// Copyright 2017 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/media_handler_test_base.h" #include "packager/media/chunking/text_chunker.h" #include "packager/status_test_util.h" namespace shaka { namespace media { namespace { const uint64_t kStreamIndex = 0; const uint64_t kMsTimeScale = 1000u; const size_t kInputs = 1; const size_t kOutputs = 1; const size_t kInput = 0; const size_t kOutput = 0; const bool kEncrypted = true; const bool kSubSegment = true; const uint64_t kTimescaleMs = 1000; const char* kNoId = ""; const char* kNoSettings = ""; const char* kNoPayload = ""; } // namespace class TextChunkerTest : public MediaHandlerTestBase { protected: void Init(double segment_duration) { ASSERT_OK(SetUpAndInitializeGraph( std::make_shared(segment_duration), kInputs, kOutputs)); } }; // Verify that when a sample elapses a full segment, that it only appears // in the one segment. // // Segment Duration = 100 MS // // TIME (ms):0 5 1 // 0 0 // 0 // SAMPLES :[-----A-----] // SEGMENTS : ^ // TEST_F(TextChunkerTest, SampleEndingOnSegmentStart) { const double kSegmentDurationSec = 0.1; const int64_t kSegmentDurationMs = 100; const int64_t kSegment0Start = 0; const int64_t kSampleAStart = 0; const int64_t kSampleAEnd = 100; Init(kSegmentDurationSec); { testing::InSequence s; EXPECT_CALL(*Output(kOutput), OnProcess(IsStreamInfo(kStreamIndex))); EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kNoId, kSampleAStart, kSampleAEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsSegmentInfo(kStreamIndex, kSegment0Start, kSegmentDurationMs, !kSubSegment, !kEncrypted))); EXPECT_CALL(*Output(kOutput), OnFlush(kStreamIndex)); } ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromStreamInfo( kStreamIndex, GetTextStreamInfo(kMsTimeScale)))); ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromTextSample( kStreamIndex, GetTextSample(kNoId, kSampleAStart, kSampleAEnd, kNoPayload)))); ASSERT_OK(Input(kInput)->FlushAllDownstreams()); } // Verify that samples only appear in the correct segments when they only exist // in one segment. // // Segment Duration = 100 MS // // TIME (ms):0 5 1 1 2 // 0 0 5 0 // 0 0 0 // SAMPLES : [--A--] // [--B--] // SEGMENTS : ^ ^ // TEST_F(TextChunkerTest, CreatesSegmentsForSamples) { const double kSegmentDurationSec = 0.1; const int64_t kSegmentDurationMs = 100; const int64_t kSegment0Start = 0; const int64_t kSegment1Start = 100; const int64_t kSampleAStart = 25; const int64_t kSampleAEnd = 75; const int64_t kSampleBStart = 125; const int64_t kSampleBEnd = 175; Init(kSegmentDurationSec); { testing::InSequence s; EXPECT_CALL(*Output(kOutput), OnProcess(IsStreamInfo(kStreamIndex))); // Segment One EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kNoId, kSampleAStart, kSampleAEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsSegmentInfo(kStreamIndex, kSegment0Start, kSegmentDurationMs, !kSubSegment, !kEncrypted))); // Segment Two EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kNoId, kSampleBStart, kSampleBEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsSegmentInfo(kStreamIndex, kSegment1Start, kSegmentDurationMs, !kSubSegment, !kEncrypted))); EXPECT_CALL(*Output(kOutput), OnFlush(kStreamIndex)); } ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromStreamInfo( kStreamIndex, GetTextStreamInfo(kMsTimeScale)))); ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromTextSample( kStreamIndex, GetTextSample(kNoId, kSampleAStart, kSampleAEnd, kNoPayload)))); ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromTextSample( kStreamIndex, GetTextSample(kNoId, kSampleBStart, kSampleBEnd, kNoPayload)))); ASSERT_OK(Input(kInput)->FlushAllDownstreams()); } // Verify that a segment will get outputted even if there are no samples // overlapping with it. // // Segment Duration = 100 MS // // TIME (ms):0 5 1 1 2 2 3 // 0 0 5 0 5 0 // 0 0 0 0 0 // SAMPLES : [--A--] // [--B--] // SEGMENTS : ^ ^ ^ // TEST_F(TextChunkerTest, OutputsEmptySegments) { const double kSegmentDurationSec = 0.1; const int64_t kSegmentDurationMs = 100; const int64_t kSegment0Start = 0; const int64_t kSegment1Start = 100; const int64_t kSegment2Start = 200; const int64_t kSampleAStart = 25; const int64_t kSampleAEnd = 75; const int64_t kSampleBStart = 225; const int64_t kSampleBEnd = 275; Init(kSegmentDurationSec); { testing::InSequence s; EXPECT_CALL(*Output(kOutput), OnProcess(IsStreamInfo(kStreamIndex))); // Segment One EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kNoId, kSampleAStart, kSampleAEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsSegmentInfo(kStreamIndex, kSegment0Start, kSegmentDurationMs, !kSubSegment, !kEncrypted))); // Segment Two (empty segment) EXPECT_CALL(*Output(kOutput), OnProcess(IsSegmentInfo(kStreamIndex, kSegment1Start, kSegmentDurationMs, !kSubSegment, !kEncrypted))); // Segment Three EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kNoId, kSampleBStart, kSampleBEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsSegmentInfo(kStreamIndex, kSegment2Start, kSegmentDurationMs, !kSubSegment, !kEncrypted))); EXPECT_CALL(*Output(kOutput), OnFlush(kStreamIndex)); } ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromStreamInfo( kStreamIndex, GetTextStreamInfo(kMsTimeScale)))); ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromTextSample( kStreamIndex, GetTextSample(kNoId, kSampleAStart, kSampleAEnd, kNoPayload)))); ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromTextSample( kStreamIndex, GetTextSample(kNoId, kSampleBStart, kSampleBEnd, kNoPayload)))); ASSERT_OK(Input(kInput)->FlushAllDownstreams()); } // Verify that samples that overlap multiple samples get dispatch in all // segments. // // Segment Duration = 100 MS // // TIME (ms):0 5 1 1 // 0 0 5 // 0 0 // SAMPLES : [-----A-----] // SEGMENTS : ^ // TEST_F(TextChunkerTest, SampleCrossesSegments) { const double kSegmentDurationSec = 0.1; const int64_t kSegmentDurationMs = 100; const int64_t kSegment0Start = 0; const int64_t kSegment1Start = 100; const int64_t kSampleAStart = 50; const int64_t kSampleAEnd = 150; Init(kSegmentDurationSec); { testing::InSequence s; EXPECT_CALL(*Output(kOutput), OnProcess(IsStreamInfo(kStreamIndex))); // Segment One EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kNoId, kSampleAStart, kSampleAEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsSegmentInfo(kStreamIndex, kSegment0Start, kSegmentDurationMs, !kSubSegment, !kEncrypted))); // Segment Two EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kNoId, kSampleAStart, kSampleAEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsSegmentInfo(kStreamIndex, kSegment1Start, kSegmentDurationMs, !kSubSegment, !kEncrypted))); EXPECT_CALL(*Output(kOutput), OnFlush(kStreamIndex)); } ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromStreamInfo( kStreamIndex, GetTextStreamInfo(kTimescaleMs)))); ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromTextSample( kStreamIndex, GetTextSample(kNoId, kSampleAStart, kSampleAEnd, kNoPayload)))); ASSERT_OK(Input(kInput)->FlushAllDownstreams()); } // Verify that samples that overlap multiple samples get dispatch in all // segments, even if different samples elapse different number of segments. // // Segment Duration = 100 MS // // TIME (ms):0 5 1 1 2 2 3 // 0 0 5 0 5 0 // 0 0 0 0 0 // SAMPLES : [-----A-----] // [-----B-----] // [-----------C-----------] // SEGMENTS : ^ ^ ^ // TEST_F(TextChunkerTest, PreservesOrder) { const double kSegmentDurationSec = 0.1; const int64_t kSegmentDurationMs = 100; const int64_t kSegment0Start = 0; const int64_t kSegment1Start = 100; const int64_t kSegment2Start = 200; const int64_t kSampleAStart = 50; const int64_t kSampleAEnd = 150; const int64_t kSampleBStart = 50; const int64_t kSampleBEnd = 150; const int64_t kSampleCStart = 50; const int64_t kSampleCEnd = 250; const char* kSampleAId = "sample 0"; const char* kSampleBId = "sample 1"; const char* kSampleCId = "sample 2"; Init(kSegmentDurationSec); { testing::InSequence s; EXPECT_CALL(*Output(kOutput), OnProcess(IsStreamInfo(kStreamIndex))); // Segment One EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kSampleAId, kSampleAStart, kSampleAEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kSampleBId, kSampleBStart, kSampleBEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kSampleCId, kSampleCStart, kSampleCEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsSegmentInfo(kStreamIndex, kSegment0Start, kSegmentDurationMs, !kSubSegment, !kEncrypted))); // Segment Two EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kSampleAId, kSampleAStart, kSampleAEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kSampleBId, kSampleBStart, kSampleBEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kSampleCId, kSampleCStart, kSampleCEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsSegmentInfo(kStreamIndex, kSegment1Start, kSegmentDurationMs, !kSubSegment, !kEncrypted))); // Segment Two EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kSampleCId, kSampleCStart, kSampleCEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsSegmentInfo(kStreamIndex, kSegment2Start, kSegmentDurationMs, !kSubSegment, !kEncrypted))); EXPECT_CALL(*Output(kOutput), OnFlush(kStreamIndex)); } ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromStreamInfo( kStreamIndex, GetTextStreamInfo(kMsTimeScale)))); ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromTextSample( kStreamIndex, GetTextSample(kSampleAId, kSampleAStart, kSampleAEnd, kNoPayload)))); ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromTextSample( kStreamIndex, GetTextSample(kSampleBId, kSampleBStart, kSampleBEnd, kNoPayload)))); ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromTextSample( kStreamIndex, GetTextSample(kSampleCId, kSampleCStart, kSampleCEnd, kNoPayload)))); ASSERT_OK(Input(kInput)->FlushAllDownstreams()); } // Check that when samples overlap/contain other samples, that they still // get outputted in the correct segments. // // Segment Duration = 50 MS // // TIME (ms):0 5 1 1 2 2 // 0 0 5 0 5 // 0 0 0 0 // SAMPLES : [-----------A-----------] // [-----B------] // SEGMENTS : ^ ^ ^ ^ ^ // TEST_F(TextChunkerTest, NestedSamples) { const double kSegmentDurationSec = 0.05; const int64_t kSegmentDurationMs = 50; const int64_t kSampleAStart = 25; const int64_t kSampleAEnd = 225; const int64_t kSampleBStart = 75; const int64_t kSampleBEnd = 175; const int64_t kSegment0Start = 0; const int64_t kSegment1Start = 50; const int64_t kSegment2Start = 100; const int64_t kSegment3Start = 150; const int64_t kSegment4Start = 200; Init(kSegmentDurationSec); { testing::InSequence s; EXPECT_CALL(*Output(kOutput), OnProcess(IsStreamInfo(kStreamIndex))); // Segment 0 EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kNoId, kSampleAStart, kSampleAEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsSegmentInfo(kStreamIndex, kSegment0Start, kSegmentDurationMs, !kSubSegment, !kEncrypted))); // Segment 1 EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kNoId, kSampleAStart, kSampleAEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kNoId, kSampleBStart, kSampleBEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsSegmentInfo(kStreamIndex, kSegment1Start, kSegmentDurationMs, !kSubSegment, !kEncrypted))); // Segment 2 EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kNoId, kSampleAStart, kSampleAEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kNoId, kSampleBStart, kSampleBEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsSegmentInfo(kStreamIndex, kSegment2Start, kSegmentDurationMs, !kSubSegment, !kEncrypted))); // Segment 3 EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kNoId, kSampleAStart, kSampleAEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kNoId, kSampleBStart, kSampleBEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsSegmentInfo(kStreamIndex, kSegment3Start, kSegmentDurationMs, !kSubSegment, !kEncrypted))); // Segment 4 EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kNoId, kSampleAStart, kSampleAEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsSegmentInfo(kStreamIndex, kSegment4Start, kSegmentDurationMs, !kSubSegment, !kEncrypted))); EXPECT_CALL(*Output(kOutput), OnFlush(kStreamIndex)); } ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromStreamInfo( kStreamIndex, GetTextStreamInfo(kMsTimeScale)))); ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromTextSample( kStreamIndex, GetTextSample(kNoId, kSampleAStart, kSampleAEnd, kNoPayload)))); ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromTextSample( kStreamIndex, GetTextSample(kNoId, kSampleBStart, kSampleBEnd, kNoPayload)))); ASSERT_OK(Input(kInput)->FlushAllDownstreams()); } // Make sure that a sample that extends multiple segments is dropped when // it no longer overlaps with a later segment. // // Segment Duration = 100 MS // // TIME (ms):0 5 1 1 2 2 3 // 0 0 5 0 5 0 // 0 0 0 0 0 // SAMPLES : [--------A--------] // [--B--] // SEGMENTS : ^ ^ ^ // TEST_F(TextChunkerTest, SecondSampleStartsAfterMultiSegmentSampleEnds) { const double kSegmentDurationSec = 0.1; const int64_t kSegmentDurationMs = 100; const int64_t kSegment0Start = 0; const int64_t kSegment1Start = 100; const int64_t kSegment2Start = 200; const int64_t kSampleAStart = 50; const int64_t kSampleAEnd = 200; const int64_t kSampleBStart = 200; const int64_t kSampleBEnd = 250; Init(kSegmentDurationSec); { testing::InSequence s; EXPECT_CALL(*Output(kOutput), OnProcess(IsStreamInfo(kStreamIndex))); // Segment One EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kNoId, kSampleAStart, kSampleAEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsSegmentInfo(kStreamIndex, kSegment0Start, kSegmentDurationMs, !kSubSegment, !kEncrypted))); // Segment Two EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kNoId, kSampleAStart, kSampleAEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsSegmentInfo(kStreamIndex, kSegment1Start, kSegmentDurationMs, !kSubSegment, !kEncrypted))); // Segment Three EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kNoId, kSampleBStart, kSampleBEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsSegmentInfo(kStreamIndex, kSegment2Start, kSegmentDurationMs, !kSubSegment, !kEncrypted))); EXPECT_CALL(*Output(kOutput), OnFlush(kStreamIndex)); } ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromStreamInfo( kStreamIndex, GetTextStreamInfo(kTimescaleMs)))); ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromTextSample( kStreamIndex, GetTextSample(kNoId, kSampleAStart, kSampleAEnd, kNoPayload)))); ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromTextSample( kStreamIndex, GetTextSample(kNoId, kSampleBStart, kSampleBEnd, kNoPayload)))); ASSERT_OK(Input(kInput)->FlushAllDownstreams()); } // Check that segments will be injected when a cue event comes down the // pipeline and that the segment duration will get reset after the cues // are dispatched. // // Segment Duration = 300 MS // // TIME (ms):0 5 1 1 2 2 3 3 4 5 // 0 0 5 0 5 0 5 5 0 // 0 0 0 0 0 0 0 0 // SAMPLES : [-----------A-----------] // CUES : ^ ^ // SEGMENTS : ^ ^ ^ // TEST_F(TextChunkerTest, SampleSpanningMultipleCues) { const double kSegmentDurationSec = 0.3; const int64_t kSegmentDurationMs = 300; const int64_t kSampleAStart = 50; const int64_t kSampleAEnd = 250; const double kC0 = 0.1; const double kC1 = 0.2; const int64_t kSegment0Start = 0; const int64_t kSegment1Start = 100; const int64_t kSegment2Start = 200; ; const double kSegment0StartLength = 100; const double kSegment1StartLength = 100; Init(kSegmentDurationSec); { testing::InSequence s; EXPECT_CALL(*Output(kOutput), OnProcess(IsStreamInfo(kStreamIndex))); // Segment 0 and Cue 0 EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kNoId, kSampleAStart, kSampleAEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsSegmentInfo(kStreamIndex, kSegment0Start, kSegment0StartLength, !kSubSegment, !kEncrypted))); EXPECT_CALL(*Output(kOutput), OnProcess(IsCueEvent(kStreamIndex, kC0))); // Segment 1 and Cue 1 EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kNoId, kSampleAStart, kSampleAEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsSegmentInfo(kStreamIndex, kSegment1Start, kSegment1StartLength, !kSubSegment, !kEncrypted))); EXPECT_CALL(*Output(kOutput), OnProcess(IsCueEvent(kStreamIndex, kC1))); // Segment 2 EXPECT_CALL(*Output(kOutput), OnProcess(IsTextSample(kNoId, kSampleAStart, kSampleAEnd, kNoSettings, kNoPayload))); EXPECT_CALL(*Output(kOutput), OnProcess(IsSegmentInfo(kStreamIndex, kSegment2Start, kSegmentDurationMs, !kSubSegment, !kEncrypted))); } ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromStreamInfo( kStreamIndex, GetTextStreamInfo(kTimescaleMs)))); ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromTextSample( kStreamIndex, GetTextSample(kNoId, kSampleAStart, kSampleAEnd, kNoPayload)))); ASSERT_OK(Input(kInput)->Dispatch( StreamData::FromCueEvent(kStreamIndex, GetCueEvent(kC0)))); ASSERT_OK(Input(kInput)->Dispatch( StreamData::FromCueEvent(kStreamIndex, GetCueEvent(kC1)))); ASSERT_OK(Input(kInput)->FlushAllDownstreams()); } } // namespace media } // namespace shaka