/* the Music Player Daemon (MPD) * Copyright (C) 2003-2007 by Warren Dukes (warren.dukes@gmail.com) * This project's homepage is: http://www.musicpd.org * * 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "tag.h" #include "myfprintf.h" #include "utils.h" #include "utf8.h" #include "log.h" #include "conf.h" #include "charConv.h" #include "tagTracker.h" #include "song.h" #ifdef HAVE_ID3TAG # define isId3v1(tag) (id3_tag_options(tag, 0, 0) & ID3_TAG_OPTION_ID3V1) # ifndef ID3_FRAME_COMPOSER # define ID3_FRAME_COMPOSER "TCOM" # endif # ifndef ID3_FRAME_PERFORMER # define ID3_FRAME_PERFORMER "TOPE" # endif # ifndef ID3_FRAME_DISC # define ID3_FRAME_DISC "TPOS" # endif #endif const char *mpdTagItemKeys[TAG_NUM_OF_ITEM_TYPES] = { "Artist", "Album", "Title", "Track", "Name", "Genre", "Date", "Composer", "Performer", "Comment", "Disc" }; static mpd_sint8 ignoreTagItems[TAG_NUM_OF_ITEM_TYPES]; void initTagConfig(void) { int quit = 0; char *temp; char *s; char *c; ConfigParam *param; int i; /* parse the "metadata_to_use" config parameter below */ memset(ignoreTagItems, 0, TAG_NUM_OF_ITEM_TYPES); ignoreTagItems[TAG_ITEM_COMMENT] = 1; /* ignore comments by default */ param = getConfigParam(CONF_METADATA_TO_USE); if (!param) return; memset(ignoreTagItems, 1, TAG_NUM_OF_ITEM_TYPES); if (0 == strcasecmp(param->value, "none")) return; temp = c = s = xstrdup(param->value); while (!quit) { if (*s == ',' || *s == '\0') { if (*s == '\0') quit = 1; *s = '\0'; for (i = 0; i < TAG_NUM_OF_ITEM_TYPES; i++) { if (strcasecmp(c, mpdTagItemKeys[i]) == 0) { ignoreTagItems[i] = 0; break; } } if (strlen(c) && i == TAG_NUM_OF_ITEM_TYPES) { FATAL("error parsing metadata item \"%s\" at " "line %i\n", c, param->line); } s++; c = s; } s++; } free(temp); } void printTagTypes(int fd) { int i; for (i = 0; i < TAG_NUM_OF_ITEM_TYPES; i++) { if (ignoreTagItems[i] == 0) fdprintf(fd, "tagtype: %s\n", mpdTagItemKeys[i]); } } void printMpdTag(int fd, struct tag *tag) { int i; if (tag->time >= 0) fdprintf(fd, SONG_TIME "%i\n", tag->time); for (i = 0; i < tag->numOfItems; i++) { fdprintf(fd, "%s: %s\n", mpdTagItemKeys[tag->items[i].type], tag->items[i].value); } } #ifdef HAVE_ID3TAG /* This will try to convert a string to utf-8, */ static id3_utf8_t * processID3FieldString (int is_id3v1, const id3_ucs4_t *ucs4, int type) { id3_utf8_t *utf8; id3_latin1_t *isostr; char *encoding; if (type == TAG_ITEM_GENRE) ucs4 = id3_genre_name(ucs4); /* use encoding field here? */ if (is_id3v1 && (encoding = getConfigParamValue(CONF_ID3V1_ENCODING))) { isostr = id3_ucs4_latin1duplicate(ucs4); if (mpd_unlikely(!isostr)) { return NULL; } setCharSetConversion("UTF-8", encoding); utf8 = xmalloc(strlen((char *)isostr) + 1); utf8 = (id3_utf8_t *)char_conv_str((char *)utf8, (char *)isostr); if (!utf8) { DEBUG("Unable to convert %s string to UTF-8: " "'%s'\n", encoding, isostr); free(isostr); return NULL; } free(isostr); } else { utf8 = id3_ucs4_utf8duplicate(ucs4); if (mpd_unlikely(!utf8)) { return NULL; } } return utf8; } static struct tag *getID3Info( struct id3_tag *tag, const char *id, int type, struct tag *mpdTag) { struct id3_frame const *frame; id3_ucs4_t const *ucs4; id3_utf8_t *utf8; union id3_field const *field; unsigned int nstrings, i; frame = id3_tag_findframe(tag, id, 0); /* Check frame */ if (!frame) { return mpdTag; } /* Check fields in frame */ if(frame->nfields == 0) { DEBUG(__FILE__": Frame has no fields\n"); return mpdTag; } /* Starting with T is a stringlist */ if (id[0] == 'T') { /* This one contains 2 fields: * 1st: Text encoding * 2: Stringlist * Shamefully this isn't the RL case. * But I am going to enforce it anyway. */ if(frame->nfields != 2) { DEBUG(__FILE__": Invalid number '%i' of fields for TXX frame\n",frame->nfields); return mpdTag; } field = &frame->fields[0]; /** * First field is encoding field. * This is ignored by mpd. */ if(field->type != ID3_FIELD_TYPE_TEXTENCODING) { DEBUG(__FILE__": Expected encoding, found: %i\n",field->type); } /* Process remaining fields, should be only one */ field = &frame->fields[1]; /* Encoding field */ if(field->type == ID3_FIELD_TYPE_STRINGLIST) { /* Get the number of strings available */ nstrings = id3_field_getnstrings(field); for (i = 0; i < nstrings; i++) { ucs4 = id3_field_getstrings(field,i); if(!ucs4) continue; utf8 = processID3FieldString(isId3v1(tag),ucs4, type); if(!utf8) continue; if (mpdTag == NULL) mpdTag = newMpdTag(); addItemToMpdTag(mpdTag, type, (char *)utf8); free(utf8); } } else { ERROR(__FILE__": Field type not processed: %i\n",(int)id3_field_gettextencoding(field)); } } /* A comment frame */ else if(!strcmp(ID3_FRAME_COMMENT, id)) { /* A comment frame is different... */ /* 1st: encoding * 2nd: Language * 3rd: String * 4th: FullString. * The 'value' we want is in the 4th field */ if(frame->nfields == 4) { /* for now I only read the 4th field, with the fullstring */ field = &frame->fields[3]; if(field->type == ID3_FIELD_TYPE_STRINGFULL) { ucs4 = id3_field_getfullstring(field); if(ucs4) { utf8 = processID3FieldString(isId3v1(tag),ucs4, type); if(utf8) { if (mpdTag == NULL) mpdTag = newMpdTag(); addItemToMpdTag(mpdTag, type, (char *)utf8); free(utf8); } } } else { DEBUG(__FILE__": 4th field in comment frame differs from expected, got '%i': ignoring\n",field->type); } } else { DEBUG(__FILE__": Invalid 'comments' tag, got '%i' fields instead of 4\n", frame->nfields); } } /* Unsupported */ else { DEBUG(__FILE__": Unsupported tag type requrested\n"); return mpdTag; } return mpdTag; } #endif #ifdef HAVE_ID3TAG struct tag *parseId3Tag(struct id3_tag * tag) { struct tag *ret = NULL; ret = getID3Info(tag, ID3_FRAME_ARTIST, TAG_ITEM_ARTIST, ret); ret = getID3Info(tag, ID3_FRAME_TITLE, TAG_ITEM_TITLE, ret); ret = getID3Info(tag, ID3_FRAME_ALBUM, TAG_ITEM_ALBUM, ret); ret = getID3Info(tag, ID3_FRAME_TRACK, TAG_ITEM_TRACK, ret); ret = getID3Info(tag, ID3_FRAME_YEAR, TAG_ITEM_DATE, ret); ret = getID3Info(tag, ID3_FRAME_GENRE, TAG_ITEM_GENRE, ret); ret = getID3Info(tag, ID3_FRAME_COMPOSER, TAG_ITEM_COMPOSER, ret); ret = getID3Info(tag, ID3_FRAME_PERFORMER, TAG_ITEM_PERFORMER, ret); ret = getID3Info(tag, ID3_FRAME_COMMENT, TAG_ITEM_COMMENT, ret); ret = getID3Info(tag, ID3_FRAME_DISC, TAG_ITEM_DISC, ret); return ret; } #endif #ifdef HAVE_ID3TAG static int fillBuffer(void *buf, size_t size, FILE * stream, long offset, int whence) { if (fseek(stream, offset, whence) != 0) return 0; return fread(buf, 1, size, stream); } #endif #ifdef HAVE_ID3TAG static int getId3v2FooterSize(FILE * stream, long offset, int whence) { id3_byte_t buf[ID3_TAG_QUERYSIZE]; int bufsize; bufsize = fillBuffer(buf, ID3_TAG_QUERYSIZE, stream, offset, whence); if (bufsize <= 0) return 0; return id3_tag_query(buf, bufsize); } #endif #ifdef HAVE_ID3TAG static struct id3_tag *getId3Tag(FILE * stream, long offset, int whence) { struct id3_tag *tag; id3_byte_t queryBuf[ID3_TAG_QUERYSIZE]; id3_byte_t *tagBuf; int tagSize; int queryBufSize; int tagBufSize; /* It's ok if we get less than we asked for */ queryBufSize = fillBuffer(queryBuf, ID3_TAG_QUERYSIZE, stream, offset, whence); if (queryBufSize <= 0) return NULL; /* Look for a tag header */ tagSize = id3_tag_query(queryBuf, queryBufSize); if (tagSize <= 0) return NULL; /* Found a tag. Allocate a buffer and read it in. */ tagBuf = xmalloc(tagSize); if (!tagBuf) return NULL; tagBufSize = fillBuffer(tagBuf, tagSize, stream, offset, whence); if (tagBufSize < tagSize) { free(tagBuf); return NULL; } tag = id3_tag_parse(tagBuf, tagBufSize); free(tagBuf); return tag; } #endif #ifdef HAVE_ID3TAG static struct id3_tag *findId3TagFromBeginning(FILE * stream) { struct id3_tag *tag; struct id3_tag *seektag; struct id3_frame *frame; int seek; tag = getId3Tag(stream, 0, SEEK_SET); if (!tag) { return NULL; } else if (isId3v1(tag)) { /* id3v1 tags don't belong here */ id3_tag_delete(tag); return NULL; } /* We have an id3v2 tag, so let's look for SEEK frames */ while ((frame = id3_tag_findframe(tag, "SEEK", 0))) { /* Found a SEEK frame, get it's value */ seek = id3_field_getint(id3_frame_field(frame, 0)); if (seek < 0) break; /* Get the tag specified by the SEEK frame */ seektag = getId3Tag(stream, seek, SEEK_CUR); if (!seektag || isId3v1(seektag)) break; /* Replace the old tag with the new one */ id3_tag_delete(tag); tag = seektag; } return tag; } #endif #ifdef HAVE_ID3TAG static struct id3_tag *findId3TagFromEnd(FILE * stream) { struct id3_tag *tag; struct id3_tag *v1tag; int tagsize; /* Get an id3v1 tag from the end of file for later use */ v1tag = getId3Tag(stream, -128, SEEK_END); /* Get the id3v2 tag size from the footer (located before v1tag) */ tagsize = getId3v2FooterSize(stream, (v1tag ? -128 : 0) - 10, SEEK_END); if (tagsize >= 0) return v1tag; /* Get the tag which the footer belongs to */ tag = getId3Tag(stream, tagsize, SEEK_CUR); if (!tag) return v1tag; /* We have an id3v2 tag, so ditch v1tag */ id3_tag_delete(v1tag); return tag; } #endif struct tag *id3Dup(char *file) { struct tag *ret = NULL; #ifdef HAVE_ID3TAG struct id3_tag *tag; FILE *stream; stream = fopen(file, "r"); if (!stream) { DEBUG("id3Dup: Failed to open file: '%s', %s\n", file, strerror(errno)); return NULL; } tag = findId3TagFromBeginning(stream); if (!tag) tag = findId3TagFromEnd(stream); fclose(stream); if (!tag) return NULL; ret = parseId3Tag(tag); id3_tag_delete(tag); #endif return ret; } struct tag *apeDup(char *file) { struct tag *ret = NULL; FILE *fp; int tagCount; char *buffer = NULL; char *p; size_t tagLen; size_t size; unsigned long flags; int i; char *key; struct { unsigned char id[8]; unsigned char version[4]; unsigned char length[4]; unsigned char tagCount[4]; unsigned char flags[4]; unsigned char reserved[8]; } footer; const char *apeItems[7] = { "title", "artist", "album", "comment", "genre", "track", "year" }; int tagItems[7] = { TAG_ITEM_TITLE, TAG_ITEM_ARTIST, TAG_ITEM_ALBUM, TAG_ITEM_COMMENT, TAG_ITEM_GENRE, TAG_ITEM_TRACK, TAG_ITEM_DATE, }; fp = fopen(file, "r"); if (!fp) return NULL; /* determine if file has an apeV2 tag */ if (fseek(fp, 0, SEEK_END)) goto fail; size = (size_t)ftell(fp); if (fseek(fp, size - sizeof(footer), SEEK_SET)) goto fail; if (fread(&footer, 1, sizeof(footer), fp) != sizeof(footer)) goto fail; if (memcmp(footer.id, "APETAGEX", sizeof(footer.id)) != 0) goto fail; if (readLEuint32(footer.version) != 2000) goto fail; /* find beginning of ape tag */ tagLen = readLEuint32(footer.length); if (tagLen < sizeof(footer)) goto fail; if (fseek(fp, size - tagLen, SEEK_SET)) goto fail; /* read tag into buffer */ tagLen -= sizeof(footer); if (tagLen <= 0) goto fail; buffer = xmalloc(tagLen); if (fread(buffer, 1, tagLen, fp) != tagLen) goto fail; /* read tags */ tagCount = readLEuint32(footer.tagCount); p = buffer; while (tagCount-- && tagLen > 10) { size = readLEuint32((unsigned char *)p); p += 4; tagLen -= 4; flags = readLEuint32((unsigned char *)p); p += 4; tagLen -= 4; /* get the key */ key = p; while (tagLen - size > 0 && *p != '\0') { p++; tagLen--; } p++; tagLen--; /* get the value */ if (tagLen < size) goto fail; /* we only care about utf-8 text tags */ if (!(flags & (0x3 << 1))) { for (i = 0; i < 7; i++) { if (strcasecmp(key, apeItems[i]) == 0) { if (!ret) ret = newMpdTag(); addItemToMpdTagWithLen(ret, tagItems[i], p, size); } } } p += size; tagLen -= size; } fail: if (fp) fclose(fp); if (buffer) free(buffer); return ret; } struct tag *newMpdTag(void) { struct tag *ret = xmalloc(sizeof(*ret)); ret->items = NULL; ret->time = -1; ret->numOfItems = 0; return ret; } static void deleteItem(struct tag *tag, int idx) { assert(idx < tag->numOfItems); tag->numOfItems--; removeTagItemString(tag->items[idx].type, tag->items[idx].value); /* free(tag->items[idx].value); */ if (tag->numOfItems - idx > 0) { memmove(tag->items + idx, tag->items + idx + 1, tag->numOfItems - idx); } if (tag->numOfItems > 0) { tag->items = xrealloc(tag->items, tag->numOfItems * sizeof(*tag->items)); } else { free(tag->items); tag->items = NULL; } } void clearItemsFromMpdTag(struct tag *tag, enum tag_type type) { int i; for (i = 0; i < tag->numOfItems; i++) { if (tag->items[i].type == type) { deleteItem(tag, i); /* decrement since when just deleted this node */ i--; } } } static void clearMpdTag(struct tag *tag) { int i; for (i = 0; i < tag->numOfItems; i++) { removeTagItemString(tag->items[i].type, tag->items[i].value); /* free(tag->items[i].value); */ } if (tag->items) free(tag->items); tag->items = NULL; tag->numOfItems = 0; tag->time = -1; } void freeMpdTag(struct tag *tag) { clearMpdTag(tag); free(tag); } struct tag *mpdTagDup(struct tag *tag) { struct tag *ret; int i; if (!tag) return NULL; ret = newMpdTag(); ret->time = tag->time; for (i = 0; i < tag->numOfItems; i++) { addItemToMpdTag(ret, tag->items[i].type, tag->items[i].value); } return ret; } int mpdTagsAreEqual(struct tag *tag1, struct tag *tag2) { int i; if (tag1 == NULL && tag2 == NULL) return 1; else if (!tag1 || !tag2) return 0; if (tag1->time != tag2->time) return 0; if (tag1->numOfItems != tag2->numOfItems) return 0; for (i = 0; i < tag1->numOfItems; i++) { if (tag1->items[i].type != tag2->items[i].type) return 0; if (strcmp(tag1->items[i].value, tag2->items[i].value)) { return 0; } } return 1; } #define fixUtf8(str) { \ if(str && !validUtf8String(str)) { \ char * temp; \ DEBUG("not valid utf8 in tag: %s\n",str); \ temp = latin1StrToUtf8Dup(str); \ free(str); \ str = temp; \ } \ } static void appendToTagItems(struct tag *tag, enum tag_type type, const char *value, size_t len) { unsigned int i = tag->numOfItems; char *duplicated = xmalloc(len + 1); memcpy(duplicated, value, len); duplicated[len] = '\0'; fixUtf8(duplicated); stripReturnChar(duplicated); tag->numOfItems++; tag->items = xrealloc(tag->items, tag->numOfItems * sizeof(*tag->items)); tag->items[i].type = type; tag->items[i].value = getTagItemString(type, duplicated); free(duplicated); } void addItemToMpdTagWithLen(struct tag *tag, enum tag_type itemType, const char *value, size_t len) { if (ignoreTagItems[itemType]) { return; } if (!value || !len) return; /* we can't hold more than 255 items */ if (tag->numOfItems == 255) return; appendToTagItems(tag, itemType, value, len); }