.WaitForEncodedFrame(expected_width, expected_height); |
| fake_clock_.AdvanceTimeMicros(rtc::kNumMicrosecsPerSec / max_framerate_); |
| } |
| |
| void ExpectDroppedFrame() { |
| sink_.ExpectDroppedFrame(); |
| fake_clock_.AdvanceTimeMicros(rtc::kNumMicrosecsPerSec / max_framerate_); |
| } |
| |
| bool WaitForFrame(int64_t timeout_ms) { |
| bool ok = sink_.WaitForFrame(timeout_ms); |
| fake_clock_.AdvanceTimeMicros(rtc::kNumMicrosecsPerSec / max_framerate_); |
| return ok; |
| } |
| |
| class TestEncoder : public test::FakeEncoder { |
| public: |
| TestEncoder() : FakeEncoder(Clock::GetRealTimeClock()) {} |
| |
| VideoCodec codec_config() const { |
| rtc::CritScope lock(&crit_sect_); |
| return config_; |
| } |
| |
| void BlockNextEncode() { |
| rtc::CritScope lock(&local_crit_sect_); |
| block_next_encode_ = true; |
| } |
| |
| VideoEncoder::EncoderInfo GetEncoderInfo() const override { |
| rtc::CritScope lock(&local_crit_sect_); |
| EncoderInfo info; |
| if (initialized_ == EncoderState::kInitialized) { |
| if (quality_scaling_) { |
| info.scaling_settings = |
| VideoEncoder::ScalingSettings(1, 2, kMinPixelsPerFrame); |
| } |
| info.is_hardware_accelerated = is_hardware_accelerated_; |
| for (int i = 0; i < kMaxSpatialLayers; ++i) { |
| if (temporal_layers_supported_[i]) { |
| int num_layers = temporal_layers_supported_[i].value() ? 2 : 1; |
| info.fps_allocation[i].resize(num_layers); |
| } |
| } |
| } |
| return info; |
| } |
| |
| int32_t RegisterEncodeCompleteCallback( |
| EncodedImageCallback* callback) override { |
| rtc::CritScope lock(&local_crit_sect_); |
| 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 { |
| rtc::CritScope lock(&local_crit_sect_); |
| EXPECT_EQ(timestamp_, timestamp); |
| EXPECT_EQ(ntp_time_ms_, ntp_time_ms); |
| } |
| |
| void SetQualityScaling(bool b) { |
| rtc::CritScope lock(&local_crit_sect_); |
| quality_scaling_ = b; |
| } |
| |
| void SetIsHardwareAccelerated(bool is_hardware_accelerated) { |
| rtc::CritScope lock(&local_crit_sect_); |
| is_hardware_accelerated_ = is_hardware_accelerated; |
| } |
| |
| void SetTemporalLayersSupported(size_t spatial_idx, bool supported) { |
| RTC_DCHECK_LT(spatial_idx, kMaxSpatialLayers); |
| rtc::CritScope lock(&local_crit_sect_); |
| temporal_layers_supported_[spatial_idx] = supported; |
| } |
| |
| void ForceInitEncodeFailure(bool force_failure) { |
| rtc::CritScope lock(&local_crit_sect_); |
| force_init_encode_failed_ = force_failure; |
| } |
| |
| void SimulateOvershoot(double rate_factor) { |
| rtc::CritScope lock(&local_crit_sect_); |
| rate_factor_ = rate_factor; |
| } |
| |
| uint32_t GetLastFramerate() const { |
| rtc::CritScope lock(&local_crit_sect_); |
| return last_framerate_; |
| } |
| |
| VideoFrame::UpdateRect GetLastUpdateRect() const { |
| rtc::CritScope lock(&local_crit_sect_); |
| return last_update_rect_; |
| } |
| |
| const std::vector<VideoFrameType>& LastFrameTypes() const { |
| rtc::CritScope lock(&local_crit_sect_); |
| return last_frame_types_; |
| } |
| |
| void InjectFrame(const VideoFrame& input_image, bool keyframe) { |
| const std::vector<VideoFrameType> frame_type = { |
| keyframe ? VideoFrameType::kVideoFrameKey |
| : VideoFrameType::kVideoFrameDelta}; |
| { |
| rtc::CritScope lock(&local_crit_sect_); |
| last_frame_types_ = frame_type; |
| } |
| FakeEncoder::Encode(input_image, &frame_type); |
| } |
| |
| void InjectEncodedImage(const EncodedImage& image) { |
| rtc::CritScope lock(&local_crit_sect_); |
| encoded_image_callback_->OnEncodedImage(image, nullptr, nullptr); |
| } |
| |
| void ExpectNullFrame() { |
| rtc::CritScope lock(&local_crit_sect_); |
| expect_null_frame_ = true; |
| } |
| |
| absl::optional<VideoBitrateAllocation> GetAndResetLastBitrateAllocation() { |
| auto allocation = last_bitrate_allocation_; |
| last_bitrate_allocation_.reset(); |
| return allocation; |
| } |
| |
| private: |
| int32_t Encode(const VideoFrame& input_image, |
| const std::vector<VideoFrameType>* frame_types) override { |
| bool block_encode; |
| { |
| rtc::CritScope lock(&local_crit_sect_); |
| if (expect_null_frame_) { |
| EXPECT_EQ(input_image.timestamp(), 0u); |
| EXPECT_EQ(input_image.width(), 1); |
| last_frame_types_ = *frame_types; |
| expect_null_frame_ = false; |
| } else { |
| EXPECT_GT(input_image.timestamp(), timestamp_); |
| EXPECT_GT(input_image.ntp_time_ms(), ntp_time_ms_); |
| EXPECT_EQ(input_image.timestamp(), input_image.ntp_time_ms() * 90); |
| } |
| |
| timestamp_ = input_image.timestamp(); |
| ntp_time_ms_ = input_image.ntp_time_ms(); |
| last_input_width_ = input_image.width(); |
| last_input_height_ = input_image.height(); |
| block_encode = block_next_encode_; |
| block_next_encode_ = false; |
| last_update_rect_ = input_image.update_rect(); |
| last_frame_types_ = *frame_types; |
| } |
| int32_t result = FakeEncoder::Encode(input_image, frame_types); |
| if (block_encode) |
| EXPECT_TRUE(continue_encode_event_.Wait(kDefaultTimeoutMs)); |
| return result; |
| } |
| |
| int32_t InitEncode(const VideoCodec* config, |
| int32_t number_of_cores, |
| size_t max_payload_size) override { |
| int res = |
| FakeEncoder::InitEncode(config, number_of_cores, max_payload_size); |
| rtc::CritScope lock(&local_crit_sect_); |
| 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); |
| } |
| if (force_init_encode_failed_) { |
| initialized_ = EncoderState::kInitializationFailed; |
| return -1; |
| } |
| |
| initialized_ = EncoderState::kInitialized; |
| return res; |
| } |
| |
| int32_t Release() override { |
| rtc::CritScope lock(&local_crit_sect_); |
| EXPECT_NE(initialized_, EncoderState::kUninitialized); |
| initialized_ = EncoderState::kUninitialized; |
| return FakeEncoder::Release(); |
| } |
| |
| void SetRates(const RateControlParameters& parameters) { |
| rtc::CritScope lock(&local_crit_sect_); |
| 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_bitrate_allocation_ = parameters.bitrate; |
| RateControlParameters adjusted_paramters = parameters; |
| adjusted_paramters.bitrate = adjusted_rate_allocation; |
| FakeEncoder::SetRates(adjusted_paramters); |
| } |
| |
| rtc::CriticalSection local_crit_sect_; |
| enum class EncoderState { |
| kUninitialized, |
| kInitializationFailed, |
| kInitialized |
| } initialized_ RTC_GUARDED_BY(local_crit_sect_) = |
| EncoderState::kUninitialized; |
| bool block_next_encode_ RTC_GUARDED_BY(local_crit_sect_) = false; |
| rtc::Event continue_encode_event_; |
| uint32_t timestamp_ RTC_GUARDED_BY(local_crit_sect_) = 0; |
| int64_t ntp_time_ms_ RTC_GUARDED_BY(local_crit_sect_) = 0; |
| int last_input_width_ RTC_GUARDED_BY(local_crit_sect_) = 0; |
| int last_input_height_ RTC_GUARDED_BY(local_crit_sect_) = 0; |
| bool quality_scaling_ RTC_GUARDED_BY(local_crit_sect_) = true; |
| bool is_hardware_accelerated_ RTC_GUARDED_BY(local_crit_sect_) = false; |
| std::unique_ptr<Vp8FrameBufferController> frame_buffer_controller_ |
| RTC_GUARDED_BY(local_crit_sect_); |
| absl::optional<bool> |
| temporal_layers_supported_[kMaxSpatialLayers] RTC_GUARDED_BY( |
| local_crit_sect_); |
| bool force_init_encode_failed_ RTC_GUARDED_BY(local_crit_sect_) = false; |
| double rate_factor_ RTC_GUARDED_BY(local_crit_sect_) = 1.0; |
| uint32_t last_framerate_ RTC_GUARDED_BY(local_crit_sect_) = 0; |
| absl::optional<VideoBitrateAllocation> last_bitrate_allocation_; |
| VideoFrame::UpdateRect last_update_rect_ |
| RTC_GUARDED_BY(local_crit_sect_) = {0, 0, 0, 0}; |
| std::vector<VideoFrameType> last_frame_types_; |
| bool expect_null_frame_ = false; |
| EncodedImageCallback* encoded_image_callback_ |
| RTC_GUARDED_BY(local_crit_sect_) = nullptr; |
| }; |
| |
| class TestSink : public VideoStreamEncoder::EncoderSink { |
| public: |
| explicit TestSink(TestEncoder* test_encoder) |
| : test_encoder_(test_encoder) {} |
| |
| void WaitForEncodedFrame(int64_t expected_ntp_time) { |
| EXPECT_TRUE( |
| TimedWaitForEncodedFrame(expected_ntp_time, kDefaultTimeoutMs)); |
| } |
| |
| bool TimedWaitForEncodedFrame(int64_t expected_ntp_time, |
| int64_t timeout_ms) { |
| uint32_t timestamp = 0; |
| if (!encoded_frame_event_.Wait(timeout_ms)) |
| return false; |
| { |
| rtc::CritScope lock(&crit_); |
| timestamp = last_timestamp_; |
| } |
| test_encoder_->CheckLastTimeStampsMatch(expected_ntp_time, timestamp); |
| return true; |
| } |
| |
| void WaitForEncodedFrame(uint32_t expected_width, |
| uint32_t expected_height) { |
| EXPECT_TRUE(encoded_frame_event_.Wait(kDefaultTimeoutMs)); |
| CheckLastFrameSizeMatches(expected_width, expected_height); |
| } |
| |
| void CheckLastFrameSizeMatches(uint32_t expected_width, |
| uint32_t expected_height) { |
| uint32_t width = 0; |
| uint32_t height = 0; |
| { |
| rtc::CritScope lock(&crit_); |
| width = last_width_; |
| height = last_height_; |
| } |
| EXPECT_EQ(expected_height, height); |
| EXPECT_EQ(expected_width, width); |
| } |
| |
| void ExpectDroppedFrame() { EXPECT_FALSE(encoded_frame_event_.Wait(100)); } |
| |
| bool WaitForFrame(int64_t timeout_ms) { |
| return encoded_frame_event_.Wait(timeout_ms); |
| } |
| |
| void SetExpectNoFrames() { |
| rtc::CritScope lock(&crit_); |
| expect_frames_ = false; |
| } |
| |
| int number_of_reconfigurations() const { |
| rtc::CritScope lock(&crit_); |
| return number_of_reconfigurations_; |
| } |
| |
| int last_min_transmit_bitrate() const { |
| rtc::CritScope lock(&crit_); |
| return min_transmit_bitrate_bps_; |
| } |
| |
| void SetNumExpectedLayers(size_t num_layers) { |
| rtc::CritScope lock(&crit_); |
| num_expected_layers_ = num_layers; |
| } |
| |
| int64_t GetLastCaptureTimeMs() const { |
| rtc::CritScope lock(&crit_); |
| return last_capture_time_ms_; |
| } |
| |
| private: |
| Result OnEncodedImage( |
| const EncodedImage& encoded_image, |
| const CodecSpecificInfo* codec_specific_info, |
| const RTPFragmentationHeader* fragmentation) override { |
| rtc::CritScope lock(&crit_); |
| EXPECT_TRUE(expect_frames_); |
| uint32_t timestamp = encoded_image.Timestamp(); |
| if (last_timestamp_ != timestamp) { |
| num_received_layers_ = 1; |
| } else { |
| ++num_received_layers_; |
| } |
| last_timestamp_ = timestamp; |
| last_capture_time_ms_ = encoded_image.capture_time_ms_; |
| last_width_ = encoded_image._encodedWidth; |
| last_height_ = encoded_image._encodedHeight; |
| if (num_received_layers_ == num_expected_layers_) { |
| encoded_frame_event_.Set(); |
| } |
| return Result(Result::OK, last_timestamp_); |
| } |
| |
| void OnEncoderConfigurationChanged( |
| std::vector<VideoStream> streams, |
| VideoEncoderConfig::ContentType content_type, |
| int min_transmit_bitrate_bps) override { |
| rtc::CriticalSection crit_; |
| ++number_of_reconfigurations_; |
| min_transmit_bitrate_bps_ = min_transmit_bitrate_bps; |
| } |
| |
| rtc::CriticalSection crit_; |
| TestEncoder* test_encoder_; |
| rtc::Event encoded_frame_event_; |
| uint32_t last_timestamp_ = 0; |
| int64_t last_capture_time_ms_ = 0; |
| uint32_t last_height_ = 0; |
| uint32_t last_width_ = 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; |
| }; |
| |
| VideoSendStream::Config video_send_config_; |
| VideoEncoderConfig video_encoder_config_; |
| int codec_width_; |
| int codec_height_; |
| int max_framerate_; |
| const std::unique_ptr<TaskQueueFactory> task_queue_factory_; |
| TestEncoder fake_encoder_; |
| test::VideoEncoderProxyFactory encoder_factory_; |
| std::unique_ptr<VideoBitrateAllocatorFactory> bitrate_allocator_factory_; |
| std::unique_ptr<MockableSendStatisticsProxy> stats_proxy_; |
| TestSink sink_; |
| AdaptingFrameForwarder video_source_; |
| std::unique_ptr<VideoStreamEncoderUnderTest> video_stream_encoder_; |
| rtc::ScopedFakeClock fake_clock_; |
| }; |
| |
| TEST_F(VideoStreamEncoderTest, EncodeOneFrame) { |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| rtc::Event frame_destroyed_event; |
| video_source_.IncomingCapturedFrame(CreateFrame(1, &frame_destroyed_event)); |
| WaitForEncodedFrame(1); |
| EXPECT_TRUE(frame_destroyed_event.Wait(kDefaultTimeoutMs)); |
| 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. |
| video_source_.IncomingCapturedFrame(CreateFrame(1, &frame_destroyed_event)); |
| video_source_.IncomingCapturedFrame(CreateFrame(2, nullptr)); |
| EXPECT_TRUE(frame_destroyed_event.Wait(kDefaultTimeoutMs)); |
| |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| |
| // The pending frame should be received. |
| WaitForEncodedFrame(2); |
| video_source_.IncomingCapturedFrame(CreateFrame(3, nullptr)); |
| |
| WaitForEncodedFrame(3); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, DropsFramesWhenRateSetToZero) { |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| video_source_.IncomingCapturedFrame(CreateFrame(1, nullptr)); |
| WaitForEncodedFrame(1); |
| |
| video_stream_encoder_->OnBitrateUpdated(DataRate::bps(0), DataRate::bps(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. |
| video_source_.IncomingCapturedFrame(CreateFrame(2, nullptr)); |
| video_source_.IncomingCapturedFrame(CreateFrame(3, nullptr)); |
| |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| WaitForEncodedFrame(3); |
| video_source_.IncomingCapturedFrame(CreateFrame(4, nullptr)); |
| WaitForEncodedFrame(4); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, DropsFramesWithSameOrOldNtpTimestamp) { |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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(kDefaultTimeoutMs)); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, DropsPendingFramesOnSlowEncode) { |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| |
| fake_encoder_.BlockNextEncode(); |
| video_source_.IncomingCapturedFrame(CreateFrame(1, nullptr)); |
| WaitForEncodedFrame(1); |
| // Here, the encoder thread will be blocked in the TestEncoder waiting for a |
| // call to ContinueEncode. |
| video_source_.IncomingCapturedFrame(CreateFrame(2, nullptr)); |
| video_source_.IncomingCapturedFrame(CreateFrame(3, nullptr)); |
| fake_encoder_.ContinueEncode(); |
| WaitForEncodedFrame(3); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| ConfigureEncoderTriggersOnEncoderConfigurationChanged) { |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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_.codec_config().width); |
| EXPECT_EQ(codec_height_, fake_encoder_.codec_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_.codec_config().width); |
| EXPECT_EQ(codec_height_, fake_encoder_.codec_config().height); |
| EXPECT_EQ(2, sink_.number_of_reconfigurations()); |
| |
| 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, TestCpuDowngrades_BalancedMode) { |
| const int kFramerateFps = 30; |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| |
| // 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| video_stream_encoder_->SetSource(&video_source_, |
| webrtc::DegradationPreference::BALANCED); |
| VerifyNoLimitation(video_source_.sink_wants()); |
| 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(); |
| VerifyBalancedModeFpsRange( |
| video_source_.sink_wants(), |
| *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_->TriggerCpuNormalUsage(); |
| VerifyBalancedModeFpsRange( |
| video_source_.sink_wants(), |
| *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); |
| } |
| |
| VerifyFpsMaxResolutionMax(video_source_.sink_wants()); |
| 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, SinkWantsStoredByDegradationPreference) { |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| VerifyNoLimitation(video_source_.sink_wants()); |
| |
| 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_EQ(kDefaultFramerate, video_source_.sink_wants().max_framerate_fps); |
| |
| // Set new source, switch to maintain-resolution. |
| test::FrameForwarder new_video_source; |
| video_stream_encoder_->SetSource( |
| &new_video_source, webrtc::DegradationPreference::MAINTAIN_RESOLUTION); |
| |
| // Initially no degradation registered. |
| VerifyFpsMaxResolutionMax(new_video_source.sink_wants()); |
| |
| // 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_->SetSource(&new_video_source, |
| webrtc::DegradationPreference::DISABLED); |
| VerifyFpsMaxResolutionMax(new_video_source.sink_wants()); |
| |
| video_stream_encoder_->TriggerCpuOveruse(); |
| new_video_source.IncomingCapturedFrame( |
| CreateFrame(frame_timestamp, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(frame_timestamp); |
| frame_timestamp += kFrameIntervalMs; |
| |
| // Still no degradation. |
| VerifyFpsMaxResolutionMax(new_video_source.sink_wants()); |
| |
| // Calling SetSource with resolution scaling enabled apply the old SinkWants. |
| video_stream_encoder_->SetSource( |
| &new_video_source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| EXPECT_LT(new_video_source.sink_wants().max_pixel_count, |
| kFrameWidth * kFrameHeight); |
| EXPECT_FALSE(new_video_source.sink_wants().target_pixel_count); |
| EXPECT_EQ(kDefaultFramerate, new_video_source.sink_wants().max_framerate_fps); |
| |
| // Calling SetSource with framerate scaling enabled apply the old SinkWants. |
| video_stream_encoder_->SetSource( |
| &new_video_source, webrtc::DegradationPreference::MAINTAIN_RESOLUTION); |
| 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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_->TriggerCpuNormalUsage(); |
| 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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_->TriggerCpuNormalUsage(); |
| 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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) { |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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_->TriggerCpuNormalUsage(); |
| 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_->TriggerCpuNormalUsage(); |
| 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| |
| // Expect no scaling to begin with. |
| VerifyNoLimitation(video_source_.sink_wants()); |
| |
| 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| 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(); |
| VerifyFpsMaxResolutionLt(source.sink_wants(), 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| |
| // Trigger adapt down, expect scaled down resolution. |
| video_stream_encoder_->TriggerQualityLow(); |
| VerifyFpsMaxResolutionLt(source.sink_wants(), 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, |
| NoChangeForInitialNormalUsage_MaintainFramerateMode) { |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| 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_->TriggerCpuNormalUsage(); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| 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_->TriggerCpuNormalUsage(); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| 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(); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| 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(); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| |
| // Enable MAINTAIN_FRAMERATE preference, no initial limitation. |
| AdaptingFrameForwarder source; |
| source.set_adaptation_enabled(true); |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| |
| source.IncomingCapturedFrame(CreateFrame(1, kWidth, kHeight)); |
| WaitForEncodedFrame(1); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| 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); |
| VerifyFpsMaxResolutionLt(source.sink_wants(), 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(); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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); |
| VerifyFpsMaxResolutionMax(video_source_.sink_wants()); |
| |
| // Trigger adapt down, expect scaled down resolution. |
| video_stream_encoder_->TriggerQualityLow(); |
| video_source_.IncomingCapturedFrame(CreateFrame(2, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(2); |
| VerifyFpsMaxResolutionLt(video_source_.sink_wants(), kWidth * kHeight); |
| |
| // Enable MAINTAIN_RESOLUTION preference. |
| test::FrameForwarder new_video_source; |
| video_stream_encoder_->SetSource( |
| &new_video_source, webrtc::DegradationPreference::MAINTAIN_RESOLUTION); |
| VerifyFpsMaxResolutionMax(new_video_source.sink_wants()); |
| |
| // Trigger adapt down, expect reduced framerate. |
| video_stream_encoder_->TriggerQualityLow(); |
| new_video_source.IncomingCapturedFrame(CreateFrame(3, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(3); |
| VerifyFpsLtResolutionMax(new_video_source.sink_wants(), kInputFps); |
| |
| // Trigger adapt up, expect no restriction. |
| video_stream_encoder_->TriggerQualityHigh(); |
| VerifyFpsMaxResolutionMax(new_video_source.sink_wants()); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, DoesNotScaleBelowSetResolutionLimit) { |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| const size_t kNumFrames = 10; |
| |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| |
| // Enable MAINTAIN_FRAMERATE preference, no initial limitation. |
| AdaptingFrameForwarder source; |
| 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); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| 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); |
| VerifyFpsMaxResolutionLt(source.sink_wants(), 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_->TriggerCpuNormalUsage(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(kWidth, kHeight); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| 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); |
| VerifyFpsMaxResolutionLt(source.sink_wants(), 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_->TriggerCpuNormalUsage(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| sink_.WaitForEncodedFrame(kWidth, kHeight); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| |
| // Enable BALANCED preference, no initial limitation. |
| AdaptingFrameForwarder source; |
| 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); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| 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); |
| VerifyFpsMaxResolutionLt(source.sink_wants(), 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); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| 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); |
| VerifyFpsMaxResolutionLt(source.sink_wants(), 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); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| 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, |
| AdaptsResolutionOnOveruseAndLowQuality_MaintainFramerateMode) { |
| const int kWidth = 1280; |
| const int kHeight = 720; |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| |
| // Enable MAINTAIN_FRAMERATE preference, no initial limitation. |
| AdaptingFrameForwarder source; |
| 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); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| 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); |
| VerifyFpsMaxResolutionLt(source.sink_wants(), 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); |
| VerifyFpsMaxResolutionLt(source.sink_wants(), 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); |
| VerifyFpsMaxResolutionLt(source.sink_wants(), 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); |
| VerifyFpsMaxResolutionLt(source.sink_wants(), 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); |
| VerifyFpsMaxResolutionEq(source.sink_wants(), 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(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger cpu adapt up, expect upscaled resolution (480x270). |
| video_stream_encoder_->TriggerCpuNormalUsage(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| VerifyFpsMaxResolutionGt(source.sink_wants(), 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(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger cpu adapt up, expect upscaled resolution (640x360). |
| video_stream_encoder_->TriggerCpuNormalUsage(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| VerifyFpsMaxResolutionGt(source.sink_wants(), source.last_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(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger cpu adapt up, expect upscaled resolution (960x540). |
| video_stream_encoder_->TriggerCpuNormalUsage(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| VerifyFpsMaxResolutionGt(source.sink_wants(), source.last_wants()); |
| last_wants = source.sink_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(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger cpu adapt up, no cpu downgrades, expect no change (960x540). |
| video_stream_encoder_->TriggerCpuNormalUsage(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| VerifyFpsEqResolutionEq(source.sink_wants(), 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(1, 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); |
| VerifyFpsMaxResolutionGt(source.sink_wants(), source.last_wants()); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| 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(2, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, CpuLimitedHistogramIsReported) { |
| const int kWidth = 640; |
| const int kHeight = 360; |
| |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| |
| for (int i = 1; i <= SendStatisticsProxy::kMinRequiredMetricsSamples; ++i) { |
| video_source_.IncomingCapturedFrame(CreateFrame(i, kWidth, kHeight)); |
| WaitForEncodedFrame(i); |
| } |
| |
| video_stream_encoder_->TriggerCpuOveruse(); |
| for (int i = 1; i <= SendStatisticsProxy::kMinRequiredMetricsSamples; ++i) { |
| video_source_.IncomingCapturedFrame(CreateFrame( |
| SendStatisticsProxy::kMinRequiredMetricsSamples + i, kWidth, kHeight)); |
| WaitForEncodedFrame(SendStatisticsProxy::kMinRequiredMetricsSamples + i); |
| } |
| |
| video_stream_encoder_->Stop(); |
| video_stream_encoder_.reset(); |
| stats_proxy_.reset(); |
| |
| EXPECT_EQ(1, |
| metrics::NumSamples("WebRTC.Video.CpuLimitedResolutionInPercent")); |
| EXPECT_EQ( |
| 1, metrics::NumEvents("WebRTC.Video.CpuLimitedResolutionInPercent", 50)); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| CpuLimitedHistogramIsNotReportedForDisabledDegradation) { |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| const int kWidth = 640; |
| const int kHeight = 360; |
| |
| video_stream_encoder_->SetSource(&video_source_, |
| webrtc::DegradationPreference::DISABLED); |
| |
| for (int i = 1; i <= SendStatisticsProxy::kMinRequiredMetricsSamples; ++i) { |
| video_source_.IncomingCapturedFrame(CreateFrame(i, kWidth, kHeight)); |
| WaitForEncodedFrame(i); |
| } |
| |
| video_stream_encoder_->Stop(); |
| video_stream_encoder_.reset(); |
| stats_proxy_.reset(); |
| |
| EXPECT_EQ(0, |
| metrics::NumSamples("WebRTC.Video.CpuLimitedResolutionInPercent")); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, CallsBitrateObserver) { |
| MockBitrateObserver bitrate_observer; |
| video_stream_encoder_->SetBitrateAllocationObserver(&bitrate_observer); |
| |
| const int kDefaultFps = 30; |
| const VideoBitrateAllocation expected_bitrate = |
| DefaultVideoBitrateAllocator(fake_encoder_.codec_config()) |
| .GetAllocation(kLowTargetBitrateBps, kDefaultFps); |
| |
| EXPECT_CALL(bitrate_observer, OnBitrateAllocationUpdated(expected_bitrate)) |
| .Times(1); |
| video_stream_encoder_->OnBitrateUpdated(DataRate::bps(kLowTargetBitrateBps), |
| DataRate::bps(kLowTargetBitrateBps), |
| 0, 0); |
| |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(rtc::TimeMillis(), codec_width_, codec_height_)); |
| WaitForEncodedFrame(rtc::TimeMillis()); |
| absl::optional<VideoBitrateAllocation> bitrate_allocation = |
| fake_encoder_.GetAndResetLastBitrateAllocation(); |
| // Check that encoder has been updated too, not just allocation observer. |
| EXPECT_EQ(bitrate_allocation->get_sum_bps(), kLowTargetBitrateBps); |
| fake_clock_.AdvanceTimeMicros(rtc::kNumMicrosecsPerMillisec / kDefaultFps); |
| |
| // Not called on second frame. |
| EXPECT_CALL(bitrate_observer, OnBitrateAllocationUpdated(expected_bitrate)) |
| .Times(0); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(rtc::TimeMillis(), codec_width_, codec_height_)); |
| WaitForEncodedFrame(rtc::TimeMillis()); |
| fake_clock_.AdvanceTimeMicros(rtc::kNumMicrosecsPerMillisec / kDefaultFps); |
| |
| // Called after a process interval. |
| const int64_t kProcessIntervalMs = |
| vcm::VCMProcessTimer::kDefaultProcessIntervalMs; |
| EXPECT_CALL(bitrate_observer, OnBitrateAllocationUpdated(expected_bitrate)) |
| .Times(1); |
| const int64_t start_time_ms = rtc::TimeMillis(); |
| while (rtc::TimeMillis() - start_time_ms < kProcessIntervalMs) { |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(rtc::TimeMillis(), codec_width_, codec_height_)); |
| WaitForEncodedFrame(rtc::TimeMillis()); |
| fake_clock_.AdvanceTimeMicros(rtc::kNumMicrosecsPerMillisec / kDefaultFps); |
| } |
| |
| // Since rates are unchanged, encoder should not be reconfigured. |
| EXPECT_FALSE(fake_encoder_.GetAndResetLastBitrateAllocation().has_value()); |
| |
| 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); |
| fake_encoder_.SetTemporalLayersSupported(0, true); |
| |
| // Bitrate allocated across temporal layers. |
| const int kTl0Bps = kTargetBitrateBps * |
| webrtc::SimulcastRateAllocator::GetTemporalRateAllocation( |
| kNumTemporalLayers, /*temporal_id*/ 0); |
| const int kTl1Bps = kTargetBitrateBps * |
| webrtc::SimulcastRateAllocator::GetTemporalRateAllocation( |
| kNumTemporalLayers, /*temporal_id*/ 1); |
| 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); |
| 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, kTargetBitrateBps); |
| |
| VerifyAllocatedBitrate(expected_bitrate); |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, VerifyBitrateAllocationForTwoStreams) { |
| // 2 TLs configured, temporal layers only supported for first stream. |
| ResetEncoder("VP8", 2, /*num_temporal_layers*/ 2, 1, /*screenshare*/ false); |
| 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); |
| const int kS0Tl1Bps = |
| kS0Bps * webrtc::SimulcastRateAllocator::GetTemporalRateAllocation( |
| /*num_layers*/ 2, /*temporal_id*/ 1); |
| const int kS1Bps = kTargetBitrateBps - 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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; |
| video_encoder_config.codec_type = kVideoCodecVP8; |
| video_encoder_config.max_bitrate_bps = kTargetBitrateBps; |
| video_encoder_config.number_of_streams = 1; |
| video_encoder_config.video_stream_factory = |
| new rtc::RefCountedObject<VideoStreamFactory>(1, kFramerate); |
| 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_->TriggerCpuNormalUsage(); |
| 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_RESOLUTION); |
| |
| // Trigger initial configuration. |
| VideoEncoderConfig video_encoder_config; |
| video_encoder_config.codec_type = kVideoCodecVP8; |
| video_encoder_config.max_bitrate_bps = kTargetBitrateBps; |
| video_encoder_config.number_of_streams = 1; |
| video_encoder_config.video_stream_factory = |
| new rtc::RefCountedObject<VideoStreamFactory>(1, kLowFramerate); |
| 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(), |
| 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.video_stream_factory = |
| new rtc::RefCountedObject<VideoStreamFactory>(1, kHighFramerate); |
| 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(), |
| 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_->TriggerCpuNormalUsage(); |
| 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_RESOLUTION); |
| |
| // Trigger initial configuration. |
| VideoEncoderConfig video_encoder_config; |
| video_encoder_config.codec_type = kVideoCodecVP8; |
| video_encoder_config.max_bitrate_bps = kTargetBitrateBps; |
| video_encoder_config.number_of_streams = 1; |
| video_encoder_config.video_stream_factory = |
| new rtc::RefCountedObject<VideoStreamFactory>(1, kFramerate); |
| 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_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| 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_->OnBitrateUpdated( |
| DataRate::bps(kTooLowBitrateForFrameSizeBps), |
| DataRate::bps(kTooLowBitrateForFrameSizeBps), 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_LT(video_source_.sink_wants().max_pixel_count, kWidth * kHeight); |
| |
| 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_LT(video_source_.sink_wants().max_pixel_count, last_pixel_count); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| NumberOfDroppedFramesLimitedWhenBitrateIsTooLow) { |
| const int kTooLowBitrateForFrameSizeBps = 10000; |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTooLowBitrateForFrameSizeBps), |
| DataRate::bps(kTooLowBitrateForFrameSizeBps), 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_->OnBitrateUpdated(DataRate::bps(kLowTargetBitrateBps), |
| DataRate::bps(kLowTargetBitrateBps), |
| 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_->OnBitrateUpdated(DataRate::bps(kLowTargetBitrateBps), |
| DataRate::bps(kLowTargetBitrateBps), |
| 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, InitialFrameDropActivatesWhenBWEstimateReady) { |
| webrtc::test::ScopedFieldTrials field_trials( |
| "WebRTC-InitialFramedrop/Enabled/"); |
| // Reset encoder for field trials to take effect. |
| ConfigureEncoder(video_encoder_config_.Copy()); |
| const int kTooLowBitrateForFrameSizeBps = 10000; |
| const int kWidth = 640; |
| const int kHeight = 360; |
| |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| video_source_.IncomingCapturedFrame(CreateFrame(1, kWidth, kHeight)); |
| // Frame should not be dropped. |
| WaitForEncodedFrame(1); |
| |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTooLowBitrateForFrameSizeBps), |
| DataRate::bps(kTooLowBitrateForFrameSizeBps), 0, 0); |
| video_source_.IncomingCapturedFrame(CreateFrame(2, kWidth, kHeight)); |
| // Expect to drop this frame, the wait should time out. |
| ExpectDroppedFrame(); |
| |
| // 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, |
| ResolutionNotAdaptedForTooSmallFrame_MaintainFramerateMode) { |
| const int kTooSmallWidth = 10; |
| const int kTooSmallHeight = 10; |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| |
| // Enable MAINTAIN_FRAMERATE preference, no initial limitation. |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource( |
| &source, webrtc::DegradationPreference::MAINTAIN_FRAMERATE); |
| VerifyNoLimitation(source.sink_wants()); |
| 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(); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| |
| // Enable BALANCED preference, no initial limitation. |
| test::FrameForwarder source; |
| video_stream_encoder_->SetSource(&source, |
| webrtc::DegradationPreference::BALANCED); |
| VerifyNoLimitation(source.sink_wants()); |
| 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(); |
| VerifyFpsEqResolutionMax(source.sink_wants(), 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(); |
| VerifyFpsEqResolutionMax(source.sink_wants(), 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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_->TriggerCpuNormalUsage(); |
| 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| video_stream_encoder_->SetSource( |
| &video_source_, webrtc::DegradationPreference::MAINTAIN_RESOLUTION); |
| video_source_.set_adaptation_enabled(true); |
| |
| int64_t timestamp_ms = fake_clock_.TimeNanos() / rtc::kNumNanosecsPerMillisec; |
| |
| 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(kFrameTimeoutMs)) { |
| ++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(kFrameTimeoutMs)) { |
| ++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_->TriggerCpuNormalUsage(); |
| 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(kFrameTimeoutMs)) { |
| ++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_->TriggerCpuNormalUsage(); |
| 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(kFrameTimeoutMs)) { |
| ++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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| video_stream_encoder_->SetSource( |
| &video_source_, webrtc::DegradationPreference::MAINTAIN_RESOLUTION); |
| video_source_.set_adaptation_enabled(true); |
| |
| int64_t timestamp_ms = fake_clock_.TimeNanos() / rtc::kNumNanosecsPerMillisec; |
| |
| // 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; |
| fake_clock_.AdvanceTimeMicros(kFrameIntervalMs * |
| rtc::kNumMicrosecsPerMillisec); |
| } |
| // ...and then try to adapt again. |
| video_stream_encoder_->TriggerCpuOveruse(); |
| } while (video_source_.sink_wants().max_framerate_fps < |
| last_wants.max_framerate_fps); |
| |
| VerifyFpsEqResolutionMax(video_source_.sink_wants(), 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; |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| |
| // Enable BALANCED preference, no initial limitation. |
| AdaptingFrameForwarder source; |
| 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); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| 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); |
| VerifyFpsMaxResolutionLt(source.sink_wants(), 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); |
| VerifyFpsMaxResolutionLt(source.sink_wants(), 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); |
| VerifyFpsLtResolutionEq(source.sink_wants(), 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); |
| VerifyFpsEqResolutionLt(source.sink_wants(), 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); |
| VerifyFpsLtResolutionEq(source.sink_wants(), 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); |
| VerifyFpsEqResolutionLt(source.sink_wants(), 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); |
| VerifyFpsLtResolutionEq(source.sink_wants(), 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); |
| VerifyFpsEqResolutionEq(source.sink_wants(), 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 down, expect expect increased fps (320x180@10fps). |
| video_stream_encoder_->TriggerQualityHigh(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| VerifyFpsGtResolutionEq(source.sink_wants(), 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); |
| VerifyFpsEqResolutionGt(source.sink_wants(), 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); |
| VerifyFpsGtResolutionEq(source.sink_wants(), 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); |
| VerifyFpsEqResolutionGt(source.sink_wants(), 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); |
| VerifyFpsMaxResolutionEq(source.sink_wants(), source.last_wants()); |
| 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); |
| VerifyFpsMaxResolutionGt(source.sink_wants(), 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); |
| VerifyFpsMaxResolutionGt(source.sink_wants(), source.last_wants()); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| 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(); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| 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; |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| |
| // Enable BALANCED preference, no initial limitation. |
| AdaptingFrameForwarder source; |
| 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); |
| VerifyFpsMaxResolutionMax(source.sink_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(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); |
| VerifyFpsMaxResolutionLt(source.sink_wants(), 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); |
| VerifyFpsMaxResolutionLt(source.sink_wants(), 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); |
| VerifyFpsLtResolutionEq(source.sink_wants(), source.last_wants()); |
| EXPECT_FALSE(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 increased fps (640x360@30fps). |
| video_stream_encoder_->TriggerCpuNormalUsage(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| VerifyFpsMaxResolutionEq(source.sink_wants(), 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(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger quality adapt up, expect upscaled resolution (960x540@30fps). |
| video_stream_encoder_->TriggerQualityHigh(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| VerifyFpsMaxResolutionGt(source.sink_wants(), 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(3, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger cpu adapt up, expect no restriction (1280x720fps@30fps). |
| video_stream_encoder_->TriggerCpuNormalUsage(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(kWidth, kHeight); |
| VerifyFpsMaxResolutionGt(source.sink_wants(), source.last_wants()); |
| VerifyFpsMaxResolutionMax(source.sink_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(4, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect no change. |
| video_stream_encoder_->TriggerQualityHigh(); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| EXPECT_EQ(4, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(2, 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; |
| int64_t timestamp_ms = kFrameIntervalMs; |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| |
| // Enable BALANCED preference, no initial limitation. |
| AdaptingFrameForwarder source; |
| 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); |
| VerifyFpsMaxResolutionMax(source.sink_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(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); |
| VerifyFpsEqResolutionMax(source.sink_wants(), 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); |
| VerifyFpsEqResolutionLt(source.sink_wants(), source.last_wants()); |
| EXPECT_TRUE(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(1, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger cpu adapt up, expect upscaled resolution (640x360@15fps). |
| video_stream_encoder_->TriggerCpuNormalUsage(); |
| timestamp_ms += kFrameIntervalMs; |
| source.IncomingCapturedFrame(CreateFrame(timestamp_ms, kWidth, kHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| VerifyFpsEqResolutionGt(source.sink_wants(), 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_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 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); |
| VerifyFpsMaxResolutionMax(source.sink_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(2, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| // Trigger adapt up, expect no change. |
| video_stream_encoder_->TriggerQualityHigh(); |
| VerifyFpsMaxResolutionMax(source.sink_wants()); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_cpu_adapt_changes); |
| EXPECT_EQ(2, stats_proxy_->GetStats().number_of_quality_adapt_changes); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, AcceptsFullHdAdaptedDownSimulcastFrames) { |
| // Simulates simulcast behavior and makes highest stream resolutions divisible |
| // by 4. |
| class CroppingVideoStreamFactory |
| : public VideoEncoderConfig::VideoStreamFactoryInterface { |
| public: |
| explicit CroppingVideoStreamFactory(size_t num_temporal_layers, |
| int framerate) |
| : num_temporal_layers_(num_temporal_layers), framerate_(framerate) { |
| EXPECT_GT(num_temporal_layers, 0u); |
| EXPECT_GT(framerate, 0); |
| } |
| |
| private: |
| std::vector<VideoStream> CreateEncoderStreams( |
| int width, |
| int height, |
| const VideoEncoderConfig& encoder_config) override { |
| std::vector<VideoStream> streams = test::CreateVideoStreams( |
| width - width % 4, height - height % 4, encoder_config); |
| for (VideoStream& stream : streams) { |
| stream.num_temporal_layers = num_temporal_layers_; |
| stream.max_framerate = framerate_; |
| } |
| return streams; |
| } |
| |
| const size_t num_temporal_layers_; |
| const int framerate_; |
| }; |
| |
| const int kFrameWidth = 1920; |
| const int kFrameHeight = 1080; |
| // 3/4 of 1920. |
| const int kAdaptedFrameWidth = 1440; |
| // 3/4 of 1080 rounded down to multiple of 4. |
| const int kAdaptedFrameHeight = 808; |
| const int kFramerate = 24; |
| |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| // Trigger reconfigure encoder (without resetting the entire instance). |
| VideoEncoderConfig video_encoder_config; |
| video_encoder_config.codec_type = kVideoCodecVP8; |
| video_encoder_config.max_bitrate_bps = kTargetBitrateBps; |
| video_encoder_config.number_of_streams = 1; |
| video_encoder_config.video_stream_factory = |
| new rtc::RefCountedObject<CroppingVideoStreamFactory>(1, kFramerate); |
| video_stream_encoder_->ConfigureEncoder(std::move(video_encoder_config), |
| kMaxPayloadLength); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| video_source_.set_adaptation_enabled(true); |
| |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(1, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(kFrameWidth, kFrameHeight); |
| |
| // Trigger CPU overuse, downscale by 3/4. |
| video_stream_encoder_->TriggerCpuOveruse(); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(2, 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| |
| int64_t timestamp_ms = fake_clock_.TimeNanos() / rtc::kNumNanosecsPerMillisec; |
| 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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 = |
| (vcm::VCMProcessTimer::kDefaultProcessIntervalMs * kHighFps) / 1000; |
| const int kFrameIntervalMs = 1000 / 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 * kFrameIntervalMs); |
| timestamp_ms += kFrameIntervalMs; |
| } |
| |
| // 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; |
| const int kTargetBitrateBps = 1000000; |
| |
| MockBitrateObserver bitrate_observer; |
| video_stream_encoder_->SetBitrateAllocationObserver(&bitrate_observer); |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| video_stream_encoder_->WaitUntilTaskQueueIsIdle(); |
| |
| // Insert a first video frame, causes another bitrate update. |
| int64_t timestamp_ms = fake_clock_.TimeNanos() / rtc::kNumNanosecsPerMillisec; |
| EXPECT_CALL(bitrate_observer, OnBitrateAllocationUpdated(_)).Times(1); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| WaitForEncodedFrame(timestamp_ms); |
| |
| // Next, simulate video suspension due to pacer queue overrun. |
| video_stream_encoder_->OnBitrateUpdated(DataRate::bps(0), DataRate::bps(0), 0, |
| 1); |
| |
| // Skip ahead until a new periodic parameter update should have occured. |
| timestamp_ms += vcm::VCMProcessTimer::kDefaultProcessIntervalMs; |
| fake_clock_.AdvanceTimeMicros( |
| vcm::VCMProcessTimer::kDefaultProcessIntervalMs * |
| rtc::kNumMicrosecsPerMillisec); |
| |
| // Bitrate observer should not be called. |
| EXPECT_CALL(bitrate_observer, OnBitrateAllocationUpdated(_)).Times(0); |
| video_source_.IncomingCapturedFrame( |
| CreateFrame(timestamp_ms, kFrameWidth, kFrameHeight)); |
| ExpectDroppedFrame(); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, |
| DefaultCpuAdaptationThresholdsForSoftwareEncoder) { |
| const int kFrameWidth = 1280; |
| const int kFrameHeight = 720; |
| const CpuOveruseOptions default_options; |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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, DropsFramesWhenEncoderOvershoots) { |
| const int kFrameWidth = 320; |
| const int kFrameHeight = 240; |
| const int kFps = 30; |
| const int kTargetBitrateBps = 120000; |
| const int kNumFramesInRun = kFps * 5; // Runs of five seconds. |
| |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| |
| int64_t timestamp_ms = fake_clock_.TimeNanos() / rtc::kNumNanosecsPerMillisec; |
| 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 * 1000 / 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; |
| if (RateControlSettings::ParseFromFieldTrials().UseEncoderBitrateAdjuster()) { |
| // With bitrate adjuster, when need to overshoot even more to trigger |
| // frame dropping. |
| overshoot_factor *= 2; |
| } |
| fake_encoder_.SimulateOvershoot(overshoot_factor); |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps + 1000), |
| DataRate::bps(kTargetBitrateBps + 1000), 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 * 1000 / kFps)) { |
| ++num_dropped; |
| } |
| timestamp_ms += 1000 / kFps; |
| } |
| |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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 int kTargetBitrateBps = 120000; |
| |
| ASSERT_GT(max_framerate_, kActualInputFps); |
| |
| int64_t timestamp_ms = fake_clock_.TimeNanos() / rtc::kNumNanosecsPerMillisec; |
| max_framerate_ = kActualInputFps; |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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; |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| |
| fake_encoder_.BlockNextEncode(); |
| video_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_); |
| // Here, the encoder thread will be blocked in the TestEncoder waiting for a |
| // call to ContinueEncode. |
| video_source_.IncomingCapturedFrame( |
| CreateFrameWithUpdatedPixel(2, nullptr, 1)); |
| ExpectDroppedFrame(); |
| video_source_.IncomingCapturedFrame( |
| CreateFrameWithUpdatedPixel(3, nullptr, 10)); |
| ExpectDroppedFrame(); |
| fake_encoder_.ContinueEncode(); |
| 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); |
| |
| video_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_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 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_->OnBitrateUpdated( |
| DataRate::bps(kSimulcastTargetBitrateBps), |
| DataRate::bps(kSimulcastTargetBitrateBps), 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); |
| EXPECT_THAT(fake_encoder_.LastFrameTypes(), |
| ::testing::ElementsAreArray({VideoFrameType::kVideoFrameKey, |
| VideoFrameType::kVideoFrameDelta, |
| VideoFrameType::kVideoFrameDelta})); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, RequestKeyframeInternalSource) { |
| // Configure internal source factory and setup test again. |
| encoder_factory_.SetHasInternalSource(true); |
| ResetEncoder("VP8", 1, 1, 1, false); |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| |
| // Call encoder directly, simulating internal source where encoded frame |
| // callback in VideoStreamEncoder is called despite no OnFrame(). |
| fake_encoder_.InjectFrame(CreateFrame(1, nullptr), true); |
| EXPECT_TRUE(WaitForFrame(kDefaultTimeoutMs)); |
| EXPECT_THAT( |
| fake_encoder_.LastFrameTypes(), |
| ::testing::ElementsAre(VideoFrameType{VideoFrameType::kVideoFrameKey})); |
| |
| const std::vector<VideoFrameType> kDeltaFrame = { |
| VideoFrameType::kVideoFrameDelta}; |
| // Need to set timestamp manually since manually for injected frame. |
| VideoFrame frame = CreateFrame(101, nullptr); |
| frame.set_timestamp(101); |
| fake_encoder_.InjectFrame(frame, false); |
| EXPECT_TRUE(WaitForFrame(kDefaultTimeoutMs)); |
| EXPECT_THAT( |
| fake_encoder_.LastFrameTypes(), |
| ::testing::ElementsAre(VideoFrameType{VideoFrameType::kVideoFrameDelta})); |
| |
| // Request key-frame. The forces a dummy frame down into the encoder. |
| fake_encoder_.ExpectNullFrame(); |
| video_stream_encoder_->SendKeyFrame(); |
| EXPECT_TRUE(WaitForFrame(kDefaultTimeoutMs)); |
| EXPECT_THAT( |
| fake_encoder_.LastFrameTypes(), |
| ::testing::ElementsAre(VideoFrameType{VideoFrameType::kVideoFrameKey})); |
| |
| video_stream_encoder_->Stop(); |
| } |
| |
| TEST_F(VideoStreamEncoderTest, AdjustsTimestampInternalSource) { |
| // Configure internal source factory and setup test again. |
| encoder_factory_.SetHasInternalSource(true); |
| ResetEncoder("VP8", 1, 1, 1, false); |
| video_stream_encoder_->OnBitrateUpdated( |
| DataRate::bps(kTargetBitrateBps), DataRate::bps(kTargetBitrateBps), 0, 0); |
| |
| int64_t timestamp = 1; |
| EncodedImage image; |
| image.Allocate(kTargetBitrateBps / kDefaultFramerate / 8); |
| image.capture_time_ms_ = ++timestamp; |
| image.SetTimestamp(static_cast<uint32_t>(timestamp * 90)); |
| const int64_t kEncodeFinishDelayMs = 10; |
| image.timing_.encode_start_ms = timestamp; |
| image.timing_.encode_finish_ms = timestamp + kEncodeFinishDelayMs; |
| fake_encoder_.InjectEncodedImage(image); |
| // Wait for frame without incrementing clock. |
| EXPECT_TRUE(sink_.WaitForFrame(kDefaultTimeoutMs)); |
| // Frame is captured kEncodeFinishDelayMs before it's encoded, so restored |
| // capture timestamp should be kEncodeFinishDelayMs in the past. |
| EXPECT_EQ(sink_.GetLastCaptureTimeMs(), |
| fake_clock_.TimeNanos() / rtc::kNumNanosecsPerMillisec - |
| kEncodeFinishDelayMs); |
| |
| video_stream_encoder_->Stop(); |
| } |
| } // namespace webrtc |