// 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 "base/bind.h" #include "base/command_line.h" #include "base/message_loop/message_loop.h" #include "base/power_monitor/power_monitor.h" #include "base/test/launcher/unit_test_launcher.h" #include "base/test/power_monitor_test_base.h" #include "base/test/simple_test_tick_clock.h" #include "base/test/test_suite.h" #include "media/base/cdm_context.h" #include "media/base/decoder_buffer.h" #include "media/base/media.h" #include "media/base/media_switches.h" #include "media/base/media_util.h" #include "media/cast/sender/h264_vt_encoder.h" #include "media/cast/sender/video_frame_factory.h" #include "media/cast/test/utility/default_config.h" #include "media/cast/test/utility/video_utility.h" #include "media/ffmpeg/ffmpeg_common.h" #include "media/filters/ffmpeg_glue.h" #include "media/filters/ffmpeg_video_decoder.h" #include "testing/gtest/include/gtest/gtest.h" namespace { const int kVideoWidth = 1280; const int kVideoHeight = 720; class MediaTestSuite : public base::TestSuite { public: MediaTestSuite(int argc, char** argv) : TestSuite(argc, argv) {} ~MediaTestSuite() final {} protected: void Initialize() final; }; void MediaTestSuite::Initialize() { base::TestSuite::Initialize(); base::CommandLine* command_line = base::CommandLine::ForCurrentProcess(); command_line->AppendSwitch(switches::kEnableInbandTextTracks); media::InitializeMediaLibrary(); } } // namespace int main(int argc, char** argv) { { base::AtExitManager at_exit_manager; CHECK(VideoToolboxGlue::Get()) << "VideoToolbox is not available. Requires OS X 10.8 or iOS 8.0."; } MediaTestSuite test_suite(argc, argv); return base::LaunchUnitTests( argc, argv, base::Bind(&MediaTestSuite::Run, base::Unretained(&test_suite))); } namespace media { namespace cast { // See comment in end2end_unittest.cc for details on this value. const double kVideoAcceptedPSNR = 38.0; void SaveDecoderInitResult(bool* out_result, bool in_result) { *out_result = in_result; } void SaveOperationalStatus(OperationalStatus* out_status, OperationalStatus in_status) { *out_status = in_status; } class MetadataRecorder : public base::RefCountedThreadSafe { public: MetadataRecorder() : count_frames_delivered_(0) {} int count_frames_delivered() const { return count_frames_delivered_; } void PushExpectation(uint32 expected_frame_id, uint32 expected_last_referenced_frame_id, uint32 expected_rtp_timestamp, const base::TimeTicks& expected_reference_time) { expectations_.push(Expectation{expected_frame_id, expected_last_referenced_frame_id, expected_rtp_timestamp, expected_reference_time}); } void CompareFrameWithExpected(scoped_ptr encoded_frame) { ASSERT_LT(0u, expectations_.size()); auto e = expectations_.front(); expectations_.pop(); if (e.expected_frame_id != e.expected_last_referenced_frame_id) { EXPECT_EQ(EncodedFrame::DEPENDENT, encoded_frame->dependency); } else { EXPECT_EQ(EncodedFrame::KEY, encoded_frame->dependency); } EXPECT_EQ(e.expected_frame_id, encoded_frame->frame_id); EXPECT_EQ(e.expected_last_referenced_frame_id, encoded_frame->referenced_frame_id) << "frame id: " << e.expected_frame_id; EXPECT_EQ(e.expected_rtp_timestamp, encoded_frame->rtp_timestamp); EXPECT_EQ(e.expected_reference_time, encoded_frame->reference_time); EXPECT_FALSE(encoded_frame->data.empty()); ++count_frames_delivered_; } private: friend class base::RefCountedThreadSafe; virtual ~MetadataRecorder() {} int count_frames_delivered_; struct Expectation { uint32 expected_frame_id; uint32 expected_last_referenced_frame_id; uint32 expected_rtp_timestamp; base::TimeTicks expected_reference_time; }; std::queue expectations_; DISALLOW_COPY_AND_ASSIGN(MetadataRecorder); }; class EndToEndFrameChecker : public base::RefCountedThreadSafe { public: explicit EndToEndFrameChecker(const VideoDecoderConfig& config) : decoder_(), count_frames_checked_(0) { bool decoder_init_result; decoder_.Initialize( config, false, media::SetCdmReadyCB(), base::Bind(&SaveDecoderInitResult, &decoder_init_result), base::Bind(&EndToEndFrameChecker::CompareFrameWithExpected, base::Unretained(this))); base::MessageLoop::current()->RunUntilIdle(); EXPECT_TRUE(decoder_init_result); } void PushExpectation(const scoped_refptr& frame) { expectations_.push(frame); } void EncodeDone(scoped_ptr encoded_frame) { auto buffer = DecoderBuffer::CopyFrom(encoded_frame->bytes(), encoded_frame->data.size()); decoder_.Decode(buffer, base::Bind(&EndToEndFrameChecker::DecodeDone, base::Unretained(this))); } void CompareFrameWithExpected(const scoped_refptr& frame) { ASSERT_LT(0u, expectations_.size()); auto& e = expectations_.front(); expectations_.pop(); EXPECT_LE(kVideoAcceptedPSNR, I420PSNR(e, frame)); ++count_frames_checked_; } void DecodeDone(VideoDecoder::Status status) { EXPECT_EQ(VideoDecoder::kOk, status); } int count_frames_checked() const { return count_frames_checked_; } private: friend class base::RefCountedThreadSafe; virtual ~EndToEndFrameChecker() {} FFmpegVideoDecoder decoder_; std::queue> expectations_; int count_frames_checked_; DISALLOW_COPY_AND_ASSIGN(EndToEndFrameChecker); }; void CreateFrameAndMemsetPlane(VideoFrameFactory* const video_frame_factory) { const scoped_refptr video_frame = video_frame_factory->MaybeCreateFrame( gfx::Size(kVideoWidth, kVideoHeight), base::TimeDelta()); ASSERT_TRUE(video_frame.get()); auto cv_pixel_buffer = video_frame->cv_pixel_buffer(); ASSERT_TRUE(cv_pixel_buffer); CVPixelBufferLockBaseAddress(cv_pixel_buffer, 0); auto ptr = CVPixelBufferGetBaseAddressOfPlane(cv_pixel_buffer, 0); ASSERT_TRUE(ptr); memset(ptr, 0xfe, CVPixelBufferGetBytesPerRowOfPlane(cv_pixel_buffer, 0) * CVPixelBufferGetHeightOfPlane(cv_pixel_buffer, 0)); CVPixelBufferUnlockBaseAddress(cv_pixel_buffer, 0); } void NoopFrameEncodedCallback( scoped_ptr /*encoded_frame*/) { } class TestPowerSource : public base::PowerMonitorSource { public: void GenerateSuspendEvent() { ProcessPowerEvent(SUSPEND_EVENT); base::MessageLoop::current()->RunUntilIdle(); } void GenerateResumeEvent() { ProcessPowerEvent(RESUME_EVENT); base::MessageLoop::current()->RunUntilIdle(); } private: bool IsOnBatteryPowerImpl() final { return false; } }; class H264VideoToolboxEncoderTest : public ::testing::Test { protected: H264VideoToolboxEncoderTest() = default; void SetUp() final { clock_ = new base::SimpleTestTickClock(); clock_->Advance(base::TimeTicks::Now() - base::TimeTicks()); power_source_ = new TestPowerSource(); power_monitor_.reset( new base::PowerMonitor(scoped_ptr(power_source_))); cast_environment_ = new CastEnvironment( scoped_ptr(clock_).Pass(), message_loop_.task_runner(), message_loop_.task_runner(), message_loop_.task_runner()); encoder_.reset(new H264VideoToolboxEncoder( cast_environment_, video_sender_config_, base::Bind(&SaveOperationalStatus, &operational_status_))); message_loop_.RunUntilIdle(); EXPECT_EQ(STATUS_INITIALIZED, operational_status_); } void TearDown() final { encoder_.reset(); message_loop_.RunUntilIdle(); power_monitor_.reset(); } void AdvanceClockAndVideoFrameTimestamp() { clock_->Advance(base::TimeDelta::FromMilliseconds(33)); frame_->set_timestamp(frame_->timestamp() + base::TimeDelta::FromMilliseconds(33)); } static void SetUpTestCase() { // Reusable test data. video_sender_config_ = GetDefaultVideoSenderConfig(); video_sender_config_.codec = CODEC_VIDEO_H264; const gfx::Size size(kVideoWidth, kVideoHeight); frame_ = media::VideoFrame::CreateFrame( PIXEL_FORMAT_I420, size, gfx::Rect(size), size, base::TimeDelta()); PopulateVideoFrame(frame_.get(), 123); } static void TearDownTestCase() { frame_ = nullptr; } static scoped_refptr frame_; static VideoSenderConfig video_sender_config_; base::SimpleTestTickClock* clock_; // Owned by CastEnvironment. base::MessageLoop message_loop_; scoped_refptr cast_environment_; scoped_ptr encoder_; OperationalStatus operational_status_; TestPowerSource* power_source_; // Owned by the power monitor. scoped_ptr power_monitor_; private: DISALLOW_COPY_AND_ASSIGN(H264VideoToolboxEncoderTest); }; // static scoped_refptr H264VideoToolboxEncoderTest::frame_; VideoSenderConfig H264VideoToolboxEncoderTest::video_sender_config_; TEST_F(H264VideoToolboxEncoderTest, CheckFrameMetadataSequence) { scoped_refptr metadata_recorder(new MetadataRecorder()); VideoEncoder::FrameEncodedCallback cb = base::Bind( &MetadataRecorder::CompareFrameWithExpected, metadata_recorder.get()); metadata_recorder->PushExpectation( 0, 0, TimeDeltaToRtpDelta(frame_->timestamp(), kVideoFrequency), clock_->NowTicks()); EXPECT_TRUE(encoder_->EncodeVideoFrame(frame_, clock_->NowTicks(), cb)); message_loop_.RunUntilIdle(); for (uint32 frame_id = 1; frame_id < 10; ++frame_id) { AdvanceClockAndVideoFrameTimestamp(); metadata_recorder->PushExpectation( frame_id, frame_id - 1, TimeDeltaToRtpDelta(frame_->timestamp(), kVideoFrequency), clock_->NowTicks()); EXPECT_TRUE(encoder_->EncodeVideoFrame(frame_, clock_->NowTicks(), cb)); } encoder_.reset(); message_loop_.RunUntilIdle(); EXPECT_EQ(10, metadata_recorder->count_frames_delivered()); } #if defined(USE_PROPRIETARY_CODECS) TEST_F(H264VideoToolboxEncoderTest, CheckFramesAreDecodable) { VideoDecoderConfig config(kCodecH264, H264PROFILE_MAIN, frame_->format(), COLOR_SPACE_UNSPECIFIED, frame_->coded_size(), frame_->visible_rect(), frame_->natural_size(), EmptyExtraData(), false); scoped_refptr checker(new EndToEndFrameChecker(config)); VideoEncoder::FrameEncodedCallback cb = base::Bind(&EndToEndFrameChecker::EncodeDone, checker.get()); for (uint32 frame_id = 0; frame_id < 6; ++frame_id) { checker->PushExpectation(frame_); EXPECT_TRUE(encoder_->EncodeVideoFrame(frame_, clock_->NowTicks(), cb)); AdvanceClockAndVideoFrameTimestamp(); } encoder_.reset(); message_loop_.RunUntilIdle(); EXPECT_EQ(5, checker->count_frames_checked()); } #endif TEST_F(H264VideoToolboxEncoderTest, CheckVideoFrameFactory) { auto video_frame_factory = encoder_->CreateVideoFrameFactory(); ASSERT_TRUE(video_frame_factory.get()); // The first call to |MaybeCreateFrame| will return null but post a task to // the encoder to initialize for the specified frame size. We then drain the // message loop. After that, the encoder should have initialized and we // request a frame again. ASSERT_FALSE(video_frame_factory->MaybeCreateFrame( gfx::Size(kVideoWidth, kVideoHeight), base::TimeDelta())); message_loop_.RunUntilIdle(); CreateFrameAndMemsetPlane(video_frame_factory.get()); } TEST_F(H264VideoToolboxEncoderTest, CheckPowerMonitoring) { // Encode a frame, suspend, encode a frame, resume, encode a frame. VideoEncoder::FrameEncodedCallback cb = base::Bind(&NoopFrameEncodedCallback); EXPECT_TRUE(encoder_->EncodeVideoFrame(frame_, clock_->NowTicks(), cb)); power_source_->GenerateSuspendEvent(); EXPECT_FALSE(encoder_->EncodeVideoFrame(frame_, clock_->NowTicks(), cb)); power_source_->GenerateResumeEvent(); EXPECT_TRUE(encoder_->EncodeVideoFrame(frame_, clock_->NowTicks(), cb)); } TEST_F(H264VideoToolboxEncoderTest, CheckPowerMonitoringNoInitialFrame) { // Suspend, encode a frame, resume, encode a frame. VideoEncoder::FrameEncodedCallback cb = base::Bind(&NoopFrameEncodedCallback); power_source_->GenerateSuspendEvent(); EXPECT_FALSE(encoder_->EncodeVideoFrame(frame_, clock_->NowTicks(), cb)); power_source_->GenerateResumeEvent(); EXPECT_TRUE(encoder_->EncodeVideoFrame(frame_, clock_->NowTicks(), cb)); } TEST_F(H264VideoToolboxEncoderTest, CheckPowerMonitoringVideoFrameFactory) { VideoEncoder::FrameEncodedCallback cb = base::Bind(&NoopFrameEncodedCallback); auto video_frame_factory = encoder_->CreateVideoFrameFactory(); ASSERT_TRUE(video_frame_factory.get()); // The first call to |MaybeCreateFrame| will return null but post a task to // the encoder to initialize for the specified frame size. We then drain the // message loop. After that, the encoder should have initialized and we // request a frame again. ASSERT_FALSE(video_frame_factory->MaybeCreateFrame( gfx::Size(kVideoWidth, kVideoHeight), base::TimeDelta())); message_loop_.RunUntilIdle(); CreateFrameAndMemsetPlane(video_frame_factory.get()); // After a power suspension, the factory should not produce frames. power_source_->GenerateSuspendEvent(); ASSERT_FALSE(video_frame_factory->MaybeCreateFrame( gfx::Size(kVideoWidth, kVideoHeight), base::TimeDelta())); message_loop_.RunUntilIdle(); ASSERT_FALSE(video_frame_factory->MaybeCreateFrame( gfx::Size(kVideoWidth, kVideoHeight), base::TimeDelta())); // After a power resume event, the factory should produce frames right away // because the encoder re-initializes on its own. power_source_->GenerateResumeEvent(); CreateFrameAndMemsetPlane(video_frame_factory.get()); } TEST_F(H264VideoToolboxEncoderTest, CheckPowerMonitoringVideoFrameFactoryNoInitialFrame) { VideoEncoder::FrameEncodedCallback cb = base::Bind(&NoopFrameEncodedCallback); auto video_frame_factory = encoder_->CreateVideoFrameFactory(); ASSERT_TRUE(video_frame_factory.get()); // After a power suspension, the factory should not produce frames. power_source_->GenerateSuspendEvent(); ASSERT_FALSE(video_frame_factory->MaybeCreateFrame( gfx::Size(kVideoWidth, kVideoHeight), base::TimeDelta())); message_loop_.RunUntilIdle(); ASSERT_FALSE(video_frame_factory->MaybeCreateFrame( gfx::Size(kVideoWidth, kVideoHeight), base::TimeDelta())); // After a power resume event, the factory should produce frames right away // because the encoder re-initializes on its own. power_source_->GenerateResumeEvent(); CreateFrameAndMemsetPlane(video_frame_factory.get()); } } // namespace cast } // namespace media