1 /*
   2  * Copyright 2014 Garrett D'Amore <garrett@damore.org>
   3  * Copyright 2010 Nexenta Systems, Inc.  All rights reserved.
   4  * Copyright (c) 1995 Alex Tatmanjants <alex@elvisti.kiev.ua>
   5  *              at Electronni Visti IA, Kiev, Ukraine.
   6  *                      All rights reserved.
   7  *
   8  * Redistribution and use in source and binary forms, with or without
   9  * modification, are permitted provided that the following conditions
  10  * are met:
  11  * 1. Redistributions of source code must retain the above copyright
  12  *    notice, this list of conditions and the following disclaimer.
  13  * 2. Redistributions in binary form must reproduce the above copyright
  14  *    notice, this list of conditions and the following disclaimer in the
  15  *    documentation and/or other materials provided with the distribution.
  16  *
  17  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND
  18  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
  19  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
  20  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR BE LIABLE
  21  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
  22  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
  23  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
  24  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
  25  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
  26  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
  27  * SUCH DAMAGE.
  28  */
  29 
  30 #include "lint.h"
  31 #include "file64.h"
  32 #include <stdio.h>
  33 #include <stdlib.h>
  34 #include <stddef.h>
  35 #include <string.h>
  36 #include <wchar.h>
  37 #include <errno.h>
  38 #include <unistd.h>
  39 #include <ctype.h>
  40 #include <unistd.h>
  41 #include <fcntl.h>
  42 #include <assert.h>
  43 #include <sys/stat.h>
  44 #include <sys/mman.h>
  45 
  46 #include "collate.h"
  47 #include "setlocale.h"
  48 
  49 /*
  50  * See the comments in usr/src/cmd/localedef/collate.c for further
  51  * information.  It would also be very helpful to have a copy of the
  52  * POSIX standard for collation (in the locale format manual page)
  53  * handy (www.opengroup.org).
  54  */
  55 
  56 /*
  57  * POSIX uses empty tables and falls down to strcmp.
  58  */
  59 struct lc_collate lc_collate_posix = {
  60         .lc_is_posix = 1,
  61 };
  62 
  63 struct locdata __posix_collate_locdata = {
  64         .l_lname = "C",
  65         .l_data = { &lc_collate_posix }
  66 };
  67 
  68 
  69 struct locdata *
  70 __lc_collate_load(const char *locname)
  71 {
  72         int i, chains, z;
  73         char buf[PATH_MAX];
  74         char *TMP;
  75         char *map;
  76         collate_info_t *info;
  77         struct stat sbuf;
  78         int fd;
  79         struct locdata *ldata;
  80         struct lc_collate *lcc;
  81 
  82         /*
  83          * Slurp the locale file into the cache.
  84          */
  85 
  86         (void) snprintf(buf, sizeof (buf), "%s/%s/LC_COLLATE/LCL_DATA",
  87             _PathLocale, locname);
  88 
  89         if ((fd = open(buf, O_RDONLY)) < 0) {
  90                 errno = EINVAL;
  91                 return (NULL);
  92         }
  93         if (fstat(fd, &sbuf) < 0) {
  94                 (void) close(fd);
  95                 errno = EINVAL;
  96                 return (NULL);
  97         }
  98         if (sbuf.st_size < (COLLATE_STR_LEN + sizeof (info))) {
  99                 (void) close(fd);
 100                 errno = EINVAL;
 101                 return (NULL);
 102         }
 103         map = mmap(NULL, sbuf.st_size, PROT_READ, MAP_PRIVATE, fd, 0);
 104         (void) close(fd);
 105         if ((TMP = map) == NULL) {
 106                 errno = EINVAL;
 107                 return (NULL);
 108         }
 109 
 110         if (strncmp(TMP, COLLATE_VERSION, COLLATE_STR_LEN) != 0) {
 111                 (void) munmap(map, sbuf.st_size);
 112                 errno = EINVAL;
 113                 return (NULL);
 114         }
 115         TMP += COLLATE_STR_LEN;
 116 
 117         info = (void *)TMP;
 118         TMP += sizeof (*info);
 119 
 120         if ((info->directive_count < 1) ||
 121             (info->directive_count >= COLL_WEIGHTS_MAX) ||
 122             ((chains = info->chain_count) < 0)) {
 123                 (void) munmap(map, sbuf.st_size);
 124                 errno = EINVAL;
 125                 return (NULL);
 126         }
 127 
 128         i = (sizeof (collate_char_t) * (UCHAR_MAX + 1)) +
 129             (sizeof (collate_chain_t) * chains) +
 130             (sizeof (collate_large_t) * info->large_count);
 131         for (z = 0; z < info->directive_count; z++) {
 132                 i += sizeof (collate_subst_t) * info->subst_count[z];
 133         }
 134         if (i != (sbuf.st_size - (TMP - map))) {
 135                 (void) munmap(map, sbuf.st_size);
 136                 errno = EINVAL;
 137                 return (NULL);
 138         }
 139 
 140 
 141         if ((ldata = __locdata_alloc(locname, sizeof (*lcc))) == NULL) {
 142                 (void) munmap(map, sbuf.st_size);
 143                 return (NULL);
 144         }
 145         lcc = ldata->l_data[0];
 146         ldata->l_map = map;
 147         ldata->l_map_len = sbuf.st_size;
 148 
 149         lcc->lc_info = info;
 150         lcc->lc_directive_count = info->directive_count;
 151         lcc->lc_large_count = info->large_count;
 152 
 153         for (z = 0; z < COLL_WEIGHTS_MAX; z++) {
 154                 lcc->lc_directive[z] = info->directive[z];
 155                 lcc->lc_subst_count[z] = info->subst_count[z];
 156                 lcc->lc_pri_count[z] = info->pri_count[z];
 157                 lcc->lc_undef_pri[z] = info->undef_pri[z];
 158         }
 159 
 160         lcc->lc_char_table = (void *)TMP;
 161         TMP += sizeof (collate_char_t) * (UCHAR_MAX + 1);
 162 
 163         for (z = 0; z < lcc->lc_directive_count; z++) {
 164                 int count;
 165                 if ((count = lcc->lc_subst_count[z]) > 0) {
 166                         lcc->lc_subst_table[z] = (void *)TMP;
 167                         TMP += count * sizeof (collate_subst_t);
 168                 } else {
 169                         lcc->lc_subst_table[z] = NULL;
 170                 }
 171         }
 172 
 173         if (chains > 0) {
 174                 lcc->lc_chain_table = (void *)TMP;
 175                 TMP += chains * sizeof (collate_chain_t);
 176         } else
 177                 lcc->lc_chain_table = NULL;
 178         lcc->lc_chain_count = chains;
 179         if (lcc->lc_large_count > 0)
 180                 lcc->lc_large_table = (void *)TMP;
 181         else
 182                 lcc->lc_large_table = NULL;
 183 
 184         return (ldata);
 185 }
 186 
 187 static const int32_t *
 188 substsearch(const struct lc_collate *lcc, const wchar_t key, int pass)
 189 {
 190         const collate_subst_t *p;
 191         int n = lcc->lc_subst_count[pass];
 192 
 193         if (n == 0)
 194                 return (NULL);
 195 
 196         if (pass >= lcc->lc_directive_count)
 197                 return (NULL);
 198 
 199         if (!(key & COLLATE_SUBST_PRIORITY))
 200                 return (NULL);
 201 
 202         p = lcc->lc_subst_table[pass] + (key & ~COLLATE_SUBST_PRIORITY);
 203         assert(p->key == key);
 204         return (p->pri);
 205 }
 206 
 207 /*
 208  * Note: for performance reasons, we have expanded bsearch here.  This avoids
 209  * function call overhead with each comparison.
 210  */
 211 
 212 static collate_chain_t *
 213 chainsearch(const struct lc_collate *lcc, const wchar_t *key, int *len)
 214 {
 215         int low;
 216         int high;
 217         int next, compar, l;
 218         collate_chain_t *p;
 219         collate_chain_t *tab;
 220 
 221         if (lcc->lc_info->chain_count == 0)
 222                 return (NULL);
 223 
 224         low = 0;
 225         high = lcc->lc_info->chain_count - 1;
 226         tab = lcc->lc_chain_table;
 227 
 228         while (low <= high) {
 229                 next = (low + high) / 2;
 230                 p = tab + next;
 231                 compar = *key - *p->str;
 232                 if (compar == 0) {
 233                         l = wcsnlen(p->str, COLLATE_STR_LEN);
 234                         compar = wcsncmp(key, p->str, l);
 235                         if (compar == 0) {
 236                                 *len = l;
 237                                 return (p);
 238                         }
 239                 }
 240                 if (compar > 0)
 241                         low = next + 1;
 242                 else
 243                         high = next - 1;
 244         }
 245         return (NULL);
 246 }
 247 
 248 static collate_large_t *
 249 largesearch(const struct lc_collate *lcc, const wchar_t key)
 250 {
 251         int low = 0;
 252         int high = lcc->lc_info->large_count - 1;
 253         int next, compar;
 254         collate_large_t *p;
 255         collate_large_t *tab = lcc->lc_large_table;
 256 
 257         if (lcc->lc_info->large_count == 0)
 258                 return (NULL);
 259 
 260         while (low <= high) {
 261                 next = (low + high) / 2;
 262                 p = tab + next;
 263                 compar = key - p->val;
 264                 if (compar == 0)
 265                         return (p);
 266                 if (compar > 0)
 267                         low = next + 1;
 268                 else
 269                         high = next - 1;
 270         }
 271         return (NULL);
 272 }
 273 
 274 void
 275 _collate_lookup(const struct lc_collate *lcc, const wchar_t *t,
 276     int *len, int *pri, int which, const int **state)
 277 {
 278         collate_chain_t *p2;
 279         collate_large_t *match;
 280         int p, l;
 281         const int *sptr;
 282 
 283         /*
 284          * If this is the "last" pass for the UNDEFINED, then
 285          * we just return the priority itself.
 286          */
 287         if (which >= lcc->lc_directive_count) {
 288                 *pri = *t;
 289                 *len = 1;
 290                 *state = NULL;
 291                 return;
 292         }
 293 
 294         /*
 295          * If we have remaining substitution data from a previous
 296          * call, consume it first.
 297          */
 298         if ((sptr = *state) != NULL) {
 299                 *pri = *sptr;
 300                 sptr++;
 301                 *state = *sptr ? sptr : NULL;
 302                 *len = 0;
 303                 return;
 304         }
 305 
 306         /* No active substitutions */
 307         *len = 1;
 308 
 309         /*
 310          * Check for composites such as dipthongs that collate as a
 311          * single element (aka chains or collating-elements).
 312          */
 313         if (((p2 = chainsearch(lcc, t, &l)) != NULL) &&
 314             ((p = p2->pri[which]) >= 0)) {
 315 
 316                 *len = l;
 317                 *pri = p;
 318 
 319         } else if (*t <= UCHAR_MAX) {
 320 
 321                 /*
 322                  * Character is a small (8-bit) character.
 323                  * We just look these up directly for speed.
 324                  */
 325                 *pri = lcc->lc_char_table[*t].pri[which];
 326 
 327         } else if ((lcc->lc_info->large_count > 0) &&
 328             ((match = largesearch(lcc, *t)) != NULL)) {
 329 
 330                 /*
 331                  * Character was found in the extended table.
 332                  */
 333                 *pri = match->pri.pri[which];
 334 
 335         } else {
 336                 /*
 337                  * Character lacks a specific definition.
 338                  */
 339                 if (lcc->lc_directive[which] & DIRECTIVE_UNDEFINED) {
 340                         /* Mask off sign bit to prevent ordering confusion. */
 341                         *pri = (*t & COLLATE_MAX_PRIORITY);
 342                 } else {
 343                         *pri = lcc->lc_undef_pri[which];
 344                 }
 345                 /* No substitutions for undefined characters! */
 346                 return;
 347         }
 348 
 349         /*
 350          * Try substituting (expanding) the character.  We are
 351          * currently doing this *after* the chain compression.  I
 352          * think it should not matter, but this way might be slightly
 353          * faster.
 354          *
 355          * We do this after the priority search, as this will help us
 356          * to identify a single key value.  In order for this to work,
 357          * its important that the priority assigned to a given element
 358          * to be substituted be unique for that level.  The localedef
 359          * code ensures this for us.
 360          */
 361         if ((sptr = substsearch(lcc, *pri, which)) != NULL) {
 362                 if ((*pri = *sptr) != 0) {
 363                         sptr++;
 364                         *state = *sptr ? sptr : NULL;
 365                 }
 366         }
 367 
 368 }
 369 
 370 /*
 371  * This is the meaty part of wcsxfrm & strxfrm.  Note that it does
 372  * NOT NULL terminate.  That is left to the caller.
 373  */
 374 size_t
 375 _collate_wxfrm(const struct lc_collate *lcc, const wchar_t *src, wchar_t *xf,
 376     size_t room)
 377 {
 378         int             pri;
 379         int             len;
 380         const wchar_t   *t;
 381         wchar_t         *tr = NULL;
 382         int             direc;
 383         int             pass;
 384         const int32_t   *state;
 385         size_t          want = 0;
 386         size_t          need = 0;
 387         int             ndir = lcc->lc_directive_count;
 388 
 389         assert(src);
 390 
 391         for (pass = 0; pass <= ndir; pass++) {
 392 
 393                 state = NULL;
 394 
 395                 if (pass != 0) {
 396                         /* insert level separator from the previous pass */
 397                         if (room) {
 398                                 *xf++ = 1;
 399                                 room--;
 400                         }
 401                         want++;
 402                 }
 403 
 404                 /* special pass for undefined */
 405                 if (pass == ndir) {
 406                         direc = DIRECTIVE_FORWARD | DIRECTIVE_UNDEFINED;
 407                 } else {
 408                         direc = lcc->lc_directive[pass];
 409                 }
 410 
 411                 t = src;
 412 
 413                 if (direc & DIRECTIVE_BACKWARD) {
 414                         wchar_t *bp, *fp, c;
 415                         if (tr)
 416                                 free(tr);
 417                         if ((tr = wcsdup(t)) == NULL) {
 418                                 errno = ENOMEM;
 419                                 goto fail;
 420                         }
 421                         bp = tr;
 422                         fp = tr + wcslen(tr) - 1;
 423                         while (bp < fp) {
 424                                 c = *bp;
 425                                 *bp++ = *fp;
 426                                 *fp-- = c;
 427                         }
 428                         t = (const wchar_t *)tr;
 429                 }
 430 
 431                 if (direc & DIRECTIVE_POSITION) {
 432                         while (*t || state) {
 433                                 _collate_lookup(lcc, t, &len, &pri, pass,
 434                                     &state);
 435                                 t += len;
 436                                 if (pri <= 0) {
 437                                         if (pri < 0) {
 438                                                 errno = EINVAL;
 439                                                 goto fail;
 440                                         }
 441                                         pri = COLLATE_MAX_PRIORITY;
 442                                 }
 443                                 if (room) {
 444                                         *xf++ = pri;
 445                                         room--;
 446                                 }
 447                                 want++;
 448                                 need = want;
 449                         }
 450                 } else {
 451                         while (*t || state) {
 452                                 _collate_lookup(lcc, t, &len, &pri, pass,
 453                                     &state);
 454                                 t += len;
 455                                 if (pri <= 0) {
 456                                         if (pri < 0) {
 457                                                 errno = EINVAL;
 458                                                 goto fail;
 459                                         }
 460                                         continue;
 461                                 }
 462                                 if (room) {
 463                                         *xf++ = pri;
 464                                         room--;
 465                                 }
 466                                 want++;
 467                                 need = want;
 468                         }
 469                 }
 470         }
 471 
 472 end:
 473         if (tr)
 474                 free(tr);
 475         return (need);
 476 
 477 fail:
 478         if (tr)
 479                 free(tr);
 480         return ((size_t)(-1));
 481 }
 482 
 483 /*
 484  * In the non-POSIX case, we transform each character into a string of
 485  * characters representing the character's priority.  Since char is usually
 486  * signed, we are limited by 7 bits per byte.  To avoid zero, we need to add
 487  * XFRM_OFFSET, so we can't use a full 7 bits.  For simplicity, we choose 6
 488  * bits per byte.
 489  *
 490  * It turns out that we sometimes have real priorities that are
 491  * 31-bits wide.  (But: be careful using priorities where the high
 492  * order bit is set -- i.e. the priority is negative.  The sort order
 493  * may be surprising!)
 494  *
 495  * TODO: This would be a good area to optimize somewhat.  It turns out
 496  * that real prioririties *except for the last UNDEFINED pass* are generally
 497  * very small.  We need the localedef code to precalculate the max
 498  * priority for us, and ideally also give us a mask, and then we could
 499  * severely limit what we expand to.
 500  */
 501 #define XFRM_BYTES      6
 502 #define XFRM_OFFSET     ('0')   /* make all printable characters */
 503 #define XFRM_SHIFT      6
 504 #define XFRM_MASK       ((1 << XFRM_SHIFT) - 1)
 505 #define XFRM_SEP        ('.')   /* chosen to be less than XFRM_OFFSET */
 506 
 507 static int
 508 xfrm(locale_t loc, unsigned char *p, int pri, int pass)
 509 {
 510         /* we use unsigned to ensure zero fill on right shift */
 511         uint32_t val = (uint32_t)loc->collate->lc_pri_count[pass];
 512         int nc = 0;
 513 
 514         while (val) {
 515                 *p = (pri & XFRM_MASK) + XFRM_OFFSET;
 516                 pri >>= XFRM_SHIFT;
 517                 val >>= XFRM_SHIFT;
 518                 p++;
 519                 nc++;
 520         }
 521         return (nc);
 522 }
 523 
 524 size_t
 525 _collate_sxfrm(const wchar_t *src, char *xf, size_t room, locale_t loc)
 526 {
 527         int             pri;
 528         int             len;
 529         const wchar_t   *t;
 530         wchar_t         *tr = NULL;
 531         int             direc;
 532         int             pass;
 533         const int32_t   *state;
 534         size_t          want = 0;
 535         size_t          need = 0;
 536         int             b;
 537         uint8_t         buf[XFRM_BYTES];
 538         const struct lc_collate *lcc = loc->collate;
 539         int             ndir = lcc->lc_directive_count;
 540 
 541         assert(src);
 542 
 543         for (pass = 0; pass <= ndir; pass++) {
 544 
 545                 state = NULL;
 546 
 547                 if (pass != 0) {
 548                         /* insert level separator from the previous pass */
 549                         if (room) {
 550                                 *xf++ = XFRM_SEP;
 551                                 room--;
 552                         }
 553                         want++;
 554                 }
 555 
 556                 /* special pass for undefined */
 557                 if (pass == ndir) {
 558                         direc = DIRECTIVE_FORWARD | DIRECTIVE_UNDEFINED;
 559                 } else {
 560                         direc = lcc->lc_directive[pass];
 561                 }
 562 
 563                 t = src;
 564 
 565                 if (direc & DIRECTIVE_BACKWARD) {
 566                         wchar_t *bp, *fp, c;
 567                         if (tr)
 568                                 free(tr);
 569                         if ((tr = wcsdup(t)) == NULL) {
 570                                 errno = ENOMEM;
 571                                 goto fail;
 572                         }
 573                         bp = tr;
 574                         fp = tr + wcslen(tr) - 1;
 575                         while (bp < fp) {
 576                                 c = *bp;
 577                                 *bp++ = *fp;
 578                                 *fp-- = c;
 579                         }
 580                         t = (const wchar_t *)tr;
 581                 }
 582 
 583                 if (direc & DIRECTIVE_POSITION) {
 584                         while (*t || state) {
 585 
 586                                 _collate_lookup(lcc, t, &len, &pri, pass,
 587                                     &state);
 588                                 t += len;
 589                                 if (pri <= 0) {
 590                                         if (pri < 0) {
 591                                                 errno = EINVAL;
 592                                                 goto fail;
 593                                         }
 594                                         pri = COLLATE_MAX_PRIORITY;
 595                                 }
 596 
 597                                 b = xfrm(loc, buf, pri, pass);
 598                                 want += b;
 599                                 if (room) {
 600                                         while (b) {
 601                                                 b--;
 602                                                 if (room) {
 603                                                         *xf++ = buf[b];
 604                                                         room--;
 605                                                 }
 606                                         }
 607                                 }
 608                                 need = want;
 609                         }
 610                 } else {
 611                         while (*t || state) {
 612                                 _collate_lookup(lcc, t, &len, &pri, pass,
 613                                     &state);
 614                                 t += len;
 615                                 if (pri <= 0) {
 616                                         if (pri < 0) {
 617                                                 errno = EINVAL;
 618                                                 goto fail;
 619                                         }
 620                                         continue;
 621                                 }
 622 
 623                                 b = xfrm(loc, buf, pri, pass);
 624                                 want += b;
 625                                 if (room) {
 626 
 627                                         while (b) {
 628                                                 b--;
 629                                                 if (room) {
 630                                                         *xf++ = buf[b];
 631                                                         room--;
 632                                                 }
 633                                         }
 634                                 }
 635                                 need = want;
 636                         }
 637                 }
 638         }
 639 
 640 end:
 641         if (tr)
 642                 free(tr);
 643         return (need);
 644 
 645 fail:
 646         if (tr)
 647                 free(tr);
 648         return ((size_t)(-1));
 649 }