1 /* $FreeBSD$ */ 2 /* $KAME: route6d.c,v 1.64 2001/05/08 04:36:37 itojun Exp $ */ 3 4 /* 5 * Copyright (C) 1995, 1996, 1997, and 1998 WIDE Project. 6 * All rights reserved. 7 * 8 * Redistribution and use in source and binary forms, with or without 9 * modification, are permitted provided that the following conditions 10 * are met: 11 * 1. Redistributions of source code must retain the above copyright 12 * notice, this list of conditions and the following disclaimer. 13 * 2. Redistributions in binary form must reproduce the above copyright 14 * notice, this list of conditions and the following disclaimer in the 15 * documentation and/or other materials provided with the distribution. 16 * 3. Neither the name of the project nor the names of its contributors 17 * may be used to endorse or promote products derived from this software 18 * without specific prior written permission. 19 * 20 * THIS SOFTWARE IS PROVIDED BY THE PROJECT AND CONTRIBUTORS ``AS IS'' AND 21 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 22 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 23 * ARE DISCLAIMED. IN NO EVENT SHALL THE PROJECT OR CONTRIBUTORS BE LIABLE 24 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 25 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 26 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 27 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 28 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 29 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 30 * SUCH DAMAGE. 31 */ 32 33 #ifndef lint 34 static char _rcsid[] = "$KAME: route6d.c,v 1.64 2001/05/08 04:36:37 itojun Exp $"; 35 #endif 36 37 #include <stdio.h> 38 39 #include <time.h> 40 #include <unistd.h> 41 #include <stdlib.h> 42 #include <string.h> 43 #include <signal.h> 44 #ifdef __STDC__ 45 #include <stdarg.h> 46 #else 47 #include <varargs.h> 48 #endif 49 #include <syslog.h> 50 #include <stddef.h> 51 #include <errno.h> 52 #include <err.h> 53 #ifdef HAVE_POLL_H 54 #include <poll.h> 55 #endif 56 57 #include <sys/types.h> 58 #include <sys/param.h> 59 #include <sys/file.h> 60 #include <sys/socket.h> 61 #include <sys/ioctl.h> 62 #include <sys/sysctl.h> 63 #include <sys/uio.h> 64 #include <net/if.h> 65 #if defined(__FreeBSD__) && __FreeBSD__ >= 3 66 #include <net/if_var.h> 67 #endif /* __FreeBSD__ >= 3 */ 68 #define KERNEL 1 69 #define _KERNEL 1 70 #include <net/route.h> 71 #undef KERNEL 72 #undef _KERNEL 73 #include <netinet/in.h> 74 #include <netinet/in_var.h> 75 #include <netinet/ip6.h> 76 #include <netinet/udp.h> 77 #include <netdb.h> 78 #include <ifaddrs.h> 79 80 #include <arpa/inet.h> 81 82 #include "route6d.h" 83 84 #define MAXFILTER 40 85 86 #ifdef DEBUG 87 #define INIT_INTERVAL6 6 88 #else 89 #define INIT_INTERVAL6 10 /* Wait to submit an initial riprequest */ 90 #endif 91 92 /* alignment constraint for routing socket */ 93 #define ROUNDUP(a) \ 94 ((a) > 0 ? (1 + (((a) - 1) | (sizeof(long) - 1))) : sizeof(long)) 95 #define ADVANCE(x, n) (x += ROUNDUP((n)->sa_len)) 96 97 /* 98 * Following two macros are highly depending on KAME Release 99 */ 100 #define IN6_LINKLOCAL_IFINDEX(addr) \ 101 ((addr).s6_addr[2] << 8 | (addr).s6_addr[3]) 102 103 #define SET_IN6_LINKLOCAL_IFINDEX(addr, index) \ 104 do { \ 105 (addr).s6_addr[2] = ((index) >> 8) & 0xff; \ 106 (addr).s6_addr[3] = (index) & 0xff; \ 107 } while (0) 108 109 struct ifc { /* Configuration of an interface */ 110 char *ifc_name; /* if name */ 111 struct ifc *ifc_next; 112 int ifc_index; /* if index */ 113 int ifc_mtu; /* if mtu */ 114 int ifc_metric; /* if metric */ 115 u_int ifc_flags; /* flags */ 116 short ifc_cflags; /* IFC_XXX */ 117 struct in6_addr ifc_mylladdr; /* my link-local address */ 118 struct sockaddr_in6 ifc_ripsin; /* rip multicast address */ 119 struct iff *ifc_filter; /* filter structure */ 120 struct ifac *ifc_addr; /* list of AF_INET6 addresses */ 121 int ifc_joined; /* joined to ff02::9 */ 122 }; 123 124 struct ifac { /* Adddress associated to an interface */ 125 struct ifc *ifa_conf; /* back pointer */ 126 struct ifac *ifa_next; 127 struct in6_addr ifa_addr; /* address */ 128 struct in6_addr ifa_raddr; /* remote address, valid in p2p */ 129 int ifa_plen; /* prefix length */ 130 }; 131 132 struct iff { 133 int iff_type; 134 struct in6_addr iff_addr; 135 int iff_plen; 136 struct iff *iff_next; 137 }; 138 139 struct ifc *ifc; 140 int nifc; /* number of valid ifc's */ 141 struct ifc **index2ifc; 142 int nindex2ifc; 143 struct ifc *loopifcp = NULL; /* pointing to loopback */ 144 #ifdef HAVE_POLL_H 145 struct pollfd set[2]; 146 #else 147 fd_set *sockvecp; /* vector to select() for receiving */ 148 fd_set *recvecp; 149 int fdmasks; 150 int maxfd; /* maximum fd for select() */ 151 #endif 152 int rtsock; /* the routing socket */ 153 int ripsock; /* socket to send/receive RIP datagram */ 154 155 struct rip6 *ripbuf; /* packet buffer for sending */ 156 157 /* 158 * Maintain the routes in a linked list. When the number of the routes 159 * grows, somebody would like to introduce a hash based or a radix tree 160 * based structure. I believe the number of routes handled by RIP is 161 * limited and I don't have to manage a complex data structure, however. 162 * 163 * One of the major drawbacks of the linear linked list is the difficulty 164 * of representing the relationship between a couple of routes. This may 165 * be a significant problem when we have to support route aggregation with 166 * supressing the specifices covered by the aggregate. 167 */ 168 169 struct riprt { 170 struct riprt *rrt_next; /* next destination */ 171 struct riprt *rrt_same; /* same destination - future use */ 172 struct netinfo6 rrt_info; /* network info */ 173 struct in6_addr rrt_gw; /* gateway */ 174 u_long rrt_flags; /* kernel routing table flags */ 175 u_long rrt_rflags; /* route6d routing table flags */ 176 time_t rrt_t; /* when the route validated */ 177 int rrt_index; /* ifindex from which this route got */ 178 }; 179 180 struct riprt *riprt = 0; 181 182 int dflag = 0; /* debug flag */ 183 int qflag = 0; /* quiet flag */ 184 int nflag = 0; /* don't update kernel routing table */ 185 int aflag = 0; /* age out even the statically defined routes */ 186 int hflag = 0; /* don't split horizon */ 187 int lflag = 0; /* exchange site local routes */ 188 int sflag = 0; /* announce static routes w/ split horizon */ 189 int Sflag = 0; /* announce static routes to every interface */ 190 unsigned long routetag = 0; /* route tag attached on originating case */ 191 192 char *filter[MAXFILTER]; 193 int filtertype[MAXFILTER]; 194 int nfilter = 0; 195 196 pid_t pid; 197 198 struct sockaddr_storage ripsin; 199 200 struct rtentry rtentry; 201 202 int interval = 1; 203 time_t nextalarm = 0; 204 time_t sup_trig_update = 0; 205 206 FILE *rtlog = NULL; 207 208 int logopened = 0; 209 210 static int seq = 0; 211 212 volatile sig_atomic_t seenalrm; 213 volatile sig_atomic_t seenquit; 214 volatile sig_atomic_t seenusr1; 215 216 #define RRTF_AGGREGATE 0x08000000 217 #define RRTF_NOADVERTISE 0x10000000 218 #define RRTF_NH_NOT_LLADDR 0x20000000 219 #define RRTF_SENDANYWAY 0x40000000 220 #define RRTF_CHANGED 0x80000000 221 222 int main __P((int, char **)); 223 void sighandler __P((int)); 224 void ripalarm __P((void)); 225 void riprecv __P((void)); 226 void ripsend __P((struct ifc *, struct sockaddr_in6 *, int)); 227 int out_filter __P((struct riprt *, struct ifc *)); 228 void init __P((void)); 229 void sockopt __P((struct ifc *)); 230 void ifconfig __P((void)); 231 void ifconfig1 __P((const char *, const struct sockaddr *, struct ifc *, int)); 232 void rtrecv __P((void)); 233 int rt_del __P((const struct sockaddr_in6 *, const struct sockaddr_in6 *, 234 const struct sockaddr_in6 *)); 235 int rt_deladdr __P((struct ifc *, const struct sockaddr_in6 *, 236 const struct sockaddr_in6 *)); 237 void filterconfig __P((void)); 238 int getifmtu __P((int)); 239 const char *rttypes __P((struct rt_msghdr *)); 240 const char *rtflags __P((struct rt_msghdr *)); 241 const char *ifflags __P((int)); 242 int ifrt __P((struct ifc *, int)); 243 void ifrt_p2p __P((struct ifc *, int)); 244 void applymask __P((struct in6_addr *, struct in6_addr *)); 245 void applyplen __P((struct in6_addr *, int)); 246 void ifrtdump __P((int)); 247 void ifdump __P((int)); 248 void ifdump0 __P((FILE *, const struct ifc *)); 249 void rtdump __P((int)); 250 void rt_entry __P((struct rt_msghdr *, int)); 251 void rtdexit __P((void)); 252 void riprequest __P((struct ifc *, struct netinfo6 *, int, 253 struct sockaddr_in6 *)); 254 void ripflush __P((struct ifc *, struct sockaddr_in6 *)); 255 void sendrequest __P((struct ifc *)); 256 int sin6mask2len __P((const struct sockaddr_in6 *)); 257 int mask2len __P((const struct in6_addr *, int)); 258 int sendpacket __P((struct sockaddr_in6 *, int)); 259 int addroute __P((struct riprt *, const struct in6_addr *, struct ifc *)); 260 int delroute __P((struct netinfo6 *, struct in6_addr *)); 261 struct in6_addr *getroute __P((struct netinfo6 *, struct in6_addr *)); 262 void krtread __P((int)); 263 int tobeadv __P((struct riprt *, struct ifc *)); 264 char *allocopy __P((char *)); 265 char *hms __P((void)); 266 const char *inet6_n2p __P((const struct in6_addr *)); 267 struct ifac *ifa_match __P((const struct ifc *, const struct in6_addr *, int)); 268 struct in6_addr *plen2mask __P((int)); 269 struct riprt *rtsearch __P((struct netinfo6 *, struct riprt **)); 270 int ripinterval __P((int)); 271 time_t ripsuptrig __P((void)); 272 void fatal __P((const char *, ...)) 273 __attribute__((__format__(__printf__, 1, 2))); 274 void trace __P((int, const char *, ...)) 275 __attribute__((__format__(__printf__, 2, 3))); 276 void tracet __P((int, const char *, ...)) 277 __attribute__((__format__(__printf__, 2, 3))); 278 unsigned int if_maxindex __P((void)); 279 struct ifc *ifc_find __P((char *)); 280 struct iff *iff_find __P((struct ifc *, int)); 281 void setindex2ifc __P((int, struct ifc *)); 282 283 #define MALLOC(type) ((type *)malloc(sizeof(type))) 284 285 int 286 main(argc, argv) 287 int argc; 288 char **argv; 289 { 290 int ch; 291 int error = 0; 292 struct ifc *ifcp; 293 sigset_t mask, omask; 294 FILE *pidfile; 295 char *progname; 296 char *ep; 297 298 progname = strrchr(*argv, '/'); 299 if (progname) 300 progname++; 301 else 302 progname = *argv; 303 304 pid = getpid(); 305 while ((ch = getopt(argc, argv, "A:N:O:R:T:L:t:adDhlnqsS")) != -1) { 306 switch (ch) { 307 case 'A': 308 case 'N': 309 case 'O': 310 case 'T': 311 case 'L': 312 if (nfilter >= MAXFILTER) { 313 fatal("Exceeds MAXFILTER"); 314 /*NOTREACHED*/ 315 } 316 filtertype[nfilter] = ch; 317 filter[nfilter++] = allocopy(optarg); 318 break; 319 case 't': 320 ep = NULL; 321 routetag = strtoul(optarg, &ep, 0); 322 if (!ep || *ep != '\0' || (routetag & ~0xffff) != 0) { 323 fatal("invalid route tag"); 324 /*NOTREACHED*/ 325 } 326 break; 327 case 'R': 328 if ((rtlog = fopen(optarg, "w")) == NULL) { 329 fatal("Can not write to routelog"); 330 /*NOTREACHED*/ 331 } 332 break; 333 #define FLAG(c, flag, n) case c: do { flag = n; break; } while(0) 334 FLAG('a', aflag, 1); break; 335 FLAG('d', dflag, 1); break; 336 FLAG('D', dflag, 2); break; 337 FLAG('h', hflag, 1); break; 338 FLAG('l', lflag, 1); break; 339 FLAG('n', nflag, 1); break; 340 FLAG('q', qflag, 1); break; 341 FLAG('s', sflag, 1); break; 342 FLAG('S', Sflag, 1); break; 343 #undef FLAG 344 default: 345 fatal("Invalid option specified, terminating"); 346 /*NOTREACHED*/ 347 } 348 } 349 argc -= optind; 350 argv += optind; 351 if (argc > 0) { 352 fatal("bogus extra arguments"); 353 /*NOTREACHED*/ 354 } 355 356 if (geteuid()) { 357 nflag = 1; 358 fprintf(stderr, "No kernel update is allowed\n"); 359 } 360 361 if (dflag == 0) { 362 if (daemon(0, 0) < 0) { 363 fatal("daemon"); 364 /*NOTREACHED*/ 365 } 366 } 367 368 openlog(progname, LOG_NDELAY|LOG_PID, LOG_DAEMON); 369 logopened++; 370 371 if ((ripbuf = (struct rip6 *)malloc(RIP6_MAXMTU)) == NULL) 372 fatal("malloc"); 373 memset(ripbuf, 0, RIP6_MAXMTU); 374 ripbuf->rip6_cmd = RIP6_RESPONSE; 375 ripbuf->rip6_vers = RIP6_VERSION; 376 ripbuf->rip6_res1[0] = 0; 377 ripbuf->rip6_res1[1] = 0; 378 379 init(); 380 ifconfig(); 381 for (ifcp = ifc; ifcp; ifcp = ifcp->ifc_next) { 382 if (ifcp->ifc_index < 0) { 383 fprintf(stderr, 384 "No ifindex found at %s (no link-local address?)\n", 385 ifcp->ifc_name); 386 error++; 387 } 388 } 389 if (error) 390 exit(1); 391 if (loopifcp == NULL) { 392 fatal("No loopback found"); 393 /*NOTREACHED*/ 394 } 395 #ifdef __FreeBSD__ 396 sranddev(); 397 #else 398 srand((unsigned)(time(NULL)^(pid<<16))); 399 #endif 400 for (ifcp = ifc; ifcp; ifcp = ifcp->ifc_next) 401 ifrt(ifcp, 0); 402 filterconfig(); 403 krtread(0); 404 if (dflag) 405 ifrtdump(0); 406 407 pid = getpid(); 408 if ((pidfile = fopen(ROUTE6D_PID, "w")) != NULL) { 409 fprintf(pidfile, "%d\n", pid); 410 fclose(pidfile); 411 } 412 413 if ((ripbuf = (struct rip6 *)malloc(RIP6_MAXMTU)) == NULL) { 414 fatal("malloc"); 415 /*NOTREACHED*/ 416 } 417 memset(ripbuf, 0, RIP6_MAXMTU); 418 ripbuf->rip6_cmd = RIP6_RESPONSE; 419 ripbuf->rip6_vers = RIP6_VERSION; 420 ripbuf->rip6_res1[0] = 0; 421 ripbuf->rip6_res1[1] = 0; 422 423 if (signal(SIGALRM, sighandler) == SIG_ERR || 424 signal(SIGQUIT, sighandler) == SIG_ERR || 425 signal(SIGTERM, sighandler) == SIG_ERR || 426 signal(SIGUSR1, sighandler) == SIG_ERR || 427 signal(SIGHUP, sighandler) == SIG_ERR || 428 signal(SIGINT, sighandler) == SIG_ERR) { 429 fatal("signal"); 430 /*NOTREACHED*/ 431 } 432 /* 433 * To avoid rip packet congestion (not on a cable but in this 434 * process), wait for a moment to send the first RIP6_RESPONSE 435 * packets. 436 */ 437 alarm(ripinterval(INIT_INTERVAL6)); 438 439 for (ifcp = ifc; ifcp; ifcp = ifcp->ifc_next) { 440 if (iff_find(ifcp, 'N')) 441 continue; 442 if (ifcp->ifc_index > 0 && (ifcp->ifc_flags & IFF_UP)) 443 sendrequest(ifcp); 444 } 445 446 syslog(LOG_INFO, "**** Started ****"); 447 sigemptyset(&mask); 448 sigaddset(&mask, SIGALRM); 449 while (1) { 450 if (seenalrm) { 451 ripalarm(); 452 seenalrm = 0; 453 continue; 454 } 455 if (seenquit) { 456 rtdexit(); 457 seenquit = 0; 458 continue; 459 } 460 if (seenusr1) { 461 ifrtdump(SIGUSR1); 462 seenusr1 = 0; 463 continue; 464 } 465 466 #ifdef HAVE_POLL_H 467 switch (poll(set, 2, INFTIM)) 468 #else 469 memcpy(recvecp, sockvecp, fdmasks); 470 switch (select(maxfd + 1, recvecp, 0, 0, 0)) 471 #endif 472 { 473 case -1: 474 if (errno != EINTR) { 475 fatal("select"); 476 /*NOTREACHED*/ 477 } 478 continue; 479 case 0: 480 continue; 481 default: 482 #ifdef HAVE_POLL_H 483 if (set[0].revents & POLLIN) 484 #else 485 if (FD_ISSET(ripsock, recvecp)) 486 #endif 487 { 488 sigprocmask(SIG_BLOCK, &mask, &omask); 489 riprecv(); 490 sigprocmask(SIG_SETMASK, &omask, NULL); 491 } 492 #ifdef HAVE_POLL_H 493 if (set[1].revents & POLLIN) 494 #else 495 if (FD_ISSET(rtsock, recvecp)) 496 #endif 497 { 498 sigprocmask(SIG_BLOCK, &mask, &omask); 499 rtrecv(); 500 sigprocmask(SIG_SETMASK, &omask, NULL); 501 } 502 } 503 } 504 } 505 506 void 507 sighandler(signo) 508 int signo; 509 { 510 511 switch (signo) { 512 case SIGALRM: 513 seenalrm++; 514 break; 515 case SIGQUIT: 516 case SIGTERM: 517 seenquit++; 518 break; 519 case SIGUSR1: 520 case SIGHUP: 521 case SIGINT: 522 seenusr1++; 523 break; 524 } 525 } 526 527 /* 528 * gracefully exits after resetting sockopts. 529 */ 530 /* ARGSUSED */ 531 void 532 rtdexit() 533 { 534 struct riprt *rrt; 535 536 alarm(0); 537 for (rrt = riprt; rrt; rrt = rrt->rrt_next) { 538 if (rrt->rrt_rflags & RRTF_AGGREGATE) { 539 delroute(&rrt->rrt_info, &rrt->rrt_gw); 540 } 541 } 542 close(ripsock); 543 close(rtsock); 544 syslog(LOG_INFO, "**** Terminated ****"); 545 closelog(); 546 exit(1); 547 } 548 549 /* 550 * Called periodically: 551 * 1. age out the learned route. remove it if necessary. 552 * 2. submit RIP6_RESPONSE packets. 553 * Invoked in every SUPPLY_INTERVAL6 (30) seconds. I believe we don't have 554 * to invoke this function in every 1 or 5 or 10 seconds only to age the 555 * routes more precisely. 556 */ 557 /* ARGSUSED */ 558 void 559 ripalarm() 560 { 561 struct ifc *ifcp; 562 struct riprt *rrt, *rrt_prev, *rrt_next; 563 time_t t_lifetime, t_holddown; 564 565 /* age the RIP routes */ 566 rrt_prev = 0; 567 t_lifetime = time(NULL) - RIP_LIFETIME; 568 t_holddown = t_lifetime - RIP_HOLDDOWN; 569 for (rrt = riprt; rrt; rrt = rrt_next) { 570 rrt_next = rrt->rrt_next; 571 572 if (rrt->rrt_t == 0) { 573 rrt_prev = rrt; 574 continue; 575 } 576 if (rrt->rrt_t < t_holddown) { 577 if (rrt_prev) { 578 rrt_prev->rrt_next = rrt->rrt_next; 579 } else { 580 riprt = rrt->rrt_next; 581 } 582 delroute(&rrt->rrt_info, &rrt->rrt_gw); 583 free(rrt); 584 continue; 585 } 586 if (rrt->rrt_t < t_lifetime) 587 rrt->rrt_info.rip6_metric = HOPCNT_INFINITY6; 588 rrt_prev = rrt; 589 } 590 /* Supply updates */ 591 for (ifcp = ifc; ifcp; ifcp = ifcp->ifc_next) { 592 if (ifcp->ifc_index > 0 && (ifcp->ifc_flags & IFF_UP)) 593 ripsend(ifcp, &ifcp->ifc_ripsin, 0); 594 } 595 alarm(ripinterval(SUPPLY_INTERVAL6)); 596 } 597 598 void 599 init() 600 { 601 int error; 602 const int int0 = 0, int1 = 1, int255 = 255; 603 struct addrinfo hints, *res; 604 char port[NI_MAXSERV]; 605 606 ifc = (struct ifc *)NULL; 607 nifc = 0; 608 nindex2ifc = 0; /*initial guess*/ 609 index2ifc = NULL; 610 snprintf(port, sizeof(port), "%u", RIP6_PORT); 611 612 memset(&hints, 0, sizeof(hints)); 613 hints.ai_family = PF_INET6; 614 hints.ai_socktype = SOCK_DGRAM; 615 hints.ai_protocol = IPPROTO_UDP; 616 hints.ai_flags = AI_PASSIVE; 617 error = getaddrinfo(NULL, port, &hints, &res); 618 if (error) { 619 fatal("%s", gai_strerror(error)); 620 /*NOTREACHED*/ 621 } 622 if (res->ai_next) { 623 fatal(":: resolved to multiple address"); 624 /*NOTREACHED*/ 625 } 626 627 ripsock = socket(res->ai_family, res->ai_socktype, res->ai_protocol); 628 if (ripsock < 0) { 629 fatal("rip socket"); 630 /*NOTREACHED*/ 631 } 632 #ifdef IPV6_V6ONLY 633 if (setsockopt(ripsock, IPPROTO_IPV6, IPV6_V6ONLY, 634 &int1, sizeof(int1)) < 0) { 635 fatal("rip IPV6_V6ONLY"); 636 /*NOTREACHED*/ 637 } 638 #endif 639 if (bind(ripsock, res->ai_addr, res->ai_addrlen) < 0) { 640 fatal("rip bind"); 641 /*NOTREACHED*/ 642 } 643 if (setsockopt(ripsock, IPPROTO_IPV6, IPV6_MULTICAST_HOPS, 644 &int255, sizeof(int255)) < 0) { 645 fatal("rip IPV6_MULTICAST_HOPS"); 646 /*NOTREACHED*/ 647 } 648 if (setsockopt(ripsock, IPPROTO_IPV6, IPV6_MULTICAST_LOOP, 649 &int0, sizeof(int0)) < 0) { 650 fatal("rip IPV6_MULTICAST_LOOP"); 651 /*NOTREACHED*/ 652 } 653 654 #ifdef IPV6_RECVPKTINFO 655 if (setsockopt(ripsock, IPPROTO_IPV6, IPV6_RECVPKTINFO, 656 &int1, sizeof(int1)) < 0) { 657 fatal("rip IPV6_RECVPKTINFO"); 658 /*NOTREACHED*/ 659 } 660 #else /* old adv. API */ 661 if (setsockopt(ripsock, IPPROTO_IPV6, IPV6_PKTINFO, 662 &int1, sizeof(int1)) < 0) { 663 fatal("rip IPV6_PKTINFO"); 664 /*NOTREACHED*/ 665 } 666 #endif 667 668 memset(&hints, 0, sizeof(hints)); 669 hints.ai_family = PF_INET6; 670 hints.ai_socktype = SOCK_DGRAM; 671 hints.ai_protocol = IPPROTO_UDP; 672 error = getaddrinfo(RIP6_DEST, port, &hints, &res); 673 if (error) { 674 fatal("%s", gai_strerror(error)); 675 /*NOTREACHED*/ 676 } 677 if (res->ai_next) { 678 fatal("%s resolved to multiple address", RIP6_DEST); 679 /*NOTREACHED*/ 680 } 681 memcpy(&ripsin, res->ai_addr, res->ai_addrlen); 682 683 #ifdef HAVE_POLL_H 684 set[0].fd = ripsock; 685 set[0].events = POLLIN; 686 #else 687 maxfd = ripsock; 688 #endif 689 690 if (nflag == 0) { 691 if ((rtsock = socket(PF_ROUTE, SOCK_RAW, 0)) < 0) { 692 fatal("route socket"); 693 /*NOTREACHED*/ 694 } 695 #ifdef HAVE_POLL_H 696 set[1].fd = rtsock; 697 set[1].events = POLLIN; 698 #else 699 if (rtsock > maxfd) 700 maxfd = rtsock; 701 #endif 702 } else { 703 #ifdef HAVE_POLL_H 704 set[1].fd = -1; 705 #else 706 rtsock = -1; /*just for safety */ 707 #endif 708 } 709 710 #ifndef HAVE_POLL_H 711 fdmasks = howmany(maxfd + 1, NFDBITS) * sizeof(fd_mask); 712 if ((sockvecp = malloc(fdmasks)) == NULL) { 713 fatal("malloc"); 714 /*NOTREACHED*/ 715 } 716 if ((recvecp = malloc(fdmasks)) == NULL) { 717 fatal("malloc"); 718 /*NOTREACHED*/ 719 } 720 memset(sockvecp, 0, fdmasks); 721 FD_SET(ripsock, sockvecp); 722 if (rtsock >= 0) 723 FD_SET(rtsock, sockvecp); 724 #endif 725 } 726 727 #define RIPSIZE(n) \ 728 (sizeof(struct rip6) + ((n)-1) * sizeof(struct netinfo6)) 729 730 /* 731 * ripflush flushes the rip datagram stored in the rip buffer 732 */ 733 static int nrt; 734 static struct netinfo6 *np; 735 736 void 737 ripflush(ifcp, sin6) 738 struct ifc *ifcp; 739 struct sockaddr_in6 *sin6; 740 { 741 int i; 742 int error; 743 744 if (ifcp) 745 tracet(1, "Send(%s): info(%d) to %s.%d\n", 746 ifcp->ifc_name, nrt, 747 inet6_n2p(&sin6->sin6_addr), ntohs(sin6->sin6_port)); 748 else 749 tracet(1, "Send: info(%d) to %s.%d\n", 750 nrt, inet6_n2p(&sin6->sin6_addr), ntohs(sin6->sin6_port)); 751 if (dflag >= 2) { 752 np = ripbuf->rip6_nets; 753 for (i = 0; i < nrt; i++, np++) { 754 if (np->rip6_metric == NEXTHOP_METRIC) { 755 if (IN6_IS_ADDR_UNSPECIFIED(&np->rip6_dest)) 756 trace(2, " NextHop reset"); 757 else { 758 trace(2, " NextHop %s", 759 inet6_n2p(&np->rip6_dest)); 760 } 761 } else { 762 trace(2, " %s/%d[%d]", 763 inet6_n2p(&np->rip6_dest), 764 np->rip6_plen, np->rip6_metric); 765 } 766 if (np->rip6_tag) { 767 trace(2, " tag=0x%04x", 768 ntohs(np->rip6_tag) & 0xffff); 769 } 770 trace(2, "\n"); 771 } 772 } 773 error = sendpacket(sin6, RIPSIZE(nrt)); 774 if (error == EAFNOSUPPORT) { 775 /* Protocol not supported */ 776 tracet(1, "Could not send info to %s (%s): " 777 "set IFF_UP to 0\n", 778 ifcp->ifc_name, inet6_n2p(&ifcp->ifc_ripsin.sin6_addr)); 779 ifcp->ifc_flags &= ~IFF_UP; /* As if down for AF_INET6 */ 780 } 781 nrt = 0; np = ripbuf->rip6_nets; 782 } 783 784 /* 785 * Generate RIP6_RESPONSE packets and send them. 786 */ 787 void 788 ripsend(ifcp, sin6, flag) 789 struct ifc *ifcp; 790 struct sockaddr_in6 *sin6; 791 int flag; 792 { 793 struct riprt *rrt; 794 struct in6_addr *nh; /* next hop */ 795 int maxrte; 796 797 if (qflag) 798 return; 799 800 if (ifcp == NULL) { 801 /* 802 * Request from non-link local address is not 803 * a regular route6d update. 804 */ 805 maxrte = (IFMINMTU - sizeof(struct ip6_hdr) - 806 sizeof(struct udphdr) - 807 sizeof(struct rip6) + sizeof(struct netinfo6)) / 808 sizeof(struct netinfo6); 809 nrt = 0; np = ripbuf->rip6_nets; nh = NULL; 810 for (rrt = riprt; rrt; rrt = rrt->rrt_next) { 811 if (rrt->rrt_rflags & RRTF_NOADVERTISE) 812 continue; 813 /* Put the route to the buffer */ 814 *np = rrt->rrt_info; 815 np++; nrt++; 816 if (nrt == maxrte) { 817 ripflush(NULL, sin6); 818 nh = NULL; 819 } 820 } 821 if (nrt) /* Send last packet */ 822 ripflush(NULL, sin6); 823 return; 824 } 825 826 if ((flag & RRTF_SENDANYWAY) == 0 && 827 (qflag || (ifcp->ifc_flags & IFF_LOOPBACK))) 828 return; 829 830 /* -N: no use */ 831 if (iff_find(ifcp, 'N') != NULL) 832 return; 833 834 /* -T: generate default route only */ 835 if (iff_find(ifcp, 'T') != NULL) { 836 struct netinfo6 rrt_info; 837 memset(&rrt_info, 0, sizeof(struct netinfo6)); 838 rrt_info.rip6_dest = in6addr_any; 839 rrt_info.rip6_plen = 0; 840 rrt_info.rip6_metric = 1; 841 rrt_info.rip6_metric += ifcp->ifc_metric; 842 rrt_info.rip6_tag = htons(routetag & 0xffff); 843 np = ripbuf->rip6_nets; 844 *np = rrt_info; 845 nrt = 1; 846 ripflush(ifcp, sin6); 847 return; 848 } 849 850 maxrte = (ifcp->ifc_mtu - sizeof(struct ip6_hdr) - 851 sizeof(struct udphdr) - 852 sizeof(struct rip6) + sizeof(struct netinfo6)) / 853 sizeof(struct netinfo6); 854 855 nrt = 0; np = ripbuf->rip6_nets; nh = NULL; 856 for (rrt = riprt; rrt; rrt = rrt->rrt_next) { 857 if (rrt->rrt_rflags & RRTF_NOADVERTISE) 858 continue; 859 860 /* Need to check filter here */ 861 if (out_filter(rrt, ifcp) == 0) 862 continue; 863 864 /* Check split horizon and other conditions */ 865 if (tobeadv(rrt, ifcp) == 0) 866 continue; 867 868 /* Only considers the routes with flag if specified */ 869 if ((flag & RRTF_CHANGED) && 870 (rrt->rrt_rflags & RRTF_CHANGED) == 0) 871 continue; 872 873 /* Check nexthop */ 874 if (rrt->rrt_index == ifcp->ifc_index && 875 !IN6_IS_ADDR_UNSPECIFIED(&rrt->rrt_gw) && 876 (rrt->rrt_rflags & RRTF_NH_NOT_LLADDR) == 0) { 877 if (nh == NULL || !IN6_ARE_ADDR_EQUAL(nh, &rrt->rrt_gw)) { 878 if (nrt == maxrte - 2) 879 ripflush(ifcp, sin6); 880 np->rip6_dest = rrt->rrt_gw; 881 if (IN6_IS_ADDR_LINKLOCAL(&np->rip6_dest)) 882 SET_IN6_LINKLOCAL_IFINDEX(np->rip6_dest, 0); 883 np->rip6_plen = 0; 884 np->rip6_tag = 0; 885 np->rip6_metric = NEXTHOP_METRIC; 886 nh = &rrt->rrt_gw; 887 np++; nrt++; 888 } 889 } else if (nh && (rrt->rrt_index != ifcp->ifc_index || 890 !IN6_ARE_ADDR_EQUAL(nh, &rrt->rrt_gw) || 891 rrt->rrt_rflags & RRTF_NH_NOT_LLADDR)) { 892 /* Reset nexthop */ 893 if (nrt == maxrte - 2) 894 ripflush(ifcp, sin6); 895 memset(np, 0, sizeof(struct netinfo6)); 896 np->rip6_metric = NEXTHOP_METRIC; 897 nh = NULL; 898 np++; nrt++; 899 } 900 901 /* Put the route to the buffer */ 902 *np = rrt->rrt_info; 903 np++; nrt++; 904 if (nrt == maxrte) { 905 ripflush(ifcp, sin6); 906 nh = NULL; 907 } 908 } 909 if (nrt) /* Send last packet */ 910 ripflush(ifcp, sin6); 911 } 912 913 /* 914 * outbound filter logic, per-route/interface. 915 */ 916 int 917 out_filter(rrt, ifcp) 918 struct riprt *rrt; 919 struct ifc *ifcp; 920 { 921 struct iff *iffp; 922 struct in6_addr ia; 923 int ok; 924 925 /* 926 * -A: filter out less specific routes, if we have aggregated 927 * route configured. 928 */ 929 for (iffp = ifcp->ifc_filter; iffp; iffp = iffp->iff_next) { 930 if (iffp->iff_type != 'A') 931 continue; 932 if (rrt->rrt_info.rip6_plen <= iffp->iff_plen) 933 continue; 934 ia = rrt->rrt_info.rip6_dest; 935 applyplen(&ia, iffp->iff_plen); 936 if (IN6_ARE_ADDR_EQUAL(&ia, &iffp->iff_addr)) 937 return 0; 938 } 939 940 /* 941 * if it is an aggregated route, advertise it only to the 942 * interfaces specified on -A. 943 */ 944 if ((rrt->rrt_rflags & RRTF_AGGREGATE) != 0) { 945 ok = 0; 946 for (iffp = ifcp->ifc_filter; iffp; iffp = iffp->iff_next) { 947 if (iffp->iff_type != 'A') 948 continue; 949 if (rrt->rrt_info.rip6_plen == iffp->iff_plen && 950 IN6_ARE_ADDR_EQUAL(&rrt->rrt_info.rip6_dest, 951 &iffp->iff_addr)) { 952 ok = 1; 953 break; 954 } 955 } 956 if (!ok) 957 return 0; 958 } 959 960 /* 961 * -O: advertise only if prefix matches the configured prefix. 962 */ 963 if (iff_find(ifcp, 'O')) { 964 ok = 0; 965 for (iffp = ifcp->ifc_filter; iffp; iffp = iffp->iff_next) { 966 if (iffp->iff_type != 'O') 967 continue; 968 if (rrt->rrt_info.rip6_plen < iffp->iff_plen) 969 continue; 970 ia = rrt->rrt_info.rip6_dest; 971 applyplen(&ia, iffp->iff_plen); 972 if (IN6_ARE_ADDR_EQUAL(&ia, &iffp->iff_addr)) { 973 ok = 1; 974 break; 975 } 976 } 977 if (!ok) 978 return 0; 979 } 980 981 /* the prefix should be advertised */ 982 return 1; 983 } 984 985 /* 986 * Determine if the route is to be advertised on the specified interface. 987 * It checks options specified in the arguments and the split horizon rule. 988 */ 989 int 990 tobeadv(rrt, ifcp) 991 struct riprt *rrt; 992 struct ifc *ifcp; 993 { 994 995 /* Special care for static routes */ 996 if (rrt->rrt_flags & RTF_STATIC) { 997 /* XXX don't advertise reject/blackhole routes */ 998 if (rrt->rrt_flags & (RTF_REJECT | RTF_BLACKHOLE)) 999 return 0; 1000 1001 if (Sflag) /* Yes, advertise it anyway */ 1002 return 1; 1003 if (sflag && rrt->rrt_index != ifcp->ifc_index) 1004 return 1; 1005 return 0; 1006 } 1007 /* Regular split horizon */ 1008 if (hflag == 0 && rrt->rrt_index == ifcp->ifc_index) 1009 return 0; 1010 return 1; 1011 } 1012 1013 /* 1014 * Send a rip packet actually. 1015 */ 1016 int 1017 sendpacket(sin6, len) 1018 struct sockaddr_in6 *sin6; 1019 int len; 1020 { 1021 /* 1022 * MSG_DONTROUTE should not be specified when it responds with a 1023 * RIP6_REQUEST message. SO_DONTROUTE has been specified to 1024 * other sockets. 1025 */ 1026 struct msghdr m; 1027 struct cmsghdr *cm; 1028 struct iovec iov[2]; 1029 u_char cmsgbuf[256]; 1030 struct in6_pktinfo *pi; 1031 int idx; 1032 struct sockaddr_in6 sincopy; 1033 1034 /* do not overwrite the given sin */ 1035 sincopy = *sin6; 1036 sin6 = &sincopy; 1037 1038 if (IN6_IS_ADDR_LINKLOCAL(&sin6->sin6_addr) || 1039 IN6_IS_ADDR_MULTICAST(&sin6->sin6_addr)) { 1040 idx = IN6_LINKLOCAL_IFINDEX(sin6->sin6_addr); 1041 SET_IN6_LINKLOCAL_IFINDEX(sin6->sin6_addr, 0); 1042 } else 1043 idx = 0; 1044 1045 m.msg_name = (caddr_t)sin6; 1046 m.msg_namelen = sizeof(*sin6); 1047 iov[0].iov_base = (caddr_t)ripbuf; 1048 iov[0].iov_len = len; 1049 m.msg_iov = iov; 1050 m.msg_iovlen = 1; 1051 if (!idx) { 1052 m.msg_control = NULL; 1053 m.msg_controllen = 0; 1054 } else { 1055 memset(cmsgbuf, 0, sizeof(cmsgbuf)); 1056 cm = (struct cmsghdr *)cmsgbuf; 1057 m.msg_control = (caddr_t)cm; 1058 m.msg_controllen = CMSG_SPACE(sizeof(struct in6_pktinfo)); 1059 1060 cm->cmsg_len = CMSG_LEN(sizeof(struct in6_pktinfo)); 1061 cm->cmsg_level = IPPROTO_IPV6; 1062 cm->cmsg_type = IPV6_PKTINFO; 1063 pi = (struct in6_pktinfo *)CMSG_DATA(cm); 1064 memset(&pi->ipi6_addr, 0, sizeof(pi->ipi6_addr)); /*::*/ 1065 pi->ipi6_ifindex = idx; 1066 } 1067 1068 if (sendmsg(ripsock, &m, 0 /*MSG_DONTROUTE*/) < 0) { 1069 trace(1, "sendmsg: %s\n", strerror(errno)); 1070 return errno; 1071 } 1072 1073 return 0; 1074 } 1075 1076 /* 1077 * Receive and process RIP packets. Update the routes/kernel forwarding 1078 * table if necessary. 1079 */ 1080 void 1081 riprecv() 1082 { 1083 struct ifc *ifcp, *ic; 1084 struct sockaddr_in6 fsock; 1085 struct in6_addr nh; /* next hop */ 1086 struct rip6 *rp; 1087 struct netinfo6 *np, *nq; 1088 struct riprt *rrt; 1089 int len, nn, need_trigger, idx; 1090 char buf[4 * RIP6_MAXMTU]; 1091 time_t t; 1092 struct msghdr m; 1093 struct cmsghdr *cm; 1094 struct iovec iov[2]; 1095 u_char cmsgbuf[256]; 1096 struct in6_pktinfo *pi; 1097 struct iff *iffp; 1098 struct in6_addr ia; 1099 int ok; 1100 time_t t_half_lifetime; 1101 1102 need_trigger = 0; 1103 1104 m.msg_name = (caddr_t)&fsock; 1105 m.msg_namelen = sizeof(fsock); 1106 iov[0].iov_base = (caddr_t)buf; 1107 iov[0].iov_len = sizeof(buf); 1108 m.msg_iov = iov; 1109 m.msg_iovlen = 1; 1110 cm = (struct cmsghdr *)cmsgbuf; 1111 m.msg_control = (caddr_t)cm; 1112 m.msg_controllen = sizeof(cmsgbuf); 1113 if ((len = recvmsg(ripsock, &m, 0)) < 0) { 1114 fatal("recvmsg"); 1115 /*NOTREACHED*/ 1116 } 1117 idx = 0; 1118 for (cm = (struct cmsghdr *)CMSG_FIRSTHDR(&m); 1119 cm; 1120 cm = (struct cmsghdr *)CMSG_NXTHDR(&m, cm)) { 1121 if (cm->cmsg_level == IPPROTO_IPV6 && 1122 cm->cmsg_type == IPV6_PKTINFO) { 1123 pi = (struct in6_pktinfo *)(CMSG_DATA(cm)); 1124 idx = pi->ipi6_ifindex; 1125 break; 1126 } 1127 } 1128 if (idx && IN6_IS_ADDR_LINKLOCAL(&fsock.sin6_addr)) 1129 SET_IN6_LINKLOCAL_IFINDEX(fsock.sin6_addr, idx); 1130 1131 nh = fsock.sin6_addr; 1132 nn = (len - sizeof(struct rip6) + sizeof(struct netinfo6)) / 1133 sizeof(struct netinfo6); 1134 rp = (struct rip6 *)buf; 1135 np = rp->rip6_nets; 1136 1137 if (rp->rip6_vers != RIP6_VERSION) { 1138 trace(1, "Incorrect RIP version %d\n", rp->rip6_vers); 1139 return; 1140 } 1141 if (rp->rip6_cmd == RIP6_REQUEST) { 1142 if (idx && idx < nindex2ifc) { 1143 ifcp = index2ifc[idx]; 1144 riprequest(ifcp, np, nn, &fsock); 1145 } else { 1146 riprequest(NULL, np, nn, &fsock); 1147 } 1148 return; 1149 } 1150 1151 if (!IN6_IS_ADDR_LINKLOCAL(&fsock.sin6_addr)) { 1152 trace(1, "Packets from non-ll addr: %s\n", 1153 inet6_n2p(&fsock.sin6_addr)); 1154 return; /* Ignore packets from non-link-local addr */ 1155 } 1156 idx = IN6_LINKLOCAL_IFINDEX(fsock.sin6_addr); 1157 ifcp = (idx < nindex2ifc) ? index2ifc[idx] : NULL; 1158 if (!ifcp) { 1159 trace(1, "Packets to unknown interface index %d\n", idx); 1160 return; /* Ignore it */ 1161 } 1162 if (IN6_ARE_ADDR_EQUAL(&ifcp->ifc_mylladdr, &fsock.sin6_addr)) 1163 return; /* The packet is from me; ignore */ 1164 if (rp->rip6_cmd != RIP6_RESPONSE) { 1165 trace(1, "Invalid command %d\n", rp->rip6_cmd); 1166 return; 1167 } 1168 1169 /* -N: no use */ 1170 if (iff_find(ifcp, 'N') != NULL) 1171 return; 1172 1173 tracet(1, "Recv(%s): from %s.%d info(%d)\n", 1174 ifcp->ifc_name, inet6_n2p(&nh), ntohs(fsock.sin6_port), nn); 1175 1176 t = time(NULL); 1177 t_half_lifetime = t - (RIP_LIFETIME/2); 1178 for (; nn; nn--, np++) { 1179 if (np->rip6_metric == NEXTHOP_METRIC) { 1180 /* modify neighbor address */ 1181 if (IN6_IS_ADDR_LINKLOCAL(&np->rip6_dest)) { 1182 nh = np->rip6_dest; 1183 SET_IN6_LINKLOCAL_IFINDEX(nh, idx); 1184 trace(1, "\tNexthop: %s\n", inet6_n2p(&nh)); 1185 } else if (IN6_IS_ADDR_UNSPECIFIED(&np->rip6_dest)) { 1186 nh = fsock.sin6_addr; 1187 trace(1, "\tNexthop: %s\n", inet6_n2p(&nh)); 1188 } else { 1189 nh = fsock.sin6_addr; 1190 trace(1, "\tInvalid Nexthop: %s\n", 1191 inet6_n2p(&np->rip6_dest)); 1192 } 1193 continue; 1194 } 1195 if (IN6_IS_ADDR_MULTICAST(&np->rip6_dest)) { 1196 trace(1, "\tMulticast netinfo6: %s/%d [%d]\n", 1197 inet6_n2p(&np->rip6_dest), 1198 np->rip6_plen, np->rip6_metric); 1199 continue; 1200 } 1201 if (IN6_IS_ADDR_LOOPBACK(&np->rip6_dest)) { 1202 trace(1, "\tLoopback netinfo6: %s/%d [%d]\n", 1203 inet6_n2p(&np->rip6_dest), 1204 np->rip6_plen, np->rip6_metric); 1205 continue; 1206 } 1207 if (IN6_IS_ADDR_LINKLOCAL(&np->rip6_dest)) { 1208 trace(1, "\tLink Local netinfo6: %s/%d [%d]\n", 1209 inet6_n2p(&np->rip6_dest), 1210 np->rip6_plen, np->rip6_metric); 1211 continue; 1212 } 1213 /* may need to pass sitelocal prefix in some case, however*/ 1214 if (IN6_IS_ADDR_SITELOCAL(&np->rip6_dest) && !lflag) { 1215 trace(1, "\tSite Local netinfo6: %s/%d [%d]\n", 1216 inet6_n2p(&np->rip6_dest), 1217 np->rip6_plen, np->rip6_metric); 1218 continue; 1219 } 1220 trace(2, "\tnetinfo6: %s/%d [%d]", 1221 inet6_n2p(&np->rip6_dest), 1222 np->rip6_plen, np->rip6_metric); 1223 if (np->rip6_tag) 1224 trace(2, " tag=0x%04x", ntohs(np->rip6_tag) & 0xffff); 1225 if (dflag >= 2) { 1226 ia = np->rip6_dest; 1227 applyplen(&ia, np->rip6_plen); 1228 if (!IN6_ARE_ADDR_EQUAL(&ia, &np->rip6_dest)) 1229 trace(2, " [junk outside prefix]"); 1230 } 1231 1232 /* 1233 * -L: listen only if the prefix matches the configuration 1234 */ 1235 ok = 1; /* if there's no L filter, it is ok */ 1236 for (iffp = ifcp->ifc_filter; iffp; iffp = iffp->iff_next) { 1237 if (iffp->iff_type != 'L') 1238 continue; 1239 ok = 0; 1240 if (np->rip6_plen < iffp->iff_plen) 1241 continue; 1242 /* special rule: ::/0 means default, not "in /0" */ 1243 if (iffp->iff_plen == 0 && np->rip6_plen > 0) 1244 continue; 1245 ia = np->rip6_dest; 1246 applyplen(&ia, iffp->iff_plen); 1247 if (IN6_ARE_ADDR_EQUAL(&ia, &iffp->iff_addr)) { 1248 ok = 1; 1249 break; 1250 } 1251 } 1252 if (!ok) { 1253 trace(2, " (filtered)\n"); 1254 continue; 1255 } 1256 1257 trace(2, "\n"); 1258 np->rip6_metric++; 1259 np->rip6_metric += ifcp->ifc_metric; 1260 if (np->rip6_metric > HOPCNT_INFINITY6) 1261 np->rip6_metric = HOPCNT_INFINITY6; 1262 1263 applyplen(&np->rip6_dest, np->rip6_plen); 1264 if ((rrt = rtsearch(np, NULL)) != NULL) { 1265 if (rrt->rrt_t == 0) 1266 continue; /* Intf route has priority */ 1267 nq = &rrt->rrt_info; 1268 if (nq->rip6_metric > np->rip6_metric) { 1269 if (rrt->rrt_index == ifcp->ifc_index && 1270 IN6_ARE_ADDR_EQUAL(&nh, &rrt->rrt_gw)) { 1271 /* Small metric from the same gateway */ 1272 nq->rip6_metric = np->rip6_metric; 1273 } else { 1274 /* Better route found */ 1275 rrt->rrt_index = ifcp->ifc_index; 1276 /* Update routing table */ 1277 delroute(nq, &rrt->rrt_gw); 1278 rrt->rrt_gw = nh; 1279 *nq = *np; 1280 addroute(rrt, &nh, ifcp); 1281 } 1282 rrt->rrt_rflags |= RRTF_CHANGED; 1283 rrt->rrt_t = t; 1284 need_trigger = 1; 1285 } else if (nq->rip6_metric < np->rip6_metric && 1286 rrt->rrt_index == ifcp->ifc_index && 1287 IN6_ARE_ADDR_EQUAL(&nh, &rrt->rrt_gw)) { 1288 /* Got worse route from same gw */ 1289 nq->rip6_metric = np->rip6_metric; 1290 rrt->rrt_t = t; 1291 rrt->rrt_rflags |= RRTF_CHANGED; 1292 need_trigger = 1; 1293 } else if (nq->rip6_metric == np->rip6_metric && 1294 np->rip6_metric < HOPCNT_INFINITY6) { 1295 if (rrt->rrt_index == ifcp->ifc_index && 1296 IN6_ARE_ADDR_EQUAL(&nh, &rrt->rrt_gw)) { 1297 /* same metric, same route from same gw */ 1298 rrt->rrt_t = t; 1299 } else if (rrt->rrt_t < t_half_lifetime) { 1300 /* Better route found */ 1301 rrt->rrt_index = ifcp->ifc_index; 1302 /* Update routing table */ 1303 delroute(nq, &rrt->rrt_gw); 1304 rrt->rrt_gw = nh; 1305 *nq = *np; 1306 addroute(rrt, &nh, ifcp); 1307 rrt->rrt_rflags |= RRTF_CHANGED; 1308 rrt->rrt_t = t; 1309 } 1310 } 1311 /* 1312 * if nq->rip6_metric == HOPCNT_INFINITY6 then 1313 * do not update age value. Do nothing. 1314 */ 1315 } else if (np->rip6_metric < HOPCNT_INFINITY6) { 1316 /* Got a new valid route */ 1317 if ((rrt = MALLOC(struct riprt)) == NULL) { 1318 fatal("malloc: struct riprt"); 1319 /*NOTREACHED*/ 1320 } 1321 memset(rrt, 0, sizeof(*rrt)); 1322 nq = &rrt->rrt_info; 1323 1324 rrt->rrt_same = NULL; 1325 rrt->rrt_index = ifcp->ifc_index; 1326 rrt->rrt_flags = RTF_UP|RTF_GATEWAY; 1327 rrt->rrt_gw = nh; 1328 *nq = *np; 1329 applyplen(&nq->rip6_dest, nq->rip6_plen); 1330 if (nq->rip6_plen == sizeof(struct in6_addr) * 8) 1331 rrt->rrt_flags |= RTF_HOST; 1332 1333 /* Put the route to the list */ 1334 rrt->rrt_next = riprt; 1335 riprt = rrt; 1336 /* Update routing table */ 1337 addroute(rrt, &nh, ifcp); 1338 rrt->rrt_rflags |= RRTF_CHANGED; 1339 need_trigger = 1; 1340 rrt->rrt_t = t; 1341 } 1342 } 1343 /* XXX need to care the interval between triggered updates */ 1344 if (need_trigger) { 1345 if (nextalarm > time(NULL) + RIP_TRIG_INT6_MAX) { 1346 for (ic = ifc; ic; ic = ic->ifc_next) { 1347 if (ifcp->ifc_index == ic->ifc_index) 1348 continue; 1349 if (ic->ifc_flags & IFF_UP) 1350 ripsend(ic, &ic->ifc_ripsin, 1351 RRTF_CHANGED); 1352 } 1353 } 1354 /* Reset the flag */ 1355 for (rrt = riprt; rrt; rrt = rrt->rrt_next) 1356 rrt->rrt_rflags &= ~RRTF_CHANGED; 1357 } 1358 } 1359 1360 /* 1361 * Send all routes request packet to the specified interface. 1362 */ 1363 void 1364 sendrequest(ifcp) 1365 struct ifc *ifcp; 1366 { 1367 struct netinfo6 *np; 1368 int error; 1369 1370 if (ifcp->ifc_flags & IFF_LOOPBACK) 1371 return; 1372 ripbuf->rip6_cmd = RIP6_REQUEST; 1373 np = ripbuf->rip6_nets; 1374 memset(np, 0, sizeof(struct netinfo6)); 1375 np->rip6_metric = HOPCNT_INFINITY6; 1376 tracet(1, "Send rtdump Request to %s (%s)\n", 1377 ifcp->ifc_name, inet6_n2p(&ifcp->ifc_ripsin.sin6_addr)); 1378 error = sendpacket(&ifcp->ifc_ripsin, RIPSIZE(1)); 1379 if (error == EAFNOSUPPORT) { 1380 /* Protocol not supported */ 1381 tracet(1, "Could not send rtdump Request to %s (%s): " 1382 "set IFF_UP to 0\n", 1383 ifcp->ifc_name, inet6_n2p(&ifcp->ifc_ripsin.sin6_addr)); 1384 ifcp->ifc_flags &= ~IFF_UP; /* As if down for AF_INET6 */ 1385 } 1386 ripbuf->rip6_cmd = RIP6_RESPONSE; 1387 } 1388 1389 /* 1390 * Process a RIP6_REQUEST packet. 1391 */ 1392 void 1393 riprequest(ifcp, np, nn, sin6) 1394 struct ifc *ifcp; 1395 struct netinfo6 *np; 1396 int nn; 1397 struct sockaddr_in6 *sin6; 1398 { 1399 int i; 1400 struct riprt *rrt; 1401 1402 if (!(nn == 1 && IN6_IS_ADDR_UNSPECIFIED(&np->rip6_dest) && 1403 np->rip6_plen == 0 && np->rip6_metric == HOPCNT_INFINITY6)) { 1404 /* Specific response, don't split-horizon */ 1405 trace(1, "\tRIP Request\n"); 1406 for (i = 0; i < nn; i++, np++) { 1407 rrt = rtsearch(np, NULL); 1408 if (rrt) 1409 np->rip6_metric = rrt->rrt_info.rip6_metric; 1410 else 1411 np->rip6_metric = HOPCNT_INFINITY6; 1412 } 1413 (void)sendpacket(sin6, RIPSIZE(nn)); 1414 return; 1415 } 1416 /* Whole routing table dump */ 1417 trace(1, "\tRIP Request -- whole routing table\n"); 1418 ripsend(ifcp, sin6, RRTF_SENDANYWAY); 1419 } 1420 1421 /* 1422 * Get information of each interface. 1423 */ 1424 void 1425 ifconfig() 1426 { 1427 struct ifaddrs *ifap, *ifa; 1428 struct ifc *ifcp; 1429 struct ipv6_mreq mreq; 1430 int s; 1431 1432 if ((s = socket(AF_INET6, SOCK_DGRAM, 0)) < 0) { 1433 fatal("socket"); 1434 /*NOTREACHED*/ 1435 } 1436 1437 if (getifaddrs(&ifap) != 0) { 1438 fatal("getifaddrs"); 1439 /*NOTREACHED*/ 1440 } 1441 1442 for (ifa = ifap; ifa; ifa = ifa->ifa_next) { 1443 if (ifa->ifa_addr->sa_family != AF_INET6) 1444 continue; 1445 ifcp = ifc_find(ifa->ifa_name); 1446 /* we are interested in multicast-capable interfaces */ 1447 if ((ifa->ifa_flags & IFF_MULTICAST) == 0) 1448 continue; 1449 if (!ifcp) { 1450 /* new interface */ 1451 if ((ifcp = MALLOC(struct ifc)) == NULL) { 1452 fatal("malloc: struct ifc"); 1453 /*NOTREACHED*/ 1454 } 1455 memset(ifcp, 0, sizeof(*ifcp)); 1456 ifcp->ifc_index = -1; 1457 ifcp->ifc_next = ifc; 1458 ifc = ifcp; 1459 nifc++; 1460 ifcp->ifc_name = allocopy(ifa->ifa_name); 1461 ifcp->ifc_addr = 0; 1462 ifcp->ifc_filter = 0; 1463 ifcp->ifc_flags = ifa->ifa_flags; 1464 trace(1, "newif %s <%s>\n", ifcp->ifc_name, 1465 ifflags(ifcp->ifc_flags)); 1466 if (!strcmp(ifcp->ifc_name, LOOPBACK_IF)) 1467 loopifcp = ifcp; 1468 } else { 1469 /* update flag, this may be up again */ 1470 if (ifcp->ifc_flags != ifa->ifa_flags) { 1471 trace(1, "%s: <%s> -> ", ifcp->ifc_name, 1472 ifflags(ifcp->ifc_flags)); 1473 trace(1, "<%s>\n", ifflags(ifa->ifa_flags)); 1474 ifcp->ifc_cflags |= IFC_CHANGED; 1475 } 1476 ifcp->ifc_flags = ifa->ifa_flags; 1477 } 1478 ifconfig1(ifa->ifa_name, ifa->ifa_addr, ifcp, s); 1479 if ((ifcp->ifc_flags & (IFF_LOOPBACK | IFF_UP)) == IFF_UP 1480 && 0 < ifcp->ifc_index && !ifcp->ifc_joined) { 1481 mreq.ipv6mr_multiaddr = ifcp->ifc_ripsin.sin6_addr; 1482 mreq.ipv6mr_interface = ifcp->ifc_index; 1483 if (setsockopt(ripsock, IPPROTO_IPV6, IPV6_JOIN_GROUP, 1484 &mreq, sizeof(mreq)) < 0) { 1485 fatal("IPV6_JOIN_GROUP"); 1486 /*NOTREACHED*/ 1487 } 1488 trace(1, "join %s %s\n", ifcp->ifc_name, RIP6_DEST); 1489 ifcp->ifc_joined++; 1490 } 1491 } 1492 close(s); 1493 freeifaddrs(ifap); 1494 } 1495 1496 void 1497 ifconfig1(name, sa, ifcp, s) 1498 const char *name; 1499 const struct sockaddr *sa; 1500 struct ifc *ifcp; 1501 int s; 1502 { 1503 struct in6_ifreq ifr; 1504 const struct sockaddr_in6 *sin6; 1505 struct ifac *ifa; 1506 int plen; 1507 char buf[BUFSIZ]; 1508 1509 sin6 = (const struct sockaddr_in6 *)sa; 1510 ifr.ifr_addr = *sin6; 1511 strncpy(ifr.ifr_name, name, sizeof(ifr.ifr_name)); 1512 if (ioctl(s, SIOCGIFNETMASK_IN6, (char *)&ifr) < 0) { 1513 fatal("ioctl: SIOCGIFNETMASK_IN6"); 1514 /*NOTREACHED*/ 1515 } 1516 plen = sin6mask2len(&ifr.ifr_addr); 1517 if ((ifa = ifa_match(ifcp, &sin6->sin6_addr, plen)) != NULL) { 1518 /* same interface found */ 1519 /* need check if something changed */ 1520 /* XXX not yet implemented */ 1521 return; 1522 } 1523 /* 1524 * New address is found 1525 */ 1526 if ((ifa = MALLOC(struct ifac)) == NULL) { 1527 fatal("malloc: struct ifac"); 1528 /*NOTREACHED*/ 1529 } 1530 memset(ifa, 0, sizeof(*ifa)); 1531 ifa->ifa_conf = ifcp; 1532 ifa->ifa_next = ifcp->ifc_addr; 1533 ifcp->ifc_addr = ifa; 1534 ifa->ifa_addr = sin6->sin6_addr; 1535 ifa->ifa_plen = plen; 1536 if (ifcp->ifc_flags & IFF_POINTOPOINT) { 1537 ifr.ifr_addr = *sin6; 1538 if (ioctl(s, SIOCGIFDSTADDR_IN6, (char *)&ifr) < 0) { 1539 fatal("ioctl: SIOCGIFDSTADDR_IN6"); 1540 /*NOTREACHED*/ 1541 } 1542 ifa->ifa_raddr = ifr.ifr_dstaddr.sin6_addr; 1543 inet_ntop(AF_INET6, (void *)&ifa->ifa_raddr, buf, sizeof(buf)); 1544 trace(1, "found address %s/%d -- %s\n", 1545 inet6_n2p(&ifa->ifa_addr), ifa->ifa_plen, buf); 1546 } else { 1547 trace(1, "found address %s/%d\n", 1548 inet6_n2p(&ifa->ifa_addr), ifa->ifa_plen); 1549 } 1550 if (ifcp->ifc_index < 0 && IN6_IS_ADDR_LINKLOCAL(&ifa->ifa_addr)) { 1551 ifcp->ifc_mylladdr = ifa->ifa_addr; 1552 ifcp->ifc_index = IN6_LINKLOCAL_IFINDEX(ifa->ifa_addr); 1553 memcpy(&ifcp->ifc_ripsin, &ripsin, ripsin.ss_len); 1554 SET_IN6_LINKLOCAL_IFINDEX(ifcp->ifc_ripsin.sin6_addr, 1555 ifcp->ifc_index); 1556 setindex2ifc(ifcp->ifc_index, ifcp); 1557 ifcp->ifc_mtu = getifmtu(ifcp->ifc_index); 1558 if (ifcp->ifc_mtu > RIP6_MAXMTU) 1559 ifcp->ifc_mtu = RIP6_MAXMTU; 1560 if (ioctl(s, SIOCGIFMETRIC, (char *)&ifr) < 0) { 1561 fatal("ioctl: SIOCGIFMETRIC"); 1562 /*NOTREACHED*/ 1563 } 1564 ifcp->ifc_metric = ifr.ifr_metric; 1565 trace(1, "\tindex: %d, mtu: %d, metric: %d\n", 1566 ifcp->ifc_index, ifcp->ifc_mtu, ifcp->ifc_metric); 1567 } else 1568 ifcp->ifc_cflags |= IFC_CHANGED; 1569 } 1570 1571 /* 1572 * Receive and process routing messages. 1573 * Update interface information as necesssary. 1574 */ 1575 void 1576 rtrecv() 1577 { 1578 char buf[BUFSIZ]; 1579 char *p, *q; 1580 struct rt_msghdr *rtm; 1581 struct ifa_msghdr *ifam; 1582 struct if_msghdr *ifm; 1583 int len; 1584 struct ifc *ifcp, *ic; 1585 int iface = 0, rtable = 0; 1586 struct sockaddr_in6 *rta[RTAX_MAX]; 1587 struct sockaddr_in6 mask; 1588 int i, addrs; 1589 struct riprt *rrt; 1590 1591 if ((len = read(rtsock, buf, sizeof(buf))) < 0) { 1592 perror("read from rtsock"); 1593 exit(1); 1594 } 1595 if (len < sizeof(*rtm)) { 1596 trace(1, "short read from rtsock: %d (should be > %lu)\n", 1597 len, (u_long)sizeof(*rtm)); 1598 return; 1599 } 1600 if (dflag >= 2) { 1601 fprintf(stderr, "rtmsg:\n"); 1602 for (i = 0; i < len; i++) { 1603 fprintf(stderr, "%02x ", buf[i] & 0xff); 1604 if (i % 16 == 15) fprintf(stderr, "\n"); 1605 } 1606 fprintf(stderr, "\n"); 1607 } 1608 1609 for (p = buf; p - buf < len; p += ((struct rt_msghdr *)p)->rtm_msglen) { 1610 /* safety against bogus message */ 1611 if (((struct rt_msghdr *)p)->rtm_msglen <= 0) { 1612 trace(1, "bogus rtmsg: length=%d\n", 1613 ((struct rt_msghdr *)p)->rtm_msglen); 1614 break; 1615 } 1616 rtm = NULL; 1617 ifam = NULL; 1618 ifm = NULL; 1619 switch (((struct rt_msghdr *)p)->rtm_type) { 1620 case RTM_NEWADDR: 1621 case RTM_DELADDR: 1622 ifam = (struct ifa_msghdr *)p; 1623 addrs = ifam->ifam_addrs; 1624 q = (char *)(ifam + 1); 1625 break; 1626 case RTM_IFINFO: 1627 ifm = (struct if_msghdr *)p; 1628 addrs = ifm->ifm_addrs; 1629 q = (char *)(ifm + 1); 1630 break; 1631 default: 1632 rtm = (struct rt_msghdr *)p; 1633 addrs = rtm->rtm_addrs; 1634 q = (char *)(rtm + 1); 1635 if (rtm->rtm_version != RTM_VERSION) { 1636 trace(1, "unexpected rtmsg version %d " 1637 "(should be %d)\n", 1638 rtm->rtm_version, RTM_VERSION); 1639 continue; 1640 } 1641 if (rtm->rtm_pid == pid) { 1642 #if 0 1643 trace(1, "rtmsg looped back to me, ignored\n"); 1644 #endif 1645 continue; 1646 } 1647 break; 1648 } 1649 memset(&rta, 0, sizeof(rta)); 1650 for (i = 0; i < RTAX_MAX; i++) { 1651 if (addrs & (1 << i)) { 1652 rta[i] = (struct sockaddr_in6 *)q; 1653 q += ROUNDUP(rta[i]->sin6_len); 1654 } 1655 } 1656 1657 trace(1, "rtsock: %s (addrs=%x)\n", 1658 rttypes((struct rt_msghdr *)p), addrs); 1659 if (dflag >= 2) { 1660 for (i = 0; 1661 i < ((struct rt_msghdr *)p)->rtm_msglen; 1662 i++) { 1663 fprintf(stderr, "%02x ", p[i] & 0xff); 1664 if (i % 16 == 15) fprintf(stderr, "\n"); 1665 } 1666 fprintf(stderr, "\n"); 1667 } 1668 1669 /* 1670 * Easy ones first. 1671 * 1672 * We may be able to optimize by using ifm->ifm_index or 1673 * ifam->ifam_index. For simplicity we don't do that here. 1674 */ 1675 switch (((struct rt_msghdr *)p)->rtm_type) { 1676 case RTM_NEWADDR: 1677 case RTM_IFINFO: 1678 iface++; 1679 continue; 1680 case RTM_ADD: 1681 rtable++; 1682 continue; 1683 case RTM_LOSING: 1684 case RTM_MISS: 1685 case RTM_RESOLVE: 1686 case RTM_GET: 1687 case RTM_LOCK: 1688 /* nothing to be done here */ 1689 trace(1, "\tnothing to be done, ignored\n"); 1690 continue; 1691 } 1692 1693 #if 0 1694 if (rta[RTAX_DST] == NULL) { 1695 trace(1, "\tno destination, ignored\n"); 1696 continue; 1697 } 1698 if (rta[RTAX_DST]->sin6_family != AF_INET6) { 1699 trace(1, "\taf mismatch, ignored\n"); 1700 continue; 1701 } 1702 if (IN6_IS_ADDR_LINKLOCAL(&rta[RTAX_DST]->sin6_addr)) { 1703 trace(1, "\tlinklocal destination, ignored\n"); 1704 continue; 1705 } 1706 if (IN6_ARE_ADDR_EQUAL(&rta[RTAX_DST]->sin6_addr, &in6addr_loopback)) { 1707 trace(1, "\tloopback destination, ignored\n"); 1708 continue; /* Loopback */ 1709 } 1710 if (IN6_IS_ADDR_MULTICAST(&rta[RTAX_DST]->sin6_addr)) { 1711 trace(1, "\tmulticast destination, ignored\n"); 1712 continue; 1713 } 1714 #endif 1715 1716 /* hard ones */ 1717 switch (((struct rt_msghdr *)p)->rtm_type) { 1718 case RTM_NEWADDR: 1719 case RTM_IFINFO: 1720 case RTM_ADD: 1721 case RTM_LOSING: 1722 case RTM_MISS: 1723 case RTM_RESOLVE: 1724 case RTM_GET: 1725 case RTM_LOCK: 1726 /* should already be handled */ 1727 fatal("rtrecv: never reach here"); 1728 /*NOTREACHED*/ 1729 case RTM_DELETE: 1730 if (!rta[RTAX_DST] || !rta[RTAX_GATEWAY]) { 1731 trace(1, "\tsome of dst/gw/netamsk are " 1732 "unavailable, ignored\n"); 1733 break; 1734 } 1735 if ((rtm->rtm_flags & RTF_HOST) != 0) { 1736 mask.sin6_len = sizeof(mask); 1737 memset(&mask.sin6_addr, 0xff, 1738 sizeof(mask.sin6_addr)); 1739 rta[RTAX_NETMASK] = &mask; 1740 } else if (!rta[RTAX_NETMASK]) { 1741 trace(1, "\tsome of dst/gw/netamsk are " 1742 "unavailable, ignored\n"); 1743 break; 1744 } 1745 if (rt_del(rta[RTAX_DST], rta[RTAX_GATEWAY], 1746 rta[RTAX_NETMASK]) == 0) { 1747 rtable++; /*just to be sure*/ 1748 } 1749 break; 1750 case RTM_CHANGE: 1751 case RTM_REDIRECT: 1752 trace(1, "\tnot supported yet, ignored\n"); 1753 break; 1754 case RTM_DELADDR: 1755 if (!rta[RTAX_NETMASK] || !rta[RTAX_IFA]) { 1756 trace(1, "\tno netmask or ifa given, ignored\n"); 1757 break; 1758 } 1759 if (ifam->ifam_index < nindex2ifc) 1760 ifcp = index2ifc[ifam->ifam_index]; 1761 else 1762 ifcp = NULL; 1763 if (!ifcp) { 1764 trace(1, "\tinvalid ifam_index %d, ignored\n", 1765 ifam->ifam_index); 1766 break; 1767 } 1768 if (!rt_deladdr(ifcp, rta[RTAX_IFA], rta[RTAX_NETMASK])) 1769 iface++; 1770 break; 1771 case RTM_OLDADD: 1772 case RTM_OLDDEL: 1773 trace(1, "\tnot supported yet, ignored\n"); 1774 break; 1775 } 1776 1777 } 1778 1779 if (iface) { 1780 trace(1, "rtsock: reconfigure interfaces, refresh interface routes\n"); 1781 ifconfig(); 1782 for (ifcp = ifc; ifcp; ifcp = ifcp->ifc_next) 1783 if (ifcp->ifc_cflags & IFC_CHANGED) { 1784 if (ifrt(ifcp, 1)) { 1785 for (ic = ifc; ic; ic = ic->ifc_next) { 1786 if (ifcp->ifc_index == ic->ifc_index) 1787 continue; 1788 if (ic->ifc_flags & IFF_UP) 1789 ripsend(ic, &ic->ifc_ripsin, 1790 RRTF_CHANGED); 1791 } 1792 /* Reset the flag */ 1793 for (rrt = riprt; rrt; rrt = rrt->rrt_next) 1794 rrt->rrt_rflags &= ~RRTF_CHANGED; 1795 } 1796 ifcp->ifc_cflags &= ~IFC_CHANGED; 1797 } 1798 } 1799 if (rtable) { 1800 trace(1, "rtsock: read routing table again\n"); 1801 krtread(1); 1802 } 1803 } 1804 1805 /* 1806 * remove specified route from the internal routing table. 1807 */ 1808 int 1809 rt_del(sdst, sgw, smask) 1810 const struct sockaddr_in6 *sdst; 1811 const struct sockaddr_in6 *sgw; 1812 const struct sockaddr_in6 *smask; 1813 { 1814 const struct in6_addr *dst = NULL; 1815 const struct in6_addr *gw = NULL; 1816 int prefix; 1817 struct netinfo6 ni6; 1818 struct riprt *rrt = NULL; 1819 time_t t_lifetime; 1820 1821 if (sdst->sin6_family != AF_INET6) { 1822 trace(1, "\tother AF, ignored\n"); 1823 return -1; 1824 } 1825 if (IN6_IS_ADDR_LINKLOCAL(&sdst->sin6_addr) 1826 || IN6_ARE_ADDR_EQUAL(&sdst->sin6_addr, &in6addr_loopback) 1827 || IN6_IS_ADDR_MULTICAST(&sdst->sin6_addr)) { 1828 trace(1, "\taddress %s not interesting, ignored\n", 1829 inet6_n2p(&sdst->sin6_addr)); 1830 return -1; 1831 } 1832 dst = &sdst->sin6_addr; 1833 if (sgw->sin6_family == AF_INET6) { 1834 /* easy case */ 1835 gw = &sgw->sin6_addr; 1836 prefix = sin6mask2len(smask); 1837 } else if (sgw->sin6_family == AF_LINK) { 1838 /* 1839 * Interface route... a hard case. We need to get the prefix 1840 * length from the kernel, but we now are parsing rtmsg. 1841 * We'll purge matching routes from my list, then get the 1842 * fresh list. 1843 */ 1844 struct riprt *longest; 1845 trace(1, "\t%s is an interface route, guessing prefixlen\n", 1846 inet6_n2p(dst)); 1847 longest = NULL; 1848 for (rrt = riprt; rrt; rrt = rrt->rrt_next) { 1849 if (IN6_ARE_ADDR_EQUAL(&rrt->rrt_info.rip6_dest, 1850 &sdst->sin6_addr) 1851 && IN6_IS_ADDR_LOOPBACK(&rrt->rrt_gw)) { 1852 if (!longest 1853 || longest->rrt_info.rip6_plen < 1854 rrt->rrt_info.rip6_plen) { 1855 longest = rrt; 1856 } 1857 } 1858 } 1859 rrt = longest; 1860 if (!rrt) { 1861 trace(1, "\tno matching interface route found\n"); 1862 return -1; 1863 } 1864 gw = &in6addr_loopback; 1865 prefix = rrt->rrt_info.rip6_plen; 1866 } else { 1867 trace(1, "\tunsupported af: (gw=%d)\n", sgw->sin6_family); 1868 return -1; 1869 } 1870 1871 trace(1, "\tdeleting %s/%d ", inet6_n2p(dst), prefix); 1872 trace(1, "gw %s\n", inet6_n2p(gw)); 1873 t_lifetime = time(NULL) - RIP_LIFETIME; 1874 /* age route for interface address */ 1875 memset(&ni6, 0, sizeof(ni6)); 1876 ni6.rip6_dest = *dst; 1877 ni6.rip6_plen = prefix; 1878 applyplen(&ni6.rip6_dest, ni6.rip6_plen); /*to be sure*/ 1879 trace(1, "\tfind route %s/%d\n", inet6_n2p(&ni6.rip6_dest), 1880 ni6.rip6_plen); 1881 if (!rrt && (rrt = rtsearch(&ni6, NULL)) == NULL) { 1882 trace(1, "\tno route found\n"); 1883 return -1; 1884 } 1885 #if 0 1886 if ((rrt->rrt_flags & RTF_STATIC) == 0) { 1887 trace(1, "\tyou can delete static routes only\n"); 1888 } else 1889 #endif 1890 if (!IN6_ARE_ADDR_EQUAL(&rrt->rrt_gw, gw)) { 1891 trace(1, "\tgw mismatch: %s <-> ", 1892 inet6_n2p(&rrt->rrt_gw)); 1893 trace(1, "%s\n", inet6_n2p(gw)); 1894 } else { 1895 trace(1, "\troute found, age it\n"); 1896 if (rrt->rrt_t == 0 || rrt->rrt_t > t_lifetime) { 1897 rrt->rrt_t = t_lifetime; 1898 rrt->rrt_info.rip6_metric = HOPCNT_INFINITY6; 1899 } 1900 } 1901 return 0; 1902 } 1903 1904 /* 1905 * remove specified address from internal interface/routing table. 1906 */ 1907 int 1908 rt_deladdr(ifcp, sifa, smask) 1909 struct ifc *ifcp; 1910 const struct sockaddr_in6 *sifa; 1911 const struct sockaddr_in6 *smask; 1912 { 1913 const struct in6_addr *addr = NULL; 1914 int prefix; 1915 struct ifac *ifa = NULL; 1916 struct netinfo6 ni6; 1917 struct riprt *rrt = NULL; 1918 time_t t_lifetime; 1919 int updated = 0; 1920 1921 if (sifa->sin6_family != AF_INET6) { 1922 trace(1, "\tother AF, ignored\n"); 1923 return -1; 1924 } 1925 addr = &sifa->sin6_addr; 1926 prefix = sin6mask2len(smask); 1927 1928 trace(1, "\tdeleting %s/%d from %s\n", 1929 inet6_n2p(addr), prefix, ifcp->ifc_name); 1930 ifa = ifa_match(ifcp, addr, prefix); 1931 if (!ifa) { 1932 trace(1, "\tno matching ifa found for %s/%d on %s\n", 1933 inet6_n2p(addr), prefix, ifcp->ifc_name); 1934 return -1; 1935 } 1936 if (ifa->ifa_conf != ifcp) { 1937 trace(1, "\taddress table corrupt: back pointer does not match " 1938 "(%s != %s)\n", 1939 ifcp->ifc_name, ifa->ifa_conf->ifc_name); 1940 return -1; 1941 } 1942 /* remove ifa from interface */ 1943 if (ifcp->ifc_addr == ifa) 1944 ifcp->ifc_addr = ifa->ifa_next; 1945 else { 1946 struct ifac *p; 1947 for (p = ifcp->ifc_addr; p; p = p->ifa_next) { 1948 if (p->ifa_next == ifa) { 1949 p->ifa_next = ifa->ifa_next; 1950 break; 1951 } 1952 } 1953 } 1954 ifa->ifa_next = NULL; 1955 ifa->ifa_conf = NULL; 1956 t_lifetime = time(NULL) - RIP_LIFETIME; 1957 /* age route for interface address */ 1958 memset(&ni6, 0, sizeof(ni6)); 1959 ni6.rip6_dest = ifa->ifa_addr; 1960 ni6.rip6_plen = ifa->ifa_plen; 1961 applyplen(&ni6.rip6_dest, ni6.rip6_plen); 1962 trace(1, "\tfind interface route %s/%d on %d\n", 1963 inet6_n2p(&ni6.rip6_dest), ni6.rip6_plen, ifcp->ifc_index); 1964 if ((rrt = rtsearch(&ni6, NULL)) != NULL) { 1965 struct in6_addr none; 1966 memset(&none, 0, sizeof(none)); 1967 if (rrt->rrt_index == ifcp->ifc_index && 1968 (IN6_ARE_ADDR_EQUAL(&rrt->rrt_gw, &none) || 1969 IN6_IS_ADDR_LOOPBACK(&rrt->rrt_gw))) { 1970 trace(1, "\troute found, age it\n"); 1971 if (rrt->rrt_t == 0 || rrt->rrt_t > t_lifetime) { 1972 rrt->rrt_t = t_lifetime; 1973 rrt->rrt_info.rip6_metric = HOPCNT_INFINITY6; 1974 } 1975 updated++; 1976 } else { 1977 trace(1, "\tnon-interface route found: %s/%d on %d\n", 1978 inet6_n2p(&rrt->rrt_info.rip6_dest), 1979 rrt->rrt_info.rip6_plen, 1980 rrt->rrt_index); 1981 } 1982 } else 1983 trace(1, "\tno interface route found\n"); 1984 /* age route for p2p destination */ 1985 if (ifcp->ifc_flags & IFF_POINTOPOINT) { 1986 memset(&ni6, 0, sizeof(ni6)); 1987 ni6.rip6_dest = ifa->ifa_raddr; 1988 ni6.rip6_plen = 128; 1989 applyplen(&ni6.rip6_dest, ni6.rip6_plen); /*to be sure*/ 1990 trace(1, "\tfind p2p route %s/%d on %d\n", 1991 inet6_n2p(&ni6.rip6_dest), ni6.rip6_plen, 1992 ifcp->ifc_index); 1993 if ((rrt = rtsearch(&ni6, NULL)) != NULL) { 1994 if (rrt->rrt_index == ifcp->ifc_index && 1995 IN6_ARE_ADDR_EQUAL(&rrt->rrt_gw, &ifa->ifa_addr)) { 1996 trace(1, "\troute found, age it\n"); 1997 if (rrt->rrt_t == 0 || rrt->rrt_t > t_lifetime) { 1998 rrt->rrt_t = t_lifetime; 1999 rrt->rrt_info.rip6_metric = 2000 HOPCNT_INFINITY6; 2001 updated++; 2002 } 2003 } else { 2004 trace(1, "\tnon-p2p route found: %s/%d on %d\n", 2005 inet6_n2p(&rrt->rrt_info.rip6_dest), 2006 rrt->rrt_info.rip6_plen, 2007 rrt->rrt_index); 2008 } 2009 } else 2010 trace(1, "\tno p2p route found\n"); 2011 } 2012 return updated ? 0 : -1; 2013 } 2014 2015 /* 2016 * Get each interface address and put those interface routes to the route 2017 * list. 2018 */ 2019 int 2020 ifrt(ifcp, again) 2021 struct ifc *ifcp; 2022 int again; 2023 { 2024 struct ifac *ifa; 2025 struct riprt *rrt = NULL, *search_rrt, *prev_rrt, *loop_rrt; 2026 struct netinfo6 *np; 2027 time_t t_lifetime; 2028 int need_trigger = 0; 2029 2030 if (ifcp->ifc_flags & IFF_LOOPBACK) 2031 return 0; /* ignore loopback */ 2032 if (ifcp->ifc_flags & IFF_POINTOPOINT) { 2033 ifrt_p2p(ifcp, again); 2034 return 0; 2035 } 2036 2037 for (ifa = ifcp->ifc_addr; ifa; ifa = ifa->ifa_next) { 2038 if (IN6_IS_ADDR_LINKLOCAL(&ifa->ifa_addr)) { 2039 #if 0 2040 trace(1, "route: %s on %s: " 2041 "skip linklocal interface address\n", 2042 inet6_n2p(&ifa->ifa_addr), ifcp->ifc_name); 2043 #endif 2044 continue; 2045 } 2046 if (IN6_IS_ADDR_UNSPECIFIED(&ifa->ifa_addr)) { 2047 #if 0 2048 trace(1, "route: %s: skip unspec interface address\n", 2049 ifcp->ifc_name); 2050 #endif 2051 continue; 2052 } 2053 if (ifcp->ifc_flags & IFF_UP) { 2054 if ((rrt = MALLOC(struct riprt)) == NULL) 2055 fatal("malloc: struct riprt"); 2056 memset(rrt, 0, sizeof(*rrt)); 2057 rrt->rrt_same = NULL; 2058 rrt->rrt_index = ifcp->ifc_index; 2059 rrt->rrt_t = 0; /* don't age */ 2060 rrt->rrt_info.rip6_dest = ifa->ifa_addr; 2061 rrt->rrt_info.rip6_tag = htons(routetag & 0xffff); 2062 rrt->rrt_info.rip6_metric = 1 + ifcp->ifc_metric; 2063 rrt->rrt_info.rip6_plen = ifa->ifa_plen; 2064 rrt->rrt_flags = RTF_CLONING; 2065 rrt->rrt_rflags |= RRTF_CHANGED; 2066 applyplen(&rrt->rrt_info.rip6_dest, ifa->ifa_plen); 2067 memset(&rrt->rrt_gw, 0, sizeof(struct in6_addr)); 2068 rrt->rrt_gw = ifa->ifa_addr; 2069 np = &rrt->rrt_info; 2070 search_rrt = rtsearch(np, &prev_rrt); 2071 if (search_rrt != NULL) { 2072 if (search_rrt->rrt_info.rip6_metric <= 2073 rrt->rrt_info.rip6_metric) { 2074 /* Already have better route */ 2075 if (!again) { 2076 trace(1, "route: %s/%d: " 2077 "already registered (%s)\n", 2078 inet6_n2p(&np->rip6_dest), np->rip6_plen, 2079 ifcp->ifc_name); 2080 } 2081 goto next; 2082 } 2083 2084 if (prev_rrt) 2085 prev_rrt->rrt_next = rrt->rrt_next; 2086 else 2087 riprt = rrt->rrt_next; 2088 delroute(&rrt->rrt_info, &rrt->rrt_gw); 2089 } 2090 /* Attach the route to the list */ 2091 trace(1, "route: %s/%d: register route (%s)\n", 2092 inet6_n2p(&np->rip6_dest), np->rip6_plen, 2093 ifcp->ifc_name); 2094 rrt->rrt_next = riprt; 2095 riprt = rrt; 2096 addroute(rrt, &rrt->rrt_gw, ifcp); 2097 rrt = NULL; 2098 sendrequest(ifcp); 2099 ripsend(ifcp, &ifcp->ifc_ripsin, 0); 2100 need_trigger = 1; 2101 } else { 2102 for (loop_rrt = riprt; loop_rrt; loop_rrt = loop_rrt->rrt_next) { 2103 if (loop_rrt->rrt_index == ifcp->ifc_index) { 2104 t_lifetime = time(NULL) - RIP_LIFETIME; 2105 if (loop_rrt->rrt_t == 0 || loop_rrt->rrt_t > t_lifetime) { 2106 loop_rrt->rrt_t = t_lifetime; 2107 loop_rrt->rrt_info.rip6_metric = HOPCNT_INFINITY6; 2108 loop_rrt->rrt_rflags |= RRTF_CHANGED; 2109 need_trigger = 1; 2110 } 2111 } 2112 } 2113 } 2114 next: 2115 if (rrt) 2116 free(rrt); 2117 } 2118 return need_trigger; 2119 } 2120 2121 /* 2122 * there are couple of p2p interface routing models. "behavior" lets 2123 * you pick one. it looks that gated behavior fits best with BSDs, 2124 * since BSD kernels do not look at prefix length on p2p interfaces. 2125 */ 2126 void 2127 ifrt_p2p(ifcp, again) 2128 struct ifc *ifcp; 2129 int again; 2130 { 2131 struct ifac *ifa; 2132 struct riprt *rrt, *orrt, *prevrrt; 2133 struct netinfo6 *np; 2134 struct in6_addr addr, dest; 2135 int advert, ignore, i; 2136 #define P2PADVERT_NETWORK 1 2137 #define P2PADVERT_ADDR 2 2138 #define P2PADVERT_DEST 4 2139 #define P2PADVERT_MAX 4 2140 const enum { CISCO, GATED, ROUTE6D } behavior = GATED; 2141 const char *category = ""; 2142 const char *noadv; 2143 2144 for (ifa = ifcp->ifc_addr; ifa; ifa = ifa->ifa_next) { 2145 addr = ifa->ifa_addr; 2146 dest = ifa->ifa_raddr; 2147 applyplen(&addr, ifa->ifa_plen); 2148 applyplen(&dest, ifa->ifa_plen); 2149 advert = ignore = 0; 2150 switch (behavior) { 2151 case CISCO: 2152 /* 2153 * honor addr/plen, just like normal shared medium 2154 * interface. this may cause trouble if you reuse 2155 * addr/plen on other interfaces. 2156 * 2157 * advertise addr/plen. 2158 */ 2159 advert |= P2PADVERT_NETWORK; 2160 break; 2161 case GATED: 2162 /* 2163 * prefixlen on p2p interface is meaningless. 2164 * advertise addr/128 and dest/128. 2165 * 2166 * do not install network route to route6d routing 2167 * table (if we do, it would prevent route installation 2168 * for other p2p interface that shares addr/plen). 2169 * 2170 * XXX what should we do if dest is ::? it will not 2171 * get announced anyways (see following filter), 2172 * but we need to think. 2173 */ 2174 advert |= P2PADVERT_ADDR; 2175 advert |= P2PADVERT_DEST; 2176 ignore |= P2PADVERT_NETWORK; 2177 break; 2178 case ROUTE6D: 2179 /* 2180 * just for testing. actually the code is redundant 2181 * given the current p2p interface address assignment 2182 * rule for kame kernel. 2183 * 2184 * intent: 2185 * A/n -> announce A/n 2186 * A B/n, A and B share prefix -> A/n (= B/n) 2187 * A B/n, do not share prefix -> A/128 and B/128 2188 * actually, A/64 and A B/128 are the only cases 2189 * permitted by the kernel: 2190 * A/64 -> A/64 2191 * A B/128 -> A/128 and B/128 2192 */ 2193 if (!IN6_IS_ADDR_UNSPECIFIED(&ifa->ifa_raddr)) { 2194 if (IN6_ARE_ADDR_EQUAL(&addr, &dest)) 2195 advert |= P2PADVERT_NETWORK; 2196 else { 2197 advert |= P2PADVERT_ADDR; 2198 advert |= P2PADVERT_DEST; 2199 ignore |= P2PADVERT_NETWORK; 2200 } 2201 } else 2202 advert |= P2PADVERT_NETWORK; 2203 break; 2204 } 2205 2206 for (i = 1; i <= P2PADVERT_MAX; i *= 2) { 2207 if ((ignore & i) != 0) 2208 continue; 2209 if ((rrt = MALLOC(struct riprt)) == NULL) { 2210 fatal("malloc: struct riprt"); 2211 /*NOTREACHED*/ 2212 } 2213 memset(rrt, 0, sizeof(*rrt)); 2214 rrt->rrt_same = NULL; 2215 rrt->rrt_index = ifcp->ifc_index; 2216 rrt->rrt_t = 0; /* don't age */ 2217 switch (i) { 2218 case P2PADVERT_NETWORK: 2219 rrt->rrt_info.rip6_dest = ifa->ifa_addr; 2220 rrt->rrt_info.rip6_plen = ifa->ifa_plen; 2221 applyplen(&rrt->rrt_info.rip6_dest, 2222 ifa->ifa_plen); 2223 category = "network"; 2224 break; 2225 case P2PADVERT_ADDR: 2226 rrt->rrt_info.rip6_dest = ifa->ifa_addr; 2227 rrt->rrt_info.rip6_plen = 128; 2228 rrt->rrt_gw = in6addr_loopback; 2229 category = "addr"; 2230 break; 2231 case P2PADVERT_DEST: 2232 rrt->rrt_info.rip6_dest = ifa->ifa_raddr; 2233 rrt->rrt_info.rip6_plen = 128; 2234 rrt->rrt_gw = ifa->ifa_addr; 2235 category = "dest"; 2236 break; 2237 } 2238 if (IN6_IS_ADDR_UNSPECIFIED(&rrt->rrt_info.rip6_dest) || 2239 IN6_IS_ADDR_LINKLOCAL(&rrt->rrt_info.rip6_dest)) { 2240 #if 0 2241 trace(1, "route: %s: skip unspec/linklocal " 2242 "(%s on %s)\n", category, ifcp->ifc_name); 2243 #endif 2244 free(rrt); 2245 continue; 2246 } 2247 if ((advert & i) == 0) { 2248 rrt->rrt_rflags |= RRTF_NOADVERTISE; 2249 noadv = ", NO-ADV"; 2250 } else 2251 noadv = ""; 2252 rrt->rrt_info.rip6_tag = htons(routetag & 0xffff); 2253 rrt->rrt_info.rip6_metric = 1 + ifcp->ifc_metric; 2254 np = &rrt->rrt_info; 2255 orrt = rtsearch(np, &prevrrt); 2256 if (!orrt) { 2257 /* Attach the route to the list */ 2258 trace(1, "route: %s/%d: register route " 2259 "(%s on %s%s)\n", 2260 inet6_n2p(&np->rip6_dest), np->rip6_plen, 2261 category, ifcp->ifc_name, noadv); 2262 rrt->rrt_next = riprt; 2263 riprt = rrt; 2264 } else if (rrt->rrt_index != orrt->rrt_index || 2265 rrt->rrt_info.rip6_metric != orrt->rrt_info.rip6_metric) { 2266 /* swap route */ 2267 rrt->rrt_next = orrt->rrt_next; 2268 if (prevrrt) 2269 prevrrt->rrt_next = rrt; 2270 else 2271 riprt = rrt; 2272 free(orrt); 2273 2274 trace(1, "route: %s/%d: update (%s on %s%s)\n", 2275 inet6_n2p(&np->rip6_dest), np->rip6_plen, 2276 category, ifcp->ifc_name, noadv); 2277 } else { 2278 /* Already found */ 2279 if (!again) { 2280 trace(1, "route: %s/%d: " 2281 "already registered (%s on %s%s)\n", 2282 inet6_n2p(&np->rip6_dest), 2283 np->rip6_plen, category, 2284 ifcp->ifc_name, noadv); 2285 } 2286 free(rrt); 2287 } 2288 } 2289 } 2290 #undef P2PADVERT_NETWORK 2291 #undef P2PADVERT_ADDR 2292 #undef P2PADVERT_DEST 2293 #undef P2PADVERT_MAX 2294 } 2295 2296 int 2297 getifmtu(ifindex) 2298 int ifindex; 2299 { 2300 int mib[6]; 2301 char *buf; 2302 size_t msize; 2303 struct if_msghdr *ifm; 2304 int mtu; 2305 2306 mib[0] = CTL_NET; 2307 mib[1] = PF_ROUTE; 2308 mib[2] = 0; 2309 mib[3] = AF_INET6; 2310 mib[4] = NET_RT_IFLIST; 2311 mib[5] = ifindex; 2312 if (sysctl(mib, 6, NULL, &msize, NULL, 0) < 0) { 2313 fatal("sysctl estimate NET_RT_IFLIST"); 2314 /*NOTREACHED*/ 2315 } 2316 if ((buf = malloc(msize)) == NULL) { 2317 fatal("malloc"); 2318 /*NOTREACHED*/ 2319 } 2320 if (sysctl(mib, 6, buf, &msize, NULL, 0) < 0) { 2321 fatal("sysctl NET_RT_IFLIST"); 2322 /*NOTREACHED*/ 2323 } 2324 ifm = (struct if_msghdr *)buf; 2325 mtu = ifm->ifm_data.ifi_mtu; 2326 #ifdef __FreeBSD__ 2327 if (ifindex != ifm->ifm_index) { 2328 fatal("ifindex does not match with ifm_index"); 2329 /*NOTREACHED*/ 2330 } 2331 #endif 2332 free(buf); 2333 return mtu; 2334 } 2335 2336 const char * 2337 rttypes(rtm) 2338 struct rt_msghdr *rtm; 2339 { 2340 #define RTTYPE(s, f) \ 2341 do { \ 2342 if (rtm->rtm_type == (f)) \ 2343 return (s); \ 2344 } while (0) 2345 RTTYPE("ADD", RTM_ADD); 2346 RTTYPE("DELETE", RTM_DELETE); 2347 RTTYPE("CHANGE", RTM_CHANGE); 2348 RTTYPE("GET", RTM_GET); 2349 RTTYPE("LOSING", RTM_LOSING); 2350 RTTYPE("REDIRECT", RTM_REDIRECT); 2351 RTTYPE("MISS", RTM_MISS); 2352 RTTYPE("LOCK", RTM_LOCK); 2353 RTTYPE("OLDADD", RTM_OLDADD); 2354 RTTYPE("OLDDEL", RTM_OLDDEL); 2355 RTTYPE("RESOLVE", RTM_RESOLVE); 2356 RTTYPE("NEWADDR", RTM_NEWADDR); 2357 RTTYPE("DELADDR", RTM_DELADDR); 2358 RTTYPE("IFINFO", RTM_IFINFO); 2359 #ifdef RTM_OLDADD 2360 RTTYPE("OLDADD", RTM_OLDADD); 2361 #endif 2362 #ifdef RTM_OLDDEL 2363 RTTYPE("OLDDEL", RTM_OLDDEL); 2364 #endif 2365 #ifdef RTM_OIFINFO 2366 RTTYPE("OIFINFO", RTM_OIFINFO); 2367 #endif 2368 #ifdef RTM_IFANNOUNCE 2369 RTTYPE("IFANNOUNCE", RTM_IFANNOUNCE); 2370 #endif 2371 #ifdef RTM_NEWMADDR 2372 RTTYPE("NEWMADDR", RTM_NEWMADDR); 2373 #endif 2374 #ifdef RTM_DELMADDR 2375 RTTYPE("DELMADDR", RTM_DELMADDR); 2376 #endif 2377 #undef RTTYPE 2378 return NULL; 2379 } 2380 2381 const char * 2382 rtflags(rtm) 2383 struct rt_msghdr *rtm; 2384 { 2385 static char buf[BUFSIZ]; 2386 2387 /* 2388 * letter conflict should be okay. painful when *BSD diverges... 2389 */ 2390 strlcpy(buf, "", sizeof(buf)); 2391 #define RTFLAG(s, f) \ 2392 do { \ 2393 if (rtm->rtm_flags & (f)) \ 2394 strlcat(buf, (s), sizeof(buf)); \ 2395 } while (0) 2396 RTFLAG("U", RTF_UP); 2397 RTFLAG("G", RTF_GATEWAY); 2398 RTFLAG("H", RTF_HOST); 2399 RTFLAG("R", RTF_REJECT); 2400 RTFLAG("D", RTF_DYNAMIC); 2401 RTFLAG("M", RTF_MODIFIED); 2402 RTFLAG("d", RTF_DONE); 2403 #ifdef RTF_MASK 2404 RTFLAG("m", RTF_MASK); 2405 #endif 2406 RTFLAG("C", RTF_CLONING); 2407 #ifdef RTF_CLONED 2408 RTFLAG("c", RTF_CLONED); 2409 #endif 2410 #ifdef RTF_PRCLONING 2411 RTFLAG("c", RTF_PRCLONING); 2412 #endif 2413 #ifdef RTF_WASCLONED 2414 RTFLAG("W", RTF_WASCLONED); 2415 #endif 2416 RTFLAG("X", RTF_XRESOLVE); 2417 RTFLAG("L", RTF_LLINFO); 2418 RTFLAG("S", RTF_STATIC); 2419 RTFLAG("B", RTF_BLACKHOLE); 2420 #ifdef RTF_PROTO3 2421 RTFLAG("3", RTF_PROTO3); 2422 #endif 2423 RTFLAG("2", RTF_PROTO2); 2424 RTFLAG("1", RTF_PROTO1); 2425 #ifdef RTF_BROADCAST 2426 RTFLAG("b", RTF_BROADCAST); 2427 #endif 2428 #ifdef RTF_DEFAULT 2429 RTFLAG("d", RTF_DEFAULT); 2430 #endif 2431 #ifdef RTF_ISAROUTER 2432 RTFLAG("r", RTF_ISAROUTER); 2433 #endif 2434 #ifdef RTF_TUNNEL 2435 RTFLAG("T", RTF_TUNNEL); 2436 #endif 2437 #ifdef RTF_AUTH 2438 RTFLAG("A", RTF_AUTH); 2439 #endif 2440 #ifdef RTF_CRYPT 2441 RTFLAG("E", RTF_CRYPT); 2442 #endif 2443 #undef RTFLAG 2444 return buf; 2445 } 2446 2447 const char * 2448 ifflags(flags) 2449 int flags; 2450 { 2451 static char buf[BUFSIZ]; 2452 2453 strlcpy(buf, "", sizeof(buf)); 2454 #define IFFLAG(s, f) \ 2455 do { \ 2456 if (flags & (f)) { \ 2457 if (buf[0]) \ 2458 strlcat(buf, ",", sizeof(buf)); \ 2459 strlcat(buf, (s), sizeof(buf)); \ 2460 } \ 2461 } while (0) 2462 IFFLAG("UP", IFF_UP); 2463 IFFLAG("BROADCAST", IFF_BROADCAST); 2464 IFFLAG("DEBUG", IFF_DEBUG); 2465 IFFLAG("LOOPBACK", IFF_LOOPBACK); 2466 IFFLAG("POINTOPOINT", IFF_POINTOPOINT); 2467 #ifdef IFF_NOTRAILERS 2468 IFFLAG("NOTRAILERS", IFF_NOTRAILERS); 2469 #endif 2470 #ifdef IFF_SMART 2471 IFFLAG("SMART", IFF_SMART); 2472 #endif 2473 IFFLAG("RUNNING", IFF_RUNNING); 2474 IFFLAG("NOARP", IFF_NOARP); 2475 IFFLAG("PROMISC", IFF_PROMISC); 2476 IFFLAG("ALLMULTI", IFF_ALLMULTI); 2477 IFFLAG("OACTIVE", IFF_OACTIVE); 2478 IFFLAG("SIMPLEX", IFF_SIMPLEX); 2479 IFFLAG("LINK0", IFF_LINK0); 2480 IFFLAG("LINK1", IFF_LINK1); 2481 IFFLAG("LINK2", IFF_LINK2); 2482 IFFLAG("MULTICAST", IFF_MULTICAST); 2483 #undef IFFLAG 2484 return buf; 2485 } 2486 2487 void 2488 krtread(again) 2489 int again; 2490 { 2491 int mib[6]; 2492 size_t msize; 2493 char *buf, *p, *lim; 2494 struct rt_msghdr *rtm; 2495 int retry; 2496 const char *errmsg; 2497 2498 retry = 0; 2499 buf = NULL; 2500 mib[0] = CTL_NET; 2501 mib[1] = PF_ROUTE; 2502 mib[2] = 0; 2503 mib[3] = AF_INET6; /* Address family */ 2504 mib[4] = NET_RT_DUMP; /* Dump the kernel routing table */ 2505 mib[5] = 0; /* No flags */ 2506 do { 2507 retry++; 2508 errmsg = NULL; 2509 if (buf) 2510 free(buf); 2511 if (sysctl(mib, 6, NULL, &msize, NULL, 0) < 0) { 2512 errmsg = "sysctl estimate"; 2513 continue; 2514 } 2515 if ((buf = malloc(msize)) == NULL) { 2516 errmsg = "malloc"; 2517 continue; 2518 } 2519 if (sysctl(mib, 6, buf, &msize, NULL, 0) < 0) { 2520 errmsg = "sysctl NET_RT_DUMP"; 2521 continue; 2522 } 2523 } while (retry < 5 && errmsg != NULL); 2524 if (errmsg) { 2525 fatal("%s (with %d retries, msize=%lu)", errmsg, retry, 2526 (u_long)msize); 2527 /*NOTREACHED*/ 2528 } else if (1 < retry) 2529 syslog(LOG_INFO, "NET_RT_DUMP %d retires", retry); 2530 2531 lim = buf + msize; 2532 for (p = buf; p < lim; p += rtm->rtm_msglen) { 2533 rtm = (struct rt_msghdr *)p; 2534 rt_entry(rtm, again); 2535 } 2536 free(buf); 2537 } 2538 2539 void 2540 rt_entry(rtm, again) 2541 struct rt_msghdr *rtm; 2542 int again; 2543 { 2544 struct sockaddr_in6 *sin6_dst, *sin6_gw, *sin6_mask; 2545 struct sockaddr_in6 *sin6_genmask, *sin6_ifp; 2546 char *rtmp, *ifname = NULL; 2547 struct riprt *rrt, *orrt; 2548 struct netinfo6 *np; 2549 int s; 2550 2551 sin6_dst = sin6_gw = sin6_mask = sin6_genmask = sin6_ifp = 0; 2552 if ((rtm->rtm_flags & RTF_UP) == 0 || rtm->rtm_flags & 2553 (RTF_CLONING|RTF_XRESOLVE|RTF_LLINFO|RTF_BLACKHOLE)) { 2554 return; /* not interested in the link route */ 2555 } 2556 /* do not look at cloned routes */ 2557 #ifdef RTF_WASCLONED 2558 if (rtm->rtm_flags & RTF_WASCLONED) 2559 return; 2560 #endif 2561 #ifdef RTF_CLONED 2562 if (rtm->rtm_flags & RTF_CLONED) 2563 return; 2564 #endif 2565 /* 2566 * do not look at dynamic routes. 2567 * netbsd/openbsd cloned routes have UGHD. 2568 */ 2569 if (rtm->rtm_flags & RTF_DYNAMIC) 2570 return; 2571 rtmp = (char *)(rtm + 1); 2572 /* Destination */ 2573 if ((rtm->rtm_addrs & RTA_DST) == 0) 2574 return; /* ignore routes without destination address */ 2575 sin6_dst = (struct sockaddr_in6 *)rtmp; 2576 rtmp += ROUNDUP(sin6_dst->sin6_len); 2577 if (rtm->rtm_addrs & RTA_GATEWAY) { 2578 sin6_gw = (struct sockaddr_in6 *)rtmp; 2579 rtmp += ROUNDUP(sin6_gw->sin6_len); 2580 } 2581 if (rtm->rtm_addrs & RTA_NETMASK) { 2582 sin6_mask = (struct sockaddr_in6 *)rtmp; 2583 rtmp += ROUNDUP(sin6_mask->sin6_len); 2584 } 2585 if (rtm->rtm_addrs & RTA_GENMASK) { 2586 sin6_genmask = (struct sockaddr_in6 *)rtmp; 2587 rtmp += ROUNDUP(sin6_genmask->sin6_len); 2588 } 2589 if (rtm->rtm_addrs & RTA_IFP) { 2590 sin6_ifp = (struct sockaddr_in6 *)rtmp; 2591 rtmp += ROUNDUP(sin6_ifp->sin6_len); 2592 } 2593 2594 /* Destination */ 2595 if (sin6_dst->sin6_family != AF_INET6) 2596 return; 2597 if (IN6_IS_ADDR_LINKLOCAL(&sin6_dst->sin6_addr)) 2598 return; /* Link-local */ 2599 if (IN6_ARE_ADDR_EQUAL(&sin6_dst->sin6_addr, &in6addr_loopback)) 2600 return; /* Loopback */ 2601 if (IN6_IS_ADDR_MULTICAST(&sin6_dst->sin6_addr)) 2602 return; 2603 2604 if ((rrt = MALLOC(struct riprt)) == NULL) { 2605 fatal("malloc: struct riprt"); 2606 /*NOTREACHED*/ 2607 } 2608 memset(rrt, 0, sizeof(*rrt)); 2609 np = &rrt->rrt_info; 2610 rrt->rrt_same = NULL; 2611 rrt->rrt_t = time(NULL); 2612 if (aflag == 0 && (rtm->rtm_flags & RTF_STATIC)) 2613 rrt->rrt_t = 0; /* Don't age static routes */ 2614 np->rip6_tag = 0; 2615 np->rip6_metric = rtm->rtm_rmx.rmx_hopcount; 2616 if (np->rip6_metric < 1) 2617 np->rip6_metric = 1; 2618 rrt->rrt_flags = rtm->rtm_flags; 2619 np->rip6_dest = sin6_dst->sin6_addr; 2620 2621 /* Mask or plen */ 2622 if (rtm->rtm_flags & RTF_HOST) 2623 np->rip6_plen = 128; /* Host route */ 2624 else if (sin6_mask) 2625 np->rip6_plen = sin6mask2len(sin6_mask); 2626 else 2627 np->rip6_plen = 0; 2628 2629 orrt = rtsearch(np, NULL); 2630 if (orrt && orrt->rrt_info.rip6_metric != HOPCNT_INFINITY6) { 2631 /* Already found */ 2632 if (!again) { 2633 trace(1, "route: %s/%d flags %s: already registered\n", 2634 inet6_n2p(&np->rip6_dest), np->rip6_plen, 2635 rtflags(rtm)); 2636 } 2637 free(rrt); 2638 return; 2639 } 2640 /* Gateway */ 2641 if (!sin6_gw) 2642 memset(&rrt->rrt_gw, 0, sizeof(struct in6_addr)); 2643 else { 2644 if (sin6_gw->sin6_family == AF_INET6) 2645 rrt->rrt_gw = sin6_gw->sin6_addr; 2646 else if (sin6_gw->sin6_family == AF_LINK) { 2647 /* XXX in case ppp link? */ 2648 rrt->rrt_gw = in6addr_loopback; 2649 } else 2650 memset(&rrt->rrt_gw, 0, sizeof(struct in6_addr)); 2651 } 2652 trace(1, "route: %s/%d flags %s", 2653 inet6_n2p(&np->rip6_dest), np->rip6_plen, rtflags(rtm)); 2654 trace(1, " gw %s", inet6_n2p(&rrt->rrt_gw)); 2655 2656 /* Interface */ 2657 s = rtm->rtm_index; 2658 if (s < nindex2ifc && index2ifc[s]) 2659 ifname = index2ifc[s]->ifc_name; 2660 else { 2661 trace(1, " not configured\n"); 2662 free(rrt); 2663 return; 2664 } 2665 trace(1, " if %s sock %d", ifname, s); 2666 rrt->rrt_index = s; 2667 2668 trace(1, "\n"); 2669 2670 /* Check gateway */ 2671 if (!IN6_IS_ADDR_LINKLOCAL(&rrt->rrt_gw) && 2672 !IN6_IS_ADDR_LOOPBACK(&rrt->rrt_gw) 2673 #ifdef __FreeBSD__ 2674 && (rrt->rrt_flags & RTF_LOCAL) == 0 2675 #endif 2676 ) { 2677 trace(0, "***** Gateway %s is not a link-local address.\n", 2678 inet6_n2p(&rrt->rrt_gw)); 2679 trace(0, "***** dest(%s) if(%s) -- Not optimized.\n", 2680 inet6_n2p(&rrt->rrt_info.rip6_dest), ifname); 2681 rrt->rrt_rflags |= RRTF_NH_NOT_LLADDR; 2682 } 2683 2684 /* Put it to the route list */ 2685 if (orrt && orrt->rrt_info.rip6_metric == HOPCNT_INFINITY6) { 2686 /* replace route list */ 2687 rrt->rrt_next = orrt->rrt_next; 2688 *orrt = *rrt; 2689 trace(1, "route: %s/%d flags %s: replace new route\n", 2690 inet6_n2p(&np->rip6_dest), np->rip6_plen, 2691 rtflags(rtm)); 2692 free(rrt); 2693 } else { 2694 rrt->rrt_next = riprt; 2695 riprt = rrt; 2696 } 2697 } 2698 2699 int 2700 addroute(rrt, gw, ifcp) 2701 struct riprt *rrt; 2702 const struct in6_addr *gw; 2703 struct ifc *ifcp; 2704 { 2705 struct netinfo6 *np; 2706 u_char buf[BUFSIZ], buf1[BUFSIZ], buf2[BUFSIZ]; 2707 struct rt_msghdr *rtm; 2708 struct sockaddr_in6 *sin6; 2709 int len; 2710 2711 np = &rrt->rrt_info; 2712 inet_ntop(AF_INET6, (const void *)gw, (char *)buf1, sizeof(buf1)); 2713 inet_ntop(AF_INET6, (void *)&ifcp->ifc_mylladdr, (char *)buf2, sizeof(buf2)); 2714 tracet(1, "ADD: %s/%d gw %s [%d] ifa %s\n", 2715 inet6_n2p(&np->rip6_dest), np->rip6_plen, buf1, 2716 np->rip6_metric - 1, buf2); 2717 if (rtlog) 2718 fprintf(rtlog, "%s: ADD: %s/%d gw %s [%d] ifa %s\n", hms(), 2719 inet6_n2p(&np->rip6_dest), np->rip6_plen, buf1, 2720 np->rip6_metric - 1, buf2); 2721 if (nflag) 2722 return 0; 2723 2724 memset(buf, 0, sizeof(buf)); 2725 rtm = (struct rt_msghdr *)buf; 2726 rtm->rtm_type = RTM_ADD; 2727 rtm->rtm_version = RTM_VERSION; 2728 rtm->rtm_seq = ++seq; 2729 rtm->rtm_pid = pid; 2730 rtm->rtm_flags = rrt->rrt_flags; 2731 rtm->rtm_addrs = RTA_DST | RTA_GATEWAY | RTA_NETMASK; 2732 rtm->rtm_rmx.rmx_hopcount = np->rip6_metric - 1; 2733 rtm->rtm_inits = RTV_HOPCOUNT; 2734 sin6 = (struct sockaddr_in6 *)&buf[sizeof(struct rt_msghdr)]; 2735 /* Destination */ 2736 sin6->sin6_len = sizeof(struct sockaddr_in6); 2737 sin6->sin6_family = AF_INET6; 2738 sin6->sin6_addr = np->rip6_dest; 2739 sin6 = (struct sockaddr_in6 *)((char *)sin6 + ROUNDUP(sin6->sin6_len)); 2740 /* Gateway */ 2741 sin6->sin6_len = sizeof(struct sockaddr_in6); 2742 sin6->sin6_family = AF_INET6; 2743 sin6->sin6_addr = *gw; 2744 sin6 = (struct sockaddr_in6 *)((char *)sin6 + ROUNDUP(sin6->sin6_len)); 2745 /* Netmask */ 2746 sin6->sin6_len = sizeof(struct sockaddr_in6); 2747 sin6->sin6_family = AF_INET6; 2748 sin6->sin6_addr = *(plen2mask(np->rip6_plen)); 2749 sin6 = (struct sockaddr_in6 *)((char *)sin6 + ROUNDUP(sin6->sin6_len)); 2750 2751 len = (char *)sin6 - (char *)buf; 2752 rtm->rtm_msglen = len; 2753 if (write(rtsock, buf, len) > 0) 2754 return 0; 2755 2756 if (errno == EEXIST) { 2757 trace(0, "ADD: Route already exists %s/%d gw %s\n", 2758 inet6_n2p(&np->rip6_dest), np->rip6_plen, buf1); 2759 if (rtlog) 2760 fprintf(rtlog, "ADD: Route already exists %s/%d gw %s\n", 2761 inet6_n2p(&np->rip6_dest), np->rip6_plen, buf1); 2762 } else { 2763 trace(0, "Can not write to rtsock (addroute): %s\n", 2764 strerror(errno)); 2765 if (rtlog) 2766 fprintf(rtlog, "\tCan not write to rtsock: %s\n", 2767 strerror(errno)); 2768 } 2769 return -1; 2770 } 2771 2772 int 2773 delroute(np, gw) 2774 struct netinfo6 *np; 2775 struct in6_addr *gw; 2776 { 2777 u_char buf[BUFSIZ], buf2[BUFSIZ]; 2778 struct rt_msghdr *rtm; 2779 struct sockaddr_in6 *sin6; 2780 int len; 2781 2782 inet_ntop(AF_INET6, (void *)gw, (char *)buf2, sizeof(buf2)); 2783 tracet(1, "DEL: %s/%d gw %s\n", inet6_n2p(&np->rip6_dest), 2784 np->rip6_plen, buf2); 2785 if (rtlog) 2786 fprintf(rtlog, "%s: DEL: %s/%d gw %s\n", 2787 hms(), inet6_n2p(&np->rip6_dest), np->rip6_plen, buf2); 2788 if (nflag) 2789 return 0; 2790 2791 memset(buf, 0, sizeof(buf)); 2792 rtm = (struct rt_msghdr *)buf; 2793 rtm->rtm_type = RTM_DELETE; 2794 rtm->rtm_version = RTM_VERSION; 2795 rtm->rtm_seq = ++seq; 2796 rtm->rtm_pid = pid; 2797 rtm->rtm_flags = RTF_UP | RTF_GATEWAY; 2798 if (np->rip6_plen == sizeof(struct in6_addr) * 8) 2799 rtm->rtm_flags |= RTF_HOST; 2800 rtm->rtm_addrs = RTA_DST | RTA_GATEWAY | RTA_NETMASK; 2801 sin6 = (struct sockaddr_in6 *)&buf[sizeof(struct rt_msghdr)]; 2802 /* Destination */ 2803 sin6->sin6_len = sizeof(struct sockaddr_in6); 2804 sin6->sin6_family = AF_INET6; 2805 sin6->sin6_addr = np->rip6_dest; 2806 sin6 = (struct sockaddr_in6 *)((char *)sin6 + ROUNDUP(sin6->sin6_len)); 2807 /* Gateway */ 2808 sin6->sin6_len = sizeof(struct sockaddr_in6); 2809 sin6->sin6_family = AF_INET6; 2810 sin6->sin6_addr = *gw; 2811 sin6 = (struct sockaddr_in6 *)((char *)sin6 + ROUNDUP(sin6->sin6_len)); 2812 /* Netmask */ 2813 sin6->sin6_len = sizeof(struct sockaddr_in6); 2814 sin6->sin6_family = AF_INET6; 2815 sin6->sin6_addr = *(plen2mask(np->rip6_plen)); 2816 sin6 = (struct sockaddr_in6 *)((char *)sin6 + ROUNDUP(sin6->sin6_len)); 2817 2818 len = (char *)sin6 - (char *)buf; 2819 rtm->rtm_msglen = len; 2820 if (write(rtsock, buf, len) >= 0) 2821 return 0; 2822 2823 if (errno == ESRCH) { 2824 trace(0, "RTDEL: Route does not exist: %s/%d gw %s\n", 2825 inet6_n2p(&np->rip6_dest), np->rip6_plen, buf2); 2826 if (rtlog) 2827 fprintf(rtlog, "RTDEL: Route does not exist: %s/%d gw %s\n", 2828 inet6_n2p(&np->rip6_dest), np->rip6_plen, buf2); 2829 } else { 2830 trace(0, "Can not write to rtsock (delroute): %s\n", 2831 strerror(errno)); 2832 if (rtlog) 2833 fprintf(rtlog, "\tCan not write to rtsock: %s\n", 2834 strerror(errno)); 2835 } 2836 return -1; 2837 } 2838 2839 struct in6_addr * 2840 getroute(np, gw) 2841 struct netinfo6 *np; 2842 struct in6_addr *gw; 2843 { 2844 u_char buf[BUFSIZ]; 2845 int myseq; 2846 int len; 2847 struct rt_msghdr *rtm; 2848 struct sockaddr_in6 *sin6; 2849 2850 rtm = (struct rt_msghdr *)buf; 2851 len = sizeof(struct rt_msghdr) + sizeof(struct sockaddr_in6); 2852 memset(rtm, 0, len); 2853 rtm->rtm_type = RTM_GET; 2854 rtm->rtm_version = RTM_VERSION; 2855 myseq = ++seq; 2856 rtm->rtm_seq = myseq; 2857 rtm->rtm_addrs = RTA_DST; 2858 rtm->rtm_msglen = len; 2859 sin6 = (struct sockaddr_in6 *)&buf[sizeof(struct rt_msghdr)]; 2860 sin6->sin6_len = sizeof(struct sockaddr_in6); 2861 sin6->sin6_family = AF_INET6; 2862 sin6->sin6_addr = np->rip6_dest; 2863 if (write(rtsock, buf, len) < 0) { 2864 if (errno == ESRCH) /* No such route found */ 2865 return NULL; 2866 perror("write to rtsock"); 2867 exit(1); 2868 } 2869 do { 2870 if ((len = read(rtsock, buf, sizeof(buf))) < 0) { 2871 perror("read from rtsock"); 2872 exit(1); 2873 } 2874 rtm = (struct rt_msghdr *)buf; 2875 } while (rtm->rtm_seq != myseq || rtm->rtm_pid != pid); 2876 sin6 = (struct sockaddr_in6 *)&buf[sizeof(struct rt_msghdr)]; 2877 if (rtm->rtm_addrs & RTA_DST) { 2878 sin6 = (struct sockaddr_in6 *) 2879 ((char *)sin6 + ROUNDUP(sin6->sin6_len)); 2880 } 2881 if (rtm->rtm_addrs & RTA_GATEWAY) { 2882 *gw = sin6->sin6_addr; 2883 return gw; 2884 } 2885 return NULL; 2886 } 2887 2888 const char * 2889 inet6_n2p(p) 2890 const struct in6_addr *p; 2891 { 2892 static char buf[BUFSIZ]; 2893 2894 return inet_ntop(AF_INET6, (const void *)p, buf, sizeof(buf)); 2895 } 2896 2897 void 2898 ifrtdump(sig) 2899 int sig; 2900 { 2901 2902 ifdump(sig); 2903 rtdump(sig); 2904 } 2905 2906 void 2907 ifdump(sig) 2908 int sig; 2909 { 2910 struct ifc *ifcp; 2911 FILE *dump; 2912 int i; 2913 2914 if (sig == 0) 2915 dump = stderr; 2916 else 2917 if ((dump = fopen(ROUTE6D_DUMP, "a")) == NULL) 2918 dump = stderr; 2919 2920 fprintf(dump, "%s: Interface Table Dump\n", hms()); 2921 fprintf(dump, " Number of interfaces: %d\n", nifc); 2922 for (i = 0; i < 2; i++) { 2923 fprintf(dump, " %sadvertising interfaces:\n", i ? "non-" : ""); 2924 for (ifcp = ifc; ifcp; ifcp = ifcp->ifc_next) { 2925 if (i == 0) { 2926 if ((ifcp->ifc_flags & IFF_UP) == 0) 2927 continue; 2928 if (iff_find(ifcp, 'N') != NULL) 2929 continue; 2930 } else { 2931 if (ifcp->ifc_flags & IFF_UP) 2932 continue; 2933 } 2934 ifdump0(dump, ifcp); 2935 } 2936 } 2937 fprintf(dump, "\n"); 2938 if (dump != stderr) 2939 fclose(dump); 2940 } 2941 2942 void 2943 ifdump0(dump, ifcp) 2944 FILE *dump; 2945 const struct ifc *ifcp; 2946 { 2947 struct ifac *ifa; 2948 struct iff *iffp; 2949 char buf[BUFSIZ]; 2950 const char *ft; 2951 int addr; 2952 2953 fprintf(dump, " %s: index(%d) flags(%s) addr(%s) mtu(%d) metric(%d)\n", 2954 ifcp->ifc_name, ifcp->ifc_index, ifflags(ifcp->ifc_flags), 2955 inet6_n2p(&ifcp->ifc_mylladdr), 2956 ifcp->ifc_mtu, ifcp->ifc_metric); 2957 for (ifa = ifcp->ifc_addr; ifa; ifa = ifa->ifa_next) { 2958 if (ifcp->ifc_flags & IFF_POINTOPOINT) { 2959 inet_ntop(AF_INET6, (void *)&ifa->ifa_raddr, 2960 buf, sizeof(buf)); 2961 fprintf(dump, "\t%s/%d -- %s\n", 2962 inet6_n2p(&ifa->ifa_addr), 2963 ifa->ifa_plen, buf); 2964 } else { 2965 fprintf(dump, "\t%s/%d\n", 2966 inet6_n2p(&ifa->ifa_addr), 2967 ifa->ifa_plen); 2968 } 2969 } 2970 if (ifcp->ifc_filter) { 2971 fprintf(dump, "\tFilter:"); 2972 for (iffp = ifcp->ifc_filter; iffp; iffp = iffp->iff_next) { 2973 addr = 0; 2974 switch (iffp->iff_type) { 2975 case 'A': 2976 ft = "Aggregate"; addr++; break; 2977 case 'N': 2978 ft = "No-use"; break; 2979 case 'O': 2980 ft = "Advertise-only"; addr++; break; 2981 case 'T': 2982 ft = "Default-only"; break; 2983 case 'L': 2984 ft = "Listen-only"; addr++; break; 2985 default: 2986 snprintf(buf, sizeof(buf), "Unknown-%c", iffp->iff_type); 2987 ft = buf; 2988 addr++; 2989 break; 2990 } 2991 fprintf(dump, " %s", ft); 2992 if (addr) { 2993 fprintf(dump, "(%s/%d)", inet6_n2p(&iffp->iff_addr), 2994 iffp->iff_plen); 2995 } 2996 } 2997 fprintf(dump, "\n"); 2998 } 2999 } 3000 3001 void 3002 rtdump(sig) 3003 int sig; 3004 { 3005 struct riprt *rrt; 3006 char buf[BUFSIZ]; 3007 FILE *dump; 3008 time_t t, age; 3009 3010 if (sig == 0) 3011 dump = stderr; 3012 else 3013 if ((dump = fopen(ROUTE6D_DUMP, "a")) == NULL) 3014 dump = stderr; 3015 3016 t = time(NULL); 3017 fprintf(dump, "\n%s: Routing Table Dump\n", hms()); 3018 for (rrt = riprt; rrt; rrt = rrt->rrt_next) { 3019 if (rrt->rrt_t == 0) 3020 age = 0; 3021 else 3022 age = t - rrt->rrt_t; 3023 inet_ntop(AF_INET6, (void *)&rrt->rrt_info.rip6_dest, 3024 buf, sizeof(buf)); 3025 fprintf(dump, " %s/%d if(%d:%s) gw(%s) [%d] age(%ld)", 3026 buf, rrt->rrt_info.rip6_plen, rrt->rrt_index, 3027 index2ifc[rrt->rrt_index]->ifc_name, 3028 inet6_n2p(&rrt->rrt_gw), 3029 rrt->rrt_info.rip6_metric, (long)age); 3030 if (rrt->rrt_info.rip6_tag) { 3031 fprintf(dump, " tag(0x%04x)", 3032 ntohs(rrt->rrt_info.rip6_tag) & 0xffff); 3033 } 3034 if (rrt->rrt_rflags & RRTF_NH_NOT_LLADDR) 3035 fprintf(dump, " NOT-LL"); 3036 if (rrt->rrt_rflags & RRTF_NOADVERTISE) 3037 fprintf(dump, " NO-ADV"); 3038 fprintf(dump, "\n"); 3039 } 3040 fprintf(dump, "\n"); 3041 if (dump != stderr) 3042 fclose(dump); 3043 } 3044 3045 /* 3046 * Parse the -A (and -O) options and put corresponding filter object to the 3047 * specified interface structures. Each of the -A/O option has the following 3048 * syntax: -A 5f09:c400::/32,ef0,ef1 (aggregate) 3049 * -O 5f09:c400::/32,ef0,ef1 (only when match) 3050 */ 3051 void 3052 filterconfig() 3053 { 3054 int i; 3055 char *p, *ap, *iflp, *ifname, *ep; 3056 struct iff ftmp, *iff_obj; 3057 struct ifc *ifcp; 3058 struct riprt *rrt; 3059 #if 0 3060 struct in6_addr gw; 3061 #endif 3062 u_long plen; 3063 3064 for (i = 0; i < nfilter; i++) { 3065 ap = filter[i]; 3066 iflp = NULL; 3067 ifcp = NULL; 3068 if (filtertype[i] == 'N' || filtertype[i] == 'T') { 3069 iflp = ap; 3070 goto ifonly; 3071 } 3072 if ((p = strchr(ap, ',')) != NULL) { 3073 *p++ = '\0'; 3074 iflp = p; 3075 } 3076 if ((p = strchr(ap, '/')) == NULL) { 3077 fatal("no prefixlen specified for '%s'", ap); 3078 /*NOTREACHED*/ 3079 } 3080 *p++ = '\0'; 3081 if (inet_pton(AF_INET6, ap, &ftmp.iff_addr) != 1) { 3082 fatal("invalid prefix specified for '%s'", ap); 3083 /*NOTREACHED*/ 3084 } 3085 errno = 0; 3086 ep = NULL; 3087 plen = strtoul(p, &ep, 10); 3088 if (errno || !*p || *ep || plen > sizeof(ftmp.iff_addr) * 8) { 3089 fatal("invalid prefix length specified for '%s'", ap); 3090 /*NOTREACHED*/ 3091 } 3092 ftmp.iff_plen = plen; 3093 ftmp.iff_next = NULL; 3094 applyplen(&ftmp.iff_addr, ftmp.iff_plen); 3095 ifonly: 3096 ftmp.iff_type = filtertype[i]; 3097 if (iflp == NULL || *iflp == '\0') { 3098 fatal("no interface specified for '%s'", ap); 3099 /*NOTREACHED*/ 3100 } 3101 /* parse the interface listing portion */ 3102 while (iflp) { 3103 ifname = iflp; 3104 if ((iflp = strchr(iflp, ',')) != NULL) 3105 *iflp++ = '\0'; 3106 ifcp = ifc_find(ifname); 3107 if (ifcp == NULL) { 3108 fatal("no interface %s exists", ifname); 3109 /*NOTREACHED*/ 3110 } 3111 iff_obj = (struct iff *)malloc(sizeof(struct iff)); 3112 if (iff_obj == NULL) { 3113 fatal("malloc of iff_obj"); 3114 /*NOTREACHED*/ 3115 } 3116 memcpy((void *)iff_obj, (void *)&ftmp, 3117 sizeof(struct iff)); 3118 /* link it to the interface filter */ 3119 iff_obj->iff_next = ifcp->ifc_filter; 3120 ifcp->ifc_filter = iff_obj; 3121 } 3122 3123 /* 3124 * -A: aggregate configuration. 3125 */ 3126 if (filtertype[i] != 'A') 3127 continue; 3128 /* put the aggregate to the kernel routing table */ 3129 rrt = (struct riprt *)malloc(sizeof(struct riprt)); 3130 if (rrt == NULL) { 3131 fatal("malloc: rrt"); 3132 /*NOTREACHED*/ 3133 } 3134 memset(rrt, 0, sizeof(struct riprt)); 3135 rrt->rrt_info.rip6_dest = ftmp.iff_addr; 3136 rrt->rrt_info.rip6_plen = ftmp.iff_plen; 3137 rrt->rrt_info.rip6_metric = 1; 3138 rrt->rrt_info.rip6_tag = htons(routetag & 0xffff); 3139 rrt->rrt_gw = in6addr_loopback; 3140 rrt->rrt_flags = RTF_UP | RTF_REJECT; 3141 rrt->rrt_rflags = RRTF_AGGREGATE; 3142 rrt->rrt_t = 0; 3143 rrt->rrt_index = loopifcp->ifc_index; 3144 #if 0 3145 if (getroute(&rrt->rrt_info, &gw)) { 3146 #if 0 3147 /* 3148 * When the address has already been registered in the 3149 * kernel routing table, it should be removed 3150 */ 3151 delroute(&rrt->rrt_info, &gw); 3152 #else 3153 /* it is safer behavior */ 3154 errno = EINVAL; 3155 fatal("%s/%u already in routing table, " 3156 "cannot aggregate", 3157 inet6_n2p(&rrt->rrt_info.rip6_dest), 3158 rrt->rrt_info.rip6_plen); 3159 /*NOTREACHED*/ 3160 #endif 3161 } 3162 #endif 3163 /* Put the route to the list */ 3164 rrt->rrt_next = riprt; 3165 riprt = rrt; 3166 trace(1, "Aggregate: %s/%d for %s\n", 3167 inet6_n2p(&ftmp.iff_addr), ftmp.iff_plen, 3168 ifcp->ifc_name); 3169 /* Add this route to the kernel */ 3170 if (nflag) /* do not modify kernel routing table */ 3171 continue; 3172 addroute(rrt, &in6addr_loopback, loopifcp); 3173 } 3174 } 3175 3176 /***************** utility functions *****************/ 3177 3178 /* 3179 * Returns a pointer to ifac whose address and prefix length matches 3180 * with the address and prefix length specified in the arguments. 3181 */ 3182 struct ifac * 3183 ifa_match(ifcp, ia, plen) 3184 const struct ifc *ifcp; 3185 const struct in6_addr *ia; 3186 int plen; 3187 { 3188 struct ifac *ifa; 3189 3190 for (ifa = ifcp->ifc_addr; ifa; ifa = ifa->ifa_next) { 3191 if (IN6_ARE_ADDR_EQUAL(&ifa->ifa_addr, ia) && 3192 ifa->ifa_plen == plen) 3193 break; 3194 } 3195 return ifa; 3196 } 3197 3198 /* 3199 * Return a pointer to riprt structure whose address and prefix length 3200 * matches with the address and prefix length found in the argument. 3201 * Note: This is not a rtalloc(). Therefore exact match is necessary. 3202 */ 3203 struct riprt * 3204 rtsearch(np, prev_rrt) 3205 struct netinfo6 *np; 3206 struct riprt **prev_rrt; 3207 { 3208 struct riprt *rrt; 3209 3210 if (prev_rrt) 3211 *prev_rrt = NULL; 3212 for (rrt = riprt; rrt; rrt = rrt->rrt_next) { 3213 if (rrt->rrt_info.rip6_plen == np->rip6_plen && 3214 IN6_ARE_ADDR_EQUAL(&rrt->rrt_info.rip6_dest, 3215 &np->rip6_dest)) 3216 return rrt; 3217 if (prev_rrt) 3218 *prev_rrt = rrt; 3219 } 3220 if (prev_rrt) 3221 *prev_rrt = NULL; 3222 return 0; 3223 } 3224 3225 int 3226 sin6mask2len(sin6) 3227 const struct sockaddr_in6 *sin6; 3228 { 3229 3230 return mask2len(&sin6->sin6_addr, 3231 sin6->sin6_len - offsetof(struct sockaddr_in6, sin6_addr)); 3232 } 3233 3234 int 3235 mask2len(addr, lenlim) 3236 const struct in6_addr *addr; 3237 int lenlim; 3238 { 3239 int i = 0, j; 3240 const u_char *p = (const u_char *)addr; 3241 3242 for (j = 0; j < lenlim; j++, p++) { 3243 if (*p != 0xff) 3244 break; 3245 i += 8; 3246 } 3247 if (j < lenlim) { 3248 switch (*p) { 3249 #define MASKLEN(m, l) case m: do { i += l; break; } while (0) 3250 MASKLEN(0xfe, 7); break; 3251 MASKLEN(0xfc, 6); break; 3252 MASKLEN(0xf8, 5); break; 3253 MASKLEN(0xf0, 4); break; 3254 MASKLEN(0xe0, 3); break; 3255 MASKLEN(0xc0, 2); break; 3256 MASKLEN(0x80, 1); break; 3257 #undef MASKLEN 3258 } 3259 } 3260 return i; 3261 } 3262 3263 void 3264 applymask(addr, mask) 3265 struct in6_addr *addr, *mask; 3266 { 3267 int i; 3268 u_long *p, *q; 3269 3270 p = (u_long *)addr; q = (u_long *)mask; 3271 for (i = 0; i < 4; i++) 3272 *p++ &= *q++; 3273 } 3274 3275 static const u_char plent[8] = { 3276 0x00, 0x80, 0xc0, 0xe0, 0xf0, 0xf8, 0xfc, 0xfe 3277 }; 3278 3279 void 3280 applyplen(ia, plen) 3281 struct in6_addr *ia; 3282 int plen; 3283 { 3284 u_char *p; 3285 int i; 3286 3287 p = ia->s6_addr; 3288 for (i = 0; i < 16; i++) { 3289 if (plen <= 0) 3290 *p = 0; 3291 else if (plen < 8) 3292 *p &= plent[plen]; 3293 p++, plen -= 8; 3294 } 3295 } 3296 3297 static const int pl2m[9] = { 3298 0x00, 0x80, 0xc0, 0xe0, 0xf0, 0xf8, 0xfc, 0xfe, 0xff 3299 }; 3300 3301 struct in6_addr * 3302 plen2mask(n) 3303 int n; 3304 { 3305 static struct in6_addr ia; 3306 u_char *p; 3307 int i; 3308 3309 memset(&ia, 0, sizeof(struct in6_addr)); 3310 p = (u_char *)&ia; 3311 for (i = 0; i < 16; i++, p++, n -= 8) { 3312 if (n >= 8) { 3313 *p = 0xff; 3314 continue; 3315 } 3316 *p = pl2m[n]; 3317 break; 3318 } 3319 return &ia; 3320 } 3321 3322 char * 3323 allocopy(p) 3324 char *p; 3325 { 3326 int len = strlen(p) + 1; 3327 char *q = (char *)malloc(len); 3328 3329 if (!q) { 3330 fatal("malloc"); 3331 /*NOTREACHED*/ 3332 } 3333 3334 strlcpy(q, p, len); 3335 return q; 3336 } 3337 3338 char * 3339 hms() 3340 { 3341 static char buf[BUFSIZ]; 3342 time_t t; 3343 struct tm *tm; 3344 3345 t = time(NULL); 3346 if ((tm = localtime(&t)) == 0) { 3347 fatal("localtime"); 3348 /*NOTREACHED*/ 3349 } 3350 snprintf(buf, sizeof(buf), "%02d:%02d:%02d", tm->tm_hour, tm->tm_min, 3351 tm->tm_sec); 3352 return buf; 3353 } 3354 3355 #define RIPRANDDEV 1.0 /* 30 +- 15, max - min = 30 */ 3356 3357 int 3358 ripinterval(timer) 3359 int timer; 3360 { 3361 double r = rand(); 3362 3363 interval = (int)(timer + timer * RIPRANDDEV * (r / RAND_MAX - 0.5)); 3364 nextalarm = time(NULL) + interval; 3365 return interval; 3366 } 3367 3368 time_t 3369 ripsuptrig() 3370 { 3371 time_t t; 3372 3373 double r = rand(); 3374 t = (int)(RIP_TRIG_INT6_MIN + 3375 (RIP_TRIG_INT6_MAX - RIP_TRIG_INT6_MIN) * (r / RAND_MAX)); 3376 sup_trig_update = time(NULL) + t; 3377 return t; 3378 } 3379 3380 void 3381 #ifdef __STDC__ 3382 fatal(const char *fmt, ...) 3383 #else 3384 fatal(fmt, va_alist) 3385 char *fmt; 3386 va_dcl 3387 #endif 3388 { 3389 va_list ap; 3390 char buf[1024]; 3391 3392 #ifdef __STDC__ 3393 va_start(ap, fmt); 3394 #else 3395 va_start(ap); 3396 #endif 3397 vsnprintf(buf, sizeof(buf), fmt, ap); 3398 va_end(ap); 3399 perror(buf); 3400 if (errno) 3401 syslog(LOG_ERR, "%s: %s", buf, strerror(errno)); 3402 else 3403 syslog(LOG_ERR, "%s", buf); 3404 rtdexit(); 3405 } 3406 3407 void 3408 #ifdef __STDC__ 3409 tracet(int level, const char *fmt, ...) 3410 #else 3411 tracet(level, fmt, va_alist) 3412 int level; 3413 char *fmt; 3414 va_dcl 3415 #endif 3416 { 3417 va_list ap; 3418 3419 if (level <= dflag) { 3420 #ifdef __STDC__ 3421 va_start(ap, fmt); 3422 #else 3423 va_start(ap); 3424 #endif 3425 fprintf(stderr, "%s: ", hms()); 3426 vfprintf(stderr, fmt, ap); 3427 va_end(ap); 3428 } 3429 if (dflag) { 3430 #ifdef __STDC__ 3431 va_start(ap, fmt); 3432 #else 3433 va_start(ap); 3434 #endif 3435 if (level > 0) 3436 vsyslog(LOG_DEBUG, fmt, ap); 3437 else 3438 vsyslog(LOG_WARNING, fmt, ap); 3439 va_end(ap); 3440 } 3441 } 3442 3443 void 3444 #ifdef __STDC__ 3445 trace(int level, const char *fmt, ...) 3446 #else 3447 trace(level, fmt, va_alist) 3448 int level; 3449 char *fmt; 3450 va_dcl 3451 #endif 3452 { 3453 va_list ap; 3454 3455 if (level <= dflag) { 3456 #ifdef __STDC__ 3457 va_start(ap, fmt); 3458 #else 3459 va_start(ap); 3460 #endif 3461 vfprintf(stderr, fmt, ap); 3462 va_end(ap); 3463 } 3464 if (dflag) { 3465 #ifdef __STDC__ 3466 va_start(ap, fmt); 3467 #else 3468 va_start(ap); 3469 #endif 3470 if (level > 0) 3471 vsyslog(LOG_DEBUG, fmt, ap); 3472 else 3473 vsyslog(LOG_WARNING, fmt, ap); 3474 va_end(ap); 3475 } 3476 } 3477 3478 unsigned int 3479 if_maxindex() 3480 { 3481 struct if_nameindex *p, *p0; 3482 unsigned int max = 0; 3483 3484 p0 = if_nameindex(); 3485 for (p = p0; p && p->if_index && p->if_name; p++) { 3486 if (max < p->if_index) 3487 max = p->if_index; 3488 } 3489 if_freenameindex(p0); 3490 return max; 3491 } 3492 3493 struct ifc * 3494 ifc_find(name) 3495 char *name; 3496 { 3497 struct ifc *ifcp; 3498 3499 for (ifcp = ifc; ifcp; ifcp = ifcp->ifc_next) { 3500 if (strcmp(name, ifcp->ifc_name) == 0) 3501 return ifcp; 3502 } 3503 return (struct ifc *)NULL; 3504 } 3505 3506 struct iff * 3507 iff_find(ifcp, type) 3508 struct ifc *ifcp; 3509 int type; 3510 { 3511 struct iff *iffp; 3512 3513 for (iffp = ifcp->ifc_filter; iffp; iffp = iffp->iff_next) { 3514 if (iffp->iff_type == type) 3515 return iffp; 3516 } 3517 return NULL; 3518 } 3519 3520 void 3521 setindex2ifc(idx, ifcp) 3522 int idx; 3523 struct ifc *ifcp; 3524 { 3525 int n; 3526 struct ifc **p; 3527 3528 if (!index2ifc) { 3529 nindex2ifc = 5; /*initial guess*/ 3530 index2ifc = (struct ifc **) 3531 malloc(sizeof(*index2ifc) * nindex2ifc); 3532 if (index2ifc == NULL) { 3533 fatal("malloc"); 3534 /*NOTREACHED*/ 3535 } 3536 memset(index2ifc, 0, sizeof(*index2ifc) * nindex2ifc); 3537 } 3538 n = nindex2ifc; 3539 while (nindex2ifc <= idx) 3540 nindex2ifc *= 2; 3541 if (n != nindex2ifc) { 3542 p = (struct ifc **)realloc(index2ifc, 3543 sizeof(*index2ifc) * nindex2ifc); 3544 if (p == NULL) { 3545 fatal("realloc"); 3546 /*NOTREACHED*/ 3547 } 3548 memset(p + n, 0, sizeof(*index2ifc) * (nindex2ifc - n)); 3549 index2ifc = p; 3550 } 3551 index2ifc[idx] = ifcp; 3552 } 3553