// Copyright 2016 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/macros.h" #include "base/run_loop.h" #include "base/test/test_message_loop.h" #include "base/threading/platform_thread.h" #include "base/timer/elapsed_timer.h" #include "media/base/audio_renderer_sink.h" #include "media/base/cdm_config.h" #include "media/base/cdm_context.h" #include "media/base/gmock_callback_support.h" #include "media/base/mock_filters.h" #include "media/base/test_helpers.h" #include "media/base/video_renderer_sink.h" #include "media/cdm/default_cdm_factory.h" #include "media/mojo/clients/mojo_renderer.h" #include "media/mojo/common/media_type_converters.h" #include "media/mojo/interfaces/content_decryption_module.mojom.h" #include "media/mojo/interfaces/renderer.mojom.h" #include "media/mojo/services/mojo_cdm_service.h" #include "media/mojo/services/mojo_cdm_service_context.h" #include "media/mojo/services/mojo_renderer_service.h" #include "media/renderers/video_overlay_factory.h" #include "mojo/public/cpp/bindings/interface_request.h" #include "mojo/public/cpp/bindings/strong_binding.h" #include "testing/gtest/include/gtest/gtest.h" using ::testing::_; using ::testing::DoAll; using ::testing::Return; using ::testing::SaveArg; using ::testing::StrictMock; namespace media { namespace { const int64_t kStartPlayingTimeInMs = 100; const char kClearKeyKeySystem[] = "org.w3.clearkey"; ACTION_P2(GetMediaTime, start_time, elapsed_timer) { return start_time + elapsed_timer->Elapsed(); } void WaitFor(base::TimeDelta duration) { base::RunLoop run_loop; base::ThreadTaskRunnerHandle::Get()->PostDelayedTask( FROM_HERE, run_loop.QuitClosure(), duration); run_loop.Run(); } } // namespace class MojoRendererTest : public ::testing::Test { public: MojoRendererTest() { std::unique_ptr> mock_renderer( new StrictMock()); mock_renderer_ = mock_renderer.get(); mojom::RendererPtr remote_renderer; renderer_binding_ = MojoRendererService::Create( mojo_cdm_service_context_.GetWeakPtr(), nullptr, nullptr, std::move(mock_renderer), MojoRendererService::InitiateSurfaceRequestCB(), mojo::GetProxy(&remote_renderer)); mojo_renderer_.reset( new MojoRenderer(message_loop_.task_runner(), std::unique_ptr(nullptr), nullptr, std::move(remote_renderer))); // CreateAudioStream() and CreateVideoStream() overrides expectations for // expected non-NULL streams. EXPECT_CALL(demuxer_, GetStream(_)).WillRepeatedly(Return(nullptr)); EXPECT_CALL(*mock_renderer_, GetMediaTime()) .WillRepeatedly(Return(base::TimeDelta())); } virtual ~MojoRendererTest() {} void Destroy() { mojo_renderer_.reset(); base::RunLoop().RunUntilIdle(); } // Completion callbacks. MOCK_METHOD1(OnInitialized, void(PipelineStatus)); MOCK_METHOD0(OnFlushed, void()); MOCK_METHOD1(OnCdmAttached, void(bool)); std::unique_ptr> CreateStream( DemuxerStream::Type type) { std::unique_ptr> stream( new StrictMock(type)); return stream; } void CreateAudioStream() { audio_stream_ = CreateStream(DemuxerStream::AUDIO); EXPECT_CALL(demuxer_, GetStream(DemuxerStream::AUDIO)) .WillRepeatedly(Return(audio_stream_.get())); } void CreateVideoStream(bool is_encrypted = false) { video_stream_ = CreateStream(DemuxerStream::VIDEO); video_stream_->set_video_decoder_config( is_encrypted ? TestVideoConfig::NormalEncrypted() : TestVideoConfig::Normal()); EXPECT_CALL(demuxer_, GetStream(DemuxerStream::VIDEO)) .WillRepeatedly(Return(video_stream_.get())); } void InitializeAndExpect(PipelineStatus status) { DVLOG(1) << __FUNCTION__ << ": " << status; EXPECT_CALL(*this, OnInitialized(status)); mojo_renderer_->Initialize( &demuxer_, &renderer_client_, base::Bind(&MojoRendererTest::OnInitialized, base::Unretained(this))); base::RunLoop().RunUntilIdle(); } void Initialize() { CreateAudioStream(); EXPECT_CALL(*mock_renderer_, Initialize(_, _, _)) .WillOnce(DoAll(SaveArg<1>(&remote_renderer_client_), RunCallback<2>(PIPELINE_OK))); InitializeAndExpect(PIPELINE_OK); } void Flush() { DVLOG(1) << __FUNCTION__; // Flush callback should always be fired. EXPECT_CALL(*this, OnFlushed()); mojo_renderer_->Flush( base::Bind(&MojoRendererTest::OnFlushed, base::Unretained(this))); base::RunLoop().RunUntilIdle(); } void SetCdmAndExpect(bool success) { DVLOG(1) << __FUNCTION__; // Set CDM callback should always be fired. EXPECT_CALL(*this, OnCdmAttached(success)); mojo_renderer_->SetCdm( &cdm_context_, base::Bind(&MojoRendererTest::OnCdmAttached, base::Unretained(this))); base::RunLoop().RunUntilIdle(); } // Simulates a connection error at the client side by killing the service. // Note that |mock_renderer_| will also be destroyed, do NOT expect anything // on it. Otherwise the test will crash. void ConnectionError() { DVLOG(1) << __FUNCTION__; DCHECK(renderer_binding_); renderer_binding_->Close(); base::RunLoop().RunUntilIdle(); } void OnCdmCreated(mojom::CdmPromiseResultPtr result, int cdm_id, mojom::DecryptorPtr decryptor) { EXPECT_TRUE(result->success); EXPECT_NE(CdmContext::kInvalidCdmId, cdm_id); cdm_context_.set_cdm_id(cdm_id); } void CreateCdm() { mojo::MakeStrongBinding( base::MakeUnique(mojo_cdm_service_context_.GetWeakPtr(), &cdm_factory_), mojo::GetProxy(&remote_cdm_)); remote_cdm_->Initialize( kClearKeyKeySystem, "https://www.test.com", mojom::CdmConfig::From(CdmConfig()), base::Bind(&MojoRendererTest::OnCdmCreated, base::Unretained(this))); base::RunLoop().RunUntilIdle(); } void StartPlayingFrom(base::TimeDelta start_time) { EXPECT_CALL(*mock_renderer_, StartPlayingFrom(start_time)); mojo_renderer_->StartPlayingFrom(start_time); EXPECT_EQ(start_time, mojo_renderer_->GetMediaTime()); base::RunLoop().RunUntilIdle(); } void Play() { StartPlayingFrom(base::TimeDelta::FromMilliseconds(kStartPlayingTimeInMs)); } // Fixture members. base::TestMessageLoop message_loop_; // The MojoRenderer that we are testing. std::unique_ptr mojo_renderer_; // Client side mocks and helpers. StrictMock renderer_client_; StrictMock cdm_context_; mojom::ContentDecryptionModulePtr remote_cdm_; // Client side mock demuxer and demuxer streams. StrictMock demuxer_; std::unique_ptr> audio_stream_; std::unique_ptr> video_stream_; // Service side mocks and helpers. StrictMock* mock_renderer_; MojoCdmServiceContext mojo_cdm_service_context_; RendererClient* remote_renderer_client_; DefaultCdmFactory cdm_factory_; mojo::StrongBindingPtr renderer_binding_; private: DISALLOW_COPY_AND_ASSIGN(MojoRendererTest); }; TEST_F(MojoRendererTest, Initialize_Success) { Initialize(); } TEST_F(MojoRendererTest, Initialize_Failure) { CreateAudioStream(); // Mojo Renderer only expects a boolean result, which will be translated // to PIPELINE_OK or PIPELINE_ERROR_INITIALIZATION_FAILED. EXPECT_CALL(*mock_renderer_, Initialize(_, _, _)) .WillOnce(RunCallback<2>(PIPELINE_ERROR_ABORT)); InitializeAndExpect(PIPELINE_ERROR_INITIALIZATION_FAILED); } TEST_F(MojoRendererTest, Initialize_BeforeConnectionError) { CreateAudioStream(); EXPECT_CALL(*mock_renderer_, Initialize(_, _, _)) .WillOnce(InvokeWithoutArgs(this, &MojoRendererTest::ConnectionError)); InitializeAndExpect(PIPELINE_ERROR_INITIALIZATION_FAILED); } TEST_F(MojoRendererTest, Initialize_AfterConnectionError) { ConnectionError(); CreateAudioStream(); InitializeAndExpect(PIPELINE_ERROR_INITIALIZATION_FAILED); } TEST_F(MojoRendererTest, Flush_Success) { Initialize(); EXPECT_CALL(*mock_renderer_, Flush(_)).WillOnce(RunClosure<0>()); Flush(); } TEST_F(MojoRendererTest, Flush_ConnectionError) { Initialize(); // Upon connection error, OnError() should be called once and only once. EXPECT_CALL(renderer_client_, OnError(PIPELINE_ERROR_DECODE)).Times(1); EXPECT_CALL(*mock_renderer_, Flush(_)) .WillOnce(InvokeWithoutArgs(this, &MojoRendererTest::ConnectionError)); Flush(); } TEST_F(MojoRendererTest, Flush_AfterConnectionError) { Initialize(); // Upon connection error, OnError() should be called once and only once. EXPECT_CALL(renderer_client_, OnError(PIPELINE_ERROR_DECODE)).Times(1); ConnectionError(); Flush(); } TEST_F(MojoRendererTest, SetCdm_Success) { Initialize(); CreateCdm(); EXPECT_CALL(*mock_renderer_, SetCdm(_, _)).WillOnce(RunCallback<1>(true)); SetCdmAndExpect(true); } TEST_F(MojoRendererTest, SetCdm_Failure) { Initialize(); CreateCdm(); EXPECT_CALL(*mock_renderer_, SetCdm(_, _)).WillOnce(RunCallback<1>(false)); SetCdmAndExpect(false); } TEST_F(MojoRendererTest, SetCdm_InvalidCdmId) { Initialize(); SetCdmAndExpect(false); } TEST_F(MojoRendererTest, SetCdm_NonExistCdmId) { Initialize(); cdm_context_.set_cdm_id(1); SetCdmAndExpect(false); } TEST_F(MojoRendererTest, SetCdm_BeforeInitialize) { CreateCdm(); EXPECT_CALL(*mock_renderer_, SetCdm(_, _)).WillOnce(RunCallback<1>(true)); SetCdmAndExpect(true); } TEST_F(MojoRendererTest, SetCdm_AfterInitializeAndConnectionError) { CreateCdm(); Initialize(); EXPECT_CALL(renderer_client_, OnError(PIPELINE_ERROR_DECODE)).Times(1); ConnectionError(); SetCdmAndExpect(false); } TEST_F(MojoRendererTest, SetCdm_AfterConnectionErrorAndBeforeInitialize) { CreateCdm(); // Initialize() is not called so RendererClient::OnError() is not expected. ConnectionError(); SetCdmAndExpect(false); InitializeAndExpect(PIPELINE_ERROR_INITIALIZATION_FAILED); } TEST_F(MojoRendererTest, SetCdm_BeforeInitializeAndConnectionError) { CreateCdm(); EXPECT_CALL(*mock_renderer_, SetCdm(_, _)).WillOnce(RunCallback<1>(true)); SetCdmAndExpect(true); // Initialize() is not called so RendererClient::OnError() is not expected. ConnectionError(); CreateAudioStream(); InitializeAndExpect(PIPELINE_ERROR_INITIALIZATION_FAILED); } TEST_F(MojoRendererTest, StartPlayingFrom) { Initialize(); Play(); } TEST_F(MojoRendererTest, GetMediaTime) { Initialize(); EXPECT_EQ(base::TimeDelta(), mojo_renderer_->GetMediaTime()); const base::TimeDelta kSleepTime = base::TimeDelta::FromMilliseconds(500); const base::TimeDelta kStartTime = base::TimeDelta::FromMilliseconds(kStartPlayingTimeInMs); // Media time should not advance since playback rate is 0. EXPECT_CALL(*mock_renderer_, SetPlaybackRate(0)); EXPECT_CALL(*mock_renderer_, StartPlayingFrom(kStartTime)); EXPECT_CALL(*mock_renderer_, GetMediaTime()) .WillRepeatedly(Return(kStartTime)); mojo_renderer_->SetPlaybackRate(0); mojo_renderer_->StartPlayingFrom(kStartTime); WaitFor(kSleepTime); EXPECT_EQ(kStartTime, mojo_renderer_->GetMediaTime()); // Media time should now advance since playback rate is > 0. std::unique_ptr elapsed_timer(new base::ElapsedTimer); EXPECT_CALL(*mock_renderer_, SetPlaybackRate(1.0)); EXPECT_CALL(*mock_renderer_, GetMediaTime()) .WillRepeatedly(GetMediaTime(kStartTime, elapsed_timer.get())); mojo_renderer_->SetPlaybackRate(1.0); WaitFor(kSleepTime); EXPECT_GT(mojo_renderer_->GetMediaTime(), kStartTime); // Flushing should pause media-time updates. EXPECT_CALL(*mock_renderer_, Flush(_)).WillOnce(RunClosure<0>()); Flush(); base::TimeDelta pause_time = mojo_renderer_->GetMediaTime(); EXPECT_GT(pause_time, kStartTime); WaitFor(kSleepTime); EXPECT_EQ(pause_time, mojo_renderer_->GetMediaTime()); Destroy(); } TEST_F(MojoRendererTest, OnBufferingStateChange) { Initialize(); Play(); EXPECT_CALL(renderer_client_, OnBufferingStateChange(BUFFERING_HAVE_ENOUGH)) .Times(1); remote_renderer_client_->OnBufferingStateChange(BUFFERING_HAVE_ENOUGH); EXPECT_CALL(renderer_client_, OnBufferingStateChange(BUFFERING_HAVE_NOTHING)) .Times(1); remote_renderer_client_->OnBufferingStateChange(BUFFERING_HAVE_NOTHING); base::RunLoop().RunUntilIdle(); } TEST_F(MojoRendererTest, OnEnded) { Initialize(); Play(); EXPECT_CALL(renderer_client_, OnEnded()).Times(1); remote_renderer_client_->OnEnded(); base::RunLoop().RunUntilIdle(); } // TODO(xhwang): Add tests for all RendererClient methods. TEST_F(MojoRendererTest, Destroy_PendingInitialize) { CreateAudioStream(); EXPECT_CALL(*mock_renderer_, Initialize(_, _, _)) .WillRepeatedly(RunCallback<2>(PIPELINE_ERROR_ABORT)); EXPECT_CALL(*this, OnInitialized(PIPELINE_ERROR_INITIALIZATION_FAILED)); mojo_renderer_->Initialize( &demuxer_, &renderer_client_, base::Bind(&MojoRendererTest::OnInitialized, base::Unretained(this))); Destroy(); } TEST_F(MojoRendererTest, Destroy_PendingFlush) { EXPECT_CALL(*mock_renderer_, SetCdm(_, _)) .WillRepeatedly(RunCallback<1>(true)); EXPECT_CALL(*this, OnCdmAttached(false)); mojo_renderer_->SetCdm( &cdm_context_, base::Bind(&MojoRendererTest::OnCdmAttached, base::Unretained(this))); Destroy(); } TEST_F(MojoRendererTest, Destroy_PendingSetCdm) { Initialize(); EXPECT_CALL(*mock_renderer_, Flush(_)).WillRepeatedly(RunClosure<0>()); EXPECT_CALL(*this, OnFlushed()); mojo_renderer_->Flush( base::Bind(&MojoRendererTest::OnFlushed, base::Unretained(this))); Destroy(); } // TODO(xhwang): Add more tests on OnError. For example, ErrorDuringFlush, // ErrorAfterFlush etc. TEST_F(MojoRendererTest, ErrorDuringPlayback) { Initialize(); EXPECT_CALL(renderer_client_, OnError(PIPELINE_ERROR_DECODE)).Times(1); Play(); remote_renderer_client_->OnError(PIPELINE_ERROR_DECODE); base::RunLoop().RunUntilIdle(); EXPECT_CALL(*mock_renderer_, SetPlaybackRate(0.0)).Times(1); mojo_renderer_->SetPlaybackRate(0.0); Flush(); } } // namespace media