// Copyright 2014 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include #include #include #include "base/bind.h" #include "base/bind_helpers.h" #include "base/macros.h" #include "base/synchronization/condition_variable.h" #include "base/synchronization/lock.h" #include "base/time/time.h" #include "media/cast/cast_config.h" #include "media/cast/receiver/video_decoder.h" #include "media/cast/sender/sender_encoded_frame.h" #include "media/cast/sender/vp8_encoder.h" #include "media/cast/test/utility/default_config.h" #include "media/cast/test/utility/standalone_cast_environment.h" #include "media/cast/test/utility/video_utility.h" #include "testing/gtest/include/gtest/gtest.h" namespace media { namespace cast { namespace { const int kStartingWidth = 360; const int kStartingHeight = 240; const int kFrameRate = 10; FrameSenderConfig GetVideoSenderConfigForTest() { FrameSenderConfig config = GetDefaultVideoSenderConfig(); config.max_frame_rate = kFrameRate; return config; } } // namespace class VideoDecoderTest : public ::testing::TestWithParam { public: VideoDecoderTest() : cast_environment_(new StandaloneCastEnvironment()), vp8_encoder_(GetVideoSenderConfigForTest()), cond_(&lock_) { vp8_encoder_.Initialize(); } virtual ~VideoDecoderTest() { // Make sure all threads have stopped before the environment goes away. cast_environment_->Shutdown(); } protected: void SetUp() final { video_decoder_.reset(new VideoDecoder(cast_environment_, GetParam())); CHECK_EQ(STATUS_INITIALIZED, video_decoder_->InitializationResult()); next_frame_size_ = gfx::Size(kStartingWidth, kStartingHeight); next_frame_timestamp_ = base::TimeDelta(); last_frame_id_ = FrameId::first(); seen_a_decoded_frame_ = false; total_video_frames_feed_in_ = 0; total_video_frames_decoded_ = 0; } void SetNextFrameSize(const gfx::Size& size) { next_frame_size_ = size; } // Called from the unit test thread to create another EncodedFrame and push it // into the decoding pipeline. void FeedMoreVideo(int num_dropped_frames) { DCHECK(!cast_environment_->CurrentlyOn(CastEnvironment::MAIN)); // Prepare a simulated VideoFrame to feed into the VideoEncoder. const scoped_refptr video_frame = VideoFrame::CreateFrame( PIXEL_FORMAT_YV12, next_frame_size_, gfx::Rect(next_frame_size_), next_frame_size_, next_frame_timestamp_); const base::TimeTicks reference_time = base::TimeTicks::UnixEpoch() + next_frame_timestamp_; next_frame_timestamp_ += base::TimeDelta::FromSeconds(1) / kFrameRate; PopulateVideoFrame(video_frame.get(), 0); // Encode |frame| into |encoded_frame->data|. std::unique_ptr encoded_frame(new SenderEncodedFrame()); // Test only supports VP8, currently. CHECK_EQ(CODEC_VIDEO_VP8, GetParam()); vp8_encoder_.Encode(video_frame, reference_time, encoded_frame.get()); // Rewrite frame IDs for testing purposes. encoded_frame->frame_id = last_frame_id_ + 1 + num_dropped_frames; if (encoded_frame->dependency == EncodedFrame::KEY) encoded_frame->referenced_frame_id = encoded_frame->frame_id; else encoded_frame->referenced_frame_id = encoded_frame->frame_id - 1; last_frame_id_ = encoded_frame->frame_id; ASSERT_EQ(reference_time, encoded_frame->reference_time); ++total_video_frames_feed_in_; // Post a task to decode the encoded frame. cast_environment_->PostTask( CastEnvironment::MAIN, FROM_HERE, base::Bind(&VideoDecoder::DecodeFrame, base::Unretained(video_decoder_.get()), base::Passed(&encoded_frame), base::Bind(&VideoDecoderTest::OnDecodedFrame, base::Unretained(this), video_frame, num_dropped_frames == 0))); } // Blocks the caller until all video that has been feed in has been decoded. void WaitForAllVideoToBeDecoded() { DCHECK(!cast_environment_->CurrentlyOn(CastEnvironment::MAIN)); base::AutoLock auto_lock(lock_); while (total_video_frames_decoded_ < total_video_frames_feed_in_) cond_.Wait(); EXPECT_EQ(total_video_frames_feed_in_, total_video_frames_decoded_); } private: // Called by |vp8_decoder_| to deliver each frame of decoded video. void OnDecodedFrame(const scoped_refptr& expected_video_frame, bool should_be_continuous, const scoped_refptr& video_frame, bool is_continuous) { DCHECK(cast_environment_->CurrentlyOn(CastEnvironment::MAIN)); // A NULL |video_frame| indicates a decode error, which we don't expect. ASSERT_TRUE(video_frame.get()); // Did the decoder detect whether frames were dropped? EXPECT_EQ(should_be_continuous, is_continuous); // Does the video data seem to be intact? EXPECT_EQ(expected_video_frame->coded_size().width(), video_frame->coded_size().width()); EXPECT_EQ(expected_video_frame->coded_size().height(), video_frame->coded_size().height()); EXPECT_LT(40.0, I420PSNR(expected_video_frame, video_frame)); // TODO(miu): Once we start using VideoFrame::timestamp_, check that here. // Signal the main test thread that more video was decoded. base::AutoLock auto_lock(lock_); ++total_video_frames_decoded_; cond_.Signal(); } const scoped_refptr cast_environment_; std::unique_ptr video_decoder_; gfx::Size next_frame_size_; base::TimeDelta next_frame_timestamp_; FrameId last_frame_id_; bool seen_a_decoded_frame_; Vp8Encoder vp8_encoder_; // Unlike |total_video_frames_decoded_|, this is only read/written on a single // thread. int total_video_frames_feed_in_; base::Lock lock_; base::ConditionVariable cond_; int total_video_frames_decoded_; // Protected by |lock_|. DISALLOW_COPY_AND_ASSIGN(VideoDecoderTest); }; TEST_P(VideoDecoderTest, DecodesFrames) { const int kNumFrames = 3; for (int i = 0; i < kNumFrames; ++i) FeedMoreVideo(0); WaitForAllVideoToBeDecoded(); } TEST_P(VideoDecoderTest, RecoversFromDroppedFrames) { // Feed 20 frames and expect 20 to be decoded. At random points, drop one or // more frames. FeedMoreVideo(0); FeedMoreVideo(2); // Two frames dropped. FeedMoreVideo(0); FeedMoreVideo(0); FeedMoreVideo(1); // One frame dropped. FeedMoreVideo(0); FeedMoreVideo(0); FeedMoreVideo(0); FeedMoreVideo(1); // One frame dropped. FeedMoreVideo(0); FeedMoreVideo(0); FeedMoreVideo(0); FeedMoreVideo(0); FeedMoreVideo(3); // Three frames dropped. FeedMoreVideo(0); FeedMoreVideo(0); FeedMoreVideo(10); // Ten frames dropped. FeedMoreVideo(0); FeedMoreVideo(1); // One frame dropped. FeedMoreVideo(0); WaitForAllVideoToBeDecoded(); } TEST_P(VideoDecoderTest, DecodesFramesOfVaryingSizes) { std::vector frame_sizes; frame_sizes.push_back(gfx::Size(128, 72)); frame_sizes.push_back(gfx::Size(64, 36)); // Shrink both dimensions. frame_sizes.push_back(gfx::Size(30, 20)); // Shrink both dimensions again. frame_sizes.push_back(gfx::Size(20, 30)); // Same area. frame_sizes.push_back(gfx::Size(60, 40)); // Grow both dimensions. frame_sizes.push_back(gfx::Size(58, 40)); // Shrink only one dimension. frame_sizes.push_back(gfx::Size(58, 38)); // Shrink the other dimension. frame_sizes.push_back(gfx::Size(32, 18)); // Shrink both dimensions again. frame_sizes.push_back(gfx::Size(34, 18)); // Grow only one dimension. frame_sizes.push_back(gfx::Size(34, 20)); // Grow the other dimension. frame_sizes.push_back(gfx::Size(192, 108)); // Grow both dimensions again. // Encode one frame at each size. for (const auto& frame_size : frame_sizes) { SetNextFrameSize(frame_size); FeedMoreVideo(0); } // Encode 3 frames at each size. for (const auto& frame_size : frame_sizes) { SetNextFrameSize(frame_size); const int kNumFrames = 3; for (int i = 0; i < kNumFrames; ++i) FeedMoreVideo(0); } WaitForAllVideoToBeDecoded(); } INSTANTIATE_TEST_CASE_P(, VideoDecoderTest, ::testing::Values(CODEC_VIDEO_VP8)); } // namespace cast } // namespace media