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livetrax/libs/aaf/AAFIEssenceFile.c

891 lines
28 KiB
C

/*
* Copyright (C) 2017-2024 Adrien Gesta-Fline
*
* This file is part of libAAF.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include <assert.h>
#include <ctype.h>
#include <limits.h>
#include <stdarg.h>
#include <stdio.h>
#include <string.h>
#include "aaf/AAFIEssenceFile.h"
#include "aaf/AAFIface.h"
#include "aaf/log.h"
#include "aaf/version.h"
#include "aaf/MediaComposer.h"
#include "aaf/utils.h"
#include "aaf/RIFFParser.h"
#include "aaf/URIParser.h"
#define debug(...) \
AAF_LOG (aafi->log, aafi, LOG_SRC_ID_AAF_IFACE, VERB_DEBUG, __VA_ARGS__)
#define success(...) \
AAF_LOG (aafi->log, aafi, LOG_SRC_ID_AAF_IFACE, VERB_SUCCESS, __VA_ARGS__)
#define warning(...) \
AAF_LOG (aafi->log, aafi, LOG_SRC_ID_AAF_IFACE, VERB_WARNING, __VA_ARGS__)
#define error(...) \
AAF_LOG (aafi->log, aafi, LOG_SRC_ID_AAF_IFACE, VERB_ERROR, __VA_ARGS__)
static int
set_audioEssenceWithRIFF (AAF_Iface* aafi, const char* filename, aafiAudioEssenceFile* audioEssenceFile, struct RIFFAudioFile* RIFFAudioFile, int isExternalFile);
static size_t
embeddedAudioDataReaderCallback (unsigned char* buf, size_t offset, size_t reqLen, void* user1, void* user2, void* user3);
static size_t
externalAudioDataReaderCallback (unsigned char* buf, size_t offset, size_t reqLen, void* user1, void* user2, void* user3);
int
aafi_build_unique_audio_essence_name (AAF_Iface* aafi, aafiAudioEssenceFile* audioEssenceFile)
{
if (audioEssenceFile->unique_name) {
debug ("Unique name was already set");
return -1;
}
if (aafi->ctx.options.mobid_essence_filename) {
aafUID_t* uuid = &(audioEssenceFile->sourceMobID->material);
int rc = laaf_util_snprintf_realloc (&audioEssenceFile->unique_name, 0, 0, "%08x-%04x-%04x-%02x%02x%02x%02x%02x%02x%02x%02x",
uuid->Data1,
uuid->Data2,
uuid->Data3,
uuid->Data4[0],
uuid->Data4[1],
uuid->Data4[2],
uuid->Data4[3],
uuid->Data4[4],
uuid->Data4[5],
uuid->Data4[6],
uuid->Data4[7]);
if (rc < 0) {
error ("Failed to set unique filename with SourceMobID UID");
free (audioEssenceFile->unique_name);
return -1;
}
return 0;
} else {
audioEssenceFile->unique_name = laaf_util_c99strdup ((audioEssenceFile->name) ? audioEssenceFile->name : "unknown");
if (!audioEssenceFile->unique_name) {
error ("Could not duplicate essence name : %s", (audioEssenceFile->name) ? audioEssenceFile->name : "unknown");
return -1;
}
}
size_t unique_size = strlen (audioEssenceFile->unique_name) + 1;
int index = 0;
aafiAudioEssenceFile* ae = NULL;
AAFI_foreachAudioEssenceFile (aafi, ae)
{
if (ae != audioEssenceFile && ae->unique_name != NULL && strcmp (ae->unique_name, audioEssenceFile->unique_name) == 0) {
if (laaf_util_snprintf_realloc (&audioEssenceFile->unique_name, &unique_size, 0, "%s_%i", (audioEssenceFile->name) ? audioEssenceFile->name : "unknown", ++index) < 0) {
error ("Failed to increment unique filename");
return -1;
}
/* recheck entire essence list */
ae = aafi->Audio->essenceFiles;
}
}
return 0;
}
char*
aafi_locate_external_essence_file (AAF_Iface* aafi, const char* original_uri_filepath, const char* search_location)
{
/*
* Absolute Uniform Resource Locator (URL) complying with RFC 1738 or relative
* Uniform Resource Identifier (URI) complying with RFC 2396 for file containing
* the essence. If it is a relative URI, the base URI is determined from the URI
* of the AAF file itself.
*
* Informative note: A valid URL or URI uses a constrained character set and
* uses the / character as the path separator.
*/
char* local_filepath = NULL;
char* aaf_path = NULL;
const char* foundpath = NULL;
char* retpath = NULL;
struct uri* uri = NULL;
if (original_uri_filepath == NULL) {
error ("Cant locate a NULL filepath");
goto err;
}
debug ("Original URI : %s", original_uri_filepath);
uri = laaf_uri_parse (original_uri_filepath, URI_OPT_DECODE_ALL, aafi->log);
if (uri == NULL) {
error ("Could not parse URI");
goto err;
}
if (uri->path == NULL) {
error ("Could not retrieve <path> out of URI");
goto err;
}
debug ("Decoded URI's path : %s", uri->path);
/* extract relative path to essence file : "<firstparent>/<essence.file>" */
const char* relativeEssencePath = NULL;
const char* essenceFileName = NULL;
int sepcount = 0;
char* p = uri->path + strlen (uri->path);
while (p > uri->path) {
if (*p == '/') { /* parsing URI, so will always be '/' as separator character */
sepcount++;
if (sepcount == 1) {
essenceFileName = (p + 1);
} else if (sepcount == 2) {
relativeEssencePath = (p + 1);
break;
}
}
p--;
}
if (!relativeEssencePath) {
error ("Could not retrieve relative file path out of URI : %s", uri->path);
goto err;
}
if (!essenceFileName) {
error ("Could not retrieve file name out of URI : %s", uri->path);
goto err;
}
debug ("Essence filename : %s", essenceFileName);
if (search_location) {
/*
* "<search_location>/<essence.file>"
*/
local_filepath = laaf_util_build_path ("/", search_location, essenceFileName, NULL);
if (!local_filepath) {
error ("Could not build search filepath");
goto err;
}
debug ("Search filepath : %s", local_filepath);
if (laaf_util_file_exists (local_filepath) == 1) {
foundpath = local_filepath;
goto found;
}
free (local_filepath);
local_filepath = NULL;
/*
* "<search_location>/<firstparentInOriginalEssencePath>/<essence.file>"
*/
local_filepath = laaf_util_build_path ("/", search_location, relativeEssencePath, NULL);
if (!local_filepath) {
error ("Could not build search filepath");
goto err;
}
debug ("Search filepath : %s", local_filepath);
if (laaf_util_file_exists (local_filepath) == 1) {
foundpath = local_filepath;
goto found;
}
free (local_filepath);
local_filepath = NULL;
}
/* Try raw essence's URI, just in case... */
if (laaf_util_file_exists (original_uri_filepath) == 1) {
foundpath = original_uri_filepath;
goto found;
}
/* Try <path> part of URI */
if (laaf_util_file_exists (uri->path) == 1) {
foundpath = uri->path;
goto found;
}
/*
* Try to locate essence file from the AAF file location.
*
* e.g.
* AAF filepath : /home/user/AAFFile.aaf
* + Essence URI : file://localhost/C:/Users/user/Desktop/AudioFiles/essence.wav
* = /home/user/AudioFiles/essence.file
*/
/* extract path to AAF file */
aaf_path = laaf_util_c99strdup (aafi->aafd->cfbd->file);
if (!aaf_path) {
error ("Could not duplicate AAF filepath : %s", aafi->aafd->cfbd->file);
goto err;
}
p = aaf_path + strlen (aaf_path);
while (p > aaf_path) {
if (IS_DIR_SEP (*p)) {
*p = 0x00;
break;
}
p--;
}
/*
* "<localPathToAAFfile>/<essence.file>"
*/
local_filepath = laaf_util_build_path (DIR_SEP_STR, aaf_path, essenceFileName, NULL);
if (!local_filepath) {
error ("Could not build filepath");
goto err;
}
debug ("AAF relative filepath : %s", local_filepath);
if (laaf_util_file_exists (local_filepath) == 1) {
foundpath = local_filepath;
goto found;
}
free (local_filepath);
local_filepath = NULL;
/*
* "<localPathToAAFfile>/<firstparentInOriginalEssencePath>/<essence.file>"
*/
local_filepath = laaf_util_build_path (DIR_SEP_STR, aaf_path, relativeEssencePath, NULL);
if (!local_filepath) {
error ("Could not build filepath");
goto err;
}
debug ("AAF relative sub filepath : %s", local_filepath);
if (laaf_util_file_exists (local_filepath) == 1) {
foundpath = local_filepath;
goto found;
}
free (local_filepath);
local_filepath = NULL;
debug ("File not found");
found:
if (foundpath) {
/*
* When runing through wine, computing absolute path adds a Z:/ drive letter.
* This causes issue when trying to make relative essence path from the AAF
* file path, since it also went through laaf_util_absolute_path().
* So even if foundpath is already absolute, we need that drive letter at it
* start.
*/
retpath = laaf_util_absolute_path (foundpath);
if (!retpath) {
error ("Could not make absolute path to located file : %s", foundpath);
goto err;
}
debug ("File found at : %s", foundpath);
}
goto end;
err:
retpath = NULL;
end:
laaf_uri_free (uri);
free (local_filepath);
free (aaf_path);
return retpath;
}
int
aafi_extractAudioEssenceFile (AAF_Iface* aafi, aafiAudioEssenceFile* audioEssenceFile, enum aafiExtractFormat extractFormat, const char* outpath, uint64_t sampleOffset, uint64_t sampleLength, const char* forcedFileName, char** usable_file_path)
{
int rc = 0;
int tmp = 0;
FILE* fp = NULL;
char* filename = NULL;
char* filepath = NULL;
int write_header = 0;
int extracting_clip = 0;
unsigned char* data = NULL;
uint64_t datasz = 0;
if (audioEssenceFile->is_embedded == 0) {
error ("Audio essence is not embedded : nothing to extract");
goto err;
}
if (!outpath) {
error ("Missing output path");
goto err;
}
if (audioEssenceFile->usable_file_path) {
debug ("usable_file_path was already set");
free (audioEssenceFile->usable_file_path);
audioEssenceFile->usable_file_path = NULL;
}
uint64_t pcmByteOffset = sampleOffset * audioEssenceFile->channels * (audioEssenceFile->samplesize / 8);
uint64_t pcmByteLength = sampleLength * audioEssenceFile->channels * (audioEssenceFile->samplesize / 8);
/* Retrieve stream from CFB */
cfb_getStream (aafi->aafd->cfbd, audioEssenceFile->node, &data, &datasz);
if (data == NULL) {
error ("Could not retrieve audio essence stream from CFB");
goto err;
}
/* Calculate offset and length */
debug ("Requesting extract of essence \"%s\"", audioEssenceFile->name);
debug (" - ReqSampleOffset: %" PRIu64 " samples (%" PRIu64 " bytes)", sampleOffset, pcmByteOffset);
debug (" - ReqSampleLength: %" PRIu64 " samples (%" PRIu64 " bytes)", sampleLength, pcmByteLength);
debug (" - FileHeaderOffset: %" PRIu64 " bytes (0x%04" PRIx64 ")",
audioEssenceFile->pcm_audio_start_offset,
audioEssenceFile->pcm_audio_start_offset);
debug (" - EssenceTotalLength: %" PRIu64 " bytes", datasz);
uint64_t sourceFileOffset = 0;
if (pcmByteOffset ||
pcmByteLength ||
extractFormat != AAFI_EXTRACT_DEFAULT) {
if (audioEssenceFile->type != AAFI_ESSENCE_TYPE_PCM) {
sourceFileOffset += audioEssenceFile->pcm_audio_start_offset;
}
write_header = 1;
}
if (pcmByteOffset || pcmByteLength) {
extracting_clip = 1;
}
sourceFileOffset += pcmByteOffset;
if ((datasz - audioEssenceFile->pcm_audio_start_offset) < (pcmByteLength + sourceFileOffset)) {
error ("Requested audio range (%" PRIi64 " bytes) is bigger than source audio size (%" PRIu64 " bytes)",
(pcmByteLength + sourceFileOffset),
datasz - audioEssenceFile->pcm_audio_start_offset);
goto err;
}
datasz = (pcmByteLength) ? pcmByteLength : (datasz - sourceFileOffset);
if (datasz >= (uint32_t)-1) {
error ("Audio essence is bigger than maximum wav file size (2^32 bytes) : %" PRIu64 " bytes", datasz);
goto err;
}
debug (" - Calculated Offset: %" PRIu64 " bytes", sourceFileOffset);
debug (" - Calculated Length: %" PRIu64 " bytes", datasz);
if (audioEssenceFile->type != AAFI_ESSENCE_TYPE_PCM) {
if (!write_header) {
debug ("Writting exact copy of embedded file.");
} else {
debug ("Rewriting file header.");
}
}
/* Build file path */
const char* name = NULL;
if (forcedFileName) {
name = forcedFileName;
} else {
name = audioEssenceFile->unique_name;
}
const char* fileext = NULL;
if (write_header ||
audioEssenceFile->type == AAFI_ESSENCE_TYPE_WAVE ||
audioEssenceFile->type == AAFI_ESSENCE_TYPE_PCM) {
if (!laaf_util_is_fileext (name, "wav") &&
!laaf_util_is_fileext (name, "wave")) {
fileext = "wav";
}
} else if (!write_header &&
audioEssenceFile->type == AAFI_ESSENCE_TYPE_AIFC) {
if (!laaf_util_is_fileext (name, "aif") &&
!laaf_util_is_fileext (name, "aiff") &&
!laaf_util_is_fileext (name, "aifc")) {
fileext = "aif";
}
}
if (fileext) {
if (laaf_util_snprintf_realloc (&filename, NULL, 0, "%s.%s", name, fileext) < 0) {
error ("Could not concat filename + fileext");
goto err;
}
} else {
filename = laaf_util_c99strdup (name);
if (!filename) {
error ("Could not duplicate filename : %s", name);
goto err;
}
}
filepath = laaf_util_build_path (DIR_SEP_STR, outpath, laaf_util_clean_filename (filename), NULL);
if (!filepath) {
error ("Could not build filepath.");
goto err;
}
fp = fopen (filepath, "wb");
if (!fp) {
error ("Could not open '%s' for writing : %s", filepath, strerror (errno));
goto err;
}
if (write_header ||
audioEssenceFile->type == AAFI_ESSENCE_TYPE_PCM) {
struct wavFmtChunk wavFmt;
wavFmt.channels = audioEssenceFile->channels;
wavFmt.samples_per_sec = audioEssenceFile->samplerate;
wavFmt.bits_per_sample = audioEssenceFile->samplesize;
struct wavBextChunk wavBext;
memset (&wavBext, 0x00, sizeof (wavBext));
memcpy (wavBext.umid, audioEssenceFile->sourceMobID, sizeof (aafMobID_t));
tmp = snprintf (wavBext.originator, sizeof (((struct wavBextChunk*)0)->originator), "%s %s", aafi->aafd->Identification.ProductName, (mediaComposer_AAF (aafi)) ? "" : aafi->aafd->Identification.ProductVersionString);
assert (tmp > 0 && (size_t)tmp < sizeof (((struct wavBextChunk*)0)->originator));
tmp = snprintf (wavBext.originator_reference, sizeof (((struct wavBextChunk*)0)->originator_reference), "libAAF %s", LIBAAF_VERSION);
assert (tmp > 0 && (size_t)tmp < sizeof (((struct wavBextChunk*)0)->originator_reference));
tmp = snprintf (wavBext.description, sizeof (((struct wavBextChunk*)0)->description), "%s\n%s.aaf", audioEssenceFile->name, aafi->compositionName);
assert (tmp > 0 && (size_t)tmp < sizeof (((struct wavBextChunk*)0)->description));
memcpy (wavBext.origination_date, audioEssenceFile->originationDate, sizeof (((struct wavBextChunk*)0)->origination_date));
memcpy (wavBext.origination_time, audioEssenceFile->originationTime, sizeof (((struct wavBextChunk*)0)->origination_time));
wavBext.time_reference = aafi_convertUnitUint64 (audioEssenceFile->sourceMobSlotOrigin, audioEssenceFile->sourceMobSlotEditRate, audioEssenceFile->samplerateRational);
if (laaf_riff_writeWavFileHeader (fp, &wavFmt, (extractFormat != AAFI_EXTRACT_WAV) ? &wavBext : NULL, (uint32_t)datasz, aafi->log) < 0) {
error ("Could not write wav audio header : %s", filepath);
goto err;
}
}
uint64_t writtenBytes = 0;
if (write_header && audioEssenceFile->type == AAFI_ESSENCE_TYPE_AIFC && audioEssenceFile->samplesize > 8) {
unsigned char sample[4];
uint16_t samplesize = (audioEssenceFile->samplesize >> 3);
for (uint64_t i = 0; i < datasz; i += samplesize) {
if (samplesize == 2) {
sample[0] = *(unsigned char*)(data + pcmByteOffset + i + 1);
sample[1] = *(unsigned char*)(data + pcmByteOffset + i);
} else if (samplesize == 3) {
sample[0] = *(unsigned char*)(data + pcmByteOffset + i + 2);
sample[1] = *(unsigned char*)(data + pcmByteOffset + i + 1);
sample[2] = *(unsigned char*)(data + pcmByteOffset + i);
} else if (samplesize == 4) {
sample[0] = *(unsigned char*)(data + pcmByteOffset + i + 3);
sample[1] = *(unsigned char*)(data + pcmByteOffset + i + 2);
sample[2] = *(unsigned char*)(data + pcmByteOffset + i + 1);
sample[3] = *(unsigned char*)(data + pcmByteOffset + i);
}
writtenBytes += fwrite (sample, samplesize, 1, fp);
}
writtenBytes *= samplesize;
} else {
writtenBytes = fwrite (data + sourceFileOffset, sizeof (unsigned char), datasz, fp);
}
if (writtenBytes < datasz) {
error ("Could not write audio file (%" PRIu64 " bytes written out of %" PRIu64 " bytes) : %s", writtenBytes, datasz, filepath);
goto err;
}
if (!extracting_clip) {
/*
* Set audioEssenceFile->usable_file_path only if we axtract essence, not if we
* extract clip (subset of an essence), as a single essence can have multiple
* clips using it. Otherwise, we would reset audioEssenceFile->usable_file_path
* as many times as there are clips using the same essence.
*/
audioEssenceFile->usable_file_path = laaf_util_c99strdup (filepath);
if (!audioEssenceFile->usable_file_path) {
error ("Could not duplicate usable filepath : %s", filepath);
goto err;
}
}
if (usable_file_path) {
*usable_file_path = laaf_util_c99strdup (filepath);
if (!(*usable_file_path)) {
error ("Could not duplicate usable filepath : %s", filepath);
goto err;
}
}
rc = 0;
goto end;
err:
rc = -1;
end:
free (filename);
free (filepath);
free (data);
if (fp)
fclose (fp);
return rc;
}
int
aafi_extractAudioClip (AAF_Iface* aafi, aafiAudioClip* audioClip, enum aafiExtractFormat extractFormat, const char* outpath)
{
int rc = 0;
for (aafiAudioEssencePointer* audioEssencePtr = audioClip->essencePointerList; audioEssencePtr; audioEssencePtr = audioEssencePtr->next) {
aafiAudioEssenceFile* audioEssenceFile = audioClip->essencePointerList->essenceFile;
uint64_t sampleOffset = aafi_convertUnitUint64 (audioClip->essence_offset, audioClip->track->edit_rate, audioEssenceFile->samplerateRational);
uint64_t sampleLength = aafi_convertUnitUint64 (audioClip->len, audioClip->track->edit_rate, audioEssenceFile->samplerateRational);
char* name = NULL;
char* usable_file_path = NULL;
laaf_util_snprintf_realloc (&name, NULL, 0, "%i_%i_%s", audioClip->track->number, aafi_get_clipIndex (audioClip), audioClip->essencePointerList->essenceFile->unique_name);
if ((rc += aafi_extractAudioEssenceFile (aafi, audioEssenceFile, extractFormat, outpath, sampleOffset, sampleLength, name, &usable_file_path)) == 0) {
success ("Audio clip file extracted to %s\"%s\"%s",
ANSI_COLOR_DARKGREY (aafi->log),
usable_file_path,
ANSI_COLOR_RESET (aafi->log));
} else {
error ("Audio clip file extraction failed : %s\"%s\"%s", ANSI_COLOR_DARKGREY (aafi->log), name, ANSI_COLOR_RESET (aafi->log));
}
free (usable_file_path);
free (name);
usable_file_path = NULL;
name = NULL;
}
return rc;
}
static int
set_audioEssenceWithRIFF (AAF_Iface* aafi, const char* filename, aafiAudioEssenceFile* audioEssenceFile, struct RIFFAudioFile* RIFFAudioFile, int isExternalFile)
{
if (RIFFAudioFile->sampleCount >= INT64_MAX) {
error ("%s : summary sample count is bigger than INT64_MAX (%" PRIu64 ")", audioEssenceFile->usable_file_path, RIFFAudioFile->sampleCount);
return -1;
}
if (RIFFAudioFile->sampleRate >= INT_MAX) {
error ("%s : summary sample rate is bigger than INT_MAX (%li)", audioEssenceFile->usable_file_path, RIFFAudioFile->sampleRate);
return -1;
}
if (audioEssenceFile->channels > 0 && audioEssenceFile->channels != RIFFAudioFile->channels) {
warning ("%s : summary channel count (%i) mismatch %s (%i)", filename, audioEssenceFile->channels, ((isExternalFile) ? "located file" : "previously retrieved data"), RIFFAudioFile->channels);
}
if (audioEssenceFile->samplerate > 0 && audioEssenceFile->samplerate != RIFFAudioFile->sampleRate) {
warning ("%s : summary samplerate (%i) mismatch %s (%i)", filename, audioEssenceFile->samplerate, ((isExternalFile) ? "located file" : "previously retrieved data"), RIFFAudioFile->sampleRate);
}
if (audioEssenceFile->samplesize > 0 && audioEssenceFile->samplesize != RIFFAudioFile->sampleSize) {
warning ("%s : summary samplesize (%i) mismatch %s (%i)", filename, audioEssenceFile->samplesize, ((isExternalFile) ? "located file" : "previously retrieved data"), RIFFAudioFile->sampleSize);
}
if (audioEssenceFile->length > 0 && (uint64_t)audioEssenceFile->length != RIFFAudioFile->sampleCount) {
warning ("%s : summary samplecount (%" PRIi64 ") mismatch %s (%" PRIi64 ")", filename, audioEssenceFile->length, ((isExternalFile) ? "located file" : "previously retrieved data"), RIFFAudioFile->sampleCount);
}
audioEssenceFile->channels = RIFFAudioFile->channels;
audioEssenceFile->samplerate = RIFFAudioFile->sampleRate;
audioEssenceFile->samplesize = RIFFAudioFile->sampleSize;
audioEssenceFile->length = (aafPosition_t)RIFFAudioFile->sampleCount;
audioEssenceFile->pcm_audio_start_offset = (uint64_t)RIFFAudioFile->pcm_audio_start_offset;
audioEssenceFile->samplerateRational->numerator = (int32_t)audioEssenceFile->samplerate;
audioEssenceFile->samplerateRational->denominator = 1;
return 0;
}
int
aafi_parse_audio_essence (AAF_Iface* aafi, aafiAudioEssenceFile* audioEssenceFile)
{
int rc = 0;
uint64_t dataStreamSize = 0;
unsigned char* dataStream = NULL;
FILE* fp = NULL;
struct RIFFAudioFile RIFFAudioFile;
/* try audioEssenceFile->summary first, for both embedded and external */
if (audioEssenceFile->summary) {
rc = laaf_riff_parseAudioFile (&RIFFAudioFile, RIFF_PARSE_AAF_SUMMARY, &embeddedAudioDataReaderCallback, audioEssenceFile->summary->val, &audioEssenceFile->summary->len, aafi, aafi->log);
if (rc < 0) {
if (!audioEssenceFile->is_embedded && !audioEssenceFile->usable_file_path) {
warning ("Could not parse essence summary of \"%s\".", audioEssenceFile->name);
goto err;
}
warning ("Could not parse essence summary of \"%s\". %s",
audioEssenceFile->name,
(audioEssenceFile->is_embedded) ? "Trying essence data stream." : (audioEssenceFile->usable_file_path) ? "Trying external essence file."
: " WTF ???");
} else {
if (set_audioEssenceWithRIFF (aafi, "AAF Summary", audioEssenceFile, &RIFFAudioFile, 0) < 0) {
goto err;
}
if (!RIFFAudioFile.channels ||
!RIFFAudioFile.sampleRate ||
!RIFFAudioFile.sampleSize ||
!RIFFAudioFile.sampleCount) {
/*
* Adobe Premiere Pro AIFC/WAVE Summaries of external files are missing
* SSND chunk/DATA chunk size (RIFFAudioFile.sampleCount)
*/
if (!audioEssenceFile->is_embedded && !audioEssenceFile->usable_file_path) {
warning ("Summary of \"%s\" is missing some data.", audioEssenceFile->name);
goto err;
}
warning ("Summary of \"%s\" is missing some data. %s",
audioEssenceFile->name,
(audioEssenceFile->is_embedded) ? "Trying essence data stream." : (audioEssenceFile->usable_file_path) ? "Trying external essence file."
: " WTF ???");
} else {
goto end;
}
}
} else if (audioEssenceFile->is_embedded) {
warning ("Embedded audio essence \"%s\" has no summary. Trying essence data stream.", audioEssenceFile->name);
} else if (audioEssenceFile->usable_file_path) {
warning ("External audio essence \"%s\" has no summary. Trying external file.", audioEssenceFile->name);
}
if (audioEssenceFile->is_embedded) {
cfb_getStream (aafi->aafd->cfbd, audioEssenceFile->node, &dataStream, &dataStreamSize);
if (dataStream == NULL) {
error ("Could not retrieve audio essence stream from CFB");
goto err;
}
rc = laaf_riff_parseAudioFile (&RIFFAudioFile, RIFF_PARSE_AAF_SUMMARY, &embeddedAudioDataReaderCallback, dataStream, &dataStreamSize, aafi, aafi->log);
if (rc < 0) {
warning ("Could not parse embedded essence stream of \"%s\".", audioEssenceFile->name);
goto err;
}
if (set_audioEssenceWithRIFF (aafi, "AAF Embedded stream", audioEssenceFile, &RIFFAudioFile, 0) < 0) {
goto err;
}
goto end;
}
if (laaf_util_is_fileext (audioEssenceFile->usable_file_path, "wav") ||
laaf_util_is_fileext (audioEssenceFile->usable_file_path, "wave") ||
laaf_util_is_fileext (audioEssenceFile->usable_file_path, "aif") ||
laaf_util_is_fileext (audioEssenceFile->usable_file_path, "aiff") ||
laaf_util_is_fileext (audioEssenceFile->usable_file_path, "aifc")) {
fp = fopen (audioEssenceFile->usable_file_path, "rb");
if (fp == NULL) {
error ("Could not open external audio essence file for reading : %s", audioEssenceFile->usable_file_path);
goto err;
}
rc = laaf_riff_parseAudioFile (&RIFFAudioFile, 0, &externalAudioDataReaderCallback, fp, audioEssenceFile->usable_file_path, aafi, aafi->log);
if (rc < 0) {
error ("Failed parsing external audio essence file : %s", audioEssenceFile->usable_file_path);
goto err;
}
if (set_audioEssenceWithRIFF (aafi, audioEssenceFile->usable_file_path, audioEssenceFile, &RIFFAudioFile, 1) < 0) {
goto err;
}
} else {
/*
* should be considered as a non-pcm audio format
*
│ 04317│├──◻ AAFClassID_TimelineMobSlot [slot:6 track:4] (DataDef : AAFDataDef_Sound) : Audio 4 - Layered Audio Editing
│ 01943││ └──◻ AAFClassID_Sequence
│ 02894││ └──◻ AAFClassID_SourceClip
│ 02899││ └──◻ AAFClassID_MasterMob (UsageCode: n/a) : speech-sample
│ 04405││ └──◻ AAFClassID_TimelineMobSlot [slot:1 track:1] (DataDef : AAFDataDef_Sound)
│ 03104││ └──◻ AAFClassID_SourceClip
│ 04140││ └──◻ AAFClassID_SourceMob (UsageCode: n/a) : speech-sample
│ 01287││ └──◻ AAFClassID_PCMDescriptor
│ 01477││ └──◻ AAFClassID_NetworkLocator : file:///C:/Users/user/Desktop/libAAF/test/res/speech-sample.mp3
*
*/
audioEssenceFile->type = AAFI_ESSENCE_TYPE_UNK;
}
rc = 0;
goto end;
err:
rc = -1;
end:
free (dataStream);
if (fp)
fclose (fp);
return rc;
}
static size_t
embeddedAudioDataReaderCallback (unsigned char* buf, size_t offset, size_t reqlen, void* user1, void* user2, void* user3)
{
unsigned char* data = user1;
size_t datasz = *(size_t*)user2;
AAF_Iface* aafi = (AAF_Iface*)user3;
if (offset > datasz) {
error ("Requested data starts beyond data length");
return RIFF_READER_ERROR;
}
if (offset + reqlen > datasz) {
reqlen = datasz - (offset + reqlen);
}
memcpy (buf, data + offset, reqlen);
return reqlen;
}
static size_t
externalAudioDataReaderCallback (unsigned char* buf, size_t offset, size_t reqlen, void* user1, void* user2, void* user3)
{
FILE* fp = (FILE*)user1;
const char* filename = (const char*)user2;
AAF_Iface* aafi = (AAF_Iface*)user3;
#ifdef _WIN32
assert (offset < _I64_MAX);
if (_fseeki64 (fp, (__int64)offset, SEEK_SET) < 0) {
error ("Could not seek to %" PRIu64 " in file '%s' : %s", offset, filename, strerror (errno));
return RIFF_READER_ERROR;
}
#else
assert (offset < LONG_MAX);
if (fseek (fp, (long)offset, SEEK_SET) < 0) {
error ("Could not seek to %" PRIu64 " in file '%s' : %s", offset, filename, strerror (errno));
return RIFF_READER_ERROR;
}
#endif
size_t byteRead = fread (buf, sizeof (unsigned char), reqlen, fp);
if (feof (fp)) {
if (byteRead < reqlen) {
error ("Incomplete fread() of '%s' due to EOF : %" PRIu64 " bytes read out of %" PRIu64 " requested", filename, byteRead, reqlen);
return RIFF_READER_ERROR;
}
debug ("fread() : EOF reached in file '%s'", filename);
} else if (ferror (fp)) {
if (byteRead < reqlen) {
error ("Incomplete fread() of '%s' due to error : %" PRIu64 " bytes read out of %" PRIu64 " requested", filename, byteRead, reqlen);
} else {
error ("fread() error of '%s' : %" PRIu64 " bytes read out of %" PRIu64 " requested", filename, byteRead, reqlen);
}
return RIFF_READER_ERROR;
}
return byteRead;
}