Esempio n. 1
0
ASDCP::Result_t
ASDCP::Wav::SimpleWaveHeader::WriteToFile(Kumu::FileWriter& OutFile) const
{
  ui32_t write_count;
  byte_t tmp_header[SimpleWavHeaderLength];
  byte_t* p = tmp_header;

  static ui32_t fmt_len =
    sizeof(format)
    + sizeof(nchannels)
    + sizeof(samplespersec)
    + sizeof(avgbps)
    + sizeof(blockalign)
    + sizeof(bitspersample)
    + sizeof(cbsize);

  ui32_t RIFF_len = data_len + SimpleWavHeaderLength - 8;

  memcpy(p, &FCC_RIFF, sizeof(fourcc)); p += 4;
  *((ui32_t*)p) = KM_i32_LE(RIFF_len); p += 4;
  memcpy(p, &FCC_WAVE, sizeof(fourcc)); p += 4;
  memcpy(p, &FCC_fmt_, sizeof(fourcc)); p += 4;
  *((ui32_t*)p) = KM_i32_LE(fmt_len); p += 4;
  *((ui16_t*)p) = KM_i16_LE(format); p += 2;
  *((ui16_t*)p) = KM_i16_LE(nchannels); p += 2;
  *((ui32_t*)p) = KM_i32_LE(samplespersec); p += 4;
  *((ui32_t*)p) = KM_i32_LE(avgbps); p += 4;
  *((ui16_t*)p) = KM_i16_LE(blockalign); p += 2;
  *((ui16_t*)p) = KM_i16_LE(bitspersample); p += 2;
  *((ui16_t*)p) = KM_i16_LE(cbsize); p += 2;
  memcpy(p, &FCC_data, sizeof(fourcc)); p += 4;
  *((ui32_t*)p) = KM_i32_LE(data_len); p += 4;

  return OutFile.Write(tmp_header, SimpleWavHeaderLength, &write_count);
}
Esempio n. 2
0
Result_t
AS_02::MXF::AS02IndexWriterVBR::WriteToFile(Kumu::FileWriter& Writer)
{
  assert(m_Dict);
  ASDCP::FrameBuffer index_body_buffer;
  ui32_t   index_body_size = m_PacketList->m_List.size() * MaxIndexSegmentSize; // segment-count * max-segment-size
  Result_t result = index_body_buffer.Capacity(index_body_size); 
  ui64_t start_position = 0;

  if ( m_CurrentSegment != 0 )
    {
      m_CurrentSegment->IndexDuration = m_CurrentSegment->IndexEntryArray.size();
      start_position = m_CurrentSegment->IndexStartPosition + m_CurrentSegment->IndexDuration;
      m_CurrentSegment = 0;
    }

  std::list<InterchangeObject*>::iterator pl_i = m_PacketList->m_List.begin();
  for ( ; pl_i != m_PacketList->m_List.end() && KM_SUCCESS(result); pl_i++ )
    {
      InterchangeObject* object = *pl_i;
      object->m_Lookup = m_Lookup;

      ASDCP::FrameBuffer WriteWrapper;
      WriteWrapper.SetData(index_body_buffer.Data() + index_body_buffer.Size(),
			   index_body_buffer.Capacity() - index_body_buffer.Size());
      result = object->WriteToBuffer(WriteWrapper);
      index_body_buffer.Size(index_body_buffer.Size() + WriteWrapper.Size());
      delete *pl_i;
      *pl_i = 0;
    }

  m_PacketList->m_List.clear();

  if ( KM_SUCCESS(result) )
    {
      IndexByteCount = index_body_buffer.Size();
      UL body_ul(m_Dict->ul(MDD_ClosedCompleteBodyPartition));
      result = Partition::WriteToFile(Writer, body_ul);
    }

  if ( KM_SUCCESS(result) )
    {
      ui32_t write_count = 0;
      result = Writer.Write(index_body_buffer.RoData(), index_body_buffer.Size(), &write_count);
      assert(write_count == index_body_buffer.Size());
    }

  if ( KM_SUCCESS(result) )
    {
      m_CurrentSegment = new IndexTableSegment(m_Dict);
      assert(m_CurrentSegment);
      AddChildObject(m_CurrentSegment);
      m_CurrentSegment->DeltaEntryArray.push_back(IndexTableSegment::DeltaEntry());
      m_CurrentSegment->IndexEditRate = m_EditRate;
      m_CurrentSegment->IndexStartPosition = start_position;
    }

  return result;
}
Esempio n. 3
0
ASDCP::Result_t
ASDCP::KLVFilePacket::WriteKLToFile(Kumu::FileWriter& Writer, const UL& label, ui32_t length)
{
  byte_t buffer[kl_length];
  memcpy(buffer, label.Value(), label.Size());

  if ( ! Kumu::write_BER(buffer+SMPTE_UL_LENGTH, length, MXF_BER_LENGTH) )
    return RESULT_FAIL;

  ui32_t write_count;
  Writer.Write(buffer, kl_length, &write_count);
  assert(write_count == kl_length);
  return RESULT_OK;
}
Esempio n. 4
0
Result_t
AS_02::MXF::AS02IndexWriterCBR::WriteToFile(Kumu::FileWriter& Writer)
{
  assert(m_Dict);
  ASDCP::FrameBuffer index_body_buffer;
  ui32_t   index_body_size = MaxIndexSegmentSize; // segment-count * max-segment-size
  Result_t result = index_body_buffer.Capacity(index_body_size); 

  m_CurrentSegment = new IndexTableSegment(m_Dict);
  assert(m_CurrentSegment);
  m_CurrentSegment->m_Lookup = m_Lookup;
  m_CurrentSegment->IndexEditRate = m_EditRate;
  m_CurrentSegment->IndexStartPosition = 0;
  m_CurrentSegment->IndexDuration = m_Duration;
  m_CurrentSegment->EditUnitByteCount = m_SampleSize;
  AddChildObject(m_CurrentSegment);

  ASDCP::FrameBuffer WriteWrapper;
  WriteWrapper.SetData(index_body_buffer.Data() + index_body_buffer.Size(),
		       index_body_buffer.Capacity() - index_body_buffer.Size());

  result = m_CurrentSegment->WriteToBuffer(WriteWrapper);
  index_body_buffer.Size(index_body_buffer.Size() + WriteWrapper.Size());
  delete m_CurrentSegment;
  m_CurrentSegment = 0;
  m_PacketList->m_List.clear();

  if ( KM_SUCCESS(result) )
    {
      IndexByteCount = index_body_buffer.Size();
      UL body_ul(m_Dict->ul(MDD_ClosedCompleteBodyPartition));
      result = Partition::WriteToFile(Writer, body_ul);
    }

  if ( KM_SUCCESS(result) )
    {
      ui32_t write_count = 0;
      result = Writer.Write(index_body_buffer.RoData(), index_body_buffer.Size(), &write_count);
      assert(write_count == index_body_buffer.Size());
    }

  return result;
}
Esempio n. 5
0
ASDCP::Result_t
ASDCP::RF64::SimpleRF64Header::WriteToFile(Kumu::FileWriter& OutFile) const
{
  static ui32_t fmt_len =
    sizeof(format)
    + sizeof(nchannels)
    + sizeof(samplespersec)
    + sizeof(avgbps)
    + sizeof(blockalign)
    + sizeof(bitspersample)
    + sizeof(cbsize);

  ui32_t write_count = 0;
  ui64_t RIFF_len = data_len + SimpleWavHeaderLength - 8;
  //  DefaultLogSink().Debug("RIFF_len is %llu.\n", RIFF_len);
  byte_t* tmp_header = NULL;
  ui32_t header_len = 0;

  if (RIFF_len > MAX_RIFF_LEN)
  {
    DefaultLogSink().Debug("Will write out an RF64 wave file.\n");
    ui32_t data32_len = ((data_len < MAX_RIFF_LEN) ? data_len : MAX_RIFF_LEN);
    ui64_t data64_len = ((data_len < MAX_RIFF_LEN) ? 0 : data_len);
    static ui32_t ds64_len =
            sizeof(RIFF_len)
            + sizeof(data64_len)
            + sizeof(SAMPLE_COUNT)
            + sizeof(TABLE_LEN);

    header_len = SIMPLE_RF64_HEADER_LEN;
    tmp_header = new byte_t[header_len];
    byte_t* p = tmp_header;
    memcpy(p, &FCC_RF64, sizeof(fourcc)); p += 4;
    *((ui32_t*)p) = KM_i32_LE(MAX_RIFF_LEN); p += 4;
    memcpy(p, &Wav::FCC_WAVE, sizeof(fourcc)); p += 4;
    memcpy(p, &FCC_ds64, sizeof(fourcc)); p += 4;
    *((ui32_t*)p) = KM_i32_LE(ds64_len); p += 4;
    *((ui64_t*)p) = KM_i64_LE(RIFF_len); p += 8;
    *((ui64_t*)p) = KM_i64_LE(data64_len); p += 8;
    *((ui64_t*)p) = KM_i64_LE(SAMPLE_COUNT); p += 8;
    *((ui32_t*)p) = KM_i32_LE(TABLE_LEN); p += 4;
    memcpy(p, &Wav::FCC_fmt_, sizeof(fourcc)); p += 4;
    *((ui32_t*)p) = KM_i32_LE(fmt_len); p += 4;
    *((ui16_t*)p) = KM_i16_LE(format); p += 2;
    *((ui16_t*)p) = KM_i16_LE(nchannels); p += 2;
    *((ui32_t*)p) = KM_i32_LE(samplespersec); p += 4;
    *((ui32_t*)p) = KM_i32_LE(avgbps); p += 4;
    *((ui16_t*)p) = KM_i16_LE(blockalign); p += 2;
    *((ui16_t*)p) = KM_i16_LE(bitspersample); p += 2;
    *((ui16_t*)p) = KM_i16_LE(cbsize); p += 2;
    memcpy(p, &Wav::FCC_data, sizeof(fourcc)); p += 4;
    *((ui32_t*)p) = KM_i32_LE(data32_len); p += 4;
    write_count = (p - tmp_header);
  }
  else
  {
    DefaultLogSink().Debug("Will write out a regular wave file.\n");
    header_len = SimpleWavHeaderLength;
    tmp_header = new byte_t[header_len];
    byte_t* p = tmp_header;
    memcpy(p, &Wav::FCC_RIFF, sizeof(fourcc)); p += 4;
    *((ui32_t*)p) = KM_i32_LE(RIFF_len); p += 4;
    memcpy(p, &Wav::FCC_WAVE, sizeof(fourcc)); p += 4;
    memcpy(p, &Wav::FCC_fmt_, sizeof(fourcc)); p += 4;
    *((ui32_t*)p) = KM_i32_LE(fmt_len); p += 4;
    *((ui16_t*)p) = KM_i16_LE(format); p += 2;
    *((ui16_t*)p) = KM_i16_LE(nchannels); p += 2;
    *((ui32_t*)p) = KM_i32_LE(samplespersec); p += 4;
    *((ui32_t*)p) = KM_i32_LE(avgbps); p += 4;
    *((ui16_t*)p) = KM_i16_LE(blockalign); p += 2;
    *((ui16_t*)p) = KM_i16_LE(bitspersample); p += 2;
    *((ui16_t*)p) = KM_i16_LE(cbsize); p += 2;
    memcpy(p, &Wav::FCC_data, sizeof(fourcc)); p += 4;
    *((ui32_t*)p) = KM_i32_LE(data_len); p += 4;
    write_count = (p - tmp_header);
  }
  if (header_len != write_count)
  {
      DefaultLogSink().Warn("Expected to write %u bytes but wrote %u bytes for header.\n",
                            header_len, write_count);
  }
  write_count = 0;
  ASDCP::Result_t r = OutFile.Write(tmp_header, header_len, &write_count);
  delete [] tmp_header;
  return r;
}