/*
-Copyright (c) 2004-2005, John Hurst
+Copyright (c) 2004-2009, John Hurst
All rights reserved.
Redistribution and use in source and binary forms, with or without
*/
#include "AS_DCP_internal.h"
-#include "MemIO.h"
-#include "Timecode.h"
-#include <assert.h>
+#include "KLV.h"
-using namespace mxflib;
using namespace ASDCP;
+using namespace ASDCP::MXF;
+// a magic number identifying asdcplib
+#ifndef ASDCP_BUILD_NUMBER
+#define ASDCP_BUILD_NUMBER 0x6A68
+#endif
+
+
+static std::vector<int>
+version_split(const char* str)
+{
+ std::vector<int> result;
+
+ const char* pstr = str;
+ const char* r = strchr(pstr, '.');
+
+ while ( r != 0 )
+ {
+ assert(r >= pstr);
+ if ( r > pstr )
+ result.push_back(atoi(pstr));
+
+ pstr = r + 1;
+ r = strchr(pstr, '.');
+ }
-ASDCP::h__Writer::h__Writer() : m_FramesWritten(0), m_StreamOffset(0)
+ if( strlen(pstr) > 0 )
+ result.push_back(atoi(pstr));
+
+ assert(result.size() == 3);
+ return result;
+}
+
+
+//
+ASDCP::h__Writer::h__Writer(const Dictionary& d) :
+ m_HeaderPart(m_Dict), m_BodyPart(m_Dict), m_FooterPart(m_Dict), m_Dict(&d),
+ m_HeaderSize(0), m_EssenceStart(0),
+ m_EssenceDescriptor(0), m_FramesWritten(0), m_StreamOffset(0)
{
- init_mxf_types();
}
ASDCP::h__Writer::~h__Writer()
{
}
-// standard method of writing the header of a new MXF file
-Result_t
-ASDCP::h__Writer::WriteMXFHeader(EssenceType_t EssenceType, ASDCP::Rational& EditRate,
- ui32_t TCFrameRate, ui32_t BytesPerEditUnit)
+//
+// add DMS CryptographicFramework entry to source package
+void
+AddDMScrypt(Partition& HeaderPart, SourcePackage& Package,
+ WriterInfo& Descr, const UL& WrappingUL, const Dictionary*& Dict)
{
- // write the stream metadata
- m_Metadata = new Metadata();
- assert(m_Metadata);
- assert(m_Metadata->m_Object);
+ assert(Dict);
+ // Essence Track
+ StaticTrack* NewTrack = new StaticTrack(Dict);
+ HeaderPart.AddChildObject(NewTrack);
+ Package.Tracks.push_back(NewTrack->InstanceUID);
+ NewTrack->TrackName = "Descriptive Track";
+ NewTrack->TrackID = 3;
+
+ Sequence* Seq = new Sequence(Dict);
+ HeaderPart.AddChildObject(Seq);
+ NewTrack->Sequence = Seq->InstanceUID;
+ Seq->DataDefinition = UL(Dict->ul(MDD_DescriptiveMetaDataDef));
+
+ DMSegment* Segment = new DMSegment(Dict);
+ HeaderPart.AddChildObject(Segment);
+ Seq->StructuralComponents.push_back(Segment->InstanceUID);
+ Segment->EventComment = "AS-DCP KLV Encryption";
+
+ CryptographicFramework* CFW = new CryptographicFramework(Dict);
+ HeaderPart.AddChildObject(CFW);
+ Segment->DMFramework = CFW->InstanceUID;
+
+ CryptographicContext* Context = new CryptographicContext(Dict);
+ HeaderPart.AddChildObject(Context);
+ CFW->ContextSR = Context->InstanceUID;
+
+ Context->ContextID.Set(Descr.ContextID);
+ Context->SourceEssenceContainer = WrappingUL; // ??????
+ Context->CipherAlgorithm.Set(Dict->ul(MDD_CipherAlgorithm_AES));
+ Context->MICAlgorithm.Set( Descr.UsesHMAC ? Dict->ul(MDD_MICAlgorithm_HMAC_SHA1) : Dict->ul(MDD_MICAlgorithm_NONE) );
+ Context->CryptographicKeyID.Set(Descr.CryptographicKeyID);
+}
- if ( m_Info.EncryptedEssence )
- {
- UL DMSUL(CryptoFrameworkUL_Data);
- m_Metadata->AddDMScheme(DMSUL);
- }
+//
+void
+ASDCP::h__Writer::InitHeader()
+{
+ assert(m_Dict);
+ assert(m_EssenceDescriptor);
- // Set the OP label
- // If we are writing OP-Atom we write the header as OP1a initially as another process
- // may try to read the file before it is complete and then it will NOT be a valid OP-Atom file
- m_Metadata->SetOP(OP1aUL);
-
- // Build the Material Package
- // DRAGONS: We should really try and determine the UMID type rather than cop-out!
- UMID PackageUMID;
- PackageUMID.MakeUMID(0x0d); // mixed type
-
-#if ASDCP_USE_MXFLIB
- mxflib::Rational EditRate_;
- EditRate_.Numerator = EditRate.Numerator;
- EditRate_.Denominator = EditRate.Denominator;
-#else
-#define EditRate_ EditRate
-#endif
+ m_HeaderPart.m_Primer.ClearTagList();
+ m_HeaderPart.m_Preface = new Preface(m_Dict);
+ m_HeaderPart.AddChildObject(m_HeaderPart.m_Preface);
- m_MaterialPackage = m_Metadata->AddMaterialPackage("AS-DCP Material Package", PackageUMID);
- m_Metadata->SetPrimaryPackage(m_MaterialPackage); // This will be overwritten for OP-Atom
-
- TrackPtr MPTimecodeTrack = m_MaterialPackage->AddTimecodeTrack(EditRate_);
- m_MPTimecode = MPTimecodeTrack->AddTimecodeComponent(TCFrameRate, 0, 0);
+ // Set the Operational Pattern label -- we're just starting and have no RIP or index,
+ // so we tell the world by using OP1a
+ m_HeaderPart.m_Preface->OperationalPattern = UL(m_Dict->ul(MDD_OP1a));
+ m_HeaderPart.OperationalPattern = m_HeaderPart.m_Preface->OperationalPattern;
- TrackPtr FPTimecodeTrack = 0;
- mxflib::UUID assetUUID(m_Info.AssetUUID);
+ // First RIP Entry
+ if ( m_Info.LabelSetType == LS_MXF_SMPTE )
+ m_HeaderPart.m_RIP.PairArray.push_back(RIP::Pair(0, 0)); // 3-part, no essence in header
+ else
+ m_HeaderPart.m_RIP.PairArray.push_back(RIP::Pair(1, 0)); // 2-part, essence in header
- UMID EssenceUMID;
-
- switch ( EssenceType )
- {
- case ESS_MPEG2_VES:
- PackageUMID.MakeUMID(0x0f, assetUUID);
- m_FilePackage = m_Metadata->AddFilePackage(1, MPEG_PACKAGE_LABEL, PackageUMID);
- m_MPTrack = m_MaterialPackage->AddPictureTrack(EditRate_);
- m_FPTrack = m_FilePackage->AddPictureTrack(0, EditRate_);
- break;
-
- case ESS_JPEG_2000:
- PackageUMID.MakeUMID(0x0f, assetUUID);
- m_FilePackage = m_Metadata->AddFilePackage(1, JP2K_PACKAGE_LABEL, PackageUMID);
- m_MPTrack = m_MaterialPackage->AddPictureTrack(EditRate_);
- m_FPTrack = m_FilePackage->AddPictureTrack(0, EditRate_);
- break;
-
- case ESS_PCM_24b_48k:
- PackageUMID.MakeUMID(0x0f, assetUUID);
- m_FilePackage = m_Metadata->AddFilePackage(1, PCM_PACKAGE_LABEL, PackageUMID);
- m_MPTrack = m_MaterialPackage->AddSoundTrack(EditRate_);
- m_FPTrack = m_FilePackage->AddSoundTrack(0, EditRate_);
- break;
-
- default: return RESULT_RAW_ESS;
- }
+ //
+ // Identification
+ //
+ Identification* Ident = new Identification(m_Dict);
+ m_HeaderPart.AddChildObject(Ident);
+ m_HeaderPart.m_Preface->Identifications.push_back(Ident->InstanceUID);
+
+ Kumu::GenRandomValue(Ident->ThisGenerationUID);
+ Ident->CompanyName = m_Info.CompanyName.c_str();
+ Ident->ProductName = m_Info.ProductName.c_str();
+ Ident->VersionString = m_Info.ProductVersion.c_str();
+ Ident->ProductUID.Set(m_Info.ProductUUID);
+ Ident->Platform = ASDCP_PLATFORM;
+
+ std::vector<int> version = version_split(Version());
+
+ Ident->ToolkitVersion.Major = version[0];
+ Ident->ToolkitVersion.Minor = version[1];
+ Ident->ToolkitVersion.Patch = version[2];
+ Ident->ToolkitVersion.Build = ASDCP_BUILD_NUMBER;
+ Ident->ToolkitVersion.Release = VersionType::RL_RELEASE;
+}
+
+//
+template <class ClipT>
+struct TrackSet
+{
+ MXF::Track* Track;
+ MXF::Sequence* Sequence;
+ ClipT* Clip;
+
+ TrackSet() : Track(0), Sequence(0), Clip(0) {}
+};
+
+//
+template <class PackageT, class ClipT>
+TrackSet<ClipT>
+CreateTrackAndSequence(OPAtomHeader& Header, PackageT& Package, const std::string TrackName,
+ const MXF::Rational& EditRate, const UL& Definition, ui32_t TrackID, const Dictionary*& Dict)
+{
+ TrackSet<ClipT> NewTrack;
+
+ NewTrack.Track = new Track(Dict);
+ Header.AddChildObject(NewTrack.Track);
+ NewTrack.Track->EditRate = EditRate;
+ Package.Tracks.push_back(NewTrack.Track->InstanceUID);
+ NewTrack.Track->TrackID = TrackID;
+ NewTrack.Track->TrackName = TrackName.c_str();
+
+ NewTrack.Sequence = new Sequence(Dict);
+ Header.AddChildObject(NewTrack.Sequence);
+ NewTrack.Track->Sequence = NewTrack.Sequence->InstanceUID;
+ NewTrack.Sequence->DataDefinition = Definition;
+
+ return NewTrack;
+}
+
+//
+template <class PackageT>
+TrackSet<TimecodeComponent>
+CreateTimecodeTrack(OPAtomHeader& Header, PackageT& Package,
+ const MXF::Rational& EditRate, ui32_t TCFrameRate, ui64_t TCStart, const Dictionary*& Dict)
+{
+ assert(Dict);
+ UL TCUL(Dict->ul(MDD_TimecodeDataDef));
+
+ TrackSet<TimecodeComponent> NewTrack = CreateTrackAndSequence<PackageT, TimecodeComponent>(Header, Package, "Timecode Track", EditRate, TCUL, 1, Dict);
+
+ NewTrack.Clip = new TimecodeComponent(Dict);
+ Header.AddChildObject(NewTrack.Clip);
+ NewTrack.Sequence->StructuralComponents.push_back(NewTrack.Clip->InstanceUID);
+ NewTrack.Clip->RoundedTimecodeBase = TCFrameRate;
+ NewTrack.Clip->StartTimecode = TCStart;
+ NewTrack.Clip->DataDefinition = TCUL;
+
+ return NewTrack;
+}
+
+
+//
+void
+ASDCP::h__Writer::AddSourceClip(const MXF::Rational& EditRate, ui32_t TCFrameRate,
+ const std::string& TrackName, const UL& DataDefinition,
+ const std::string& PackageLabel)
+{
+ //
+ ContentStorage* Storage = new ContentStorage(m_Dict);
+ m_HeaderPart.AddChildObject(Storage);
+ m_HeaderPart.m_Preface->ContentStorage = Storage->InstanceUID;
+
+ EssenceContainerData* ECD = new EssenceContainerData(m_Dict);
+ m_HeaderPart.AddChildObject(ECD);
+ Storage->EssenceContainerData.push_back(ECD->InstanceUID);
+ ECD->IndexSID = 129;
+ ECD->BodySID = 1;
+
+ UUID assetUUID(m_Info.AssetUUID);
+ UMID SourcePackageUMID, MaterialPackageUMID;
+ SourcePackageUMID.MakeUMID(0x0f, assetUUID);
+ MaterialPackageUMID.MakeUMID(0x0f); // unidentified essence
+
+ //
+ // Material Package
+ //
+ m_MaterialPackage = new MaterialPackage(m_Dict);
+ m_MaterialPackage->Name = "AS-DCP Material Package";
+ m_MaterialPackage->PackageUID = MaterialPackageUMID;
+ m_HeaderPart.AddChildObject(m_MaterialPackage);
+ Storage->Packages.push_back(m_MaterialPackage->InstanceUID);
+
+ TrackSet<TimecodeComponent> MPTCTrack = CreateTimecodeTrack<MaterialPackage>(m_HeaderPart, *m_MaterialPackage,
+ EditRate, TCFrameRate, 0, m_Dict);
+ m_DurationUpdateList.push_back(&(MPTCTrack.Sequence->Duration));
+ m_DurationUpdateList.push_back(&(MPTCTrack.Clip->Duration));
+
+ TrackSet<SourceClip> MPTrack = CreateTrackAndSequence<MaterialPackage, SourceClip>(m_HeaderPart, *m_MaterialPackage,
+ TrackName, EditRate, DataDefinition,
+ 2, m_Dict);
+ m_DurationUpdateList.push_back(&(MPTrack.Sequence->Duration));
+
+ MPTrack.Clip = new SourceClip(m_Dict);
+ m_HeaderPart.AddChildObject(MPTrack.Clip);
+ MPTrack.Sequence->StructuralComponents.push_back(MPTrack.Clip->InstanceUID);
+ MPTrack.Clip->DataDefinition = DataDefinition;
+ MPTrack.Clip->SourcePackageID = SourcePackageUMID;
+ MPTrack.Clip->SourceTrackID = 2;
+ m_DurationUpdateList.push_back(&(MPTrack.Clip->Duration));
- // Add an essence element
- FPTimecodeTrack = m_FilePackage->AddTimecodeTrack(EditRate_);
- m_FPTimecode = FPTimecodeTrack->AddTimecodeComponent(TCFrameRate, 0/* NDF */,
- tc_to_frames(TCFrameRate, 1, 0, 0, 0) );
-
- // Add a single Component to this Track of the Material Package
- m_MPClip = m_MPTrack->AddSourceClip();
- // Add a single Component to this Track of the File Package
- m_FPClip = m_FPTrack->AddSourceClip();
- const byte_t* SourceEssenceContainerLabel = 0;
+ //
+ // File (Source) Package
+ //
+ m_FilePackage = new SourcePackage(m_Dict);
+ m_FilePackage->Name = PackageLabel.c_str();
+ m_FilePackage->PackageUID = SourcePackageUMID;
+ ECD->LinkedPackageUID = SourcePackageUMID;
+
+ m_HeaderPart.AddChildObject(m_FilePackage);
+ Storage->Packages.push_back(m_FilePackage->InstanceUID);
+
+ TrackSet<TimecodeComponent> FPTCTrack = CreateTimecodeTrack<SourcePackage>(m_HeaderPart, *m_FilePackage,
+ EditRate, TCFrameRate,
+ ui64_C(3600) * TCFrameRate, m_Dict);
+ m_DurationUpdateList.push_back(&(FPTCTrack.Sequence->Duration));
+ m_DurationUpdateList.push_back(&(FPTCTrack.Clip->Duration));
+
+ TrackSet<SourceClip> FPTrack = CreateTrackAndSequence<SourcePackage, SourceClip>(m_HeaderPart, *m_FilePackage,
+ TrackName, EditRate, DataDefinition,
+ 2, m_Dict);
+ m_DurationUpdateList.push_back(&(FPTrack.Sequence->Duration));
+
+ FPTrack.Clip = new SourceClip(m_Dict);
+ m_HeaderPart.AddChildObject(FPTrack.Clip);
+ FPTrack.Sequence->StructuralComponents.push_back(FPTrack.Clip->InstanceUID);
+ FPTrack.Clip->DataDefinition = DataDefinition;
+
+ // for now we do not allow setting this value, so all files will be 'original'
+ FPTrack.Clip->SourceTrackID = 0;
+ FPTrack.Clip->SourcePackageID = NilUMID;
+ m_DurationUpdateList.push_back(&(FPTrack.Clip->Duration));
+
+ m_EssenceDescriptor->LinkedTrackID = FPTrack.Track->TrackID;
+}
- // Frame wrapping
- if ( m_Info.EncryptedEssence )
- {
- switch ( EssenceType )
- {
- case ESS_MPEG2_VES:
- SourceEssenceContainerLabel = WrappingUL_Data_MPEG2_VES;
- break;
-
- case ESS_JPEG_2000:
- SourceEssenceContainerLabel = WrappingUL_Data_JPEG_2000;
- break;
-
- case ESS_PCM_24b_48k:
- SourceEssenceContainerLabel = WrappingUL_Data_PCM_24b_48k;
- break;
-
- default:
- return RESULT_RAW_ESS;
- }
- }
+//
+void
+ASDCP::h__Writer::AddDMSegment(const MXF::Rational& EditRate, ui32_t TCFrameRate,
+ const std::string& TrackName, const UL& DataDefinition,
+ const std::string& PackageLabel)
+{
+ //
+ ContentStorage* Storage = new ContentStorage(m_Dict);
+ m_HeaderPart.AddChildObject(Storage);
+ m_HeaderPart.m_Preface->ContentStorage = Storage->InstanceUID;
+
+ EssenceContainerData* ECD = new EssenceContainerData(m_Dict);
+ m_HeaderPart.AddChildObject(ECD);
+ Storage->EssenceContainerData.push_back(ECD->InstanceUID);
+ ECD->IndexSID = 129;
+ ECD->BodySID = 1;
+
+ UUID assetUUID(m_Info.AssetUUID);
+ UMID SourcePackageUMID, MaterialPackageUMID;
+ SourcePackageUMID.MakeUMID(0x0f, assetUUID);
+ MaterialPackageUMID.MakeUMID(0x0f); // unidentified essence
+
+ //
+ // Material Package
+ //
+ m_MaterialPackage = new MaterialPackage(m_Dict);
+ m_MaterialPackage->Name = "AS-DCP Material Package";
+ m_MaterialPackage->PackageUID = MaterialPackageUMID;
+ m_HeaderPart.AddChildObject(m_MaterialPackage);
+ Storage->Packages.push_back(m_MaterialPackage->InstanceUID);
+
+ TrackSet<TimecodeComponent> MPTCTrack = CreateTimecodeTrack<MaterialPackage>(m_HeaderPart, *m_MaterialPackage,
+ EditRate, TCFrameRate, 0, m_Dict);
+ m_DurationUpdateList.push_back(&(MPTCTrack.Sequence->Duration));
+ m_DurationUpdateList.push_back(&(MPTCTrack.Clip->Duration));
+
+ TrackSet<DMSegment> MPTrack = CreateTrackAndSequence<MaterialPackage, DMSegment>(m_HeaderPart, *m_MaterialPackage,
+ TrackName, EditRate, DataDefinition,
+ 2, m_Dict);
+ m_DurationUpdateList.push_back(&(MPTrack.Sequence->Duration));
+
+ MPTrack.Clip = new DMSegment(m_Dict);
+ m_HeaderPart.AddChildObject(MPTrack.Clip);
+ MPTrack.Sequence->StructuralComponents.push_back(MPTrack.Clip->InstanceUID);
+ MPTrack.Clip->DataDefinition = DataDefinition;
+ // MPTrack.Clip->SourcePackageID = SourcePackageUMID;
+ // MPTrack.Clip->SourceTrackID = 2;
+ m_DurationUpdateList.push_back(&(MPTrack.Clip->Duration));
- mem_ptr<UL> WrappingUL;
- switch ( EssenceType )
- {
- case ESS_MPEG2_VES:
- WrappingUL = new UL(WrappingUL_Data_MPEG2_VES); // memchk TESTED
- break;
-
- case ESS_JPEG_2000:
- WrappingUL = new UL(WrappingUL_Data_JPEG_2000); // memchk TESTED
- break;
-
- case ESS_PCM_24b_48k:
- WrappingUL = new UL(WrappingUL_Data_PCM_24b_48k); // memchk TESTED
- break;
-
- default:
- return RESULT_RAW_ESS;
- }
- assert(!WrappingUL.empty());
- m_EssenceDescriptor->SetValue("EssenceContainer", DataChunk(klv_key_size, WrappingUL->GetValue()));
- // Write a File Descriptor only on the internally ref'ed Track
- m_EssenceDescriptor->SetUint("LinkedTrackID", m_FPTrack->GetUint("TrackID"));
- m_FilePackage->AddChild("Descriptor")->MakeLink(*m_EssenceDescriptor);
+ //
+ // File (Source) Package
+ //
+ m_FilePackage = new SourcePackage(m_Dict);
+ m_FilePackage->Name = PackageLabel.c_str();
+ m_FilePackage->PackageUID = SourcePackageUMID;
+ ECD->LinkedPackageUID = SourcePackageUMID;
+
+ m_HeaderPart.AddChildObject(m_FilePackage);
+ Storage->Packages.push_back(m_FilePackage->InstanceUID);
+
+ TrackSet<TimecodeComponent> FPTCTrack = CreateTimecodeTrack<SourcePackage>(m_HeaderPart, *m_FilePackage,
+ EditRate, TCFrameRate,
+ ui64_C(3600) * TCFrameRate, m_Dict);
+ m_DurationUpdateList.push_back(&(FPTCTrack.Sequence->Duration));
+ m_DurationUpdateList.push_back(&(FPTCTrack.Clip->Duration));
+
+ TrackSet<DMSegment> FPTrack = CreateTrackAndSequence<SourcePackage, DMSegment>(m_HeaderPart, *m_FilePackage,
+ TrackName, EditRate, DataDefinition,
+ 2, m_Dict);
+ m_DurationUpdateList.push_back(&(FPTrack.Sequence->Duration));
+
+ FPTrack.Clip = new DMSegment(m_Dict);
+ m_HeaderPart.AddChildObject(FPTrack.Clip);
+ FPTrack.Sequence->StructuralComponents.push_back(FPTrack.Clip->InstanceUID);
+ FPTrack.Clip->DataDefinition = DataDefinition;
+ FPTrack.Clip->EventComment = "D-Cinema Timed Text";
+
+ m_DurationUpdateList.push_back(&(FPTrack.Clip->Duration));
+ m_EssenceDescriptor->LinkedTrackID = FPTrack.Track->TrackID;
+}
- UL CryptEssenceUL(WrappingUL_Data_Crypt);
+//
+void
+ASDCP::h__Writer::AddEssenceDescriptor(const UL& WrappingUL)
+{
+ //
+ // Essence Descriptor
+ //
+ m_EssenceDescriptor->EssenceContainer = WrappingUL;
+ m_HeaderPart.m_Preface->PrimaryPackage = m_FilePackage->InstanceUID;
+
+ //
+ // Essence Descriptors
+ //
+ assert(m_Dict);
+ UL GenericContainerUL(m_Dict->ul(MDD_GCMulti));
+ m_HeaderPart.EssenceContainers.push_back(GenericContainerUL);
if ( m_Info.EncryptedEssence )
{
- m_Metadata->AddEssenceType(CryptEssenceUL);
+ UL CryptEssenceUL(m_Dict->ul(MDD_EncryptedContainerLabel));
+ m_HeaderPart.EssenceContainers.push_back(CryptEssenceUL);
+ m_HeaderPart.m_Preface->DMSchemes.push_back(UL(m_Dict->ul(MDD_CryptographicFrameworkLabel)));
+ AddDMScrypt(m_HeaderPart, *m_FilePackage, m_Info, WrappingUL, m_Dict);
}
else
{
- UL GCUL(GCMulti_Data);
- m_Metadata->AddEssenceType(GCUL);
- m_Metadata->AddEssenceType(*WrappingUL);
+ m_HeaderPart.EssenceContainers.push_back(WrappingUL);
}
- // Link the MP to the FP
- m_MPClip->MakeLink(m_FPTrack, 0);
+ m_HeaderPart.m_Preface->EssenceContainers = m_HeaderPart.EssenceContainers;
+ m_HeaderPart.AddChildObject(m_EssenceDescriptor);
- //
- // ** Write out the header **
- //
+ std::list<InterchangeObject*>::iterator sdli = m_EssenceSubDescriptorList.begin();
+ for ( ; sdli != m_EssenceSubDescriptorList.end(); sdli++ )
+ m_HeaderPart.AddChildObject(*sdli);
- m_HeaderPart = new Partition("OpenHeader");
- assert(m_HeaderPart);
- m_HeaderPart->SetKAG(1); // Everything else can stay at default
- m_HeaderPart->SetUint("BodySID", 1);
-
- m_HeaderPart->AddMetadata(m_Metadata);
-
- // Build an Ident set describing us and link into the metadata
- MDObject* Ident = new MDObject("Identification");
- assert(Ident);
- Ident->SetString("CompanyName", m_Info.CompanyName);
- Ident->SetString("ProductName", m_Info.ProductName);
- Ident->SetString("VersionString", m_Info.ProductVersion);
- UUID ProductUID(m_Info.ProductUUID);
- Ident->SetValue("ProductUID", DataChunk(UUIDlen, ProductUID.GetValue()));
-
- // TODO: get Oliver to show me how this works
- // Ident->SetString("ToolkitVersion", ?);
-
- m_Metadata->UpdateGenerations(*Ident);
+ m_FilePackage->Descriptor = m_EssenceDescriptor->InstanceUID;
+}
- if ( m_Info.EncryptedEssence )
- AddDMScrypt(m_FilePackage, m_Info, SourceEssenceContainerLabel);
+//
+Result_t
+ASDCP::h__Writer::CreateBodyPart(const MXF::Rational& EditRate, ui32_t BytesPerEditUnit)
+{
+ assert(m_Dict);
+ Result_t result = RESULT_OK;
- // Write the header partition
- m_File->WritePartition(*m_HeaderPart, HeaderPadding);
+ // create a body partition if we're writing proper 429-3/OP-Atom
+ if ( m_Info.LabelSetType == LS_MXF_SMPTE )
+ {
+ // Body Partition
+ m_BodyPart.EssenceContainers = m_HeaderPart.EssenceContainers;
+ m_BodyPart.ThisPartition = m_File.Tell();
+ m_BodyPart.BodySID = 1;
+ UL OPAtomUL(m_Dict->ul(MDD_OPAtom));
+ m_BodyPart.OperationalPattern = OPAtomUL;
+ m_HeaderPart.m_RIP.PairArray.push_back(RIP::Pair(1, m_BodyPart.ThisPartition)); // Second RIP Entry
- // set up the index
- switch ( EssenceType )
+ UL BodyUL(m_Dict->ul(MDD_ClosedCompleteBodyPartition));
+ result = m_BodyPart.WriteToFile(m_File, BodyUL);
+ }
+ else
+ {
+ m_HeaderPart.BodySID = 1;
+ }
+
+ if ( ASDCP_SUCCESS(result) )
{
- case ESS_MPEG2_VES:
- case ESS_JPEG_2000:
- m_IndexMan = new IndexManager(0, 0);
- m_IndexMan->SetPosTableIndex(0, -1);
- break;
-
- case ESS_PCM_24b_48k:
- m_IndexMan = new IndexManager(0, BytesPerEditUnit);
- break;
-
- case ESS_UNKNOWN:
- return RESULT_INIT;
+ // Index setup
+ Kumu::fpos_t ECoffset = m_File.Tell();
+ m_FooterPart.IndexSID = 129;
+
+ if ( BytesPerEditUnit == 0 )
+ m_FooterPart.SetIndexParamsVBR(&m_HeaderPart.m_Primer, EditRate, ECoffset);
+ else
+ m_FooterPart.SetIndexParamsCBR(&m_HeaderPart.m_Primer, BytesPerEditUnit, EditRate);
}
- m_IndexMan->SetBodySID(1);
- m_IndexMan->SetIndexSID(129);
- m_IndexMan->SetEditRate(EditRate_);
+ return result;
+}
+
+//
+Result_t
+ASDCP::h__Writer::WriteMXFHeader(const std::string& PackageLabel, const UL& WrappingUL,
+ const std::string& TrackName, const UL& DataDefinition,
+ const MXF::Rational& EditRate, ui32_t TCFrameRate, ui32_t BytesPerEditUnit)
+{
+ InitHeader();
+ AddSourceClip(EditRate, TCFrameRate, TrackName, DataDefinition, PackageLabel);
+ AddEssenceDescriptor(WrappingUL);
+
+ Result_t result = m_HeaderPart.WriteToFile(m_File, m_HeaderSize);
+
+ if ( KM_SUCCESS(result) )
+ result = CreateBodyPart(EditRate, BytesPerEditUnit);
- return RESULT_OK;
+ return result;
}
+
// standard method of writing a plaintext or encrypted frame
Result_t
ASDCP::h__Writer::WriteEKLVPacket(const ASDCP::FrameBuffer& FrameBuf, const byte_t* EssenceUL,
AESEncContext* Ctx, HMACContext* HMAC)
{
- Result_t result;
+ Result_t result = RESULT_OK;
IntegrityPack IntPack;
byte_t overhead[128];
- MemIOWriter Overhead(overhead, 128);
+ Kumu::MemIOWriter Overhead(overhead, 128);
+ assert(m_Dict);
if ( FrameBuf.Size() == 0 )
{
if ( ASDCP_SUCCESS(result) )
{ // write UL
- Overhead.WriteRaw((byte_t*)CryptEssenceUL_Data, klv_key_size);
+ Overhead.WriteRaw(m_Dict->ul(MDD_CryptEssence), SMPTE_UL_LENGTH);
// construct encrypted triplet header
ui32_t ETLength = klv_cryptinfo_size + m_CtFrameBuf.Size();
if ( m_Info.UsesHMAC )
ETLength += klv_intpack_size;
else
- ETLength += (klv_length_size * 3); // for empty intpack
+ ETLength += (MXF_BER_LENGTH * 3); // for empty intpack
- Overhead.WriteBER(ETLength, klv_length_size); // write encrypted triplet length
- Overhead.WriteBER(UUIDlen, klv_length_size); // write ContextID length
+ Overhead.WriteBER(ETLength, MXF_BER_LENGTH); // write encrypted triplet length
+ Overhead.WriteBER(UUIDlen, MXF_BER_LENGTH); // write ContextID length
Overhead.WriteRaw(m_Info.ContextID, UUIDlen); // write ContextID
- Overhead.WriteBER(sizeof(ui64_t), klv_length_size); // write PlaintextOffset length
+ Overhead.WriteBER(sizeof(ui64_t), MXF_BER_LENGTH); // write PlaintextOffset length
Overhead.WriteUi64BE(FrameBuf.PlaintextOffset()); // write PlaintextOffset
- Overhead.WriteBER(klv_key_size, klv_length_size); // write essence UL length
- Overhead.WriteRaw((byte_t*)EssenceUL, klv_key_size); // write the essence UL
- Overhead.WriteBER(sizeof(ui64_t), klv_length_size); // write SourceLength length
+ Overhead.WriteBER(SMPTE_UL_LENGTH, MXF_BER_LENGTH); // write essence UL length
+ Overhead.WriteRaw((byte_t*)EssenceUL, SMPTE_UL_LENGTH); // write the essence UL
+ Overhead.WriteBER(sizeof(ui64_t), MXF_BER_LENGTH); // write SourceLength length
Overhead.WriteUi64BE(FrameBuf.Size()); // write SourceLength
- Overhead.WriteBER(m_CtFrameBuf.Size(), klv_length_size); // write ESV length
+ Overhead.WriteBER(m_CtFrameBuf.Size(), MXF_BER_LENGTH); // write ESV length
- result = m_File->Writev(Overhead.Data(), Overhead.Size());
+ result = m_File.Writev(Overhead.Data(), Overhead.Length());
}
if ( ASDCP_SUCCESS(result) )
{
- m_StreamOffset += Overhead.Size();
+ m_StreamOffset += Overhead.Length();
// write encrypted source value
- result = m_File->Writev((byte_t*)m_CtFrameBuf.RoData(), m_CtFrameBuf.Size());
+ result = m_File.Writev((byte_t*)m_CtFrameBuf.RoData(), m_CtFrameBuf.Size());
}
if ( ASDCP_SUCCESS(result) )
m_StreamOffset += m_CtFrameBuf.Size();
byte_t hmoverhead[512];
- MemIOWriter HMACOverhead(hmoverhead, 512);
+ Kumu::MemIOWriter HMACOverhead(hmoverhead, 512);
// write the HMAC
if ( m_Info.UsesHMAC )
else
{ // we still need the var-pack length values if the intpack is empty
for ( ui32_t i = 0; i < 3 ; i++ )
- HMACOverhead.WriteBER(0, klv_length_size);
+ HMACOverhead.WriteBER(0, MXF_BER_LENGTH);
}
// write HMAC
- result = m_File->Writev(HMACOverhead.Data(), HMACOverhead.Size());
- m_StreamOffset += HMACOverhead.Size();
+ result = m_File.Writev(HMACOverhead.Data(), HMACOverhead.Length());
+ m_StreamOffset += HMACOverhead.Length();
}
}
else
{
- Overhead.WriteRaw((byte_t*)EssenceUL, klv_key_size);
- Overhead.WriteBER(FrameBuf.Size(), klv_length_size);
- result = m_File->Writev(Overhead.Data(), Overhead.Size());
+ Overhead.WriteRaw((byte_t*)EssenceUL, SMPTE_UL_LENGTH);
+ Overhead.WriteBER(FrameBuf.Size(), MXF_BER_LENGTH);
+ result = m_File.Writev(Overhead.Data(), Overhead.Length());
if ( ASDCP_SUCCESS(result) )
- result = m_File->Writev((byte_t*)FrameBuf.RoData(), FrameBuf.Size());
+ result = m_File.Writev((byte_t*)FrameBuf.RoData(), FrameBuf.Size());
if ( ASDCP_SUCCESS(result) )
- m_StreamOffset += Overhead.Size() + FrameBuf.Size();
+ m_StreamOffset += Overhead.Length() + FrameBuf.Size();
}
if ( ASDCP_SUCCESS(result) )
- result = m_File->Writev();
+ result = m_File.Writev();
return result;
}
// standard method of writing the header and footer of a completed MXF file
//
Result_t
-ASDCP::h__Writer::WriteMXFFooter(EssenceType_t EssenceType)
+ASDCP::h__Writer::WriteMXFFooter()
{
- // write the index
- DataChunk IndexChunk;
- ui32_t IndexSID = 0;
-
- // Find all essence container data sets so we can update "IndexSID"
- MDObjectListPtr ECDataSets = 0;
- MDObject* Ptr = (*m_Metadata)["ContentStorage"];
- if ( Ptr )
- Ptr = Ptr->GetLink();
- if ( Ptr )
- Ptr = (*Ptr)["EssenceContainerData"];
- if ( Ptr )
- ECDataSets = Ptr->ChildList("EssenceContainer");
-
- // ** Handle full index tables next **
- // ***********************************
-
- // Make an index table containing all available entries
- IndexTablePtr Index = m_IndexMan->MakeIndex();
- m_IndexMan->AddEntriesToIndex(Index);
-
- // Write the index table
- Index->WriteIndex(IndexChunk);
-
- // Record the IndexSID for when the index is written
- IndexSID = Index->IndexSID;
-
- // Update IndexSID in essence container data set
- MDObjectList::iterator ECD_it = ECDataSets->begin();
- while(ECD_it != ECDataSets->end())
- {
- if((*ECD_it)->GetLink())
- {
- if((*ECD_it)->GetLink()->GetUint("BodySID") == m_IndexMan->GetBodySID())
- {
- (*ECD_it)->GetLink()->SetUint("IndexSID", m_IndexMan->GetIndexSID());
- break;
- }
- }
+ // Set top-level file package correctly for OP-Atom
- ECD_it++;
- }
+ // m_MPTCSequence->Duration = m_MPTimecode->Duration = m_MPClSequence->Duration = m_MPClip->Duration =
+ // m_FPTCSequence->Duration = m_FPTimecode->Duration = m_FPClSequence->Duration = m_FPClip->Duration =
- // If we are writing OP-Atom this is the first place we can claim it
- m_Metadata->SetOP(OPAtomUL);
-
- // Set top-level file package correctly for OP-Atom
- m_Metadata->SetPrimaryPackage(m_FilePackage);
-
- m_Metadata->SetTime();
- m_MPTimecode->SetDuration(m_FramesWritten);
+ DurationElementList_t::iterator dli = m_DurationUpdateList.begin();
- m_MPClip->SetDuration(m_FramesWritten);
- m_FPTimecode->SetDuration(m_FramesWritten);
- m_FPClip->SetDuration(m_FramesWritten);
- m_EssenceDescriptor->SetInt64("ContainerDuration", m_FramesWritten);
+ for (; dli != m_DurationUpdateList.end(); dli++ )
+ **dli = m_FramesWritten;
- // Turn the header or body partition into a footer
- m_HeaderPart->ChangeType("CompleteFooter");
- m_HeaderPart->SetUint("IndexSID", IndexSID);
+ m_EssenceDescriptor->ContainerDuration = m_FramesWritten;
+ m_FooterPart.PreviousPartition = m_HeaderPart.m_RIP.PairArray.back().ByteOffset;
- // Make sure any new sets are linked in
- m_HeaderPart->UpdateMetadata(m_Metadata);
+ Kumu::fpos_t here = m_File.Tell();
+ m_HeaderPart.m_RIP.PairArray.push_back(RIP::Pair(0, here)); // Last RIP Entry
+ m_HeaderPart.FooterPartition = here;
- // Actually write the footer
- m_File->WritePartitionWithIndex(*m_HeaderPart, &IndexChunk, false);
+ assert(m_Dict);
+ // re-label the partition
+ UL OPAtomUL(m_Dict->ul(MDD_OPAtom));
+ m_HeaderPart.OperationalPattern = OPAtomUL;
+ m_HeaderPart.m_Preface->OperationalPattern = m_HeaderPart.OperationalPattern;
- // Add a RIP
- m_File->WriteRIP();
+ m_FooterPart.OperationalPattern = m_HeaderPart.OperationalPattern;
+ m_FooterPart.EssenceContainers = m_HeaderPart.EssenceContainers;
+ m_FooterPart.FooterPartition = here;
+ m_FooterPart.ThisPartition = here;
- //
- // ** Update the header **
- //
- // For generalized OPs update the value of "FooterPartition" in the header pack
- // For OP-Atom re-write the entire header
- //
- ASDCP::fpos_t FooterPos = m_HeaderPart->GetUint64("FooterPartition");
- m_File->Seek(0);
+ Result_t result = m_FooterPart.WriteToFile(m_File, m_FramesWritten);
- m_HeaderPart->ChangeType("ClosedCompleteHeader");
- m_HeaderPart->SetUint64("FooterPartition", FooterPos);
- m_HeaderPart->SetUint64("BodySID", 1);
+ if ( ASDCP_SUCCESS(result) )
+ result = m_HeaderPart.m_RIP.WriteToFile(m_File);
- m_File->ReWritePartition(*m_HeaderPart);
- m_File->Close();
-
- return RESULT_OK;
+ if ( ASDCP_SUCCESS(result) )
+ result = m_File.Seek(0);
+
+ if ( ASDCP_SUCCESS(result) )
+ result = m_HeaderPart.WriteToFile(m_File, m_HeaderSize);
+
+ m_File.Close();
+ return result;
}
//