/* * Copyright 2014 Garrett D'Amore * Copyright 2010 Nexenta Systems, Inc. All rights reserved. * Copyright (c) 1995 Alex Tatmanjants * at Electronni Visti IA, Kiev, Ukraine. * 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 ``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 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. */ #include "lint.h" #include "file64.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include "collate.h" #include "setlocale.h" /* * See the comments in usr/src/cmd/localedef/collate.c for further * information. It would also be very helpful to have a copy of the * POSIX standard for collation (in the locale format manual page) * handy (www.opengroup.org). */ /* * POSIX uses empty tables and falls down to strcmp. */ struct lc_collate lc_collate_posix = { .lc_is_posix = 1, }; struct locdata __posix_collate_locdata = { .l_lname = "C", .l_data = { &lc_collate_posix } }; struct locdata * __lc_collate_load(const char *locname) { int i, chains, z; char buf[PATH_MAX]; char *TMP; char *map; collate_info_t *info; struct stat sbuf; int fd; struct locdata *ldata; struct lc_collate *lcc; /* * Slurp the locale file into the cache. */ (void) snprintf(buf, sizeof (buf), "%s/%s/LC_COLLATE/LCL_DATA", _PathLocale, locname); if ((fd = open(buf, O_RDONLY)) < 0) { errno = EINVAL; return (NULL); } if (fstat(fd, &sbuf) < 0) { (void) close(fd); errno = EINVAL; return (NULL); } if (sbuf.st_size < (COLLATE_STR_LEN + sizeof (info))) { (void) close(fd); errno = EINVAL; return (NULL); } map = mmap(NULL, sbuf.st_size, PROT_READ, MAP_PRIVATE, fd, 0); (void) close(fd); if ((TMP = map) == NULL) { errno = EINVAL; return (NULL); } if (strncmp(TMP, COLLATE_VERSION, COLLATE_STR_LEN) != 0) { (void) munmap(map, sbuf.st_size); errno = EINVAL; return (NULL); } TMP += COLLATE_STR_LEN; info = (void *)TMP; TMP += sizeof (*info); if ((info->directive_count < 1) || (info->directive_count >= COLL_WEIGHTS_MAX) || ((chains = info->chain_count) < 0)) { (void) munmap(map, sbuf.st_size); errno = EINVAL; return (NULL); } i = (sizeof (collate_char_t) * (UCHAR_MAX + 1)) + (sizeof (collate_chain_t) * chains) + (sizeof (collate_large_t) * info->large_count); for (z = 0; z < info->directive_count; z++) { i += sizeof (collate_subst_t) * info->subst_count[z]; } if (i != (sbuf.st_size - (TMP - map))) { (void) munmap(map, sbuf.st_size); errno = EINVAL; return (NULL); } if ((ldata = __locdata_alloc(locname, sizeof (*lcc))) == NULL) { (void) munmap(map, sbuf.st_size); return (NULL); } lcc = ldata->l_data[0]; ldata->l_map = map; ldata->l_map_len = sbuf.st_size; lcc->lc_info = info; lcc->lc_directive_count = info->directive_count; lcc->lc_large_count = info->large_count; for (z = 0; z < COLL_WEIGHTS_MAX; z++) { lcc->lc_directive[z] = info->directive[z]; lcc->lc_subst_count[z] = info->subst_count[z]; lcc->lc_pri_count[z] = info->pri_count[z]; lcc->lc_undef_pri[z] = info->undef_pri[z]; } lcc->lc_char_table = (void *)TMP; TMP += sizeof (collate_char_t) * (UCHAR_MAX + 1); for (z = 0; z < lcc->lc_directive_count; z++) { int count; if ((count = lcc->lc_subst_count[z]) > 0) { lcc->lc_subst_table[z] = (void *)TMP; TMP += count * sizeof (collate_subst_t); } else { lcc->lc_subst_table[z] = NULL; } } if (chains > 0) { lcc->lc_chain_table = (void *)TMP; TMP += chains * sizeof (collate_chain_t); } else lcc->lc_chain_table = NULL; lcc->lc_chain_count = chains; if (lcc->lc_large_count > 0) lcc->lc_large_table = (void *)TMP; else lcc->lc_large_table = NULL; return (ldata); } static const int32_t * substsearch(const struct lc_collate *lcc, const wchar_t key, int pass) { const collate_subst_t *p; int n = lcc->lc_subst_count[pass]; if (n == 0) return (NULL); if (pass >= lcc->lc_directive_count) return (NULL); if (!(key & COLLATE_SUBST_PRIORITY)) return (NULL); p = lcc->lc_subst_table[pass] + (key & ~COLLATE_SUBST_PRIORITY); assert(p->key == key); return (p->pri); } /* * Note: for performance reasons, we have expanded bsearch here. This avoids * function call overhead with each comparison. */ static collate_chain_t * chainsearch(const struct lc_collate *lcc, const wchar_t *key, int *len) { int low; int high; int next, compar, l; collate_chain_t *p; collate_chain_t *tab; if (lcc->lc_info->chain_count == 0) return (NULL); low = 0; high = lcc->lc_info->chain_count - 1; tab = lcc->lc_chain_table; while (low <= high) { next = (low + high) / 2; p = tab + next; compar = *key - *p->str; if (compar == 0) { l = wcsnlen(p->str, COLLATE_STR_LEN); compar = wcsncmp(key, p->str, l); if (compar == 0) { *len = l; return (p); } } if (compar > 0) low = next + 1; else high = next - 1; } return (NULL); } static collate_large_t * largesearch(const struct lc_collate *lcc, const wchar_t key) { int low = 0; int high = lcc->lc_info->large_count - 1; int next, compar; collate_large_t *p; collate_large_t *tab = lcc->lc_large_table; if (lcc->lc_info->large_count == 0) return (NULL); while (low <= high) { next = (low + high) / 2; p = tab + next; compar = key - p->val; if (compar == 0) return (p); if (compar > 0) low = next + 1; else high = next - 1; } return (NULL); } void _collate_lookup(const struct lc_collate *lcc, const wchar_t *t, int *len, int *pri, int which, const int **state) { collate_chain_t *p2; collate_large_t *match; int p, l; const int *sptr; /* * If this is the "last" pass for the UNDEFINED, then * we just return the priority itself. */ if (which >= lcc->lc_directive_count) { *pri = *t; *len = 1; *state = NULL; return; } /* * If we have remaining substitution data from a previous * call, consume it first. */ if ((sptr = *state) != NULL) { *pri = *sptr; sptr++; *state = *sptr ? sptr : NULL; *len = 0; return; } /* No active substitutions */ *len = 1; /* * Check for composites such as dipthongs that collate as a * single element (aka chains or collating-elements). */ if (((p2 = chainsearch(lcc, t, &l)) != NULL) && ((p = p2->pri[which]) >= 0)) { *len = l; *pri = p; } else if (*t <= UCHAR_MAX) { /* * Character is a small (8-bit) character. * We just look these up directly for speed. */ *pri = lcc->lc_char_table[*t].pri[which]; } else if ((lcc->lc_info->large_count > 0) && ((match = largesearch(lcc, *t)) != NULL)) { /* * Character was found in the extended table. */ *pri = match->pri.pri[which]; } else { /* * Character lacks a specific definition. */ if (lcc->lc_directive[which] & DIRECTIVE_UNDEFINED) { /* Mask off sign bit to prevent ordering confusion. */ *pri = (*t & COLLATE_MAX_PRIORITY); } else { *pri = lcc->lc_undef_pri[which]; } /* No substitutions for undefined characters! */ return; } /* * Try substituting (expanding) the character. We are * currently doing this *after* the chain compression. I * think it should not matter, but this way might be slightly * faster. * * We do this after the priority search, as this will help us * to identify a single key value. In order for this to work, * its important that the priority assigned to a given element * to be substituted be unique for that level. The localedef * code ensures this for us. */ if ((sptr = substsearch(lcc, *pri, which)) != NULL) { if ((*pri = *sptr) != 0) { sptr++; *state = *sptr ? sptr : NULL; } } } /* * This is the meaty part of wcsxfrm & strxfrm. Note that it does * NOT NULL terminate. That is left to the caller. */ size_t _collate_wxfrm(const struct lc_collate *lcc, const wchar_t *src, wchar_t *xf, size_t room) { int pri; int len; const wchar_t *t; wchar_t *tr = NULL; int direc; int pass; const int32_t *state; size_t want = 0; size_t need = 0; int ndir = lcc->lc_directive_count; assert(src); for (pass = 0; pass <= ndir; pass++) { state = NULL; if (pass != 0) { /* insert level separator from the previous pass */ if (room) { *xf++ = 1; room--; } want++; } /* special pass for undefined */ if (pass == ndir) { direc = DIRECTIVE_FORWARD | DIRECTIVE_UNDEFINED; } else { direc = lcc->lc_directive[pass]; } t = src; if (direc & DIRECTIVE_BACKWARD) { wchar_t *bp, *fp, c; if (tr) free(tr); if ((tr = wcsdup(t)) == NULL) { errno = ENOMEM; goto fail; } bp = tr; fp = tr + wcslen(tr) - 1; while (bp < fp) { c = *bp; *bp++ = *fp; *fp-- = c; } t = (const wchar_t *)tr; } if (direc & DIRECTIVE_POSITION) { while (*t || state) { _collate_lookup(lcc, t, &len, &pri, pass, &state); t += len; if (pri <= 0) { if (pri < 0) { errno = EINVAL; goto fail; } pri = COLLATE_MAX_PRIORITY; } if (room) { *xf++ = pri; room--; } want++; need = want; } } else { while (*t || state) { _collate_lookup(lcc, t, &len, &pri, pass, &state); t += len; if (pri <= 0) { if (pri < 0) { errno = EINVAL; goto fail; } continue; } if (room) { *xf++ = pri; room--; } want++; need = want; } } } end: if (tr) free(tr); return (need); fail: if (tr) free(tr); return ((size_t)(-1)); } /* * In the non-POSIX case, we transform each character into a string of * characters representing the character's priority. Since char is usually * signed, we are limited by 7 bits per byte. To avoid zero, we need to add * XFRM_OFFSET, so we can't use a full 7 bits. For simplicity, we choose 6 * bits per byte. * * It turns out that we sometimes have real priorities that are * 31-bits wide. (But: be careful using priorities where the high * order bit is set -- i.e. the priority is negative. The sort order * may be surprising!) * * TODO: This would be a good area to optimize somewhat. It turns out * that real prioririties *except for the last UNDEFINED pass* are generally * very small. We need the localedef code to precalculate the max * priority for us, and ideally also give us a mask, and then we could * severely limit what we expand to. */ #define XFRM_BYTES 6 #define XFRM_OFFSET ('0') /* make all printable characters */ #define XFRM_SHIFT 6 #define XFRM_MASK ((1 << XFRM_SHIFT) - 1) #define XFRM_SEP ('.') /* chosen to be less than XFRM_OFFSET */ static int xfrm(locale_t loc, unsigned char *p, int pri, int pass) { /* we use unsigned to ensure zero fill on right shift */ uint32_t val = (uint32_t)loc->collate->lc_pri_count[pass]; int nc = 0; while (val) { *p = (pri & XFRM_MASK) + XFRM_OFFSET; pri >>= XFRM_SHIFT; val >>= XFRM_SHIFT; p++; nc++; } return (nc); } size_t _collate_sxfrm(const wchar_t *src, char *xf, size_t room, locale_t loc) { int pri; int len; const wchar_t *t; wchar_t *tr = NULL; int direc; int pass; const int32_t *state; size_t want = 0; size_t need = 0; int b; uint8_t buf[XFRM_BYTES]; const struct lc_collate *lcc = loc->collate; int ndir = lcc->lc_directive_count; assert(src); for (pass = 0; pass <= ndir; pass++) { state = NULL; if (pass != 0) { /* insert level separator from the previous pass */ if (room) { *xf++ = XFRM_SEP; room--; } want++; } /* special pass for undefined */ if (pass == ndir) { direc = DIRECTIVE_FORWARD | DIRECTIVE_UNDEFINED; } else { direc = lcc->lc_directive[pass]; } t = src; if (direc & DIRECTIVE_BACKWARD) { wchar_t *bp, *fp, c; if (tr) free(tr); if ((tr = wcsdup(t)) == NULL) { errno = ENOMEM; goto fail; } bp = tr; fp = tr + wcslen(tr) - 1; while (bp < fp) { c = *bp; *bp++ = *fp; *fp-- = c; } t = (const wchar_t *)tr; } if (direc & DIRECTIVE_POSITION) { while (*t || state) { _collate_lookup(lcc, t, &len, &pri, pass, &state); t += len; if (pri <= 0) { if (pri < 0) { errno = EINVAL; goto fail; } pri = COLLATE_MAX_PRIORITY; } b = xfrm(loc, buf, pri, pass); want += b; if (room) { while (b) { b--; if (room) { *xf++ = buf[b]; room--; } } } need = want; } } else { while (*t || state) { _collate_lookup(lcc, t, &len, &pri, pass, &state); t += len; if (pri <= 0) { if (pri < 0) { errno = EINVAL; goto fail; } continue; } b = xfrm(loc, buf, pri, pass); want += b; if (room) { while (b) { b--; if (room) { *xf++ = buf[b]; room--; } } } need = want; } } } end: if (tr) free(tr); return (need); fail: if (tr) free(tr); return ((size_t)(-1)); }