/* flac - Command-line FLAC encoder/decoder * Copyright (C) 2000-2009 Josh Coalson * Copyright (C) 2011-2022 Xiph.Org Foundation * * 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. */ #ifdef HAVE_CONFIG_H # include #endif #include /* for FILE etc. */ #include /* for calloc() etc. */ #include /* for memcmp() etc. */ #include "FLAC/assert.h" #include "FLAC/metadata.h" #include "share/alloc.h" #include "share/compat.h" #include "foreign_metadata.h" #ifdef min #undef min #endif #define min(x,y) ((x)<(y)?(x):(y)) const char *FLAC__FOREIGN_METADATA_APPLICATION_ID[FLAC__FOREIGN_METADATA_NUMBER_OF_RECOGNIZED_APPLICATION_IDS] = { "aiff" , "riff", "w64 " }; static FLAC__uint32 unpack32be_(const FLAC__byte *b) { return ((FLAC__uint32)b[0]<<24) + ((FLAC__uint32)b[1]<<16) + ((FLAC__uint32)b[2]<<8) + (FLAC__uint32)b[3]; } static FLAC__uint32 unpack32le_(const FLAC__byte *b) { return (FLAC__uint32)b[0] + ((FLAC__uint32)b[1]<<8) + ((FLAC__uint32)b[2]<<16) + ((FLAC__uint32)b[3]<<24); } static FLAC__uint64 unpack64le_(const FLAC__byte *b) { return (FLAC__uint64)b[0] + ((FLAC__uint64)b[1]<<8) + ((FLAC__uint64)b[2]<<16) + ((FLAC__uint64)b[3]<<24) + ((FLAC__uint64)b[4]<<32) + ((FLAC__uint64)b[5]<<40) + ((FLAC__uint64)b[6]<<48) + ((FLAC__uint64)b[7]<<56); } /* copies 'size' bytes from file 'fin' to 'fout', filling in *error with 'read_error' or 'write_error' as necessary */ static FLAC__bool copy_data_(FILE *fin, FILE *fout, size_t size, const char **error, const char * const read_error, const char * const write_error) { FLAC__byte buffer[4096]; size_t left; for(left = size; left > 0; ) { size_t need = min(sizeof(buffer), left); if(fread(buffer, 1, need, fin) < need) { if(error) *error = read_error; return false; } if(fwrite(buffer, 1, need, fout) < need) { if(error) *error = write_error; return false; } left -= need; } return true; } static FLAC__bool append_block_(foreign_metadata_t *fm, FLAC__off_t offset, FLAC__uint32 size, const char **error) { foreign_block_t *fb = safe_realloc_nofree_muladd2_(fm->blocks, sizeof(foreign_block_t), /*times (*/fm->num_blocks, /*+*/1/*)*/); if(fb) { fb[fm->num_blocks].offset = offset; fb[fm->num_blocks].size = size; fm->num_blocks++; fm->blocks = fb; return true; } if(error) *error = "out of memory"; return false; } static FLAC__bool read_from_aiff_(foreign_metadata_t *fm, FILE *f, const char **error) { FLAC__byte buffer[12]; FLAC__off_t offset, eof_offset; if((offset = ftello(f)) < 0) { if(error) *error = "ftello() error (001)"; return false; } if(fread(buffer, 1, 12, f) < 12 || memcmp(buffer, "FORM", 4) || (memcmp(buffer+8, "AIFF", 4) && memcmp(buffer+8, "AIFC", 4))) { if(error) *error = "unsupported FORM layout (002)"; return false; } if(!append_block_(fm, offset, 12, error)) return false; eof_offset = (FLAC__off_t)8 + (FLAC__off_t)unpack32be_(buffer+4); while(!feof(f)) { FLAC__uint32 size; if((offset = ftello(f)) < 0) { if(error) *error = "ftello() error (003)"; return false; } if((size = fread(buffer, 1, 8, f)) < 8) { if(size == 0 && feof(f)) break; if(error) *error = "invalid AIFF file (004)"; return false; } size = unpack32be_(buffer+4); /* check if pad byte needed */ if(size & 1) size++; if(!memcmp(buffer, "COMM", 4)) { if(fm->format_block) { if(error) *error = "invalid AIFF file: multiple \"COMM\" chunks (005)"; return false; } if(fm->audio_block) { if(error) *error = "invalid AIFF file: \"SSND\" chunk before \"COMM\" chunk (006)"; return false; } fm->format_block = fm->num_blocks; } else if(!memcmp(buffer, "SSND", 4)) { if(fm->audio_block) { if(error) *error = "invalid AIFF file: multiple \"SSND\" chunks (007)"; return false; } if(!fm->format_block) { if(error) *error = "invalid AIFF file: \"SSND\" chunk before \"COMM\" chunk (008)"; return false; } fm->audio_block = fm->num_blocks; /* read #offset bytes */ if(fread(buffer+8, 1, 4, f) < 4) { if(error) *error = "invalid AIFF file (009)"; return false; } fm->ssnd_offset_size = unpack32be_(buffer+8); if(fseeko(f, -4, SEEK_CUR) < 0) { if(error) *error = "invalid AIFF file: seek error (010)"; return false; } /* WATCHOUT: For SSND we ignore the blockSize and are not saving any * unaligned part at the end of the chunk. In retrospect it is pretty * pointless to save the unaligned data before the PCM but now it is * done and cast in stone. */ } if(!append_block_(fm, offset, 8 + (memcmp(buffer, "SSND", 4)? size : 8 + fm->ssnd_offset_size), error)) return false; /* skip to next chunk */ if(fseeko(f, size, SEEK_CUR) < 0) { if(error) *error = "invalid AIFF file: seek error (011)"; return false; } } if(eof_offset != ftello(f)) { if(error) *error = "invalid AIFF file: unexpected EOF (012)"; return false; } if(!fm->format_block) { if(error) *error = "invalid AIFF file: missing \"COMM\" chunk (013)"; return false; } if(!fm->audio_block) { if(error) *error = "invalid AIFF file: missing \"SSND\" chunk (014)"; return false; } return true; } static FLAC__bool read_from_wave_(foreign_metadata_t *fm, FILE *f, const char **error) { FLAC__byte buffer[12]; FLAC__off_t offset, eof_offset = -1, ds64_data_size = -1; if((offset = ftello(f)) < 0) { if(error) *error = "ftello() error (001)"; return false; } if(fread(buffer, 1, 12, f) < 12 || (memcmp(buffer, "RIFF", 4) && memcmp(buffer, "RF64", 4)) || memcmp(buffer+8, "WAVE", 4)) { if(error) *error = "unsupported RIFF layout (002)"; return false; } if(!memcmp(buffer, "RF64", 4)) fm->is_rf64 = true; if(fm->is_rf64 && sizeof(FLAC__off_t) < 8) { if(error) *error = "RF64 is not supported on this compile (r00)"; return false; } if(!append_block_(fm, offset, 12, error)) return false; if(!fm->is_rf64 || unpack32le_(buffer+4) != 0xffffffff) { eof_offset = (FLAC__off_t)8 + (FLAC__off_t)unpack32le_(buffer+4); if(eof_offset & 1) /* fix odd RIFF size */ eof_offset++; } while(!feof(f)) { FLAC__uint32 size; if((offset = ftello(f)) < 0) { if(error) *error = "ftello() error (003)"; return false; } if((size = fread(buffer, 1, 8, f)) < 8) { if(size == 0 && feof(f)) break; if(error) *error = "invalid WAVE file (004)"; return false; } size = unpack32le_(buffer+4); /* check if pad byte needed */ if(size & 1) size++; if(!memcmp(buffer, "fmt ", 4)) { if(fm->format_block) { if(error) *error = "invalid WAVE file: multiple \"fmt \" chunks (005)"; return false; } if(fm->audio_block) { if(error) *error = "invalid WAVE file: \"data\" chunk before \"fmt \" chunk (006)"; return false; } fm->format_block = fm->num_blocks; } else if(!memcmp(buffer, "data", 4)) { if(fm->audio_block) { if(error) *error = "invalid WAVE file: multiple \"data\" chunks (007)"; return false; } if(!fm->format_block) { if(error) *error = "invalid WAVE file: \"data\" chunk before \"fmt \" chunk (008)"; return false; } fm->audio_block = fm->num_blocks; if(fm->is_rf64 && fm->num_blocks < 2) { if(error) *error = "invalid RF64 file: \"data\" chunk before \"ds64\" chunk (r01)"; return false; } } if(!append_block_(fm, offset, 8 + (memcmp(buffer, "data", 4)? size : 0), error)) return false; /* parse ds64 chunk if necessary */ if(fm->is_rf64 && fm->num_blocks == 2) { FLAC__byte buffer2[7*4]; if(memcmp(buffer, "ds64", 4)) { if(error) *error = "invalid RF64 file: \"ds64\" chunk does not immediately follow \"WAVE\" marker (r02)"; return false; } /* unpack the size again since we don't want the padding byte effect */ size = unpack32le_(buffer+4); if(size < sizeof(buffer2)) { if(error) *error = "invalid RF64 file: \"ds64\" chunk size is < 28 (r03)"; return false; } if(size > sizeof(buffer2)) { if(error) *error = "RF64 file has \"ds64\" chunk with extra size table, which is not currently supported (r04)"; return false; } if(fread(buffer2, 1, sizeof(buffer2), f) < sizeof(buffer2)) { if(error) *error = "unexpected EOF reading \"ds64\" chunk data in RF64 file (r05)"; return false; } ds64_data_size = (FLAC__off_t)unpack64le_(buffer2+8); if(ds64_data_size == (FLAC__off_t)(-1)) { if(error) *error = "RF64 file has \"ds64\" chunk with data size == -1 (r08)"; return false; } /* check if pad byte needed */ if(ds64_data_size & 1) ds64_data_size++; /* @@@ [2^63 limit] */ if(ds64_data_size < 0) { if(error) *error = "RF64 file too large (r09)"; return false; } if(unpack32le_(buffer2+24)) { if(error) *error = "RF64 file has \"ds64\" chunk with extra size table, which is not currently supported (r06)"; return false; } eof_offset = (FLAC__off_t)8 + (FLAC__off_t)unpack64le_(buffer2); /* @@@ [2^63 limit] */ if((FLAC__off_t)unpack64le_(buffer2) < 0 || eof_offset < 0) { if(error) *error = "RF64 file too large (r07)"; return false; } } else { /* skip to next chunk */ if(fm->is_rf64 && !memcmp(buffer, "data", 4) && unpack32le_(buffer+4) == 0xffffffff) { if(fseeko(f, ds64_data_size, SEEK_CUR) < 0) { if(error) *error = "invalid RF64 file: seek error (r10)"; return false; } } else { if(fseeko(f, size, SEEK_CUR) < 0) { if(error) *error = "invalid WAVE file: seek error (009)"; return false; } } } } if(fm->is_rf64 && eof_offset == (FLAC__off_t)(-1)) { if(error) *error = "invalid RF64 file: all RIFF sizes are -1 (r11)"; return false; } if(eof_offset != ftello(f)) { if(error) *error = "invalid WAVE file: unexpected EOF (010)"; return false; } if(!fm->format_block) { if(error) *error = "invalid WAVE file: missing \"fmt \" chunk (011)"; return false; } if(!fm->audio_block) { if(error) *error = "invalid WAVE file: missing \"data\" chunk (012)"; return false; } return true; } static FLAC__bool read_from_wave64_(foreign_metadata_t *fm, FILE *f, const char **error) { FLAC__byte buffer[40]; FLAC__off_t offset, eof_offset = -1; if((offset = ftello(f)) < 0) { if(error) *error = "ftello() error (001)"; return false; } if( fread(buffer, 1, 40, f) < 40 || /* RIFF GUID 66666972-912E-11CF-A5D6-28DB04C10000 */ memcmp(buffer, "\x72\x69\x66\x66\x2E\x91\xCF\x11\xA5\xD6\x28\xDB\x04\xC1\x00\x00", 16) || /* WAVE GUID 65766177-ACF3-11D3-8CD1-00C04F8EDB8A */ memcmp(buffer+24, "\x77\x61\x76\x65\xF3\xAC\xD3\x11\x8C\xD1\x00\xC0\x4F\x8E\xDB\x8A", 16) ) { if(error) *error = "unsupported Wave64 layout (002)"; return false; } if(sizeof(FLAC__off_t) < 8) { if(error) *error = "Wave64 is not supported on this compile (r00)"; return false; } if(!append_block_(fm, offset, 40, error)) return false; eof_offset = (FLAC__off_t)unpack64le_(buffer+16); /*@@@ [2^63 limit] */ while(!feof(f)) { FLAC__uint64 size; if((offset = ftello(f)) < 0) { if(error) *error = "ftello() error (003)"; return false; } if((size = fread(buffer, 1, 24, f)) < 24) { if(size == 0 && feof(f)) break; if(error) *error = "invalid Wave64 file (004)"; return false; } size = unpack64le_(buffer+16); /* check if pad bytes needed */ if(size & 7) size = (size+7) & (~((FLAC__uint64)7)); /* fmt GUID 20746D66-ACF3-11D3-8CD1-00C04F8EDB8A */ if(!memcmp(buffer, "\x66\x6D\x74\x20\xF3\xAC\xD3\x11\x8C\xD1\x00\xC0\x4F\x8E\xDB\x8A", 16)) { if(fm->format_block) { if(error) *error = "invalid Wave64 file: multiple \"fmt \" chunks (005)"; return false; } if(fm->audio_block) { if(error) *error = "invalid Wave64 file: \"data\" chunk before \"fmt \" chunk (006)"; return false; } fm->format_block = fm->num_blocks; } /* data GUID 61746164-ACF3-11D3-8CD1-00C04F8EDB8A */ else if(!memcmp(buffer, "\x64\x61\x74\x61\xF3\xAC\xD3\x11\x8C\xD1\x00\xC0\x4F\x8E\xDB\x8A", 16)) { if(fm->audio_block) { if(error) *error = "invalid Wave64 file: multiple \"data\" chunks (007)"; return false; } if(!fm->format_block) { if(error) *error = "invalid Wave64 file: \"data\" chunk before \"fmt \" chunk (008)"; return false; } fm->audio_block = fm->num_blocks; } if(!append_block_(fm, offset, memcmp(buffer, "\x64\x61\x74\x61\xF3\xAC\xD3\x11\x8C\xD1\x00\xC0\x4F\x8E\xDB\x8A", 16)? (FLAC__uint32)size : 16+8, error)) return false; /* skip to next chunk */ if(fseeko(f, size-24, SEEK_CUR) < 0) { if(error) *error = "invalid Wave64 file: seek error (009)"; return false; } } if(eof_offset != ftello(f)) { if(error) *error = "invalid Wave64 file: unexpected EOF (010)"; return false; } if(!fm->format_block) { if(error) *error = "invalid Wave64 file: missing \"fmt \" chunk (011)"; return false; } if(!fm->audio_block) { if(error) *error = "invalid Wave64 file: missing \"data\" chunk (012)"; return false; } return true; } static FLAC__bool write_to_flac_(foreign_metadata_t *fm, FILE *fin, FILE *fout, FLAC__Metadata_SimpleIterator *it, const char **error) { FLAC__byte buffer[4]; const uint32_t ID_LEN = FLAC__STREAM_METADATA_APPLICATION_ID_LEN/8; size_t block_num = 0; FLAC__ASSERT(sizeof(buffer) >= ID_LEN); while(block_num < fm->num_blocks) { /* find next matching padding block */ do { /* even on the first chunk's loop there will be a skippable STREAMINFO block, on subsequent loops we are first moving past the PADDING we just used */ if(!FLAC__metadata_simple_iterator_next(it)) { if(error) *error = "no matching PADDING block found (004)"; return false; } } while(FLAC__metadata_simple_iterator_get_block_type(it) != FLAC__METADATA_TYPE_PADDING); if(FLAC__metadata_simple_iterator_get_block_length(it) != ID_LEN+fm->blocks[block_num].size) { if(error) *error = "PADDING block with wrong size found (005)"; return false; } /* transfer chunk into APPLICATION block */ /* first set up the file pointers */ if(fseeko(fin, fm->blocks[block_num].offset, SEEK_SET) < 0) { if(error) *error = "seek failed in WAVE/AIFF file (006)"; return false; } if(fseeko(fout, FLAC__metadata_simple_iterator_get_block_offset(it), SEEK_SET) < 0) { if(error) *error = "seek failed in FLAC file (007)"; return false; } /* update the type */ buffer[0] = FLAC__METADATA_TYPE_APPLICATION; if(FLAC__metadata_simple_iterator_is_last(it)) buffer[0] |= 0x80; /*MAGIC number*/ if(fwrite(buffer, 1, 1, fout) < 1) { if(error) *error = "write failed in FLAC file (008)"; return false; } /* length stays the same so skip over it */ if(fseeko(fout, FLAC__STREAM_METADATA_LENGTH_LEN/8, SEEK_CUR) < 0) { if(error) *error = "seek failed in FLAC file (009)"; return false; } /* write the APPLICATION ID */ memcpy(buffer, FLAC__FOREIGN_METADATA_APPLICATION_ID[fm->type], ID_LEN); if(fwrite(buffer, 1, ID_LEN, fout) < ID_LEN) { if(error) *error = "write failed in FLAC file (010)"; return false; } /* transfer the foreign metadata */ if(!copy_data_(fin, fout, fm->blocks[block_num].size, error, "read failed in WAVE/AIFF file (011)", "write failed in FLAC file (012)")) return false; block_num++; } return true; } static FLAC__bool read_from_flac_(foreign_metadata_t *fm, FILE *f, FLAC__Metadata_SimpleIterator *it, const char **error) { FLAC__byte id[4], buffer[12]; FLAC__off_t offset; FLAC__bool foreign_metadata_found = false, type_found = false, ds64_found = false; uint32_t foreign_metadata_found_type = 0; FLAC__ASSERT(FLAC__STREAM_METADATA_APPLICATION_ID_LEN == sizeof(id)*8); while(FLAC__metadata_simple_iterator_next(it)) { if(FLAC__metadata_simple_iterator_get_block_type(it) != FLAC__METADATA_TYPE_APPLICATION) continue; if(!FLAC__metadata_simple_iterator_get_application_id(it, id)) { if(error) *error = "FLAC__metadata_simple_iterator_get_application_id() error (002)"; return false; } if(memcmp(id, FLAC__FOREIGN_METADATA_APPLICATION_ID[fm->type], sizeof(id))) { /* The found application metadata block is not of the right type, check * whether it is of another recognized type so we can tell the user it * is decoding to the wrong file format */ for(uint32_t i = 0; i < FLAC__FOREIGN_METADATA_NUMBER_OF_RECOGNIZED_APPLICATION_IDS; i++) if(memcmp(id, FLAC__FOREIGN_METADATA_APPLICATION_ID[i], sizeof(id)) == 0) { foreign_metadata_found = true; foreign_metadata_found_type = i; } continue; } offset = FLAC__metadata_simple_iterator_get_block_offset(it); /* skip over header and app ID */ offset += (FLAC__STREAM_METADATA_IS_LAST_LEN + FLAC__STREAM_METADATA_TYPE_LEN + FLAC__STREAM_METADATA_LENGTH_LEN) / 8; offset += sizeof(id); /* look for format or audio blocks */ if(fseeko(f, offset, SEEK_SET) < 0) { if(error) *error = "seek error (003)"; return false; } if(fread(buffer, 1, 4, f) != 4) { if(error) *error = "read error (004)"; return false; } if(fm->num_blocks == 0) { /* first block? */ fm->is_rf64 = 0 == memcmp(buffer, "RF64", 4); if(fm->type == FOREIGN_BLOCK_TYPE__RIFF && (0 == memcmp(buffer, "RIFF", 4) || fm->is_rf64)) type_found = true; else if(fm->type == FOREIGN_BLOCK_TYPE__WAVE64 && 0 == memcmp(buffer, "riff", 4)) /* use first 4 bytes instead of whole GUID */ type_found = true; else if(fm->type == FOREIGN_BLOCK_TYPE__AIFF && 0 == memcmp(buffer, "FORM", 4)) type_found = true; else { if(error) *error = "unsupported foreign metadata found, may need newer FLAC decoder (005)"; return false; } } else if(!type_found) { FLAC__ASSERT(0); /* double protection: */ if(error) *error = "unsupported foreign metadata found, may need newer FLAC decoder (006)"; return false; } else if(fm->type == FOREIGN_BLOCK_TYPE__RIFF) { if(!memcmp(buffer, "fmt ", 4)) { if(fm->format_block) { if(error) *error = "invalid WAVE metadata: multiple \"fmt \" chunks (007)"; return false; } if(fm->audio_block) { if(error) *error = "invalid WAVE metadata: \"data\" chunk before \"fmt \" chunk (008)"; return false; } fm->format_block = fm->num_blocks; } else if(!memcmp(buffer, "data", 4)) { if(fm->audio_block) { if(error) *error = "invalid WAVE metadata: multiple \"data\" chunks (009)"; return false; } if(!fm->format_block) { if(error) *error = "invalid WAVE metadata: \"data\" chunk before \"fmt \" chunk (010)"; return false; } fm->audio_block = fm->num_blocks; } else if(fm->is_rf64 && fm->num_blocks == 1) { if(memcmp(buffer, "ds64", 4)) { if(error) *error = "invalid RF64 metadata: second chunk is not \"ds64\" (011)"; return false; } ds64_found = true; } } else if(fm->type == FOREIGN_BLOCK_TYPE__WAVE64) { if(!memcmp(buffer, "fmt ", 4)) { /* use first 4 bytes instead of whole GUID */ if(fm->format_block) { if(error) *error = "invalid Wave64 metadata: multiple \"fmt \" chunks (012)"; return false; } if(fm->audio_block) { if(error) *error = "invalid Wave64 metadata: \"data\" chunk before \"fmt \" chunk (013)"; return false; } fm->format_block = fm->num_blocks; } else if(!memcmp(buffer, "data", 4)) { /* use first 4 bytes instead of whole GUID */ if(fm->audio_block) { if(error) *error = "invalid Wave64 metadata: multiple \"data\" chunks (014)"; return false; } if(!fm->format_block) { if(error) *error = "invalid Wave64 metadata: \"data\" chunk before \"fmt \" chunk (015)"; return false; } fm->audio_block = fm->num_blocks; } } else if(fm->type == FOREIGN_BLOCK_TYPE__AIFF) { if(!memcmp(buffer, "COMM", 4)) { if(fm->format_block) { if(error) *error = "invalid AIFF metadata: multiple \"COMM\" chunks (016)"; return false; } if(fm->audio_block) { if(error) *error = "invalid AIFF metadata: \"SSND\" chunk before \"COMM\" chunk (017)"; return false; } fm->format_block = fm->num_blocks; } else if(!memcmp(buffer, "SSND", 4)) { if(fm->audio_block) { if(error) *error = "invalid AIFF metadata: multiple \"SSND\" chunks (018)"; return false; } if(!fm->format_block) { if(error) *error = "invalid AIFF metadata: \"SSND\" chunk before \"COMM\" chunk (019)"; return false; } fm->audio_block = fm->num_blocks; /* read SSND offset size */ if(fread(buffer+4, 1, 8, f) != 8) { if(error) *error = "read error (020)"; return false; } fm->ssnd_offset_size = unpack32be_(buffer+8); } } else { FLAC__ASSERT(0); /* double protection: */ if(error) *error = "unsupported foreign metadata found, may need newer FLAC decoder (021)"; return false; } if(!append_block_(fm, offset, FLAC__metadata_simple_iterator_get_block_length(it)-sizeof(id), error)) return false; } if(!type_found) { if(foreign_metadata_found) { if(error) { if(foreign_metadata_found_type == 0 /*"aiff"*/) *error = "found foreign metadata of wrong type, try decoding to AIFF instead"; else if(foreign_metadata_found_type == 1 /*"riff"*/) *error = "found foreign metadata of wrong type, try decoding to WAV or RF64 instead"; else if(foreign_metadata_found_type == 2 /*"w64 "*/) *error = "found foreign metadata of wrong type, try decoding to WAVE64 instead"; } return false; } else { if(error) *error = "no foreign metadata found (022)"; return false; } } if(fm->is_rf64 && !ds64_found) { if(error) *error = "invalid RF64 file: second chunk is not \"ds64\" (023)"; return false; } if(!fm->format_block) { if(error) *error = fm->type==FOREIGN_BLOCK_TYPE__RIFF? "invalid WAVE file: missing \"fmt \" chunk (024)" : fm->type==FOREIGN_BLOCK_TYPE__WAVE64? "invalid Wave64 file: missing \"fmt \" chunk (025)" : "invalid AIFF file: missing \"COMM\" chunk (026)"; return false; } if(!fm->audio_block) { if(error) *error = fm->type==FOREIGN_BLOCK_TYPE__RIFF? "invalid WAVE file: missing \"data\" chunk (027)" : fm->type==FOREIGN_BLOCK_TYPE__WAVE64? "invalid Wave64 file: missing \"data\" chunk (028)" : "invalid AIFF file: missing \"SSND\" chunk (029)"; return false; } return true; } static FLAC__bool write_to_iff_(foreign_metadata_t *fm, FILE *fin, FILE *fout, FLAC__off_t offset1, FLAC__off_t offset2, FLAC__off_t offset3, const char **error) { size_t i; if(fseeko(fout, offset1, SEEK_SET) < 0) { if(error) *error = "seek failed in WAVE/AIFF file (002)"; return false; } /* don't write first (RIFF/RF64/FORM) chunk, or ds64 chunk in the case of RF64 */ for(i = fm->is_rf64?2:1; i < fm->format_block; i++) { if(fseeko(fin, fm->blocks[i].offset, SEEK_SET) < 0) { if(error) *error = "seek failed in FLAC file (003)"; return false; } if(!copy_data_(fin, fout, fm->blocks[i].size, error, "read failed in WAVE/AIFF file (004)", "write failed in FLAC file (005)")) return false; } if(fseeko(fout, offset2, SEEK_SET) < 0) { if(error) *error = "seek failed in WAVE/AIFF file (006)"; return false; } for(i = fm->format_block+1; i < fm->audio_block; i++) { if(fseeko(fin, fm->blocks[i].offset, SEEK_SET) < 0) { if(error) *error = "seek failed in FLAC file (007)"; return false; } if(!copy_data_(fin, fout, fm->blocks[i].size, error, "read failed in WAVE/AIFF file (008)", "write failed in FLAC file (009)")) return false; } if(fseeko(fout, offset3, SEEK_SET) < 0) { if(error) *error = "seek failed in WAVE/AIFF file (010)"; return false; } for(i = fm->audio_block+1; i < fm->num_blocks; i++) { if(fseeko(fin, fm->blocks[i].offset, SEEK_SET) < 0) { if(error) *error = "seek failed in FLAC file (011)"; return false; } if(!copy_data_(fin, fout, fm->blocks[i].size, error, "read failed in WAVE/AIFF file (012)", "write failed in FLAC file (013)")) return false; } return true; } foreign_metadata_t *flac__foreign_metadata_new(foreign_block_type_t type) { /* calloc() to zero all the member variables */ foreign_metadata_t *x = calloc(sizeof(foreign_metadata_t), 1); if(x) { x->type = type; x->is_rf64 = false; } return x; } void flac__foreign_metadata_delete(foreign_metadata_t *fm) { if(fm) { if(fm->blocks) free(fm->blocks); free(fm); } } FLAC__bool flac__foreign_metadata_read_from_aiff(foreign_metadata_t *fm, const char *filename, const char **error) { FLAC__bool ok; FILE *f = flac_fopen(filename, "rb"); if(!f) { if(error) *error = "can't open AIFF file for reading (000)"; return false; } ok = read_from_aiff_(fm, f, error); fclose(f); return ok; } FLAC__bool flac__foreign_metadata_read_from_wave(foreign_metadata_t *fm, const char *filename, const char **error) { FLAC__bool ok; FILE *f = flac_fopen(filename, "rb"); if(!f) { if(error) *error = "can't open WAVE file for reading (000)"; return false; } ok = read_from_wave_(fm, f, error); fclose(f); return ok; } FLAC__bool flac__foreign_metadata_read_from_wave64(foreign_metadata_t *fm, const char *filename, const char **error) { FLAC__bool ok; FILE *f = flac_fopen(filename, "rb"); if(!f) { if(error) *error = "can't open Wave64 file for reading (000)"; return false; } ok = read_from_wave64_(fm, f, error); fclose(f); return ok; } FLAC__bool flac__foreign_metadata_write_to_flac(foreign_metadata_t *fm, const char *infilename, const char *outfilename, const char **error) { FLAC__bool ok; FILE *fin, *fout; FLAC__Metadata_SimpleIterator *it = FLAC__metadata_simple_iterator_new(); if(!it) { if(error) *error = "out of memory (000)"; return false; } if(!FLAC__metadata_simple_iterator_init(it, outfilename, /*read_only=*/true, /*preserve_file_stats=*/false)) { if(error) *error = "can't initialize iterator (001)"; FLAC__metadata_simple_iterator_delete(it); return false; } if(0 == (fin = flac_fopen(infilename, "rb"))) { if(error) *error = "can't open WAVE/AIFF file for reading (002)"; FLAC__metadata_simple_iterator_delete(it); return false; } if(0 == (fout = flac_fopen(outfilename, "r+b"))) { if(error) *error = "can't open FLAC file for updating (003)"; FLAC__metadata_simple_iterator_delete(it); fclose(fin); return false; } ok = write_to_flac_(fm, fin, fout, it, error); FLAC__metadata_simple_iterator_delete(it); fclose(fin); fclose(fout); return ok; } FLAC__bool flac__foreign_metadata_read_from_flac(foreign_metadata_t *fm, const char *filename, const char **error) { FLAC__bool ok; FILE *f; FLAC__Metadata_SimpleIterator *it = FLAC__metadata_simple_iterator_new(); if(!it) { if(error) *error = "out of memory (000)"; return false; } if(!FLAC__metadata_simple_iterator_init(it, filename, /*read_only=*/true, /*preserve_file_stats=*/false)) { if(error) *error = "can't initialize iterator (001)"; FLAC__metadata_simple_iterator_delete(it); return false; } if(0 == (f = flac_fopen(filename, "rb"))) { if(error) *error = "can't open FLAC file for reading (002)"; FLAC__metadata_simple_iterator_delete(it); return false; } ok = read_from_flac_(fm, f, it, error); FLAC__metadata_simple_iterator_delete(it); fclose(f); return ok; } FLAC__bool flac__foreign_metadata_write_to_iff(foreign_metadata_t *fm, const char *infilename, const char *outfilename, FLAC__off_t offset1, FLAC__off_t offset2, FLAC__off_t offset3, const char **error) { FLAC__bool ok; FILE *fin, *fout; if(0 == (fin = flac_fopen(infilename, "rb"))) { if(error) *error = "can't open FLAC file for reading (000)"; return false; } if(0 == (fout = flac_fopen(outfilename, "r+b"))) { if(error) *error = "can't open WAVE/AIFF file for updating (001)"; fclose(fin); return false; } ok = write_to_iff_(fm, fin, fout, offset1, offset2, offset3, error); fclose(fin); fclose(fout); return ok; }