/* $NetBSD: gettext.c,v 1.25 2007/09/25 08:19:09 junyoung Exp $ */ /*- * Copyright (c) 2000, 2001 Citrus Project, * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * $Citrus: xpg4dl/FreeBSD/lib/libintl/gettext.c,v 1.31 2001/09/27 15:18:45 yamt Exp $ */ #include __RCSID("$NetBSD: gettext.c,v 1.25 2007/09/25 08:19:09 junyoung Exp $"); #include #include #include #include #include #include #include #include #include #include #if 0 #include #endif #include #include #include "libintl_local.h" #include "plural_parser.h" #include "pathnames.h" static const char *lookup_category(int); static const char *split_locale(const char *); static const char *lookup_mofile(char *, size_t, const char *, const char *, const char *, const char *, struct domainbinding *); static uint32_t flip(uint32_t, uint32_t); static int validate(void *, struct mohandle *); static int mapit(const char *, struct domainbinding *); static int unmapit(struct domainbinding *); static const char *lookup_hash(const char *, struct domainbinding *, size_t *); static const char *lookup_bsearch(const char *, struct domainbinding *, size_t *); static const char *lookup(const char *, struct domainbinding *, size_t *); static const char *get_lang_env(const char *); /* * shortcut functions. the main implementation resides in dcngettext(). */ char * gettext(const char *msgid) { return dcngettext(NULL, msgid, NULL, 1UL, LC_MESSAGES); } char * dgettext(const char *domainname, const char *msgid) { return dcngettext(domainname, msgid, NULL, 1UL, LC_MESSAGES); } char * dcgettext(const char *domainname, const char *msgid, int category) { return dcngettext(domainname, msgid, NULL, 1UL, category); } char * ngettext(const char *msgid1, const char *msgid2, unsigned long int n) { return dcngettext(NULL, msgid1, msgid2, n, LC_MESSAGES); } char * dngettext(const char *domainname, const char *msgid1, const char *msgid2, unsigned long int n) { return dcngettext(domainname, msgid1, msgid2, n, LC_MESSAGES); } /* * dcngettext() - * lookup internationalized message on database locale/category/domainname * (like ja_JP.eucJP/LC_MESSAGES/domainname). * if n equals to 1, internationalized message will be looked up for msgid1. * otherwise, message will be looked up for msgid2. * if the lookup fails, the function will return msgid1 or msgid2 as is. * * Even though the return type is "char *", caller should not rewrite the * region pointed to by the return value (should be "const char *", but can't * change it for compatibility with other implementations). * * by default (if domainname == NULL), domainname is taken from the value set * by textdomain(). usually name of the application (like "ls") is used as * domainname. category is usually LC_MESSAGES. * * the code reads in *.mo files generated by GNU gettext. *.mo is a host- * endian encoded file. both endians are supported here, as the files are in * /usr/share/locale! (or we should move those files into /usr/libdata) */ static const char * lookup_category(int category) { switch (category) { case LC_COLLATE: return "LC_COLLATE"; case LC_CTYPE: return "LC_CTYPE"; case LC_MONETARY: return "LC_MONETARY"; case LC_NUMERIC: return "LC_NUMERIC"; case LC_TIME: return "LC_TIME"; case LC_MESSAGES: return "LC_MESSAGES"; } return NULL; } /* * XPG syntax: language[_territory[.codeset]][@modifier] * XXX boundary check on "result" is lacking */ static const char * split_locale(const char *lname) { char buf[BUFSIZ], tmp[BUFSIZ]; char *l, *t, *c, *m; static char result[BUFSIZ]; memset(result, 0, sizeof(result)); if (strlen(lname) + 1 > sizeof(buf)) { fail: return lname; } strlcpy(buf, lname, sizeof(buf)); m = strrchr(buf, '@'); if (m) *m++ = '\0'; c = strrchr(buf, '.'); if (c) *c++ = '\0'; t = strrchr(buf, '_'); if (t) *t++ = '\0'; l = buf; if (strlen(l) == 0) goto fail; if (c && !t) goto fail; if (m) { if (t) { if (c) { snprintf(tmp, sizeof(tmp), "%s_%s.%s@%s", l, t, c, m); strlcat(result, tmp, sizeof(result)); strlcat(result, ":", sizeof(result)); } snprintf(tmp, sizeof(tmp), "%s_%s@%s", l, t, m); strlcat(result, tmp, sizeof(result)); strlcat(result, ":", sizeof(result)); } snprintf(tmp, sizeof(tmp), "%s@%s", l, m); strlcat(result, tmp, sizeof(result)); strlcat(result, ":", sizeof(result)); } if (t) { if (c) { snprintf(tmp, sizeof(tmp), "%s_%s.%s", l, t, c); strlcat(result, tmp, sizeof(result)); strlcat(result, ":", sizeof(result)); } snprintf(tmp, sizeof(tmp), "%s_%s", l, t); strlcat(result, tmp, sizeof(result)); strlcat(result, ":", sizeof(result)); } strlcat(result, l, sizeof(result)); return result; } static const char * lookup_mofile(char *buf, size_t len, const char *dir, const char *lpath, const char *category, const char *domainname, struct domainbinding *db) { struct stat st; char *p, *q; char lpath_tmp[BUFSIZ]; strlcpy(lpath_tmp, lpath, sizeof(lpath_tmp)); q = lpath_tmp; /* CONSTCOND */ while (1) { p = strsep(&q, ":"); if (!p) break; if (!*p) continue; /* don't mess with default locales */ if (strcmp(p, "C") == 0 || strcmp(p, "POSIX") == 0) return NULL; /* validate pathname */ if (strchr(p, '/') || strchr(category, '/')) continue; #if 1 /*?*/ if (strchr(domainname, '/')) continue; #endif snprintf(buf, len, "%s/%s/%s/%s.mo", dir, p, category, domainname); if (stat(buf, &st) < 0) continue; if ((st.st_mode & S_IFMT) != S_IFREG) continue; if (mapit(buf, db) == 0) return buf; } return NULL; } static uint32_t flip(uint32_t v, uint32_t magic) { if (magic == MO_MAGIC) return v; else if (magic == MO_MAGIC_SWAPPED) { v = ((v >> 24) & 0xff) | ((v >> 8) & 0xff00) | ((v << 8) & 0xff0000) | ((v << 24) & 0xff000000); return v; } else { abort(); /*NOTREACHED*/ } } static int validate(void *arg, struct mohandle *mohandle) { char *p; p = (char *)arg; if (p < (char *)mohandle->addr || p > (char *)mohandle->addr + mohandle->len) return 0; else return 1; } /* * calculate the step value if the hash value is conflicted. */ static __inline uint32_t calc_collision_step(uint32_t hashval, uint32_t hashsize) { _DIAGASSERT(hashsize>2); return (hashval % (hashsize - 2)) + 1; } /* * calculate the next index while conflicting. */ static __inline uint32_t calc_next_index(uint32_t curidx, uint32_t hashsize, uint32_t step) { return curidx+step - (curidx >= hashsize-step ? hashsize : 0); } static int get_sysdep_string_table(struct mosysdepstr_h **table_h, uint32_t *ofstable, uint32_t nstrings, uint32_t magic, char *base) { int i, j; int count; size_t l; struct mosysdepstr *table; for (i=0; isegs[count++].ref, magic) != MO_LASTSEG) ; /* get table */ l = sizeof(struct mosysdepstr_h) + sizeof(struct mosysdepsegentry_h) * (count-1); table_h[i] = (struct mosysdepstr_h *)malloc(l); if (!table_h[i]) return -1; memset(table_h[i], 0, l); table_h[i]->off = (const char *)(base + flip(table->off, magic)); for (j=0; jsegs[j].len = flip(table->segs[j].len, magic); table_h[i]->segs[j].ref = flip(table->segs[j].ref, magic); } /* LINTED: ignore the alignment problem. */ table = (struct mosysdepstr *)&table->segs[count]; } return 0; } static int expand_sysdep(struct mohandle *mohandle, struct mosysdepstr_h *str) { int i; const char *src; char *dst; /* check whether already expanded */ if (str->expanded) return 0; /* calc total length */ str->expanded_len = 1; for (i=0; /*CONSTCOND*/1; i++) { str->expanded_len += str->segs[i].len; if (str->segs[i].ref == MO_LASTSEG) break; str->expanded_len += mohandle->mo.mo_sysdep_segs[str->segs[i].ref].len; } /* expand */ str->expanded = malloc(str->expanded_len); if (!str->expanded) return -1; src = str->off; dst = str->expanded; for (i=0; /*CONSTCOND*/1; i++) { memcpy(dst, src, str->segs[i].len); src += str->segs[i].len; dst += str->segs[i].len; if (str->segs[i].ref == MO_LASTSEG) break; memcpy(dst, mohandle->mo.mo_sysdep_segs[str->segs[i].ref].str, mohandle->mo.mo_sysdep_segs[str->segs[i].ref].len); dst += mohandle->mo.mo_sysdep_segs[str->segs[i].ref].len; } *dst = '\0'; return 0; } static void insert_to_hash(uint32_t *htable, uint32_t hsize, const char *str, uint32_t ref) { uint32_t hashval, idx, step; hashval = __intl_string_hash(str); step = calc_collision_step(hashval, hsize); idx = hashval % hsize; while (htable[idx]) idx = calc_next_index(idx, hsize, step); htable[idx] = ref; } static int setup_sysdep_stuffs(struct mo *mo, struct mohandle *mohandle, char *base) { uint32_t magic; struct moentry *stable; size_t l; int i; char *v; uint32_t *ofstable; magic = mo->mo_magic; mohandle->mo.mo_sysdep_nsegs = flip(mo->mo_sysdep_nsegs, magic); mohandle->mo.mo_sysdep_nstring = flip(mo->mo_sysdep_nstring, magic); if (mohandle->mo.mo_sysdep_nstring == 0) return 0; /* check hash size */ if (mohandle->mo.mo_hsize <= 2 || mohandle->mo.mo_hsize < (mohandle->mo.mo_nstring + mohandle->mo.mo_sysdep_nstring)) return -1; /* get sysdep segments */ l = sizeof(struct mosysdepsegs_h) * mohandle->mo.mo_sysdep_nsegs; mohandle->mo.mo_sysdep_segs = (struct mosysdepsegs_h *)malloc(l); if (!mohandle->mo.mo_sysdep_segs) return -1; /* LINTED: ignore the alignment problem. */ stable = (struct moentry *)(base + flip(mo->mo_sysdep_segoff, magic)); for (i=0; imo.mo_sysdep_nsegs; i++) { v = base + flip(stable[i].off, magic); mohandle->mo.mo_sysdep_segs[i].str = __intl_sysdep_get_string_by_tag( v, &mohandle->mo.mo_sysdep_segs[i].len); } /* get sysdep string table */ mohandle->mo.mo_sysdep_otable = (struct mosysdepstr_h **)calloc(mohandle->mo.mo_sysdep_nstring, sizeof(struct mosysdepstr_h *)); if (!mohandle->mo.mo_sysdep_otable) return -1; /* LINTED: ignore the alignment problem. */ ofstable = (uint32_t *)(base + flip(mo->mo_sysdep_otable, magic)); if (get_sysdep_string_table(mohandle->mo.mo_sysdep_otable, ofstable, mohandle->mo.mo_sysdep_nstring, magic, base)) return -1; mohandle->mo.mo_sysdep_ttable = (struct mosysdepstr_h **)calloc(mohandle->mo.mo_sysdep_nstring, sizeof(struct mosysdepstr_h *)); if (!mohandle->mo.mo_sysdep_ttable) return -1; /* LINTED: ignore the alignment problem. */ ofstable = (uint32_t *)(base + flip(mo->mo_sysdep_ttable, magic)); if (get_sysdep_string_table(mohandle->mo.mo_sysdep_ttable, ofstable, mohandle->mo.mo_sysdep_nstring, magic, base)) return -1; /* update hash */ for (i=0; imo.mo_sysdep_nstring; i++) { if (expand_sysdep(mohandle, mohandle->mo.mo_sysdep_otable[i])) return -1; insert_to_hash(mohandle->mo.mo_htable, mohandle->mo.mo_hsize, mohandle->mo.mo_sysdep_otable[i]->expanded, (i+1) | MO_HASH_SYSDEP_MASK); } return 0; } int mapit(const char *path, struct domainbinding *db) { int fd; struct stat st; char *base; uint32_t magic, revision, flags = 0; struct moentry *otable, *ttable; const uint32_t *htable; struct moentry_h *p; struct mo *mo; size_t l, headerlen; int i; char *v; struct mohandle *mohandle = &db->mohandle; if (mohandle->addr && mohandle->addr != MAP_FAILED && mohandle->mo.mo_magic) return 0; /*already opened*/ unmapit(db); #if 0 if (secure_path(path) != 0) goto fail; #endif if (stat(path, &st) < 0) goto fail; if ((st.st_mode & S_IFMT) != S_IFREG || st.st_size > GETTEXT_MMAP_MAX) goto fail; fd = open(path, O_RDONLY); if (fd < 0) goto fail; if (read(fd, &magic, sizeof(magic)) != sizeof(magic) || (magic != MO_MAGIC && magic != MO_MAGIC_SWAPPED)) { close(fd); goto fail; } if (read(fd, &revision, sizeof(revision)) != sizeof(revision)) { close(fd); goto fail; } switch (flip(revision, magic)) { case MO_MAKE_REV(0, 0): break; case MO_MAKE_REV(0, 1): case MO_MAKE_REV(1, 1): flags |= MO_F_SYSDEP; break; default: close(fd); goto fail; } mohandle->addr = mmap(NULL, (size_t)st.st_size, PROT_READ, MAP_FILE | MAP_SHARED, fd, (off_t)0); if (!mohandle->addr || mohandle->addr == MAP_FAILED) { close(fd); goto fail; } close(fd); mohandle->len = (size_t)st.st_size; base = mohandle->addr; mo = (struct mo *)mohandle->addr; /* flip endian. do not flip magic number! */ mohandle->mo.mo_magic = mo->mo_magic; mohandle->mo.mo_revision = flip(mo->mo_revision, magic); mohandle->mo.mo_nstring = flip(mo->mo_nstring, magic); mohandle->mo.mo_hsize = flip(mo->mo_hsize, magic); mohandle->mo.mo_flags = flags; /* validate otable/ttable */ /* LINTED: ignore the alignment problem. */ otable = (struct moentry *)(base + flip(mo->mo_otable, magic)); /* LINTED: ignore the alignment problem. */ ttable = (struct moentry *)(base + flip(mo->mo_ttable, magic)); if (!validate(otable, mohandle) || !validate(&otable[mohandle->mo.mo_nstring], mohandle)) { unmapit(db); goto fail; } if (!validate(ttable, mohandle) || !validate(&ttable[mohandle->mo.mo_nstring], mohandle)) { unmapit(db); goto fail; } /* allocate [ot]table, and convert to normal pointer representation. */ l = sizeof(struct moentry_h) * mohandle->mo.mo_nstring; mohandle->mo.mo_otable = (struct moentry_h *)malloc(l); if (!mohandle->mo.mo_otable) { unmapit(db); goto fail; } mohandle->mo.mo_ttable = (struct moentry_h *)malloc(l); if (!mohandle->mo.mo_ttable) { unmapit(db); goto fail; } p = mohandle->mo.mo_otable; for (i = 0; i < mohandle->mo.mo_nstring; i++) { p[i].len = flip(otable[i].len, magic); p[i].off = base + flip(otable[i].off, magic); if (!validate(p[i].off, mohandle) || !validate(p[i].off + p[i].len + 1, mohandle)) { unmapit(db); goto fail; } } p = mohandle->mo.mo_ttable; for (i = 0; i < mohandle->mo.mo_nstring; i++) { p[i].len = flip(ttable[i].len, magic); p[i].off = base + flip(ttable[i].off, magic); if (!validate(p[i].off, mohandle) || !validate(p[i].off + p[i].len + 1, mohandle)) { unmapit(db); goto fail; } } /* allocate htable, and convert it to the host order. */ if (mohandle->mo.mo_hsize > 2) { l = sizeof(uint32_t) * mohandle->mo.mo_hsize; mohandle->mo.mo_htable = (uint32_t *)malloc(l); if (!mohandle->mo.mo_htable) { unmapit(db); goto fail; } /* LINTED: ignore the alignment problem. */ htable = (const uint32_t *)(base+flip(mo->mo_hoffset, magic)); for (i=0; i < mohandle->mo.mo_hsize; i++) { mohandle->mo.mo_htable[i] = flip(htable[i], magic); if (mohandle->mo.mo_htable[i] >= mohandle->mo.mo_nstring+1) { /* illegal string number. */ unmapit(db); goto fail; } } } /* grab MIME-header and charset field */ mohandle->mo.mo_header = lookup("", db, &headerlen); if (mohandle->mo.mo_header) v = strstr(mohandle->mo.mo_header, "charset="); else v = NULL; if (v) { mohandle->mo.mo_charset = strdup(v + 8); if (!mohandle->mo.mo_charset) goto fail; v = strchr(mohandle->mo.mo_charset, '\n'); if (v) *v = '\0'; } if (_gettext_parse_plural(&mohandle->mo.mo_plural, &mohandle->mo.mo_nplurals, mohandle->mo.mo_header, headerlen)) mohandle->mo.mo_plural = NULL; /* * XXX check charset, reject it if we are unable to support the charset * with the current locale. * for example, if we are using euc-jp locale and we are looking at * *.mo file encoded by euc-kr (charset=euc-kr), we should reject * the *.mo file as we cannot support it. */ /* system dependent string support */ if ((mohandle->mo.mo_flags & MO_F_SYSDEP) != 0) { if (setup_sysdep_stuffs(mo, mohandle, base)) { unmapit(db); goto fail; } } return 0; fail: return -1; } static void free_sysdep_table(struct mosysdepstr_h **table, uint32_t nstring) { uint32_t i; for (i=0; iexpanded) free(table[i]->expanded); free(table[i]); } } free(table); } static int unmapit(struct domainbinding *db) { struct mohandle *mohandle = &db->mohandle; /* unmap if there's already mapped region */ if (mohandle->addr && mohandle->addr != MAP_FAILED) munmap(mohandle->addr, mohandle->len); mohandle->addr = NULL; if (mohandle->mo.mo_otable) free(mohandle->mo.mo_otable); if (mohandle->mo.mo_ttable) free(mohandle->mo.mo_ttable); if (mohandle->mo.mo_charset) free(mohandle->mo.mo_charset); if (mohandle->mo.mo_htable) free(mohandle->mo.mo_htable); if (mohandle->mo.mo_sysdep_segs) free(mohandle->mo.mo_sysdep_segs); if (mohandle->mo.mo_sysdep_otable) { free_sysdep_table(mohandle->mo.mo_sysdep_otable, mohandle->mo.mo_sysdep_nstring); } if (mohandle->mo.mo_sysdep_ttable) { free_sysdep_table(mohandle->mo.mo_sysdep_ttable, mohandle->mo.mo_sysdep_nstring); } if (mohandle->mo.mo_plural) _gettext_free_plural(mohandle->mo.mo_plural); memset(&mohandle->mo, 0, sizeof(mohandle->mo)); return 0; } /* ARGSUSED */ static const char * lookup_hash(const char *msgid, struct domainbinding *db, size_t *rlen) { struct mohandle *mohandle = &db->mohandle; uint32_t idx, hashval, step, strno; size_t len; struct mosysdepstr_h *sysdep_otable, *sysdep_ttable; if (mohandle->mo.mo_hsize <= 2 || mohandle->mo.mo_htable == NULL) return NULL; hashval = __intl_string_hash(msgid); step = calc_collision_step(hashval, mohandle->mo.mo_hsize); idx = hashval % mohandle->mo.mo_hsize; len = strlen(msgid); while (/*CONSTCOND*/1) { strno = mohandle->mo.mo_htable[idx]; if (strno == 0) { /* unexpected miss */ return NULL; } strno--; if ((strno & MO_HASH_SYSDEP_MASK) == 0) { /* system independent strings */ if (len <= mohandle->mo.mo_otable[strno].len && !strcmp(msgid, mohandle->mo.mo_otable[strno].off)) { /* hit */ if (rlen) *rlen = mohandle->mo.mo_ttable[strno].len; return mohandle->mo.mo_ttable[strno].off; } } else { /* system dependent strings */ strno &= ~MO_HASH_SYSDEP_MASK; sysdep_otable = mohandle->mo.mo_sysdep_otable[strno]; sysdep_ttable = mohandle->mo.mo_sysdep_ttable[strno]; if (len <= sysdep_otable->expanded_len && !strcmp(msgid, sysdep_otable->expanded)) { /* hit */ if (expand_sysdep(mohandle, sysdep_ttable)) /* memory exhausted */ return NULL; if (rlen) *rlen = sysdep_ttable->expanded_len; return sysdep_ttable->expanded; } } idx = calc_next_index(idx, mohandle->mo.mo_hsize, step); } /*NOTREACHED*/ } static const char * lookup_bsearch(const char *msgid, struct domainbinding *db, size_t *rlen) { int top, bottom, middle, omiddle; int n; struct mohandle *mohandle = &db->mohandle; top = 0; bottom = mohandle->mo.mo_nstring; omiddle = -1; /* CONSTCOND */ while (1) { if (top > bottom) break; middle = (top + bottom) / 2; /* avoid possible infinite loop, when the data is not sorted */ if (omiddle == middle) break; if (middle < 0 || middle >= mohandle->mo.mo_nstring) break; n = strcmp(msgid, mohandle->mo.mo_otable[middle].off); if (n == 0) { if (rlen) *rlen = mohandle->mo.mo_ttable[middle].len; return (const char *)mohandle->mo.mo_ttable[middle].off; } else if (n < 0) bottom = middle; else top = middle; omiddle = middle; } return NULL; } static const char * lookup(const char *msgid, struct domainbinding *db, size_t *rlen) { const char *v; v = lookup_hash(msgid, db, rlen); if (v) return v; return lookup_bsearch(msgid, db, rlen); } static const char * get_lang_env(const char *category_name) { const char *lang; /* 1. see LANGUAGE variable first. */ lang = getenv("LANGUAGE"); if (lang) return lang; /* 2. if LANGUAGE isn't set, see LC_ALL, LC_xxx, LANG. */ lang = getenv("LC_ALL"); if (!lang) lang = getenv(category_name); if (!lang) lang = getenv("LANG"); if (!lang) return 0; /* error */ return split_locale(lang); } static const char * get_indexed_string(const char *str, size_t len, unsigned long idx) { while (idx > 0) { if (len <= 1) return str; if (*str == '\0') idx--; if (len > 0) { str++; len--; } } return str; } #define _NGETTEXT_DEFAULT(msgid1, msgid2, n) \ ((char *)__UNCONST((n) == 1 ? (msgid1) : (msgid2))) char * dcngettext(const char *domainname, const char *msgid1, const char *msgid2, unsigned long int n, int category) { const char *msgid; char path[PATH_MAX]; const char *lpath; static char olpath[PATH_MAX]; const char *cname = NULL; const char *v; static char *ocname = NULL; static char *odomainname = NULL; struct domainbinding *db; unsigned long plural_index = 0; size_t len; if (!domainname) domainname = __current_domainname; cname = lookup_category(category); if (!domainname || !cname) goto fail; lpath = get_lang_env(cname); if (!lpath) goto fail; for (db = __bindings; db; db = db->next) if (strcmp(db->domainname, domainname) == 0) break; if (!db) { if (!bindtextdomain(domainname, _PATH_TEXTDOMAIN)) goto fail; db = __bindings; } /* resolve relative path */ /* XXX not necessary? */ if (db->path[0] != '/') { char buf[PATH_MAX]; if (getcwd(buf, sizeof(buf)) == 0) goto fail; if (strlcat(buf, "/", sizeof(buf)) >= sizeof(buf)) goto fail; if (strlcat(buf, db->path, sizeof(buf)) >= sizeof(buf)) goto fail; strlcpy(db->path, buf, sizeof(db->path)); } /* don't bother looking it up if the values are the same */ if (odomainname && strcmp(domainname, odomainname) == 0 && ocname && strcmp(cname, ocname) == 0 && strcmp(lpath, olpath) == 0 && db->mohandle.mo.mo_magic) goto found; /* try to find appropriate file, from $LANGUAGE */ if (lookup_mofile(path, sizeof(path), db->path, lpath, cname, domainname, db) == NULL) goto fail; if (odomainname) free(odomainname); if (ocname) free(ocname); odomainname = strdup(domainname); ocname = strdup(cname); if (!odomainname || !ocname) { if (odomainname) free(odomainname); if (ocname) free(ocname); odomainname = ocname = NULL; } else strlcpy(olpath, lpath, sizeof(olpath)); found: if (db->mohandle.mo.mo_plural) { plural_index = _gettext_calculate_plural(db->mohandle.mo.mo_plural, n); if (plural_index >= db->mohandle.mo.mo_nplurals) plural_index = 0; msgid = msgid1; } else msgid = _NGETTEXT_DEFAULT(msgid1, msgid2, n); if (msgid == NULL) return NULL; v = lookup(msgid, db, &len); if (v) { if (db->mohandle.mo.mo_plural) v = get_indexed_string(v, len, plural_index); /* * convert the translated message's encoding. * * special case: * a result of gettext("") shouldn't need any conversion. */ if (msgid[0]) v = __gettext_iconv(v, db); /* * Given the amount of printf-format security issues, it may * be a good idea to validate if the original msgid and the * translated message format string carry the same printf-like * format identifiers. */ msgid = v; } return (char *)__UNCONST(msgid); fail: return _NGETTEXT_DEFAULT(msgid1, msgid2, n); }