Implemented PackedAudioWriter

Issue #342. Change-Id: Ic1379b00e38f818460f24ad57122ca22c5b5285a
2018-05-10 14:51:24 -07:00 · 2018-05-10 14:51:24 -07:00 · 39beb99d6c
parent 33c4f344e7
commit 39beb99d6c
5 changed files with 460 additions and 1 deletions
--- a/packager/media/event/muxer_listener.h
+++ b/packager/media/event/muxer_listener.h
@ -36,7 +36,8 @@ class MuxerListener {
    kContainerMp4,
    kContainerMpeg2ts,
    kContainerWebM,
-    kContainerText
+    kContainerText,
    kContainerPackedAudio,
  };
  /// Structure for specifying ranges within a media file. This is mainly for
--- a/packager/media/formats/packed_audio/packed_audio.gyp
+++ b/packager/media/formats/packed_audio/packed_audio.gyp
@ -15,6 +15,8 @@
      'sources': [
        'packed_audio_segmenter.cc',
        'packed_audio_segmenter.h',
        'packed_audio_writer.cc',
        'packed_audio_writer.h',
      ],
      'dependencies': [
        '../../base/media_base.gyp:media_base',
@ -26,11 +28,14 @@
      'type': '<(gtest_target_type)',
      'sources': [
        'packed_audio_segmenter_unittest.cc',
        'packed_audio_writer_unittest.cc',
      ],
      'dependencies': [
        '../../../testing/gtest.gyp:gtest',
        '../../../testing/gmock.gyp:gmock',
        '../../base/media_base.gyp:media_handler_test_base',
        '../../codecs/codecs.gyp:codecs',
        '../../event/media_event.gyp:mock_muxer_listener',
        '../../test/media_test.gyp:media_test_support',
        'packed_audio',
      ],
--- a/packager/media/formats/packed_audio/packed_audio_writer.cc
+++ b/packager/media/formats/packed_audio/packed_audio_writer.cc
@ -0,0 +1,132 @@
 // Copyright 2018 Google LLC. 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 "packager/media/formats/packed_audio/packed_audio_writer.h"
 #include "packager/media/base/muxer_util.h"
 #include "packager/media/formats/packed_audio/packed_audio_segmenter.h"
 #include "packager/status_macros.h"
 namespace shaka {
 namespace media {
 PackedAudioWriter::PackedAudioWriter(const MuxerOptions& muxer_options)
    : Muxer(muxer_options), segmenter_(new PackedAudioSegmenter) {}
 PackedAudioWriter::~PackedAudioWriter() = default;
 Status PackedAudioWriter::InitializeMuxer() {
  if (streams().size() > 1u)
    return Status(error::MUXER_FAILURE, "Cannot handle more than one streams.");
  RETURN_IF_ERROR(segmenter_->Initialize(*streams()[0]));
  if (options().segment_template.empty()) {
    const std::string& file_name = options().output_file_name;
    DCHECK(!file_name.empty());
    output_file_.reset(File::Open(file_name.c_str(), "w"));
    if (!output_file_) {
      return Status(error::FILE_FAILURE,
                    "Cannot open file for write " + file_name);
    }
  }
  if (muxer_listener()) {
    muxer_listener()->OnMediaStart(options(), *streams().front(),
                                   kPackedAudioTimescale,
                                   MuxerListener::kContainerPackedAudio);
  }
  return Status::OK;
 }
 Status PackedAudioWriter::Finalize() {
  if (output_file_)
    RETURN_IF_ERROR(CloseFile(std::move(output_file_)));
  if (muxer_listener()) {
    muxer_listener()->OnMediaEnd(
        media_ranges_, total_duration_ * segmenter_->TimescaleScale());
  }
  return Status::OK;
 }
 Status PackedAudioWriter::AddSample(size_t stream_id,
                                    const MediaSample& sample) {
  DCHECK_EQ(stream_id, 0u);
  return segmenter_->AddSample(sample);
 }
 Status PackedAudioWriter::FinalizeSegment(size_t stream_id,
                                          const SegmentInfo& segment_info) {
  DCHECK_EQ(stream_id, 0u);
  // PackedAudio does not support subsegment.
  if (segment_info.is_subsegment)
    return Status::OK;
  RETURN_IF_ERROR(segmenter_->FinalizeSegment());
  const uint64_t segment_timestamp =
      segment_info.start_timestamp * segmenter_->TimescaleScale();
  std::string segment_path =
      options().segment_template.empty()
          ? options().output_file_name
          : GetSegmentName(options().segment_template, segment_timestamp,
                           segment_number_++, options().bandwidth);
  // Save |segment_size| as it will be cleared after writing.
  const size_t segment_size = segmenter_->segment_buffer()->Size();
  RETURN_IF_ERROR(WriteSegment(segment_path, segmenter_->segment_buffer()));
  total_duration_ += segment_info.duration;
  if (muxer_listener()) {
    muxer_listener()->OnNewSegment(
        segment_path, segment_timestamp,
        segment_info.duration * segmenter_->TimescaleScale(), segment_size);
  }
  return Status::OK;
 }
 Status PackedAudioWriter::WriteSegment(const std::string& segment_path,
                                       BufferWriter* segment_buffer) {
  std::unique_ptr<File, FileCloser> file;
  if (output_file_) {
    // This is in single segment mode.
    Range range;
    range.start = media_ranges_.subsegment_ranges.empty()
                      ? 0
                      : (media_ranges_.subsegment_ranges.back().end + 1);
    range.end = range.start + segment_buffer->Size() - 1;
    media_ranges_.subsegment_ranges.push_back(range);
  } else {
    file.reset(File::Open(segment_path.c_str(), "w"));
    if (!file) {
      return Status(error::FILE_FAILURE,
                    "Cannot open file for write " + segment_path);
    }
  }
  RETURN_IF_ERROR(segment_buffer->WriteToFile(output_file_ ? output_file_.get()
                                                           : file.get()));
  if (file)
    RETURN_IF_ERROR(CloseFile(std::move(file)));
  return Status::OK;
 }
 Status PackedAudioWriter::CloseFile(std::unique_ptr<File, FileCloser> file) {
  std::string file_name = file->file_name();
  if (!file.release()->Close()) {
    return Status(
        error::FILE_FAILURE,
        "Cannot close file " + file_name +
            ", possibly file permission issue or running out of disk space.");
  }
  return Status::OK;
 }
 }  // namespace media
 }  // namespace shaka
--- a/packager/media/formats/packed_audio/packed_audio_writer.h
+++ b/packager/media/formats/packed_audio/packed_audio_writer.h
@ -0,0 +1,61 @@
 // Copyright 2018 Google LLC. 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
 #ifndef PACKAGER_MEDIA_FORMATS_PACKED_AUDIO_PACKED_AUDIO_WRITER_H_
 #define PACKAGER_MEDIA_FORMATS_PACKED_AUDIO_PACKED_AUDIO_WRITER_H_
 #include "packager/file/file_closer.h"
 #include "packager/media/base/muxer.h"
 namespace shaka {
 namespace media {
 class BufferWriter;
 class PackedAudioSegmenter;
 /// Implements packed audio writer.
 /// https://tools.ietf.org/html/draft-pantos-http-live-streaming-23#section-3.4
 /// A Packed Audio Segment contains encoded audio samples and ID3 tags that are
 /// simply packed together with minimal framing and no per-sample timestamps.
 class PackedAudioWriter : public Muxer {
 public:
  /// Create a MP4Muxer object from MuxerOptions.
  explicit PackedAudioWriter(const MuxerOptions& muxer_options);
  ~PackedAudioWriter() override;
 private:
  friend class PackedAudioWriterTest;
  PackedAudioWriter(const PackedAudioWriter&) = delete;
  PackedAudioWriter& operator=(const PackedAudioWriter&) = delete;
  // Muxer implementations.
  Status InitializeMuxer() override;
  Status Finalize() override;
  Status AddSample(size_t stream_id, const MediaSample& sample) override;
  Status FinalizeSegment(size_t stream_id, const SegmentInfo& sample) override;
  Status WriteSegment(const std::string& segment_path,
                      BufferWriter* segment_buffer);
  Status CloseFile(std::unique_ptr<File, FileCloser> file);
  std::unique_ptr<PackedAudioSegmenter> segmenter_;
  // Used in single segment mode.
  std::unique_ptr<File, FileCloser> output_file_;
  // Keeps track of segment ranges in single segment mode.
  MuxerListener::MediaRanges media_ranges_;
  uint64_t total_duration_ = 0;
  // Used in multi-segment mode for segment template.
  uint64_t segment_number_ = 0;
 };
 }  // namespace media
 }  // namespace shaka
 #endif  // PACKAGER_MEDIA_FORMATS_PACKED_AUDIO_PACKED_AUDIO_WRITER_H_
--- a/packager/media/formats/packed_audio/packed_audio_writer_unittest.cc
+++ b/packager/media/formats/packed_audio/packed_audio_writer_unittest.cc
@ -0,0 +1,260 @@
 // Copyright 2018 Google LLC. 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 "packager/media/formats/packed_audio/packed_audio_writer.h"
 #include <gmock/gmock.h>
 #include <gtest/gtest.h>
 #include "packager/file/file_test_util.h"
 #include "packager/media/base/media_handler_test_base.h"
 #include "packager/media/event/mock_muxer_listener.h"
 #include "packager/media/formats/packed_audio/packed_audio_segmenter.h"
 #include "packager/status_test_util.h"
 using ::testing::_;
 using ::testing::AllOf;
 using ::testing::Bool;
 using ::testing::ElementsAre;
 using ::testing::Eq;
 using ::testing::Field;
 using ::testing::Invoke;
 using ::testing::Ref;
 using ::testing::Return;
 using ::testing::WithParamInterface;
 namespace shaka {
 namespace media {
 namespace {
 const size_t kInputs = 1;
 const size_t kOutputs = 0;
 const size_t kInput = 0;
 const size_t kStreamIndex = 0;
 const uint32_t kTimescale = 9000;
 // For single-segment mode.
 const char kOutputFile[] = "memory://test.aac";
 // For multi-segment mode.
 const char kSegmentTemplate[] = "memory://test_$Number$.aac";
 const char kSegment1Name[] = "memory://test_1.aac";
 const char kSegment2Name[] = "memory://test_2.aac";
 class MockPackedAudioSegmenter : public PackedAudioSegmenter {
 public:
  MOCK_METHOD1(Initialize, Status(const StreamInfo& stream_info));
  MOCK_METHOD1(AddSample, Status(const MediaSample& sample));
  MOCK_METHOD0(FinalizeSegment, Status());
  MOCK_CONST_METHOD0(TimescaleScale, double());
 };
 }  // namespace
 class PackedAudioWriterTest : public MediaHandlerTestBase,
                              public WithParamInterface<bool> {
 protected:
  void SetUp() override {
    MediaHandlerTestBase::SetUp();
    is_single_segment_mode_ = GetParam();
    if (is_single_segment_mode_)
      muxer_options_.output_file_name = kOutputFile;
    else
      muxer_options_.segment_template = kSegmentTemplate;
    auto packed_audio_writer =
        std::make_shared<PackedAudioWriter>(muxer_options_);
    std::unique_ptr<MockPackedAudioSegmenter> mock_segmenter(
        new MockPackedAudioSegmenter);
    mock_segmenter_ptr_ = mock_segmenter.get();
    packed_audio_writer->segmenter_ = std::move(mock_segmenter);
    std::unique_ptr<MockMuxerListener> mock_muxer_listener(
        new MockMuxerListener);
    mock_muxer_listener_ptr_ = mock_muxer_listener.get();
    packed_audio_writer->SetMuxerListener(std::move(mock_muxer_listener));
    ASSERT_OK(SetUpAndInitializeGraph(packed_audio_writer, kInputs, kOutputs));
  }
  MuxerOptions muxer_options_;
  MockPackedAudioSegmenter* mock_segmenter_ptr_;
  MockMuxerListener* mock_muxer_listener_ptr_;
  bool is_single_segment_mode_;
 };
 TEST_P(PackedAudioWriterTest, InitializeWithStreamInfo) {
  auto stream_info_data =
      StreamData::FromStreamInfo(kStreamIndex, GetAudioStreamInfo(kTimescale));
  EXPECT_CALL(*mock_muxer_listener_ptr_,
              OnMediaStart(_, Ref(*stream_info_data->stream_info),
                           kPackedAudioTimescale,
                           MuxerListener::kContainerPackedAudio));
  EXPECT_CALL(*mock_segmenter_ptr_,
              Initialize(Ref(*stream_info_data->stream_info)));
  ASSERT_OK(Input(kInput)->Dispatch(std::move(stream_info_data)));
 }
 TEST_P(PackedAudioWriterTest, Sample) {
  const int64_t kTimestamp = 12345;
  const int64_t kDuration = 100;
  const bool kKeyFrame = true;
  auto sample_stream_data = StreamData::FromMediaSample(
      kStreamIndex, GetMediaSample(kTimestamp, kDuration, kKeyFrame));
  EXPECT_CALL(*mock_segmenter_ptr_,
              AddSample(Ref(*sample_stream_data->media_sample)));
  ASSERT_OK(Input(kInput)->Dispatch(std::move(sample_stream_data)));
 }
 TEST_P(PackedAudioWriterTest, SubsegmentIgnored) {
  const int64_t kTimestamp = 12345;
  const int64_t kDuration = 100;
  const bool kSubsegment = true;
  auto subsegment_stream_data = StreamData::FromSegmentInfo(
      kStreamIndex, GetSegmentInfo(kTimestamp, kDuration, kSubsegment));
  EXPECT_CALL(*mock_muxer_listener_ptr_, OnNewSegment(_, _, _, _)).Times(0);
  EXPECT_CALL(*mock_segmenter_ptr_, FinalizeSegment()).Times(0);
  ASSERT_OK(Input(kInput)->Dispatch(std::move(subsegment_stream_data)));
 }
 TEST_P(PackedAudioWriterTest, OneSegment) {
  ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromStreamInfo(
      kStreamIndex, GetAudioStreamInfo(kTimescale))));
  const int64_t kTimestamp = 12345;
  const int64_t kDuration = 100;
  const bool kSubsegment = true;
  auto segment_stream_data = StreamData::FromSegmentInfo(
      kStreamIndex, GetSegmentInfo(kTimestamp, kDuration, !kSubsegment));
  const double kMockTimescaleScale = 10;
  const char kMockSegmentData[] = "hello segment 1";
  const size_t kSegmentDataSize = sizeof(kMockSegmentData) - 1;
  EXPECT_CALL(
      *mock_muxer_listener_ptr_,
      OnNewSegment(is_single_segment_mode_ ? kOutputFile : kSegment1Name,
                   kTimestamp * kMockTimescaleScale,
                   kDuration * kMockTimescaleScale, kSegmentDataSize));
  EXPECT_CALL(*mock_segmenter_ptr_, TimescaleScale())
      .WillRepeatedly(Return(kMockTimescaleScale));
  EXPECT_CALL(*mock_segmenter_ptr_, FinalizeSegment())
      .WillOnce(Invoke([this, &kMockSegmentData]() {
        this->mock_segmenter_ptr_->segment_buffer()->AppendString(
            kMockSegmentData);
        return Status::OK;
      }));
  ASSERT_OK(Input(kInput)->Dispatch(std::move(segment_stream_data)));
  const bool kHasInitRange = true;
  const bool kHasIndexRange = true;
  const bool kHasSegmentRange = true;
  if (is_single_segment_mode_) {
    EXPECT_CALL(
        *mock_muxer_listener_ptr_,
        OnMediaEndMock(
            !kHasInitRange, 0, 0, !kHasIndexRange, 0, 0, kHasSegmentRange,
            ElementsAre(AllOf(Field(&Range::start, Eq(0u)),
                              Field(&Range::end, Eq(kSegmentDataSize - 1)))),
            kDuration * kMockTimescaleScale));
  } else {
    EXPECT_CALL(*mock_muxer_listener_ptr_,
                OnMediaEndMock(!kHasInitRange, 0, 0, !kHasIndexRange, 0, 0,
                               !kHasSegmentRange, ElementsAre(),
                               kDuration * kMockTimescaleScale));
  }
  ASSERT_OK(Input(kInput)->FlushDownstream(kStreamIndex));
  ASSERT_FILE_STREQ(is_single_segment_mode_ ? kOutputFile : kSegment1Name,
                    kMockSegmentData);
 }
 TEST_P(PackedAudioWriterTest, TwoSegments) {
  ASSERT_OK(Input(kInput)->Dispatch(StreamData::FromStreamInfo(
      kStreamIndex, GetAudioStreamInfo(kTimescale))));
  const int64_t kTimestamp = 12345;
  const int64_t kDuration = 100;
  const bool kSubsegment = true;
  auto segment1_stream_data = StreamData::FromSegmentInfo(
      kStreamIndex, GetSegmentInfo(kTimestamp, kDuration, !kSubsegment));
  auto segment2_stream_data = StreamData::FromSegmentInfo(
      kStreamIndex,
      GetSegmentInfo(kTimestamp + kDuration, kDuration, !kSubsegment));
  const double kMockTimescaleScale = 10;
  const char kMockSegment1Data[] = "hello segment 1";
  const char kMockSegment2Data[] = "hello segment 2";
  const size_t kSegment1DataSize = sizeof(kMockSegment1Data) - 1;
  const size_t kSegment2DataSize = sizeof(kMockSegment2Data) - 1;
  EXPECT_CALL(
      *mock_muxer_listener_ptr_,
      OnNewSegment(is_single_segment_mode_ ? kOutputFile : kSegment1Name,
                   kTimestamp * kMockTimescaleScale,
                   kDuration * kMockTimescaleScale,
                   sizeof(kMockSegment1Data) - 1));
  EXPECT_CALL(
      *mock_muxer_listener_ptr_,
      OnNewSegment(is_single_segment_mode_ ? kOutputFile : kSegment2Name,
                   (kTimestamp + kDuration) * kMockTimescaleScale,
                   kDuration * kMockTimescaleScale, kSegment2DataSize));
  EXPECT_CALL(*mock_segmenter_ptr_, TimescaleScale())
      .WillRepeatedly(Return(kMockTimescaleScale));
  EXPECT_CALL(*mock_segmenter_ptr_, FinalizeSegment())
      .WillOnce(Invoke([this, &kMockSegment1Data]() {
        this->mock_segmenter_ptr_->segment_buffer()->AppendString(
            kMockSegment1Data);
        return Status::OK;
      }))
      .WillOnce(Invoke([this, &kMockSegment2Data]() {
        this->mock_segmenter_ptr_->segment_buffer()->AppendString(
            kMockSegment2Data);
        return Status::OK;
      }));
  ASSERT_OK(Input(kInput)->Dispatch(std::move(segment1_stream_data)));
  ASSERT_OK(Input(kInput)->Dispatch(std::move(segment2_stream_data)));
  if (is_single_segment_mode_) {
    EXPECT_CALL(
        *mock_muxer_listener_ptr_,
        OnMediaEndMock(
            _, _, _, _, _, _, _,
            ElementsAre(AllOf(Field(&Range::start, Eq(0u)),
                              Field(&Range::end, Eq(kSegment1DataSize - 1))),
                        AllOf(Field(&Range::start, Eq(kSegment1DataSize)),
                              Field(&Range::end, Eq(kSegment1DataSize +
                                                    kSegment2DataSize - 1)))),
            kDuration * 2 * kMockTimescaleScale));
  } else {
    EXPECT_CALL(*mock_muxer_listener_ptr_,
                OnMediaEndMock(_, _, _, _, _, _, _, _,
                               kDuration * 2 * kMockTimescaleScale));
  }
  ASSERT_OK(Input(kInput)->FlushDownstream(kStreamIndex));
  if (is_single_segment_mode_) {
    ASSERT_FILE_STREQ(kOutputFile, std::string(kMockSegment1Data) +
                                       std::string(kMockSegment2Data));
  } else {
    ASSERT_FILE_STREQ(kSegment1Name, kMockSegment1Data);
    ASSERT_FILE_STREQ(kSegment2Name, kMockSegment2Data);
  }
 }
 INSTANTIATE_TEST_CASE_P(SingleSegmentOrMultiSegment,
                        PackedAudioWriterTest,
                        Bool());
 }  // namespace media
 }  // namespace shaka