1 /* $OpenBSD: obj_dat.c,v 1.69 2023/12/14 14:33:23 tb Exp $ */ 2 /* Copyright (C) 1995-1998 Eric Young (eay@cryptsoft.com) 3 * All rights reserved. 4 * 5 * This package is an SSL implementation written 6 * by Eric Young (eay@cryptsoft.com). 7 * The implementation was written so as to conform with Netscapes SSL. 8 * 9 * This library is free for commercial and non-commercial use as long as 10 * the following conditions are aheared to. The following conditions 11 * apply to all code found in this distribution, be it the RC4, RSA, 12 * lhash, DES, etc., code; not just the SSL code. The SSL documentation 13 * included with this distribution is covered by the same copyright terms 14 * except that the holder is Tim Hudson (tjh@cryptsoft.com). 15 * 16 * Copyright remains Eric Young's, and as such any Copyright notices in 17 * the code are not to be removed. 18 * If this package is used in a product, Eric Young should be given attribution 19 * as the author of the parts of the library used. 20 * This can be in the form of a textual message at program startup or 21 * in documentation (online or textual) provided with the package. 22 * 23 * Redistribution and use in source and binary forms, with or without 24 * modification, are permitted provided that the following conditions 25 * are met: 26 * 1. Redistributions of source code must retain the copyright 27 * notice, this list of conditions and the following disclaimer. 28 * 2. Redistributions in binary form must reproduce the above copyright 29 * notice, this list of conditions and the following disclaimer in the 30 * documentation and/or other materials provided with the distribution. 31 * 3. All advertising materials mentioning features or use of this software 32 * must display the following acknowledgement: 33 * "This product includes cryptographic software written by 34 * Eric Young (eay@cryptsoft.com)" 35 * The word 'cryptographic' can be left out if the rouines from the library 36 * being used are not cryptographic related :-). 37 * 4. If you include any Windows specific code (or a derivative thereof) from 38 * the apps directory (application code) you must include an acknowledgement: 39 * "This product includes software written by Tim Hudson (tjh@cryptsoft.com)" 40 * 41 * THIS SOFTWARE IS PROVIDED BY ERIC YOUNG ``AS IS'' AND 42 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 43 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 44 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 45 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 46 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 47 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 48 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 49 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 50 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 51 * SUCH DAMAGE. 52 * 53 * The licence and distribution terms for any publically available version or 54 * derivative of this code cannot be changed. i.e. this code cannot simply be 55 * copied and put under another distribution licence 56 * [including the GNU Public Licence.] 57 */ 58 59 #include <ctype.h> 60 #include <limits.h> 61 #include <stdio.h> 62 #include <stdlib.h> 63 #include <string.h> 64 65 #include <openssl/opensslconf.h> 66 67 #include <openssl/asn1.h> 68 #include <openssl/bn.h> 69 #include <openssl/err.h> 70 #include <openssl/lhash.h> 71 #include <openssl/objects.h> 72 73 #include "asn1_local.h" 74 75 /* obj_dat.h is generated from objects.h by obj_dat.pl */ 76 #include "obj_dat.h" 77 78 #define ADDED_DATA 0 79 #define ADDED_SNAME 1 80 #define ADDED_LNAME 2 81 #define ADDED_NID 3 82 83 typedef struct added_obj_st { 84 int type; 85 ASN1_OBJECT *obj; 86 } ADDED_OBJ; 87 DECLARE_LHASH_OF(ADDED_OBJ); 88 89 static int new_nid = NUM_NID; 90 static LHASH_OF(ADDED_OBJ) *added = NULL; 91 92 static unsigned long 93 added_obj_hash(const ADDED_OBJ *ca) 94 { 95 const ASN1_OBJECT *a; 96 int i; 97 unsigned long ret = 0; 98 unsigned char *p; 99 100 a = ca->obj; 101 switch (ca->type) { 102 case ADDED_DATA: 103 ret = a->length << 20L; 104 p = (unsigned char *)a->data; 105 for (i = 0; i < a->length; i++) 106 ret ^= p[i] << ((i * 3) % 24); 107 break; 108 case ADDED_SNAME: 109 ret = lh_strhash(a->sn); 110 break; 111 case ADDED_LNAME: 112 ret = lh_strhash(a->ln); 113 break; 114 case ADDED_NID: 115 ret = a->nid; 116 break; 117 default: 118 return 0; 119 } 120 ret &= 0x3fffffffL; 121 ret |= ca->type << 30L; 122 return (ret); 123 } 124 static IMPLEMENT_LHASH_HASH_FN(added_obj, ADDED_OBJ) 125 126 static int 127 added_obj_cmp(const ADDED_OBJ *ca, const ADDED_OBJ *cb) 128 { 129 const ASN1_OBJECT *a, *b; 130 int cmp; 131 132 if ((cmp = ca->type - cb->type) != 0) 133 return cmp; 134 135 a = ca->obj; 136 b = cb->obj; 137 switch (ca->type) { 138 case ADDED_DATA: 139 return OBJ_cmp(a, b); 140 case ADDED_SNAME: 141 if (a->sn == NULL) 142 return -1; 143 if (b->sn == NULL) 144 return 1; 145 return strcmp(a->sn, b->sn); 146 case ADDED_LNAME: 147 if (a->ln == NULL) 148 return -1; 149 if (b->ln == NULL) 150 return 1; 151 return strcmp(a->ln, b->ln); 152 case ADDED_NID: 153 return a->nid - b->nid; 154 default: 155 return 0; 156 } 157 } 158 static IMPLEMENT_LHASH_COMP_FN(added_obj, ADDED_OBJ) 159 160 static void 161 cleanup1_doall(ADDED_OBJ *a) 162 { 163 a->obj->nid = 0; 164 a->obj->flags |= ASN1_OBJECT_FLAG_DYNAMIC | 165 ASN1_OBJECT_FLAG_DYNAMIC_STRINGS | 166 ASN1_OBJECT_FLAG_DYNAMIC_DATA; 167 } 168 169 static void cleanup2_doall(ADDED_OBJ *a) 170 { 171 a->obj->nid++; 172 } 173 174 static void 175 cleanup3_doall(ADDED_OBJ *a) 176 { 177 if (--a->obj->nid == 0) 178 ASN1_OBJECT_free(a->obj); 179 free(a); 180 } 181 182 static IMPLEMENT_LHASH_DOALL_FN(cleanup1, ADDED_OBJ) 183 static IMPLEMENT_LHASH_DOALL_FN(cleanup2, ADDED_OBJ) 184 static IMPLEMENT_LHASH_DOALL_FN(cleanup3, ADDED_OBJ) 185 186 /* The purpose of obj_cleanup_defer is to avoid EVP_cleanup() attempting 187 * to use freed up OIDs. If necessary the actual freeing up of OIDs is 188 * delayed. 189 */ 190 191 int obj_cleanup_defer = 0; 192 193 void 194 check_defer(int nid) 195 { 196 if (!obj_cleanup_defer && nid >= NUM_NID) 197 obj_cleanup_defer = 1; 198 } 199 200 void 201 OBJ_cleanup(void) 202 { 203 if (obj_cleanup_defer) { 204 obj_cleanup_defer = 2; 205 return; 206 } 207 if (added == NULL) 208 return; 209 lh_ADDED_OBJ_down_load(added) = 0; 210 lh_ADDED_OBJ_doall(added, LHASH_DOALL_FN(cleanup1)); /* zero counters */ 211 lh_ADDED_OBJ_doall(added, LHASH_DOALL_FN(cleanup2)); /* set counters */ 212 lh_ADDED_OBJ_doall(added, LHASH_DOALL_FN(cleanup3)); /* free objects */ 213 lh_ADDED_OBJ_free(added); 214 added = NULL; 215 } 216 LCRYPTO_ALIAS(OBJ_cleanup); 217 218 int 219 OBJ_new_nid(int num) 220 { 221 int i; 222 223 i = new_nid; 224 new_nid += num; 225 return (i); 226 } 227 LCRYPTO_ALIAS(OBJ_new_nid); 228 229 int 230 OBJ_add_object(const ASN1_OBJECT *obj) 231 { 232 ASN1_OBJECT *o = NULL; 233 ADDED_OBJ *ao[4] = {NULL, NULL, NULL, NULL}, *aop; 234 int i; 235 236 if (added == NULL) 237 added = lh_ADDED_OBJ_new(); 238 if (added == NULL) 239 goto err; 240 if (obj == NULL || obj->nid == NID_undef) 241 goto err; 242 if ((o = OBJ_dup(obj)) == NULL) 243 goto err; 244 if (!(ao[ADDED_NID] = malloc(sizeof(ADDED_OBJ)))) 245 goto err2; 246 if ((o->length != 0) && (obj->data != NULL)) 247 if (!(ao[ADDED_DATA] = malloc(sizeof(ADDED_OBJ)))) 248 goto err2; 249 if (o->sn != NULL) 250 if (!(ao[ADDED_SNAME] = malloc(sizeof(ADDED_OBJ)))) 251 goto err2; 252 if (o->ln != NULL) 253 if (!(ao[ADDED_LNAME] = malloc(sizeof(ADDED_OBJ)))) 254 goto err2; 255 256 for (i = ADDED_DATA; i <= ADDED_NID; i++) { 257 if (ao[i] != NULL) { 258 ao[i]->type = i; 259 ao[i]->obj = o; 260 aop = lh_ADDED_OBJ_insert(added, ao[i]); 261 /* memory leak, but should not normally matter */ 262 free(aop); 263 } 264 } 265 o->flags &= ~(ASN1_OBJECT_FLAG_DYNAMIC | 266 ASN1_OBJECT_FLAG_DYNAMIC_STRINGS | 267 ASN1_OBJECT_FLAG_DYNAMIC_DATA); 268 269 return (o->nid); 270 271 err2: 272 OBJerror(ERR_R_MALLOC_FAILURE); 273 err: 274 for (i = ADDED_DATA; i <= ADDED_NID; i++) 275 free(ao[i]); 276 ASN1_OBJECT_free(o); 277 return (NID_undef); 278 } 279 LCRYPTO_ALIAS(OBJ_add_object); 280 281 ASN1_OBJECT * 282 OBJ_nid2obj(int nid) 283 { 284 if (nid >= 0 && nid < NUM_NID) { 285 if (nid == NID_undef || nid_objs[nid].nid != NID_undef) 286 return (ASN1_OBJECT *)&nid_objs[nid]; 287 288 goto unknown; 289 } 290 291 /* XXX - locking. */ 292 if (added != NULL) { 293 ASN1_OBJECT aobj = { 294 .nid = nid, 295 }; 296 ADDED_OBJ needle = { 297 .type = ADDED_NID, 298 .obj = &aobj, 299 }; 300 ADDED_OBJ *found; 301 302 if ((found = lh_ADDED_OBJ_retrieve(added, &needle)) != NULL) 303 return found->obj; 304 } 305 306 unknown: 307 OBJerror(OBJ_R_UNKNOWN_NID); 308 309 return NULL; 310 } 311 LCRYPTO_ALIAS(OBJ_nid2obj); 312 313 const char * 314 OBJ_nid2sn(int nid) 315 { 316 ASN1_OBJECT *aobj; 317 318 if ((aobj = OBJ_nid2obj(nid)) == NULL) 319 return NULL; 320 321 return aobj->sn; 322 } 323 LCRYPTO_ALIAS(OBJ_nid2sn); 324 325 const char * 326 OBJ_nid2ln(int nid) 327 { 328 ASN1_OBJECT *aobj; 329 330 if ((aobj = OBJ_nid2obj(nid)) == NULL) 331 return NULL; 332 333 return aobj->ln; 334 } 335 LCRYPTO_ALIAS(OBJ_nid2ln); 336 337 static int 338 obj_objs_cmp(const void *aobj, const void *b) 339 { 340 const unsigned int *nid = b; 341 342 return OBJ_cmp(aobj, &nid_objs[*nid]); 343 } 344 345 int 346 OBJ_obj2nid(const ASN1_OBJECT *aobj) 347 { 348 const unsigned int *nid; 349 350 if (aobj == NULL || aobj->length == 0) 351 return NID_undef; 352 353 if (aobj->nid != NID_undef) 354 return aobj->nid; 355 356 /* XXX - locking. OpenSSL 3 moved this after built-in object lookup. */ 357 if (added != NULL) { 358 ADDED_OBJ needle = { 359 .type = ADDED_DATA, 360 .obj = (ASN1_OBJECT *)aobj, 361 }; 362 ADDED_OBJ *found; 363 364 if ((found = lh_ADDED_OBJ_retrieve(added, &needle)) != NULL) 365 return found->obj->nid; 366 } 367 368 /* obj_objs holds built-in obj NIDs in ascending OBJ_cmp() order. */ 369 nid = bsearch(aobj, obj_objs, NUM_OBJ, sizeof(unsigned int), obj_objs_cmp); 370 if (nid != NULL) 371 return *nid; 372 373 return NID_undef; 374 } 375 LCRYPTO_ALIAS(OBJ_obj2nid); 376 377 /* Convert an object name into an ASN1_OBJECT 378 * if "noname" is not set then search for short and long names first. 379 * This will convert the "dotted" form into an object: unlike OBJ_txt2nid 380 * it can be used with any objects, not just registered ones. 381 */ 382 383 ASN1_OBJECT * 384 OBJ_txt2obj(const char *s, int no_name) 385 { 386 int nid; 387 388 if (!no_name) { 389 if ((nid = OBJ_sn2nid(s)) != NID_undef || 390 (nid = OBJ_ln2nid(s)) != NID_undef) 391 return OBJ_nid2obj(nid); 392 } 393 394 return t2i_ASN1_OBJECT_internal(s); 395 } 396 LCRYPTO_ALIAS(OBJ_txt2obj); 397 398 int 399 OBJ_obj2txt(char *buf, int buf_len, const ASN1_OBJECT *aobj, int no_name) 400 { 401 return i2t_ASN1_OBJECT_internal(aobj, buf, buf_len, no_name); 402 } 403 LCRYPTO_ALIAS(OBJ_obj2txt); 404 405 int 406 OBJ_txt2nid(const char *s) 407 { 408 ASN1_OBJECT *obj; 409 int nid; 410 411 obj = OBJ_txt2obj(s, 0); 412 nid = OBJ_obj2nid(obj); 413 ASN1_OBJECT_free(obj); 414 return nid; 415 } 416 LCRYPTO_ALIAS(OBJ_txt2nid); 417 418 static int 419 ln_objs_cmp(const void *ln, const void *b) 420 { 421 const unsigned int *nid = b; 422 423 return strcmp(ln, nid_objs[*nid].ln); 424 } 425 426 int 427 OBJ_ln2nid(const char *ln) 428 { 429 const unsigned int *nid; 430 431 /* XXX - locking. OpenSSL 3 moved this after built-in object lookup. */ 432 if (added != NULL) { 433 ASN1_OBJECT aobj = { 434 .ln = ln, 435 }; 436 ADDED_OBJ needle = { 437 .type = ADDED_LNAME, 438 .obj = &aobj, 439 }; 440 ADDED_OBJ *found; 441 442 if ((found = lh_ADDED_OBJ_retrieve(added, &needle)) != NULL) 443 return found->obj->nid; 444 } 445 446 /* ln_objs holds NIDs in ascending alphabetical order of LN. */ 447 nid = bsearch(ln, ln_objs, NUM_LN, sizeof(unsigned int), ln_objs_cmp); 448 if (nid != NULL) 449 return *nid; 450 451 return NID_undef; 452 } 453 LCRYPTO_ALIAS(OBJ_ln2nid); 454 455 static int 456 sn_objs_cmp(const void *sn, const void *b) 457 { 458 const unsigned int *nid = b; 459 460 return strcmp(sn, nid_objs[*nid].sn); 461 } 462 463 int 464 OBJ_sn2nid(const char *sn) 465 { 466 const unsigned int *nid; 467 468 /* XXX - locking. OpenSSL 3 moved this after built-in object lookup. */ 469 if (added != NULL) { 470 ASN1_OBJECT aobj = { 471 .sn = sn, 472 }; 473 ADDED_OBJ needle = { 474 .type = ADDED_SNAME, 475 .obj = &aobj, 476 }; 477 ADDED_OBJ *found; 478 479 if ((found = lh_ADDED_OBJ_retrieve(added, &needle)) != NULL) 480 return found->obj->nid; 481 } 482 483 /* sn_objs holds NIDs in ascending alphabetical order of SN. */ 484 nid = bsearch(sn, sn_objs, NUM_SN, sizeof(unsigned int), sn_objs_cmp); 485 if (nid != NULL) 486 return *nid; 487 488 return NID_undef; 489 } 490 LCRYPTO_ALIAS(OBJ_sn2nid); 491 492 const void * 493 OBJ_bsearch_(const void *key, const void *base, int num, int size, 494 int (*cmp)(const void *, const void *)) 495 { 496 return OBJ_bsearch_ex_(key, base, num, size, cmp, 0); 497 } 498 LCRYPTO_ALIAS(OBJ_bsearch_); 499 500 const void * 501 OBJ_bsearch_ex_(const void *key, const void *base_, int num, int size, 502 int (*cmp)(const void *, const void *), int flags) 503 { 504 const char *base = base_; 505 int l, h, i = 0, c = 0; 506 const char *p = NULL; 507 508 if (num == 0) 509 return (NULL); 510 l = 0; 511 h = num; 512 while (l < h) { 513 i = (l + h) / 2; 514 p = &(base[i * size]); 515 c = (*cmp)(key, p); 516 if (c < 0) 517 h = i; 518 else if (c > 0) 519 l = i + 1; 520 else 521 break; 522 } 523 if (c != 0 && !(flags & OBJ_BSEARCH_VALUE_ON_NOMATCH)) 524 p = NULL; 525 else if (c == 0 && (flags & OBJ_BSEARCH_FIRST_VALUE_ON_MATCH)) { 526 while (i > 0 && (*cmp)(key, &(base[(i - 1) * size])) == 0) 527 i--; 528 p = &(base[i * size]); 529 } 530 return (p); 531 } 532 533 int 534 OBJ_create_objects(BIO *in) 535 { 536 char buf[512]; 537 int i, num = 0; 538 char *o, *s, *l = NULL; 539 540 for (;;) { 541 s = o = NULL; 542 i = BIO_gets(in, buf, 512); 543 if (i <= 0) 544 return (num); 545 buf[i - 1] = '\0'; 546 if (!isalnum((unsigned char)buf[0])) 547 return (num); 548 o = s=buf; 549 while (isdigit((unsigned char)*s) || (*s == '.')) 550 s++; 551 if (*s != '\0') { 552 *(s++) = '\0'; 553 while (isspace((unsigned char)*s)) 554 s++; 555 if (*s == '\0') 556 s = NULL; 557 else { 558 l = s; 559 while ((*l != '\0') && 560 !isspace((unsigned char)*l)) 561 l++; 562 if (*l != '\0') { 563 *(l++) = '\0'; 564 while (isspace((unsigned char)*l)) 565 l++; 566 if (*l == '\0') 567 l = NULL; 568 } else 569 l = NULL; 570 } 571 } else 572 s = NULL; 573 if ((o == NULL) || (*o == '\0')) 574 return (num); 575 if (!OBJ_create(o, s, l)) 576 return (num); 577 num++; 578 } 579 /* return(num); */ 580 } 581 LCRYPTO_ALIAS(OBJ_create_objects); 582 583 int 584 OBJ_create(const char *oid, const char *sn, const char *ln) 585 { 586 int ok = 0; 587 ASN1_OBJECT *op = NULL; 588 unsigned char *buf; 589 int i; 590 591 i = a2d_ASN1_OBJECT(NULL, 0, oid, -1); 592 if (i <= 0) 593 return (0); 594 595 if ((buf = malloc(i)) == NULL) { 596 OBJerror(ERR_R_MALLOC_FAILURE); 597 return (0); 598 } 599 i = a2d_ASN1_OBJECT(buf, i, oid, -1); 600 if (i == 0) 601 goto err; 602 op = (ASN1_OBJECT *)ASN1_OBJECT_create(OBJ_new_nid(1), buf, i, sn, ln); 603 if (op == NULL) 604 goto err; 605 ok = OBJ_add_object(op); 606 607 err: 608 ASN1_OBJECT_free(op); 609 free(buf); 610 return (ok); 611 } 612 LCRYPTO_ALIAS(OBJ_create); 613 614 size_t 615 OBJ_length(const ASN1_OBJECT *obj) 616 { 617 if (obj == NULL) 618 return 0; 619 620 if (obj->length < 0) 621 return 0; 622 623 return obj->length; 624 } 625 LCRYPTO_ALIAS(OBJ_length); 626 627 const unsigned char * 628 OBJ_get0_data(const ASN1_OBJECT *obj) 629 { 630 if (obj == NULL) 631 return NULL; 632 633 return obj->data; 634 } 635 LCRYPTO_ALIAS(OBJ_get0_data); 636