/*
-Copyright (c) 2003-2013, John Hurst
+Copyright (c) 2003-2018
+, John Hurst
All rights reserved.
Redistribution and use in source and binary forms, with or without
return; \
}
+//
+static void
+create_random_uuid(byte_t* uuidbuf)
+{
+ Kumu::UUID tmp_id;
+ GenRandomValue(tmp_id);
+ memcpy(uuidbuf, tmp_id.Value(), tmp_id.Size());
+}
+
//
void
banner(FILE* stream = stdout)
{
fprintf(stream, "\n\
%s (asdcplib %s)\n\n\
-Copyright (c) 2003-2012 John Hurst\n\n\
+Copyright (c) 2003-2018 John Hurst\n\n\
asdcplib may be copied only under the terms of the license found at\n\
the top of every file in the asdcplib distribution kit.\n\n\
Specify the -h (help) option for further information about %s\n\n",
fprintf(stream, "\
Options:\n\
+ -h | -help - Show help\n\
+ -V - Show version information\n\
-3 - Create a stereoscopic image file. Expects two\n\
directories of JP2K codestreams (directories must have\n\
an equal number of frames; the left eye is first)\n\
- -C <UL> - Set ChannelAssignment UL value in a PCM file\n\
- -h | -help - Show help\n\
- -V - Show version information\n\
- -e - Encrypt MPEG or JP2K headers (default)\n\
- -E - Do not encrypt MPEG or JP2K headers\n\
- -j <key-id-str> - Write key ID instead of creating a random value\n\
- -k <key-string> - Use key for ciphertext operations\n\
- -M - Do not create HMAC values when writing\n\
- -m <expr> - Write MCA labels using <expr>. Example:\n\
- 51(L,R,C,LFE,Ls,Rs,),HI,VIN\n\
-a <UUID> - Specify the Asset ID of the file\n\
+ -A <UL> - Set DataEssenceCoding UL value in an Aux Data file\n\
-b <buffer-size> - Specify size in bytes of picture frame buffer\n\
Defaults to 4,194,304 (4MB)\n\
+ -C <UL> - Set ChannelAssignment UL value in a PCM file\n\
-d <duration> - Number of frames to process, default all\n\
+ -e - Encrypt MPEG or JP2K headers (default)\n\
+ -E - Do not encrypt MPEG or JP2K headers\n\
-f <start-frame> - Starting frame number, default 0\n\
+ -g <rfc-5646-code>\n\
+ - Create MCA labels having the given RFC 5646 language code\n\
+ (requires option \"-m\")\n\
+ -j <key-id-str> - Write key ID instead of creating a random value\n\
+ -k <key-string> - Use key for ciphertext operations\n\
-l <label> - Use given channel format label when writing MXF sound\n\
files. SMPTE 429-2 labels: '5.1', '6.1', '7.1',\n\
'7.1DS', 'WTF'\n\
Default is no label (valid for Interop only).\n\
-L - Write SMPTE UL values instead of MXF Interop\n\
- -P <UL> - Set PictureEssenceCoding UL value in a JP2K file\n\
+ -m <expr> - Write MCA labels using <expr>. Example:\n\
+ 51(L,R,C,LFE,Ls,Rs,),HI,VIN\n\
+ Note: The symbol '-' may be used for an unlabeled\n\
+ channel, but not within a soundfield.\n\
+ -M - Do not create HMAC values when writing\n\
-p <rate> - fps of picture when wrapping PCM or JP2K:\n\
Use one of [23|24|25|30|48|50|60], 24 is default\n\
+ -P <UL> - Set PictureEssenceCoding UL value in a JP2K file\n\
-s - Insert a Dolby Atmos synchronization channel when\n\
wrapping PCM. This implies a -L option(SMPTE ULs) and \n\
will overide -C and -l options with Configuration 4 \n\
Channel Assigment and no format label respectively. \n\
-v - Verbose, prints informative messages to stderr\n\
- -W - Read input file only, do not write source file\n\
+ -w - When writing 377-4 MCA labels, use the WTF Channel\n\
+ assignment label instead of the standard MCA label\n\
+ -W - Read input file only, do not write output file\n\
-z - Fail if j2c inputs have unequal parameters (default)\n\
-Z - Ignore unequal parameters in j2c inputs\n\
\n\
bool version_flag; // true if the version display option was selected
bool help_flag; // true if the help display option was selected
bool stereo_image_flag; // if true, expect stereoscopic JP2K input (left eye first)
+ bool write_partial_pcm_flag; // if true, write the last frame of PCM input even when it is incomplete
ui32_t start_frame; // frame number to begin processing
ui32_t duration; // number of frames to be processed
bool use_smpte_labels; // if true, SMPTE UL values will be written instead of MXF Interop values
Kumu::PathList_t filenames; // list of filenames to be processed
UL channel_assignment;
UL picture_coding;
+ UL aux_data_coding;
bool dolby_atmos_sync_flag; // if true, insert a Dolby Atmos Synchronization channel.
- ui32_t ffoa; /// first frame of action for atmos wrapping
- ui32_t max_channel_count; /// max channel count for atmos wrapping
- ui32_t max_object_count; /// max object count for atmos wrapping
+ ui32_t ffoa; // first frame of action for atmos wrapping
+ ui32_t max_channel_count; // max channel count for atmos wrapping
+ ui32_t max_object_count; // max object count for atmos wrapping
+ bool use_interop_sound_wtf; // make true to force WTF assignment label instead of MCA
ASDCP::MXF::ASDCP_MCAConfigParser mca_config;
+ std::string mca_language;
//
Rational PictureRate()
if ( picture_rate == 96 ) return EditRate_96;
if ( picture_rate == 100 ) return EditRate_100;
if ( picture_rate == 120 ) return EditRate_120;
+ if ( picture_rate == 192 ) return EditRate_192;
+ if ( picture_rate == 200 ) return EditRate_200;
+ if ( picture_rate == 240 ) return EditRate_240;
return EditRate_24;
}
if ( picture_rate == 96 ) return "96";
if ( picture_rate == 100 ) return "100";
if ( picture_rate == 120 ) return "120";
+ if ( picture_rate == 192 ) return "192";
+ if ( picture_rate == 200 ) return "200";
+ if ( picture_rate == 240 ) return "240";
return "24";
}
encrypt_header_flag(true), write_hmac(true),
verbose_flag(false), fb_dump_size(0),
no_write_flag(false), version_flag(false), help_flag(false), stereo_image_flag(false),
- start_frame(0),
+ write_partial_pcm_flag(false), start_frame(0),
duration(0xffffffff), use_smpte_labels(false), j2c_pedantic(true),
fb_size(FRAME_BUFFER_SIZE),
channel_fmt(PCM::CF_NONE),
ffoa(0), max_channel_count(10), max_object_count(118), // hard-coded sample atmos properties
dolby_atmos_sync_flag(false),
show_ul_values_flag(false),
- mca_config(g_dict)
+ mca_config(g_dict),
+ use_interop_sound_wtf(false)
{
memset(key_value, 0, KeyLen);
memset(key_id_value, 0, UUIDlen);
+ std::string mca_config_str;
for ( int i = 1; i < argc; i++ )
{
{
case '3': stereo_image_flag = true; break;
+ case 'A':
+ TEST_EXTRA_ARG(i, 'A');
+ if ( ! aux_data_coding.DecodeHex(argv[i]) )
+ {
+ fprintf(stderr, "Error decoding UL value: %s\n", argv[i]);
+ return;
+ }
+ break;
+
case 'a':
asset_id_flag = true;
TEST_EXTRA_ARG(i, 'a');
case 'b':
TEST_EXTRA_ARG(i, 'b');
- fb_size = abs(atoi(argv[i]));
+ fb_size = Kumu::xabs(strtol(argv[i], 0, 10));
if ( verbose_flag )
fprintf(stderr, "Frame Buffer size: %u bytes.\n", fb_size);
case 'd':
TEST_EXTRA_ARG(i, 'd');
- duration = abs(atoi(argv[i]));
+ duration = Kumu::xabs(strtol(argv[i], 0, 10));
break;
case 'E': encrypt_header_flag = false; break;
case 'f':
TEST_EXTRA_ARG(i, 'f');
- start_frame = abs(atoi(argv[i]));
+ start_frame = Kumu::xabs(strtol(argv[i], 0, 10));
+ break;
+
+ case 'g':
+ TEST_EXTRA_ARG(i, 'g');
+ mca_language = argv[i];
break;
case 'h': help_flag = true; break;
case 'm':
TEST_EXTRA_ARG(i, 'm');
- if ( ! mca_config.DecodeString(argv[i]) )
- {
- return;
- }
+ mca_config_str = argv[i];
break;
case 'P':
case 'p':
TEST_EXTRA_ARG(i, 'p');
- picture_rate = abs(atoi(argv[i]));
+ picture_rate = Kumu::xabs(strtol(argv[i], 0, 10));
break;
case 's': dolby_atmos_sync_flag = true; break;
case 'u': show_ul_values_flag = true; break;
case 'V': version_flag = true; break;
case 'v': verbose_flag = true; break;
+ case 'w': use_interop_sound_wtf = true; break;
case 'W': no_write_flag = true; break;
+ case 'x': write_partial_pcm_flag = true; break;
case 'Z': j2c_pedantic = false; break;
case 'z': j2c_pedantic = true; break;
}
}
+ if ( ! mca_config_str.empty() )
+ {
+ if ( mca_language.empty() )
+ {
+ if ( ! mca_config.DecodeString(mca_config_str) )
+ {
+ return;
+ }
+ }
+ else
+ {
+ if ( ! mca_config.DecodeString(mca_config_str, mca_language) )
+ {
+ return;
+ }
+ }
+ }
+
if ( help_flag || version_flag )
- return;
+ {
+ return;
+ }
if ( filenames.size() < 2 )
{
Kumu::FortunaRNG RNG;
// set up essence parser
- Result_t result = Parser.OpenRead(Options.filenames.front().c_str());
+ Result_t result = Parser.OpenRead(Options.filenames.front());
// set up MXF writer
if ( ASDCP_SUCCESS(result) )
Info.EncryptedEssence = true;
if ( Options.key_id_flag )
- memcpy(Info.CryptographicKeyID, Options.key_id_value, UUIDlen);
+ {
+ memcpy(Info.CryptographicKeyID, Options.key_id_value, UUIDlen);
+ }
else
- RNG.FillRandom(Info.CryptographicKeyID, UUIDlen);
+ {
+ create_random_uuid(Info.CryptographicKeyID);
+ }
Context = new AESEncContext;
result = Context->InitKey(Options.key_value);
}
if ( ASDCP_SUCCESS(result) )
- result = Writer.OpenWrite(Options.out_file.c_str(), Info, VDesc);
+ result = Writer.OpenWrite(Options.out_file, Info, VDesc);
}
if ( ASDCP_SUCCESS(result) )
check_phfr_params(CommandOptions& Options, JP2K::PictureDescriptor& PDesc)
{
Rational rate = Options.PictureRate();
- if ( rate != EditRate_96 && rate != EditRate_100 && rate != EditRate_120 )
+ if ( rate != EditRate_96 && rate != EditRate_100 && rate != EditRate_120
+ && rate != EditRate_192 && rate != EditRate_200 && rate != EditRate_240 )
return true;
if ( PDesc.StoredWidth > 2048 )
}
// set up essence parser
- Result_t result = ParserLeft.OpenRead(Options.filenames.front().c_str(), Options.j2c_pedantic);
+ Result_t result = ParserLeft.OpenRead(Options.filenames.front(), Options.j2c_pedantic);
if ( ASDCP_SUCCESS(result) )
{
Options.filenames.pop_front();
- result = ParserRight.OpenRead(Options.filenames.front().c_str(), Options.j2c_pedantic);
+ result = ParserRight.OpenRead(Options.filenames.front(), Options.j2c_pedantic);
}
// set up MXF writer
Info.EncryptedEssence = true;
if ( Options.key_id_flag )
- memcpy(Info.CryptographicKeyID, Options.key_id_value, UUIDlen);
+ {
+ memcpy(Info.CryptographicKeyID, Options.key_id_value, UUIDlen);
+ }
else
- RNG.FillRandom(Info.CryptographicKeyID, UUIDlen);
+ {
+ create_random_uuid(Info.CryptographicKeyID);
+ }
Context = new AESEncContext;
result = Context->InitKey(Options.key_value);
}
if ( ASDCP_SUCCESS(result) )
- result = Writer.OpenWrite(Options.out_file.c_str(), Info, PDesc);
+ result = Writer.OpenWrite(Options.out_file, Info, PDesc);
if ( ASDCP_SUCCESS(result) && Options.picture_coding.HasValue() )
{
Kumu::FortunaRNG RNG;
// set up essence parser
- Result_t result = Parser.OpenRead(Options.filenames.front().c_str(), Options.j2c_pedantic);
+ Result_t result = Parser.OpenRead(Options.filenames.front(), Options.j2c_pedantic);
// set up MXF writer
if ( ASDCP_SUCCESS(result) )
Info.EncryptedEssence = true;
if ( Options.key_id_flag )
- memcpy(Info.CryptographicKeyID, Options.key_id_value, UUIDlen);
+ {
+ memcpy(Info.CryptographicKeyID, Options.key_id_value, UUIDlen);
+ }
else
- RNG.FillRandom(Info.CryptographicKeyID, UUIDlen);
+ {
+ create_random_uuid(Info.CryptographicKeyID);
+ }
Context = new AESEncContext;
result = Context->InitKey(Options.key_value);
}
if ( ASDCP_SUCCESS(result) )
- result = Writer.OpenWrite(Options.out_file.c_str(), Info, PDesc);
+ result = Writer.OpenWrite(Options.out_file, Info, PDesc);
if ( ASDCP_SUCCESS(result) && Options.picture_coding.HasValue() )
{
FrameBuffer.Capacity(PCM::CalcFrameBufferSize(ADesc));
ADesc.ChannelFormat = Options.channel_fmt;
- if ( Options.use_smpte_labels && ADesc.ChannelFormat == PCM::CF_NONE)
+ if ( Options.use_smpte_labels && ADesc.ChannelFormat == PCM::CF_NONE && Options.mca_config.empty() )
{
- fprintf(stderr, "ATTENTION! Writing SMPTE audio without ChannelAssignment property (see option -l)\n");
+ fprintf(stderr, "ATTENTION! Writing SMPTE audio without ChannelAssignment property (see options -C, -l and -m)\n");
}
if ( Options.verbose_flag )
Info.EncryptedEssence = true;
if ( Options.key_id_flag )
- memcpy(Info.CryptographicKeyID, Options.key_id_value, UUIDlen);
+ {
+ memcpy(Info.CryptographicKeyID, Options.key_id_value, UUIDlen);
+ }
else
- RNG.FillRandom(Info.CryptographicKeyID, UUIDlen);
+ {
+ create_random_uuid(Info.CryptographicKeyID);
+ }
Context = new AESEncContext;
result = Context->InitKey(Options.key_value);
}
if ( ASDCP_SUCCESS(result) )
- result = Writer.OpenWrite(Options.out_file.c_str(), Info, ADesc);
+ result = Writer.OpenWrite(Options.out_file, Info, ADesc);
if ( ASDCP_SUCCESS(result)
&& ( Options.channel_assignment.HasValue()
return RESULT_FAIL;
}
- essence_descriptor->ChannelAssignment = g_dict->ul(MDD_DCAudioChannelCfg_MCA);
+ if ( Options.channel_assignment.HasValue() )
+ {
+ essence_descriptor->ChannelAssignment = Options.channel_assignment;
+ }
+ else if ( Options.use_interop_sound_wtf )
+ {
+ essence_descriptor->ChannelAssignment = g_dict->ul(MDD_DCAudioChannelCfg_4_WTF);
+ }
+ else
+ {
+ essence_descriptor->ChannelAssignment = g_dict->ul(MDD_DCAudioChannelCfg_MCA);
+ }
// add descriptors to the essence_descriptor and header
ASDCP::MXF::InterchangeObject_list_t::iterator i;
{
fprintf(stderr, "WARNING: Last frame read was short, PCM input is possibly not frame aligned.\n");
fprintf(stderr, "Expecting %u bytes, got %u.\n", FrameBuffer.Capacity(), FrameBuffer.Size());
- result = RESULT_ENDOFFILE;
- continue;
+
+ if ( Options.write_partial_pcm_flag )
+ {
+ result = RESULT_ENDOFFILE;
+ continue;
+ }
}
if ( Options.verbose_flag )
// set up MXF writer
if ( ASDCP_SUCCESS(result) )
{
+ if ( Mixer.ChannelCount() % 2 != 0 )
+ {
+ result = Mixer.AppendSilenceChannels(1);
+ }
+
Mixer.FillAudioDescriptor(ADesc);
ADesc.EditRate = PictureRate;
Info.EncryptedEssence = true;
if ( Options.key_id_flag )
- memcpy(Info.CryptographicKeyID, Options.key_id_value, UUIDlen);
+ {
+ memcpy(Info.CryptographicKeyID, Options.key_id_value, UUIDlen);
+ }
else
- RNG.FillRandom(Info.CryptographicKeyID, UUIDlen);
+ {
+ create_random_uuid(Info.CryptographicKeyID);
+ }
Context = new AESEncContext;
result = Context->InitKey(Options.key_value);
}
if ( ASDCP_SUCCESS(result) )
- result = Writer.OpenWrite(Options.out_file.c_str(), Info, ADesc);
+ result = Writer.OpenWrite(Options.out_file, Info, ADesc);
}
if ( ASDCP_SUCCESS(result) )
{
fprintf(stderr, "WARNING: Last frame read was short, PCM input is possibly not frame aligned.\n");
fprintf(stderr, "Expecting %u bytes, got %u.\n", FrameBuffer.Capacity(), FrameBuffer.Size());
- result = RESULT_ENDOFFILE;
- continue;
+
+ if ( Options.write_partial_pcm_flag )
+ {
+ result = RESULT_ENDOFFILE;
+ continue;
+ }
}
if ( Options.verbose_flag )
Kumu::FortunaRNG RNG;
// set up essence parser
- Result_t result = Parser.OpenRead(Options.filenames.front().c_str());
+ Result_t result = Parser.OpenRead(Options.filenames.front());
// set up MXF writer
if ( ASDCP_SUCCESS(result) )
Info.EncryptedEssence = true;
if ( Options.key_id_flag )
- memcpy(Info.CryptographicKeyID, Options.key_id_value, UUIDlen);
+ {
+ memcpy(Info.CryptographicKeyID, Options.key_id_value, UUIDlen);
+ }
else
- RNG.FillRandom(Info.CryptographicKeyID, UUIDlen);
+ {
+ create_random_uuid(Info.CryptographicKeyID);
+ }
Context = new AESEncContext;
result = Context->InitKey(Options.key_value);
}
if ( ASDCP_SUCCESS(result) )
- result = Writer.OpenWrite(Options.out_file.c_str(), Info, TDesc);
+ result = Writer.OpenWrite(Options.out_file, Info, TDesc);
}
if ( ASDCP_FAILURE(result) )
Kumu::FortunaRNG RNG;
// set up essence parser
- Result_t result = Parser.OpenRead(Options.filenames.front().c_str());
+ Result_t result = Parser.OpenRead(Options.filenames.front());
// set up MXF writer
if ( ASDCP_SUCCESS(result) )
Info.EncryptedEssence = true;
if ( Options.key_id_flag )
- memcpy(Info.CryptographicKeyID, Options.key_id_value, UUIDlen);
+ {
+ memcpy(Info.CryptographicKeyID, Options.key_id_value, UUIDlen);
+ }
else
- RNG.FillRandom(Info.CryptographicKeyID, UUIDlen);
+ {
+ create_random_uuid(Info.CryptographicKeyID);
+ }
Context = new AESEncContext;
result = Context->InitKey(Options.key_value);
}
if ( ASDCP_SUCCESS(result) )
- result = Writer.OpenWrite(Options.out_file.c_str(), Info, ADesc);
+ result = Writer.OpenWrite(Options.out_file, Info, ADesc);
+ }
+
+ if ( ASDCP_SUCCESS(result) )
+ {
+ ui32_t duration = 0;
+ result = Parser.Reset();
+
+ while ( ASDCP_SUCCESS(result) && duration++ < Options.duration )
+ {
+ result = Parser.ReadFrame(FrameBuffer);
+
+ if ( ASDCP_SUCCESS(result) )
+ {
+ if ( Options.verbose_flag )
+ FrameBuffer.Dump(stderr, Options.fb_dump_size);
+
+ if ( Options.encrypt_header_flag )
+ FrameBuffer.PlaintextOffset(0);
+ }
+
+ if ( ASDCP_SUCCESS(result) && ! Options.no_write_flag )
+ {
+ result = Writer.WriteFrame(FrameBuffer, Context, HMAC);
+
+ // The Writer class will forward the last block of ciphertext
+ // to the encryption context for use as the IV for the next
+ // frame. If you want to use non-sequitur IV values, un-comment
+ // the following line of code.
+ // if ( ASDCP_SUCCESS(result) && Options.key_flag )
+ // Context->SetIVec(RNG.FillRandom(IV_buf, CBC_BLOCK_SIZE));
+ }
+ }
+
+ if ( result == RESULT_ENDOFFILE )
+ result = RESULT_OK;
+ }
+
+ if ( ASDCP_SUCCESS(result) && ! Options.no_write_flag )
+ result = Writer.Finalize();
+
+ return result;
+}
+
+// Write one or more plaintext Aux Data (ST 429-14) bytestreams to a plaintext ASDCP file
+// Write one or more plaintext Aux Data (ST 429-14) bytestreams to a ciphertext ASDCP file
+//
+Result_t
+write_aux_data_file(CommandOptions& Options)
+{
+ AESEncContext* Context = 0;
+ HMACContext* HMAC = 0;
+ DCData::MXFWriter Writer;
+ DCData::FrameBuffer FrameBuffer(Options.fb_size);
+ DCData::DCDataDescriptor DDesc;
+ DCData::SequenceParser Parser;
+ byte_t IV_buf[CBC_BLOCK_SIZE];
+ Kumu::FortunaRNG RNG;
+
+ // set up essence parser
+ Result_t result = Parser.OpenRead(Options.filenames.front());
+
+ // set up MXF writer
+ if ( ASDCP_SUCCESS(result) )
+ {
+ Parser.FillDCDataDescriptor(DDesc);
+ memcpy(DDesc.DataEssenceCoding, Options.aux_data_coding.Value(), Options.aux_data_coding.Size());
+ DDesc.EditRate = Options.PictureRate();
+
+ if ( Options.verbose_flag )
+ {
+ fprintf(stderr, "Aux Data\n");
+ fprintf(stderr, "Frame Buffer size: %u\n", Options.fb_size);
+ DCData::DCDataDescriptorDump(DDesc);
+ }
+ }
+
+ if ( ASDCP_SUCCESS(result) && ! Options.no_write_flag )
+ {
+ WriterInfo Info = s_MyInfo; // fill in your favorite identifiers here
+ if ( Options.asset_id_flag )
+ memcpy(Info.AssetUUID, Options.asset_id_value, UUIDlen);
+ else
+ Kumu::GenRandomUUID(Info.AssetUUID);
+
+ Info.LabelSetType = LS_MXF_SMPTE;
+
+ // configure encryption
+ if( Options.key_flag )
+ {
+ Kumu::GenRandomUUID(Info.ContextID);
+ Info.EncryptedEssence = true;
+
+ if ( Options.key_id_flag )
+ {
+ memcpy(Info.CryptographicKeyID, Options.key_id_value, UUIDlen);
+ }
+ else
+ {
+ create_random_uuid(Info.CryptographicKeyID);
+ }
+
+ Context = new AESEncContext;
+ result = Context->InitKey(Options.key_value);
+
+ if ( ASDCP_SUCCESS(result) )
+ result = Context->SetIVec(RNG.FillRandom(IV_buf, CBC_BLOCK_SIZE));
+
+ if ( ASDCP_SUCCESS(result) && Options.write_hmac )
+ {
+ Info.UsesHMAC = true;
+ HMAC = new HMACContext;
+ result = HMAC->InitKey(Options.key_value, Info.LabelSetType);
+ }
+ }
+
+ if ( ASDCP_SUCCESS(result) )
+ result = Writer.OpenWrite(Options.out_file, Info, DDesc);
}
if ( ASDCP_SUCCESS(result) )
}
EssenceType_t EssenceType;
- result = ASDCP::RawEssenceType(Options.filenames.front().c_str(), EssenceType);
+ result = ASDCP::RawEssenceType(Options.filenames.front(), EssenceType);
if ( ASDCP_SUCCESS(result) )
{
case ESS_PCM_24b_48k:
case ESS_PCM_24b_96k:
- if ( Options.dolby_atmos_sync_flag )
- {
- result = write_PCM_with_ATMOS_sync_file(Options);
- }
- else
- {
- result = write_PCM_file(Options);
- }
+ if ( Options.dolby_atmos_sync_flag )
+ {
+ result = write_PCM_with_ATMOS_sync_file(Options);
+ }
+ else
+ {
+ result = write_PCM_file(Options);
+ }
break;
-
+
case ESS_TIMED_TEXT:
result = write_timed_text_file(Options);
break;
result = write_dolby_atmos_file(Options);
break;
+ case ESS_DCDATA_UNKNOWN:
+ if ( ! Options.aux_data_coding.HasValue() )
+ {
+ fprintf(stderr, "Option \"-A <UL>\" is required for Aux Data essence.\n");
+ return 3;
+ }
+ else
+ {
+ result = write_aux_data_file(Options);
+ }
+ break;
+
default:
fprintf(stderr, "%s: Unknown file type, not ASDCP-compatible essence.\n",
Options.filenames.front().c_str());