/*
- Copyright (c) 2011-2013, Robert Scheler, Heiko Sparenberg Fraunhofer IIS, John Hurst
- All rights reserved.
-
- Redistribution and use in source and binary forms, with or without
- modification, are permitted provided that the following conditions
- are met:
- 1. Redistributions of source code must retain the above copyright
- notice, this list of conditions and the following disclaimer.
- 2. Redistributions in binary form must reproduce the above copyright
- notice, this list of conditions and the following disclaimer in the
- documentation and/or other materials provided with the distribution.
- 3. The name of the author may not be used to endorse or promote products
- derived from this software without specific prior written permission.
-
- THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
- IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
- OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
- IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
- INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
- NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
- DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
- THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
- (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
- THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-*/
+Copyright (c) 2011-2015, Robert Scheler, Heiko Sparenberg Fraunhofer IIS,
+John Hurst
+
+All rights reserved.
+
+Redistribution and use in source and binary forms, with or without
+modification, are permitted provided that the following conditions
+are met:
+1. Redistributions of source code must retain the above copyright
+ notice, this list of conditions and the following disclaimer.
+2. Redistributions in binary form must reproduce the above copyright
+ notice, this list of conditions and the following disclaimer in the
+ documentation and/or other materials provided with the distribution.
+3. The name of the author may not be used to endorse or promote products
+ derived from this software without specific prior written permission.
+
+THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
+IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
+OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
+IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
+INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
+NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
+THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+*/
+
/*! \file AS_02_PCM.cpp
\version $Id$
\brief AS-02 library, PCM essence reader and writer implementation
static std::string PCM_PACKAGE_LABEL = "File Package: SMPTE 382M clip wrapping of wave audio";
static std::string SOUND_DEF_LABEL = "Sound Track";
-//this must be changed because the CBR_frame_size is only
-//
-static ui32_t
-calc_CBR_frame_size(ASDCP::WriterInfo& Info, const ASDCP::PCM::AudioDescriptor& ADesc)
-{
- ui32_t CBR_frame_size = 0;
-
- if ( Info.EncryptedEssence )
- {
- CBR_frame_size =
- //TODO: correct?
- /*SMPTE_UL_LENGTH
- + MXF_BER_LENGTH
- + */klv_cryptinfo_size
- + calc_esv_length(ASDCP::PCM::CalcFrameBufferSize(ADesc), 0)
- + ( Info.UsesHMAC ? klv_intpack_size : (MXF_BER_LENGTH * 3) );
- }
- else
- {
- CBR_frame_size = ASDCP::PCM::CalcFrameBufferSize(ADesc);
- }
-
- return CBR_frame_size;
-}
-
//------------------------------------------------------------------------------------------
class AS_02::PCM::MXFReader::h__Reader : public AS_02::h__AS02Reader
{
+ ui64_t m_ClipEssenceBegin, m_ClipSize;
+ ui32_t m_ClipDurationFrames, m_BytesPerFrame;
+
ASDCP_NO_COPY_CONSTRUCT(h__Reader);
h__Reader();
public:
- ASDCP::PCM::AudioDescriptor m_ADesc;
-
- h__Reader(const Dictionary& d) : AS_02::h__AS02Reader(d) {}
+ h__Reader(const Dictionary& d) : AS_02::h__AS02Reader(d), m_ClipEssenceBegin(0), m_ClipSize(0),
+ m_ClipDurationFrames(0) {}
virtual ~h__Reader() {}
- ASDCP::Result_t OpenRead(const char*);
+ ASDCP::Result_t OpenRead(const std::string&, const ASDCP::Rational& edit_rate);
ASDCP::Result_t ReadFrame(ui32_t, ASDCP::PCM::FrameBuffer&, ASDCP::AESDecContext*, ASDCP::HMACContext*);
-
-
- Result_t OpenMXFRead(const char* filename);
- // positions file before reading
- Result_t ReadEKLVFrame(ui32_t FrameNum, ASDCP::FrameBuffer& FrameBuf,
- const byte_t* EssenceUL, AESDecContext* Ctx, HMACContext* HMAC);
-
- // reads from current position
- Result_t ReadEKLVPacket(ui32_t FrameNum, ui32_t SequenceNum, ASDCP::FrameBuffer& FrameBuf,
- const byte_t* EssenceUL, AESDecContext* Ctx, HMACContext* HMAC);
-
-
};
-
+// TODO: This will ignore any body partitions past the first
//
//
ASDCP::Result_t
-AS_02::PCM::MXFReader::h__Reader::OpenRead(const char* filename)
+AS_02::PCM::MXFReader::h__Reader::OpenRead(const std::string& filename, const ASDCP::Rational& edit_rate)
{
- Result_t result = OpenMXFRead(filename);
+ ASDCP::MXF::WaveAudioDescriptor* wave_descriptor = 0;
+ IndexTableSegment::IndexEntry tmp_entry;
+ Result_t result = OpenMXFRead(filename.c_str());
- if( ASDCP_SUCCESS(result) )
+ if( KM_SUCCESS(result) )
{
- InterchangeObject* Object = 0;
- if ( ASDCP_SUCCESS(m_HeaderPart.GetMDObjectByType(OBJ_TYPE_ARGS(WaveAudioDescriptor), &Object)) )
- {
- if ( Object == 0 )
- {
- DefaultLogSink().Error("WaveAudioDescriptor object not found.\n");
- return RESULT_FORMAT;
- }
+ InterchangeObject* tmp_obj = 0;
- result = MD_to_PCM_ADesc((ASDCP::MXF::WaveAudioDescriptor*)Object, m_ADesc);
+ if ( KM_SUCCESS(m_HeaderPart.GetMDObjectByType(OBJ_TYPE_ARGS(WaveAudioDescriptor), &tmp_obj)) )
+ {
+ wave_descriptor = dynamic_cast<ASDCP::MXF::WaveAudioDescriptor*>(tmp_obj);
}
}
- // check for sample/frame rate sanity
- if ( ASDCP_SUCCESS(result)
- && m_ADesc.EditRate != EditRate_24
- && m_ADesc.EditRate != EditRate_25
- && m_ADesc.EditRate != EditRate_30
- && m_ADesc.EditRate != EditRate_48
- && m_ADesc.EditRate != EditRate_50
- && m_ADesc.EditRate != EditRate_60
- && m_ADesc.EditRate != EditRate_23_98 )
+ if ( wave_descriptor == 0 )
{
- DefaultLogSink().Error("PCM file EditRate is not a supported value: %d/%d\n", // lu
- m_ADesc.EditRate.Numerator, m_ADesc.EditRate.Denominator);
+ DefaultLogSink().Error("WaveAudioDescriptor object not found.\n");
+ result = RESULT_AS02_FORMAT;
+ }
- // oh, they gave us the audio sampling rate instead, assume 24/1
- if ( m_ADesc.EditRate == SampleRate_48k )
- {
- DefaultLogSink().Warn("adjusting EditRate to 24/1\n");
- m_ADesc.EditRate = EditRate_24;
- }
- else
+ if ( KM_SUCCESS(result) )
+ result = m_IndexAccess.Lookup(0, tmp_entry);
+
+ if ( KM_SUCCESS(result) )
+ result = m_File.Seek(tmp_entry.StreamOffset);
+
+ if ( KM_SUCCESS(result) )
+ {
+ assert(wave_descriptor);
+ KLReader reader;
+ result = reader.ReadKLFromFile(m_File);
+
+ if ( KM_SUCCESS(result) )
{
- // or we just drop the hammer
- return RESULT_FORMAT;
+ if ( ! UL(reader.Key()).MatchIgnoreStream(m_Dict->ul(MDD_WAVEssenceClip)) )
+ {
+ const MDDEntry *entry = m_Dict->FindULAnyVersion(reader.Key());
+
+ if ( entry == 0 )
+ {
+ char buf[64];
+ DefaultLogSink().Error("Essence wrapper key is not WAVEssenceClip: %s\n", UL(reader.Key()).EncodeString(buf, 64));
+ }
+ else
+ {
+ DefaultLogSink().Error("Essence wrapper key is not WAVEssenceClip: %s\n", entry->name);
+ }
+
+ return RESULT_AS02_FORMAT;
+ }
+
+ if ( wave_descriptor->BlockAlign == 0 )
+ {
+ DefaultLogSink().Error("EssenceDescriptor has corrupt BlockAlign value, unable to continue.\n");
+ return RESULT_AS02_FORMAT;
+ }
+
+ if ( reader.Length() % wave_descriptor->BlockAlign != 0 )
+ {
+ DefaultLogSink().Error("Clip length is not an even multiple of BlockAlign, unable to continue.\n");
+ return RESULT_AS02_FORMAT;
+ }
+
+ m_ClipEssenceBegin = m_File.Tell();
+ m_ClipSize = reader.Length();
+ m_BytesPerFrame = AS_02::MXF::CalcFrameBufferSize(*wave_descriptor, edit_rate);
+ m_ClipDurationFrames = m_ClipSize / m_BytesPerFrame;
+
+ if ( m_ClipSize % m_BytesPerFrame > 0 )
+ {
+ ++m_ClipDurationFrames; // there is a partial frame at the end
+ }
}
}
- // TODO: test file for sane CBR index BytesPerEditUnit
-
return result;
}
-
-//
//
ASDCP::Result_t
AS_02::PCM::MXFReader::h__Reader::ReadFrame(ui32_t FrameNum, ASDCP::PCM::FrameBuffer& FrameBuf,
ASDCP::AESDecContext* Ctx, ASDCP::HMACContext* HMAC)
{
if ( ! m_File.IsOpen() )
- return RESULT_INIT;
+ {
+ return RESULT_INIT;
+ }
+
+ if ( ! ( FrameNum < m_ClipDurationFrames ) )
+ {
+ return RESULT_RANGE;
+ }
+
+ assert(m_ClipEssenceBegin);
+ ui64_t offset = FrameNum * m_BytesPerFrame;
+ ui64_t position = m_ClipEssenceBegin + offset;
+ Result_t result = RESULT_OK;
+
+ if ( m_File.Tell() != position )
+ {
+ result = m_File.Seek(position);
+ }
+
+ if ( KM_SUCCESS(result) )
+ {
+ ui64_t remainder = m_ClipSize - offset;
+ ui32_t read_size = ( remainder < m_BytesPerFrame ) ? remainder : m_BytesPerFrame;
+ result = m_File.Read(FrameBuf.Data(), read_size);
+
+ if ( KM_SUCCESS(result) )
+ {
+ FrameBuf.Size(read_size);
+
+ if ( read_size < FrameBuf.Capacity() )
+ {
+ memset(FrameBuf.Data() + FrameBuf.Size(), 0, FrameBuf.Capacity() - FrameBuf.Size());
+ }
+ }
+ }
- assert(m_Dict);
- return ReadEKLVFrame(FrameNum, FrameBuf, m_Dict->ul(MDD_WAVEssence), Ctx, HMAC);
+ return result;
}
+//------------------------------------------------------------------------------------------
+//
+
+
AS_02::PCM::MXFReader::MXFReader()
{
m_Reader = new h__Reader(DefaultCompositeDict());
}
-
AS_02::PCM::MXFReader::~MXFReader()
{
- if ( m_Reader && m_Reader->m_File.IsOpen() )
- m_Reader->Close();
}
// Warning: direct manipulation of MXF structures can interfere
// Open the file for reading. The file must exist. Returns error if the
// operation cannot be completed.
ASDCP::Result_t
-AS_02::PCM::MXFReader::OpenRead(const char* filename) const
+AS_02::PCM::MXFReader::OpenRead(const std::string& filename, const ASDCP::Rational& edit_rate) const
{
- return m_Reader->OpenRead(filename);
+ return m_Reader->OpenRead(filename, edit_rate);
+}
+
+//
+Result_t
+AS_02::PCM::MXFReader::Close() const
+{
+ if ( m_Reader && m_Reader->m_File.IsOpen() )
+ {
+ m_Reader->Close();
+ return RESULT_OK;
+ }
+
+ return RESULT_INIT;
}
// Reads a frame of essence from the MXF file. If the optional AESEncContext
}
-// Fill the struct with the values from the file's header.
-// Returns RESULT_INIT if the file is not open.
-ASDCP::Result_t
-AS_02::PCM::MXFReader::FillAudioDescriptor(ASDCP::PCM::AudioDescriptor& ADesc) const
-{
- if ( m_Reader && m_Reader->m_File.IsOpen() )
- {
- ADesc = m_Reader->m_ADesc;
- return RESULT_OK;
- }
-
- return RESULT_INIT;
-}
-
// Fill the struct with the values from the file's header.
// Returns RESULT_INIT if the file is not open.
ASDCP::Result_t
AS_02::PCM::MXFReader::DumpHeaderMetadata(FILE* stream) const
{
if ( m_Reader && m_Reader->m_File.IsOpen() )
- m_Reader->m_HeaderPart.Dump(stream);
+ {
+ m_Reader->m_HeaderPart.Dump(stream);
+ }
}
-
//
void
AS_02::PCM::MXFReader::DumpIndex(FILE* stream) const
{
- if ( m_Reader->m_File.IsOpen() )
- m_Reader->m_IndexAccess.Dump(stream);
+ if ( m_Reader && m_Reader->m_File.IsOpen() )
+ {
+ m_Reader->m_IndexAccess.Dump(stream);
+ }
}
//------------------------------------------------------------------------------------------
//
-class AS_02::PCM::MXFWriter::h__Writer : public AS_02::h__AS02Writer
+class AS_02::PCM::MXFWriter::h__Writer : public AS_02::h__AS02WriterClip
{
ASDCP_NO_COPY_CONSTRUCT(h__Writer);
h__Writer();
public:
- ASDCP::PCM::AudioDescriptor m_ADesc;
- byte_t m_EssenceUL[SMPTE_UL_LENGTH];
- ui64_t m_KLV_start;
-
- h__Writer(const Dictionary& d) : AS_02::h__AS02Writer(d), m_KLV_start(0){
+ ASDCP::MXF::WaveAudioDescriptor *m_WaveAudioDescriptor;
+ byte_t m_EssenceUL[SMPTE_UL_LENGTH];
+ ui32_t m_BytesPerSample;
+
+ h__Writer(const Dictionary& d) : AS_02::h__AS02WriterClip(d), m_WaveAudioDescriptor(0), m_BytesPerSample(0)
+ {
memset(m_EssenceUL, 0, SMPTE_UL_LENGTH);
-
}
virtual ~h__Writer(){}
- Result_t OpenWrite(const char*, ui32_t HeaderSize);
- Result_t SetSourceStream(const ASDCP::PCM::AudioDescriptor&);
+ Result_t OpenWrite(const std::string&, ASDCP::MXF::FileDescriptor* essence_descriptor,
+ ASDCP::MXF::InterchangeObject_list_t& essence_sub_descriptor_list, const ui32_t& header_size);
+ Result_t SetSourceStream(const ASDCP::Rational&);
Result_t WriteFrame(const FrameBuffer&, ASDCP::AESEncContext* = 0, ASDCP::HMACContext* = 0);
-
Result_t Finalize();
-
- //void AddSourceClip(const MXF::Rational& EditRate, ui32_t TCFrameRate,
- // const std::string& TrackName, const UL& EssenceUL,
- // const UL& DataDefinition, const std::string& PackageLabel);
- //void AddDMSegment(const MXF::Rational& EditRate, ui32_t TCFrameRate,
- // const std::string& TrackName, const UL& DataDefinition,
- // const std::string& PackageLabel);
- //void AddEssenceDescriptor(const UL& WrappingUL);
- //Result_t CreateBodyPart(const MXF::Rational& EditRate, ui32_t BytesPerEditUnit = 0);
-
- ////new method to create BodyPartition for essence and index
- //Result_t CreateBodyPartPair();
- ////new method to finalize BodyPartion(index)
- //Result_t CompleteIndexBodyPart();
-
- // reimplement these functions in AS_02_PCM to support modifications for AS-02
- Result_t WriteEKLVPacket(const ASDCP::FrameBuffer& FrameBuf,
- const byte_t* EssenceUL, AESEncContext* Ctx, HMACContext* HMAC);
- Result_t WriteAS02Footer();
-
};
// Open the file for writing. The file must not exist. Returns error if
// the operation cannot be completed.
ASDCP::Result_t
-AS_02::PCM::MXFWriter::h__Writer::OpenWrite(const char* filename, ui32_t HeaderSize)
+AS_02::PCM::MXFWriter::h__Writer::OpenWrite(const std::string& filename, ASDCP::MXF::FileDescriptor* essence_descriptor,
+ ASDCP::MXF::InterchangeObject_list_t& essence_sub_descriptor_list, const ui32_t& header_size)
{
+ assert(essence_descriptor);
+
+ m_WaveAudioDescriptor = dynamic_cast<ASDCP::MXF::WaveAudioDescriptor*>(essence_descriptor);
+
+ if ( m_WaveAudioDescriptor == 0 )
+ {
+ DefaultLogSink().Error("Essence descriptor is not a WaveAudioDescriptor.\n");
+ essence_descriptor->Dump();
+ return RESULT_AS02_FORMAT;
+ }
+
if ( ! m_State.Test_BEGIN() )
- return RESULT_STATE;
+ {
+ return RESULT_STATE;
+ }
- Result_t result = m_File.OpenWrite(filename);
+ Result_t result = m_File.OpenWrite(filename.c_str());
- if ( ASDCP_SUCCESS(result) )
+ if ( KM_SUCCESS(result) )
{
- m_HeaderSize = HeaderSize;
- m_EssenceDescriptor = new WaveAudioDescriptor(m_Dict);
+ m_HeaderSize = header_size;
+ m_EssenceDescriptor = essence_descriptor;
+ m_WaveAudioDescriptor->SampleRate = m_WaveAudioDescriptor->AudioSamplingRate;
+
+ ASDCP::MXF::InterchangeObject_list_t::iterator i;
+ for ( i = essence_sub_descriptor_list.begin(); i != essence_sub_descriptor_list.end(); ++i )
+ {
+ if ( (*i)->GetUL() != UL(m_Dict->ul(MDD_AudioChannelLabelSubDescriptor))
+ && (*i)->GetUL() != UL(m_Dict->ul(MDD_SoundfieldGroupLabelSubDescriptor))
+ && (*i)->GetUL() != UL(m_Dict->ul(MDD_GroupOfSoundfieldGroupsLabelSubDescriptor)) )
+ {
+ DefaultLogSink().Error("Essence sub-descriptor is not an MCALabelSubDescriptor.\n");
+ (*i)->Dump();
+ }
+
+ m_EssenceSubDescriptorList.push_back(*i);
+ GenRandomValue((*i)->InstanceUID);
+ m_EssenceDescriptor->SubDescriptors.push_back((*i)->InstanceUID);
+ *i = 0; // parent will only free the ones we don't keep
+ }
+
result = m_State.Goto_INIT();
}
// Automatically sets the MXF file's metadata from the WAV parser info.
ASDCP::Result_t
-AS_02::PCM::MXFWriter::h__Writer::SetSourceStream(const ASDCP::PCM::AudioDescriptor& ADesc)
+AS_02::PCM::MXFWriter::h__Writer::SetSourceStream(const ASDCP::Rational& edit_rate)
{
if ( ! m_State.Test_INIT() )
- return RESULT_STATE;
-
- if ( ADesc.EditRate != EditRate_24
- && ADesc.EditRate != EditRate_25
- && ADesc.EditRate != EditRate_30
- && ADesc.EditRate != EditRate_48
- && ADesc.EditRate != EditRate_50
- && ADesc.EditRate != EditRate_60
- && ADesc.EditRate != EditRate_23_98 )
- {
- DefaultLogSink().Error("AudioDescriptor.EditRate is not a supported value: %d/%d\n",
- ADesc.EditRate.Numerator, ADesc.EditRate.Denominator);
- return RESULT_RAW_FORMAT;
- }
-
- if ( ADesc.AudioSamplingRate != SampleRate_48k && ADesc.AudioSamplingRate != SampleRate_96k )
{
- DefaultLogSink().Error("AudioDescriptor.AudioSamplingRate is not 48000/1 or 96000/1: %d/%d\n",
- ADesc.AudioSamplingRate.Numerator, ADesc.AudioSamplingRate.Denominator);
- return RESULT_RAW_FORMAT;
+ return RESULT_STATE;
}
- assert(m_Dict);
- m_ADesc = ADesc;
-
- Result_t result = PCM_ADesc_to_MD(m_ADesc, (WaveAudioDescriptor*)m_EssenceDescriptor);
-
- if ( ASDCP_SUCCESS(result) )
- {
- memcpy(m_EssenceUL, m_Dict->ul(MDD_WAVEssence), SMPTE_UL_LENGTH);
- //SMPTE 382M-2007: ByteNo. 15 - 02h - Wave Clip-Wrapped Element
- m_EssenceUL[SMPTE_UL_LENGTH-2] = 2; // 02h - Wave Clip-Wrapped Element
- m_EssenceUL[SMPTE_UL_LENGTH-1] = 1; // first (and only) essence container
- result = m_State.Goto_READY();
- }
+ memcpy(m_EssenceUL, m_Dict->ul(MDD_WAVEssenceClip), SMPTE_UL_LENGTH);
+ m_EssenceUL[15] = 1; // set the stream identifier
+ Result_t result = m_State.Goto_READY();
- if ( ASDCP_SUCCESS(result) )
+ if ( KM_SUCCESS(result) )
{
- ui32_t TCFrameRate = ( m_ADesc.EditRate == EditRate_23_98 ) ? 24 : m_ADesc.EditRate.Numerator;
-
- result = WriteAS02Header(PCM_PACKAGE_LABEL, UL(m_Dict->ul(MDD_WAVWrapping)),
+ assert(m_WaveAudioDescriptor);
+ m_BytesPerSample = AS_02::MXF::CalcSampleSize(*m_WaveAudioDescriptor);
+ result = WriteAS02Header(PCM_PACKAGE_LABEL, UL(m_Dict->ul(MDD_WAVWrappingClip)),
SOUND_DEF_LABEL, UL(m_EssenceUL), UL(m_Dict->ul(MDD_SoundDataDef)),
- m_ADesc.EditRate, TCFrameRate, calc_CBR_frame_size(m_Info, m_ADesc));
+ m_EssenceDescriptor->SampleRate, derive_timecode_rate_from_edit_rate(edit_rate));
+
+ if ( KM_SUCCESS(result) )
+ {
+ this->m_IndexWriter.SetEditRate(m_WaveAudioDescriptor->AudioSamplingRate,
+ AS_02::MXF::CalcSampleSize(*m_WaveAudioDescriptor));
+ }
}
return result;
//
//
ASDCP::Result_t
-AS_02::PCM::MXFWriter::h__Writer::WriteFrame(const FrameBuffer& FrameBuf, AESEncContext* Ctx,
+AS_02::PCM::MXFWriter::h__Writer::WriteFrame(const FrameBuffer& frame_buf, AESEncContext* Ctx,
HMACContext* HMAC)
{
+ if ( frame_buf.Size() == 0 )
+ {
+ DefaultLogSink().Error("The frame buffer size is zero.\n");
+ return RESULT_PARAM;
+ }
+
Result_t result = RESULT_OK;
if ( m_State.Test_READY() )
- result = m_State.Goto_RUNNING(); // first time through
+ {
+ result = m_State.Goto_RUNNING(); // first time through
+ }
- if ( ASDCP_SUCCESS(result) )
- result = WriteEKLVPacket(FrameBuf, m_EssenceUL, Ctx, HMAC);
+ if ( KM_SUCCESS(result) && ! HasOpenClip() )
+ {
+ result = StartClip(m_EssenceUL, Ctx, HMAC);
+ }
+
+ if ( KM_SUCCESS(result) )
+ {
+ result = WriteClipBlock(frame_buf);
+ }
- if ( ASDCP_SUCCESS(result) )
- m_FramesWritten++;
+ if ( KM_SUCCESS(result) )
+ {
+ m_FramesWritten += frame_buf.Size() / m_BytesPerSample;
+ }
return result;
}
m_State.Goto_FINAL();
- return WriteAS02Footer();
+ Result_t result = FinalizeClip(AS_02::MXF::CalcSampleSize(*m_WaveAudioDescriptor));
+
+ if ( KM_SUCCESS(result) )
+ {
+ m_WaveAudioDescriptor->ContainerDuration = m_IndexWriter.m_Duration = m_FramesWritten;
+ WriteAS02Footer();
+ }
+
+ return result;
}
return m_Writer->m_RIP;
}
-
// Open the file for writing. The file must not exist. Returns error if
// the operation cannot be completed.
ASDCP::Result_t
-AS_02::PCM::MXFWriter::OpenWrite(const char* filename, const WriterInfo& Info,
- const ASDCP::PCM::AudioDescriptor& ADesc, ui32_t HeaderSize)
+AS_02::PCM::MXFWriter::OpenWrite(const std::string& filename, const WriterInfo& Info,
+ ASDCP::MXF::FileDescriptor* essence_descriptor,
+ ASDCP::MXF::InterchangeObject_list_t& essence_sub_descriptor_list,
+ const ASDCP::Rational& edit_rate, ui32_t header_size)
{
+ if ( essence_descriptor == 0 )
+ {
+ DefaultLogSink().Error("Essence descriptor object required.\n");
+ return RESULT_PARAM;
+ }
+
+ if ( Info.EncryptedEssence )
+ {
+ DefaultLogSink().Error("Encryption not supported for ST 382 clip-wrap.\n");
+ return Kumu::RESULT_NOTIMPL;
+ }
+
m_Writer = new h__Writer(DefaultSMPTEDict());
m_Writer->m_Info = Info;
- Result_t result = m_Writer->OpenWrite(filename, HeaderSize);
+ Result_t result = m_Writer->OpenWrite(filename, essence_descriptor, essence_sub_descriptor_list, header_size);
- if ( ASDCP_SUCCESS(result) )
- result = m_Writer->SetSourceStream(ADesc);
+ if ( KM_SUCCESS(result) )
+ result = m_Writer->SetSourceStream(edit_rate);
if ( ASDCP_FAILURE(result) )
m_Writer.release();