/* * ALAC (Apple Lossless Audio Codec) decoder * Copyright (c) 2005 David Hammerton * All rights reserved. * * This is the quicktime container demuxer. * * http://crazney.net/programs/itunes/alac.html * * Permission is hereby granted, free of charge, to any person * obtaining a copy of this software and associated documentation * files (the "Software"), to deal in the Software without * restriction, including without limitation the rights to use, * copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT * HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. * */ #include #include #include #include "../codec.h" #include "m4a.h" #if defined(DEBUG) || defined(SIMULATOR) #define DEBUGF qtmovie->stream->ci->debugf #else #define DEBUGF(...) #endif typedef struct { stream_t *stream; demux_res_t *res; } qtmovie_t; /* chunk handlers */ static void read_chunk_ftyp(qtmovie_t *qtmovie, size_t chunk_len) { fourcc_t type; uint32_t minor_ver; size_t size_remaining = chunk_len - 8; type = stream_read_uint32(qtmovie->stream); size_remaining-=4; if ((type != MAKEFOURCC('M','4','A',' ')) && (type != MAKEFOURCC('M','4','B',' ')) && (type != MAKEFOURCC('m','p','4','2')) && (type != MAKEFOURCC('3','g','p','6')) && (type != MAKEFOURCC('q','t',' ',' '))) { DEBUGF("not M4A file\n"); return; } minor_ver = stream_read_uint32(qtmovie->stream); size_remaining-=4; /* compatible brands */ while (size_remaining) { /* unused */ /*fourcc_t cbrand =*/ stream_read_uint32(qtmovie->stream); size_remaining-=4; } } uint32_t mp4ff_read_mp4_descr_length(stream_t* stream) { uint8_t b; uint8_t numBytes = 0; uint32_t length = 0; do { b = stream_read_uint8(stream); numBytes++; length = (length << 7) | (b & 0x7F); } while ((b & 0x80) && numBytes < 4); return length; } /* The following function is based on mp4ff */ static bool read_chunk_esds(qtmovie_t *qtmovie, size_t chunk_len) { uint8_t tag; uint32_t temp; int audioType; int32_t maxBitrate; int32_t avgBitrate; (void)chunk_len; /* version and flags */ temp=stream_read_uint32(qtmovie->stream); /* get and verify ES_DescrTag */ tag = stream_read_uint8(qtmovie->stream); if (tag == 0x03) { /* read length */ if (mp4ff_read_mp4_descr_length(qtmovie->stream) < 5 + 15) { return false; } /* skip 3 bytes */ stream_skip(qtmovie->stream,3); } else { /* skip 2 bytes */ stream_skip(qtmovie->stream,2); } /* get and verify DecoderConfigDescrTab */ if (stream_read_uint8(qtmovie->stream) != 0x04) { return false; } /* read length */ temp = mp4ff_read_mp4_descr_length(qtmovie->stream); if (temp < 13) return false; audioType = stream_read_uint8(qtmovie->stream); temp=stream_read_int32(qtmovie->stream);//0x15000414 ???? maxBitrate = stream_read_int32(qtmovie->stream); avgBitrate = stream_read_int32(qtmovie->stream); DEBUGF("audioType=%d, maxBitrate=%ld, avgBitrate=%ld\n",audioType, (long)maxBitrate,(long)avgBitrate); /* get and verify DecSpecificInfoTag */ if (stream_read_uint8(qtmovie->stream) != 0x05) { return false; } /* read length */ qtmovie->res->codecdata_len = mp4ff_read_mp4_descr_length(qtmovie->stream); if (qtmovie->res->codecdata_len > MAX_CODECDATA_SIZE) { DEBUGF("codecdata too large (%d) in esds\n", (int)qtmovie->res->codecdata_len); return false; } stream_read(qtmovie->stream, qtmovie->res->codecdata_len, qtmovie->res->codecdata); /* will skip the remainder of the atom */ return true; } static bool read_chunk_stsd(qtmovie_t *qtmovie, size_t chunk_len) { unsigned int i; int j; uint32_t numentries; size_t size_remaining = chunk_len - 8; /* version */ stream_read_uint8(qtmovie->stream); size_remaining -= 1; /* flags */ stream_read_uint8(qtmovie->stream); stream_read_uint8(qtmovie->stream); stream_read_uint8(qtmovie->stream); size_remaining -= 3; numentries = stream_read_uint32(qtmovie->stream); size_remaining -= 4; if (numentries != 1) { DEBUGF("only expecting one entry in sample description atom!\n"); return false; } for (i = 0; i < numentries; i++) { uint32_t entry_size; uint32_t entry_remaining; entry_size = stream_read_uint32(qtmovie->stream); qtmovie->res->format = stream_read_uint32(qtmovie->stream); DEBUGF("format: %c%c%c%c\n",SPLITFOURCC(qtmovie->res->format)); entry_remaining = entry_size; entry_remaining -= 8; /* sound info: */ /* reserved + data reference index + sound version + reserved */ stream_skip(qtmovie->stream, 6 + 2 + 2 + 6); entry_remaining -= 6 + 2 + 2 + 6; qtmovie->res->num_channels = stream_read_uint16(qtmovie->stream); qtmovie->res->sound_sample_size = stream_read_uint16(qtmovie->stream); entry_remaining -= 4; /* packet size */ stream_skip(qtmovie->stream, 2); qtmovie->res->sound_sample_rate = stream_read_uint32(qtmovie->stream); /* reserved size */ stream_skip(qtmovie->stream, 2); entry_remaining -= 8; /* remaining is codec data */ if ((qtmovie->res->format==MAKEFOURCC('a','l','a','c'))) { if (qtmovie->stream->ci->id3->codectype!=AFMT_ALAC) { return false; } /* 12 = audio format atom, 8 = padding */ qtmovie->res->codecdata_len = entry_remaining + 12 + 8; if (qtmovie->res->codecdata_len > MAX_CODECDATA_SIZE) { DEBUGF("codecdata too large (%d) in stsd\n", (int)qtmovie->res->codecdata_len); } memset(qtmovie->res->codecdata, 0, qtmovie->res->codecdata_len); /* audio format atom */ #if 0 /* The ALAC decoder skips these bytes, so there is no need to store them, and this code isn't endian/alignment safe */ ((unsigned int*)qtmovie->res->codecdata)[0] = 0x0c000000; ((unsigned int*)qtmovie->res->codecdata)[1] = MAKEFOURCC('a','m','r','f'); ((unsigned int*)qtmovie->res->codecdata)[2] = MAKEFOURCC('c','a','l','a'); #endif stream_read(qtmovie->stream, entry_remaining, ((char*)qtmovie->res->codecdata) + 12); entry_remaining -= entry_remaining; if (entry_remaining) stream_skip(qtmovie->stream, entry_remaining); } else if (qtmovie->res->format==MAKEFOURCC('m','p','4','a')) { if (qtmovie->stream->ci->id3->codectype!=AFMT_AAC) { return false; } size_t sub_chunk_len; fourcc_t sub_chunk_id; sub_chunk_len = stream_read_uint32(qtmovie->stream); if (sub_chunk_len <= 1 || sub_chunk_len > entry_remaining) { DEBUGF("strange size (%lu) for chunk inside mp4a\n", (unsigned long)sub_chunk_len); return false; } sub_chunk_id = stream_read_uint32(qtmovie->stream); if (sub_chunk_id != MAKEFOURCC('e','s','d','s')) { DEBUGF("Expected esds chunk inside mp4a, found %c%c%c%c\n",SPLITFOURCC(sub_chunk_id)); return false; } j=qtmovie->stream->ci->curpos+sub_chunk_len-8; if (read_chunk_esds(qtmovie,sub_chunk_len)) { if (j!=qtmovie->stream->ci->curpos) { DEBUGF("curpos=%ld, j=%d - Skipping %ld bytes\n",qtmovie->stream->ci->curpos,j,j-qtmovie->stream->ci->curpos); stream_skip(qtmovie->stream,j-qtmovie->stream->ci->curpos); } entry_remaining-=sub_chunk_len; } else { DEBUGF("Error reading esds\n"); return false; } DEBUGF("entry_remaining=%ld\n",(long)entry_remaining); stream_skip(qtmovie->stream,entry_remaining); } else { DEBUGF("expecting 'alac' or 'mp4a' data format, got %c%c%c%c\n", SPLITFOURCC(qtmovie->res->format)); return false; } } return true; } static bool read_chunk_stts(qtmovie_t *qtmovie, size_t chunk_len) { unsigned int i; uint32_t numentries; size_t size_remaining = chunk_len - 8; /* version */ stream_read_uint8(qtmovie->stream); size_remaining -= 1; /* flags */ stream_read_uint8(qtmovie->stream); stream_read_uint8(qtmovie->stream); stream_read_uint8(qtmovie->stream); size_remaining -= 3; numentries = stream_read_uint32(qtmovie->stream); size_remaining -= 4; qtmovie->res->num_time_to_samples = numentries; qtmovie->res->time_to_sample = malloc(numentries * sizeof(*qtmovie->res->time_to_sample)); if (!qtmovie->res->time_to_sample) { DEBUGF("stts too large\n"); return false; } for (i = 0; i < numentries; i++) { qtmovie->res->time_to_sample[i].sample_count = stream_read_uint32(qtmovie->stream); qtmovie->res->time_to_sample[i].sample_duration = stream_read_uint32(qtmovie->stream); size_remaining -= 8; } if (size_remaining) { DEBUGF("ehm, size remianing?\n"); stream_skip(qtmovie->stream, size_remaining); } return true; } static bool read_chunk_stsz(qtmovie_t *qtmovie, size_t chunk_len) { unsigned int i; uint32_t numentries; size_t size_remaining = chunk_len - 8; /* version */ stream_read_uint8(qtmovie->stream); size_remaining -= 1; /* flags */ stream_read_uint8(qtmovie->stream); stream_read_uint8(qtmovie->stream); stream_read_uint8(qtmovie->stream); size_remaining -= 3; /* default sample size */ if (stream_read_uint32(qtmovie->stream) != 0) { DEBUGF("i was expecting variable samples sizes\n"); stream_read_uint32(qtmovie->stream); size_remaining -= 4; return true; } size_remaining -= 4; numentries = stream_read_uint32(qtmovie->stream); size_remaining -= 4; qtmovie->res->num_sample_byte_sizes = numentries; qtmovie->res->sample_byte_size = malloc(numentries * sizeof(*qtmovie->res->sample_byte_size)); if (!qtmovie->res->sample_byte_size) { DEBUGF("stsz too large\n"); return false; } for (i = 0; i < numentries; i++) { uint32_t v = stream_read_uint32(qtmovie->stream); if (v > 0x0000ffff) { DEBUGF("stsz[%d] > 65 kB (%ld)\n", i, (long)v); return false; } qtmovie->res->sample_byte_size[i] = v; size_remaining -= 4; } if (size_remaining) { DEBUGF("ehm, size remianing?\n"); stream_skip(qtmovie->stream, size_remaining); } return true; } static bool read_chunk_stsc(qtmovie_t *qtmovie, size_t chunk_len) { unsigned int i; uint32_t numentries; size_t size_remaining = chunk_len - 8; /* version + flags */ stream_read_uint32(qtmovie->stream); size_remaining -= 4; numentries = stream_read_uint32(qtmovie->stream); size_remaining -= 4; qtmovie->res->num_sample_to_chunks = numentries; qtmovie->res->sample_to_chunk = malloc(numentries * sizeof(*qtmovie->res->sample_to_chunk)); if (!qtmovie->res->sample_to_chunk) { DEBUGF("stsc too large\n"); return false; } for (i = 0; i < numentries; i++) { qtmovie->res->sample_to_chunk[i].first_chunk = stream_read_uint32(qtmovie->stream); qtmovie->res->sample_to_chunk[i].num_samples = stream_read_uint32(qtmovie->stream); stream_read_uint32(qtmovie->stream); size_remaining -= 12; } if (size_remaining) { DEBUGF("ehm, size remianing?\n"); stream_skip(qtmovie->stream, size_remaining); } return true; } static bool read_chunk_stco(qtmovie_t *qtmovie, size_t chunk_len) { unsigned int i; uint32_t numentries; size_t size_remaining = chunk_len - 8; /* version + flags */ stream_read_uint32(qtmovie->stream); size_remaining -= 4; numentries = stream_read_uint32(qtmovie->stream); size_remaining -= 4; qtmovie->res->num_chunk_offsets = numentries; qtmovie->res->chunk_offset = malloc(numentries * sizeof(*qtmovie->res->chunk_offset)); if (!qtmovie->res->chunk_offset) { DEBUGF("stco too large\n"); return false; } for (i = 0; i < numentries; i++) { qtmovie->res->chunk_offset[i] = stream_read_uint32(qtmovie->stream); size_remaining -= 4; } if (size_remaining) { DEBUGF("ehm, size remianing?\n"); stream_skip(qtmovie->stream, size_remaining); } return true; } static bool read_chunk_stbl(qtmovie_t *qtmovie, size_t chunk_len) { size_t size_remaining = chunk_len - 8; while (size_remaining) { size_t sub_chunk_len; fourcc_t sub_chunk_id; sub_chunk_len = stream_read_uint32(qtmovie->stream); if (sub_chunk_len <= 1 || sub_chunk_len > size_remaining) { DEBUGF("strange size (%lu) for chunk inside stbl\n", (unsigned long)sub_chunk_len); return false; } sub_chunk_id = stream_read_uint32(qtmovie->stream); switch (sub_chunk_id) { case MAKEFOURCC('s','t','s','d'): if (!read_chunk_stsd(qtmovie, sub_chunk_len)) { return false; } break; case MAKEFOURCC('s','t','t','s'): if (!read_chunk_stts(qtmovie, sub_chunk_len)) { return false; } break; case MAKEFOURCC('s','t','s','z'): if (!read_chunk_stsz(qtmovie, sub_chunk_len)) { return false; } break; case MAKEFOURCC('s','t','s','c'): if (!read_chunk_stsc(qtmovie, sub_chunk_len)) { return false; } break; case MAKEFOURCC('s','t','c','o'): if (!read_chunk_stco(qtmovie, sub_chunk_len)) { return false; } break; default: /*DEBUGF("(stbl) unknown chunk id: %c%c%c%c\n", SPLITFOURCC(sub_chunk_id));*/ stream_skip(qtmovie->stream, sub_chunk_len - 8); } size_remaining -= sub_chunk_len; } return true; } static bool read_chunk_minf(qtmovie_t *qtmovie, size_t chunk_len) { size_t size_remaining = chunk_len - 8; uint32_t i; /* Check for smhd, only kind of minf we care about */ if ((i = stream_read_uint32(qtmovie->stream)) != 16) { DEBUGF("unexpected size in media info: %ld\n", (long)i); stream_skip(qtmovie->stream, size_remaining-4); return true; } if (stream_read_uint32(qtmovie->stream) != MAKEFOURCC('s','m','h','d')) { DEBUGF("not a sound header! can't handle this.\n"); return false; } /* now skip the rest of the atom */ stream_skip(qtmovie->stream, 16 - 8); size_remaining -= 16; while (size_remaining) { size_t sub_chunk_len; fourcc_t sub_chunk_id; sub_chunk_len = stream_read_uint32(qtmovie->stream); if (sub_chunk_len <= 1 || sub_chunk_len > size_remaining) { DEBUGF("strange size (%lu) for chunk inside minf\n", (unsigned long)sub_chunk_len); return false; } sub_chunk_id = stream_read_uint32(qtmovie->stream); switch (sub_chunk_id) { case MAKEFOURCC('s','t','b','l'): if (!read_chunk_stbl(qtmovie, sub_chunk_len)) { return false; } break; default: /*DEBUGF("(minf) unknown chunk id: %c%c%c%c\n", SPLITFOURCC(sub_chunk_id));*/ stream_skip(qtmovie->stream, sub_chunk_len - 8); break; } size_remaining -= sub_chunk_len; } return true; } static bool read_chunk_mdia(qtmovie_t *qtmovie, size_t chunk_len) { size_t size_remaining = chunk_len - 8; while (size_remaining) { size_t sub_chunk_len; fourcc_t sub_chunk_id; sub_chunk_len = stream_read_uint32(qtmovie->stream); if (sub_chunk_len <= 1 || sub_chunk_len > size_remaining) { DEBUGF("strange size (%lu) for chunk inside mdia\n", (unsigned long)sub_chunk_len); return false; } sub_chunk_id = stream_read_uint32(qtmovie->stream); switch (sub_chunk_id) { case MAKEFOURCC('m','i','n','f'): if (!read_chunk_minf(qtmovie, sub_chunk_len)) { return false; } break; default: /*DEBUGF("(mdia) unknown chunk id: %c%c%c%c\n", SPLITFOURCC(sub_chunk_id));*/ stream_skip(qtmovie->stream, sub_chunk_len - 8); break; } size_remaining -= sub_chunk_len; } return true; } /* 'trak' - a movie track - contains other atoms */ static bool read_chunk_trak(qtmovie_t *qtmovie, size_t chunk_len) { size_t size_remaining = chunk_len - 8; while (size_remaining) { size_t sub_chunk_len; fourcc_t sub_chunk_id; sub_chunk_len = stream_read_uint32(qtmovie->stream); if (sub_chunk_len <= 1 || sub_chunk_len > size_remaining) { DEBUGF("strange size (%lu) for chunk inside trak\n", (unsigned long)sub_chunk_len); return false; } sub_chunk_id = stream_read_uint32(qtmovie->stream); switch (sub_chunk_id) { case MAKEFOURCC('m','d','i','a'): if (!read_chunk_mdia(qtmovie, sub_chunk_len)) { return false; } break; default: /*DEBUGF("(trak) unknown chunk id: %c%c%c%c\n", SPLITFOURCC(sub_chunk_id));*/ stream_skip(qtmovie->stream, sub_chunk_len - 8); break; } size_remaining -= sub_chunk_len; } return true; } /* 'moov' movie atom - contains other atoms */ static bool read_chunk_moov(qtmovie_t *qtmovie, size_t chunk_len) { size_t size_remaining = chunk_len - 8; while (size_remaining) { size_t sub_chunk_len; fourcc_t sub_chunk_id; sub_chunk_len = stream_read_uint32(qtmovie->stream); if (sub_chunk_len <= 1 || sub_chunk_len > size_remaining) { DEBUGF("strange size (%lu) for chunk inside moov\n", (unsigned long)sub_chunk_len); return false; } sub_chunk_id = stream_read_uint32(qtmovie->stream); switch (sub_chunk_id) { case MAKEFOURCC('t','r','a','k'): if (!read_chunk_trak(qtmovie, sub_chunk_len)) { return false; } break; default: /*DEBUGF("(moov) unknown chunk id: %c%c%c%c\n", SPLITFOURCC(sub_chunk_id));*/ stream_skip(qtmovie->stream, sub_chunk_len - 8); break; } size_remaining -= sub_chunk_len; } return true; } static void read_chunk_mdat(qtmovie_t *qtmovie, size_t chunk_len) { size_t size_remaining = chunk_len - 8; qtmovie->res->mdat_len = size_remaining; } int qtmovie_read(stream_t *file, demux_res_t *demux_res) { qtmovie_t qtmovie; /* construct the stream */ qtmovie.stream = file; qtmovie.res = demux_res; /* read the chunks */ while (1) { size_t chunk_len; fourcc_t chunk_id; chunk_len = stream_read_uint32(qtmovie.stream); if (stream_eof(qtmovie.stream)) { return 0; } if (chunk_len == 1) { //DEBUGF("need 64bit support\n"); return 0; } chunk_id = stream_read_uint32(qtmovie.stream); //DEBUGF("Found a chunk %c%c%c%c, length=%d\n",SPLITFOURCC(chunk_id),chunk_len); switch (chunk_id) { case MAKEFOURCC('f','t','y','p'): read_chunk_ftyp(&qtmovie, chunk_len); break; case MAKEFOURCC('m','o','o','v'): if (!read_chunk_moov(&qtmovie, chunk_len)) { return 0; } break; /* once we hit mdat we stop reading and return. * this is on the assumption that there is no furhter interesting * stuff in the stream. if there is stuff will fail (:()). * But we need the read pointer to be at the mdat stuff * for the decoder. And we don't want to rely on fseek/ftell, * as they may not always be avilable */ case MAKEFOURCC('m','d','a','t'): read_chunk_mdat(&qtmovie, chunk_len); /* Keep track of start of stream in file - used for seeking */ qtmovie.res->mdat_offset=stream_tell(qtmovie.stream); /* There can be empty mdats before the real one. If so, skip them */ if (qtmovie.res->mdat_len > 0) { return 1; } break; /* these following atoms can be skipped !!!! */ case MAKEFOURCC('f','r','e','e'): stream_skip(qtmovie.stream, chunk_len - 8); break; default: //DEBUGF("(top) unknown chunk id: %c%c%c%c\n",SPLITFOURCC(chunk_id)); return 0; } } return 0; }