/*
-Copyright (c) 2004-2007, John Hurst
+Copyright (c) 2004-2013, John Hurst
All rights reserved.
Redistribution and use in source and binary forms, with or without
//
Result_t
-ASDCP::MD_to_CryptoInfo(CryptographicContext* InfoObj, WriterInfo& Info)
+ASDCP::MD_to_CryptoInfo(CryptographicContext* InfoObj, WriterInfo& Info, const Dictionary& Dict)
{
ASDCP_TEST_NULL(InfoObj);
memcpy(Info.ContextID, InfoObj->ContextID.Value(), UUIDlen);
memcpy(Info.CryptographicKeyID, InfoObj->CryptographicKeyID.Value(), UUIDlen);
- UL MIC_SHA1(Dict::ul(MDD_MICAlgorithm_HMAC_SHA1));
- UL MIC_NONE(Dict::ul(MDD_MICAlgorithm_NONE));
+ UL MIC_SHA1(Dict.ul(MDD_MICAlgorithm_HMAC_SHA1));
+ UL MIC_NONE(Dict.ul(MDD_MICAlgorithm_NONE));
if ( InfoObj->MICAlgorithm == MIC_SHA1 )
Info.UsesHMAC = true;
//
//
ASDCP::Result_t
-ASDCP::EssenceType(const char* filename, EssenceType_t& type)
+ASDCP::EssenceType(const std::string& filename, EssenceType_t& type)
{
- ASDCP_TEST_NULL_STR(filename);
+ const Dictionary* m_Dict = &DefaultCompositeDict();
+ InterchangeObject* md_object = 0;
+
+ assert(m_Dict);
Kumu::FileReader Reader;
- OPAtomHeader TestHeader;
+ OP1aHeader TestHeader(m_Dict);
Result_t result = Reader.OpenRead(filename);
if ( ASDCP_SUCCESS(result) )
{
type = ESS_UNKNOWN;
- if ( ASDCP_SUCCESS(TestHeader.GetMDObjectByType(OBJ_TYPE_ARGS(RGBAEssenceDescriptor))) )
+
+ if ( TestHeader.OperationalPattern == UL(m_Dict->ul(MDD_OPAtom))
+ || TestHeader.OperationalPattern == UL(m_Dict->ul(MDD_MXFInterop_OPAtom)) )
{
- if ( ASDCP_SUCCESS(TestHeader.GetMDObjectByType(OBJ_TYPE_ARGS(StereoscopicPictureSubDescriptor))) )
- type = ESS_JPEG_2000_S;
- else
- type = ESS_JPEG_2000;
+ if ( ASDCP_SUCCESS(TestHeader.GetMDObjectByType(OBJ_TYPE_ARGS(JPEG2000PictureSubDescriptor))) )
+ {
+ if ( ASDCP_SUCCESS(TestHeader.GetMDObjectByType(OBJ_TYPE_ARGS(StereoscopicPictureSubDescriptor))) )
+ {
+ type = ESS_JPEG_2000_S;
+ }
+ else
+ {
+ type = ESS_JPEG_2000;
+ }
+ }
+ else if ( ASDCP_SUCCESS(TestHeader.GetMDObjectByType(OBJ_TYPE_ARGS(WaveAudioDescriptor), &md_object)) )
+ {
+ assert(md_object);
+ if ( static_cast<ASDCP::MXF::WaveAudioDescriptor*>(md_object)->AudioSamplingRate == SampleRate_96k )
+ {
+ type = ESS_PCM_24b_96k;
+ }
+ else
+ {
+ type = ESS_PCM_24b_48k;
+ }
+ }
+ else if ( ASDCP_SUCCESS(TestHeader.GetMDObjectByType(OBJ_TYPE_ARGS(MPEG2VideoDescriptor))) )
+ {
+ type = ESS_MPEG2_VES;
+ }
+ else if ( ASDCP_SUCCESS(TestHeader.GetMDObjectByType(OBJ_TYPE_ARGS(TimedTextDescriptor))) )
+ {
+ type = ESS_TIMED_TEXT;
+ }
+ else if ( ASDCP_SUCCESS(TestHeader.GetMDObjectByType(OBJ_TYPE_ARGS(DCDataDescriptor))) )
+ {
+ if ( ASDCP_SUCCESS(TestHeader.GetMDObjectByType(OBJ_TYPE_ARGS(DolbyAtmosSubDescriptor))) )
+ {
+ type = ESS_DCDATA_DOLBY_ATMOS;
+ }
+ else
+ {
+ type = ESS_DCDATA_UNKNOWN;
+ }
+ }
+ }
+ else if ( TestHeader.OperationalPattern == UL(m_Dict->ul(MDD_OP1a)) )
+ {
+ if ( ASDCP_SUCCESS(TestHeader.GetMDObjectByType(OBJ_TYPE_ARGS(JPEG2000PictureSubDescriptor))) )
+ {
+ type = ESS_AS02_JPEG_2000;
+ }
+ else if ( ASDCP_SUCCESS(TestHeader.GetMDObjectByType(OBJ_TYPE_ARGS(WaveAudioDescriptor), &md_object)) )
+ {
+ assert(md_object);
+ if ( static_cast<ASDCP::MXF::WaveAudioDescriptor*>(md_object)->AudioSamplingRate == SampleRate_96k )
+ {
+ type = ESS_AS02_PCM_24b_96k;
+ }
+ else
+ {
+ type = ESS_AS02_PCM_24b_48k;
+ }
+ }
+ else if ( ASDCP_SUCCESS(TestHeader.GetMDObjectByType(OBJ_TYPE_ARGS(TimedTextDescriptor))) )
+ {
+ type = ESS_AS02_TIMED_TEXT;
+ }
+ }
+ else
+ {
+ DefaultLogSink().Error("Unsupported MXF Operational Pattern.\n");
+ return RESULT_FORMAT;
}
- else if ( ASDCP_SUCCESS(TestHeader.GetMDObjectByType(OBJ_TYPE_ARGS(WaveAudioDescriptor))) )
- type = ESS_PCM_24b_48k;
- else if ( ASDCP_SUCCESS(TestHeader.GetMDObjectByType(OBJ_TYPE_ARGS(MPEG2VideoDescriptor))) )
- type = ESS_MPEG2_VES;
- else if ( ASDCP_SUCCESS(TestHeader.GetMDObjectByType(OBJ_TYPE_ARGS(TimedTextDescriptor))) )
- type = ESS_TIMED_TEXT;
}
return result;
//
ASDCP::Result_t
-ASDCP::RawEssenceType(const char* filename, EssenceType_t& type)
+ASDCP::RawEssenceType(const std::string& filename, EssenceType_t& type)
{
- ASDCP_TEST_NULL_STR(filename);
type = ESS_UNKNOWN;
ASDCP::FrameBuffer FB;
Kumu::FileReader Reader;
ASDCP::Wav::SimpleWaveHeader WavHeader;
+ ASDCP::RF64::SimpleRF64Header RF64Header;
ASDCP::AIFF::SimpleAIFFHeader AIFFHeader;
Kumu::XMLElement TmpElement("Tmp");
{
type = ESS_MPEG2_VES;
}
- else if ( ASDCP_SUCCESS(WavHeader.ReadFromBuffer(p, read_count, &data_offset)) )
+ else if ( memcmp(FB.RoData(), ASDCP::JP2K::Magic, sizeof(ASDCP::JP2K::Magic)) == 0 )
+ {
+ type = ESS_JPEG_2000;
+ }
+ else if ( ASDCP_SUCCESS(WavHeader.ReadFromBuffer(FB.RoData(), read_count, &data_offset)) )
{
switch ( WavHeader.samplespersec )
{
return RESULT_FORMAT;
}
}
- else if ( ASDCP_SUCCESS(AIFFHeader.ReadFromBuffer(p, read_count, &data_offset)) )
+ else if ( ASDCP_SUCCESS(RF64Header.ReadFromBuffer(FB.RoData(), read_count, &data_offset)) )
+ {
+ switch ( RF64Header.samplespersec )
+ {
+ case 48000: type = ESS_PCM_24b_48k; break;
+ case 96000: type = ESS_PCM_24b_96k; break;
+ default:
+ return RESULT_FORMAT;
+ }
+ }
+ else if ( ASDCP_SUCCESS(AIFFHeader.ReadFromBuffer(FB.RoData(), read_count, &data_offset)) )
{
type = ESS_PCM_24b_48k;
}
- else if ( Kumu::StringIsXML((const char*)p, FB.Size()) )
+ else if ( Kumu::StringIsXML((const char*)FB.RoData(), FB.Size()) )
{
type = ESS_TIMED_TEXT;
}
+ else if ( ASDCP::ATMOS::IsDolbyAtmos(filename) )
+ {
+ type = ESS_DCDATA_DOLBY_ATMOS;
+ }
}
}
else if ( Kumu::PathIsDirectory(filename) )
if ( next_file[0] == '.' ) // no hidden files or internal links
continue;
- std::string Str(filename);
- Str += "/";
- Str += next_file;
- result = Reader.OpenRead(Str.c_str());
+ result = Reader.OpenRead(Kumu::PathJoin(filename, next_file));
if ( ASDCP_SUCCESS(result) )
{
if ( ASDCP_SUCCESS(result) )
{
if ( memcmp(FB.RoData(), ASDCP::JP2K::Magic, sizeof(ASDCP::JP2K::Magic)) == 0 )
- type = ESS_JPEG_2000;
-
+ {
+ type = ESS_JPEG_2000;
+ }
else if ( ASDCP_SUCCESS(WavHeader.ReadFromBuffer(FB.RoData(), read_count, &data_offset)) )
- type = ESS_PCM_24b_48k;
+ {
+ switch ( WavHeader.samplespersec )
+ {
+ case 48000: type = ESS_PCM_24b_48k; break;
+ case 96000: type = ESS_PCM_24b_96k; break;
+ default:
+ return RESULT_FORMAT;
+ }
+ }
+ else if ( ASDCP_SUCCESS(RF64Header.ReadFromBuffer(FB.RoData(), read_count, &data_offset)) )
+ {
+ switch ( RF64Header.samplespersec )
+ {
+ case 48000: type = ESS_PCM_24b_48k; break;
+ case 96000: type = ESS_PCM_24b_96k; break;
+ default:
+ return RESULT_FORMAT;
+ }
+ }
+ else if ( ASDCP::ATMOS::IsDolbyAtmos(Kumu::PathJoin(filename, next_file)) )
+ {
+ type = ESS_DCDATA_DOLBY_ATMOS;
+ }
}
-
+
break;
}
}
//
Result_t
-ASDCP::IntegrityPack::CalcValues(const ASDCP::FrameBuffer& FB, byte_t* AssetID,
+ASDCP::IntegrityPack::CalcValues(const ASDCP::FrameBuffer& FB, const byte_t* AssetID,
ui32_t sequence, HMACContext* HMAC)
{
ASDCP_TEST_NULL(AssetID);
byte_t* p = Data;
HMAC->Reset();
- static byte_t ber_4[MXF_BER_LENGTH] = {0x83, 0};
+ static byte_t ber_4[MXF_BER_LENGTH] = {0x83, 0, 0, 0};
// update HMAC with essence data
HMAC->Update(FB.RoData(), FB.Size());
Result_t
-ASDCP::IntegrityPack::TestValues(const ASDCP::FrameBuffer& FB, byte_t* AssetID,
+ASDCP::IntegrityPack::TestValues(const ASDCP::FrameBuffer& FB, const byte_t* AssetID,
ui32_t sequence, HMACContext* HMAC)
{
ASDCP_TEST_NULL(AssetID);