1 /**************************************************************** 2 Copyright (C) Lucent Technologies 1997 3 All Rights Reserved 4 5 Permission to use, copy, modify, and distribute this software and 6 its documentation for any purpose and without fee is hereby 7 granted, provided that the above copyright notice appear in all 8 copies and that both that the copyright notice and this 9 permission notice and warranty disclaimer appear in supporting 10 documentation, and that the name Lucent Technologies or any of 11 its entities not be used in advertising or publicity pertaining 12 to distribution of the software without specific, written prior 13 permission. 14 15 LUCENT DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, 16 INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. 17 IN NO EVENT SHALL LUCENT OR ANY OF ITS ENTITIES BE LIABLE FOR ANY 18 SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES 19 WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER 20 IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, 21 ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF 22 THIS SOFTWARE. 23 ****************************************************************/ 24 25 /* lasciate ogne speranza, voi ch'entrate. */ 26 27 #define DEBUG 28 29 #include <ctype.h> 30 #include <stdio.h> 31 #include <string.h> 32 #include <stdlib.h> 33 #include "awk.h" 34 #include "ytab.h" 35 36 #define HAT (NCHARS-2) /* matches ^ in regular expr */ 37 /* NCHARS is 2**n */ 38 #define MAXLIN 22 39 40 #define type(v) (v)->nobj /* badly overloaded here */ 41 #define info(v) (v)->ntype /* badly overloaded here */ 42 #define left(v) (v)->narg[0] 43 #define right(v) (v)->narg[1] 44 #define parent(v) (v)->nnext 45 46 #define LEAF case CCL: case NCCL: case CHAR: case DOT: case FINAL: case ALL: 47 #define UNARY case STAR: case PLUS: case QUEST: 48 49 /* encoding in tree Nodes: 50 leaf (CCL, NCCL, CHAR, DOT, FINAL, ALL): 51 left is index, right contains value or pointer to value 52 unary (STAR, PLUS, QUEST): left is child, right is null 53 binary (CAT, OR): left and right are children 54 parent contains pointer to parent 55 */ 56 57 58 int *setvec; 59 int *tmpset; 60 int maxsetvec = 0; 61 62 int rtok; /* next token in current re */ 63 int rlxval; 64 static uschar *rlxstr; 65 static uschar *prestr; /* current position in current re */ 66 static uschar *lastre; /* origin of last re */ 67 68 static int setcnt; 69 static int poscnt; 70 71 char *patbeg; 72 int patlen; 73 74 #define NFA 20 /* cache this many dynamic fa's */ 75 fa *fatab[NFA]; 76 int nfatab = 0; /* entries in fatab */ 77 78 fa *makedfa(const char *s, int anchor) /* returns dfa for reg expr s */ 79 { 80 int i, use, nuse; 81 fa *pfa; 82 static int now = 1; 83 84 if (setvec == 0) { /* first time through any RE */ 85 maxsetvec = MAXLIN; 86 setvec = (int *) malloc(maxsetvec * sizeof(int)); 87 tmpset = (int *) malloc(maxsetvec * sizeof(int)); 88 if (setvec == 0 || tmpset == 0) 89 overflo("out of space initializing makedfa"); 90 } 91 92 if (compile_time) /* a constant for sure */ 93 return mkdfa(s, anchor); 94 for (i = 0; i < nfatab; i++) /* is it there already? */ 95 if (fatab[i]->anchor == anchor 96 && strcmp((const char *) fatab[i]->restr, s) == 0) { 97 fatab[i]->use = now++; 98 return fatab[i]; 99 } 100 pfa = mkdfa(s, anchor); 101 if (nfatab < NFA) { /* room for another */ 102 fatab[nfatab] = pfa; 103 fatab[nfatab]->use = now++; 104 nfatab++; 105 return pfa; 106 } 107 use = fatab[0]->use; /* replace least-recently used */ 108 nuse = 0; 109 for (i = 1; i < nfatab; i++) 110 if (fatab[i]->use < use) { 111 use = fatab[i]->use; 112 nuse = i; 113 } 114 freefa(fatab[nuse]); 115 fatab[nuse] = pfa; 116 pfa->use = now++; 117 return pfa; 118 } 119 120 fa *mkdfa(const char *s, int anchor) /* does the real work of making a dfa */ 121 /* anchor = 1 for anchored matches, else 0 */ 122 { 123 Node *p, *p1; 124 fa *f; 125 126 p = reparse(s); 127 p1 = op2(CAT, op2(STAR, op2(ALL, NIL, NIL), NIL), p); 128 /* put ALL STAR in front of reg. exp. */ 129 p1 = op2(CAT, p1, op2(FINAL, NIL, NIL)); 130 /* put FINAL after reg. exp. */ 131 132 poscnt = 0; 133 penter(p1); /* enter parent pointers and leaf indices */ 134 if ((f = (fa *) calloc(1, sizeof(fa) + poscnt*sizeof(rrow))) == NULL) 135 overflo("out of space for fa"); 136 f->accept = poscnt-1; /* penter has computed number of positions in re */ 137 cfoll(f, p1); /* set up follow sets */ 138 freetr(p1); 139 if ((f->posns[0] = (int *) calloc(1, *(f->re[0].lfollow)*sizeof(int))) == NULL) 140 overflo("out of space in makedfa"); 141 if ((f->posns[1] = (int *) calloc(1, sizeof(int))) == NULL) 142 overflo("out of space in makedfa"); 143 *f->posns[1] = 0; 144 f->initstat = makeinit(f, anchor); 145 f->anchor = anchor; 146 f->restr = (uschar *) tostring(s); 147 return f; 148 } 149 150 int makeinit(fa *f, int anchor) 151 { 152 int i, k; 153 154 f->curstat = 2; 155 f->out[2] = 0; 156 f->reset = 0; 157 k = *(f->re[0].lfollow); 158 xfree(f->posns[2]); 159 if ((f->posns[2] = (int *) calloc(1, (k+1)*sizeof(int))) == NULL) 160 overflo("out of space in makeinit"); 161 for (i=0; i <= k; i++) { 162 (f->posns[2])[i] = (f->re[0].lfollow)[i]; 163 } 164 if ((f->posns[2])[1] == f->accept) 165 f->out[2] = 1; 166 for (i=0; i < NCHARS; i++) 167 f->gototab[2][i] = 0; 168 f->curstat = cgoto(f, 2, HAT); 169 if (anchor) { 170 *f->posns[2] = k-1; /* leave out position 0 */ 171 for (i=0; i < k; i++) { 172 (f->posns[0])[i] = (f->posns[2])[i]; 173 } 174 175 f->out[0] = f->out[2]; 176 if (f->curstat != 2) 177 --(*f->posns[f->curstat]); 178 } 179 return f->curstat; 180 } 181 182 void penter(Node *p) /* set up parent pointers and leaf indices */ 183 { 184 switch (type(p)) { 185 LEAF 186 info(p) = poscnt; 187 poscnt++; 188 break; 189 UNARY 190 penter(left(p)); 191 parent(left(p)) = p; 192 break; 193 case CAT: 194 case OR: 195 penter(left(p)); 196 penter(right(p)); 197 parent(left(p)) = p; 198 parent(right(p)) = p; 199 break; 200 default: /* can't happen */ 201 FATAL("can't happen: unknown type %d in penter", type(p)); 202 break; 203 } 204 } 205 206 void freetr(Node *p) /* free parse tree */ 207 { 208 switch (type(p)) { 209 LEAF 210 xfree(p); 211 break; 212 UNARY 213 freetr(left(p)); 214 xfree(p); 215 break; 216 case CAT: 217 case OR: 218 freetr(left(p)); 219 freetr(right(p)); 220 xfree(p); 221 break; 222 default: /* can't happen */ 223 FATAL("can't happen: unknown type %d in freetr", type(p)); 224 break; 225 } 226 } 227 228 /* in the parsing of regular expressions, metacharacters like . have */ 229 /* to be seen literally; \056 is not a metacharacter. */ 230 231 int hexstr(char **pp) /* find and eval hex string at pp, return new p */ 232 { /* only pick up one 8-bit byte (2 chars) */ 233 uschar *p; 234 int n = 0; 235 int i; 236 237 for (i = 0, p = (uschar *) *pp; i < 2 && isxdigit(*p); i++, p++) { 238 if (isdigit(*p)) 239 n = 16 * n + *p - '0'; 240 else if (*p >= 'a' && *p <= 'f') 241 n = 16 * n + *p - 'a' + 10; 242 else if (*p >= 'A' && *p <= 'F') 243 n = 16 * n + *p - 'A' + 10; 244 } 245 *pp = (char *) p; 246 return n; 247 } 248 249 #define isoctdigit(c) ((c) >= '0' && (c) <= '7') /* multiple use of arg */ 250 251 int quoted(char **pp) /* pick up next thing after a \\ */ 252 /* and increment *pp */ 253 { 254 char *p = *pp; 255 int c; 256 257 if ((c = *p++) == 't') 258 c = '\t'; 259 else if (c == 'n') 260 c = '\n'; 261 else if (c == 'f') 262 c = '\f'; 263 else if (c == 'r') 264 c = '\r'; 265 else if (c == 'b') 266 c = '\b'; 267 else if (c == '\\') 268 c = '\\'; 269 else if (c == 'x') { /* hexadecimal goo follows */ 270 c = hexstr(&p); /* this adds a null if number is invalid */ 271 } else if (isoctdigit(c)) { /* \d \dd \ddd */ 272 int n = c - '0'; 273 if (isoctdigit(*p)) { 274 n = 8 * n + *p++ - '0'; 275 if (isoctdigit(*p)) 276 n = 8 * n + *p++ - '0'; 277 } 278 c = n; 279 } /* else */ 280 /* c = c; */ 281 *pp = p; 282 return c; 283 } 284 285 static int collate_range_cmp(int a, int b) 286 { 287 int r; 288 static char s[2][2]; 289 290 if ((uschar)a == (uschar)b) 291 return 0; 292 s[0][0] = a; 293 s[1][0] = b; 294 if ((r = strcoll(s[0], s[1])) == 0) 295 r = (uschar)a - (uschar)b; 296 return r; 297 } 298 299 char *cclenter(const char *argp) /* add a character class */ 300 { 301 int i, c, c2; 302 int j; 303 uschar *p = (uschar *) argp; 304 uschar *op, *bp; 305 static uschar *buf = 0; 306 static int bufsz = 100; 307 308 op = p; 309 if (buf == 0 && (buf = (uschar *) malloc(bufsz)) == NULL) 310 FATAL("out of space for character class [%.10s...] 1", p); 311 bp = buf; 312 for (i = 0; (c = *p++) != 0; ) { 313 if (c == '\\') { 314 c = quoted((char **) &p); 315 } else if (c == '-' && i > 0 && bp[-1] != 0) { 316 if (*p != 0) { 317 c = bp[-1]; 318 c2 = *p++; 319 if (c2 == '\\') 320 c2 = quoted((char **) &p); 321 if (collate_range_cmp(c, c2) > 0) { /* empty; ignore */ 322 bp--; 323 i--; 324 continue; 325 } 326 for (j = 0; j < NCHARS; j++) { 327 if ((collate_range_cmp(c, j) > 0) || 328 collate_range_cmp(j, c2) > 0) 329 continue; 330 if (!adjbuf((char **) &buf, &bufsz, bp-buf+2, 100, (char **) &bp, 0)) 331 FATAL("out of space for character class [%.10s...] 2", p); 332 *bp++ = j; 333 i++; 334 } 335 continue; 336 } 337 } 338 if (!adjbuf((char **) &buf, &bufsz, bp-buf+2, 100, (char **) &bp, 0)) 339 FATAL("out of space for character class [%.10s...] 3", p); 340 *bp++ = c; 341 i++; 342 } 343 *bp = 0; 344 dprintf( ("cclenter: in = |%s|, out = |%s|\n", op, buf) ); 345 xfree(op); 346 return (char *) tostring((char *) buf); 347 } 348 349 void overflo(const char *s) 350 { 351 FATAL("regular expression too big: %.30s...", s); 352 } 353 354 void cfoll(fa *f, Node *v) /* enter follow set of each leaf of vertex v into lfollow[leaf] */ 355 { 356 int i; 357 int *p; 358 359 switch (type(v)) { 360 LEAF 361 f->re[info(v)].ltype = type(v); 362 f->re[info(v)].lval.np = right(v); 363 while (f->accept >= maxsetvec) { /* guessing here! */ 364 maxsetvec *= 4; 365 setvec = (int *) realloc(setvec, maxsetvec * sizeof(int)); 366 tmpset = (int *) realloc(tmpset, maxsetvec * sizeof(int)); 367 if (setvec == 0 || tmpset == 0) 368 overflo("out of space in cfoll()"); 369 } 370 for (i = 0; i <= f->accept; i++) 371 setvec[i] = 0; 372 setcnt = 0; 373 follow(v); /* computes setvec and setcnt */ 374 if ((p = (int *) calloc(1, (setcnt+1)*sizeof(int))) == NULL) 375 overflo("out of space building follow set"); 376 f->re[info(v)].lfollow = p; 377 *p = setcnt; 378 for (i = f->accept; i >= 0; i--) 379 if (setvec[i] == 1) 380 *++p = i; 381 break; 382 UNARY 383 cfoll(f,left(v)); 384 break; 385 case CAT: 386 case OR: 387 cfoll(f,left(v)); 388 cfoll(f,right(v)); 389 break; 390 default: /* can't happen */ 391 FATAL("can't happen: unknown type %d in cfoll", type(v)); 392 } 393 } 394 395 int first(Node *p) /* collects initially active leaves of p into setvec */ 396 /* returns 1 if p matches empty string */ 397 { 398 int b, lp; 399 400 switch (type(p)) { 401 LEAF 402 lp = info(p); /* look for high-water mark of subscripts */ 403 while (setcnt >= maxsetvec || lp >= maxsetvec) { /* guessing here! */ 404 maxsetvec *= 4; 405 setvec = (int *) realloc(setvec, maxsetvec * sizeof(int)); 406 tmpset = (int *) realloc(tmpset, maxsetvec * sizeof(int)); 407 if (setvec == 0 || tmpset == 0) 408 overflo("out of space in first()"); 409 } 410 if (setvec[lp] != 1) { 411 setvec[lp] = 1; 412 setcnt++; 413 } 414 if (type(p) == CCL && (*(char *) right(p)) == '\0') 415 return(0); /* empty CCL */ 416 else return(1); 417 case PLUS: 418 if (first(left(p)) == 0) return(0); 419 return(1); 420 case STAR: 421 case QUEST: 422 first(left(p)); 423 return(0); 424 case CAT: 425 if (first(left(p)) == 0 && first(right(p)) == 0) return(0); 426 return(1); 427 case OR: 428 b = first(right(p)); 429 if (first(left(p)) == 0 || b == 0) return(0); 430 return(1); 431 } 432 FATAL("can't happen: unknown type %d in first", type(p)); /* can't happen */ 433 return(-1); 434 } 435 436 void follow(Node *v) /* collects leaves that can follow v into setvec */ 437 { 438 Node *p; 439 440 if (type(v) == FINAL) 441 return; 442 p = parent(v); 443 switch (type(p)) { 444 case STAR: 445 case PLUS: 446 first(v); 447 follow(p); 448 return; 449 450 case OR: 451 case QUEST: 452 follow(p); 453 return; 454 455 case CAT: 456 if (v == left(p)) { /* v is left child of p */ 457 if (first(right(p)) == 0) { 458 follow(p); 459 return; 460 } 461 } else /* v is right child */ 462 follow(p); 463 return; 464 } 465 } 466 467 int member(int c, const char *sarg) /* is c in s? */ 468 { 469 uschar *s = (uschar *) sarg; 470 471 while (*s) 472 if (c == *s++) 473 return(1); 474 return(0); 475 } 476 477 int match(fa *f, const char *p0) /* shortest match ? */ 478 { 479 int s, ns; 480 uschar *p = (uschar *) p0; 481 482 s = f->reset ? makeinit(f,0) : f->initstat; 483 if (f->out[s]) 484 return(1); 485 do { 486 if ((ns = f->gototab[s][*p]) != 0) 487 s = ns; 488 else 489 s = cgoto(f, s, *p); 490 if (f->out[s]) 491 return(1); 492 } while (*p++ != 0); 493 return(0); 494 } 495 496 int pmatch(fa *f, const char *p0) /* longest match, for sub */ 497 { 498 int s, ns; 499 uschar *p = (uschar *) p0; 500 uschar *q; 501 int i, k; 502 503 s = f->reset ? makeinit(f,1) : f->initstat; 504 patbeg = (char *) p; 505 patlen = -1; 506 do { 507 q = p; 508 do { 509 if (f->out[s]) /* final state */ 510 patlen = q-p; 511 if ((ns = f->gototab[s][*q]) != 0) 512 s = ns; 513 else 514 s = cgoto(f, s, *q); 515 if (s == 1) { /* no transition */ 516 if (patlen >= 0) { 517 patbeg = (char *) p; 518 return(1); 519 } 520 else 521 goto nextin; /* no match */ 522 } 523 } while (*q++ != 0); 524 if (f->out[s]) 525 patlen = q-p-1; /* don't count $ */ 526 if (patlen >= 0) { 527 patbeg = (char *) p; 528 return(1); 529 } 530 nextin: 531 s = 2; 532 if (f->reset) { 533 for (i = 2; i <= f->curstat; i++) 534 xfree(f->posns[i]); 535 k = *f->posns[0]; 536 if ((f->posns[2] = (int *) calloc(1, (k+1)*sizeof(int))) == NULL) 537 overflo("out of space in pmatch"); 538 for (i = 0; i <= k; i++) 539 (f->posns[2])[i] = (f->posns[0])[i]; 540 f->initstat = f->curstat = 2; 541 f->out[2] = f->out[0]; 542 for (i = 0; i < NCHARS; i++) 543 f->gototab[2][i] = 0; 544 } 545 } while (*p++ != 0); 546 return (0); 547 } 548 549 int nematch(fa *f, const char *p0) /* non-empty match, for sub */ 550 { 551 int s, ns; 552 uschar *p = (uschar *) p0; 553 uschar *q; 554 int i, k; 555 556 s = f->reset ? makeinit(f,1) : f->initstat; 557 patlen = -1; 558 while (*p) { 559 q = p; 560 do { 561 if (f->out[s]) /* final state */ 562 patlen = q-p; 563 if ((ns = f->gototab[s][*q]) != 0) 564 s = ns; 565 else 566 s = cgoto(f, s, *q); 567 if (s == 1) { /* no transition */ 568 if (patlen > 0) { 569 patbeg = (char *) p; 570 return(1); 571 } else 572 goto nnextin; /* no nonempty match */ 573 } 574 } while (*q++ != 0); 575 if (f->out[s]) 576 patlen = q-p-1; /* don't count $ */ 577 if (patlen > 0 ) { 578 patbeg = (char *) p; 579 return(1); 580 } 581 nnextin: 582 s = 2; 583 if (f->reset) { 584 for (i = 2; i <= f->curstat; i++) 585 xfree(f->posns[i]); 586 k = *f->posns[0]; 587 if ((f->posns[2] = (int *) calloc(1, (k+1)*sizeof(int))) == NULL) 588 overflo("out of state space"); 589 for (i = 0; i <= k; i++) 590 (f->posns[2])[i] = (f->posns[0])[i]; 591 f->initstat = f->curstat = 2; 592 f->out[2] = f->out[0]; 593 for (i = 0; i < NCHARS; i++) 594 f->gototab[2][i] = 0; 595 } 596 p++; 597 } 598 return (0); 599 } 600 601 Node *reparse(const char *p) /* parses regular expression pointed to by p */ 602 { /* uses relex() to scan regular expression */ 603 Node *np; 604 605 dprintf( ("reparse <%s>\n", p) ); 606 lastre = prestr = (uschar *) p; /* prestr points to string to be parsed */ 607 rtok = relex(); 608 /* GNU compatibility: an empty regexp matches anything */ 609 if (rtok == '\0') 610 /* FATAL("empty regular expression"); previous */ 611 return(op2(ALL, NIL, NIL)); 612 np = regexp(); 613 if (rtok != '\0') 614 FATAL("syntax error in regular expression %s at %s", lastre, prestr); 615 return(np); 616 } 617 618 Node *regexp(void) /* top-level parse of reg expr */ 619 { 620 return (alt(concat(primary()))); 621 } 622 623 Node *primary(void) 624 { 625 Node *np; 626 627 switch (rtok) { 628 case CHAR: 629 np = op2(CHAR, NIL, itonp(rlxval)); 630 rtok = relex(); 631 return (unary(np)); 632 case ALL: 633 rtok = relex(); 634 return (unary(op2(ALL, NIL, NIL))); 635 case DOT: 636 rtok = relex(); 637 return (unary(op2(DOT, NIL, NIL))); 638 case CCL: 639 np = op2(CCL, NIL, (Node*) cclenter((char *) rlxstr)); 640 rtok = relex(); 641 return (unary(np)); 642 case NCCL: 643 np = op2(NCCL, NIL, (Node *) cclenter((char *) rlxstr)); 644 rtok = relex(); 645 return (unary(np)); 646 case '^': 647 rtok = relex(); 648 return (unary(op2(CHAR, NIL, itonp(HAT)))); 649 case '$': 650 rtok = relex(); 651 return (unary(op2(CHAR, NIL, NIL))); 652 case '(': 653 rtok = relex(); 654 if (rtok == ')') { /* special pleading for () */ 655 rtok = relex(); 656 return unary(op2(CCL, NIL, (Node *) tostring(""))); 657 } 658 np = regexp(); 659 if (rtok == ')') { 660 rtok = relex(); 661 return (unary(np)); 662 } 663 else 664 FATAL("syntax error in regular expression %s at %s", lastre, prestr); 665 default: 666 FATAL("illegal primary in regular expression %s at %s", lastre, prestr); 667 } 668 return 0; /*NOTREACHED*/ 669 } 670 671 Node *concat(Node *np) 672 { 673 switch (rtok) { 674 case CHAR: case DOT: case ALL: case CCL: case NCCL: case '$': case '(': 675 return (concat(op2(CAT, np, primary()))); 676 } 677 return (np); 678 } 679 680 Node *alt(Node *np) 681 { 682 if (rtok == OR) { 683 rtok = relex(); 684 return (alt(op2(OR, np, concat(primary())))); 685 } 686 return (np); 687 } 688 689 Node *unary(Node *np) 690 { 691 switch (rtok) { 692 case STAR: 693 rtok = relex(); 694 return (unary(op2(STAR, np, NIL))); 695 case PLUS: 696 rtok = relex(); 697 return (unary(op2(PLUS, np, NIL))); 698 case QUEST: 699 rtok = relex(); 700 return (unary(op2(QUEST, np, NIL))); 701 default: 702 return (np); 703 } 704 } 705 706 /* 707 * Character class definitions conformant to the POSIX locale as 708 * defined in IEEE P1003.1 draft 7 of June 2001, assuming the source 709 * and operating character sets are both ASCII (ISO646) or supersets 710 * thereof. 711 * 712 * Note that to avoid overflowing the temporary buffer used in 713 * relex(), the expanded character class (prior to range expansion) 714 * must be less than twice the size of their full name. 715 */ 716 717 /* Because isblank doesn't show up in any of the header files on any 718 * system i use, it's defined here. if some other locale has a richer 719 * definition of "blank", define HAS_ISBLANK and provide your own 720 * version. 721 */ 722 723 #ifndef HAS_ISBLANK 724 725 int isblank(int c) 726 { 727 return c==' ' || c=='\t'; 728 } 729 730 #endif 731 732 struct charclass { 733 const char *cc_name; 734 int cc_namelen; 735 int (*cc_func)(int); 736 } charclasses[] = { 737 { "alnum", 5, isalnum }, 738 { "alpha", 5, isalpha }, 739 { "blank", 5, isblank }, 740 { "cntrl", 5, iscntrl }, 741 { "digit", 5, isdigit }, 742 { "graph", 5, isgraph }, 743 { "lower", 5, islower }, 744 { "print", 5, isprint }, 745 { "punct", 5, ispunct }, 746 { "space", 5, isspace }, 747 { "upper", 5, isupper }, 748 { "xdigit", 6, isxdigit }, 749 { NULL, 0, NULL }, 750 }; 751 752 753 int relex(void) /* lexical analyzer for reparse */ 754 { 755 int c, n; 756 int cflag; 757 static uschar *buf = 0; 758 static int bufsz = 100; 759 uschar *bp; 760 struct charclass *cc; 761 int i; 762 763 switch (c = *prestr++) { 764 case '|': return OR; 765 case '*': return STAR; 766 case '+': return PLUS; 767 case '?': return QUEST; 768 case '.': return DOT; 769 case '\0': prestr--; return '\0'; 770 case '^': 771 case '$': 772 case '(': 773 case ')': 774 return c; 775 case '\\': 776 rlxval = quoted((char **) &prestr); 777 return CHAR; 778 default: 779 rlxval = c; 780 return CHAR; 781 case '[': 782 if (buf == 0 && (buf = (uschar *) malloc(bufsz)) == NULL) 783 FATAL("out of space in reg expr %.10s..", lastre); 784 bp = buf; 785 if (*prestr == '^') { 786 cflag = 1; 787 prestr++; 788 } 789 else 790 cflag = 0; 791 n = 2 * strlen((const char *) prestr)+1; 792 if (!adjbuf((char **) &buf, &bufsz, n, n, (char **) &bp, 0)) 793 FATAL("out of space for reg expr %.10s...", lastre); 794 for (; ; ) { 795 if ((c = *prestr++) == '\\') { 796 *bp++ = '\\'; 797 if ((c = *prestr++) == '\0') 798 FATAL("nonterminated character class %.20s...", lastre); 799 *bp++ = c; 800 /* } else if (c == '\n') { */ 801 /* FATAL("newline in character class %.20s...", lastre); */ 802 } else if (c == '[' && *prestr == ':') { 803 /* POSIX char class names, Dag-Erling Smorgrav, des@ofug.org */ 804 for (cc = charclasses; cc->cc_name; cc++) 805 if (strncmp((const char *) prestr + 1, (const char *) cc->cc_name, cc->cc_namelen) == 0) 806 break; 807 if (cc->cc_name != NULL && prestr[1 + cc->cc_namelen] == ':' && 808 prestr[2 + cc->cc_namelen] == ']') { 809 prestr += cc->cc_namelen + 3; 810 for (i = 0; i < NCHARS; i++) { 811 if (!adjbuf((char **) &buf, &bufsz, bp-buf+1, 100, (char **) &bp, 0)) 812 FATAL("out of space for reg expr %.10s...", lastre); 813 if (cc->cc_func(i)) { 814 *bp++ = i; 815 n++; 816 } 817 } 818 } else 819 *bp++ = c; 820 } else if (c == '\0') { 821 FATAL("nonterminated character class %.20s", lastre); 822 } else if (bp == buf) { /* 1st char is special */ 823 *bp++ = c; 824 } else if (c == ']') { 825 *bp++ = 0; 826 rlxstr = (uschar *) tostring((char *) buf); 827 if (cflag == 0) 828 return CCL; 829 else 830 return NCCL; 831 } else 832 *bp++ = c; 833 } 834 } 835 } 836 837 int cgoto(fa *f, int s, int c) 838 { 839 int i, j, k; 840 int *p, *q; 841 842 if (c < 0 || c > 255) 843 FATAL("can't happen: neg char %d in cgoto", c); 844 while (f->accept >= maxsetvec) { /* guessing here! */ 845 maxsetvec *= 4; 846 setvec = (int *) realloc(setvec, maxsetvec * sizeof(int)); 847 tmpset = (int *) realloc(tmpset, maxsetvec * sizeof(int)); 848 if (setvec == 0 || tmpset == 0) 849 overflo("out of space in cgoto()"); 850 } 851 for (i = 0; i <= f->accept; i++) 852 setvec[i] = 0; 853 setcnt = 0; 854 /* compute positions of gototab[s,c] into setvec */ 855 p = f->posns[s]; 856 for (i = 1; i <= *p; i++) { 857 if ((k = f->re[p[i]].ltype) != FINAL) { 858 if ((k == CHAR && c == ptoi(f->re[p[i]].lval.np)) 859 || (k == DOT && c != 0 && c != HAT) 860 || (k == ALL && c != 0) 861 || (k == CCL && member(c, (char *) f->re[p[i]].lval.up)) 862 || (k == NCCL && !member(c, (char *) f->re[p[i]].lval.up) && c != 0 && c != HAT)) { 863 q = f->re[p[i]].lfollow; 864 for (j = 1; j <= *q; j++) { 865 if (q[j] >= maxsetvec) { 866 maxsetvec *= 4; 867 setvec = (int *) realloc(setvec, maxsetvec * sizeof(int)); 868 tmpset = (int *) realloc(setvec, maxsetvec * sizeof(int)); 869 if (setvec == 0 || tmpset == 0) 870 overflo("cgoto overflow"); 871 } 872 if (setvec[q[j]] == 0) { 873 setcnt++; 874 setvec[q[j]] = 1; 875 } 876 } 877 } 878 } 879 } 880 /* determine if setvec is a previous state */ 881 tmpset[0] = setcnt; 882 j = 1; 883 for (i = f->accept; i >= 0; i--) 884 if (setvec[i]) { 885 tmpset[j++] = i; 886 } 887 /* tmpset == previous state? */ 888 for (i = 1; i <= f->curstat; i++) { 889 p = f->posns[i]; 890 if ((k = tmpset[0]) != p[0]) 891 goto different; 892 for (j = 1; j <= k; j++) 893 if (tmpset[j] != p[j]) 894 goto different; 895 /* setvec is state i */ 896 f->gototab[s][c] = i; 897 return i; 898 different:; 899 } 900 901 /* add tmpset to current set of states */ 902 if (f->curstat >= NSTATES-1) { 903 f->curstat = 2; 904 f->reset = 1; 905 for (i = 2; i < NSTATES; i++) 906 xfree(f->posns[i]); 907 } else 908 ++(f->curstat); 909 for (i = 0; i < NCHARS; i++) 910 f->gototab[f->curstat][i] = 0; 911 xfree(f->posns[f->curstat]); 912 if ((p = (int *) calloc(1, (setcnt+1)*sizeof(int))) == NULL) 913 overflo("out of space in cgoto"); 914 915 f->posns[f->curstat] = p; 916 f->gototab[s][c] = f->curstat; 917 for (i = 0; i <= setcnt; i++) 918 p[i] = tmpset[i]; 919 if (setvec[f->accept]) 920 f->out[f->curstat] = 1; 921 else 922 f->out[f->curstat] = 0; 923 return f->curstat; 924 } 925 926 927 void freefa(fa *f) /* free a finite automaton */ 928 { 929 int i; 930 931 if (f == NULL) 932 return; 933 for (i = 0; i <= f->curstat; i++) 934 xfree(f->posns[i]); 935 for (i = 0; i <= f->accept; i++) { 936 xfree(f->re[i].lfollow); 937 if (f->re[i].ltype == CCL || f->re[i].ltype == NCCL) 938 xfree((f->re[i].lval.np)); 939 } 940 xfree(f->restr); 941 xfree(f); 942 } 943