/* Copyright (c) 2004-2021, 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_DCP_DCData.cpp \version $Id$ \brief AS-DCP library, Dcinema generic data essence reader and writer implementation */ #include #include "AS_DCP.h" #include "AS_DCP_internal.h" namespace ASDCP { namespace DCData { static std::string DC_DATA_PACKAGE_LABEL = "File Package: SMPTE-GC frame wrapping of D-Cinema Generic data"; static std::string DC_DATA_DEF_LABEL = "D-Cinema Generic Data Track"; } // namespace DCData } // namespace ASDCP // std::ostream& ASDCP::DCData::operator << (std::ostream& strm, const DCDataDescriptor& DDesc) { char str_buf[40]; strm << " EditRate: " << DDesc.EditRate.Numerator << "/" << DDesc.EditRate.Denominator << std::endl; strm << " ContainerDuration: " << (unsigned) DDesc.ContainerDuration << std::endl; strm << " DataEssenceCoding: " << UL(DDesc.DataEssenceCoding).EncodeString(str_buf, 40) << std::endl; return strm; } // void ASDCP::DCData::DCDataDescriptorDump(const DCDataDescriptor& DDesc, FILE* stream) { char str_buf[40]; if ( stream == 0 ) stream = stderr; fprintf(stream, "\ EditRate: %d/%d\n\ ContainerDuration: %u\n\ DataEssenceCoding: %s\n", DDesc.EditRate.Numerator, DDesc.EditRate.Denominator, DDesc.ContainerDuration, UL(DDesc.DataEssenceCoding).EncodeString(str_buf, 40)); } //------------------------------------------------------------------------------------------ typedef std::list SubDescriptorList_t; class ASDCP::DCData::MXFReader::h__Reader : public ASDCP::h__ASDCPReader { bool m_PrivateLabelCompatibilityMode; ASDCP_NO_COPY_CONSTRUCT(h__Reader); h__Reader(); public: DCDataDescriptor m_DDesc; h__Reader(const Dictionary* d, const Kumu::IFileReaderFactory& fileReaderFactory) : ASDCP::h__ASDCPReader(d, fileReaderFactory), m_PrivateLabelCompatibilityMode(false), m_DDesc() {} ~h__Reader() {} Result_t OpenRead(const std::string&); Result_t ReadFrame(ui32_t, FrameBuffer&, AESDecContext*, HMACContext*); Result_t MD_to_DCData_DDesc(const MXF::DCDataDescriptor& descriptor_object, DCData::DCDataDescriptor& DDesc); Result_t MD_to_DCData_DDesc(const MXF::PrivateDCDataDescriptor& descriptor_object, DCData::DCDataDescriptor& DDesc); }; // ASDCP::Result_t ASDCP::DCData::MXFReader::h__Reader::MD_to_DCData_DDesc(const MXF::DCDataDescriptor& descriptor_object, DCData::DCDataDescriptor& DDesc) { DDesc.EditRate = descriptor_object.SampleRate; if ( ! descriptor_object.ContainerDuration.empty() ) { assert(descriptor_object.ContainerDuration.const_get() <= 0xFFFFFFFFL); DDesc.ContainerDuration = static_cast(descriptor_object.ContainerDuration.const_get()); } memcpy(DDesc.DataEssenceCoding, descriptor_object.DataEssenceCoding.Value(), SMPTE_UL_LENGTH); return RESULT_OK; } // ASDCP::Result_t ASDCP::DCData::MXFReader::h__Reader::MD_to_DCData_DDesc(const MXF::PrivateDCDataDescriptor& descriptor_object, DCData::DCDataDescriptor& DDesc) { DDesc.EditRate = descriptor_object.SampleRate; if ( ! descriptor_object.ContainerDuration.empty() ) { assert(descriptor_object.ContainerDuration.const_get() <= 0xFFFFFFFFL); DDesc.ContainerDuration = static_cast(descriptor_object.ContainerDuration.const_get()); } memcpy(DDesc.DataEssenceCoding, descriptor_object.DataEssenceCoding.Value(), SMPTE_UL_LENGTH); return RESULT_OK; } // // ASDCP::Result_t ASDCP::DCData::MXFReader::h__Reader::OpenRead(const std::string& filename) { Result_t result = OpenMXFRead(filename); if( KM_SUCCESS(result) ) { InterchangeObject* iObj = 0; result = m_HeaderPart.GetMDObjectByType(OBJ_TYPE_ARGS(DCDataDescriptor), &iObj); if ( KM_SUCCESS(result) ) { const MXF::DCDataDescriptor* p = dynamic_cast(iObj); assert(p); result = MD_to_DCData_DDesc(*p, m_DDesc); } else { result = m_HeaderPart.GetMDObjectByType(OBJ_TYPE_ARGS(PrivateDCDataDescriptor), &iObj); if ( KM_SUCCESS(result) ) { m_PrivateLabelCompatibilityMode = true; const MXF::PrivateDCDataDescriptor* p = dynamic_cast(iObj); assert(p); result = MD_to_DCData_DDesc(*p, m_DDesc); } } if ( KM_FAILURE(result) ) { DefaultLogSink().Error("DCDataDescriptor object not found in ST 429-14 file.\n"); result = RESULT_FORMAT; } } // check for sample/frame rate sanity if ( ASDCP_SUCCESS(result) && m_DDesc.EditRate != EditRate_24 && m_DDesc.EditRate != EditRate_25 && m_DDesc.EditRate != EditRate_30 && m_DDesc.EditRate != EditRate_48 && m_DDesc.EditRate != EditRate_50 && m_DDesc.EditRate != EditRate_60 && m_DDesc.EditRate != EditRate_96 && m_DDesc.EditRate != EditRate_100 && m_DDesc.EditRate != EditRate_120 && m_DDesc.EditRate != EditRate_192 && m_DDesc.EditRate != EditRate_200 && m_DDesc.EditRate != EditRate_240 ) { DefaultLogSink().Error("DC Data file EditRate is not a supported value: %d/%d\n", // lu m_DDesc.EditRate.Numerator, m_DDesc.EditRate.Denominator); return RESULT_FORMAT; } return result; } // // ASDCP::Result_t ASDCP::DCData::MXFReader::h__Reader::ReadFrame(ui32_t FrameNum, FrameBuffer& FrameBuf, AESDecContext* Ctx, HMACContext* HMAC) { if ( ! m_File->IsOpen() ) return RESULT_INIT; assert(m_Dict); if ( m_PrivateLabelCompatibilityMode ) { return ReadEKLVFrame(FrameNum, FrameBuf, m_Dict->ul(MDD_PrivateDCDataEssence), Ctx, HMAC); } return ReadEKLVFrame(FrameNum, FrameBuf, m_Dict->ul(MDD_DCDataEssence), Ctx, HMAC); } //------------------------------------------------------------------------------------------ // void ASDCP::DCData::FrameBuffer::Dump(FILE* stream, ui32_t dump_len) const { if ( stream == 0 ) stream = stderr; fprintf(stream, "Frame: %06u, %7u bytes\n", m_FrameNumber, m_Size); if ( dump_len > 0 ) Kumu::hexdump(m_Data, dump_len, stream); } //------------------------------------------------------------------------------------------ ASDCP::DCData::MXFReader::MXFReader(const Kumu::IFileReaderFactory& fileReaderFactory) { m_Reader = new h__Reader(&DefaultSMPTEDict(), fileReaderFactory); } ASDCP::DCData::MXFReader::~MXFReader() { if ( m_Reader && m_Reader->m_File->IsOpen() ) m_Reader->Close(); } // Warning: direct manipulation of MXF structures can interfere // with the normal operation of the wrapper. Caveat emptor! // ASDCP::MXF::OP1aHeader& ASDCP::DCData::MXFReader::OP1aHeader() { if ( m_Reader.empty() ) { assert(g_OP1aHeader); return *g_OP1aHeader; } return m_Reader->m_HeaderPart; } // Warning: direct manipulation of MXF structures can interfere // with the normal operation of the wrapper. Caveat emptor! // ASDCP::MXF::OPAtomIndexFooter& ASDCP::DCData::MXFReader::OPAtomIndexFooter() { if ( m_Reader.empty() ) { assert(g_OPAtomIndexFooter); return *g_OPAtomIndexFooter; } return m_Reader->m_IndexAccess; } // Warning: direct manipulation of MXF structures can interfere // with the normal operation of the wrapper. Caveat emptor! // ASDCP::MXF::RIP& ASDCP::DCData::MXFReader::RIP() { if ( m_Reader.empty() ) { assert(g_RIP); return *g_RIP; } return m_Reader->m_RIP; } // Open the file for reading. The file must exist. Returns error if the // operation cannot be completed. ASDCP::Result_t ASDCP::DCData::MXFReader::OpenRead(const std::string& filename) const { return m_Reader->OpenRead(filename); } // ASDCP::Result_t ASDCP::DCData::MXFReader::ReadFrame(ui32_t FrameNum, FrameBuffer& FrameBuf, AESDecContext* Ctx, HMACContext* HMAC) const { if ( m_Reader && m_Reader->m_File->IsOpen() ) return m_Reader->ReadFrame(FrameNum, FrameBuf, Ctx, HMAC); return RESULT_INIT; } ASDCP::Result_t ASDCP::DCData::MXFReader::LocateFrame(ui32_t FrameNum, Kumu::fpos_t& streamOffset, i8_t& temporalOffset, i8_t& keyFrameOffset) const { return m_Reader->LocateFrame(FrameNum, streamOffset, temporalOffset, keyFrameOffset); } // Fill the struct with the values from the file's header. // Returns RESULT_INIT if the file is not open. ASDCP::Result_t ASDCP::DCData::MXFReader::FillDCDataDescriptor(DCDataDescriptor& DDesc) const { if ( m_Reader && m_Reader->m_File->IsOpen() ) { DDesc = m_Reader->m_DDesc; 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 ASDCP::DCData::MXFReader::FillWriterInfo(WriterInfo& Info) const { if ( m_Reader && m_Reader->m_File->IsOpen() ) { Info = m_Reader->m_Info; return RESULT_OK; } return RESULT_INIT; } // void ASDCP::DCData::MXFReader::DumpHeaderMetadata(FILE* stream) const { if ( m_Reader->m_File->IsOpen() ) m_Reader->m_HeaderPart.Dump(stream); } // void ASDCP::DCData::MXFReader::DumpIndex(FILE* stream) const { if ( m_Reader->m_File->IsOpen() ) m_Reader->m_IndexAccess.Dump(stream); } // ASDCP::Result_t ASDCP::DCData::MXFReader::Close() const { if ( m_Reader && m_Reader->m_File->IsOpen() ) { m_Reader->Close(); return RESULT_OK; } return RESULT_INIT; } //------------------------------------------------------------------------------------------ class ASDCP::DCData::MXFWriter::h__Writer : public ASDCP::h__ASDCPWriter { ASDCP_NO_COPY_CONSTRUCT(h__Writer); h__Writer(); public: DCDataDescriptor m_DDesc; byte_t m_EssenceUL[SMPTE_UL_LENGTH]; h__Writer(const Dictionary *d) : ASDCP::h__ASDCPWriter(d) { memset(m_EssenceUL, 0, SMPTE_UL_LENGTH); } ~h__Writer(){} Result_t OpenWrite(const std::string&, ui32_t HeaderSize, const SubDescriptorList_t& subDescriptors); Result_t SetSourceStream(const DCDataDescriptor&, const byte_t*, const std::string&, const std::string&); Result_t WriteFrame(const FrameBuffer&, AESEncContext* = 0, HMACContext* = 0); Result_t Finalize(); Result_t DCData_DDesc_to_MD(DCData::DCDataDescriptor& DDesc); }; // ASDCP::Result_t ASDCP::DCData::MXFWriter::h__Writer::DCData_DDesc_to_MD(DCData::DCDataDescriptor& DDesc) { ASDCP_TEST_NULL(m_EssenceDescriptor); MXF::DCDataDescriptor* DDescObj = static_cast(m_EssenceDescriptor); DDescObj->SampleRate = DDesc.EditRate; DDescObj->ContainerDuration = DDesc.ContainerDuration; DDescObj->DataEssenceCoding.Set(DDesc.DataEssenceCoding); return RESULT_OK; } // ASDCP::Result_t ASDCP::DCData::MXFWriter::h__Writer::OpenWrite(const std::string& filename, ui32_t HeaderSize, const SubDescriptorList_t& subDescriptors) { if ( ! m_State.Test_BEGIN() ) return RESULT_STATE; Result_t result = m_File.OpenWrite(filename); if ( ASDCP_SUCCESS(result) ) { m_HeaderSize = HeaderSize; m_EssenceDescriptor = new MXF::DCDataDescriptor(m_Dict); SubDescriptorList_t::const_iterator sDObj; SubDescriptorList_t::const_iterator lastDescriptor = subDescriptors.end(); for (sDObj = subDescriptors.begin(); sDObj != lastDescriptor; ++sDObj) { m_EssenceSubDescriptorList.push_back(*sDObj); GenRandomValue((*sDObj)->InstanceUID); m_EssenceDescriptor->SubDescriptors.push_back((*sDObj)->InstanceUID); } result = m_State.Goto_INIT(); } return result; } // ASDCP::Result_t ASDCP::DCData::MXFWriter::h__Writer::SetSourceStream(DCDataDescriptor const& DDesc, const byte_t * essenceCoding, const std::string& packageLabel, const std::string& defLabel) { if ( ! m_State.Test_INIT() ) return RESULT_STATE; if ( DDesc.EditRate != EditRate_24 && DDesc.EditRate != EditRate_25 && DDesc.EditRate != EditRate_30 && DDesc.EditRate != EditRate_48 && DDesc.EditRate != EditRate_50 && DDesc.EditRate != EditRate_60 && DDesc.EditRate != EditRate_96 && DDesc.EditRate != EditRate_100 && DDesc.EditRate != EditRate_120 && DDesc.EditRate != EditRate_192 && DDesc.EditRate != EditRate_200 && DDesc.EditRate != EditRate_240 ) { DefaultLogSink().Error("DCDataDescriptor.EditRate is not a supported value: %d/%d\n", DDesc.EditRate.Numerator, DDesc.EditRate.Denominator); return RESULT_RAW_FORMAT; } assert(m_Dict); m_DDesc = DDesc; if (NULL != essenceCoding) memcpy(m_DDesc.DataEssenceCoding, essenceCoding, SMPTE_UL_LENGTH); Result_t result = DCData_DDesc_to_MD(m_DDesc); if ( ASDCP_SUCCESS(result) ) { memcpy(m_EssenceUL, m_Dict->ul(MDD_DCDataEssence), SMPTE_UL_LENGTH); m_EssenceUL[SMPTE_UL_LENGTH-1] = 1; // first (and only) essence container result = m_State.Goto_READY(); } if ( ASDCP_SUCCESS(result) ) { ui32_t TCFrameRate = m_DDesc.EditRate.Numerator; result = WriteASDCPHeader(packageLabel, UL(m_Dict->ul(MDD_DCDataWrappingFrame)), defLabel, UL(m_EssenceUL), UL(m_Dict->ul(MDD_DataDataDef)), m_DDesc.EditRate, TCFrameRate); } return result; } // ASDCP::Result_t ASDCP::DCData::MXFWriter::h__Writer::WriteFrame(const FrameBuffer& FrameBuf, ASDCP::AESEncContext* Ctx, ASDCP::HMACContext* HMAC) { Result_t result = RESULT_OK; if ( m_State.Test_READY() ) result = m_State.Goto_RUNNING(); // first time through ui64_t StreamOffset = m_StreamOffset; if ( ASDCP_SUCCESS(result) ) result = WriteEKLVPacket(FrameBuf, m_EssenceUL, MXF_BER_LENGTH, Ctx, HMAC); if ( ASDCP_SUCCESS(result) ) { IndexTableSegment::IndexEntry Entry; Entry.StreamOffset = StreamOffset; m_FooterPart.PushIndexEntry(Entry); m_FramesWritten++; } return result; } // Closes the MXF file, writing the index and other closing information. // ASDCP::Result_t ASDCP::DCData::MXFWriter::h__Writer::Finalize() { if ( ! m_State.Test_RUNNING() ) return RESULT_STATE; m_State.Goto_FINAL(); return WriteASDCPFooter(); } //------------------------------------------------------------------------------------------ ASDCP::DCData::MXFWriter::MXFWriter() { } ASDCP::DCData::MXFWriter::~MXFWriter() { } // Warning: direct manipulation of MXF structures can interfere // with the normal operation of the wrapper. Caveat emptor! // ASDCP::MXF::OP1aHeader& ASDCP::DCData::MXFWriter::OP1aHeader() { if ( m_Writer.empty() ) { assert(g_OP1aHeader); return *g_OP1aHeader; } return m_Writer->m_HeaderPart; } // Warning: direct manipulation of MXF structures can interfere // with the normal operation of the wrapper. Caveat emptor! // ASDCP::MXF::OPAtomIndexFooter& ASDCP::DCData::MXFWriter::OPAtomIndexFooter() { if ( m_Writer.empty() ) { assert(g_OPAtomIndexFooter); return *g_OPAtomIndexFooter; } return m_Writer->m_FooterPart; } // Warning: direct manipulation of MXF structures can interfere // with the normal operation of the wrapper. Caveat emptor! // ASDCP::MXF::RIP& ASDCP::DCData::MXFWriter::RIP() { if ( m_Writer.empty() ) { assert(g_RIP); return *g_RIP; } 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 ASDCP::DCData::MXFWriter::OpenWrite(const std::string& filename, const WriterInfo& Info, const DCDataDescriptor& DDesc, ui32_t HeaderSize) { if ( Info.LabelSetType != LS_MXF_SMPTE ) { DefaultLogSink().Error("DC Data support requires LS_MXF_SMPTE\n"); return RESULT_FORMAT; } m_Writer = new h__Writer(&DefaultSMPTEDict()); m_Writer->m_Info = Info; Result_t result = m_Writer->OpenWrite(filename, HeaderSize, SubDescriptorList_t()); if ( ASDCP_SUCCESS(result) ) result = m_Writer->SetSourceStream(DDesc, NULL, DC_DATA_PACKAGE_LABEL, DC_DATA_DEF_LABEL); if ( ASDCP_FAILURE(result) ) m_Writer.release(); return result; } // Writes a frame of essence to the MXF file. If the optional AESEncContext // argument is present, the essence is encrypted prior to writing. // Fails if the file is not open, is finalized, or an operating system // error occurs. ASDCP::Result_t ASDCP::DCData::MXFWriter::WriteFrame(const FrameBuffer& FrameBuf, AESEncContext* Ctx, HMACContext* HMAC) { if ( m_Writer.empty() ) return RESULT_INIT; return m_Writer->WriteFrame(FrameBuf, Ctx, HMAC); } // Closes the MXF file, writing the index and other closing information. ASDCP::Result_t ASDCP::DCData::MXFWriter::Finalize() { if ( m_Writer.empty() ) return RESULT_INIT; return m_Writer->Finalize(); } // // end AS_DCP_DCData.cpp //