1 /* 2 * CDDL HEADER START 3 * 4 * The contents of this file are subject to the terms of the 5 * Common Development and Distribution License (the "License"). 6 * You may not use this file except in compliance with the License. 7 * 8 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 9 * or http://www.opensolaris.org/os/licensing. 10 * See the License for the specific language governing permissions 11 * and limitations under the License. 12 * 13 * When distributing Covered Code, include this CDDL HEADER in each 14 * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 15 * If applicable, add the following below this CDDL HEADER, with the 16 * fields enclosed by brackets "[]" replaced with your own identifying 17 * information: Portions Copyright [yyyy] [name of copyright owner] 18 * 19 * CDDL HEADER END 20 * 21 * Copyright 2009 Sun Microsystems, Inc. All rights reserved. 22 * Use is subject to license terms. 23 */ 24 25 #include <unistd.h> 26 #include <stdio.h> 27 #include <stdarg.h> 28 #include <stdlib.h> 29 #include <sys/sysconf.h> 30 #include <string.h> 31 #include <strings.h> 32 #include <libintl.h> 33 #include <locale.h> 34 #include <ctype.h> 35 #include <time.h> 36 #include <sys/sysmacros.h> 37 #include <sys/stat.h> 38 #include <sys/mman.h> 39 #include <fcntl.h> 40 #include <sys/socket.h> 41 #include <netdb.h> 42 #include <errno.h> 43 #include <assert.h> 44 #include <netinet/in.h> 45 #include <arpa/inet.h> 46 #include <door.h> 47 #include <setjmp.h> 48 49 #include <ipsec_util.h> 50 #include <ikedoor.h> 51 52 static int doorfd = -1; 53 54 /* 55 * These are additional return values for the command line parsing 56 * function (parsecmd()). They are specific to this utility, but 57 * need to share the same space as the IKE_SVC_* defs, without conflicts. 58 * So they're defined relative to the end of that range. 59 */ 60 #define IKEADM_HELP_GENERAL IKE_SVC_MAX + 1 61 #define IKEADM_HELP_GET IKE_SVC_MAX + 2 62 #define IKEADM_HELP_SET IKE_SVC_MAX + 3 63 #define IKEADM_HELP_ADD IKE_SVC_MAX + 4 64 #define IKEADM_HELP_DEL IKE_SVC_MAX + 5 65 #define IKEADM_HELP_DUMP IKE_SVC_MAX + 6 66 #define IKEADM_HELP_FLUSH IKE_SVC_MAX + 7 67 #define IKEADM_HELP_READ IKE_SVC_MAX + 8 68 #define IKEADM_HELP_WRITE IKE_SVC_MAX + 9 69 #define IKEADM_HELP_TOKEN IKE_SVC_MAX + 10 70 #define IKEADM_HELP_HELP IKE_SVC_MAX + 11 71 #define IKEADM_EXIT IKE_SVC_MAX + 12 72 73 /* 74 * Disable default TAB completion for now (until some brave soul tackles it). 75 */ 76 /* ARGSUSED */ 77 static 78 CPL_MATCH_FN(no_match) 79 { 80 return (0); 81 } 82 83 static void 84 command_complete(int s) 85 { 86 if (interactive) { 87 longjmp(env, 1); 88 } else { 89 exit(s); 90 } 91 } 92 93 static void 94 usage() 95 { 96 if (!interactive) { 97 (void) fprintf(stderr, gettext("Usage:\t" 98 "ikeadm [ -hnp ] cmd obj [cmd-specific options]\n")); 99 (void) fprintf(stderr, gettext(" \tikeadm help\n")); 100 } else { 101 (void) fprintf(stderr, 102 gettext("\nType help for usage info\n")); 103 } 104 105 command_complete(1); 106 } 107 108 static void 109 print_help() 110 { 111 (void) printf(gettext("Valid commands and objects:\n")); 112 (void) printf( 113 "\tget debug|priv|stats|p1|rule|preshared|defaults [%s]\n", 114 gettext("identifier")); 115 (void) printf("\tset priv %s\n", gettext("level")); 116 (void) printf("\tset debug %s [%s]\n", 117 gettext("level"), gettext("filename")); 118 (void) printf("\tadd rule|preshared {%s}|%s\n", 119 gettext("definition"), gettext("filename")); 120 (void) printf("\tdel p1|rule|preshared %s\n", gettext("identifier")); 121 (void) printf("\tdump p1|rule|preshared|certcache\n"); 122 (void) printf("\tflush p1|certcache\n"); 123 (void) printf("\tread rule|preshared [%s]\n", gettext("filename")); 124 (void) printf("\twrite rule|preshared %s\n", gettext("filename")); 125 (void) printf("\ttoken <login|logout> %s\n", 126 gettext("<PKCS#11 Token Object>")); 127 (void) printf( 128 "\thelp [get|set|add|del|dump|flush|read|write|token|help]\n"); 129 (void) printf("\texit %s\n", gettext("exit the program")); 130 (void) printf("\tquit %s\n", gettext("exit the program")); 131 132 command_complete(0); 133 } 134 135 static void 136 print_get_help() 137 { 138 (void) printf( 139 gettext("This command gets information from in.iked.\n\n")); 140 (void) printf(gettext("Objects that may be retrieved include:\n")); 141 (void) printf("\tdebug\t\t"); 142 (void) printf(gettext("the current debug level\n")); 143 (void) printf("\tpriv\t\t"); 144 (void) printf(gettext("the current privilege level\n")); 145 (void) printf("\tstats\t\t"); 146 (void) printf(gettext("current usage statistics\n")); 147 (void) printf("\tp1\t\t"); 148 (void) printf(gettext("a phase 1 SA, identified by\n")); 149 (void) printf(gettext("\t\t\t local_ip remote_ip OR\n")); 150 (void) printf(gettext("\t\t\t init_cookie resp_cookie\n")); 151 (void) printf("\trule\t\t"); 152 (void) printf(gettext("a phase 1 rule, identified by its label\n")); 153 (void) printf("\tpreshared\t"); 154 (void) printf(gettext("a preshared key, identified by\n")); 155 (void) printf(gettext("\t\t\t local_ip remote_ip OR\n")); 156 (void) printf(gettext("\t\t\t local_id remote_id\n")); 157 (void) printf("\n"); 158 159 command_complete(0); 160 } 161 162 static void 163 print_set_help() 164 { 165 (void) printf(gettext("This command sets values in in.iked.\n\n")); 166 (void) printf(gettext("Objects that may be set include:\n")); 167 (void) printf("\tdebug\t\t"); 168 (void) printf(gettext("change the debug level\n")); 169 (void) printf("\tpriv\t\t"); 170 (void) printf( 171 gettext("change the privilege level (may only be lowered)\n")); 172 (void) printf("\n"); 173 174 command_complete(0); 175 } 176 177 static void 178 print_add_help() 179 { 180 (void) printf( 181 gettext("This command adds items to in.iked's tables.\n\n")); 182 (void) printf(gettext("Objects that may be set include:\n")); 183 (void) printf("\trule\t\t"); 184 (void) printf(gettext("a phase 1 policy rule\n")); 185 (void) printf("\tpreshared\t"); 186 (void) printf(gettext("a preshared key\n")); 187 (void) printf( 188 gettext("\nObjects may be entered on the command-line, as a\n")); 189 (void) printf( 190 gettext("series of keywords and tokens contained in curly\n")); 191 (void) printf( 192 gettext("braces ('{', '}'); or the name of a file containing\n")); 193 (void) printf(gettext("the object definition may be provided.\n\n")); 194 (void) printf( 195 gettext("For security purposes, preshared keys may only be\n")); 196 (void) printf( 197 gettext("entered on the command-line if ikeadm is running in\n")); 198 (void) printf(gettext("interactive mode.\n")); 199 (void) printf("\n"); 200 201 command_complete(0); 202 } 203 204 static void 205 print_del_help() 206 { 207 (void) printf( 208 gettext("This command deletes an item from in.iked's tables.\n\n")); 209 (void) printf(gettext("Objects that may be deleted include:\n")); 210 (void) printf("\tp1\t\t"); 211 (void) printf(gettext("a phase 1 SA, identified by\n")); 212 (void) printf(gettext("\t\t\t local_ip remote_ip OR\n")); 213 (void) printf(gettext("\t\t\t init_cookie resp_cookie\n")); 214 (void) printf("\trule\t\t"); 215 (void) printf(gettext("a phase 1 rule, identified by its label\n")); 216 (void) printf("\tpreshared\t"); 217 (void) printf(gettext("a preshared key, identified by\n")); 218 (void) printf(gettext("\t\t\t local_ip remote_ip OR\n")); 219 (void) printf(gettext("\t\t\t local_id remote_id\n")); 220 (void) printf("\n"); 221 222 command_complete(0); 223 } 224 225 static void 226 print_dump_help() 227 { 228 (void) printf( 229 gettext("This command dumps one of in.iked's tables.\n\n")); 230 (void) printf(gettext("Tables that may be dumped include:\n")); 231 (void) printf("\tp1\t\t"); 232 (void) printf(gettext("all phase 1 SAs\n")); 233 (void) printf("\trule\t\t"); 234 (void) printf(gettext("all phase 1 rules\n")); 235 (void) printf("\tpreshared\t"); 236 (void) printf(gettext("all preshared keys\n")); 237 (void) printf("\tcertcache\t"); 238 (void) printf(gettext("all cached certificates\n")); 239 (void) printf("\n"); 240 241 command_complete(0); 242 } 243 244 static void 245 print_flush_help() 246 { 247 (void) printf( 248 gettext("This command clears one of in.iked's tables.\n\n")); 249 (void) printf(gettext("Tables that may be flushed include:\n")); 250 (void) printf("\tp1\t\t"); 251 (void) printf(gettext("all phase 1 SAs\n")); 252 (void) printf("\tcertcache\t"); 253 (void) printf(gettext("all cached certificates\n")); 254 (void) printf("\n"); 255 256 command_complete(0); 257 } 258 259 static void 260 print_read_help() 261 { 262 (void) printf( 263 gettext("This command reads a new configuration file into\n")); 264 (void) printf( 265 gettext("in.iked, discarding the old configuration info.\n\n")); 266 (void) printf(gettext("Sets of data that may be read include:\n")); 267 (void) printf("\trule\t\t"); 268 (void) printf(gettext("all phase 1 rules\n")); 269 (void) printf("\tpreshared\t"); 270 (void) printf(gettext("all preshared keys\n\n")); 271 (void) printf( 272 gettext("A filename may be provided to specify a source file\n")); 273 (void) printf(gettext("other than the default.\n")); 274 (void) printf("\n"); 275 276 command_complete(0); 277 } 278 279 static void 280 print_write_help() 281 { 282 (void) printf( 283 gettext("This command writes in.iked's current configuration\n")); 284 (void) printf(gettext("out to a config file.\n\n")); 285 (void) printf(gettext("Sets of data that may be written include:\n")); 286 (void) printf("\trule\t\t"); 287 (void) printf(gettext("all phase 1 rules\n")); 288 (void) printf("\tpreshared\t"); 289 (void) printf(gettext("all preshared keys\n\n")); 290 (void) printf( 291 gettext("A filename must be provided to specify the file to\n")); 292 (void) printf(gettext("which the information should be written.\n")); 293 (void) printf("\n"); 294 295 command_complete(0); 296 } 297 298 static void 299 print_token_help() 300 { 301 (void) printf(gettext( 302 "This command logs IKE into and out of PKCS#11 tokens.\n\n")); 303 (void) printf(gettext("Commands include:\n")); 304 (void) printf("\tlogin <PKCS#11 Token Object>\t"); 305 (void) printf(gettext("log into token\n")); 306 (void) printf("\tlogout <PKCS#11 Token Object>\t"); 307 (void) printf(gettext("log out of token\n\n")); 308 (void) printf( 309 gettext("The PKCS#11 Token Object name must be " 310 "enclosed in quotation marks.\n")); 311 (void) printf("\n"); 312 313 command_complete(0); 314 } 315 316 static void 317 print_help_help() 318 { 319 (void) printf( 320 gettext("This command provides information about commands.\n\n")); 321 (void) printf( 322 gettext("The 'help' command alone provides a list of valid\n")); 323 (void) printf( 324 gettext("commands, along with the valid objects for each.\n")); 325 (void) printf( 326 gettext("'help' followed by a valid command name provides\n")); 327 (void) printf(gettext("further information about that command.\n")); 328 (void) printf("\n"); 329 330 command_complete(0); 331 } 332 333 /*PRINTFLIKE1*/ 334 static void 335 message(char *fmt, ...) 336 { 337 va_list ap; 338 char msgbuf[BUFSIZ]; 339 340 va_start(ap, fmt); 341 (void) vsnprintf(msgbuf, BUFSIZ, fmt, ap); 342 (void) fprintf(stderr, gettext("ikeadm: %s\n"), msgbuf); 343 va_end(ap); 344 } 345 346 static int 347 open_door(void) 348 { 349 if (doorfd >= 0) 350 (void) close(doorfd); 351 doorfd = open(DOORNM, O_RDONLY); 352 return (doorfd); 353 } 354 355 static ike_service_t * 356 ikedoor_call(char *reqp, int size, door_desc_t *descp, int ndesc) 357 { 358 door_arg_t arg; 359 int retries = 0; 360 361 arg.data_ptr = reqp; 362 arg.data_size = size; 363 arg.desc_ptr = descp; 364 arg.desc_num = ndesc; 365 arg.rbuf = (char *)NULL; 366 arg.rsize = 0; 367 368 retry: 369 if (door_call(doorfd, &arg) < 0) { 370 if ((errno == EBADF) && ((++retries < 2) && 371 (open_door() >= 0))) 372 goto retry; 373 (void) fprintf(stderr, 374 gettext("Unable to communicate with in.iked\n")); 375 Bail("door_call failed"); 376 } 377 378 if ((ndesc > 0) && (descp->d_attributes & DOOR_RELEASE) && 379 ((errno == EBADF) || (errno == EFAULT))) { 380 /* callers assume passed fds will be closed no matter what */ 381 (void) close(descp->d_data.d_desc.d_descriptor); 382 } 383 384 /* LINTED E_BAD_PTR_CAST_ALIGN */ 385 return ((ike_service_t *)arg.rbuf); 386 } 387 388 /* 389 * Parsing functions 390 */ 391 392 /* stolen from ipseckey.c, with a second tier added */ 393 static int 394 parsecmd(char *cmdstr, char *objstr) 395 { 396 #define MAXOBJS 11 397 struct objtbl { 398 char *obj; 399 int token; 400 }; 401 static struct cmdtbl { 402 char *cmd; 403 int null_obj_token; 404 struct objtbl objt[MAXOBJS]; 405 } table[] = { 406 {"get", IKE_SVC_ERROR, { 407 {"debug", IKE_SVC_GET_DBG}, 408 {"priv", IKE_SVC_GET_PRIV}, 409 {"stats", IKE_SVC_GET_STATS}, 410 {"p1", IKE_SVC_GET_P1}, 411 {"rule", IKE_SVC_GET_RULE}, 412 {"preshared", IKE_SVC_GET_PS}, 413 {"defaults", IKE_SVC_GET_DEFS}, 414 {NULL, IKE_SVC_ERROR} 415 } 416 }, 417 {"set", IKE_SVC_ERROR, { 418 {"debug", IKE_SVC_SET_DBG}, 419 {"priv", IKE_SVC_SET_PRIV}, 420 {NULL, IKE_SVC_ERROR} 421 } 422 }, 423 {"token", IKE_SVC_ERROR, { 424 {"login", IKE_SVC_SET_PIN}, 425 {"logout", IKE_SVC_DEL_PIN}, 426 {NULL, IKE_SVC_ERROR}, 427 } 428 }, 429 {"add", IKE_SVC_ERROR, { 430 {"rule", IKE_SVC_NEW_RULE}, 431 {"preshared", IKE_SVC_NEW_PS}, 432 {NULL, IKE_SVC_ERROR} 433 } 434 }, 435 {"del", IKE_SVC_ERROR, { 436 {"p1", IKE_SVC_DEL_P1}, 437 {"rule", IKE_SVC_DEL_RULE}, 438 {"preshared", IKE_SVC_DEL_PS}, 439 {NULL, IKE_SVC_ERROR} 440 } 441 }, 442 {"dump", IKE_SVC_ERROR, { 443 {"p1", IKE_SVC_DUMP_P1S}, 444 {"rule", IKE_SVC_DUMP_RULES}, 445 {"preshared", IKE_SVC_DUMP_PS}, 446 {"certcache", IKE_SVC_DUMP_CERTCACHE}, 447 {NULL, IKE_SVC_ERROR} 448 } 449 }, 450 {"flush", IKE_SVC_ERROR, { 451 {"p1", IKE_SVC_FLUSH_P1S}, 452 {"certcache", IKE_SVC_FLUSH_CERTCACHE}, 453 {NULL, IKE_SVC_ERROR} 454 } 455 }, 456 {"read", IKE_SVC_ERROR, { 457 {"rule", IKE_SVC_READ_RULES}, 458 {"preshared", IKE_SVC_READ_PS}, 459 {NULL, IKE_SVC_ERROR} 460 } 461 }, 462 {"write", IKE_SVC_ERROR, { 463 {"rule", IKE_SVC_WRITE_RULES}, 464 {"preshared", IKE_SVC_WRITE_PS}, 465 {NULL, IKE_SVC_ERROR} 466 } 467 }, 468 {"help", IKEADM_HELP_GENERAL, { 469 {"get", IKEADM_HELP_GET}, 470 {"set", IKEADM_HELP_SET}, 471 {"add", IKEADM_HELP_ADD}, 472 {"del", IKEADM_HELP_DEL}, 473 {"dump", IKEADM_HELP_DUMP}, 474 {"flush", IKEADM_HELP_FLUSH}, 475 {"read", IKEADM_HELP_READ}, 476 {"write", IKEADM_HELP_WRITE}, 477 {"token", IKEADM_HELP_TOKEN}, 478 {"help", IKEADM_HELP_HELP}, 479 {NULL, IKE_SVC_ERROR} 480 } 481 }, 482 {"exit", IKEADM_EXIT, { 483 {NULL, IKE_SVC_ERROR} 484 } 485 }, 486 {"quit", IKEADM_EXIT, { 487 {NULL, IKE_SVC_ERROR} 488 } 489 }, 490 {"dbg", IKE_SVC_ERROR, { 491 {"rbdump", IKE_SVC_DBG_RBDUMP}, 492 {NULL, IKE_SVC_ERROR} 493 } 494 }, 495 {NULL, IKE_SVC_ERROR, { 496 {NULL, IKE_SVC_ERROR} 497 } 498 } 499 }; 500 struct cmdtbl *ct = table; 501 struct objtbl *ot; 502 503 if (cmdstr == NULL) { 504 return (IKE_SVC_ERROR); 505 } 506 507 while (ct->cmd != NULL && strcmp(ct->cmd, cmdstr) != 0) 508 ct++; 509 ot = ct->objt; 510 511 if (ct->cmd == NULL) { 512 message(gettext("Unrecognized command '%s'"), cmdstr); 513 return (ot->token); 514 } 515 516 if (objstr == NULL) { 517 return (ct->null_obj_token); 518 } 519 520 while (ot->obj != NULL && strcmp(ot->obj, objstr) != 0) 521 ot++; 522 523 if (ot->obj == NULL) 524 message(gettext("Unrecognized object '%s'"), objstr); 525 526 return (ot->token); 527 } 528 529 /* 530 * Parsing functions: 531 * Parse command-line identification info. All return -1 on failure, 532 * or the number of cmd-line args "consumed" on success (though argc 533 * and argv params are not actually modified). 534 */ 535 536 static int 537 parse_label(int argc, char **argv, char *label) 538 { 539 if ((argc < 1) || (argv == NULL)) 540 return (-1); 541 542 if (strlcpy(label, argv[0], MAX_LABEL_LEN) >= MAX_LABEL_LEN) 543 return (-1); 544 545 return (1); 546 } 547 548 /* 549 * Parse a PKCS#11 token get the label. 550 */ 551 static int 552 parse_token(int argc, char **argv, char *token_label) 553 { 554 if ((argc < 1) || (argv == NULL)) 555 return (-1); 556 557 if (strlcpy(token_label, argv[0], PKCS11_TOKSIZE) >= PKCS11_TOKSIZE) 558 return (-1); 559 560 return (0); 561 } 562 563 /* 564 * Parse an address off the command line. In the hpp param, either 565 * return a hostent pointer (caller frees) or a pointer to a dummy_he_t 566 * (must also be freed by the caller; both cases are handled by the 567 * macro FREE_HE). The new getipnodebyname() call does the Right Thing 568 * (TM), even with raw addresses (colon-separated IPv6 or dotted decimal 569 * IPv4). 570 * (mostly stolen from ipseckey.c, though some tweaks were made 571 * to better serve our purposes here.) 572 */ 573 574 typedef struct { 575 struct hostent he; 576 char *addtl[2]; 577 } dummy_he_t; 578 579 static int 580 parse_addr(int argc, char **argv, struct hostent **hpp) 581 { 582 int hp_errno; 583 struct hostent *hp = NULL; 584 dummy_he_t *dhp; 585 char *addr1; 586 587 if ((argc < 1) || (argv == NULL) || (argv[0] == NULL)) 588 return (-1); 589 590 if (!nflag) { 591 /* 592 * Try name->address first. Assume AF_INET6, and 593 * get IPV4s, plus IPv6s iff IPv6 is configured. 594 */ 595 hp = getipnodebyname(argv[0], AF_INET6, AI_DEFAULT | AI_ALL, 596 &hp_errno); 597 } else { 598 /* 599 * Try a normal address conversion only. malloc a 600 * dummy_he_t to construct a fake hostent. Caller 601 * will know to free this one using free_he(). 602 */ 603 dhp = (dummy_he_t *)malloc(sizeof (dummy_he_t)); 604 addr1 = (char *)malloc(sizeof (struct in6_addr)); 605 if (inet_pton(AF_INET6, argv[0], addr1) == 1) { 606 dhp->he.h_addr_list = dhp->addtl; 607 dhp->addtl[0] = addr1; 608 dhp->addtl[1] = NULL; 609 hp = &dhp->he; 610 dhp->he.h_addrtype = AF_INET6; 611 dhp->he.h_length = sizeof (struct in6_addr); 612 } else if (inet_pton(AF_INET, argv[0], addr1) == 1) { 613 dhp->he.h_addr_list = dhp->addtl; 614 dhp->addtl[0] = addr1; 615 dhp->addtl[1] = NULL; 616 hp = &dhp->he; 617 dhp->he.h_addrtype = AF_INET; 618 dhp->he.h_length = sizeof (struct in_addr); 619 } else { 620 hp = NULL; 621 } 622 } 623 624 *hpp = hp; 625 626 if (hp == NULL) { 627 message(gettext("Unknown address %s."), argv[0]); 628 return (-1); 629 } 630 631 return (1); 632 } 633 634 /* 635 * Free a dummy_he_t structure that was malloc'd in parse_addr(). 636 * Unfortunately, callers of parse_addr don't want to know about 637 * dummy_he_t structs, so all they have is a pointer to the struct 638 * hostent; so that's what's passed in. To manage this, we make 639 * the assumption that the struct hostent is the first field in 640 * the dummy_he_t, and therefore a pointer to it is a pointer to 641 * the dummy_he_t. 642 */ 643 static void 644 free_he(struct hostent *hep) 645 { 646 dummy_he_t *p = (dummy_he_t *)hep; 647 648 assert(p != NULL); 649 650 if (p->addtl[0]) 651 free(p->addtl[0]); 652 if (p->addtl[1]) 653 free(p->addtl[1]); 654 655 free(p); 656 } 657 658 #define FREE_HE(x) \ 659 if (nflag) \ 660 free_he(x); \ 661 else \ 662 freehostent(x) 663 664 static void 665 headdr2sa(char *hea, struct sockaddr_storage *sa, int len) 666 { 667 struct sockaddr_in *sin; 668 struct sockaddr_in6 *sin6; 669 670 if (len == sizeof (struct in6_addr)) { 671 /* LINTED E_BAD_PTR_CAST_ALIGN */ 672 if (IN6_IS_ADDR_V4MAPPED((struct in6_addr *)hea)) { 673 sin = (struct sockaddr_in *)sa; 674 (void) memset(sin, 0, sizeof (*sin)); 675 /* LINTED E_BAD_PTR_CAST_ALIGN */ 676 IN6_V4MAPPED_TO_INADDR((struct in6_addr *)hea, 677 &sin->sin_addr); 678 sin->sin_family = AF_INET; 679 } else { 680 sin6 = (struct sockaddr_in6 *)sa; 681 (void) memset(sin6, 0, sizeof (*sin6)); 682 (void) memcpy(&sin6->sin6_addr, hea, 683 sizeof (struct in6_addr)); 684 sin6->sin6_family = AF_INET6; 685 } 686 } else { 687 sin = (struct sockaddr_in *)sa; 688 (void) memset(sin, 0, sizeof (*sin)); 689 (void) memcpy(&sin->sin_addr, hea, sizeof (struct in_addr)); 690 sin->sin_family = AF_INET; 691 } 692 } 693 694 /* 695 * The possible ident-type keywords that might be used on the command 696 * line. This is a superset of the ones supported by ipseckey, those 697 * in the ike config file, and those in ike.preshared. 698 */ 699 static keywdtab_t idtypes[] = { 700 /* ip, ipv4, and ipv6 are valid for preshared keys... */ 701 {SADB_IDENTTYPE_RESERVED, "ip"}, 702 {SADB_IDENTTYPE_RESERVED, "ipv4"}, 703 {SADB_IDENTTYPE_RESERVED, "ipv6"}, 704 {SADB_IDENTTYPE_PREFIX, "prefix"}, 705 {SADB_IDENTTYPE_PREFIX, "ipv4-prefix"}, 706 {SADB_IDENTTYPE_PREFIX, "ipv6-prefix"}, 707 {SADB_IDENTTYPE_PREFIX, "subnet"}, 708 {SADB_IDENTTYPE_PREFIX, "subnetv4"}, 709 {SADB_IDENTTYPE_PREFIX, "subnetv6"}, 710 {SADB_IDENTTYPE_FQDN, "fqdn"}, 711 {SADB_IDENTTYPE_FQDN, "dns"}, 712 {SADB_IDENTTYPE_FQDN, "domain"}, 713 {SADB_IDENTTYPE_FQDN, "domainname"}, 714 {SADB_IDENTTYPE_USER_FQDN, "user_fqdn"}, 715 {SADB_IDENTTYPE_USER_FQDN, "mbox"}, 716 {SADB_IDENTTYPE_USER_FQDN, "mailbox"}, 717 {SADB_X_IDENTTYPE_DN, "dn"}, 718 {SADB_X_IDENTTYPE_DN, "asn1dn"}, 719 {SADB_X_IDENTTYPE_GN, "gn"}, 720 {SADB_X_IDENTTYPE_GN, "asn1gn"}, 721 {SADB_X_IDENTTYPE_ADDR_RANGE, "ipv4-range"}, 722 {SADB_X_IDENTTYPE_ADDR_RANGE, "ipv6-range"}, 723 {SADB_X_IDENTTYPE_ADDR_RANGE, "rangev4"}, 724 {SADB_X_IDENTTYPE_ADDR_RANGE, "rangev6"}, 725 {SADB_X_IDENTTYPE_KEY_ID, "keyid"}, 726 {NULL, 0} 727 }; 728 729 static int 730 parse_idtype(char *type, uint16_t *idnum) 731 { 732 keywdtab_t *idp; 733 734 if (type == NULL) 735 return (-1); 736 737 for (idp = idtypes; idp->kw_str != NULL; idp++) { 738 if (strcasecmp(idp->kw_str, type) == 0) { 739 if (idnum != NULL) 740 *idnum = idp->kw_tag; 741 return (1); 742 } 743 } 744 745 return (-1); 746 } 747 748 /* 749 * The sadb_ident_t is malloc'd, since its length varies; 750 * so the caller must free() it when done with the data. 751 */ 752 static int 753 parse_ident(int argc, char **argv, sadb_ident_t **idpp) 754 { 755 int alloclen, consumed; 756 sadb_ident_t *idp; 757 if ((argc < 2) || (argv == NULL) || (argv[0] == NULL) || 758 (argv[1] == NULL)) 759 return (-1); 760 761 alloclen = sizeof (sadb_ident_t) + IKEDOORROUNDUP(strlen(argv[1]) + 1); 762 *idpp = idp = (sadb_ident_t *)malloc(alloclen); 763 if (idp == NULL) 764 Bail("parsing identity"); 765 766 if ((consumed = parse_idtype(argv[0], &idp->sadb_ident_type)) < 0) { 767 message(gettext("unknown identity type %s."), argv[0]); 768 return (-1); 769 } 770 771 idp->sadb_ident_len = SADB_8TO64(alloclen); 772 idp->sadb_ident_reserved = 0; 773 idp->sadb_ident_id = 0; 774 775 /* now copy in identity param */ 776 (void) strlcpy((char *)(idp + 1), argv[1], 777 alloclen - (sizeof (sadb_ident_t))); 778 779 return (++consumed); 780 } 781 782 static int 783 parse_cky(int argc, char **argv, uint64_t *ckyp) 784 { 785 u_longlong_t arg; 786 787 if ((argc < 1) || (argv[0] == NULL)) 788 return (-1); 789 790 errno = 0; 791 arg = strtoull(argv[0], NULL, 0); 792 if (errno != 0) { 793 message(gettext("failed to parse cookie %s."), argv[0]); 794 return (-1); 795 } 796 797 *ckyp = (uint64_t)arg; 798 799 return (1); 800 } 801 802 static int 803 parse_addr_pr(int argc, char **argv, struct hostent **h1pp, 804 struct hostent **h2pp) 805 { 806 int rtn, consumed = 0; 807 808 if ((rtn = parse_addr(argc, argv, h1pp)) < 0) { 809 return (-1); 810 } 811 consumed = rtn; 812 argc -= rtn; 813 argv += rtn; 814 815 if ((rtn = parse_addr(argc, argv, h2pp)) < 0) { 816 FREE_HE(*h1pp); 817 return (-1); 818 } 819 consumed += rtn; 820 821 return (consumed); 822 } 823 824 /* 825 * The sadb_ident_ts are malloc'd, since their length varies; 826 * so the caller must free() them when done with the data. 827 */ 828 static int 829 parse_ident_pr(int argc, char **argv, sadb_ident_t **id1pp, 830 sadb_ident_t **id2pp) 831 { 832 int rtn, consumed = 0; 833 834 if ((rtn = parse_ident(argc, argv, id1pp)) < 0) { 835 return (-1); 836 } 837 consumed = rtn; 838 argc -= rtn; 839 argv += rtn; 840 841 (*id1pp)->sadb_ident_exttype = SADB_EXT_IDENTITY_SRC; 842 843 if ((rtn = parse_ident(argc, argv, id2pp)) < 0) { 844 free(*id1pp); 845 return (-1); 846 } 847 consumed += rtn; 848 849 (*id2pp)->sadb_ident_exttype = SADB_EXT_IDENTITY_DST; 850 851 return (consumed); 852 } 853 854 static int 855 parse_cky_pr(int argc, char **argv, ike_cky_pr_t *cpr) 856 { 857 int rtn, consumed = 0; 858 859 if ((rtn = parse_cky(argc, argv, &cpr->cky_i)) < 0) { 860 return (-1); 861 } 862 consumed = rtn; 863 argc -= rtn; 864 argv += rtn; 865 866 if ((rtn = parse_cky(argc, argv, &cpr->cky_r)) < 0) { 867 return (-1); 868 } 869 consumed += rtn; 870 871 return (consumed); 872 } 873 874 /* 875 * Preshared key field types...used for parsing preshared keys that 876 * have been entered on the command line. The code to parse preshared 877 * keys (parse_ps, parse_key, parse_psfldid, parse_ikmtype, ...) is 878 * mostly duplicated from in.iked's readps.c. 879 */ 880 #define PSFLD_LOCID 1 881 #define PSFLD_LOCIDTYPE 2 882 #define PSFLD_REMID 3 883 #define PSFLD_REMIDTYPE 4 884 #define PSFLD_MODE 5 885 #define PSFLD_KEY 6 886 887 static keywdtab_t psfldtypes[] = { 888 {PSFLD_LOCID, "localid"}, 889 {PSFLD_LOCIDTYPE, "localidtype"}, 890 {PSFLD_REMID, "remoteid"}, 891 {PSFLD_REMIDTYPE, "remoteidtype"}, 892 {PSFLD_MODE, "ike_mode"}, 893 {PSFLD_KEY, "key"}, 894 {NULL, 0} 895 }; 896 897 static int 898 parse_psfldid(char *type, uint16_t *idnum) 899 { 900 keywdtab_t *pfp; 901 902 if (type == NULL) 903 return (-1); 904 905 for (pfp = psfldtypes; pfp->kw_str != NULL; pfp++) { 906 if (strcasecmp(pfp->kw_str, type) == 0) { 907 if (idnum != NULL) 908 *idnum = pfp->kw_tag; 909 return (1); 910 } 911 } 912 913 return (-1); 914 } 915 916 static keywdtab_t ikemodes[] = { 917 {IKE_XCHG_IDENTITY_PROTECT, "main"}, 918 {IKE_XCHG_AGGRESSIVE, "aggressive"}, 919 {IKE_XCHG_IP_AND_AGGR, "both"}, 920 {NULL, 0} 921 }; 922 923 static int 924 parse_ikmtype(char *mode, uint16_t *modenum) 925 { 926 keywdtab_t *ikmp; 927 928 if (mode == NULL) 929 return (-1); 930 931 for (ikmp = ikemodes; ikmp->kw_str != NULL; ikmp++) { 932 if (strcasecmp(ikmp->kw_str, mode) == 0) { 933 if (modenum != NULL) 934 *modenum = ikmp->kw_tag; 935 return (1); 936 } 937 } 938 939 return (-1); 940 } 941 942 #define hd2num(hd) (((hd) >= '0' && (hd) <= '9') ? ((hd) - '0') : \ 943 (((hd) >= 'a' && (hd) <= 'f') ? ((hd) - 'a' + 10) : ((hd) - 'A' + 10))) 944 945 static uint8_t * 946 parse_key(char *input, uint_t *keybuflen, uint_t *lbits) 947 { 948 uint8_t *keyp, *keybufp; 949 uint_t i, hexlen = 0, bits, alloclen; 950 951 for (i = 0; input[i] != '\0' && input[i] != '/'; i++) 952 hexlen++; 953 954 if (input[i] == '\0') { 955 bits = 0; 956 } else { 957 /* Have /nn. */ 958 input[i] = '\0'; 959 if (sscanf((input + i + 1), "%u", &bits) != 1) 960 return (NULL); 961 962 /* hexlen is in nibbles */ 963 if (((bits + 3) >> 2) > hexlen) 964 return (NULL); 965 966 /* 967 * Adjust hexlen down if user gave us too small of a bit 968 * count. 969 */ 970 if ((hexlen << 2) > bits + 3) { 971 hexlen = (bits + 3) >> 2; 972 input[hexlen] = '\0'; 973 } 974 } 975 976 /* 977 * Allocate. Remember, hexlen is in nibbles. 978 */ 979 980 alloclen = (hexlen/2 + (hexlen & 0x1)); 981 keyp = malloc(alloclen); 982 983 if (keyp == NULL) 984 return (NULL); 985 986 keybufp = keyp; 987 *keybuflen = alloclen; 988 if (bits == 0) 989 *lbits = (hexlen + (hexlen & 0x1)) << 2; 990 else 991 *lbits = bits; 992 993 /* 994 * Read in nibbles. Read in odd-numbered as shifted high. 995 * (e.g. 123 becomes 0x1230). 996 */ 997 for (i = 0; input[i] != '\0'; i += 2) { 998 boolean_t second = (input[i + 1] != '\0'); 999 1000 if (!isxdigit(input[i]) || 1001 (!isxdigit(input[i + 1]) && second)) { 1002 free(keyp); 1003 return (NULL); 1004 } 1005 *keyp = (hd2num(input[i]) << 4); 1006 if (second) 1007 *keyp |= hd2num(input[i + 1]); 1008 else 1009 break; /* out of for loop. */ 1010 keyp++; 1011 } 1012 1013 /* zero the remaining bits if we're a non-octet amount. */ 1014 if (bits & 0x7) 1015 *((input[i] == '\0') ? keyp - 1 : keyp) &= 1016 0xff << (8 - (bits & 0x7)); 1017 return (keybufp); 1018 } 1019 1020 /* 1021 * the ike_ps_t struct (plus trailing data) will be allocated here, 1022 * so it will need to be freed by the caller. 1023 */ 1024 static int 1025 parse_ps(int argc, char **argv, ike_ps_t **presharedpp, int *len) 1026 { 1027 uint_t c = 0, locidlen, remidlen, keylen, keybits; 1028 uint_t a_locidtotal = 0, a_remidtotal = 0; 1029 char *locid, *remid; 1030 uint8_t *keyp = NULL; 1031 uint16_t fldid, locidtype, remidtype, mtype; 1032 struct hostent *loche = NULL, *remhe = NULL; 1033 ike_ps_t *psp = NULL; 1034 sadb_ident_t *sidp; 1035 boolean_t whacked = B_FALSE; 1036 1037 if ((argv[c] == NULL) || (argv[c][0] != '{')) 1038 return (-1); 1039 if (argv[c][1] != 0) { 1040 /* no space between '{' and first token */ 1041 argv[c]++; 1042 } else { 1043 c++; 1044 } 1045 if ((argv[argc - 1][strlen(argv[argc - 1]) - 1] == '}') && 1046 (argv[argc - 1][0] != '}')) { 1047 /* 1048 * whack '}' without a space before it or parsers break. 1049 * Remember this trailing character for later 1050 */ 1051 argv[argc - 1][strlen(argv[argc - 1]) - 1] = '\0'; 1052 whacked = B_TRUE; 1053 } 1054 1055 while ((c < argc) && (argv[c] != NULL) && (argv[c][0] != '}')) { 1056 if ((argv[c + 1] == NULL) || (argv[c + 1][0] == '}')) 1057 goto bail; 1058 if (parse_psfldid(argv[c++], &fldid) < 0) 1059 goto bail; 1060 switch (fldid) { 1061 case PSFLD_LOCID: 1062 locid = argv[c++]; 1063 locidlen = strlen(locid) + 1; 1064 break; 1065 case PSFLD_LOCIDTYPE: 1066 if (parse_idtype(argv[c++], &locidtype) < 0) 1067 goto bail; 1068 break; 1069 case PSFLD_REMID: 1070 remid = argv[c++]; 1071 remidlen = strlen(remid) + 1; 1072 break; 1073 case PSFLD_REMIDTYPE: 1074 if (parse_idtype(argv[c++], &remidtype) < 0) 1075 goto bail; 1076 break; 1077 case PSFLD_MODE: 1078 if (parse_ikmtype(argv[c++], &mtype) < 0) 1079 goto bail; 1080 break; 1081 case PSFLD_KEY: 1082 keyp = parse_key(argv[c++], &keylen, &keybits); 1083 if (keyp == NULL) 1084 goto bail; 1085 break; 1086 } 1087 } 1088 1089 /* Make sure the line was terminated with '}' */ 1090 if (argv[c] == NULL) { 1091 if (!whacked) 1092 goto bail; 1093 } else if (argv[c][0] != '}') { 1094 goto bail; 1095 } 1096 1097 /* 1098 * make sure we got all the required fields. If no idtype, assume 1099 * ip addr; if that translation fails, we'll catch the error then. 1100 */ 1101 if (locid == NULL || remid == NULL || keyp == NULL || mtype == 0) 1102 goto bail; 1103 1104 /* figure out the size buffer we need */ 1105 *len = sizeof (ike_ps_t); 1106 if (locidtype != SADB_IDENTTYPE_RESERVED) { 1107 a_locidtotal = IKEDOORROUNDUP(sizeof (sadb_ident_t) + locidlen); 1108 *len += a_locidtotal; 1109 } 1110 if (remidtype != SADB_IDENTTYPE_RESERVED) { 1111 a_remidtotal = IKEDOORROUNDUP(sizeof (sadb_ident_t) + remidlen); 1112 *len += a_remidtotal; 1113 } 1114 *len += keylen; 1115 1116 psp = malloc(*len); 1117 if (psp == NULL) 1118 goto bail; 1119 (void) memset(psp, 0, *len); 1120 1121 psp->ps_ike_mode = mtype; 1122 1123 psp->ps_localid_off = sizeof (ike_ps_t); 1124 if (locidtype == SADB_IDENTTYPE_RESERVED) { 1125 /* 1126 * this is an ip address, store in the sockaddr field; 1127 * we won't use an sadb_ident_t. 1128 */ 1129 psp->ps_localid_len = 0; 1130 if (parse_addr(1, &locid, &loche) < 0) 1131 goto bail; 1132 if (loche->h_addr_list[1] != NULL) { 1133 message(gettext("preshared key identifier cannot " 1134 "match multiple IP addresses")); 1135 goto bail; 1136 } 1137 headdr2sa(loche->h_addr_list[0], &psp->ps_ipaddrs.loc_addr, 1138 loche->h_length); 1139 FREE_HE(loche); 1140 } else { 1141 psp->ps_localid_len = sizeof (sadb_ident_t) + locidlen; 1142 sidp = (sadb_ident_t *)((int)psp + psp->ps_localid_off); 1143 sidp->sadb_ident_len = psp->ps_localid_len; 1144 sidp->sadb_ident_type = locidtype; 1145 (void) strlcpy((char *)(sidp + 1), locid, a_locidtotal); 1146 } 1147 1148 psp->ps_remoteid_off = psp->ps_localid_off + a_locidtotal; 1149 if (remidtype == SADB_IDENTTYPE_RESERVED) { 1150 /* 1151 * this is an ip address, store in the sockaddr field; 1152 * we won't use an sadb_ident_t. 1153 */ 1154 psp->ps_remoteid_len = 0; 1155 if (parse_addr(1, &remid, &remhe) < 0) 1156 goto bail; 1157 if (remhe->h_addr_list[1] != NULL) { 1158 message(gettext("preshared key identifier cannot " 1159 "match multiple IP addresses")); 1160 goto bail; 1161 } 1162 headdr2sa(remhe->h_addr_list[0], &psp->ps_ipaddrs.rem_addr, 1163 remhe->h_length); 1164 FREE_HE(remhe); 1165 } else { 1166 /* make sure we have at least 16-bit alignment */ 1167 if (remidlen & 0x1) 1168 remidlen++; 1169 psp->ps_remoteid_len = sizeof (sadb_ident_t) + remidlen; 1170 sidp = (sadb_ident_t *)((int)psp + psp->ps_remoteid_off); 1171 sidp->sadb_ident_len = psp->ps_remoteid_len; 1172 sidp->sadb_ident_type = remidtype; 1173 (void) strlcpy((char *)(sidp + 1), remid, a_remidtotal); 1174 } 1175 1176 psp->ps_key_off = psp->ps_remoteid_off + a_remidtotal; 1177 psp->ps_key_len = keylen; 1178 psp->ps_key_bits = keybits; 1179 (void) memcpy((uint8_t *)((int)psp + psp->ps_key_off), keyp, keylen); 1180 1181 *presharedpp = psp; 1182 1183 return (c); 1184 1185 bail: 1186 if (loche != NULL) 1187 FREE_HE(loche); 1188 if (remhe != NULL) 1189 FREE_HE(remhe); 1190 if (keyp != NULL) 1191 free(keyp); 1192 if (psp != NULL) 1193 free(psp); 1194 1195 *presharedpp = NULL; 1196 1197 return (-1); 1198 } 1199 1200 /* 1201 * Printing functions 1202 * 1203 * A potential point of confusion here is that the ikeadm-specific string- 1204 * producing functions do not match the ipsec_util.c versions in style: the 1205 * ikeadm-specific functions return a string (and are named foostr), while 1206 * the ipsec_util.c functions actually print the string to the file named 1207 * in the second arg to the function (and are named dump_foo). 1208 * 1209 * Localization for ikeadm seems more straightforward when complete 1210 * phrases are translated rather than: a part of a phrase, a call to 1211 * dump_foo(), and more of the phrase. It could also accommodate 1212 * non-English grammar more easily. 1213 */ 1214 1215 static char * 1216 errstr(int err) 1217 { 1218 static char rtn[MAXLINESIZE]; 1219 1220 switch (err) { 1221 case IKE_ERR_NO_OBJ: 1222 return (gettext("No data returned")); 1223 case IKE_ERR_NO_DESC: 1224 return (gettext("No destination provided")); 1225 case IKE_ERR_ID_INVALID: 1226 return (gettext("Id info invalid")); 1227 case IKE_ERR_LOC_INVALID: 1228 return (gettext("Destination invalid")); 1229 case IKE_ERR_CMD_INVALID: 1230 return (gettext("Command invalid")); 1231 case IKE_ERR_DATA_INVALID: 1232 return (gettext("Supplied data invalid")); 1233 case IKE_ERR_CMD_NOTSUP: 1234 return (gettext("Unknown command")); 1235 case IKE_ERR_REQ_INVALID: 1236 return (gettext("Request invalid")); 1237 case IKE_ERR_NO_PRIV: 1238 return (gettext("Not allowed at current privilege level")); 1239 case IKE_ERR_NO_AUTH: 1240 return (gettext("User not authorized")); 1241 case IKE_ERR_SYS_ERR: 1242 return (gettext("System error")); 1243 case IKE_ERR_DUP_IGNORED: 1244 return (gettext("One or more duplicate entries ignored")); 1245 case IKE_ERR_NO_TOKEN: 1246 return (gettext( 1247 "token login failed or no objects on device")); 1248 case IKE_ERR_IN_PROGRESS: 1249 return (gettext( 1250 "Duplicate operation already in progress")); 1251 case IKE_ERR_NO_MEM: 1252 return (gettext( 1253 "Insufficient memory")); 1254 default: 1255 (void) snprintf(rtn, MAXLINESIZE, 1256 gettext("<unknown error %d>"), err); 1257 return (rtn); 1258 } 1259 } 1260 1261 static char * 1262 dbgstr(int bit) 1263 { 1264 static char rtn[MAXLINESIZE]; 1265 1266 switch (bit) { 1267 case D_CERT: 1268 return (gettext("Certificate management")); 1269 case D_KEY: 1270 return (gettext("Key management")); 1271 case D_OP: 1272 return (gettext("Operational")); 1273 case D_P1: 1274 return (gettext("Phase 1 SA creation")); 1275 case D_P2: 1276 return (gettext("Phase 2 SA creation")); 1277 case D_PFKEY: 1278 return (gettext("PF_KEY interface")); 1279 case D_POL: 1280 return (gettext("Policy management")); 1281 case D_PROP: 1282 return (gettext("Proposal construction")); 1283 case D_DOOR: 1284 return (gettext("Door interface")); 1285 case D_CONFIG: 1286 return (gettext("Config file processing")); 1287 default: 1288 (void) snprintf(rtn, MAXLINESIZE, 1289 gettext("<unknown flag 0x%x>"), bit); 1290 return (rtn); 1291 } 1292 } 1293 1294 static char * 1295 privstr(int priv) 1296 { 1297 static char rtn[MAXLINESIZE]; 1298 1299 switch (priv) { 1300 case IKE_PRIV_MINIMUM: 1301 return (gettext("base privileges")); 1302 case IKE_PRIV_MODKEYS: 1303 return (gettext("access to preshared key information")); 1304 case IKE_PRIV_KEYMAT: 1305 return (gettext("access to keying material")); 1306 default: 1307 (void) snprintf(rtn, MAXLINESIZE, 1308 gettext("<unknown level %d>"), priv); 1309 return (rtn); 1310 } 1311 } 1312 1313 static char * 1314 xchgstr(int xchg) 1315 { 1316 static char rtn[MAXLINESIZE]; 1317 1318 switch (xchg) { 1319 case IKE_XCHG_NONE: 1320 return (gettext("<unspecified>")); 1321 case IKE_XCHG_BASE: 1322 return (gettext("base")); 1323 case IKE_XCHG_IDENTITY_PROTECT: 1324 return (gettext("main mode (identity protect)")); 1325 case IKE_XCHG_AUTH_ONLY: 1326 return (gettext("authentication only")); 1327 case IKE_XCHG_AGGRESSIVE: 1328 return (gettext("aggressive mode")); 1329 case IKE_XCHG_IP_AND_AGGR: 1330 return (gettext("main and aggressive mode")); 1331 case IKE_XCHG_ANY: 1332 return (gettext("any mode")); 1333 default: 1334 (void) snprintf(rtn, MAXLINESIZE, 1335 gettext("<unknown %d>"), xchg); 1336 return (rtn); 1337 } 1338 } 1339 1340 static char * 1341 statestr(int state) 1342 { 1343 static char rtn[MAXLINESIZE]; 1344 1345 switch (state) { 1346 case IKE_SA_STATE_INIT: 1347 return (gettext("INITIALIZING")); 1348 case IKE_SA_STATE_SENT_SA: 1349 return (gettext("SENT FIRST MSG (SA)")); 1350 case IKE_SA_STATE_SENT_KE: 1351 return (gettext("SENT SECOND MSG (KE)")); 1352 case IKE_SA_STATE_SENT_LAST: 1353 return (gettext("SENT FINAL MSG")); 1354 case IKE_SA_STATE_DONE: 1355 return (gettext("ACTIVE")); 1356 case IKE_SA_STATE_DELETED: 1357 return (gettext("DELETED")); 1358 case IKE_SA_STATE_INVALID: 1359 return (gettext("<invalid>")); 1360 default: 1361 (void) snprintf(rtn, MAXLINESIZE, 1362 gettext("<unknown %d>"), state); 1363 return (rtn); 1364 } 1365 } 1366 1367 static char * 1368 authmethstr(int meth) 1369 { 1370 static char rtn[MAXLINESIZE]; 1371 1372 switch (meth) { 1373 case IKE_AUTH_METH_PRE_SHARED_KEY: 1374 return (gettext("pre-shared key")); 1375 case IKE_AUTH_METH_DSS_SIG: 1376 return (gettext("DSS signatures")); 1377 case IKE_AUTH_METH_RSA_SIG: 1378 return (gettext("RSA signatures")); 1379 case IKE_AUTH_METH_RSA_ENCR: 1380 return (gettext("RSA Encryption")); 1381 case IKE_AUTH_METH_RSA_ENCR_REVISED: 1382 return (gettext("Revised RSA Encryption")); 1383 default: 1384 (void) snprintf(rtn, MAXLINESIZE, 1385 gettext("<unknown %d>"), meth); 1386 return (rtn); 1387 } 1388 } 1389 1390 static char * 1391 prfstr(int prf) 1392 { 1393 static char rtn[MAXLINESIZE]; 1394 1395 switch (prf) { 1396 case IKE_PRF_NONE: 1397 return (gettext("<none/unavailable>")); 1398 case IKE_PRF_HMAC_MD5: 1399 return ("HMAC MD5"); 1400 case IKE_PRF_HMAC_SHA1: 1401 return ("HMAC SHA1"); 1402 case IKE_PRF_HMAC_SHA256: 1403 return ("HMAC SHA256"); 1404 case IKE_PRF_HMAC_SHA384: 1405 return ("HMAC SHA384"); 1406 case IKE_PRF_HMAC_SHA512: 1407 return ("HMAC SHA512"); 1408 default: 1409 (void) snprintf(rtn, MAXLINESIZE, 1410 gettext("<unknown %d>"), prf); 1411 return (rtn); 1412 } 1413 } 1414 1415 static char * 1416 dhstr(int grp) 1417 { 1418 static char rtn[MAXLINESIZE]; 1419 1420 switch (grp) { 1421 case 0: 1422 return (gettext("<unavailable>")); 1423 case IKE_GRP_DESC_MODP_768: 1424 return (gettext("768-bit MODP (group 1)")); 1425 case IKE_GRP_DESC_MODP_1024: 1426 return (gettext("1024-bit MODP (group 2)")); 1427 case IKE_GRP_DESC_EC2N_155: 1428 return (gettext("EC2N group on GP[2^155]")); 1429 case IKE_GRP_DESC_EC2N_185: 1430 return (gettext("EC2N group on GP[2^185]")); 1431 case IKE_GRP_DESC_MODP_1536: 1432 return (gettext("1536-bit MODP (group 5)")); 1433 case IKE_GRP_DESC_MODP_2048: 1434 return (gettext("2048-bit MODP (group 14)")); 1435 case IKE_GRP_DESC_MODP_3072: 1436 return (gettext("3072-bit MODP (group 15)")); 1437 case IKE_GRP_DESC_MODP_4096: 1438 return (gettext("4096-bit MODP (group 16)")); 1439 case IKE_GRP_DESC_MODP_6144: 1440 return (gettext("6144-bit MODP (group 17)")); 1441 case IKE_GRP_DESC_MODP_8192: 1442 return (gettext("8192-bit MODP (group 18)")); 1443 default: 1444 (void) snprintf(rtn, MAXLINESIZE, gettext("<unknown %d>"), grp); 1445 return (rtn); 1446 } 1447 } 1448 1449 static void 1450 print_hdr(char *prefix, ike_p1_hdr_t *hdrp) 1451 { 1452 char sbuf[TBUF_SIZE]; 1453 char tbuf[TBUF_SIZE]; 1454 time_t ltime = (time_t)hdrp->p1hdr_dpd_time; 1455 1456 (void) printf( 1457 gettext("%s Cookies: Initiator 0x%llx Responder 0x%llx\n"), 1458 prefix, ntohll(hdrp->p1hdr_cookies.cky_i), 1459 ntohll(hdrp->p1hdr_cookies.cky_r)); 1460 (void) printf(gettext("%s The local host is the %s.\n"), prefix, 1461 hdrp->p1hdr_isinit ? gettext("initiator") : gettext("responder")); 1462 (void) printf(gettext("%s ISAKMP version %d.%d; %s exchange\n"), prefix, 1463 hdrp->p1hdr_major, hdrp->p1hdr_minor, xchgstr(hdrp->p1hdr_xchg)); 1464 (void) printf(gettext("%s Current state is %s\n"), prefix, 1465 statestr(hdrp->p1hdr_state)); 1466 if (hdrp->p1hdr_support_dpd == B_FALSE) { 1467 return; 1468 } 1469 (void) printf(gettext("%s Dead Peer Detection (RFC 3706)" 1470 " enabled"), prefix); 1471 if (hdrp->p1hdr_dpd_state < DPD_IN_PROGRESS) { 1472 (void) printf("\n"); 1473 return; 1474 } 1475 if (strftime(tbuf, TBUF_SIZE, NULL, 1476 localtime(<ime)) == 0) { 1477 (void) strlcpy(tbuf, gettext("<time conversion failed>"), 1478 TBUF_SIZE); 1479 } 1480 (void) printf(gettext("\n%s Dead Peer Detection handshake "), prefix); 1481 switch (hdrp->p1hdr_dpd_state) { 1482 case DPD_SUCCESSFUL: 1483 (void) strlcpy(sbuf, gettext("was successful at "), TBUF_SIZE); 1484 break; 1485 case DPD_FAILURE: 1486 (void) strlcpy(sbuf, gettext("failed at "), TBUF_SIZE); 1487 break; 1488 case DPD_IN_PROGRESS: 1489 (void) strlcpy(sbuf, gettext("is in progress."), TBUF_SIZE); 1490 break; 1491 } 1492 (void) printf("%s %s", sbuf, 1493 (hdrp->p1hdr_dpd_state == DPD_IN_PROGRESS) ? "" : tbuf); 1494 (void) printf("\n"); 1495 } 1496 1497 static void 1498 print_lt_limits(char *prefix, ike_p1_xform_t *xfp) 1499 { 1500 (void) printf(gettext("%s Lifetime limits:\n"), prefix); 1501 (void) printf(gettext("%s %u seconds; %u kbytes protected; "), 1502 prefix, xfp->p1xf_max_secs, xfp->p1xf_max_kbytes); 1503 (void) printf(gettext("%u keymat provided.\n"), xfp->p1xf_max_keyuses); 1504 } 1505 1506 #define LT_USAGE_LEN 16 /* 1 uint64 + 2 uint32s */ 1507 static void 1508 print_lt_usage(char *prefix, ike_p1_stats_t *sp) 1509 { 1510 time_t scratch; 1511 char tbuf[TBUF_SIZE]; 1512 1513 (void) printf(gettext("%s Current usage:\n"), prefix); 1514 scratch = (time_t)sp->p1stat_start; 1515 if (strftime(tbuf, TBUF_SIZE, NULL, localtime(&scratch)) == 0) 1516 (void) strlcpy(tbuf, gettext("<time conversion failed>"), 1517 TBUF_SIZE); 1518 (void) printf(gettext("%s SA was created at %s\n"), prefix, tbuf); 1519 (void) printf(gettext("%s %u kbytes protected; %u keymat provided.\n"), 1520 prefix, sp->p1stat_kbytes, sp->p1stat_keyuses); 1521 } 1522 1523 static void 1524 print_xform(char *prefix, ike_p1_xform_t *xfp, boolean_t print_lifetimes) 1525 { 1526 (void) printf(gettext("%s Authentication method: %s"), prefix, 1527 authmethstr(xfp->p1xf_auth_meth)); 1528 (void) printf(gettext("\n%s Encryption alg: "), prefix); 1529 (void) dump_ealg(xfp->p1xf_encr_alg, stdout); 1530 if (xfp->p1xf_encr_low_bits != 0) { 1531 (void) printf(gettext("(%d..%d)"), xfp->p1xf_encr_low_bits, 1532 xfp->p1xf_encr_high_bits); 1533 } else if ((xfp->p1xf_encr_low_bits == 0) && 1534 (xfp->p1xf_encr_high_bits != 0)) { 1535 /* 1536 * High bits is a placeholder for 1537 * negotiated algorithm strength 1538 */ 1539 (void) printf(gettext("(%d)"), xfp->p1xf_encr_high_bits); 1540 } 1541 (void) printf(gettext("; Authentication alg: ")); 1542 (void) dump_aalg(xfp->p1xf_auth_alg, stdout); 1543 (void) printf("\n%s ", prefix); 1544 if (xfp->p1xf_prf != 0) 1545 (void) printf(gettext("PRF: %s ; "), prfstr(xfp->p1xf_prf)); 1546 (void) printf(gettext("Oakley Group: %s\n"), 1547 dhstr(xfp->p1xf_dh_group)); 1548 if (xfp->p1xf_pfs == 0) { 1549 (void) printf(gettext("%s Phase 2 PFS is not used\n"), prefix); 1550 } else { 1551 (void) printf(gettext( 1552 "%s Phase 2 PFS is required (Oakley Group: %s)\n"), 1553 prefix, dhstr(xfp->p1xf_pfs)); 1554 } 1555 1556 if (print_lifetimes) 1557 print_lt_limits(prefix, xfp); 1558 } 1559 1560 static void 1561 print_lifetime(char *prefix, ike_p1_xform_t *xfp, ike_p1_stats_t *sp, 1562 int statlen) 1563 { 1564 time_t current, remain, exp; 1565 char tbuf[TBUF_SIZE]; 1566 1567 current = time(NULL); 1568 1569 print_lt_limits(prefix, xfp); 1570 1571 /* 1572 * make sure the stats struct we've been passed is as big 1573 * as we expect it to be. The usage stats are at the end, 1574 * so anything less than the size we expect won't work. 1575 */ 1576 if (statlen >= sizeof (ike_p1_stats_t)) { 1577 print_lt_usage(prefix, sp); 1578 } else { 1579 return; 1580 } 1581 1582 (void) printf(gettext("%s Expiration info:\n"), prefix); 1583 1584 if (xfp->p1xf_max_kbytes != 0) 1585 (void) printf(gettext("%s %u more bytes can be protected.\n"), 1586 prefix, xfp->p1xf_max_kbytes - sp->p1stat_kbytes); 1587 1588 if (xfp->p1xf_max_keyuses != 0) 1589 (void) printf(gettext("%s Keying material can be provided " 1590 "%u more times.\n"), prefix, 1591 xfp->p1xf_max_keyuses - sp->p1stat_keyuses); 1592 1593 if (xfp->p1xf_max_secs != 0) { 1594 exp = (time_t)sp->p1stat_start + (time_t)xfp->p1xf_max_secs; 1595 remain = exp - current; 1596 if (strftime(tbuf, TBUF_SIZE, NULL, localtime(&exp)) == 0) 1597 (void) strlcpy(tbuf, 1598 gettext("<time conversion failed>"), TBUF_SIZE); 1599 /* 1600 * The SA may have expired but still exist because libike 1601 * has not freed it yet. 1602 */ 1603 if (remain > 0) 1604 (void) printf(gettext( 1605 "%s SA expires in %lu seconds, at %s\n"), 1606 prefix, remain, tbuf); 1607 else 1608 (void) printf(gettext("%s SA Expired at %s\n"), 1609 prefix, tbuf); 1610 } 1611 } 1612 1613 /* used to verify structure lengths... */ 1614 #define COUNTER_32BIT 4 1615 #define COUNTER_PAIR 8 1616 1617 static void 1618 print_p1stats(char *prefix, ike_p1_stats_t *sp, int statlen, 1619 boolean_t print_lifetimes) 1620 { 1621 if (statlen < COUNTER_PAIR) 1622 return; 1623 (void) printf(gettext("%s %u Quick Mode SAs created; "), prefix, 1624 sp->p1stat_new_qm_sas); 1625 (void) printf(gettext("%u Quick Mode SAs deleted\n"), 1626 sp->p1stat_del_qm_sas); 1627 statlen -= COUNTER_PAIR; 1628 1629 if ((print_lifetimes) && (statlen >= LT_USAGE_LEN)) 1630 print_lt_usage(prefix, sp); 1631 } 1632 1633 static void 1634 print_errs(char *prefix, ike_p1_errors_t *errp, int errlen) 1635 { 1636 /* 1637 * Don't try to break this one up; it's either all or nothing! 1638 */ 1639 if (errlen < sizeof (ike_p1_errors_t)) 1640 return; 1641 1642 (void) printf(gettext("%s %u RX errors: "), prefix, 1643 errp->p1err_decrypt + errp->p1err_hash + errp->p1err_otherrx); 1644 (void) printf(gettext("%u decryption, %u hash, %u other\n"), 1645 errp->p1err_decrypt, errp->p1err_hash, errp->p1err_otherrx); 1646 (void) printf(gettext("%s %u TX errors\n"), prefix, errp->p1err_tx); 1647 } 1648 1649 static void 1650 print_addr_range(char *prefix, ike_addr_pr_t *pr) 1651 { 1652 boolean_t range = B_TRUE; 1653 struct sockaddr_storage *beg, *end; 1654 struct sockaddr_in *bsin, *esin; 1655 struct sockaddr_in6 *bsin6, *esin6; 1656 1657 beg = &pr->beg_iprange; 1658 end = &pr->end_iprange; 1659 1660 if (beg->ss_family != end->ss_family) { 1661 (void) printf(gettext("%s invalid address range\n"), prefix); 1662 return; 1663 } 1664 1665 switch (beg->ss_family) { 1666 case AF_INET: 1667 bsin = (struct sockaddr_in *)beg; 1668 esin = (struct sockaddr_in *)end; 1669 if ((uint32_t)bsin->sin_addr.s_addr == 1670 (uint32_t)esin->sin_addr.s_addr) 1671 range = B_FALSE; 1672 break; 1673 case AF_INET6: 1674 bsin6 = (struct sockaddr_in6 *)beg; 1675 esin6 = (struct sockaddr_in6 *)end; 1676 if (IN6_ARE_ADDR_EQUAL(&bsin6->sin6_addr, &esin6->sin6_addr)) 1677 range = B_FALSE; 1678 break; 1679 default: 1680 (void) printf(gettext("%s invalid address range\n"), prefix); 1681 return; 1682 } 1683 1684 (void) printf("%s ", prefix); 1685 (void) dump_sockaddr((struct sockaddr *)beg, 0, B_TRUE, stdout, nflag); 1686 if (range) { 1687 (void) printf(" - "); 1688 (void) dump_sockaddr((struct sockaddr *)end, 0, B_TRUE, stdout, 1689 nflag); 1690 } 1691 (void) printf("\n"); 1692 1693 } 1694 1695 /* 1696 * used to tell printing function if info should be identified 1697 * as belonging to initiator, responder, or neither 1698 */ 1699 #define IS_INITIATOR 1 1700 #define IS_RESPONDER 2 1701 #define DONT_PRINT_INIT 3 1702 1703 static void 1704 print_addr(char *prefix, struct sockaddr_storage *sa, int init_instr) 1705 { 1706 (void) printf(gettext("%s Address"), prefix); 1707 1708 if (init_instr != DONT_PRINT_INIT) 1709 (void) printf(" (%s):\n", (init_instr == IS_INITIATOR) ? 1710 gettext("Initiator") : gettext("Responder")); 1711 else 1712 (void) printf(":\n"); 1713 1714 (void) printf("%s ", prefix); 1715 (void) dump_sockaddr((struct sockaddr *)sa, 0, B_FALSE, stdout, nflag); 1716 } 1717 1718 static void 1719 print_id(char *prefix, sadb_ident_t *idp, int init_instr) 1720 { 1721 boolean_t canprint; 1722 1723 switch (init_instr) { 1724 case IS_INITIATOR: 1725 (void) printf(gettext("%s Initiator identity, "), prefix); 1726 break; 1727 case IS_RESPONDER: 1728 (void) printf(gettext("%s Responder identity, "), prefix); 1729 break; 1730 case DONT_PRINT_INIT: 1731 (void) printf(gettext("%s Identity, "), prefix); 1732 break; 1733 default: 1734 (void) printf(gettext("<invalid identity>\n")); 1735 return; 1736 } 1737 (void) printf(gettext("uid=%d, type "), idp->sadb_ident_id); 1738 canprint = dump_sadb_idtype(idp->sadb_ident_type, stdout, NULL); 1739 if (canprint) { 1740 (void) printf("\n%s %s\n", prefix, (char *)(idp + 1)); 1741 } else { 1742 (void) printf(gettext("\n%s "), prefix); 1743 print_asn1_name(stdout, 1744 (const unsigned char *)(idp + 1), 1745 SADB_64TO8(idp->sadb_ident_len) - sizeof (sadb_ident_t)); 1746 } 1747 } 1748 1749 static void 1750 print_idspec(char *prefix, char *idp, int icnt, int ecnt) 1751 { 1752 int i; 1753 1754 (void) printf(gettext("%s Identity descriptors:\n"), prefix); 1755 1756 for (i = 0; i < icnt; i++) { 1757 if (i == 0) 1758 (void) printf(gettext("%s Includes:\n"), prefix); 1759 (void) printf("%s %s\n", prefix, idp); 1760 idp += strlen(idp) + 1; 1761 } 1762 1763 for (i = 0; i < ecnt; i++) { 1764 if (i == 0) 1765 (void) printf(gettext("%s Excludes:\n"), prefix); 1766 (void) printf("%s %s\n", prefix, idp); 1767 idp += strlen(idp) + 1; 1768 } 1769 } 1770 1771 static void 1772 print_keys(char *prefix, ike_p1_key_t *keyp, int size) 1773 { 1774 uint32_t *curp; 1775 ike_p1_key_t *p; 1776 int ssize; 1777 1778 curp = (uint32_t *)keyp; 1779 1780 ssize = sizeof (ike_p1_key_t); 1781 1782 while ((intptr_t)curp - (intptr_t)keyp < size) { 1783 size_t p1klen, len; 1784 1785 p = (ike_p1_key_t *)curp; 1786 p1klen = p->p1key_len; 1787 len = p1klen - ssize; 1788 1789 p1klen = roundup(p1klen, sizeof (ike_p1_key_t)); 1790 if (p1klen < ssize) { 1791 (void) printf(gettext("Short key\n")); 1792 break; 1793 } 1794 1795 switch (p->p1key_type) { 1796 case IKE_KEY_PRESHARED: 1797 (void) printf(gettext("%s Pre-shared key (%d bytes): "), 1798 prefix, len); 1799 (void) dump_key((uint8_t *)(p + 1), SADB_8TO1(len), 1800 stdout); 1801 break; 1802 case IKE_KEY_SKEYID: 1803 (void) printf(gettext("%s SKEYID (%d bytes): "), 1804 prefix, len); 1805 (void) dump_key((uint8_t *)(p + 1), SADB_8TO1(len), 1806 stdout); 1807 break; 1808 case IKE_KEY_SKEYID_D: 1809 (void) printf(gettext("%s SKEYID_d (%d bytes): "), 1810 prefix, len); 1811 (void) dump_key((uint8_t *)(p + 1), SADB_8TO1(len), 1812 stdout); 1813 break; 1814 case IKE_KEY_SKEYID_A: 1815 (void) printf(gettext("%s SKEYID_a (%d bytes): "), 1816 prefix, len); 1817 (void) dump_key((uint8_t *)(p + 1), SADB_8TO1(len), 1818 stdout); 1819 break; 1820 case IKE_KEY_SKEYID_E: 1821 (void) printf(gettext("%s SKEYID_e (%d bytes): "), 1822 prefix, len); 1823 (void) dump_key((uint8_t *)(p + 1), SADB_8TO1(len), 1824 stdout); 1825 break; 1826 case IKE_KEY_ENCR: 1827 (void) printf(gettext("%s Encryption key (%d bytes): "), 1828 prefix, len); 1829 (void) dump_key((uint8_t *)(p + 1), SADB_8TO1(len), 1830 stdout); 1831 break; 1832 case IKE_KEY_IV: 1833 (void) printf( 1834 gettext("%s Initialization vector (%d bytes): "), 1835 prefix, len); 1836 (void) dump_key((uint8_t *)(p + 1), SADB_8TO1(len), 1837 stdout); 1838 break; 1839 default: 1840 (void) printf(gettext("%s Unidentified key info %p %d"), 1841 prefix, p, p1klen); 1842 } 1843 (void) printf("\n"); 1844 assert(IS_P2ALIGNED(p1klen, 8)); 1845 curp += (p1klen >> 2); 1846 } 1847 } 1848 1849 static void 1850 print_p1(ike_p1_sa_t *p1) 1851 { 1852 ike_p1_stats_t *sp; 1853 ike_p1_errors_t *ep; 1854 ike_p1_key_t *kp; 1855 sadb_ident_t *lidp, *ridp; 1856 int lstat, rstat; 1857 1858 (void) printf("\n"); 1859 print_hdr("IKESA:", &p1->p1sa_hdr); 1860 print_xform("XFORM:", &p1->p1sa_xform, B_FALSE); 1861 1862 if (p1->p1sa_hdr.p1hdr_isinit) { 1863 lstat = IS_INITIATOR; 1864 rstat = IS_RESPONDER; 1865 } else { 1866 lstat = IS_RESPONDER; 1867 rstat = IS_INITIATOR; 1868 } 1869 print_addr("LOCIP:", &p1->p1sa_ipaddrs.loc_addr, lstat); 1870 print_addr("REMIP:", &p1->p1sa_ipaddrs.rem_addr, rstat); 1871 1872 /* 1873 * the stat len might be 0; but still make the call 1874 * to print_lifetime() to pick up the xform info 1875 */ 1876 sp = (ike_p1_stats_t *)((int)(p1) + p1->p1sa_stat_off); 1877 print_lifetime("LIFTM:", &p1->p1sa_xform, sp, p1->p1sa_stat_len); 1878 1879 if (p1->p1sa_stat_len > 0) { 1880 print_p1stats("STATS:", sp, p1->p1sa_stat_len, B_FALSE); 1881 } 1882 1883 if (p1->p1sa_error_len > 0) { 1884 ep = (ike_p1_errors_t *)((int)(p1) + p1->p1sa_error_off); 1885 print_errs("ERRS: ", ep, p1->p1sa_error_len); 1886 } 1887 1888 if (p1->p1sa_localid_len > 0) { 1889 lidp = (sadb_ident_t *)((int)(p1) + p1->p1sa_localid_off); 1890 print_id("LOCID:", lidp, lstat); 1891 } 1892 1893 if (p1->p1sa_remoteid_len > 0) { 1894 ridp = (sadb_ident_t *)((int)(p1) + p1->p1sa_remoteid_off); 1895 print_id("REMID:", ridp, rstat); 1896 } 1897 1898 if (p1->p1sa_key_len > 0) { 1899 kp = (ike_p1_key_t *)((int)(p1) + p1->p1sa_key_off); 1900 print_keys("KEY: ", kp, p1->p1sa_key_len); 1901 } 1902 } 1903 1904 static void 1905 print_certcache(ike_certcache_t *c) 1906 { 1907 (void) printf("\n"); 1908 1909 (void) printf(gettext("CERTIFICATE CACHE ID: %d\n"), c->cache_id); 1910 (void) printf(gettext("\tSubject Name: <%s>\n"), 1911 (c->subject != NULL) ? c->subject : gettext("Name unavailable")); 1912 (void) printf(gettext("\t Issuer Name: <%s>\n"), 1913 (c->issuer != NULL) ? c->issuer : gettext("Name unavailable")); 1914 if ((int)c->class == -1) 1915 (void) printf(gettext("\t\t[trusted certificate]\n")); 1916 switch (c->linkage) { 1917 case CERT_OFF_WIRE: 1918 (void) printf(gettext("\t\t[Public certificate only]\n")); 1919 (void) printf(gettext( 1920 "\t\t[Obtained via certificate payload]\n")); 1921 break; 1922 case CERT_NO_PRIVKEY: 1923 (void) printf(gettext("\t\t[Public certificate only]\n")); 1924 break; 1925 case CERT_PRIVKEY_LOCKED: 1926 (void) printf(gettext( 1927 "\t\t[Private key linked but locked]\n")); 1928 break; 1929 case CERT_PRIVKEY_AVAIL: 1930 (void) printf(gettext("\t\t[Private key available]\n")); 1931 break; 1932 } 1933 } 1934 1935 static void 1936 print_ps(ike_ps_t *ps) 1937 { 1938 sadb_ident_t *lidp, *ridp; 1939 uint8_t *keyp; 1940 1941 (void) printf("\n"); 1942 1943 (void) printf(gettext("PSKEY: For %s exchanges\n"), 1944 xchgstr(ps->ps_ike_mode)); 1945 1946 if (ps->ps_key_len > 0) { 1947 keyp = (uint8_t *)((int)(ps) + ps->ps_key_off); 1948 (void) printf(gettext("PSKEY: Pre-shared key (%d bytes): "), 1949 ps->ps_key_len); 1950 (void) dump_key(keyp, ps->ps_key_bits, stdout); 1951 (void) printf("\n"); 1952 } 1953 1954 /* 1955 * We get *either* and address or an ident, never both. So if 1956 * the ident is there, don't try printing an address. 1957 */ 1958 if (ps->ps_localid_len > 0) { 1959 lidp = (sadb_ident_t *) 1960 ((int)(ps) + ps->ps_localid_off); 1961 print_id("LOCID:", lidp, DONT_PRINT_INIT); 1962 } else { 1963 print_addr("LOCIP:", &ps->ps_ipaddrs.loc_addr, DONT_PRINT_INIT); 1964 } 1965 1966 if (ps->ps_remoteid_len > 0) { 1967 ridp = (sadb_ident_t *) 1968 ((int)(ps) + ps->ps_remoteid_off); 1969 print_id("REMID:", ridp, DONT_PRINT_INIT); 1970 } else { 1971 print_addr("REMIP:", &ps->ps_ipaddrs.rem_addr, DONT_PRINT_INIT); 1972 } 1973 } 1974 1975 #define PREFIXLEN 16 1976 1977 static void 1978 print_rule(ike_rule_t *rp) 1979 { 1980 char prefix[PREFIXLEN]; 1981 int i; 1982 ike_p1_xform_t *xfp; 1983 ike_addr_pr_t *lipp, *ripp; 1984 char *lidp, *ridp; 1985 1986 (void) printf("\n"); 1987 (void) printf(gettext("GLOBL: Label '%s', key manager cookie %u\n"), 1988 rp->rule_label, rp->rule_kmcookie); 1989 (void) printf(gettext("GLOBL: local_idtype=")); 1990 (void) dump_sadb_idtype(rp->rule_local_idtype, stdout, NULL); 1991 (void) printf(gettext(", ike_mode=%s\n"), xchgstr(rp->rule_ike_mode)); 1992 (void) printf(gettext( 1993 "GLOBL: p1_nonce_len=%u, p2_nonce_len=%u, p2_pfs=%s (group %u)\n"), 1994 rp->rule_p1_nonce_len, rp->rule_p2_nonce_len, 1995 (rp->rule_p2_pfs) ? gettext("true") : gettext("false"), 1996 rp->rule_p2_pfs); 1997 (void) printf( 1998 gettext("GLOBL: p2_lifetime=%u seconds, p2_softlife=%u seconds\n"), 1999 rp->rule_p2_lifetime_secs, rp->rule_p2_softlife_secs); 2000 (void) printf( 2001 gettext("GLOBL: p2_idletime=%u seconds\n"), 2002 rp->rule_p2_idletime_secs); 2003 (void) printf( 2004 gettext("GLOBL: p2_lifetime_kb=%u seconds," 2005 " p2_softlife_kb=%u seconds\n"), 2006 rp->rule_p2_lifetime_kb, rp->rule_p2_softlife_kb); 2007 2008 if (rp->rule_locip_cnt > 0) { 2009 (void) printf(gettext("LOCIP: IP address range(s):\n")); 2010 lipp = (ike_addr_pr_t *)((int)rp + rp->rule_locip_off); 2011 for (i = 0; i < rp->rule_locip_cnt; i++, lipp++) { 2012 print_addr_range("LOCIP:", lipp); 2013 } 2014 } 2015 2016 if (rp->rule_remip_cnt > 0) { 2017 (void) printf(gettext("REMIP: IP address range(s):\n")); 2018 ripp = (ike_addr_pr_t *)((int)rp + rp->rule_remip_off); 2019 for (i = 0; i < rp->rule_remip_cnt; i++, ripp++) { 2020 print_addr_range("REMIP:", ripp); 2021 } 2022 } 2023 2024 if (rp->rule_locid_inclcnt + rp->rule_locid_exclcnt > 0) { 2025 lidp = (char *)((int)rp + rp->rule_locid_off); 2026 print_idspec("LOCID:", lidp, rp->rule_locid_inclcnt, 2027 rp->rule_locid_exclcnt); 2028 } 2029 2030 if (rp->rule_remid_inclcnt + rp->rule_remid_exclcnt > 0) { 2031 ridp = (char *)((int)rp + rp->rule_remid_off); 2032 print_idspec("REMID:", ridp, rp->rule_remid_inclcnt, 2033 rp->rule_remid_exclcnt); 2034 } 2035 2036 if (rp->rule_xform_cnt > 0) { 2037 (void) printf(gettext("XFRMS: Available Transforms:\n")); 2038 xfp = (ike_p1_xform_t *)((int)rp + rp->rule_xform_off); 2039 for (i = 0; i < rp->rule_xform_cnt; i++, xfp++) { 2040 (void) snprintf(prefix, PREFIXLEN, "XF %2u:", i); 2041 print_xform(prefix, xfp, B_TRUE); 2042 } 2043 } 2044 } 2045 2046 #undef PREFIXLEN 2047 2048 #define PRSACNTS(init, resp) \ 2049 (void) printf(gettext("initiator: %10u responder: %10u\n"), \ 2050 (init), (resp)) 2051 2052 static void 2053 print_stats(ike_stats_t *sp, int len) 2054 { 2055 /* 2056 * before printing each line, make sure the structure we were 2057 * given is big enough to include the fields needed. 2058 */ 2059 if (len < COUNTER_PAIR) 2060 return; 2061 (void) printf(gettext("Phase 1 SA counts:\n")); 2062 (void) printf(gettext("Current: ")); 2063 PRSACNTS(sp->st_init_p1_current, sp->st_resp_p1_current); 2064 len -= COUNTER_PAIR; 2065 2066 if (len < COUNTER_PAIR) 2067 return; 2068 (void) printf(gettext("Total: ")); 2069 PRSACNTS(sp->st_init_p1_total, sp->st_resp_p1_total); 2070 len -= COUNTER_PAIR; 2071 2072 if (len < COUNTER_PAIR) 2073 return; 2074 (void) printf(gettext("Attempted: ")); 2075 PRSACNTS(sp->st_init_p1_attempts, sp->st_resp_p1_attempts); 2076 len -= COUNTER_PAIR; 2077 2078 if (len < (COUNTER_PAIR + COUNTER_32BIT)) 2079 return; 2080 (void) printf(gettext("Failed: ")); 2081 PRSACNTS(sp->st_init_p1_noresp + sp->st_init_p1_respfail, 2082 sp->st_resp_p1_fail); 2083 (void) printf( 2084 gettext(" initiator fails include %u time-out(s)\n"), 2085 sp->st_init_p1_noresp); 2086 2087 if (len < PATH_MAX) 2088 return; 2089 if (*(sp->st_pkcs11_libname) != '\0') 2090 (void) printf(gettext("PKCS#11 library linked in from %s\n"), 2091 sp->st_pkcs11_libname); 2092 } 2093 2094 static void 2095 print_defaults(char *label, char *description, char *unit, boolean_t kbytes, 2096 uint_t current, uint_t def) 2097 { 2098 (void) printf("%-18s%-10s%14u%s%-10s%-26s\n", label, 2099 (current != def) ? gettext("config") : gettext("default"), 2100 (current != def) ? current : def, (kbytes) ? "K " : " ", 2101 unit, description); 2102 } 2103 2104 /* 2105 * Print out defaults used by in.iked, the argument is a buffer containing 2106 * two ike_defaults_t's, the first contains the hard coded defaults, the second 2107 * contains the actual values used. If these differ, then the defaults have been 2108 * changed via a config file entry. Note that "-" indicates this default 2109 * is not tunable. 2110 */ 2111 static void 2112 do_print_defaults(ike_defaults_t *dp) 2113 { 2114 ike_defaults_t *ddp; 2115 ddp = (ike_defaults_t *)(dp + 1); 2116 2117 (void) printf(gettext("\nGlobal defaults. Some values can be" 2118 " over-ridden on a per rule basis.\n\n")); 2119 2120 (void) printf("%-18s%-10s%-16s%-10s%-26s\n\n", 2121 gettext("Token:"), gettext("Source:"), gettext("Value:"), 2122 gettext("Unit:"), gettext("Description:")); 2123 2124 print_defaults("p1_lifetime_secs", gettext("phase 1 lifetime"), 2125 gettext("seconds"), B_FALSE, ddp->rule_p1_lifetime_secs, 2126 dp->rule_p1_lifetime_secs); 2127 2128 print_defaults("-", gettext("minimum phase 1 lifetime"), 2129 gettext("seconds"), B_FALSE, ddp->rule_p1_minlife, 2130 dp->rule_p1_minlife); 2131 2132 print_defaults("p1_nonce_len", gettext("phase 1 nonce length"), 2133 gettext("bytes"), B_FALSE, ddp->rule_p1_nonce_len, 2134 dp->rule_p1_nonce_len); 2135 2136 print_defaults("p2_lifetime_secs", gettext("phase 2 lifetime"), 2137 gettext("seconds"), B_FALSE, ddp->rule_p2_lifetime_secs, 2138 dp->rule_p2_lifetime_secs); 2139 2140 print_defaults("p2_softlife_secs", gettext("phase 2 soft lifetime"), 2141 gettext("seconds"), B_FALSE, ddp->rule_p2_softlife_secs, 2142 dp->rule_p2_softlife_secs); 2143 2144 print_defaults("p2_idletime_secs", gettext("phase 2 idle time"), 2145 gettext("seconds"), B_FALSE, ddp->rule_p2_idletime_secs, 2146 dp->rule_p2_idletime_secs); 2147 2148 print_defaults("-", gettext("system phase 2 lifetime"), 2149 gettext("seconds"), B_FALSE, ddp->sys_p2_lifetime_secs, 2150 dp->sys_p2_lifetime_secs); 2151 2152 print_defaults("-", gettext("system phase 2 soft lifetime"), 2153 gettext("seconds"), B_FALSE, ddp->sys_p2_softlife_secs, 2154 dp->sys_p2_softlife_secs); 2155 2156 print_defaults("-", gettext("system phase 2 idle time"), 2157 gettext("seconds"), B_FALSE, ddp->sys_p2_idletime_secs, 2158 dp->sys_p2_idletime_secs); 2159 2160 print_defaults("p2_lifetime_kb", gettext("phase 2 lifetime"), 2161 gettext("bytes"), B_TRUE, ddp->rule_p2_lifetime_kb, 2162 dp->rule_p2_lifetime_kb); 2163 2164 print_defaults("p2_softlife_kb", gettext("phase 2 soft lifetime"), 2165 gettext("bytes"), B_TRUE, ddp->rule_p2_softlife_kb, 2166 dp->rule_p2_softlife_kb); 2167 2168 print_defaults("-", gettext("system phase 2 lifetime"), 2169 gettext("bytes"), B_FALSE, ddp->sys_p2_lifetime_bytes, 2170 dp->sys_p2_lifetime_bytes); 2171 2172 print_defaults("-", gettext("system phase 2 soft lifetime"), 2173 gettext("bytes"), B_FALSE, ddp->sys_p2_softlife_bytes, 2174 dp->sys_p2_softlife_bytes); 2175 2176 print_defaults("-", gettext("minimum phase 2 lifetime"), 2177 gettext("seconds"), B_FALSE, ddp->rule_p2_minlife, 2178 dp->rule_p2_minlife); 2179 2180 print_defaults("p2_nonce_len", gettext("phase 2 nonce length"), 2181 gettext("bytes"), B_FALSE, ddp->rule_p2_nonce_len, 2182 dp->rule_p2_nonce_len); 2183 2184 print_defaults("-", gettext("default phase 2 lifetime"), 2185 gettext("seconds"), B_FALSE, ddp->rule_p2_def_minlife, 2186 dp->rule_p2_def_minlife); 2187 2188 print_defaults("-", gettext("minimum phase 2 soft delta"), 2189 gettext("seconds"), B_FALSE, ddp->rule_p2_minsoft, 2190 dp->rule_p2_minsoft); 2191 2192 print_defaults("p2_pfs", gettext("phase 2 PFS"), 2193 " ", B_FALSE, ddp->rule_p2_pfs, dp->rule_p2_pfs); 2194 2195 print_defaults("max_certs", gettext("max certificates"), 2196 " ", B_FALSE, ddp->rule_max_certs, dp->rule_max_certs); 2197 2198 print_defaults("-", gettext("IKE port number"), 2199 " ", B_FALSE, ddp->rule_ike_port, dp->rule_ike_port); 2200 2201 print_defaults("-", gettext("NAT-T port number"), 2202 " ", B_FALSE, ddp->rule_natt_port, dp->rule_natt_port); 2203 } 2204 2205 static void 2206 print_categories(int level) 2207 { 2208 int mask; 2209 2210 if (level == 0) { 2211 (void) printf(gettext("No debug categories enabled.\n")); 2212 return; 2213 } 2214 2215 (void) printf(gettext("Debug categories enabled:")); 2216 for (mask = 1; mask <= D_HIGHBIT; mask <<= 1) { 2217 if (level & mask) 2218 (void) printf("\n\t%s", dbgstr(mask)); 2219 } 2220 (void) printf("\n"); 2221 } 2222 2223 /*PRINTFLIKE2*/ 2224 static void 2225 ikeadm_err_exit(ike_err_t *err, char *fmt, ...) 2226 { 2227 va_list ap; 2228 char bailbuf[BUFSIZ]; 2229 2230 va_start(ap, fmt); 2231 (void) vsnprintf(bailbuf, BUFSIZ, fmt, ap); 2232 va_end(ap); 2233 if ((err != NULL) && (err->ike_err == IKE_ERR_SYS_ERR)) { 2234 bail_msg("%s: %s", bailbuf, (err->ike_err_unix == 0) ? 2235 gettext("<unknown error>") : strerror(err->ike_err_unix)); 2236 } else { 2237 bail_msg("%s: %s", bailbuf, (err == NULL) ? 2238 gettext("<unknown error>") : errstr(err->ike_err)); 2239 } 2240 } 2241 2242 /*PRINTFLIKE2*/ 2243 static void 2244 ikeadm_err_msg(ike_err_t *err, char *fmt, ...) 2245 { 2246 va_list ap; 2247 char mbuf[BUFSIZ]; 2248 2249 va_start(ap, fmt); 2250 (void) vsnprintf(mbuf, BUFSIZ, fmt, ap); 2251 va_end(ap); 2252 if ((err != NULL) && (err->ike_err == IKE_ERR_SYS_ERR)) { 2253 message("%s: %s", mbuf, (err->ike_err_unix == 0) ? 2254 gettext("<unknown error>") : 2255 ((err->ike_err_unix == EEXIST) ? 2256 gettext("Duplicate entry") : 2257 strerror(err->ike_err_unix))); 2258 } else { 2259 message("%s: %s", mbuf, (err == NULL) ? 2260 gettext("<unknown error>") : errstr(err->ike_err)); 2261 } 2262 } 2263 2264 2265 /* 2266 * Command functions 2267 */ 2268 2269 /* 2270 * Exploit the fact that ike_dbg_t and ike_priv_t have identical 2271 * formats in the following two functions. 2272 */ 2273 static void 2274 do_getvar(int cmd) 2275 { 2276 ike_service_t req, *rtn; 2277 ike_dbg_t *dreq; 2278 char *varname; 2279 2280 switch (cmd) { 2281 case IKE_SVC_GET_DBG: 2282 varname = gettext("debug"); 2283 break; 2284 case IKE_SVC_GET_PRIV: 2285 varname = gettext("privilege"); 2286 break; 2287 default: 2288 bail_msg(gettext("unrecognized get command (%d)"), cmd); 2289 } 2290 2291 dreq = &req.svc_dbg; 2292 dreq->cmd = cmd; 2293 dreq->dbg_level = 0; 2294 2295 rtn = ikedoor_call((char *)&req, sizeof (ike_dbg_t), NULL, 0); 2296 2297 if ((rtn == NULL) || (rtn->svc_err.cmd == IKE_SVC_ERROR)) { 2298 ikeadm_err_exit(&rtn->svc_err, 2299 gettext("error getting %s level"), varname); 2300 } 2301 dreq = &rtn->svc_dbg; 2302 (void) printf(gettext("Current %s level is 0x%x"), 2303 varname, dreq->dbg_level); 2304 2305 if (cmd == IKE_SVC_GET_DBG) { 2306 (void) printf("\n"); 2307 print_categories(dreq->dbg_level); 2308 } else { 2309 (void) printf(gettext(", %s enabled\n"), 2310 privstr(dreq->dbg_level)); 2311 } 2312 } 2313 2314 /* 2315 * Log into a token and unlock all objects 2316 * referenced by PKCS#11 hint files. 2317 */ 2318 static void 2319 do_setdel_pin(int cmd, int argc, char **argv) 2320 { 2321 ike_service_t req, *rtn; 2322 ike_pin_t *preq; 2323 char token_label[PKCS11_TOKSIZE]; 2324 char *token_pin; 2325 char prompt[80]; 2326 2327 if (argc < 1) 2328 Bail(gettext("Must specify PKCS#11 token object.")); 2329 2330 preq = &req.svc_pin; 2331 preq->cmd = cmd; 2332 2333 switch (cmd) { 2334 case IKE_SVC_SET_PIN: 2335 if (parse_token(argc, argv, token_label) != 0) 2336 Bail("Invalid syntax for \"token login\""); 2337 (void) snprintf(prompt, sizeof (prompt), 2338 "Enter PIN for PKCS#11 token \'%s\': ", token_label); 2339 token_pin = 2340 getpassphrase(prompt); 2341 (void) strlcpy((char *)preq->token_pin, token_pin, MAX_PIN_LEN); 2342 bzero(token_pin, strlen(token_pin)); 2343 break; 2344 case IKE_SVC_DEL_PIN: 2345 if (parse_token(argc, argv, token_label) != 0) 2346 Bail("Invalid syntax for \"token logout\""); 2347 break; 2348 default: 2349 bail_msg(gettext("unrecognized token command (%d)"), cmd); 2350 } 2351 2352 (void) strlcpy(preq->pkcs11_token, token_label, PKCS11_TOKSIZE); 2353 2354 rtn = ikedoor_call((char *)&req, sizeof (ike_pin_t), NULL, 0); 2355 if (cmd == IKE_SVC_SET_PIN) 2356 bzero(preq->token_pin, sizeof (preq->token_pin)); 2357 2358 if ((rtn == NULL) || (rtn->svc_err.cmd == IKE_SVC_ERROR)) { 2359 ikeadm_err_exit(&rtn->svc_err, 2360 gettext("PKCS#11 operation")); 2361 } 2362 preq = &rtn->svc_pin; 2363 message(gettext("PKCS#11 operation successful")); 2364 } 2365 2366 static void 2367 do_setvar(int cmd, int argc, char **argv) 2368 { 2369 ike_service_t req, *rtn; 2370 ike_dbg_t *dreq; 2371 door_desc_t *descp = NULL, desc; 2372 int fd, ndesc = 0; 2373 uint32_t reqlevel; 2374 char *varname; 2375 2376 if (argc < 1) 2377 Bail("unspecified level"); 2378 reqlevel = strtoul(argv[0], NULL, 0); 2379 2380 switch (cmd) { 2381 case IKE_SVC_SET_DBG: 2382 if (argc > 2) 2383 Bail("Too many arguments to \"set debug\""); 2384 varname = gettext("debug"); 2385 if (reqlevel == 0) { 2386 /* check for a string... */ 2387 reqlevel = parsedbgopts(argv[0]); 2388 } 2389 if (reqlevel == D_INVALID) 2390 bail_msg(gettext("Bad debug flag: %s"), argv[0]); 2391 break; 2392 case IKE_SVC_SET_PRIV: 2393 if (argc > 1) 2394 Bail("Too many arguments to \"set priv\""); 2395 2396 varname = gettext("privilege"); 2397 if (reqlevel == 0) { 2398 /* check for a string... */ 2399 reqlevel = privstr2num(argv[0]); 2400 } 2401 if (reqlevel > IKE_PRIV_MAXIMUM) 2402 bail_msg(gettext("Bad privilege flag: %s"), argv[0]); 2403 break; 2404 default: 2405 bail_msg(gettext("unrecognized set command (%d)"), cmd); 2406 } 2407 2408 dreq = &req.svc_dbg; 2409 dreq->cmd = cmd; 2410 dreq->dbg_level = reqlevel; 2411 2412 if ((argc == 2) && (cmd == IKE_SVC_SET_DBG)) { 2413 fd = open(argv[1], O_RDWR | O_CREAT | O_APPEND, 2414 S_IRUSR | S_IWUSR); 2415 if (fd < 0) 2416 Bail("open debug file"); 2417 desc.d_data.d_desc.d_descriptor = fd; 2418 desc.d_attributes = DOOR_DESCRIPTOR; 2419 descp = &desc; 2420 ndesc = 1; 2421 } 2422 2423 rtn = ikedoor_call((char *)&req, sizeof (ike_dbg_t), descp, ndesc); 2424 2425 if ((rtn == NULL) || (rtn->svc_err.cmd == IKE_SVC_ERROR)) { 2426 ikeadm_err_exit(&rtn->svc_err, 2427 gettext("error setting %s level"), varname); 2428 } 2429 dreq = &rtn->svc_dbg; 2430 (void) printf( 2431 gettext("Successfully changed %s level from 0x%x to 0x%x\n"), 2432 varname, dreq->dbg_level, reqlevel); 2433 2434 if (cmd == IKE_SVC_SET_DBG) { 2435 print_categories(reqlevel); 2436 } else { 2437 (void) printf(gettext("New privilege level 0x%x enables %s\n"), 2438 reqlevel, privstr(reqlevel)); 2439 } 2440 } 2441 2442 static void 2443 do_getstats(int cmd) 2444 { 2445 ike_service_t *rtn; 2446 ike_statreq_t sreq, *sreqp; 2447 ike_stats_t *sp; 2448 2449 sreq.cmd = cmd; 2450 2451 rtn = ikedoor_call((char *)&sreq, sizeof (ike_statreq_t), NULL, 0); 2452 if ((rtn == NULL) || (rtn->svc_err.cmd == IKE_SVC_ERROR)) { 2453 ikeadm_err_exit(&rtn->svc_err, gettext("error getting stats")); 2454 } 2455 2456 sreqp = &rtn->svc_stats; 2457 sp = (ike_stats_t *)(sreqp + 1); 2458 print_stats(sp, sreqp->stat_len); 2459 } 2460 2461 static void 2462 do_getdefs(int cmd) 2463 { 2464 ike_service_t *rtn; 2465 ike_defreq_t dreq, *dreqp; 2466 ike_defaults_t *dp; 2467 2468 dreq.cmd = cmd; 2469 2470 rtn = ikedoor_call((char *)&dreq, sizeof (ike_defreq_t), NULL, 0); 2471 if ((rtn == NULL) || (rtn->svc_err.cmd == IKE_SVC_ERROR)) { 2472 ikeadm_err_exit(&rtn->svc_err, 2473 gettext("error getting defaults")); 2474 } 2475 2476 dreqp = &rtn->svc_defaults; 2477 dp = (ike_defaults_t *)(dreqp + 1); 2478 2479 /* 2480 * Before printing each line, make sure the structure we were 2481 * given is big enough to include the fields needed. 2482 * Silently bail out of there is a version mismatch. 2483 */ 2484 if (dreqp->stat_len < ((2 * sizeof (ike_defaults_t)) 2485 + sizeof (ike_defreq_t)) || dreqp->version != DOORVER) { 2486 return; 2487 } 2488 do_print_defaults(dp); 2489 } 2490 2491 static void 2492 do_dump(int cmd) 2493 { 2494 char *name; 2495 ike_service_t req, *rtn; 2496 ike_dump_t *dreq, *dump; 2497 2498 switch (cmd) { 2499 case IKE_SVC_DUMP_P1S: 2500 name = gettext("phase 1 SA info"); 2501 break; 2502 case IKE_SVC_DUMP_RULES: 2503 name = gettext("policy rules"); 2504 break; 2505 case IKE_SVC_DUMP_PS: 2506 name = gettext("preshared keys"); 2507 break; 2508 case IKE_SVC_DUMP_CERTCACHE: 2509 name = gettext("certcache"); 2510 break; 2511 default: 2512 bail_msg(gettext("unrecognized dump command (%d)"), cmd); 2513 } 2514 2515 dreq = &req.svc_dump; 2516 dreq->cmd = cmd; 2517 dreq->dump_len = 0; 2518 dreq->dump_next = 0; 2519 do { 2520 rtn = ikedoor_call((char *)&req, sizeof (ike_dump_t), 2521 NULL, 0); 2522 if ((rtn == NULL) || (rtn->svc_err.cmd == IKE_SVC_ERROR)) { 2523 if (rtn && (rtn->svc_err.ike_err == IKE_ERR_NO_OBJ)) { 2524 /* no entries to print */ 2525 break; 2526 } 2527 ikeadm_err_exit(&rtn->svc_err, 2528 gettext("error getting %s"), name); 2529 } 2530 dump = &rtn->svc_dump; 2531 2532 switch (cmd) { 2533 case IKE_SVC_DUMP_P1S: 2534 print_p1((ike_p1_sa_t *)(dump + 1)); 2535 break; 2536 case IKE_SVC_DUMP_RULES: 2537 print_rule((ike_rule_t *)(dump + 1)); 2538 break; 2539 case IKE_SVC_DUMP_PS: 2540 print_ps((ike_ps_t *)(dump + 1)); 2541 break; 2542 case IKE_SVC_DUMP_CERTCACHE: 2543 print_certcache((ike_certcache_t *)(dump + 1)); 2544 break; 2545 } 2546 2547 dreq->dump_next = dump->dump_next; 2548 2549 (void) munmap((char *)rtn, dump->dump_len); 2550 2551 } while (dreq->dump_next); 2552 2553 (void) printf(gettext("\nCompleted dump of %s\n"), name); 2554 } 2555 2556 static void 2557 do_getdel_doorcall(int cmd, int idlen, int idtype, char *idp, char *name) 2558 { 2559 int totallen; 2560 char *p; 2561 ike_service_t *reqp, *rtnp; 2562 ike_get_t *getp; 2563 boolean_t getcmd; 2564 2565 getcmd = ((cmd == IKE_SVC_GET_P1) || (cmd == IKE_SVC_GET_RULE) || 2566 (cmd == IKE_SVC_GET_PS)); 2567 2568 /* 2569 * WARNING: to avoid being redundant, this code takes advantage 2570 * of the fact that the ike_get_t and ike_del_t structures are 2571 * identical (only the field names differ, their function and 2572 * size are the same). If for some reason those structures 2573 * change, this code will need to be re-written to accomodate 2574 * that difference. 2575 */ 2576 totallen = sizeof (ike_get_t) + idlen; 2577 if ((reqp = (ike_service_t *)malloc(totallen)) == NULL) 2578 Bail("malloc(id)"); 2579 2580 getp = &reqp->svc_get; 2581 getp->cmd = cmd; 2582 getp->get_len = totallen; 2583 getp->get_idtype = idtype; 2584 p = (char *)(getp + 1); 2585 2586 (void) memcpy(p, idp, idlen); 2587 2588 rtnp = ikedoor_call((char *)reqp, totallen, NULL, 0); 2589 if ((rtnp == NULL) || (rtnp->svc_err.cmd == IKE_SVC_ERROR)) { 2590 if (rtnp && (rtnp->svc_err.ike_err == IKE_ERR_NO_OBJ)) { 2591 message(gettext("Could not find requested %s."), name); 2592 } else { 2593 ikeadm_err_msg(&rtnp->svc_err, gettext("error %s %s"), 2594 (getcmd) ? gettext("getting") : gettext("deleting"), 2595 name); 2596 } 2597 free(reqp); 2598 return; 2599 } 2600 getp = &rtnp->svc_get; 2601 2602 if (getcmd) { 2603 switch (cmd) { 2604 case IKE_SVC_GET_P1: 2605 print_p1((ike_p1_sa_t *)(getp + 1)); 2606 break; 2607 case IKE_SVC_GET_PS: 2608 print_ps((ike_ps_t *)(getp + 1)); 2609 break; 2610 case IKE_SVC_GET_RULE: 2611 print_rule((ike_rule_t *)(getp + 1)); 2612 break; 2613 } 2614 } else { 2615 message(gettext("Successfully deleted selected %s."), name); 2616 } 2617 2618 (void) munmap((char *)rtnp, getp->get_len); 2619 free(reqp); 2620 } 2621 2622 static void 2623 do_getdel(int cmd, int argc, char **argv) 2624 { 2625 int idlen, idtype = 0, i, j; 2626 int bytelen1, bytelen2; 2627 char *name, *idp, *p, *p1, *p2; 2628 ike_addr_pr_t apr; 2629 ike_cky_pr_t cpr; 2630 sadb_ident_t *sid1p, *sid2p; 2631 struct hostent *he1p, *he2p; 2632 char label[MAX_LABEL_LEN]; 2633 2634 if ((argc < 1) || (argv[0] == NULL)) { 2635 Bail("not enough identification info"); 2636 } 2637 2638 switch (cmd) { 2639 case IKE_SVC_GET_P1: 2640 case IKE_SVC_DEL_P1: 2641 name = gettext("phase 1 SA"); 2642 /* 2643 * The first token must either be an address (or hostname) 2644 * or a cookie. We require cookies to be entered as hex 2645 * numbers, beginning with 0x; so if our token starts with 2646 * that, it's a cookie. 2647 */ 2648 if (strncmp(argv[0], "0x", 2) == 0) { 2649 if (parse_cky_pr(argc, argv, &cpr) >= 0) { 2650 idtype = IKE_ID_CKY_PAIR; 2651 idlen = sizeof (ike_cky_pr_t); 2652 idp = (char *)&cpr; 2653 } 2654 } else { 2655 if (parse_addr_pr(argc, argv, &he1p, &he2p) >= 0) { 2656 idtype = IKE_ID_ADDR_PAIR; 2657 idlen = sizeof (ike_addr_pr_t); 2658 } 2659 } 2660 break; 2661 2662 case IKE_SVC_GET_RULE: 2663 case IKE_SVC_DEL_RULE: 2664 name = gettext("policy rule"); 2665 if (parse_label(argc, argv, label) >= 0) { 2666 idtype = IKE_ID_LABEL; 2667 idlen = MAX_LABEL_LEN; 2668 idp = label; 2669 } 2670 break; 2671 2672 case IKE_SVC_GET_PS: 2673 case IKE_SVC_DEL_PS: 2674 name = gettext("preshared key"); 2675 /* 2676 * The first token must either be an address or an ident 2677 * type. Check for an ident type to determine which it is. 2678 */ 2679 if (parse_idtype(argv[0], NULL) >= 0) { 2680 if (parse_ident_pr(argc, argv, &sid1p, &sid2p) >= 0) { 2681 idtype = IKE_ID_IDENT_PAIR; 2682 idlen = SADB_64TO8(sid1p->sadb_ident_len) + 2683 SADB_64TO8(sid2p->sadb_ident_len); 2684 } 2685 } else { 2686 if (parse_addr_pr(argc, argv, &he1p, &he2p) >= 0) { 2687 idtype = IKE_ID_ADDR_PAIR; 2688 idlen = sizeof (ike_addr_pr_t); 2689 } 2690 } 2691 break; 2692 2693 default: 2694 bail_msg(gettext("unrecognized get/del command (%d)"), cmd); 2695 } 2696 2697 switch (idtype) { 2698 case IKE_ID_ADDR_PAIR: 2699 /* 2700 * we might have exploding addrs here; do every possible 2701 * combination. 2702 */ 2703 i = 0; 2704 j = 0; 2705 while ((p1 = he1p->h_addr_list[i++]) != NULL) { 2706 headdr2sa(p1, &apr.loc_addr, he1p->h_length); 2707 2708 while ((p2 = he2p->h_addr_list[j++]) != NULL) { 2709 headdr2sa(p2, &apr.rem_addr, he2p->h_length); 2710 do_getdel_doorcall(cmd, idlen, idtype, 2711 (char *)&apr, name); 2712 } 2713 } 2714 FREE_HE(he1p); 2715 FREE_HE(he2p); 2716 break; 2717 2718 case IKE_ID_IDENT_PAIR: 2719 bytelen1 = SADB_64TO8(sid1p->sadb_ident_len); 2720 bytelen2 = SADB_64TO8(sid2p->sadb_ident_len); 2721 if (idlen != bytelen1 + bytelen2) 2722 Bail("ident syntax error"); 2723 idp = p = (char *)malloc(idlen); 2724 if (p == NULL) 2725 Bail("malloc(id)"); 2726 (void) memcpy(p, (char *)sid1p, bytelen1); 2727 p += bytelen1; 2728 (void) memcpy(p, (char *)sid2p, bytelen2); 2729 do_getdel_doorcall(cmd, idlen, idtype, idp, name); 2730 free(idp); 2731 free(sid1p); 2732 free(sid2p); 2733 break; 2734 2735 case IKE_ID_CKY_PAIR: 2736 case IKE_ID_LABEL: 2737 do_getdel_doorcall(cmd, idlen, idtype, idp, name); 2738 break; 2739 2740 case 0: 2741 default: 2742 bail_msg(gettext("invalid %s identification\n"), name); 2743 } 2744 } 2745 2746 /* 2747 * Copy source into target, inserting an escape character ('\') before 2748 * any quotes that appear. Return true on success, false on failure. 2749 */ 2750 static boolean_t 2751 escapequotes(char *target, char *source, int tlen) 2752 { 2753 int s, t, len = strlen(source) + 1; 2754 2755 if (tlen < len) 2756 return (B_FALSE); 2757 2758 for (s = 0, t = 0; s < len && t < tlen; s++) { 2759 if (source[s] == '\"') 2760 target[t++] = '\\'; 2761 target[t++] = source[s]; 2762 } 2763 2764 if ((t == tlen) && (s < len)) 2765 return (B_FALSE); 2766 2767 return (B_TRUE); 2768 } 2769 2770 /* 2771 * Return true if the arg following the given keyword should 2772 * be in quotes (i.e. is a string), false if not. 2773 */ 2774 static boolean_t 2775 quotedfield(char *keywd) 2776 { 2777 if ((strncmp(keywd, "label", strlen("label") + 1) == 0) || 2778 (strncmp(keywd, "local_id", strlen("local_id") + 1) == 0) || 2779 (strncmp(keywd, "remote_id", strlen("remote_id") + 1) == 0)) 2780 return (B_TRUE); 2781 2782 return (B_FALSE); 2783 } 2784 2785 static void 2786 do_new(int cmd, int argc, char **argv) 2787 { 2788 ike_service_t *rtn; 2789 ike_new_t new, *newp = NULL; 2790 door_desc_t desc, *descp = NULL; 2791 int i, fd, ndesc = 0, buflen; 2792 char *name, tmpfilepath[32]; 2793 FILE *tmpfile; 2794 2795 switch (cmd) { 2796 case IKE_SVC_NEW_PS: 2797 name = gettext("preshared key"); 2798 break; 2799 case IKE_SVC_NEW_RULE: 2800 name = gettext("policy rule"); 2801 break; 2802 default: 2803 bail_msg(gettext("unrecognized new command (%d)"), cmd); 2804 } 2805 2806 if (argc == 1) { 2807 /* We've been given a file to read from */ 2808 fd = open(argv[0], O_RDONLY); 2809 if (fd < 0) 2810 Bail("open source file"); 2811 2812 desc.d_data.d_desc.d_descriptor = fd; 2813 desc.d_attributes = DOOR_DESCRIPTOR | DOOR_RELEASE; 2814 descp = &desc; 2815 ndesc = 1; 2816 2817 new.cmd = cmd; 2818 new.new_len = 0; 2819 newp = &new; 2820 buflen = sizeof (ike_new_t); 2821 2822 } else if ((argc > 1) && (cmd == IKE_SVC_NEW_PS)) { 2823 /* 2824 * This is an alternative to using the tmpfile method 2825 * for preshared keys. It means we're duplicating the 2826 * parsing effort that happens in readps.c; but it 2827 * does avoid having the key sitting in a file. 2828 */ 2829 ike_ps_t *psp; 2830 int pslen; 2831 2832 /* 2833 * must be in interactive mode; don't want keys in 2834 * the process args. 2835 */ 2836 if (!interactive) 2837 Bail("Must be in interactive mode to add key info."); 2838 if (parse_ps(argc, argv, &psp, &pslen) < 0) { 2839 errno = 0; 2840 Bail("invalid preshared key definition"); 2841 } 2842 newp = malloc(sizeof (ike_new_t) + pslen); 2843 if (newp == NULL) 2844 Bail("alloc pskey"); 2845 newp->cmd = cmd; 2846 newp->new_len = sizeof (ike_new_t) + pslen; 2847 (void) memcpy((char *)(newp + 1), psp, pslen); 2848 buflen = newp->new_len; 2849 /* parse_ps allocated the ike_ps_t buffer; free it now */ 2850 free(psp); 2851 2852 } else if ((argc > 1) && (cmd == IKE_SVC_NEW_RULE)) { 2853 /* 2854 * We've been given the item in argv. However, parsing 2855 * rules can get more than a little messy, and in.iked 2856 * already has a great parser for this stuff! So don't 2857 * fool around with trying to do the parsing here. Just 2858 * write it out to a tempfile, and send the fd to in.iked. 2859 * 2860 * We could conceivably do this for preshared keys, 2861 * rather than duplicating the parsing effort; but that 2862 * would mean the key would be written out to a file, 2863 * which isn't such a good idea. 2864 */ 2865 boolean_t doquotes = B_FALSE; 2866 int rtn; 2867 2868 if ((argv[0][0] != '{') || 2869 (argv[argc - 1][strlen(argv[argc - 1]) - 1] != '}')) 2870 bail_msg(gettext("improperly formatted %s"), name); 2871 2872 /* attempt to use a fairly unpredictable file name... */ 2873 (void) sprintf(tmpfilepath, "/var/run/%x", (int)gethrtime()); 2874 fd = open(tmpfilepath, O_RDWR | O_CREAT | O_EXCL, 2875 S_IRUSR | S_IWUSR); 2876 if (fd < 0) 2877 Bail("cannot open tmpfile"); 2878 2879 /* and make it inaccessible asap */ 2880 if (unlink(tmpfilepath) < 0) { 2881 (void) close(fd); 2882 Bail("tmpfile error"); 2883 } 2884 2885 tmpfile = fdopen(fd, "w"); 2886 if (tmpfile == NULL) { 2887 (void) close(fd); 2888 Bail("cannot write to tmpfile"); 2889 } 2890 2891 for (i = 0; i < argc; i++) { 2892 /* 2893 * We have to do some gyrations with our string here, 2894 * to properly handle quotes. There are two issues: 2895 * - some of the fields of a rule may have embedded 2896 * whitespace, and thus must be quoted on the cmd 2897 * line. The shell removes the quotes, and gives 2898 * us a single argv string; but we need to put the 2899 * quotes back in when we write the string out to 2900 * file. The doquotes boolean is set when we 2901 * process a keyword which will be followed by a 2902 * string value (so the NEXT argv element will be 2903 * quoted). 2904 * - there might be a quote character in a field, 2905 * that was escaped on the cmdline. The shell 2906 * removes the escape char, and leaves the quote 2907 * in the string it gives us. We need to put the 2908 * escape char back in before writing to file. 2909 */ 2910 char field[MAXLINESIZE]; 2911 if (!escapequotes(field, argv[i], MAXLINESIZE)) 2912 Bail("write to tmpfile failed (arg too big)"); 2913 if (doquotes) { 2914 rtn = fprintf(tmpfile, "\"%s\"\n", field); 2915 doquotes = B_FALSE; 2916 } else { 2917 rtn = fprintf(tmpfile, "%s\n", field); 2918 } 2919 if (rtn < 0) 2920 Bail("write to tmpfile failed"); 2921 /* 2922 * check if this is a keyword identifying 2923 * a field that needs to be quoted. 2924 */ 2925 doquotes = quotedfield(argv[i]); 2926 } 2927 if (fflush(tmpfile) == EOF) 2928 Bail("write to tmpfile failed"); 2929 /* rewind so that the daemon will get the beginning */ 2930 rewind(tmpfile); 2931 2932 desc.d_data.d_desc.d_descriptor = fd; 2933 desc.d_attributes = DOOR_DESCRIPTOR | DOOR_RELEASE; 2934 descp = &desc; 2935 ndesc = 1; 2936 2937 new.cmd = cmd; 2938 new.new_len = 0; 2939 newp = &new; 2940 buflen = sizeof (ike_new_t); 2941 2942 } else { 2943 /* not enough information! */ 2944 bail_msg(gettext("missing %s description or file name"), name); 2945 } 2946 2947 rtn = ikedoor_call((char *)newp, buflen, descp, ndesc); 2948 2949 if ((rtn == NULL) || (rtn->svc_err.cmd == IKE_SVC_ERROR)) { 2950 ikeadm_err_msg(&rtn->svc_err, 2951 gettext("error creating new %s"), name); 2952 } else { 2953 message(gettext("Successfully created new %s."), name); 2954 } 2955 } 2956 2957 static void 2958 do_flush(int cmd) 2959 { 2960 ike_service_t *rtnp; 2961 ike_flush_t flush; 2962 2963 if (cmd != IKE_SVC_FLUSH_P1S && cmd != IKE_SVC_FLUSH_CERTCACHE) { 2964 bail_msg(gettext("unrecognized flush command (%d)."), cmd); 2965 } 2966 2967 flush.cmd = cmd; 2968 2969 rtnp = ikedoor_call((char *)&flush, sizeof (ike_flush_t), NULL, 0); 2970 if ((rtnp == NULL) || (rtnp->svc_err.cmd == IKE_SVC_ERROR)) { 2971 ikeadm_err_exit(&rtnp->svc_err, gettext("error doing flush")); 2972 } 2973 if (cmd == IKE_SVC_FLUSH_P1S) 2974 message(gettext("Successfully flushed P1 SAs.")); 2975 else 2976 message(gettext("Successfully flushed cert cache.")); 2977 } 2978 2979 static void 2980 do_rw(int cmd, int argc, char **argv) 2981 { 2982 ike_service_t *rtnp; 2983 ike_rw_t rw; 2984 door_desc_t desc, *descp = NULL; 2985 int oflag, omode, fd, ndesc = 0; 2986 char *op, *obj = NULL; 2987 boolean_t writing = B_FALSE; 2988 2989 switch (cmd) { 2990 case IKE_SVC_READ_PS: 2991 obj = gettext("preshared key"); 2992 /* FALLTHRU */ 2993 case IKE_SVC_READ_RULES: 2994 if (obj == NULL) 2995 obj = gettext("policy rule"); 2996 op = gettext("read"); 2997 oflag = O_RDONLY; 2998 omode = 0; 2999 break; 3000 3001 case IKE_SVC_WRITE_PS: 3002 obj = gettext("preshared key"); 3003 /* FALLTHRU */ 3004 case IKE_SVC_WRITE_RULES: 3005 if (obj == NULL) 3006 obj = gettext("policy rule"); 3007 op = gettext("write"); 3008 oflag = O_RDWR | O_CREAT | O_EXCL; 3009 omode = S_IRUSR | S_IWUSR; 3010 3011 /* for write commands, dest location must be specified */ 3012 if (argc < 1) { 3013 bail_msg(gettext("destination location required " 3014 "to write %ss"), obj); 3015 } 3016 writing = B_TRUE; 3017 break; 3018 3019 default: 3020 bail_msg(gettext("unrecognized read/write command (%d)."), cmd); 3021 } 3022 3023 rw.cmd = cmd; 3024 3025 if (argc >= 1) { 3026 rw.rw_loc = IKE_RW_LOC_USER_SPEC; 3027 fd = open(argv[0], oflag, omode); 3028 if (fd < 0) 3029 Bail("open user-specified file"); 3030 3031 desc.d_data.d_desc.d_descriptor = fd; 3032 desc.d_attributes = DOOR_DESCRIPTOR | DOOR_RELEASE; 3033 descp = &desc; 3034 ndesc = 1; 3035 } else { 3036 rw.rw_loc = IKE_RW_LOC_DEFAULT; 3037 } 3038 3039 rtnp = ikedoor_call((char *)&rw, sizeof (ike_rw_t), descp, ndesc); 3040 if ((rtnp == NULL) || (rtnp->svc_err.cmd == IKE_SVC_ERROR)) { 3041 /* 3042 * Need to remove the target file in the 3043 * case of a failed write command. 3044 */ 3045 if (writing) { 3046 /* 3047 * argv[0] must be valid if we're writing; we 3048 * exit before setting this boolean if not. 3049 */ 3050 (void) unlink(argv[0]); 3051 (void) close(fd); 3052 3053 if ((rtnp != NULL) && 3054 (rtnp->svc_err.ike_err == IKE_ERR_NO_OBJ)) { 3055 message(gettext("No %s information to write."), 3056 obj); 3057 return; 3058 } 3059 } 3060 ikeadm_err_exit(&rtnp->svc_err, gettext("error doing %s"), op); 3061 } 3062 message(gettext("Completed %s of %s configuration information."), 3063 op, obj); 3064 } 3065 3066 static void 3067 do_rbdump() 3068 { 3069 ike_cmd_t req; 3070 ike_service_t *rtnp; 3071 3072 req.cmd = IKE_SVC_DBG_RBDUMP; 3073 3074 rtnp = ikedoor_call((char *)&req, sizeof (ike_cmd_t), NULL, 0); 3075 if ((rtnp == NULL) || (rtnp->svc_err.cmd == IKE_SVC_ERROR)) { 3076 ikeadm_err_exit(&rtnp->svc_err, gettext("error doing flush")); 3077 } 3078 message(gettext("Successfully dumped rulebase; check iked dbg")); 3079 } 3080 3081 #define REQ_ARG_CNT 1 3082 3083 /*ARGSUSED*/ 3084 static void 3085 parseit(int argc, char **argv, char *notused, boolean_t notused_either) 3086 { 3087 int cmd, cmd_obj_args = 1; 3088 char *cmdstr, *objstr; 3089 3090 if (interactive) { 3091 if (argc == 0) 3092 return; 3093 } 3094 3095 if (argc < REQ_ARG_CNT) { 3096 usage(); 3097 } 3098 3099 cmdstr = argv[0]; 3100 if (argc > REQ_ARG_CNT) { 3101 cmd_obj_args++; 3102 objstr = argv[1]; 3103 } else { 3104 objstr = NULL; 3105 } 3106 cmd = parsecmd(cmdstr, objstr); 3107 3108 /* skip over args specifying command/object */ 3109 argc -= cmd_obj_args; 3110 argv += cmd_obj_args; 3111 3112 switch (cmd) { 3113 case IKE_SVC_GET_DEFS: 3114 if (argc != 0) { 3115 print_get_help(); 3116 break; 3117 } 3118 do_getdefs(cmd); 3119 break; 3120 case IKE_SVC_GET_DBG: 3121 case IKE_SVC_GET_PRIV: 3122 if (argc != 0) { 3123 print_get_help(); 3124 break; 3125 } 3126 do_getvar(cmd); 3127 break; 3128 case IKE_SVC_GET_STATS: 3129 if (argc != 0) { 3130 print_get_help(); 3131 break; 3132 } 3133 do_getstats(cmd); 3134 break; 3135 case IKE_SVC_SET_DBG: 3136 case IKE_SVC_SET_PRIV: 3137 do_setvar(cmd, argc, argv); 3138 break; 3139 case IKE_SVC_SET_PIN: 3140 case IKE_SVC_DEL_PIN: 3141 do_setdel_pin(cmd, argc, argv); 3142 break; 3143 case IKE_SVC_DUMP_P1S: 3144 case IKE_SVC_DUMP_RULES: 3145 case IKE_SVC_DUMP_PS: 3146 case IKE_SVC_DUMP_CERTCACHE: 3147 if (argc != NULL) { 3148 print_dump_help(); 3149 break; 3150 } 3151 do_dump(cmd); 3152 break; 3153 case IKE_SVC_GET_P1: 3154 case IKE_SVC_GET_RULE: 3155 case IKE_SVC_GET_PS: 3156 case IKE_SVC_DEL_P1: 3157 case IKE_SVC_DEL_RULE: 3158 case IKE_SVC_DEL_PS: 3159 do_getdel(cmd, argc, argv); 3160 break; 3161 case IKE_SVC_NEW_RULE: 3162 case IKE_SVC_NEW_PS: 3163 do_new(cmd, argc, argv); 3164 break; 3165 case IKE_SVC_FLUSH_P1S: 3166 case IKE_SVC_FLUSH_CERTCACHE: 3167 if (argc != 0) { 3168 print_flush_help(); 3169 break; 3170 } 3171 do_flush(cmd); 3172 break; 3173 case IKE_SVC_READ_RULES: 3174 case IKE_SVC_READ_PS: 3175 case IKE_SVC_WRITE_RULES: 3176 case IKE_SVC_WRITE_PS: 3177 do_rw(cmd, argc, argv); 3178 break; 3179 case IKEADM_HELP_GENERAL: 3180 print_help(); 3181 break; 3182 case IKEADM_HELP_GET: 3183 print_get_help(); 3184 break; 3185 case IKEADM_HELP_SET: 3186 print_set_help(); 3187 break; 3188 case IKEADM_HELP_ADD: 3189 print_add_help(); 3190 break; 3191 case IKEADM_HELP_DEL: 3192 print_del_help(); 3193 break; 3194 case IKEADM_HELP_DUMP: 3195 print_dump_help(); 3196 break; 3197 case IKEADM_HELP_FLUSH: 3198 print_flush_help(); 3199 break; 3200 case IKEADM_HELP_READ: 3201 print_read_help(); 3202 break; 3203 case IKEADM_HELP_WRITE: 3204 print_write_help(); 3205 break; 3206 case IKEADM_HELP_TOKEN: 3207 print_token_help(); 3208 break; 3209 case IKEADM_HELP_HELP: 3210 print_help_help(); 3211 break; 3212 case IKEADM_EXIT: 3213 if (interactive) 3214 exit(0); 3215 break; 3216 case IKE_SVC_DBG_RBDUMP: 3217 do_rbdump(); 3218 break; 3219 case IKE_SVC_ERROR: 3220 usage(); 3221 default: 3222 exit(0); 3223 } 3224 } 3225 3226 int 3227 main(int argc, char **argv) 3228 { 3229 char ch; 3230 3231 (void) setlocale(LC_ALL, ""); 3232 #if !defined(TEXT_DOMAIN) 3233 #define TEXT_DOMAIN "SYS_TEST" 3234 #endif 3235 (void) textdomain(TEXT_DOMAIN); 3236 3237 while ((ch = getopt(argc, argv, "hpn")) != EOF) { 3238 switch (ch) { 3239 case 'h': 3240 print_help(); 3241 return (0); 3242 case 'p': 3243 pflag = B_TRUE; 3244 break; 3245 case 'n': 3246 nflag = B_TRUE; 3247 break; 3248 default: 3249 usage(); 3250 } 3251 } 3252 argc -= optind; 3253 argv += optind; 3254 3255 if (open_door() < 0) { 3256 (void) fprintf(stderr, 3257 gettext("Unable to communicate with in.iked\n")); 3258 Bail("open_door failed"); 3259 } 3260 3261 if (*argv == NULL) { 3262 /* no cmd-line args, do interactive mode */ 3263 do_interactive(stdin, NULL, "ikeadm> ", NULL, parseit, 3264 no_match); 3265 } 3266 3267 parseit(argc, argv, NULL, B_FALSE); 3268 3269 return (0); 3270 } 3271