// Copyright 2016 Google Inc. All rights reserved. // // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file or at // https://developers.google.com/open-source/licenses/bsd #include #include #include "packager/media/base/audio_stream_info.h" #include "packager/media/base/video_stream_info.h" #include "packager/media/event/mock_muxer_listener.h" #include "packager/media/formats/mp2t/pes_packet.h" #include "packager/media/formats/mp2t/program_map_table_writer.h" #include "packager/media/formats/mp2t/ts_segmenter.h" #include "packager/status_test_util.h" namespace shaka { namespace media { namespace mp2t { using ::testing::InSequence; using ::testing::Return; using ::testing::Sequence; using ::testing::StrEq; using ::testing::_; namespace { // All data here is bogus. They are used to create VideoStreamInfo but the // actual values don't matter at all. const bool kIsKeyFrame = true; const Codec kH264Codec = Codec::kCodecH264; const uint8_t kExtraData[] = { 0x00, }; const int kTrackId = 0; const uint32_t kTimeScale = 90000; const uint64_t kDuration = 180000; const char kCodecString[] = "avc1"; const char kLanguage[] = "eng"; const uint32_t kWidth = 1280; const uint32_t kHeight = 720; const uint32_t kPixelWidth = 1; const uint32_t kPixelHeight = 1; const uint16_t kTrickPlayFactor = 1; const uint8_t kNaluLengthSize = 1; const bool kIsEncrypted = false; const uint8_t kAnyData[] = { 0x01, 0x0F, 0x3C, }; class MockPesPacketGenerator : public PesPacketGenerator { public: MOCK_METHOD1(Initialize, bool(const StreamInfo& info)); MOCK_METHOD1(PushSample, bool(const MediaSample& sample)); MOCK_METHOD0(NumberOfReadyPesPackets, size_t()); // Hack found at the URL below for mocking methods that return // std::unique_ptr. // https://groups.google.com/a/chromium.org/forum/#!topic/chromium-dev/01sDxsJ1OYw MOCK_METHOD0(GetNextPesPacketMock, PesPacket*()); std::unique_ptr GetNextPesPacket() override { return std::unique_ptr(GetNextPesPacketMock()); } MOCK_METHOD0(Flush, bool()); }; class MockTsWriter : public TsWriter { public: MockTsWriter() : TsWriter(std::unique_ptr( // Create a bogus pmt writer, which we don't really care. new VideoProgramMapTableWriter(kUnknownCodec))) {} MOCK_METHOD1(NewSegment, bool(const std::string& file_name)); MOCK_METHOD0(SignalEncrypted, void()); MOCK_METHOD0(FinalizeSegment, bool()); // Similar to the hack above but takes a std::unique_ptr. MOCK_METHOD1(AddPesPacketMock, bool(PesPacket* pes_packet)); bool AddPesPacket(std::unique_ptr pes_packet) override { // No need to keep the pes packet around for the current tests. return AddPesPacketMock(pes_packet.get()); } }; } // namespace class TsSegmenterTest : public ::testing::Test { protected: void SetUp() override { mock_ts_writer_.reset(new MockTsWriter()); mock_pes_packet_generator_.reset(new MockPesPacketGenerator()); } std::unique_ptr mock_ts_writer_; std::unique_ptr mock_pes_packet_generator_; }; TEST_F(TsSegmenterTest, Initialize) { std::shared_ptr stream_info(new VideoStreamInfo( kTrackId, kTimeScale, kDuration, kH264Codec, H26xStreamFormat::kAnnexbByteStream, kCodecString, kExtraData, arraysize(kExtraData), kWidth, kHeight, kPixelWidth, kPixelHeight, kTrickPlayFactor, kNaluLengthSize, kLanguage, kIsEncrypted)); MuxerOptions options; options.segment_template = "file$Number$.ts"; TsSegmenter segmenter(options, nullptr); EXPECT_CALL(*mock_pes_packet_generator_, Initialize(_)) .WillOnce(Return(true)); segmenter.InjectPesPacketGeneratorForTesting( std::move(mock_pes_packet_generator_)); EXPECT_OK(segmenter.Initialize(*stream_info)); } TEST_F(TsSegmenterTest, AddSample) { std::shared_ptr stream_info(new VideoStreamInfo( kTrackId, kTimeScale, kDuration, kH264Codec, H26xStreamFormat::kAnnexbByteStream, kCodecString, kExtraData, arraysize(kExtraData), kWidth, kHeight, kPixelWidth, kPixelHeight, kTrickPlayFactor, kNaluLengthSize, kLanguage, kIsEncrypted)); MuxerOptions options; options.segment_template = "file$Number$.ts"; TsSegmenter segmenter(options, nullptr); EXPECT_CALL(*mock_pes_packet_generator_, Initialize(_)) .WillOnce(Return(true)); std::shared_ptr sample = MediaSample::CopyFrom(kAnyData, arraysize(kAnyData), kIsKeyFrame); Sequence writer_sequence; EXPECT_CALL(*mock_ts_writer_, NewSegment(StrEq("file1.ts"))) .InSequence(writer_sequence) .WillOnce(Return(true)); EXPECT_CALL(*mock_pes_packet_generator_, PushSample(_)) .WillOnce(Return(true)); Sequence ready_pes_sequence; EXPECT_CALL(*mock_pes_packet_generator_, NumberOfReadyPesPackets()) .InSequence(ready_pes_sequence) .WillOnce(Return(1u)); EXPECT_CALL(*mock_pes_packet_generator_, NumberOfReadyPesPackets()) .InSequence(ready_pes_sequence) .WillOnce(Return(0u)); EXPECT_CALL(*mock_ts_writer_, AddPesPacketMock(_)) .WillOnce(Return(true)); // The pointer is released inside the segmenter. EXPECT_CALL(*mock_pes_packet_generator_, GetNextPesPacketMock()) .WillOnce(Return(new PesPacket())); segmenter.InjectPesPacketGeneratorForTesting( std::move(mock_pes_packet_generator_)); EXPECT_OK(segmenter.Initialize(*stream_info)); segmenter.InjectTsWriterForTesting(std::move(mock_ts_writer_)); EXPECT_OK(segmenter.AddSample(*sample)); } // This will add one sample then finalize segment then add another sample. TEST_F(TsSegmenterTest, PassedSegmentDuration) { // Use something significantly smaller than 90000 to check that the scaling is // done correctly in the segmenter. const uint32_t kInputTimescale = 1001; std::shared_ptr stream_info(new VideoStreamInfo( kTrackId, kInputTimescale, kDuration, kH264Codec, H26xStreamFormat::kAnnexbByteStream, kCodecString, kExtraData, arraysize(kExtraData), kWidth, kHeight, kPixelWidth, kPixelHeight, kTrickPlayFactor, kNaluLengthSize, kLanguage, kIsEncrypted)); MuxerOptions options; options.segment_template = "file$Number$.ts"; MockMuxerListener mock_listener; TsSegmenter segmenter(options, &mock_listener); const uint32_t kFirstPts = 1000; EXPECT_CALL(*mock_pes_packet_generator_, Initialize(_)) .WillOnce(Return(true)); std::shared_ptr sample1 = MediaSample::CopyFrom(kAnyData, arraysize(kAnyData), kIsKeyFrame); sample1->set_duration(kInputTimescale * 11); std::shared_ptr sample2 = MediaSample::CopyFrom(kAnyData, arraysize(kAnyData), kIsKeyFrame); // Doesn't really matter how long this is. sample2->set_duration(kInputTimescale * 7); // (Finalize is not called at the end of this test so) Expect one segment // event. The length should be the same as the above sample that exceeds the // duration. EXPECT_CALL(mock_listener, OnNewSegment("file1.ts", kFirstPts * kTimeScale / kInputTimescale, kTimeScale * 11, _)); Sequence writer_sequence; EXPECT_CALL(*mock_ts_writer_, NewSegment(StrEq("file1.ts"))) .InSequence(writer_sequence) .WillOnce(Return(true)); EXPECT_CALL(*mock_pes_packet_generator_, PushSample(_)) .Times(2) .WillRepeatedly(Return(true)); Sequence ready_pes_sequence; // First AddSample(). EXPECT_CALL(*mock_pes_packet_generator_, NumberOfReadyPesPackets()) .InSequence(ready_pes_sequence) .WillOnce(Return(1u)); EXPECT_CALL(*mock_pes_packet_generator_, NumberOfReadyPesPackets()) .InSequence(ready_pes_sequence) .WillOnce(Return(0u)); // When Flush() is called, inside second AddSample(). EXPECT_CALL(*mock_pes_packet_generator_, NumberOfReadyPesPackets()) .InSequence(ready_pes_sequence) .WillOnce(Return(0u)); // Still inside AddSample() but after Flush(). EXPECT_CALL(*mock_pes_packet_generator_, NumberOfReadyPesPackets()) .InSequence(ready_pes_sequence) .WillOnce(Return(1u)); EXPECT_CALL(*mock_pes_packet_generator_, NumberOfReadyPesPackets()) .InSequence(ready_pes_sequence) .WillOnce(Return(0u)); EXPECT_CALL(*mock_pes_packet_generator_, Flush()) .WillOnce(Return(true)); EXPECT_CALL(*mock_ts_writer_, FinalizeSegment()) .InSequence(writer_sequence) .WillOnce(Return(true)); EXPECT_CALL(*mock_ts_writer_, NewSegment(StrEq("file2.ts"))) .InSequence(writer_sequence) .WillOnce(Return(true)); EXPECT_CALL(*mock_ts_writer_, AddPesPacketMock(_)) .Times(2) .WillRepeatedly(Return(true)); // The pointers are released inside the segmenter. Sequence pes_packet_sequence; EXPECT_CALL(*mock_pes_packet_generator_, GetNextPesPacketMock()) .InSequence(pes_packet_sequence) .WillOnce(Return(new PesPacket)); EXPECT_CALL(*mock_pes_packet_generator_, GetNextPesPacketMock()) .InSequence(pes_packet_sequence) .WillOnce(Return(new PesPacket())); segmenter.InjectPesPacketGeneratorForTesting( std::move(mock_pes_packet_generator_)); EXPECT_OK(segmenter.Initialize(*stream_info)); segmenter.InjectTsWriterForTesting(std::move(mock_ts_writer_)); EXPECT_OK(segmenter.AddSample(*sample1)); EXPECT_OK(segmenter.FinalizeSegment(kFirstPts, sample1->duration())); EXPECT_OK(segmenter.AddSample(*sample2)); } // Finalize right after Initialize(). The writer will not be initialized. TEST_F(TsSegmenterTest, InitializeThenFinalize) { std::shared_ptr stream_info(new VideoStreamInfo( kTrackId, kTimeScale, kDuration, kH264Codec, H26xStreamFormat::kAnnexbByteStream, kCodecString, kExtraData, arraysize(kExtraData), kWidth, kHeight, kPixelWidth, kPixelHeight, kTrickPlayFactor, kNaluLengthSize, kLanguage, kIsEncrypted)); MuxerOptions options; options.segment_template = "file$Number$.ts"; TsSegmenter segmenter(options, nullptr); EXPECT_CALL(*mock_pes_packet_generator_, Initialize(_)) .WillOnce(Return(true)); EXPECT_CALL(*mock_pes_packet_generator_, Flush()).Times(0); ON_CALL(*mock_pes_packet_generator_, NumberOfReadyPesPackets()) .WillByDefault(Return(0)); segmenter.InjectPesPacketGeneratorForTesting( std::move(mock_pes_packet_generator_)); EXPECT_OK(segmenter.Initialize(*stream_info)); EXPECT_OK(segmenter.Finalize()); } // Verify the "normal" case where samples have been added and the writer has // been initialized. // The test does not really add any samples but instead simulates an initialized // writer with a mock. TEST_F(TsSegmenterTest, FinalizeSegment) { std::shared_ptr stream_info(new VideoStreamInfo( kTrackId, kTimeScale, kDuration, kH264Codec, H26xStreamFormat::kAnnexbByteStream, kCodecString, kExtraData, arraysize(kExtraData), kWidth, kHeight, kPixelWidth, kPixelHeight, kTrickPlayFactor, kNaluLengthSize, kLanguage, kIsEncrypted)); MuxerOptions options; options.segment_template = "file$Number$.ts"; TsSegmenter segmenter(options, nullptr); EXPECT_CALL(*mock_pes_packet_generator_, Initialize(_)) .WillOnce(Return(true)); InSequence s; EXPECT_CALL(*mock_pes_packet_generator_, Flush()).WillOnce(Return(true)); EXPECT_CALL(*mock_pes_packet_generator_, NumberOfReadyPesPackets()) .WillOnce(Return(0u)); EXPECT_CALL(*mock_ts_writer_, FinalizeSegment()).WillOnce(Return(true)); segmenter.InjectPesPacketGeneratorForTesting( std::move(mock_pes_packet_generator_)); EXPECT_OK(segmenter.Initialize(*stream_info)); segmenter.InjectTsWriterForTesting(std::move(mock_ts_writer_)); segmenter.SetTsWriterFileOpenedForTesting(true); EXPECT_OK(segmenter.FinalizeSegment(0, 100 /* arbitrary duration */)); } TEST_F(TsSegmenterTest, EncryptedSample) { std::shared_ptr stream_info(new VideoStreamInfo( kTrackId, kTimeScale, kDuration, kH264Codec, H26xStreamFormat::kAnnexbByteStream, kCodecString, kExtraData, arraysize(kExtraData), kWidth, kHeight, kPixelWidth, kPixelHeight, kTrickPlayFactor, kNaluLengthSize, kLanguage, kIsEncrypted)); MuxerOptions options; options.segment_template = "file$Number$.ts"; MockMuxerListener mock_listener; TsSegmenter segmenter(options, &mock_listener); ON_CALL(*mock_ts_writer_, NewSegment(_)).WillByDefault(Return(true)); ON_CALL(*mock_ts_writer_, FinalizeSegment()).WillByDefault(Return(true)); ON_CALL(*mock_ts_writer_, AddPesPacketMock(_)).WillByDefault(Return(true)); ON_CALL(*mock_pes_packet_generator_, Initialize(_)) .WillByDefault(Return(true)); ON_CALL(*mock_pes_packet_generator_, Flush()).WillByDefault(Return(true)); const uint8_t kAnyData[] = { 0x01, 0x0F, 0x3C, }; std::shared_ptr sample1 = MediaSample::CopyFrom(kAnyData, arraysize(kAnyData), kIsKeyFrame); sample1->set_duration(kTimeScale * 2); std::shared_ptr sample2 = MediaSample::CopyFrom(kAnyData, arraysize(kAnyData), kIsKeyFrame); sample2->set_duration(kTimeScale * 3); EXPECT_CALL(*mock_pes_packet_generator_, PushSample(_)) .Times(2) .WillRepeatedly(Return(true)); Sequence ready_pes_sequence; // First AddSample(). EXPECT_CALL(*mock_pes_packet_generator_, NumberOfReadyPesPackets()) .InSequence(ready_pes_sequence) .WillOnce(Return(1u)); EXPECT_CALL(*mock_pes_packet_generator_, NumberOfReadyPesPackets()) .InSequence(ready_pes_sequence) .WillOnce(Return(0u)); // When Flush() is called, inside second AddSample(). EXPECT_CALL(*mock_pes_packet_generator_, NumberOfReadyPesPackets()) .InSequence(ready_pes_sequence) .WillOnce(Return(0u)); // Still inside AddSample() but after Flush(). EXPECT_CALL(*mock_pes_packet_generator_, NumberOfReadyPesPackets()) .InSequence(ready_pes_sequence) .WillOnce(Return(1u)); EXPECT_CALL(*mock_pes_packet_generator_, NumberOfReadyPesPackets()) .InSequence(ready_pes_sequence) .WillOnce(Return(0u)); EXPECT_CALL(*mock_ts_writer_, AddPesPacketMock(_)) .Times(2) .WillRepeatedly(Return(true)); // The pointers are released inside the segmenter. Sequence pes_packet_sequence; EXPECT_CALL(*mock_pes_packet_generator_, GetNextPesPacketMock()) .InSequence(pes_packet_sequence) .WillOnce(Return(new PesPacket())); EXPECT_CALL(*mock_pes_packet_generator_, GetNextPesPacketMock()) .InSequence(pes_packet_sequence) .WillOnce(Return(new PesPacket())); MockTsWriter* mock_ts_writer_raw = mock_ts_writer_.get(); segmenter.InjectPesPacketGeneratorForTesting( std::move(mock_pes_packet_generator_)); EXPECT_OK(segmenter.Initialize(*stream_info)); segmenter.InjectTsWriterForTesting(std::move(mock_ts_writer_)); EXPECT_OK(segmenter.AddSample(*sample1)); EXPECT_OK(segmenter.FinalizeSegment(1, sample1->duration())); // Signal encrypted if sample is encrypted. EXPECT_CALL(*mock_ts_writer_raw, SignalEncrypted()); sample2->set_is_encrypted(true); EXPECT_OK(segmenter.AddSample(*sample2)); } } // namespace mp2t } // namespace media } // namespace shaka