/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2005 Dave Chapman * * 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 software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include #include #include #include "string-extra.h" #include "debug.h" #include "logf.h" #include "settings.h" #include "cuesheet.h" #include "metadata.h" #include "metadata/metadata_parsers.h" #if CONFIG_CODEC == SWCODEC /* For trailing tag stripping and base audio data types */ #include "buffering.h" #include "metadata/metadata_common.h" static bool get_shn_metadata(int fd, struct mp3entry *id3) { /* TODO: read the id3v2 header if it exists */ id3->vbr = true; id3->filesize = filesize(fd); return skip_id3v2(fd, id3); } static bool get_other_asap_metadata(int fd, struct mp3entry *id3) { id3->bitrate = 706; id3->frequency = 44100; id3->vbr = false; id3->filesize = filesize(fd); id3->genre_string = id3_get_num_genre(36); return true; } #endif /* CONFIG_CODEC == SWCODEC */ bool write_metadata_log = false; const struct afmt_entry audio_formats[AFMT_NUM_CODECS] = { /* Unknown file format */ [AFMT_UNKNOWN] = AFMT_ENTRY("???", NULL, NULL, NULL, NULL ), /* MPEG Audio layer 2 */ [AFMT_MPA_L2] = AFMT_ENTRY("MP2", "mpa", NULL, get_mp3_metadata, "mpa\0mp2\0"), #if CONFIG_CODEC != SWCODEC /* MPEG Audio layer 3 on HWCODEC: .talk clips, no encoder */ [AFMT_MPA_L3] = AFMT_ENTRY("MP3", "mpa", NULL, get_mp3_metadata, "mp3\0talk\0"), #else /* CONFIG_CODEC == SWCODEC */ /* MPEG Audio layer 3 on SWCODEC */ [AFMT_MPA_L3] = AFMT_ENTRY("MP3", "mpa", "mp3_enc", get_mp3_metadata, "mp3\0"), /* MPEG Audio layer 1 */ [AFMT_MPA_L1] = AFMT_ENTRY("MP1", "mpa", NULL, get_mp3_metadata, "mp1\0"), /* Audio Interchange File Format */ [AFMT_AIFF] = AFMT_ENTRY("AIFF", "aiff", "aiff_enc", get_aiff_metadata, "aiff\0aif\0"), /* Uncompressed PCM in a WAV file OR ATRAC3 stream in WAV file (.at3) */ [AFMT_PCM_WAV] = AFMT_ENTRY("WAV", "wav", "wav_enc", get_wave_metadata, "wav\0at3\0"), /* Ogg Vorbis */ [AFMT_OGG_VORBIS] = AFMT_ENTRY("Ogg", "vorbis", NULL, get_ogg_metadata, "ogg\0oga\0"), /* FLAC */ [AFMT_FLAC] = AFMT_ENTRY("FLAC", "flac", NULL, get_flac_metadata, "flac\0"), /* Musepack SV7 */ [AFMT_MPC_SV7] = AFMT_ENTRY("MPCv7", "mpc", NULL, get_musepack_metadata,"mpc\0"), /* A/52 (aka AC3) audio */ [AFMT_A52] = AFMT_ENTRY("AC3", "a52", NULL, get_a52_metadata, "a52\0ac3\0"), /* WavPack */ [AFMT_WAVPACK] = AFMT_ENTRY("WV","wavpack","wavpack_enc",get_wavpack_metadata,"wv\0"), /* Apple Lossless Audio Codec */ [AFMT_MP4_ALAC] = AFMT_ENTRY("ALAC", "alac", NULL, get_mp4_metadata, "m4a\0m4b\0"), /* Advanced Audio Coding in M4A container */ [AFMT_MP4_AAC] = AFMT_ENTRY("AAC", "aac", NULL, get_mp4_metadata, "mp4\0"), /* Shorten */ [AFMT_SHN] = AFMT_ENTRY("SHN","shorten", NULL, get_shn_metadata, "shn\0"), /* SID File Format */ [AFMT_SID] = AFMT_ENTRY("SID", "sid", NULL, get_sid_metadata, "sid\0"), /* ADX File Format */ [AFMT_ADX] = AFMT_ENTRY("ADX", "adx", NULL, get_adx_metadata, "adx\0"), /* NESM (NES Sound Format) */ [AFMT_NSF] = AFMT_ENTRY("NSF", "nsf", NULL, get_nsf_metadata, "nsf\0nsfe\0"), /* Speex File Format */ [AFMT_SPEEX] = AFMT_ENTRY("Speex", "speex",NULL, get_ogg_metadata, "spx\0"), /* SPC700 Save State */ [AFMT_SPC] = AFMT_ENTRY("SPC", "spc", NULL, get_spc_metadata, "spc\0"), /* APE (Monkey's Audio) */ [AFMT_APE] = AFMT_ENTRY("APE", "ape", NULL, get_monkeys_metadata,"ape\0mac\0"), /* WMA (WMAV1/V2 in ASF) */ [AFMT_WMA] = AFMT_ENTRY("WMA", "wma", NULL, get_asf_metadata,"wma\0wmv\0asf\0"), /* WMA Professional in ASF */ [AFMT_WMAPRO] = AFMT_ENTRY("WMAPro","wmapro",NULL, NULL, "wma\0wmv\0asf\0"), /* Amiga MOD File */ [AFMT_MOD] = AFMT_ENTRY("MOD", "mod", NULL, get_mod_metadata, "mod\0"), /* Atari SAP File */ [AFMT_SAP] = AFMT_ENTRY("SAP", "asap", NULL, get_asap_metadata, "sap\0"), /* Cook in RM/RA */ [AFMT_RM_COOK] = AFMT_ENTRY("Cook", "cook", NULL, get_rm_metadata,"rm\0ra\0rmvb\0"), /* AAC in RM/RA */ [AFMT_RM_AAC] = AFMT_ENTRY("RAAC", "raac", NULL, NULL, "rm\0ra\0rmvb\0"), /* AC3 in RM/RA */ [AFMT_RM_AC3] = AFMT_ENTRY("AC3", "a52_rm", NULL, NULL, "rm\0ra\0rmvb\0"), /* ATRAC3 in RM/RA */ [AFMT_RM_ATRAC3] = AFMT_ENTRY("ATRAC3","atrac3_rm",NULL, NULL, "rm\0ra\0rmvb\0"), /* Atari CMC File */ [AFMT_CMC] = AFMT_ENTRY("CMC", "asap", NULL, get_other_asap_metadata,"cmc\0"), /* Atari CM3 File */ [AFMT_CM3] = AFMT_ENTRY("CM3", "asap", NULL, get_other_asap_metadata,"cm3\0"), /* Atari CMR File */ [AFMT_CMR] = AFMT_ENTRY("CMR", "asap", NULL, get_other_asap_metadata,"cmr\0"), /* Atari CMS File */ [AFMT_CMS] = AFMT_ENTRY("CMS", "asap", NULL, get_other_asap_metadata,"cms\0"), /* Atari DMC File */ [AFMT_DMC] = AFMT_ENTRY("DMC", "asap", NULL, get_other_asap_metadata,"dmc\0"), /* Atari DLT File */ [AFMT_DLT] = AFMT_ENTRY("DLT", "asap", NULL, get_other_asap_metadata,"dlt\0"), /* Atari MPT File */ [AFMT_MPT] = AFMT_ENTRY("MPT", "asap", NULL, get_other_asap_metadata,"mpt\0"), /* Atari MPD File */ [AFMT_MPD] = AFMT_ENTRY("MPD", "asap", NULL, get_other_asap_metadata,"mpd\0"), /* Atari RMT File */ [AFMT_RMT] = AFMT_ENTRY("RMT", "asap", NULL, get_other_asap_metadata,"rmt\0"), /* Atari TMC File */ [AFMT_TMC] = AFMT_ENTRY("TMC", "asap", NULL, get_other_asap_metadata,"tmc\0"), /* Atari TM8 File */ [AFMT_TM8] = AFMT_ENTRY("TM8", "asap", NULL, get_other_asap_metadata,"tm8\0"), /* Atari TM2 File */ [AFMT_TM2] = AFMT_ENTRY("TM2", "asap", NULL, get_other_asap_metadata,"tm2\0"), /* Atrac3 in Sony OMA Container */ [AFMT_OMA_ATRAC3] = AFMT_ENTRY("ATRAC3","atrac3_oma",NULL, get_oma_metadata, "oma\0aa3\0"), /* SMAF (Synthetic music Mobile Application Format) */ [AFMT_SMAF] = AFMT_ENTRY("SMAF", "smaf", NULL, get_smaf_metadata, "mmf\0"), /* Sun Audio file */ [AFMT_AU] = AFMT_ENTRY("AU", "au", NULL, get_au_metadata, "au\0snd\0"), /* VOX (Dialogic telephony file formats) */ [AFMT_VOX] = AFMT_ENTRY("VOX", "vox", NULL, get_vox_metadata, "vox\0"), /* Wave64 */ [AFMT_WAVE64] = AFMT_ENTRY("WAVE64","wav64",NULL, get_wave64_metadata,"w64\0"), /* True Audio */ [AFMT_TTA] = AFMT_ENTRY("TTA", "tta", NULL, get_tta_metadata, "tta\0"), /* WMA Voice in ASF */ [AFMT_WMAVOICE] = AFMT_ENTRY("WMAVoice","wmavoice",NULL, NULL, "wma\0wmv\0"), /* Musepack SV8 */ [AFMT_MPC_SV8] = AFMT_ENTRY("MPCv8", "mpc", NULL, get_musepack_metadata,"mpc\0"), /* Advanced Audio Coding High Efficiency in M4A container */ [AFMT_MP4_AAC_HE] = AFMT_ENTRY("AAC-HE","aac", NULL, get_mp4_metadata, "mp4\0"), #endif }; #if CONFIG_CODEC == SWCODEC && defined (HAVE_RECORDING) /* get REC_FORMAT_* corresponding AFMT_* */ const int rec_format_afmt[REC_NUM_FORMATS] = { /* give AFMT_UNKNOWN by default */ [0 ... REC_NUM_FORMATS-1] = AFMT_UNKNOWN, /* add new entries below this line */ [REC_FORMAT_AIFF] = AFMT_AIFF, [REC_FORMAT_MPA_L3] = AFMT_MPA_L3, [REC_FORMAT_WAVPACK] = AFMT_WAVPACK, [REC_FORMAT_PCM_WAV] = AFMT_PCM_WAV, }; /* get AFMT_* corresponding REC_FORMAT_* */ const int afmt_rec_format[AFMT_NUM_CODECS] = { /* give -1 by default */ [0 ... AFMT_NUM_CODECS-1] = -1, /* add new entries below this line */ [AFMT_AIFF] = REC_FORMAT_AIFF, [AFMT_MPA_L3] = REC_FORMAT_MPA_L3, [AFMT_WAVPACK] = REC_FORMAT_WAVPACK, [AFMT_PCM_WAV] = REC_FORMAT_PCM_WAV, }; #endif /* CONFIG_CODEC == SWCODEC && defined (HAVE_RECORDING) */ #if CONFIG_CODEC == SWCODEC /* Get the canonical AFMT type */ int get_audio_base_codec_type(int type) { int base_type = type; switch (type) { case AFMT_MPA_L1: case AFMT_MPA_L2: case AFMT_MPA_L3: base_type = AFMT_MPA_L3; break; case AFMT_MPC_SV7: case AFMT_MPC_SV8: base_type = AFMT_MPC_SV7; break; case AFMT_MP4_AAC: case AFMT_MP4_AAC_HE: base_type = AFMT_MP4_AAC; break; case AFMT_SAP: case AFMT_CMC: case AFMT_CM3: case AFMT_CMR: case AFMT_CMS: case AFMT_DMC: case AFMT_DLT: case AFMT_MPT: case AFMT_MPD: case AFMT_RMT: case AFMT_TMC: case AFMT_TM8: case AFMT_TM2: base_type = AFMT_SAP; break; default: break; } return base_type; } /* Get the basic audio type */ enum data_type get_audio_base_data_type(int afmt) { if ((unsigned)afmt >= AFMT_NUM_CODECS) return TYPE_UNKNOWN; switch (get_audio_base_codec_type(afmt)) { case AFMT_NSF: case AFMT_SPC: case AFMT_SID: case AFMT_MOD: case AFMT_SAP: /* Type must be allocated and loaded in its entirety onto the buffer */ return TYPE_ATOMIC_AUDIO; default: /* Assume type may be loaded and discarded incrementally */ return TYPE_PACKET_AUDIO; case AFMT_UNKNOWN: /* Have no idea at all */ return TYPE_UNKNOWN; } } /* Is the format allowed to buffer starting at some offset other than 0 or first frame only for resume purposes? */ bool format_buffers_with_offset(int afmt) { switch (afmt) { case AFMT_MPA_L1: case AFMT_MPA_L2: case AFMT_MPA_L3: case AFMT_WAVPACK: /* Format may be loaded at the first needed frame */ return true; default: /* Format must be loaded from the beginning of the file (does not imply 'atomic', while 'atomic' implies 'no offset') */ return false; } } #endif /* CONFIG_CODEC == SWCODEC */ /* Simple file type probing by looking at the filename extension. */ unsigned int probe_file_format(const char *filename) { char *suffix; unsigned int i; suffix = strrchr(filename, '.'); if (suffix == NULL) { return AFMT_UNKNOWN; } /* skip '.' */ suffix++; for (i = 1; i < AFMT_NUM_CODECS; i++) { /* search extension list for type */ const char *ext = audio_formats[i].ext_list; do { if (strcasecmp(suffix, ext) == 0) { return i; } ext += strlen(ext) + 1; } while (*ext != '\0'); } return AFMT_UNKNOWN; } /* Note, that this returns false for successful, true for error! */ bool mp3info(struct mp3entry *entry, const char *filename) { int fd; bool result; fd = open(filename, O_RDONLY); if (fd < 0) return true; result = !get_metadata(entry, fd, filename); close(fd); return result; } /* Get metadata for track - return false if parsing showed problems with the * file that would prevent playback. */ bool get_metadata(struct mp3entry* id3, int fd, const char* trackname) { const struct afmt_entry *entry; int logfd = 0; DEBUGF("Read metadata for %s\n", trackname); if (write_metadata_log) { logfd = open("/metadata.log", O_WRONLY | O_APPEND | O_CREAT, 0666); if (logfd >= 0) { write(logfd, trackname, strlen(trackname)); write(logfd, "\n", 1); close(logfd); } } /* Clear the mp3entry to avoid having bogus pointers appear */ wipe_mp3entry(id3); /* Take our best guess at the codec type based on file extension */ id3->codectype = probe_file_format(trackname); entry = &audio_formats[id3->codectype]; /* Load codec specific track tag information and confirm the codec type. */ if (!entry->parse_func) { DEBUGF("nothing to parse for %s (format %s)", trackname, entry->label); return false; } if (!entry->parse_func(fd, id3)) { DEBUGF("parsing %s failed (format: %s)", trackname, entry->label); return false; } lseek(fd, 0, SEEK_SET); strlcpy(id3->path, trackname, sizeof(id3->path)); /* We have successfully read the metadata from the file */ return true; } #ifndef __PCTOOL__ #if CONFIG_CODEC == SWCODEC void strip_tags(int handle_id) { static const unsigned char tag[] = "TAG"; static const unsigned char apetag[] = "APETAGEX"; size_t len, version; void *tail; if (bufgettail(handle_id, 128, &tail) != 128) return; if (memcmp(tail, tag, 3) == 0) { /* Skip id3v1 tag */ logf("Cutting off ID3v1 tag"); bufcuttail(handle_id, 128); } /* Get a new tail, as the old one may have been cut */ if (bufgettail(handle_id, 32, &tail) != 32) return; /* Check for APE tag (look for the APE tag footer) */ if (memcmp(tail, apetag, 8) != 0) return; /* Read the version and length from the footer */ version = get_long_le(&((unsigned char *)tail)[8]); len = get_long_le(&((unsigned char *)tail)[12]); if (version == 2000) len += 32; /* APEv2 has a 32 byte header */ /* Skip APE tag */ logf("Cutting off APE tag (%ldB)", len); bufcuttail(handle_id, len); } #endif /* CONFIG_CODEC == SWCODEC */ #endif /* ! __PCTOOL__ */ #define MOVE_ENTRY(x) if (x) x += offset; void adjust_mp3entry(struct mp3entry *entry, void *dest, const void *orig) { long offset; if (orig > dest) offset = -((size_t)orig - (size_t)dest); else offset = ((size_t)dest - (size_t)orig); MOVE_ENTRY(entry->title) MOVE_ENTRY(entry->artist) MOVE_ENTRY(entry->album) if (entry->genre_string > (char*)orig && entry->genre_string < (char*)orig + sizeof(struct mp3entry)) /* Don't adjust that if it points to an entry of the "genres" array */ entry->genre_string += offset; MOVE_ENTRY(entry->track_string) MOVE_ENTRY(entry->disc_string) MOVE_ENTRY(entry->year_string) MOVE_ENTRY(entry->composer) MOVE_ENTRY(entry->comment) MOVE_ENTRY(entry->albumartist) MOVE_ENTRY(entry->grouping) MOVE_ENTRY(entry->mb_track_id) } void copy_mp3entry(struct mp3entry *dest, const struct mp3entry *orig) { memcpy(dest, orig, sizeof(struct mp3entry)); adjust_mp3entry(dest, dest, orig); } /* A shortcut to simplify the common task of clearing the struct */ void wipe_mp3entry(struct mp3entry *id3) { memset(id3, 0, sizeof (struct mp3entry)); } #if CONFIG_CODEC == SWCODEC /* Glean what is possible from the filename alone - does not parse metadata */ void fill_metadata_from_path(struct mp3entry *id3, const char *trackname) { char *p; /* Clear the mp3entry to avoid having bogus pointers appear */ wipe_mp3entry(id3); /* Find the filename portion of the path */ p = strrchr(trackname, '/'); strlcpy(id3->id3v2buf, p ? ++p : id3->path, ID3V2_BUF_SIZE); /* Get the format from the extension and trim it off */ p = strrchr(id3->id3v2buf, '.'); if (p) { /* Might be wrong for container formats - should we bother? */ id3->codectype = probe_file_format(p); if (id3->codectype != AFMT_UNKNOWN) *p = '\0'; } /* Set the filename as the title */ id3->title = id3->id3v2buf; /* Copy the path info */ strlcpy(id3->path, trackname, sizeof (id3->path)); } #endif /* CONFIG_CODEC == SWCODEC */ #ifndef __PCTOOL__ #ifdef HAVE_TAGCACHE #if CONFIG_CODEC == SWCODEC enum { AUTORESUMABLE_UNKNOWN = 0, AUTORESUMABLE_TRUE, AUTORESUMABLE_FALSE }; bool autoresumable(struct mp3entry *id3) { char *endp, *path; size_t len; bool is_resumable; if (id3->autoresumable) /* result cached? */ return id3->autoresumable == AUTORESUMABLE_TRUE; is_resumable = false; if (id3->path) { for (path = global_settings.autoresume_paths; *path; /* search terms left? */ path++) { if (*path == ':') /* Skip empty search patterns */ continue; /* FIXME: As soon as strcspn or strchrnul are made available in the core, the following can be made more efficient. */ endp = strchr(path, ':'); if (endp) len = endp - path; else len = strlen(path); /* Note: At this point, len is always > 0 */ if (strncasecmp(id3->path, path, len) == 0) { /* Full directory-name matches only. Trailing '/' in search path OK. */ if (id3->path[len] == '/' || id3->path[len - 1] == '/') { is_resumable = true; break; } } path += len - 1; } } /* cache result */ id3->autoresumable = is_resumable ? AUTORESUMABLE_TRUE : AUTORESUMABLE_FALSE; logf("autoresumable: %s is%s resumable", id3->path, is_resumable ? "" : " not"); return is_resumable; } #endif /* SWCODEC */ #endif /* HAVE_TAGCACHE */ #endif /* __PCTOOL__ */