1 2 /* 3 * Copyright (C) 2012 by Darren Reed. 4 * 5 * See the IPFILTER.LICENCE file for details on licencing. 6 * 7 * Copyright 2008 Sun Microsystems. 8 * 9 * $Id$ 10 */ 11 #if defined(KERNEL) || defined(_KERNEL) 12 # undef KERNEL 13 # undef _KERNEL 14 # define KERNEL 1 15 # define _KERNEL 1 16 #endif 17 #include <sys/errno.h> 18 #include <sys/types.h> 19 #include <sys/param.h> 20 #include <sys/file.h> 21 #if defined(_KERNEL) && defined(__FreeBSD__) && \ 22 !defined(KLD_MODULE) 23 #include "opt_inet6.h" 24 #endif 25 #if !defined(_KERNEL) && !defined(__KERNEL__) 26 # include <stdio.h> 27 # include <stdlib.h> 28 # include <string.h> 29 # define _KERNEL 30 # include <sys/uio.h> 31 # undef _KERNEL 32 #endif 33 #if defined(_KERNEL) && defined(__FreeBSD__) 34 # include <sys/filio.h> 35 # include <sys/fcntl.h> 36 #else 37 # include <sys/ioctl.h> 38 #endif 39 #include <sys/time.h> 40 # include <sys/protosw.h> 41 #include <sys/socket.h> 42 #if defined(_KERNEL) 43 # include <sys/systm.h> 44 # if !defined(__SVR4) 45 # include <sys/mbuf.h> 46 # endif 47 #endif 48 #if defined(__SVR4) 49 # include <sys/filio.h> 50 # include <sys/byteorder.h> 51 # ifdef _KERNEL 52 # include <sys/dditypes.h> 53 # endif 54 # include <sys/stream.h> 55 # include <sys/kmem.h> 56 #endif 57 58 #include <net/if.h> 59 #ifdef sun 60 # include <net/af.h> 61 #endif 62 #include <netinet/in.h> 63 #include <netinet/in_systm.h> 64 #include <netinet/ip.h> 65 #include <netinet/tcp.h> 66 # include <netinet/tcp_fsm.h> 67 #include <netinet/udp.h> 68 #include <netinet/ip_icmp.h> 69 #if !defined(_KERNEL) 70 # include "ipf.h" 71 #endif 72 #include "netinet/ip_compat.h" 73 #include "netinet/ip_fil.h" 74 #include "netinet/ip_nat.h" 75 #include "netinet/ip_frag.h" 76 #include "netinet/ip_state.h" 77 #include "netinet/ip_proxy.h" 78 #include "netinet/ip_lookup.h" 79 #include "netinet/ip_dstlist.h" 80 #include "netinet/ip_sync.h" 81 #ifdef USE_INET6 82 #include <netinet/icmp6.h> 83 #endif 84 #ifdef __FreeBSD__ 85 # include <sys/malloc.h> 86 # if defined(_KERNEL) && !defined(IPFILTER_LKM) 87 # include <sys/libkern.h> 88 # include <sys/systm.h> 89 # endif 90 #endif 91 /* END OF INCLUDES */ 92 93 94 95 96 static ipftuneable_t ipf_state_tuneables[] = { 97 { { (void *)offsetof(ipf_state_softc_t, ipf_state_max) }, 98 "state_max", 1, 0x7fffffff, 99 stsizeof(ipf_state_softc_t, ipf_state_max), 100 0, NULL, NULL }, 101 { { (void *)offsetof(ipf_state_softc_t, ipf_state_size) }, 102 "state_size", 1, 0x7fffffff, 103 stsizeof(ipf_state_softc_t, ipf_state_size), 104 0, NULL, ipf_state_rehash }, 105 { { (void *)offsetof(ipf_state_softc_t, ipf_state_lock) }, 106 "state_lock", 0, 1, 107 stsizeof(ipf_state_softc_t, ipf_state_lock), 108 IPFT_RDONLY, NULL, NULL }, 109 { { (void *)offsetof(ipf_state_softc_t, ipf_state_maxbucket) }, 110 "state_maxbucket", 1, 0x7fffffff, 111 stsizeof(ipf_state_softc_t, ipf_state_maxbucket), 112 0, NULL, NULL }, 113 { { (void *)offsetof(ipf_state_softc_t, ipf_state_logging) }, 114 "state_logging",0, 1, 115 stsizeof(ipf_state_softc_t, ipf_state_logging), 116 0, NULL, NULL }, 117 { { (void *)offsetof(ipf_state_softc_t, ipf_state_wm_high) }, 118 "state_wm_high",2, 100, 119 stsizeof(ipf_state_softc_t, ipf_state_wm_high), 120 0, NULL, NULL }, 121 { { (void *)offsetof(ipf_state_softc_t, ipf_state_wm_low) }, 122 "state_wm_low", 1, 99, 123 stsizeof(ipf_state_softc_t, ipf_state_wm_low), 124 0, NULL, NULL }, 125 { { (void *)offsetof(ipf_state_softc_t, ipf_state_wm_freq) }, 126 "state_wm_freq",2, 999999, 127 stsizeof(ipf_state_softc_t, ipf_state_wm_freq), 128 0, NULL, NULL }, 129 { { NULL }, 130 NULL, 0, 0, 131 0, 132 0, NULL, NULL } 133 }; 134 135 #define SINCL(x) ATOMIC_INCL(softs->x) 136 #define SBUMP(x) (softs->x)++ 137 #define SBUMPD(x, y) do { (softs->x.y)++; DT(y); } while (0) 138 #define SBUMPDX(x, y, z)do { (softs->x.y)++; DT(z); } while (0) 139 140 #ifdef USE_INET6 141 static ipstate_t *ipf_checkicmp6matchingstate(fr_info_t *); 142 #endif 143 static int ipf_allowstateicmp(fr_info_t *, ipstate_t *, i6addr_t *); 144 static ipstate_t *ipf_matchsrcdst(fr_info_t *, ipstate_t *, i6addr_t *, 145 i6addr_t *, tcphdr_t *, u_32_t); 146 static ipstate_t *ipf_checkicmpmatchingstate(fr_info_t *); 147 static int ipf_state_flush_entry(ipf_main_softc_t *, void *); 148 static ips_stat_t *ipf_state_stats(ipf_main_softc_t *); 149 static int ipf_state_del(ipf_main_softc_t *, ipstate_t *, int); 150 static int ipf_state_remove(ipf_main_softc_t *, caddr_t); 151 static int ipf_state_match(ipstate_t *is1, ipstate_t *is2); 152 static int ipf_state_matchaddresses(ipstate_t *is1, ipstate_t *is2); 153 static int ipf_state_matchipv4addrs(ipstate_t *is1, ipstate_t *is2); 154 static int ipf_state_matchipv6addrs(ipstate_t *is1, ipstate_t *is2); 155 static int ipf_state_matchisps(ipstate_t *is1, ipstate_t *is2); 156 static int ipf_state_matchports(udpinfo_t *is1, udpinfo_t *is2); 157 static int ipf_state_matcharray(ipstate_t *, int *, u_long); 158 static void ipf_ipsmove(ipf_state_softc_t *, ipstate_t *, u_int); 159 static int ipf_state_tcp(ipf_main_softc_t *, ipf_state_softc_t *, 160 fr_info_t *, tcphdr_t *, ipstate_t *); 161 static int ipf_tcpoptions(ipf_state_softc_t *, fr_info_t *, 162 tcphdr_t *, tcpdata_t *); 163 static ipstate_t *ipf_state_clone(fr_info_t *, tcphdr_t *, ipstate_t *); 164 static void ipf_fixinisn(fr_info_t *, ipstate_t *); 165 static void ipf_fixoutisn(fr_info_t *, ipstate_t *); 166 static void ipf_checknewisn(fr_info_t *, ipstate_t *); 167 static int ipf_state_iter(ipf_main_softc_t *, ipftoken_t *, 168 ipfgeniter_t *, ipfobj_t *); 169 static int ipf_state_gettable(ipf_main_softc_t *, ipf_state_softc_t *, 170 char *); 171 static int ipf_state_tcpinwindow(struct fr_info *, struct tcpdata *, 172 struct tcpdata *, tcphdr_t *, int); 173 174 static int ipf_state_getent(ipf_main_softc_t *, ipf_state_softc_t *, 175 caddr_t); 176 static int ipf_state_putent(ipf_main_softc_t *, ipf_state_softc_t *, 177 caddr_t); 178 179 #define ONE_DAY IPF_TTLVAL(1 * 86400) /* 1 day */ 180 #define FIVE_DAYS (5 * ONE_DAY) 181 #define DOUBLE_HASH(x) (((x) + softs->ipf_state_seed[(x) % \ 182 softs->ipf_state_size]) % softs->ipf_state_size) 183 184 185 /* ------------------------------------------------------------------------ */ 186 /* Function: ipf_state_main_load */ 187 /* Returns: int - 0 == success, -1 == failure */ 188 /* Parameters: Nil */ 189 /* */ 190 /* A null-op function that exists as a placeholder so that the flow in */ 191 /* other functions is obvious. */ 192 /* ------------------------------------------------------------------------ */ 193 int 194 ipf_state_main_load(void) 195 { 196 return (0); 197 } 198 199 200 /* ------------------------------------------------------------------------ */ 201 /* Function: ipf_state_main_unload */ 202 /* Returns: int - 0 == success, -1 == failure */ 203 /* Parameters: Nil */ 204 /* */ 205 /* A null-op function that exists as a placeholder so that the flow in */ 206 /* other functions is obvious. */ 207 /* ------------------------------------------------------------------------ */ 208 int 209 ipf_state_main_unload(void) 210 { 211 return (0); 212 } 213 214 215 /* ------------------------------------------------------------------------ */ 216 /* Function: ipf_state_soft_create */ 217 /* Returns: void * - NULL = failure, else pointer to soft context */ 218 /* Parameters: softc(I) - pointer to soft context main structure */ 219 /* */ 220 /* Create a new state soft context structure and populate it with the list */ 221 /* of tunables and other default settings. */ 222 /* ------------------------------------------------------------------------ */ 223 void * 224 ipf_state_soft_create(ipf_main_softc_t *softc) 225 { 226 ipf_state_softc_t *softs; 227 228 KMALLOC(softs, ipf_state_softc_t *); 229 if (softs == NULL) 230 return (NULL); 231 232 bzero((char *)softs, sizeof(*softs)); 233 234 softs->ipf_state_tune = ipf_tune_array_copy(softs, 235 sizeof(ipf_state_tuneables), 236 ipf_state_tuneables); 237 if (softs->ipf_state_tune == NULL) { 238 ipf_state_soft_destroy(softc, softs); 239 return (NULL); 240 } 241 if (ipf_tune_array_link(softc, softs->ipf_state_tune) == -1) { 242 ipf_state_soft_destroy(softc, softs); 243 return (NULL); 244 } 245 246 #ifdef IPFILTER_LOG 247 softs->ipf_state_logging = 1; 248 #else 249 softs->ipf_state_logging = 0; 250 #endif 251 softs->ipf_state_size = IPSTATE_SIZE, 252 softs->ipf_state_maxbucket = 0; 253 softs->ipf_state_wm_freq = IPF_TTLVAL(10); 254 softs->ipf_state_max = IPSTATE_MAX; 255 softs->ipf_state_wm_last = 0; 256 softs->ipf_state_wm_high = 99; 257 softs->ipf_state_wm_low = 90; 258 softs->ipf_state_inited = 0; 259 softs->ipf_state_lock = 0; 260 softs->ipf_state_doflush = 0; 261 262 return (softs); 263 } 264 265 266 /* ------------------------------------------------------------------------ */ 267 /* Function: ipf_state_soft_destroy */ 268 /* Returns: Nil */ 269 /* Parameters: softc(I) - pointer to soft context main structure */ 270 /* arg(I) - pointer to local context to use */ 271 /* */ 272 /* Undo only what we did in soft create: unlink and free the tunables and */ 273 /* free the soft context structure itself. */ 274 /* ------------------------------------------------------------------------ */ 275 void 276 ipf_state_soft_destroy(ipf_main_softc_t *softc, void *arg) 277 { 278 ipf_state_softc_t *softs = arg; 279 280 if (softs->ipf_state_tune != NULL) { 281 ipf_tune_array_unlink(softc, softs->ipf_state_tune); 282 KFREES(softs->ipf_state_tune, sizeof(ipf_state_tuneables)); 283 softs->ipf_state_tune = NULL; 284 } 285 286 KFREE(softs); 287 } 288 289 static void * 290 ipf_state_seed_alloc(u_int state_size, u_int state_max) 291 { 292 u_int i; 293 u_long *state_seed; 294 KMALLOCS(state_seed, u_long *, state_size * sizeof(*state_seed)); 295 if (state_seed == NULL) 296 return (NULL); 297 298 for (i = 0; i < state_size; i++) { 299 /* 300 * XXX - ipf_state_seed[X] should be a random number of sorts. 301 */ 302 #ifdef __FreeBSD__ 303 state_seed[i] = arc4random(); 304 #else 305 state_seed[i] = ((u_long)state_seed + i) * state_size; 306 state_seed[i] ^= 0xa5a55a5a; 307 state_seed[i] *= (u_long)state_seed; 308 state_seed[i] ^= 0x5a5aa5a5; 309 state_seed[i] *= state_max; 310 #endif 311 } 312 return (state_seed); 313 } 314 315 316 /* ------------------------------------------------------------------------ */ 317 /* Function: ipf_state_soft_init */ 318 /* Returns: int - 0 == success, -1 == failure */ 319 /* Parameters: softc(I) - pointer to soft context main structure */ 320 /* arg(I) - pointer to local context to use */ 321 /* */ 322 /* Initialise the state soft context structure so it is ready for use. */ 323 /* This involves: */ 324 /* - allocating a hash table and zero'ing it out */ 325 /* - building a secondary table of seeds for double hashing to make it more */ 326 /* difficult to attempt to attack the hash table itself (for DoS) */ 327 /* - initialise all of the timeout queues, including a table for TCP, some */ 328 /* pairs of query/response for UDP and other IP protocols (typically the */ 329 /* reply queue has a shorter timeout than the query) */ 330 /* ------------------------------------------------------------------------ */ 331 int 332 ipf_state_soft_init(ipf_main_softc_t *softc, void *arg) 333 { 334 ipf_state_softc_t *softs = arg; 335 int i; 336 337 KMALLOCS(softs->ipf_state_table, 338 ipstate_t **, softs->ipf_state_size * sizeof(ipstate_t *)); 339 if (softs->ipf_state_table == NULL) 340 return (-1); 341 342 bzero((char *)softs->ipf_state_table, 343 softs->ipf_state_size * sizeof(ipstate_t *)); 344 345 softs->ipf_state_seed = ipf_state_seed_alloc(softs->ipf_state_size, 346 softs->ipf_state_max); 347 if (softs->ipf_state_seed == NULL) 348 return (-2); 349 350 KMALLOCS(softs->ipf_state_stats.iss_bucketlen, u_int *, 351 softs->ipf_state_size * sizeof(u_int)); 352 if (softs->ipf_state_stats.iss_bucketlen == NULL) 353 return (-3); 354 355 bzero((char *)softs->ipf_state_stats.iss_bucketlen, 356 softs->ipf_state_size * sizeof(u_int)); 357 358 if (softs->ipf_state_maxbucket == 0) { 359 for (i = softs->ipf_state_size; i > 0; i >>= 1) 360 softs->ipf_state_maxbucket++; 361 softs->ipf_state_maxbucket *= 2; 362 } 363 364 ipf_sttab_init(softc, softs->ipf_state_tcptq); 365 softs->ipf_state_stats.iss_tcptab = softs->ipf_state_tcptq; 366 softs->ipf_state_tcptq[IPF_TCP_NSTATES - 1].ifq_next = 367 &softs->ipf_state_udptq; 368 369 IPFTQ_INIT(&softs->ipf_state_udptq, softc->ipf_udptimeout, 370 "ipftq udp tab"); 371 softs->ipf_state_udptq.ifq_next = &softs->ipf_state_udpacktq; 372 373 IPFTQ_INIT(&softs->ipf_state_udpacktq, softc->ipf_udpacktimeout, 374 "ipftq udpack tab"); 375 softs->ipf_state_udpacktq.ifq_next = &softs->ipf_state_icmptq; 376 377 IPFTQ_INIT(&softs->ipf_state_icmptq, softc->ipf_icmptimeout, 378 "ipftq icmp tab"); 379 softs->ipf_state_icmptq.ifq_next = &softs->ipf_state_icmpacktq; 380 381 IPFTQ_INIT(&softs->ipf_state_icmpacktq, softc->ipf_icmpacktimeout, 382 "ipftq icmpack tab"); 383 softs->ipf_state_icmpacktq.ifq_next = &softs->ipf_state_iptq; 384 385 IPFTQ_INIT(&softs->ipf_state_iptq, softc->ipf_iptimeout, 386 "ipftq iptimeout tab"); 387 softs->ipf_state_iptq.ifq_next = &softs->ipf_state_pending; 388 389 IPFTQ_INIT(&softs->ipf_state_pending, IPF_HZ_DIVIDE, "ipftq pending"); 390 softs->ipf_state_pending.ifq_next = &softs->ipf_state_deletetq; 391 392 IPFTQ_INIT(&softs->ipf_state_deletetq, 1, "ipftq delete"); 393 softs->ipf_state_deletetq.ifq_next = NULL; 394 395 MUTEX_INIT(&softs->ipf_stinsert, "ipf state insert mutex"); 396 397 398 softs->ipf_state_wm_last = softc->ipf_ticks; 399 softs->ipf_state_inited = 1; 400 401 return (0); 402 } 403 404 405 /* ------------------------------------------------------------------------ */ 406 /* Function: ipf_state_soft_fini */ 407 /* Returns: int - 0 = success, -1 = failure */ 408 /* Parameters: softc(I) - pointer to soft context main structure */ 409 /* arg(I) - pointer to local context to use */ 410 /* */ 411 /* Release and destroy any resources acquired or initialised so that */ 412 /* IPFilter can be unloaded or re-initialised. */ 413 /* ------------------------------------------------------------------------ */ 414 int 415 ipf_state_soft_fini(ipf_main_softc_t *softc, void *arg) 416 { 417 ipf_state_softc_t *softs = arg; 418 ipftq_t *ifq, *ifqnext; 419 ipstate_t *is; 420 421 while ((is = softs->ipf_state_list) != NULL) 422 ipf_state_del(softc, is, ISL_UNLOAD); 423 424 /* 425 * Proxy timeout queues are not cleaned here because although they 426 * exist on the state list, appr_unload is called after 427 * ipf_state_unload and the proxies actually are responsible for them 428 * being created. Should the proxy timeouts have their own list? 429 * There's no real justification as this is the only complication. 430 */ 431 for (ifq = softs->ipf_state_usertq; ifq != NULL; ifq = ifqnext) { 432 ifqnext = ifq->ifq_next; 433 434 if (ipf_deletetimeoutqueue(ifq) == 0) 435 ipf_freetimeoutqueue(softc, ifq); 436 } 437 438 softs->ipf_state_stats.iss_inuse = 0; 439 softs->ipf_state_stats.iss_active = 0; 440 441 if (softs->ipf_state_inited == 1) { 442 softs->ipf_state_inited = 0; 443 ipf_sttab_destroy(softs->ipf_state_tcptq); 444 MUTEX_DESTROY(&softs->ipf_state_udptq.ifq_lock); 445 MUTEX_DESTROY(&softs->ipf_state_icmptq.ifq_lock); 446 MUTEX_DESTROY(&softs->ipf_state_udpacktq.ifq_lock); 447 MUTEX_DESTROY(&softs->ipf_state_icmpacktq.ifq_lock); 448 MUTEX_DESTROY(&softs->ipf_state_iptq.ifq_lock); 449 MUTEX_DESTROY(&softs->ipf_state_deletetq.ifq_lock); 450 MUTEX_DESTROY(&softs->ipf_state_pending.ifq_lock); 451 MUTEX_DESTROY(&softs->ipf_stinsert); 452 } 453 454 if (softs->ipf_state_table != NULL) { 455 KFREES(softs->ipf_state_table, 456 softs->ipf_state_size * sizeof(*softs->ipf_state_table)); 457 softs->ipf_state_table = NULL; 458 } 459 460 if (softs->ipf_state_seed != NULL) { 461 KFREES(softs->ipf_state_seed, 462 softs->ipf_state_size * sizeof(*softs->ipf_state_seed)); 463 softs->ipf_state_seed = NULL; 464 } 465 466 if (softs->ipf_state_stats.iss_bucketlen != NULL) { 467 KFREES(softs->ipf_state_stats.iss_bucketlen, 468 softs->ipf_state_size * sizeof(u_int)); 469 softs->ipf_state_stats.iss_bucketlen = NULL; 470 } 471 472 return (0); 473 } 474 475 476 /* ------------------------------------------------------------------------ */ 477 /* Function: ipf_state_setlock */ 478 /* Returns: Nil */ 479 /* Parameters: arg(I) - pointer to local context to use */ 480 /* tmp(I) - new value for lock */ 481 /* */ 482 /* Stub function that allows for external manipulation of ipf_state_lock */ 483 /* ------------------------------------------------------------------------ */ 484 void 485 ipf_state_setlock(void *arg, int tmp) 486 { 487 ipf_state_softc_t *softs = arg; 488 489 softs->ipf_state_lock = tmp; 490 } 491 492 493 /* ------------------------------------------------------------------------ */ 494 /* Function: ipf_state_stats */ 495 /* Returns: ips_state_t* - pointer to state stats structure */ 496 /* Parameters: softc(I) - pointer to soft context main structure */ 497 /* */ 498 /* Put all the current numbers and pointers into a single struct and return */ 499 /* a pointer to it. */ 500 /* ------------------------------------------------------------------------ */ 501 static ips_stat_t * 502 ipf_state_stats(ipf_main_softc_t *softc) 503 { 504 ipf_state_softc_t *softs = softc->ipf_state_soft; 505 ips_stat_t *issp = &softs->ipf_state_stats; 506 507 issp->iss_state_size = softs->ipf_state_size; 508 issp->iss_state_max = softs->ipf_state_max; 509 issp->iss_table = softs->ipf_state_table; 510 issp->iss_list = softs->ipf_state_list; 511 issp->iss_ticks = softc->ipf_ticks; 512 513 #ifdef IPFILTER_LOGGING 514 issp->iss_log_ok = ipf_log_logok(softc, IPF_LOGSTATE); 515 issp->iss_log_fail = ipf_log_failures(softc, IPF_LOGSTATE); 516 #else 517 issp->iss_log_ok = 0; 518 issp->iss_log_fail = 0; 519 #endif 520 return (issp); 521 } 522 523 /* ------------------------------------------------------------------------ */ 524 /* Function: ipf_state_remove */ 525 /* Returns: int - 0 == success, != 0 == failure */ 526 /* Parameters: softc(I) - pointer to soft context main structure */ 527 /* data(I) - pointer to state structure to delete from table */ 528 /* */ 529 /* Search for a state structure that matches the one passed, according to */ 530 /* the IP addresses and other protocol specific information. */ 531 /* ------------------------------------------------------------------------ */ 532 static int 533 ipf_state_remove(ipf_main_softc_t *softc, caddr_t data) 534 { 535 ipf_state_softc_t *softs = softc->ipf_state_soft; 536 ipstate_t *sp, st; 537 int error; 538 539 sp = &st; 540 error = ipf_inobj(softc, data, NULL, &st, IPFOBJ_IPSTATE); 541 if (error) 542 return (EFAULT); 543 544 WRITE_ENTER(&softc->ipf_state); 545 for (sp = softs->ipf_state_list; sp; sp = sp->is_next) 546 if ((sp->is_p == st.is_p) && (sp->is_v == st.is_v) && 547 !bcmp((caddr_t)&sp->is_src, (caddr_t)&st.is_src, 548 sizeof(st.is_src)) && 549 !bcmp((caddr_t)&sp->is_dst, (caddr_t)&st.is_dst, 550 sizeof(st.is_dst)) && 551 !bcmp((caddr_t)&sp->is_ps, (caddr_t)&st.is_ps, 552 sizeof(st.is_ps))) { 553 ipf_state_del(softc, sp, ISL_REMOVE); 554 RWLOCK_EXIT(&softc->ipf_state); 555 return (0); 556 } 557 RWLOCK_EXIT(&softc->ipf_state); 558 559 IPFERROR(100001); 560 return (ESRCH); 561 } 562 563 564 /* ------------------------------------------------------------------------ */ 565 /* Function: ipf_state_ioctl */ 566 /* Returns: int - 0 == success, != 0 == failure */ 567 /* Parameters: softc(I) - pointer to soft context main structure */ 568 /* data(I) - pointer to ioctl data */ 569 /* cmd(I) - ioctl command integer */ 570 /* mode(I) - file mode bits used with open */ 571 /* uid(I) - uid of process making the ioctl call */ 572 /* ctx(I) - pointer specific to context of the call */ 573 /* */ 574 /* Processes an ioctl call made to operate on the IP Filter state device. */ 575 /* ------------------------------------------------------------------------ */ 576 int 577 ipf_state_ioctl(ipf_main_softc_t *softc, caddr_t data, ioctlcmd_t cmd, 578 int mode, int uid, void *ctx) 579 { 580 ipf_state_softc_t *softs = softc->ipf_state_soft; 581 int arg, ret, error = 0; 582 SPL_INT(s); 583 584 switch (cmd) 585 { 586 /* 587 * Delete an entry from the state table. 588 */ 589 case SIOCDELST : 590 error = ipf_state_remove(softc, data); 591 break; 592 593 /* 594 * Flush the state table 595 */ 596 case SIOCIPFFL : 597 error = BCOPYIN(data, &arg, sizeof(arg)); 598 if (error != 0) { 599 IPFERROR(100002); 600 error = EFAULT; 601 602 } else { 603 WRITE_ENTER(&softc->ipf_state); 604 ret = ipf_state_flush(softc, arg, 4); 605 RWLOCK_EXIT(&softc->ipf_state); 606 607 error = BCOPYOUT(&ret, data, sizeof(ret)); 608 if (error != 0) { 609 IPFERROR(100003); 610 error = EFAULT; 611 } 612 } 613 break; 614 615 #ifdef USE_INET6 616 case SIOCIPFL6 : 617 error = BCOPYIN(data, &arg, sizeof(arg)); 618 if (error != 0) { 619 IPFERROR(100004); 620 error = EFAULT; 621 622 } else { 623 WRITE_ENTER(&softc->ipf_state); 624 ret = ipf_state_flush(softc, arg, 6); 625 RWLOCK_EXIT(&softc->ipf_state); 626 627 error = BCOPYOUT(&ret, data, sizeof(ret)); 628 if (error != 0) { 629 IPFERROR(100005); 630 error = EFAULT; 631 } 632 } 633 break; 634 #endif 635 636 case SIOCMATCHFLUSH : 637 WRITE_ENTER(&softc->ipf_state); 638 error = ipf_state_matchflush(softc, data); 639 RWLOCK_EXIT(&softc->ipf_state); 640 break; 641 642 #ifdef IPFILTER_LOG 643 /* 644 * Flush the state log. 645 */ 646 case SIOCIPFFB : 647 if (!(mode & FWRITE)) { 648 IPFERROR(100008); 649 error = EPERM; 650 } else { 651 int tmp; 652 653 tmp = ipf_log_clear(softc, IPL_LOGSTATE); 654 error = BCOPYOUT(&tmp, data, sizeof(tmp)); 655 if (error != 0) { 656 IPFERROR(100009); 657 error = EFAULT; 658 } 659 } 660 break; 661 662 /* 663 * Turn logging of state information on/off. 664 */ 665 case SIOCSETLG : 666 if (!(mode & FWRITE)) { 667 IPFERROR(100010); 668 error = EPERM; 669 } else { 670 error = BCOPYIN(data, &softs->ipf_state_logging, 671 sizeof(softs->ipf_state_logging)); 672 if (error != 0) { 673 IPFERROR(100011); 674 error = EFAULT; 675 } 676 } 677 break; 678 679 /* 680 * Return the current state of logging. 681 */ 682 case SIOCGETLG : 683 error = BCOPYOUT(&softs->ipf_state_logging, data, 684 sizeof(softs->ipf_state_logging)); 685 if (error != 0) { 686 IPFERROR(100012); 687 error = EFAULT; 688 } 689 break; 690 691 /* 692 * Return the number of bytes currently waiting to be read. 693 */ 694 case FIONREAD : 695 arg = ipf_log_bytesused(softc, IPL_LOGSTATE); 696 error = BCOPYOUT(&arg, data, sizeof(arg)); 697 if (error != 0) { 698 IPFERROR(100013); 699 error = EFAULT; 700 } 701 break; 702 #endif 703 704 /* 705 * Get the current state statistics. 706 */ 707 case SIOCGETFS : 708 error = ipf_outobj(softc, data, ipf_state_stats(softc), 709 IPFOBJ_STATESTAT); 710 break; 711 712 /* 713 * Lock/Unlock the state table. (Locking prevents any changes, which 714 * means no packets match). 715 */ 716 case SIOCSTLCK : 717 if (!(mode & FWRITE)) { 718 IPFERROR(100014); 719 error = EPERM; 720 } else { 721 error = ipf_lock(data, &softs->ipf_state_lock); 722 } 723 break; 724 725 /* 726 * Add an entry to the current state table. 727 */ 728 case SIOCSTPUT : 729 if (!softs->ipf_state_lock || !(mode &FWRITE)) { 730 IPFERROR(100015); 731 error = EACCES; 732 break; 733 } 734 error = ipf_state_putent(softc, softs, data); 735 break; 736 737 /* 738 * Get a state table entry. 739 */ 740 case SIOCSTGET : 741 if (!softs->ipf_state_lock) { 742 IPFERROR(100016); 743 error = EACCES; 744 break; 745 } 746 error = ipf_state_getent(softc, softs, data); 747 break; 748 749 case SIOCGENITER : 750 { 751 ipftoken_t *token; 752 ipfgeniter_t iter; 753 ipfobj_t obj; 754 755 error = ipf_inobj(softc, data, &obj, &iter, IPFOBJ_GENITER); 756 if (error != 0) 757 break; 758 759 SPL_SCHED(s); 760 token = ipf_token_find(softc, IPFGENITER_STATE, uid, ctx); 761 if (token != NULL) { 762 error = ipf_state_iter(softc, token, &iter, &obj); 763 WRITE_ENTER(&softc->ipf_tokens); 764 ipf_token_deref(softc, token); 765 RWLOCK_EXIT(&softc->ipf_tokens); 766 } else { 767 IPFERROR(100018); 768 error = ESRCH; 769 } 770 SPL_X(s); 771 break; 772 } 773 774 case SIOCGTABL : 775 error = ipf_state_gettable(softc, softs, data); 776 break; 777 778 case SIOCIPFDELTOK : 779 error = BCOPYIN(data, &arg, sizeof(arg)); 780 if (error != 0) { 781 IPFERROR(100019); 782 error = EFAULT; 783 } else { 784 SPL_SCHED(s); 785 error = ipf_token_del(softc, arg, uid, ctx); 786 SPL_X(s); 787 } 788 break; 789 790 case SIOCGTQTAB : 791 error = ipf_outobj(softc, data, softs->ipf_state_tcptq, 792 IPFOBJ_STATETQTAB); 793 break; 794 795 default : 796 IPFERROR(100020); 797 error = EINVAL; 798 break; 799 } 800 return (error); 801 } 802 803 804 /* ------------------------------------------------------------------------ */ 805 /* Function: ipf_state_getent */ 806 /* Returns: int - 0 == success, != 0 == failure */ 807 /* Parameters: softc(I) - pointer to soft context main structure */ 808 /* softs(I) - pointer to state context structure */ 809 /* data(I) - pointer to state structure to retrieve from table*/ 810 /* */ 811 /* Copy out state information from the kernel to a user space process. If */ 812 /* there is a filter rule associated with the state entry, copy that out */ 813 /* as well. The entry to copy out is taken from the value of "ips_next" in */ 814 /* the struct passed in and if not null and not found in the list of current*/ 815 /* state entries, the retrieval fails. */ 816 /* ------------------------------------------------------------------------ */ 817 static int 818 ipf_state_getent(ipf_main_softc_t *softc, ipf_state_softc_t *softs, 819 caddr_t data) 820 { 821 ipstate_t *is, *isn; 822 ipstate_save_t ips; 823 int error; 824 825 error = ipf_inobj(softc, data, NULL, &ips, IPFOBJ_STATESAVE); 826 if (error) 827 return (EFAULT); 828 829 READ_ENTER(&softc->ipf_state); 830 isn = ips.ips_next; 831 if (isn == NULL) { 832 isn = softs->ipf_state_list; 833 if (isn == NULL) { 834 if (ips.ips_next == NULL) { 835 RWLOCK_EXIT(&softc->ipf_state); 836 IPFERROR(100021); 837 return (ENOENT); 838 } 839 return (0); 840 } 841 } else { 842 /* 843 * Make sure the pointer we're copying from exists in the 844 * current list of entries. Security precaution to prevent 845 * copying of random kernel data. 846 */ 847 for (is = softs->ipf_state_list; is; is = is->is_next) 848 if (is == isn) 849 break; 850 if (!is) { 851 RWLOCK_EXIT(&softc->ipf_state); 852 IPFERROR(100022); 853 return (ESRCH); 854 } 855 } 856 ips.ips_next = isn->is_next; 857 bcopy((char *)isn, (char *)&ips.ips_is, sizeof(ips.ips_is)); 858 ips.ips_rule = isn->is_rule; 859 if (isn->is_rule != NULL) 860 bcopy((char *)isn->is_rule, (char *)&ips.ips_fr, 861 sizeof(ips.ips_fr)); 862 RWLOCK_EXIT(&softc->ipf_state); 863 error = ipf_outobj(softc, data, &ips, IPFOBJ_STATESAVE); 864 return (error); 865 } 866 867 868 /* ------------------------------------------------------------------------ */ 869 /* Function: ipf_state_putent */ 870 /* Returns: int - 0 == success, != 0 == failure */ 871 /* Parameters: softc(I) - pointer to soft context main structure */ 872 /* softs(I) - pointer to state context structure */ 873 /* data(I) - pointer to state information struct */ 874 /* */ 875 /* This function implements the SIOCSTPUT ioctl: insert a state entry into */ 876 /* the state table. If the state info. includes a pointer to a filter rule */ 877 /* then also add in an orphaned rule (will not show up in any "ipfstat -io" */ 878 /* output. */ 879 /* ------------------------------------------------------------------------ */ 880 int 881 ipf_state_putent(ipf_main_softc_t *softc, ipf_state_softc_t *softs, 882 caddr_t data) 883 { 884 ipstate_t *is, *isn; 885 ipstate_save_t ips; 886 int error, out, i; 887 frentry_t *fr; 888 char *name; 889 890 error = ipf_inobj(softc, data, NULL, &ips, IPFOBJ_STATESAVE); 891 if (error != 0) 892 return (error); 893 894 KMALLOC(isn, ipstate_t *); 895 if (isn == NULL) { 896 IPFERROR(100023); 897 return (ENOMEM); 898 } 899 900 bcopy((char *)&ips.ips_is, (char *)isn, sizeof(*isn)); 901 bzero((char *)isn, offsetof(struct ipstate, is_pkts)); 902 isn->is_sti.tqe_pnext = NULL; 903 isn->is_sti.tqe_next = NULL; 904 isn->is_sti.tqe_ifq = NULL; 905 isn->is_sti.tqe_parent = isn; 906 isn->is_ifp[0] = NULL; 907 isn->is_ifp[1] = NULL; 908 isn->is_ifp[2] = NULL; 909 isn->is_ifp[3] = NULL; 910 isn->is_sync = NULL; 911 fr = ips.ips_rule; 912 913 if (fr == NULL) { 914 int inserr; 915 916 READ_ENTER(&softc->ipf_state); 917 inserr = ipf_state_insert(softc, isn, 0); 918 MUTEX_EXIT(&isn->is_lock); 919 RWLOCK_EXIT(&softc->ipf_state); 920 921 return (inserr); 922 } 923 924 if (isn->is_flags & SI_NEWFR) { 925 KMALLOC(fr, frentry_t *); 926 if (fr == NULL) { 927 KFREE(isn); 928 IPFERROR(100024); 929 return (ENOMEM); 930 } 931 bcopy((char *)&ips.ips_fr, (char *)fr, sizeof(*fr)); 932 out = fr->fr_flags & FR_OUTQUE ? 1 : 0; 933 isn->is_rule = fr; 934 ips.ips_is.is_rule = fr; 935 MUTEX_NUKE(&fr->fr_lock); 936 MUTEX_INIT(&fr->fr_lock, "state filter rule lock"); 937 938 /* 939 * Look up all the interface names in the rule. 940 */ 941 for (i = 0; i < FR_NUM(fr->fr_ifnames); i++) { 942 if (fr->fr_ifnames[i] == -1) { 943 fr->fr_ifas[i] = NULL; 944 continue; 945 } 946 name = FR_NAME(fr, fr_ifnames[i]); 947 fr->fr_ifas[i] = ipf_resolvenic(softc, name, 948 fr->fr_family); 949 } 950 951 for (i = 0; i < FR_NUM(isn->is_ifname); i++) { 952 name = isn->is_ifname[i]; 953 isn->is_ifp[i] = ipf_resolvenic(softc, name, 954 isn->is_v); 955 } 956 957 fr->fr_ref = 0; 958 fr->fr_dsize = 0; 959 fr->fr_data = NULL; 960 fr->fr_type = FR_T_NONE; 961 962 (void) ipf_resolvedest(softc, fr->fr_names, &fr->fr_tifs[0], 963 fr->fr_family); 964 (void) ipf_resolvedest(softc, fr->fr_names, &fr->fr_tifs[1], 965 fr->fr_family); 966 (void) ipf_resolvedest(softc, fr->fr_names, &fr->fr_dif, 967 fr->fr_family); 968 969 /* 970 * send a copy back to userland of what we ended up 971 * to allow for verification. 972 */ 973 error = ipf_outobj(softc, data, &ips, IPFOBJ_STATESAVE); 974 if (error != 0) { 975 KFREE(isn); 976 MUTEX_DESTROY(&fr->fr_lock); 977 KFREE(fr); 978 IPFERROR(100025); 979 return (EFAULT); 980 } 981 READ_ENTER(&softc->ipf_state); 982 error = ipf_state_insert(softc, isn, 0); 983 MUTEX_EXIT(&isn->is_lock); 984 RWLOCK_EXIT(&softc->ipf_state); 985 986 } else { 987 READ_ENTER(&softc->ipf_state); 988 for (is = softs->ipf_state_list; is; is = is->is_next) 989 if (is->is_rule == fr) { 990 error = ipf_state_insert(softc, isn, 0); 991 MUTEX_EXIT(&isn->is_lock); 992 break; 993 } 994 995 if (is == NULL) { 996 KFREE(isn); 997 isn = NULL; 998 } 999 RWLOCK_EXIT(&softc->ipf_state); 1000 1001 if (isn == NULL) { 1002 IPFERROR(100033); 1003 error = ESRCH; 1004 } 1005 } 1006 1007 return (error); 1008 } 1009 1010 1011 /* ------------------------------------------------------------------------ */ 1012 /* Function: ipf_state_insert */ 1013 /* Returns: int - 0 == success, -1 == failure */ 1014 /* Parameters: softc(I) - pointer to soft context main structure */ 1015 /* Parameters: is(I) - pointer to state structure */ 1016 /* rev(I) - flag indicating direction of packet */ 1017 /* */ 1018 /* Inserts a state structure into the hash table (for lookups) and the list */ 1019 /* of state entries (for enumeration). Resolves all of the interface names */ 1020 /* to pointers and adjusts running stats for the hash table as appropriate. */ 1021 /* */ 1022 /* This function can fail if the filter rule has had a population policy of */ 1023 /* IP addresses used with stateful filtering assigned to it. */ 1024 /* */ 1025 /* Locking: it is assumed that some kind of lock on ipf_state is held. */ 1026 /* Exits with is_lock initialised and held - *EVEN IF ERROR*. */ 1027 /* ------------------------------------------------------------------------ */ 1028 int 1029 ipf_state_insert(ipf_main_softc_t *softc, ipstate_t *is, int rev) 1030 { 1031 ipf_state_softc_t *softs = softc->ipf_state_soft; 1032 frentry_t *fr; 1033 u_int hv; 1034 int i; 1035 1036 /* 1037 * Look up all the interface names in the state entry. 1038 */ 1039 for (i = 0; i < FR_NUM(is->is_ifp); i++) { 1040 if (is->is_ifp[i] != NULL) 1041 continue; 1042 is->is_ifp[i] = ipf_resolvenic(softc, is->is_ifname[i], 1043 is->is_v); 1044 } 1045 1046 /* 1047 * If we could trust is_hv, then the modulus would not be needed, 1048 * but when running with IPFILTER_SYNC, this stops bad values. 1049 */ 1050 hv = is->is_hv % softs->ipf_state_size; 1051 /* TRACE is, hv */ 1052 is->is_hv = hv; 1053 1054 /* 1055 * We need to get both of these locks...the first because it is 1056 * possible that once the insert is complete another packet might 1057 * come along, match the entry and want to update it. 1058 */ 1059 MUTEX_INIT(&is->is_lock, "ipf state entry"); 1060 MUTEX_ENTER(&is->is_lock); 1061 MUTEX_ENTER(&softs->ipf_stinsert); 1062 1063 fr = is->is_rule; 1064 if (fr != NULL) { 1065 if ((fr->fr_srctrack.ht_max_nodes != 0) && 1066 (ipf_ht_node_add(softc, &fr->fr_srctrack, 1067 is->is_family, &is->is_src) == -1)) { 1068 SBUMPD(ipf_state_stats, iss_max_track); 1069 MUTEX_EXIT(&softs->ipf_stinsert); 1070 return (-1); 1071 } 1072 1073 MUTEX_ENTER(&fr->fr_lock); 1074 fr->fr_ref++; 1075 MUTEX_EXIT(&fr->fr_lock); 1076 fr->fr_statecnt++; 1077 } 1078 1079 if (is->is_flags & (SI_WILDP|SI_WILDA)) { 1080 DT(iss_wild_plus_one); 1081 SINCL(ipf_state_stats.iss_wild); 1082 } 1083 1084 SBUMP(ipf_state_stats.iss_proto[is->is_p]); 1085 SBUMP(ipf_state_stats.iss_active_proto[is->is_p]); 1086 1087 /* 1088 * add into list table. 1089 */ 1090 if (softs->ipf_state_list != NULL) 1091 softs->ipf_state_list->is_pnext = &is->is_next; 1092 is->is_pnext = &softs->ipf_state_list; 1093 is->is_next = softs->ipf_state_list; 1094 softs->ipf_state_list = is; 1095 1096 if (softs->ipf_state_table[hv] != NULL) 1097 softs->ipf_state_table[hv]->is_phnext = &is->is_hnext; 1098 else 1099 softs->ipf_state_stats.iss_inuse++; 1100 is->is_phnext = softs->ipf_state_table + hv; 1101 is->is_hnext = softs->ipf_state_table[hv]; 1102 softs->ipf_state_table[hv] = is; 1103 softs->ipf_state_stats.iss_bucketlen[hv]++; 1104 softs->ipf_state_stats.iss_active++; 1105 MUTEX_EXIT(&softs->ipf_stinsert); 1106 1107 ipf_state_setqueue(softc, is, rev); 1108 1109 return (0); 1110 } 1111 1112 1113 /* ------------------------------------------------------------------------ */ 1114 /* Function: ipf_state_matchipv4addrs */ 1115 /* Returns: int - 2 addresses match (strong match), 1 reverse match, */ 1116 /* 0 no match */ 1117 /* Parameters: is1, is2 pointers to states we are checking */ 1118 /* */ 1119 /* Function matches IPv4 addresses it returns strong match for ICMP proto */ 1120 /* even there is only reverse match */ 1121 /* ------------------------------------------------------------------------ */ 1122 static int 1123 ipf_state_matchipv4addrs(ipstate_t *is1, ipstate_t *is2) 1124 { 1125 int rv; 1126 1127 if (is1->is_saddr == is2->is_saddr && is1->is_daddr == is2->is_daddr) 1128 rv = 2; 1129 else if (is1->is_saddr == is2->is_daddr && 1130 is1->is_daddr == is2->is_saddr) { 1131 /* force strong match for ICMP protocol */ 1132 rv = (is1->is_p == IPPROTO_ICMP) ? 2 : 1; 1133 } 1134 else 1135 rv = 0; 1136 1137 return (rv); 1138 } 1139 1140 1141 /* ------------------------------------------------------------------------ */ 1142 /* Function: ipf_state_matchipv6addrs */ 1143 /* Returns: int - 2 addresses match (strong match), 1 reverse match, */ 1144 /* 0 no match */ 1145 /* Parameters: is1, is2 pointers to states we are checking */ 1146 /* */ 1147 /* Function matches IPv6 addresses it returns strong match for ICMP proto */ 1148 /* even there is only reverse match */ 1149 /* ------------------------------------------------------------------------ */ 1150 static int 1151 ipf_state_matchipv6addrs(ipstate_t *is1, ipstate_t *is2) 1152 { 1153 int rv; 1154 1155 if (IP6_EQ(&is1->is_src, &is2->is_src) && 1156 IP6_EQ(&is1->is_dst, &is2->is_dst)) 1157 rv = 2; 1158 else if (IP6_EQ(&is1->is_src, &is2->is_dst) && 1159 IP6_EQ(&is1->is_dst, &is2->is_src)) { 1160 /* force strong match for ICMPv6 protocol */ 1161 rv = (is1->is_p == IPPROTO_ICMPV6) ? 2 : 1; 1162 } 1163 else 1164 rv = 0; 1165 1166 return (rv); 1167 } 1168 1169 1170 /* ------------------------------------------------------------------------ */ 1171 /* Function: ipf_state_matchaddresses */ 1172 /* Returns: int - 2 addresses match, 1 reverse match, zero no match */ 1173 /* Parameters: is1, is2 pointers to states we are checking */ 1174 /* */ 1175 /* function retruns true if two pairs of addresses belong to single */ 1176 /* connection. suppose there are two endpoints: */ 1177 /* endpoint1 1.1.1.1 */ 1178 /* endpoint2 1.1.1.2 */ 1179 /* */ 1180 /* the state is established by packet flying from .1 to .2 so we see: */ 1181 /* is1->src = 1.1.1.1 */ 1182 /* is1->dst = 1.1.1.2 */ 1183 /* now endpoint 1.1.1.2 sends answer */ 1184 /* retreives is1 record created by first packat and compares it with is2 */ 1185 /* temporal record, is2 is initialized as follows: */ 1186 /* is2->src = 1.1.1.2 */ 1187 /* is2->dst = 1.1.1.1 */ 1188 /* in this case 1 will be returned */ 1189 /* */ 1190 /* the ipf_matchaddresses() assumes those two records to be same. of course */ 1191 /* the ipf_matchaddresses() also assume records are same in case you pass */ 1192 /* identical arguments (i.e. ipf_matchaddress(is1, is1) would return 2 */ 1193 /* ------------------------------------------------------------------------ */ 1194 static int 1195 ipf_state_matchaddresses(ipstate_t *is1, ipstate_t *is2) 1196 { 1197 int rv; 1198 1199 if (is1->is_v == 4) { 1200 rv = ipf_state_matchipv4addrs(is1, is2); 1201 } 1202 else { 1203 rv = ipf_state_matchipv6addrs(is1, is2); 1204 } 1205 1206 return (rv); 1207 } 1208 1209 1210 /* ------------------------------------------------------------------------ */ 1211 /* Function: ipf_matchports */ 1212 /* Returns: int - 2 match, 1 rverse match, 0 no match */ 1213 /* Parameters: ppairs1, ppairs - src, dst ports we want to match */ 1214 /* */ 1215 /* performs the same match for isps members as for addresses */ 1216 /* ------------------------------------------------------------------------ */ 1217 static int 1218 ipf_state_matchports(udpinfo_t *ppairs1, udpinfo_t *ppairs2) 1219 { 1220 int rv; 1221 1222 if (ppairs1->us_sport == ppairs2->us_sport && 1223 ppairs1->us_dport == ppairs2->us_dport) 1224 rv = 2; 1225 else if (ppairs1->us_sport == ppairs2->us_dport && 1226 ppairs1->us_dport == ppairs2->us_sport) 1227 rv = 1; 1228 else 1229 rv = 0; 1230 1231 return (rv); 1232 } 1233 1234 1235 /* ------------------------------------------------------------------------ */ 1236 /* Function: ipf_matchisps */ 1237 /* Returns: int - nonzero if isps members match, 0 nomatch */ 1238 /* Parameters: is1, is2 - states we want to match */ 1239 /* */ 1240 /* performs the same match for isps members as for addresses */ 1241 /* ------------------------------------------------------------------------ */ 1242 static int 1243 ipf_state_matchisps(ipstate_t *is1, ipstate_t *is2) 1244 { 1245 int rv; 1246 1247 if (is1->is_p == is2->is_p) { 1248 switch (is1->is_p) 1249 { 1250 case IPPROTO_TCP : 1251 case IPPROTO_UDP : 1252 case IPPROTO_GRE : 1253 /* greinfo_t can be also interpreted as port pair */ 1254 rv = ipf_state_matchports(&is1->is_ps.is_us, 1255 &is2->is_ps.is_us); 1256 break; 1257 1258 case IPPROTO_ICMP : 1259 case IPPROTO_ICMPV6 : 1260 /* force strong match for ICMP datagram. */ 1261 if (bcmp(&is1->is_ps, &is2->is_ps, 1262 sizeof(icmpinfo_t)) == 0) { 1263 rv = 2; 1264 } else { 1265 rv = 0; 1266 } 1267 break; 1268 1269 default: 1270 rv = 0; 1271 } 1272 } else { 1273 rv = 0; 1274 } 1275 1276 return (rv); 1277 } 1278 1279 1280 /* ------------------------------------------------------------------------ */ 1281 /* Function: ipf_state_match */ 1282 /* Returns: int - nonzero match, zero no match */ 1283 /* Parameters: is1, is2 - states we want to match */ 1284 /* */ 1285 /* ------------------------------------------------------------------------ */ 1286 static int 1287 ipf_state_match(ipstate_t *is1, ipstate_t *is2) 1288 { 1289 int rv; 1290 int amatch; 1291 int pomatch; 1292 1293 if (bcmp(&is1->is_pass, &is2->is_pass, 1294 offsetof(struct ipstate, is_authmsk) - 1295 offsetof(struct ipstate, is_pass)) == 0) { 1296 1297 pomatch = ipf_state_matchisps(is1, is2); 1298 amatch = ipf_state_matchaddresses(is1, is2); 1299 rv = (amatch != 0) && (amatch == pomatch); 1300 } else { 1301 rv = 0; 1302 } 1303 1304 return (rv); 1305 } 1306 1307 /* ------------------------------------------------------------------------ */ 1308 /* Function: ipf_state_add */ 1309 /* Returns: ipstate_t - 0 = success */ 1310 /* Parameters: softc(I) - pointer to soft context main structure */ 1311 /* fin(I) - pointer to packet information */ 1312 /* stsave(O) - pointer to place to save pointer to created */ 1313 /* state structure. */ 1314 /* flags(I) - flags to use when creating the structure */ 1315 /* */ 1316 /* Creates a new IP state structure from the packet information collected. */ 1317 /* Inserts it into the state table and appends to the bottom of the active */ 1318 /* list. If the capacity of the table has reached the maximum allowed then */ 1319 /* the call will fail and a flush is scheduled for the next timeout call. */ 1320 /* */ 1321 /* NOTE: The use of stsave to point to nat_state will result in memory */ 1322 /* corruption. It should only be used to point to objects that will */ 1323 /* either outlive this (not expired) or will deref the ip_state_t */ 1324 /* when they are deleted. */ 1325 /* ------------------------------------------------------------------------ */ 1326 int 1327 ipf_state_add(ipf_main_softc_t *softc, fr_info_t *fin, ipstate_t **stsave, 1328 u_int flags) 1329 { 1330 ipf_state_softc_t *softs = softc->ipf_state_soft; 1331 ipstate_t *is, ips; 1332 struct icmp *ic; 1333 u_int pass, hv; 1334 frentry_t *fr; 1335 tcphdr_t *tcp; 1336 frdest_t *fdp; 1337 int out; 1338 1339 /* 1340 * If a locally created packet is trying to egress but it 1341 * does not match because of this lock, it is likely that 1342 * the policy will block it and return network unreachable further 1343 * up the stack. To mitigate this error, EAGAIN is returned instead, 1344 * telling the IP stack to try sending this packet again later. 1345 */ 1346 if (softs->ipf_state_lock) { 1347 SBUMPD(ipf_state_stats, iss_add_locked); 1348 fin->fin_error = EAGAIN; 1349 return (-1); 1350 } 1351 1352 if (fin->fin_flx & (FI_SHORT|FI_STATE|FI_FRAGBODY|FI_BAD)) { 1353 SBUMPD(ipf_state_stats, iss_add_bad); 1354 return (-1); 1355 } 1356 1357 if ((fin->fin_flx & FI_OOW) && !(fin->fin_tcpf & TH_SYN)) { 1358 SBUMPD(ipf_state_stats, iss_add_oow); 1359 return (-1); 1360 } 1361 1362 if ((softs->ipf_state_stats.iss_active * 100 / softs->ipf_state_max) > 1363 softs->ipf_state_wm_high) { 1364 softs->ipf_state_doflush = 1; 1365 } 1366 1367 /* 1368 * If a "keep state" rule has reached the maximum number of references 1369 * to it, then schedule an automatic flush in case we can clear out 1370 * some "dead old wood". Note that because the lock isn't held on 1371 * fr it is possible that we could overflow. The cost of overflowing 1372 * is being ignored here as the number by which it can overflow is 1373 * a product of the number of simultaneous threads that could be 1374 * executing in here, so a limit of 100 won't result in 200, but could 1375 * result in 101 or 102. 1376 */ 1377 fr = fin->fin_fr; 1378 if (fr != NULL) { 1379 if ((softs->ipf_state_stats.iss_active >= 1380 softs->ipf_state_max) && (fr->fr_statemax == 0)) { 1381 SBUMPD(ipf_state_stats, iss_max); 1382 return (1); 1383 } 1384 if ((fr->fr_statemax != 0) && 1385 (fr->fr_statecnt >= fr->fr_statemax)) { 1386 SBUMPD(ipf_state_stats, iss_max_ref); 1387 return (2); 1388 } 1389 } 1390 1391 is = &ips; 1392 if (fr == NULL) { 1393 pass = softc->ipf_flags; 1394 is->is_tag = FR_NOLOGTAG; 1395 } else { 1396 pass = fr->fr_flags; 1397 } 1398 1399 ic = NULL; 1400 tcp = NULL; 1401 out = fin->fin_out; 1402 bzero((char *)is, sizeof(*is)); 1403 is->is_die = 1 + softc->ipf_ticks; 1404 /* 1405 * We want to check everything that is a property of this packet, 1406 * but we don't (automatically) care about its fragment status as 1407 * this may change. 1408 */ 1409 is->is_pass = pass; 1410 is->is_v = fin->fin_v; 1411 is->is_sec = fin->fin_secmsk; 1412 is->is_secmsk = 0xffff; 1413 is->is_auth = fin->fin_auth; 1414 is->is_authmsk = 0xffff; 1415 is->is_family = fin->fin_family; 1416 is->is_opt[0] = fin->fin_optmsk; 1417 is->is_optmsk[0] = 0xffffffff; 1418 if (is->is_v == 6) { 1419 is->is_opt[0] &= ~0x8; 1420 is->is_optmsk[0] &= ~0x8; 1421 } 1422 1423 /* 1424 * Copy and calculate... 1425 */ 1426 hv = (is->is_p = fin->fin_fi.fi_p); 1427 is->is_src = fin->fin_fi.fi_src; 1428 hv += is->is_saddr; 1429 is->is_dst = fin->fin_fi.fi_dst; 1430 hv += is->is_daddr; 1431 #ifdef USE_INET6 1432 if (fin->fin_v == 6) { 1433 /* 1434 * For ICMPv6, we check to see if the destination address is 1435 * a multicast address. If it is, do not include it in the 1436 * calculation of the hash because the correct reply will come 1437 * back from a real address, not a multicast address. 1438 */ 1439 if ((is->is_p == IPPROTO_ICMPV6) && 1440 IN6_IS_ADDR_MULTICAST(&is->is_dst.in6)) { 1441 /* 1442 * So you can do keep state with neighbour discovery. 1443 * 1444 * Here we could use the address from the neighbour 1445 * solicit message to put in the state structure and 1446 * we could use that without a wildcard flag too... 1447 */ 1448 flags |= SI_W_DADDR; 1449 hv -= is->is_daddr; 1450 } else { 1451 hv += is->is_dst.i6[1]; 1452 hv += is->is_dst.i6[2]; 1453 hv += is->is_dst.i6[3]; 1454 } 1455 hv += is->is_src.i6[1]; 1456 hv += is->is_src.i6[2]; 1457 hv += is->is_src.i6[3]; 1458 } 1459 #endif 1460 if ((fin->fin_v == 4) && 1461 (fin->fin_flx & (FI_MULTICAST|FI_BROADCAST|FI_MBCAST))) { 1462 flags |= SI_W_DADDR; 1463 hv -= is->is_daddr; 1464 } 1465 1466 switch (is->is_p) 1467 { 1468 #ifdef USE_INET6 1469 case IPPROTO_ICMPV6 : 1470 ic = fin->fin_dp; 1471 1472 switch (ic->icmp_type) 1473 { 1474 case ICMP6_ECHO_REQUEST : 1475 hv += (is->is_icmp.ici_id = ic->icmp_id); 1476 /*FALLTHROUGH*/ 1477 case ICMP6_MEMBERSHIP_QUERY : 1478 case ND_ROUTER_SOLICIT : 1479 case ND_NEIGHBOR_SOLICIT : 1480 case ICMP6_NI_QUERY : 1481 is->is_icmp.ici_type = ic->icmp_type; 1482 break; 1483 default : 1484 SBUMPD(ipf_state_stats, iss_icmp6_notquery); 1485 return (-2); 1486 } 1487 break; 1488 #endif 1489 case IPPROTO_ICMP : 1490 ic = fin->fin_dp; 1491 1492 switch (ic->icmp_type) 1493 { 1494 case ICMP_ECHO : 1495 case ICMP_TSTAMP : 1496 case ICMP_IREQ : 1497 case ICMP_MASKREQ : 1498 is->is_icmp.ici_type = ic->icmp_type; 1499 hv += (is->is_icmp.ici_id = ic->icmp_id); 1500 break; 1501 default : 1502 SBUMPD(ipf_state_stats, iss_icmp_notquery); 1503 return (-3); 1504 } 1505 break; 1506 1507 #if 0 1508 case IPPROTO_GRE : 1509 gre = fin->fin_dp; 1510 1511 is->is_gre.gs_flags = gre->gr_flags; 1512 is->is_gre.gs_ptype = gre->gr_ptype; 1513 if (GRE_REV(is->is_gre.gs_flags) == 1) { 1514 is->is_call[0] = fin->fin_data[0]; 1515 is->is_call[1] = fin->fin_data[1]; 1516 } 1517 break; 1518 #endif 1519 1520 case IPPROTO_TCP : 1521 tcp = fin->fin_dp; 1522 1523 if (tcp->th_flags & TH_RST) { 1524 SBUMPD(ipf_state_stats, iss_tcp_rstadd); 1525 return (-4); 1526 } 1527 1528 /* TRACE is, flags, hv */ 1529 1530 /* 1531 * The endian of the ports doesn't matter, but the ack and 1532 * sequence numbers do as we do mathematics on them later. 1533 */ 1534 is->is_sport = htons(fin->fin_data[0]); 1535 is->is_dport = htons(fin->fin_data[1]); 1536 if ((flags & (SI_W_DPORT|SI_W_SPORT)) == 0) { 1537 hv += is->is_sport; 1538 hv += is->is_dport; 1539 } 1540 1541 /* TRACE is, flags, hv */ 1542 1543 /* 1544 * If this is a real packet then initialise fields in the 1545 * state information structure from the TCP header information. 1546 */ 1547 1548 is->is_maxdwin = 1; 1549 is->is_maxswin = ntohs(tcp->th_win); 1550 if (is->is_maxswin == 0) 1551 is->is_maxswin = 1; 1552 1553 if ((fin->fin_flx & FI_IGNORE) == 0) { 1554 is->is_send = ntohl(tcp->th_seq) + fin->fin_dlen - 1555 (TCP_OFF(tcp) << 2) + 1556 ((tcp->th_flags & TH_SYN) ? 1 : 0) + 1557 ((tcp->th_flags & TH_FIN) ? 1 : 0); 1558 is->is_maxsend = is->is_send; 1559 1560 /* 1561 * Window scale option is only present in 1562 * SYN/SYN-ACK packet. 1563 */ 1564 if ((tcp->th_flags & ~(TH_FIN|TH_ACK|TH_ECNALL)) == 1565 TH_SYN && 1566 (TCP_OFF(tcp) > (sizeof(tcphdr_t) >> 2))) { 1567 if (ipf_tcpoptions(softs, fin, tcp, 1568 &is->is_tcp.ts_data[0]) == -1) { 1569 fin->fin_flx |= FI_BAD; 1570 DT1(ipf_fi_bad_tcpoptions_th_fin_ack_ecnall, fr_info_t *, fin); 1571 } 1572 } 1573 1574 if ((fin->fin_out != 0) && (pass & FR_NEWISN) != 0) { 1575 ipf_checknewisn(fin, is); 1576 ipf_fixoutisn(fin, is); 1577 } 1578 1579 if ((tcp->th_flags & TH_OPENING) == TH_SYN) 1580 flags |= IS_TCPFSM; 1581 else { 1582 is->is_maxdwin = is->is_maxswin * 2; 1583 is->is_dend = ntohl(tcp->th_ack); 1584 is->is_maxdend = ntohl(tcp->th_ack); 1585 is->is_maxdwin *= 2; 1586 } 1587 } 1588 1589 /* 1590 * If we're creating state for a starting connection, start 1591 * the timer on it as we'll never see an error if it fails 1592 * to connect. 1593 */ 1594 break; 1595 1596 case IPPROTO_UDP : 1597 tcp = fin->fin_dp; 1598 1599 is->is_sport = htons(fin->fin_data[0]); 1600 is->is_dport = htons(fin->fin_data[1]); 1601 if ((flags & (SI_W_DPORT|SI_W_SPORT)) == 0) { 1602 hv += tcp->th_dport; 1603 hv += tcp->th_sport; 1604 } 1605 break; 1606 1607 default : 1608 break; 1609 } 1610 hv = DOUBLE_HASH(hv); 1611 is->is_hv = hv; 1612 1613 /* 1614 * Look for identical state. 1615 */ 1616 for (is = softs->ipf_state_table[hv % softs->ipf_state_size]; 1617 is != NULL; is = is->is_hnext) { 1618 if (ipf_state_match(&ips, is) == 1) 1619 break; 1620 } 1621 if (is != NULL) { 1622 SBUMPD(ipf_state_stats, iss_add_dup); 1623 return (3); 1624 } 1625 1626 if (softs->ipf_state_stats.iss_bucketlen[hv] >= 1627 softs->ipf_state_maxbucket) { 1628 SBUMPD(ipf_state_stats, iss_bucket_full); 1629 return (4); 1630 } 1631 1632 /* 1633 * No existing state; create new 1634 */ 1635 KMALLOC(is, ipstate_t *); 1636 if (is == NULL) { 1637 SBUMPD(ipf_state_stats, iss_nomem); 1638 return (5); 1639 } 1640 bcopy((char *)&ips, (char *)is, sizeof(*is)); 1641 is->is_flags = flags & IS_INHERITED; 1642 is->is_rulen = fin->fin_rule; 1643 is->is_rule = fr; 1644 1645 /* 1646 * Do not do the modulus here, it is done in ipf_state_insert(). 1647 */ 1648 if (fr != NULL) { 1649 ipftq_t *tq; 1650 1651 (void) strncpy(is->is_group, FR_NAME(fr, fr_group), 1652 FR_GROUPLEN); 1653 if (fr->fr_age[0] != 0) { 1654 tq = ipf_addtimeoutqueue(softc, 1655 &softs->ipf_state_usertq, 1656 fr->fr_age[0]); 1657 is->is_tqehead[0] = tq; 1658 is->is_sti.tqe_flags |= TQE_RULEBASED; 1659 } 1660 if (fr->fr_age[1] != 0) { 1661 tq = ipf_addtimeoutqueue(softc, 1662 &softs->ipf_state_usertq, 1663 fr->fr_age[1]); 1664 is->is_tqehead[1] = tq; 1665 is->is_sti.tqe_flags |= TQE_RULEBASED; 1666 } 1667 1668 is->is_tag = fr->fr_logtag; 1669 } 1670 1671 /* 1672 * It may seem strange to set is_ref to 2, but if stsave is not NULL 1673 * then a copy of the pointer is being stored somewhere else and in 1674 * the end, it will expect to be able to do something with it. 1675 */ 1676 is->is_me = stsave; 1677 if (stsave != NULL) { 1678 *stsave = is; 1679 is->is_ref = 2; 1680 } else { 1681 is->is_ref = 1; 1682 } 1683 is->is_pkts[0] = 0, is->is_bytes[0] = 0; 1684 is->is_pkts[1] = 0, is->is_bytes[1] = 0; 1685 is->is_pkts[2] = 0, is->is_bytes[2] = 0; 1686 is->is_pkts[3] = 0, is->is_bytes[3] = 0; 1687 if ((fin->fin_flx & FI_IGNORE) == 0) { 1688 is->is_pkts[out] = 1; 1689 fin->fin_pktnum = 1; 1690 is->is_bytes[out] = fin->fin_plen; 1691 is->is_flx[out][0] = fin->fin_flx & FI_CMP; 1692 is->is_flx[out][0] &= ~FI_OOW; 1693 } 1694 1695 if (pass & FR_STLOOSE) 1696 is->is_flags |= IS_LOOSE; 1697 1698 if (pass & FR_STSTRICT) 1699 is->is_flags |= IS_STRICT; 1700 1701 if (pass & FR_STATESYNC) 1702 is->is_flags |= IS_STATESYNC; 1703 1704 if (pass & FR_LOGFIRST) 1705 is->is_pass &= ~(FR_LOGFIRST|FR_LOG); 1706 1707 READ_ENTER(&softc->ipf_state); 1708 1709 if (ipf_state_insert(softc, is, fin->fin_rev) == -1) { 1710 RWLOCK_EXIT(&softc->ipf_state); 1711 /* 1712 * This is a bit more manual than it should be but 1713 * ipf_state_del cannot be called. 1714 */ 1715 MUTEX_EXIT(&is->is_lock); 1716 MUTEX_DESTROY(&is->is_lock); 1717 if (is->is_tqehead[0] != NULL) { 1718 if (ipf_deletetimeoutqueue(is->is_tqehead[0]) == 0) 1719 ipf_freetimeoutqueue(softc, is->is_tqehead[0]); 1720 is->is_tqehead[0] = NULL; 1721 } 1722 if (is->is_tqehead[1] != NULL) { 1723 if (ipf_deletetimeoutqueue(is->is_tqehead[1]) == 0) 1724 ipf_freetimeoutqueue(softc, is->is_tqehead[1]); 1725 is->is_tqehead[1] = NULL; 1726 } 1727 KFREE(is); 1728 return (-1); 1729 } 1730 1731 /* 1732 * Filling in the interface name is after the insert so that an 1733 * event (such as add/delete) of an interface that is referenced 1734 * by this rule will see this state entry. 1735 */ 1736 if (fr != NULL) { 1737 /* 1738 * The name '-' is special for network interfaces and causes 1739 * a NULL name to be present, always, allowing packets to 1740 * match it, regardless of their interface. 1741 */ 1742 if ((fin->fin_ifp == NULL) || 1743 (fr->fr_ifnames[out << 1] != -1 && 1744 fr->fr_names[fr->fr_ifnames[out << 1] + 0] == '-' && 1745 fr->fr_names[fr->fr_ifnames[out << 1] + 1] == '\0')) { 1746 is->is_ifp[out << 1] = fr->fr_ifas[0]; 1747 strncpy(is->is_ifname[out << 1], 1748 FR_NAME(fr, fr_ifnames[0]), 1749 sizeof(fr->fr_ifnames[0])); 1750 } else { 1751 is->is_ifp[out << 1] = fin->fin_ifp; 1752 COPYIFNAME(fin->fin_v, fin->fin_ifp, 1753 is->is_ifname[out << 1]); 1754 } 1755 1756 is->is_ifp[(out << 1) + 1] = fr->fr_ifas[1]; 1757 if (fr->fr_ifnames[1] != -1) { 1758 strncpy(is->is_ifname[(out << 1) + 1], 1759 FR_NAME(fr, fr_ifnames[1]), 1760 sizeof(fr->fr_ifnames[1])); 1761 } 1762 1763 is->is_ifp[(1 - out) << 1] = fr->fr_ifas[2]; 1764 if (fr->fr_ifnames[2] != -1) { 1765 strncpy(is->is_ifname[((1 - out) << 1)], 1766 FR_NAME(fr, fr_ifnames[2]), 1767 sizeof(fr->fr_ifnames[2])); 1768 } 1769 1770 is->is_ifp[((1 - out) << 1) + 1] = fr->fr_ifas[3]; 1771 if (fr->fr_ifnames[3] != -1) { 1772 strncpy(is->is_ifname[((1 - out) << 1) + 1], 1773 FR_NAME(fr, fr_ifnames[3]), 1774 sizeof(fr->fr_ifnames[3])); 1775 } 1776 } else { 1777 if (fin->fin_ifp != NULL) { 1778 is->is_ifp[out << 1] = fin->fin_ifp; 1779 COPYIFNAME(fin->fin_v, fin->fin_ifp, 1780 is->is_ifname[out << 1]); 1781 } 1782 } 1783 1784 if (fin->fin_p == IPPROTO_TCP) { 1785 /* 1786 * If we're creating state for a starting connection, start the 1787 * timer on it as we'll never see an error if it fails to 1788 * connect. 1789 */ 1790 (void) ipf_tcp_age(&is->is_sti, fin, softs->ipf_state_tcptq, 1791 is->is_flags, 2); 1792 } 1793 MUTEX_EXIT(&is->is_lock); 1794 if ((is->is_flags & IS_STATESYNC) && ((is->is_flags & SI_CLONE) == 0)) 1795 is->is_sync = ipf_sync_new(softc, SMC_STATE, fin, is); 1796 if (softs->ipf_state_logging) 1797 ipf_state_log(softc, is, ISL_NEW); 1798 1799 RWLOCK_EXIT(&softc->ipf_state); 1800 1801 fin->fin_flx |= FI_STATE; 1802 if (fin->fin_flx & FI_FRAG) 1803 (void) ipf_frag_new(softc, fin, pass); 1804 1805 fdp = &fr->fr_tifs[0]; 1806 if (fdp->fd_type == FRD_DSTLIST) { 1807 ipf_dstlist_select_node(fin, fdp->fd_ptr, NULL, 1808 &is->is_tifs[0]); 1809 } else { 1810 bcopy(fdp, &is->is_tifs[0], sizeof(*fdp)); 1811 } 1812 1813 fdp = &fr->fr_tifs[1]; 1814 if (fdp->fd_type == FRD_DSTLIST) { 1815 ipf_dstlist_select_node(fin, fdp->fd_ptr, NULL, 1816 &is->is_tifs[1]); 1817 } else { 1818 bcopy(fdp, &is->is_tifs[1], sizeof(*fdp)); 1819 } 1820 fin->fin_tif = &is->is_tifs[fin->fin_rev]; 1821 1822 fdp = &fr->fr_dif; 1823 if (fdp->fd_type == FRD_DSTLIST) { 1824 ipf_dstlist_select_node(fin, fdp->fd_ptr, NULL, 1825 &is->is_dif); 1826 } else { 1827 bcopy(fdp, &is->is_dif, sizeof(*fdp)); 1828 } 1829 fin->fin_dif = &is->is_dif; 1830 1831 return (0); 1832 } 1833 1834 1835 /* ------------------------------------------------------------------------ */ 1836 /* Function: ipf_tcpoptions */ 1837 /* Returns: int - 1 == packet matches state entry, 0 == it does not, */ 1838 /* -1 == packet has bad TCP options data */ 1839 /* Parameters: softs(I) - pointer to state context structure */ 1840 /* fin(I) - pointer to packet information */ 1841 /* tcp(I) - pointer to TCP packet header */ 1842 /* td(I) - pointer to TCP data held as part of the state */ 1843 /* */ 1844 /* Look after the TCP header for any options and deal with those that are */ 1845 /* present. Record details about those that we recogise. */ 1846 /* ------------------------------------------------------------------------ */ 1847 static int 1848 ipf_tcpoptions(ipf_state_softc_t *softs, fr_info_t *fin, tcphdr_t *tcp, 1849 tcpdata_t *td) 1850 { 1851 int off, mlen, ol, i, len, retval; 1852 char buf[64], *s, opt; 1853 mb_t *m = NULL; 1854 1855 len = (TCP_OFF(tcp) << 2); 1856 if (fin->fin_dlen < len) { 1857 SBUMPD(ipf_state_stats, iss_tcp_toosmall); 1858 return (0); 1859 } 1860 len -= sizeof(*tcp); 1861 1862 off = fin->fin_plen - fin->fin_dlen + sizeof(*tcp) + fin->fin_ipoff; 1863 1864 m = fin->fin_m; 1865 mlen = MSGDSIZE(m) - off; 1866 if (len > mlen) { 1867 len = mlen; 1868 retval = 0; 1869 } else { 1870 retval = 1; 1871 } 1872 1873 COPYDATA(m, off, len, buf); 1874 1875 for (s = buf; len > 0; ) { 1876 opt = *s; 1877 if (opt == TCPOPT_EOL) 1878 break; 1879 else if (opt == TCPOPT_NOP) 1880 ol = 1; 1881 else { 1882 if (len < 2) 1883 break; 1884 ol = (int)*(s + 1); 1885 if (ol < 2 || ol > len) 1886 break; 1887 1888 /* 1889 * Extract the TCP options we are interested in out of 1890 * the header and store them in the tcpdata struct. 1891 */ 1892 switch (opt) 1893 { 1894 case TCPOPT_WINDOW : 1895 if (ol == TCPOLEN_WINDOW) { 1896 i = (int)*(s + 2); 1897 if (i > TCP_WSCALE_MAX) 1898 i = TCP_WSCALE_MAX; 1899 else if (i < 0) 1900 i = 0; 1901 td->td_winscale = i; 1902 td->td_winflags |= TCP_WSCALE_SEEN| 1903 TCP_WSCALE_FIRST; 1904 } else 1905 retval = -1; 1906 break; 1907 case TCPOPT_MAXSEG : 1908 /* 1909 * So, if we wanted to set the TCP MAXSEG, 1910 * it should be done here... 1911 */ 1912 if (ol == TCPOLEN_MAXSEG) { 1913 i = (int)*(s + 2); 1914 i <<= 8; 1915 i += (int)*(s + 3); 1916 td->td_maxseg = i; 1917 } else 1918 retval = -1; 1919 break; 1920 case TCPOPT_SACK_PERMITTED : 1921 if (ol == TCPOLEN_SACK_PERMITTED) 1922 td->td_winflags |= TCP_SACK_PERMIT; 1923 else 1924 retval = -1; 1925 break; 1926 } 1927 } 1928 len -= ol; 1929 s += ol; 1930 } 1931 if (retval == -1) { 1932 SBUMPD(ipf_state_stats, iss_tcp_badopt); 1933 } 1934 return (retval); 1935 } 1936 1937 1938 /* ------------------------------------------------------------------------ */ 1939 /* Function: ipf_state_tcp */ 1940 /* Returns: int - 1 == packet matches state entry, 0 == it does not */ 1941 /* Parameters: softc(I) - pointer to soft context main structure */ 1942 /* softs(I) - pointer to state context structure */ 1943 /* fin(I) - pointer to packet information */ 1944 /* tcp(I) - pointer to TCP packet header */ 1945 /* is(I) - pointer to master state structure */ 1946 /* */ 1947 /* Check to see if a packet with TCP headers fits within the TCP window. */ 1948 /* Change timeout depending on whether new packet is a SYN-ACK returning */ 1949 /* for a SYN or a RST or FIN which indicate time to close up shop. */ 1950 /* ------------------------------------------------------------------------ */ 1951 static int 1952 ipf_state_tcp(ipf_main_softc_t *softc, ipf_state_softc_t *softs, 1953 fr_info_t *fin, tcphdr_t *tcp, ipstate_t *is) 1954 { 1955 tcpdata_t *fdata, *tdata; 1956 int source, ret, flags; 1957 1958 source = !fin->fin_rev; 1959 if (((is->is_flags & IS_TCPFSM) != 0) && (source == 1) && 1960 (ntohs(is->is_sport) != fin->fin_data[0])) 1961 source = 0; 1962 fdata = &is->is_tcp.ts_data[!source]; 1963 tdata = &is->is_tcp.ts_data[source]; 1964 1965 MUTEX_ENTER(&is->is_lock); 1966 1967 /* 1968 * If a SYN packet is received for a connection that is on the way out 1969 * but hasn't yet departed then advance this session along the way. 1970 */ 1971 if ((tcp->th_flags & TH_OPENING) == TH_SYN) { 1972 if ((is->is_state[0] > IPF_TCPS_ESTABLISHED) && 1973 (is->is_state[1] > IPF_TCPS_ESTABLISHED)) { 1974 is->is_state[!source] = IPF_TCPS_CLOSED; 1975 ipf_movequeue(softc->ipf_ticks, &is->is_sti, 1976 is->is_sti.tqe_ifq, 1977 &softs->ipf_state_deletetq); 1978 MUTEX_EXIT(&is->is_lock); 1979 DT1(iss_tcp_closing, ipstate_t *, is); 1980 SBUMP(ipf_state_stats.iss_tcp_closing); 1981 return (0); 1982 } 1983 } 1984 1985 if (is->is_flags & IS_LOOSE) 1986 ret = 1; 1987 else 1988 ret = ipf_state_tcpinwindow(fin, fdata, tdata, tcp, 1989 is->is_flags); 1990 if (ret > 0) { 1991 /* 1992 * Nearing end of connection, start timeout. 1993 */ 1994 ret = ipf_tcp_age(&is->is_sti, fin, softs->ipf_state_tcptq, 1995 is->is_flags, ret); 1996 if (ret == 0) { 1997 MUTEX_EXIT(&is->is_lock); 1998 DT2(iss_tcp_fsm, fr_info_t *, fin, ipstate_t *, is); 1999 SBUMP(ipf_state_stats.iss_tcp_fsm); 2000 return (0); 2001 } 2002 2003 if (softs->ipf_state_logging > 4) 2004 ipf_state_log(softc, is, ISL_STATECHANGE); 2005 2006 /* 2007 * set s0's as appropriate. Use syn-ack packet as it 2008 * contains both pieces of required information. 2009 */ 2010 /* 2011 * Window scale option is only present in SYN/SYN-ACK packet. 2012 * Compare with ~TH_FIN to mask out T/TCP setups. 2013 */ 2014 flags = tcp->th_flags & ~(TH_FIN|TH_ECNALL); 2015 if (flags == (TH_SYN|TH_ACK)) { 2016 is->is_s0[source] = ntohl(tcp->th_ack); 2017 is->is_s0[!source] = ntohl(tcp->th_seq) + 1; 2018 if ((TCP_OFF(tcp) > (sizeof(tcphdr_t) >> 2))) { 2019 if (ipf_tcpoptions(softs, fin, tcp, 2020 fdata) == -1) { 2021 fin->fin_flx |= FI_BAD; 2022 DT1(ipf_fi_bad_winscale_syn_ack, fr_info_t *, fin); 2023 } 2024 } 2025 if ((fin->fin_out != 0) && (is->is_pass & FR_NEWISN)) 2026 ipf_checknewisn(fin, is); 2027 } else if (flags == TH_SYN) { 2028 is->is_s0[source] = ntohl(tcp->th_seq) + 1; 2029 if ((TCP_OFF(tcp) > (sizeof(tcphdr_t) >> 2))) { 2030 if (ipf_tcpoptions(softs, fin, tcp, 2031 fdata) == -1) { 2032 fin->fin_flx |= FI_BAD; 2033 DT1(ipf_fi_bad_winscale_syn, fr_info_t *, fin); 2034 } 2035 } 2036 2037 if ((fin->fin_out != 0) && (is->is_pass & FR_NEWISN)) 2038 ipf_checknewisn(fin, is); 2039 2040 } 2041 ret = 1; 2042 } else { 2043 DT2(iss_tcp_oow, fr_info_t *, fin, ipstate_t *, is); 2044 SBUMP(ipf_state_stats.iss_tcp_oow); 2045 ret = 0; 2046 } 2047 MUTEX_EXIT(&is->is_lock); 2048 return (ret); 2049 } 2050 2051 2052 /* ------------------------------------------------------------------------ */ 2053 /* Function: ipf_checknewisn */ 2054 /* Returns: Nil */ 2055 /* Parameters: fin(I) - pointer to packet information */ 2056 /* is(I) - pointer to master state structure */ 2057 /* */ 2058 /* Check to see if this TCP connection is expecting and needs a new */ 2059 /* sequence number for a particular direction of the connection. */ 2060 /* */ 2061 /* NOTE: This does not actually change the sequence numbers, only gets new */ 2062 /* one ready. */ 2063 /* ------------------------------------------------------------------------ */ 2064 static void 2065 ipf_checknewisn(fr_info_t *fin, ipstate_t *is) 2066 { 2067 u_32_t sumd, old, new; 2068 tcphdr_t *tcp; 2069 int i; 2070 2071 i = fin->fin_rev; 2072 tcp = fin->fin_dp; 2073 2074 if (((i == 0) && !(is->is_flags & IS_ISNSYN)) || 2075 ((i == 1) && !(is->is_flags & IS_ISNACK))) { 2076 old = ntohl(tcp->th_seq); 2077 new = ipf_newisn(fin); 2078 is->is_isninc[i] = new - old; 2079 CALC_SUMD(old, new, sumd); 2080 is->is_sumd[i] = (sumd & 0xffff) + (sumd >> 16); 2081 2082 is->is_flags |= ((i == 0) ? IS_ISNSYN : IS_ISNACK); 2083 } 2084 } 2085 2086 2087 /* ------------------------------------------------------------------------ */ 2088 /* Function: ipf_state_tcpinwindow */ 2089 /* Returns: int - 1 == packet inside TCP "window", 0 == not inside. */ 2090 /* Parameters: fin(I) - pointer to packet information */ 2091 /* fdata(I) - pointer to tcp state informatio (forward) */ 2092 /* tdata(I) - pointer to tcp state informatio (reverse) */ 2093 /* tcp(I) - pointer to TCP packet header */ 2094 /* */ 2095 /* Given a packet has matched addresses and ports, check to see if it is */ 2096 /* within the TCP data window. In a show of generosity, allow packets that */ 2097 /* are within the window space behind the current sequence # as well. */ 2098 /* ------------------------------------------------------------------------ */ 2099 static int 2100 ipf_state_tcpinwindow(fr_info_t *fin, tcpdata_t *fdata, tcpdata_t *tdata, 2101 tcphdr_t *tcp, int flags) 2102 { 2103 ipf_main_softc_t *softc = fin->fin_main_soft; 2104 ipf_state_softc_t *softs = softc->ipf_state_soft; 2105 tcp_seq seq, ack, end; 2106 int ackskew, tcpflags; 2107 u_32_t win, maxwin; 2108 int dsize, inseq; 2109 2110 /* 2111 * Find difference between last checked packet and this packet. 2112 */ 2113 tcpflags = tcp->th_flags; 2114 seq = ntohl(tcp->th_seq); 2115 ack = ntohl(tcp->th_ack); 2116 if (tcpflags & TH_SYN) 2117 win = ntohs(tcp->th_win); 2118 else 2119 win = ntohs(tcp->th_win) << fdata->td_winscale; 2120 2121 /* 2122 * A window of 0 produces undesirable behaviour from this function. 2123 */ 2124 if (win == 0) 2125 win = 1; 2126 2127 dsize = fin->fin_dlen - (TCP_OFF(tcp) << 2) + 2128 ((tcpflags & TH_SYN) ? 1 : 0) + ((tcpflags & TH_FIN) ? 1 : 0); 2129 2130 /* 2131 * if window scaling is present, the scaling is only allowed 2132 * for windows not in the first SYN packet. In that packet the 2133 * window is 65535 to specify the largest window possible 2134 * for receivers not implementing the window scale option. 2135 * Currently, we do not assume TTCP here. That means that 2136 * if we see a second packet from a host (after the initial 2137 * SYN), we can assume that the receiver of the SYN did 2138 * already send back the SYN/ACK (and thus that we know if 2139 * the receiver also does window scaling) 2140 */ 2141 if (!(tcpflags & TH_SYN) && (fdata->td_winflags & TCP_WSCALE_FIRST)) { 2142 fdata->td_winflags &= ~TCP_WSCALE_FIRST; 2143 fdata->td_maxwin = win; 2144 } 2145 2146 end = seq + dsize; 2147 2148 if ((fdata->td_end == 0) && 2149 (!(flags & IS_TCPFSM) || 2150 ((tcpflags & TH_OPENING) == TH_OPENING))) { 2151 /* 2152 * Must be a (outgoing) SYN-ACK in reply to a SYN. 2153 */ 2154 fdata->td_end = end - 1; 2155 fdata->td_maxwin = 1; 2156 fdata->td_maxend = end + win; 2157 } 2158 2159 if (!(tcpflags & TH_ACK)) { /* Pretend an ack was sent */ 2160 ack = tdata->td_end; 2161 } else if (((tcpflags & (TH_ACK|TH_RST)) == (TH_ACK|TH_RST)) && 2162 (ack == 0)) { 2163 /* gross hack to get around certain broken tcp stacks */ 2164 ack = tdata->td_end; 2165 } 2166 2167 maxwin = tdata->td_maxwin; 2168 ackskew = tdata->td_end - ack; 2169 2170 /* 2171 * Strict sequencing only allows in-order delivery. 2172 */ 2173 if ((flags & IS_STRICT) != 0) { 2174 if (seq != fdata->td_end) { 2175 DT2(iss_tcp_struct, tcpdata_t *, fdata, int, seq); 2176 SBUMP(ipf_state_stats.iss_tcp_strict); 2177 fin->fin_flx |= FI_OOW; 2178 return (0); 2179 } 2180 } 2181 2182 #define SEQ_GE(a,b) ((int)((a) - (b)) >= 0) 2183 #define SEQ_GT(a,b) ((int)((a) - (b)) > 0) 2184 inseq = 0; 2185 if ((SEQ_GE(fdata->td_maxend, end)) && 2186 (SEQ_GE(seq, fdata->td_end - maxwin)) && 2187 /* XXX what about big packets */ 2188 #define MAXACKWINDOW 66000 2189 (-ackskew <= (MAXACKWINDOW)) && 2190 ( ackskew <= (MAXACKWINDOW << fdata->td_winscale))) { 2191 inseq = 1; 2192 /* 2193 * Microsoft Windows will send the next packet to the right of the 2194 * window if SACK is in use. 2195 */ 2196 } else if ((seq == fdata->td_maxend) && (ackskew == 0) && 2197 (fdata->td_winflags & TCP_SACK_PERMIT) && 2198 (tdata->td_winflags & TCP_SACK_PERMIT)) { 2199 DT2(iss_sinsack, tcpdata_t *, fdata, int, seq); 2200 SBUMP(ipf_state_stats.iss_winsack); 2201 inseq = 1; 2202 /* 2203 * Sometimes a TCP RST will be generated with only the ACK field 2204 * set to non-zero. 2205 */ 2206 } else if ((seq == 0) && (tcpflags == (TH_RST|TH_ACK)) && 2207 (ackskew >= -1) && (ackskew <= 1)) { 2208 inseq = 1; 2209 } else if (!(flags & IS_TCPFSM)) { 2210 int i; 2211 2212 i = (fin->fin_rev << 1) + fin->fin_out; 2213 2214 #if 0 2215 if (is_pkts[i]0 == 0) { 2216 /* 2217 * Picking up a connection in the middle, the "next" 2218 * packet seen from a direction that is new should be 2219 * accepted, even if it appears out of sequence. 2220 */ 2221 inseq = 1; 2222 } else 2223 #endif 2224 if (!(fdata->td_winflags & 2225 (TCP_WSCALE_SEEN|TCP_WSCALE_FIRST))) { 2226 /* 2227 * No TCPFSM and no window scaling, so make some 2228 * extra guesses. 2229 */ 2230 if ((seq == fdata->td_maxend) && (ackskew == 0)) 2231 inseq = 1; 2232 else if (SEQ_GE(seq + maxwin, fdata->td_end - maxwin)) 2233 inseq = 1; 2234 } 2235 } 2236 2237 /* TRACE(inseq, fdata, tdata, seq, end, ack, ackskew, win, maxwin) */ 2238 2239 if (inseq) { 2240 /* if ackskew < 0 then this should be due to fragmented 2241 * packets. There is no way to know the length of the 2242 * total packet in advance. 2243 * We do know the total length from the fragment cache though. 2244 * Note however that there might be more sessions with 2245 * exactly the same source and destination parameters in the 2246 * state cache (and source and destination is the only stuff 2247 * that is saved in the fragment cache). Note further that 2248 * some TCP connections in the state cache are hashed with 2249 * sport and dport as well which makes it not worthwhile to 2250 * look for them. 2251 * Thus, when ackskew is negative but still seems to belong 2252 * to this session, we bump up the destinations end value. 2253 */ 2254 if (ackskew < 0) 2255 tdata->td_end = ack; 2256 2257 /* update max window seen */ 2258 if (fdata->td_maxwin < win) 2259 fdata->td_maxwin = win; 2260 if (SEQ_GT(end, fdata->td_end)) 2261 fdata->td_end = end; 2262 if (SEQ_GE(ack + win, tdata->td_maxend)) 2263 tdata->td_maxend = ack + win; 2264 return (1); 2265 } 2266 SBUMP(ipf_state_stats.iss_oow); 2267 fin->fin_flx |= FI_OOW; 2268 return (0); 2269 } 2270 2271 2272 /* ------------------------------------------------------------------------ */ 2273 /* Function: ipf_state_clone */ 2274 /* Returns: ipstate_t* - NULL == cloning failed, */ 2275 /* else pointer to new state structure */ 2276 /* Parameters: fin(I) - pointer to packet information */ 2277 /* tcp(I) - pointer to TCP/UDP header */ 2278 /* is(I) - pointer to master state structure */ 2279 /* */ 2280 /* Create a "duplcate" state table entry from the master. */ 2281 /* ------------------------------------------------------------------------ */ 2282 static ipstate_t * 2283 ipf_state_clone(fr_info_t *fin, tcphdr_t *tcp, ipstate_t *is) 2284 { 2285 ipf_main_softc_t *softc = fin->fin_main_soft; 2286 ipf_state_softc_t *softs = softc->ipf_state_soft; 2287 ipstate_t *clone; 2288 u_32_t send; 2289 2290 if (softs->ipf_state_stats.iss_active == softs->ipf_state_max) { 2291 SBUMPD(ipf_state_stats, iss_max); 2292 softs->ipf_state_doflush = 1; 2293 return (NULL); 2294 } 2295 KMALLOC(clone, ipstate_t *); 2296 if (clone == NULL) { 2297 SBUMPD(ipf_state_stats, iss_clone_nomem); 2298 return (NULL); 2299 } 2300 bcopy((char *)is, (char *)clone, sizeof(*clone)); 2301 2302 MUTEX_NUKE(&clone->is_lock); 2303 /* 2304 * It has not yet been placed on any timeout queue, so make sure 2305 * all of that data is zero'd out. 2306 */ 2307 clone->is_sti.tqe_pnext = NULL; 2308 clone->is_sti.tqe_next = NULL; 2309 clone->is_sti.tqe_ifq = NULL; 2310 clone->is_sti.tqe_parent = clone; 2311 2312 clone->is_die = ONE_DAY + softc->ipf_ticks; 2313 clone->is_state[0] = 0; 2314 clone->is_state[1] = 0; 2315 send = ntohl(tcp->th_seq) + fin->fin_dlen - (TCP_OFF(tcp) << 2) + 2316 ((tcp->th_flags & TH_SYN) ? 1 : 0) + 2317 ((tcp->th_flags & TH_FIN) ? 1 : 0); 2318 2319 if (fin->fin_rev == 1) { 2320 clone->is_dend = send; 2321 clone->is_maxdend = send; 2322 clone->is_send = 0; 2323 clone->is_maxswin = 1; 2324 clone->is_maxdwin = ntohs(tcp->th_win); 2325 if (clone->is_maxdwin == 0) 2326 clone->is_maxdwin = 1; 2327 } else { 2328 clone->is_send = send; 2329 clone->is_maxsend = send; 2330 clone->is_dend = 0; 2331 clone->is_maxdwin = 1; 2332 clone->is_maxswin = ntohs(tcp->th_win); 2333 if (clone->is_maxswin == 0) 2334 clone->is_maxswin = 1; 2335 } 2336 2337 clone->is_flags &= ~SI_CLONE; 2338 clone->is_flags |= SI_CLONED; 2339 if (ipf_state_insert(softc, clone, fin->fin_rev) == -1) { 2340 KFREE(clone); 2341 return (NULL); 2342 } 2343 2344 clone->is_ref = 1; 2345 if (clone->is_p == IPPROTO_TCP) { 2346 (void) ipf_tcp_age(&clone->is_sti, fin, softs->ipf_state_tcptq, 2347 clone->is_flags, 2); 2348 } 2349 MUTEX_EXIT(&clone->is_lock); 2350 if (is->is_flags & IS_STATESYNC) 2351 clone->is_sync = ipf_sync_new(softc, SMC_STATE, fin, clone); 2352 DT2(iss_clone, ipstate_t *, is, ipstate_t *, clone); 2353 SBUMP(ipf_state_stats.iss_cloned); 2354 return (clone); 2355 } 2356 2357 2358 /* ------------------------------------------------------------------------ */ 2359 /* Function: ipf_matchsrcdst */ 2360 /* Returns: Nil */ 2361 /* Parameters: fin(I) - pointer to packet information */ 2362 /* is(I) - pointer to state structure */ 2363 /* src(I) - pointer to source address */ 2364 /* dst(I) - pointer to destination address */ 2365 /* tcp(I) - pointer to TCP/UDP header */ 2366 /* cmask(I) - mask of FI_* bits to check */ 2367 /* */ 2368 /* Match a state table entry against an IP packet. The logic below is that */ 2369 /* ret gets set to one if the match succeeds, else remains 0. If it is */ 2370 /* still 0 after the test. no match. */ 2371 /* ------------------------------------------------------------------------ */ 2372 static ipstate_t * 2373 ipf_matchsrcdst(fr_info_t *fin, ipstate_t *is, i6addr_t *src, i6addr_t *dst, 2374 tcphdr_t *tcp, u_32_t cmask) 2375 { 2376 ipf_main_softc_t *softc = fin->fin_main_soft; 2377 ipf_state_softc_t *softs = softc->ipf_state_soft; 2378 int ret = 0, rev, out, flags, flx = 0, idx; 2379 u_short sp, dp; 2380 u_32_t cflx; 2381 void *ifp; 2382 2383 /* 2384 * If a connection is about to be deleted, no packets 2385 * are allowed to match it. 2386 */ 2387 if (is->is_sti.tqe_ifq == &softs->ipf_state_deletetq) 2388 return (NULL); 2389 2390 rev = IP6_NEQ(&is->is_dst, dst); 2391 ifp = fin->fin_ifp; 2392 out = fin->fin_out; 2393 flags = is->is_flags; 2394 sp = 0; 2395 dp = 0; 2396 2397 if (tcp != NULL) { 2398 sp = htons(fin->fin_sport); 2399 dp = ntohs(fin->fin_dport); 2400 } 2401 if (!rev) { 2402 if (tcp != NULL) { 2403 if (!(flags & SI_W_SPORT) && (sp != is->is_sport)) 2404 rev = 1; 2405 else if (!(flags & SI_W_DPORT) && (dp != is->is_dport)) 2406 rev = 1; 2407 } 2408 } 2409 2410 idx = (out << 1) + rev; 2411 2412 /* 2413 * If the interface for this 'direction' is set, make sure it matches. 2414 * An interface name that is not set matches any, as does a name of *. 2415 */ 2416 if ((is->is_ifp[idx] == ifp) || (is->is_ifp[idx] == NULL && 2417 (*is->is_ifname[idx] == '\0' || *is->is_ifname[idx] == '-' || 2418 *is->is_ifname[idx] == '*'))) 2419 ret = 1; 2420 2421 if (ret == 0) { 2422 DT2(iss_lookup_badifp, fr_info_t *, fin, ipstate_t *, is); 2423 SBUMP(ipf_state_stats.iss_lookup_badifp); 2424 /* TRACE is, out, rev, idx */ 2425 return (NULL); 2426 } 2427 ret = 0; 2428 2429 /* 2430 * Match addresses and ports. 2431 */ 2432 if (rev == 0) { 2433 if ((IP6_EQ(&is->is_dst, dst) || (flags & SI_W_DADDR)) && 2434 (IP6_EQ(&is->is_src, src) || (flags & SI_W_SADDR))) { 2435 if (tcp) { 2436 if ((sp == is->is_sport || flags & SI_W_SPORT) 2437 && 2438 (dp == is->is_dport || flags & SI_W_DPORT)) 2439 ret = 1; 2440 } else { 2441 ret = 1; 2442 } 2443 } 2444 } else { 2445 if ((IP6_EQ(&is->is_dst, src) || (flags & SI_W_DADDR)) && 2446 (IP6_EQ(&is->is_src, dst) || (flags & SI_W_SADDR))) { 2447 if (tcp) { 2448 if ((dp == is->is_sport || flags & SI_W_SPORT) 2449 && 2450 (sp == is->is_dport || flags & SI_W_DPORT)) 2451 ret = 1; 2452 } else { 2453 ret = 1; 2454 } 2455 } 2456 } 2457 2458 if (ret == 0) { 2459 SBUMP(ipf_state_stats.iss_lookup_badport); 2460 DT2(iss_lookup_badport, fr_info_t *, fin, ipstate_t *, is); 2461 /* TRACE rev, is, sp, dp, src, dst */ 2462 return (NULL); 2463 } 2464 2465 /* 2466 * Whether or not this should be here, is questionable, but the aim 2467 * is to get this out of the main line. 2468 */ 2469 if (tcp == NULL) 2470 flags = is->is_flags & ~(SI_WILDP|SI_NEWFR|SI_CLONE|SI_CLONED); 2471 2472 /* 2473 * Only one of the source or destination address can be flaged as a 2474 * wildcard. Fill in the missing address, if set. 2475 * For IPv6, if the address being copied in is multicast, then 2476 * don't reset the wild flag - multicast causes it to be set in the 2477 * first place! 2478 */ 2479 if ((flags & (SI_W_SADDR|SI_W_DADDR))) { 2480 fr_ip_t *fi = &fin->fin_fi; 2481 2482 if ((flags & SI_W_SADDR) != 0) { 2483 if (rev == 0) { 2484 is->is_src = fi->fi_src; 2485 is->is_flags &= ~SI_W_SADDR; 2486 } else { 2487 if (!(fin->fin_flx & (FI_MULTICAST|FI_MBCAST))){ 2488 is->is_src = fi->fi_dst; 2489 is->is_flags &= ~SI_W_SADDR; 2490 } 2491 } 2492 } else if ((flags & SI_W_DADDR) != 0) { 2493 if (rev == 0) { 2494 if (!(fin->fin_flx & (FI_MULTICAST|FI_MBCAST))){ 2495 is->is_dst = fi->fi_dst; 2496 is->is_flags &= ~SI_W_DADDR; 2497 } 2498 } else { 2499 is->is_dst = fi->fi_src; 2500 is->is_flags &= ~SI_W_DADDR; 2501 } 2502 } 2503 if ((is->is_flags & (SI_WILDA|SI_WILDP)) == 0) { 2504 ATOMIC_DECL(softs->ipf_state_stats.iss_wild); 2505 } 2506 } 2507 2508 flx = fin->fin_flx & cmask; 2509 cflx = is->is_flx[out][rev]; 2510 2511 /* 2512 * Match up any flags set from IP options. 2513 */ 2514 if ((cflx && (flx != (cflx & cmask))) || 2515 ((fin->fin_optmsk & is->is_optmsk[rev]) != is->is_opt[rev]) || 2516 ((fin->fin_secmsk & is->is_secmsk) != is->is_sec) || 2517 ((fin->fin_auth & is->is_authmsk) != is->is_auth)) { 2518 SBUMPD(ipf_state_stats, iss_miss_mask); 2519 return (NULL); 2520 } 2521 2522 if ((fin->fin_flx & FI_IGNORE) != 0) { 2523 fin->fin_rev = rev; 2524 return (is); 2525 } 2526 2527 /* 2528 * Only one of the source or destination port can be flagged as a 2529 * wildcard. When filling it in, fill in a copy of the matched entry 2530 * if it has the cloning flag set. 2531 */ 2532 if ((flags & (SI_W_SPORT|SI_W_DPORT))) { 2533 if ((flags & SI_CLONE) != 0) { 2534 ipstate_t *clone; 2535 2536 clone = ipf_state_clone(fin, tcp, is); 2537 if (clone == NULL) 2538 return (NULL); 2539 is = clone; 2540 } else { 2541 ATOMIC_DECL(softs->ipf_state_stats.iss_wild); 2542 } 2543 2544 if ((flags & SI_W_SPORT) != 0) { 2545 if (rev == 0) { 2546 is->is_sport = sp; 2547 is->is_send = ntohl(tcp->th_seq); 2548 } else { 2549 is->is_sport = dp; 2550 is->is_send = ntohl(tcp->th_ack); 2551 } 2552 is->is_maxsend = is->is_send + 1; 2553 } else if ((flags & SI_W_DPORT) != 0) { 2554 if (rev == 0) { 2555 is->is_dport = dp; 2556 is->is_dend = ntohl(tcp->th_ack); 2557 } else { 2558 is->is_dport = sp; 2559 is->is_dend = ntohl(tcp->th_seq); 2560 } 2561 is->is_maxdend = is->is_dend + 1; 2562 } 2563 is->is_flags &= ~(SI_W_SPORT|SI_W_DPORT); 2564 if ((flags & SI_CLONED) && softs->ipf_state_logging) 2565 ipf_state_log(softc, is, ISL_CLONE); 2566 } 2567 2568 ret = -1; 2569 2570 if (is->is_flx[out][rev] == 0) { 2571 is->is_flx[out][rev] = flx; 2572 if (rev == 1 && is->is_optmsk[1] == 0) { 2573 is->is_opt[1] = fin->fin_optmsk; 2574 is->is_optmsk[1] = 0xffffffff; 2575 if (is->is_v == 6) { 2576 is->is_opt[1] &= ~0x8; 2577 is->is_optmsk[1] &= ~0x8; 2578 } 2579 } 2580 } 2581 2582 /* 2583 * Check if the interface name for this "direction" is set and if not, 2584 * fill it in. 2585 */ 2586 if (is->is_ifp[idx] == NULL && 2587 (*is->is_ifname[idx] == '\0' || *is->is_ifname[idx] == '*')) { 2588 is->is_ifp[idx] = ifp; 2589 COPYIFNAME(fin->fin_v, ifp, is->is_ifname[idx]); 2590 } 2591 fin->fin_rev = rev; 2592 return (is); 2593 } 2594 2595 2596 /* ------------------------------------------------------------------------ */ 2597 /* Function: ipf_checkicmpmatchingstate */ 2598 /* Returns: Nil */ 2599 /* Parameters: fin(I) - pointer to packet information */ 2600 /* */ 2601 /* If we've got an ICMP error message, using the information stored in the */ 2602 /* ICMP packet, look for a matching state table entry. */ 2603 /* */ 2604 /* If we return NULL then no lock on ipf_state is held. */ 2605 /* If we return non-null then a read-lock on ipf_state is held. */ 2606 /* ------------------------------------------------------------------------ */ 2607 static ipstate_t * 2608 ipf_checkicmpmatchingstate(fr_info_t *fin) 2609 { 2610 ipf_main_softc_t *softc = fin->fin_main_soft; 2611 ipf_state_softc_t *softs = softc->ipf_state_soft; 2612 ipstate_t *is, **isp; 2613 i6addr_t dst, src; 2614 struct icmp *ic; 2615 u_short savelen; 2616 icmphdr_t *icmp; 2617 fr_info_t ofin; 2618 tcphdr_t *tcp; 2619 int type, len; 2620 u_char pr; 2621 ip_t *oip; 2622 u_int hv; 2623 2624 /* 2625 * Does it at least have the return (basic) IP header ? 2626 * Is it an actual recognised ICMP error type? 2627 * Only a basic IP header (no options) should be with 2628 * an ICMP error header. 2629 */ 2630 if ((fin->fin_v != 4) || (fin->fin_hlen != sizeof(ip_t)) || 2631 (fin->fin_plen < ICMPERR_MINPKTLEN) || 2632 !(fin->fin_flx & FI_ICMPERR)) { 2633 SBUMPD(ipf_state_stats, iss_icmp_bad); 2634 return (NULL); 2635 } 2636 ic = fin->fin_dp; 2637 type = ic->icmp_type; 2638 2639 oip = (ip_t *)((char *)ic + ICMPERR_ICMPHLEN); 2640 /* 2641 * Check if the at least the old IP header (with options) and 2642 * 8 bytes of payload is present. 2643 */ 2644 if (fin->fin_plen < ICMPERR_MAXPKTLEN + ((IP_HL(oip) - 5) << 2)) { 2645 SBUMPDX(ipf_state_stats, iss_icmp_short, iss_icmp_short_1); 2646 return (NULL); 2647 } 2648 2649 /* 2650 * Sanity Checks. 2651 */ 2652 len = fin->fin_dlen - ICMPERR_ICMPHLEN; 2653 if ((len <= 0) || ((IP_HL(oip) << 2) > len)) { 2654 DT2(iss_icmp_len, fr_info_t *, fin, struct ip*, oip); 2655 SBUMPDX(ipf_state_stats, iss_icmp_short, iss_icmp_short_1); 2656 return (NULL); 2657 } 2658 2659 /* 2660 * Is the buffer big enough for all of it ? It's the size of the IP 2661 * header claimed in the encapsulated part which is of concern. It 2662 * may be too big to be in this buffer but not so big that it's 2663 * outside the ICMP packet, leading to TCP deref's causing problems. 2664 * This is possible because we don't know how big oip_hl is when we 2665 * do the pullup early in ipf_check() and thus can't guarantee it is 2666 * all here now. 2667 */ 2668 #ifdef _KERNEL 2669 { 2670 mb_t *m; 2671 2672 m = fin->fin_m; 2673 # if SOLARIS 2674 if ((char *)oip + len > (char *)m->b_wptr) { 2675 SBUMPDX(ipf_state_stats, iss_icmp_short, iss_icmp_short_2); 2676 return (NULL); 2677 } 2678 # else 2679 if ((char *)oip + len > (char *)fin->fin_ip + m->m_len) { 2680 SBUMPDX(ipf_state_stats, iss_icmp_short, iss_icmp_short_3); 2681 return (NULL); 2682 } 2683 # endif 2684 } 2685 #endif 2686 2687 bcopy((char *)fin, (char *)&ofin, sizeof(*fin)); 2688 2689 /* 2690 * in the IPv4 case we must zero the i6addr union otherwise 2691 * the IP6_EQ and IP6_NEQ macros produce the wrong results because 2692 * of the 'junk' in the unused part of the union 2693 */ 2694 bzero((char *)&src, sizeof(src)); 2695 bzero((char *)&dst, sizeof(dst)); 2696 2697 /* 2698 * we make an fin entry to be able to feed it to 2699 * matchsrcdst note that not all fields are encessary 2700 * but this is the cleanest way. Note further we fill 2701 * in fin_mp such that if someone uses it we'll get 2702 * a kernel panic. ipf_matchsrcdst does not use this. 2703 * 2704 * watch out here, as ip is in host order and oip in network 2705 * order. Any change we make must be undone afterwards, like 2706 * oip->ip_len. 2707 */ 2708 savelen = oip->ip_len; 2709 oip->ip_len = htons(len); 2710 2711 ofin.fin_flx = FI_NOCKSUM; 2712 ofin.fin_v = 4; 2713 ofin.fin_ip = oip; 2714 ofin.fin_m = NULL; /* if dereferenced, panic XXX */ 2715 ofin.fin_mp = NULL; /* if dereferenced, panic XXX */ 2716 (void) ipf_makefrip(IP_HL(oip) << 2, oip, &ofin); 2717 ofin.fin_ifp = fin->fin_ifp; 2718 ofin.fin_out = !fin->fin_out; 2719 2720 hv = (pr = oip->ip_p); 2721 src.in4 = oip->ip_src; 2722 hv += src.in4.s_addr; 2723 dst.in4 = oip->ip_dst; 2724 hv += dst.in4.s_addr; 2725 2726 /* 2727 * Reset the short and bad flag here because in ipf_matchsrcdst() 2728 * the flags for the current packet (fin_flx) are compared against 2729 * those for the existing session. 2730 */ 2731 ofin.fin_flx &= ~(FI_BAD|FI_SHORT); 2732 2733 /* 2734 * Put old values of ip_len back as we don't know 2735 * if we have to forward the packet or process it again. 2736 */ 2737 oip->ip_len = savelen; 2738 2739 switch (oip->ip_p) 2740 { 2741 case IPPROTO_ICMP : 2742 /* 2743 * an ICMP error can only be generated as a result of an 2744 * ICMP query, not as the response on an ICMP error 2745 * 2746 * XXX theoretically ICMP_ECHOREP and the other reply's are 2747 * ICMP query's as well, but adding them here seems strange XXX 2748 */ 2749 if ((ofin.fin_flx & FI_ICMPERR) != 0) { 2750 DT1(iss_icmp_icmperr, fr_info_t *, &ofin); 2751 SBUMP(ipf_state_stats.iss_icmp_icmperr); 2752 return (NULL); 2753 } 2754 2755 /* 2756 * perform a lookup of the ICMP packet in the state table 2757 */ 2758 icmp = (icmphdr_t *)((char *)oip + (IP_HL(oip) << 2)); 2759 hv += icmp->icmp_id; 2760 hv = DOUBLE_HASH(hv); 2761 2762 READ_ENTER(&softc->ipf_state); 2763 for (isp = &softs->ipf_state_table[hv]; 2764 ((is = *isp) != NULL); ) { 2765 isp = &is->is_hnext; 2766 if ((is->is_p != pr) || (is->is_v != 4)) 2767 continue; 2768 if (is->is_pass & FR_NOICMPERR) 2769 continue; 2770 2771 is = ipf_matchsrcdst(&ofin, is, &src, &dst, 2772 NULL, FI_ICMPCMP); 2773 if ((is != NULL) && !ipf_allowstateicmp(fin, is, &src)) 2774 return (is); 2775 } 2776 RWLOCK_EXIT(&softc->ipf_state); 2777 SBUMPDX(ipf_state_stats, iss_icmp_miss, iss_icmp_miss_1); 2778 return (NULL); 2779 case IPPROTO_TCP : 2780 case IPPROTO_UDP : 2781 break; 2782 default : 2783 SBUMPDX(ipf_state_stats, iss_icmp_miss, iss_icmp_miss_2); 2784 return (NULL); 2785 } 2786 2787 tcp = (tcphdr_t *)((char *)oip + (IP_HL(oip) << 2)); 2788 2789 hv += tcp->th_dport; 2790 hv += tcp->th_sport; 2791 hv = DOUBLE_HASH(hv); 2792 2793 READ_ENTER(&softc->ipf_state); 2794 for (isp = &softs->ipf_state_table[hv]; ((is = *isp) != NULL); ) { 2795 isp = &is->is_hnext; 2796 /* 2797 * Only allow this icmp though if the 2798 * encapsulated packet was allowed through the 2799 * other way around. Note that the minimal amount 2800 * of info present does not allow for checking against 2801 * tcp internals such as seq and ack numbers. Only the 2802 * ports are known to be present and can be even if the 2803 * short flag is set. 2804 */ 2805 if ((is->is_p == pr) && (is->is_v == 4) && 2806 (is = ipf_matchsrcdst(&ofin, is, &src, &dst, 2807 tcp, FI_ICMPCMP))) { 2808 if (ipf_allowstateicmp(fin, is, &src) == 0) 2809 return (is); 2810 } 2811 } 2812 RWLOCK_EXIT(&softc->ipf_state); 2813 SBUMPDX(ipf_state_stats, iss_icmp_miss, iss_icmp_miss_3); 2814 return (NULL); 2815 } 2816 2817 2818 /* ------------------------------------------------------------------------ */ 2819 /* Function: ipf_allowstateicmp */ 2820 /* Returns: int - 1 = packet denied, 0 = packet allowed */ 2821 /* Parameters: fin(I) - pointer to packet information */ 2822 /* is(I) - pointer to state table entry */ 2823 /* src(I) - source address to check permission for */ 2824 /* */ 2825 /* For an ICMP packet that has so far matched a state table entry, check if */ 2826 /* there are any further refinements that might mean we want to block this */ 2827 /* packet. This code isn't specific to either IPv4 or IPv6. */ 2828 /* ------------------------------------------------------------------------ */ 2829 static int 2830 ipf_allowstateicmp(fr_info_t *fin, ipstate_t *is, i6addr_t *src) 2831 { 2832 ipf_main_softc_t *softc = fin->fin_main_soft; 2833 ipf_state_softc_t *softs = softc->ipf_state_soft; 2834 frentry_t *savefr; 2835 frentry_t *fr; 2836 u_32_t ipass; 2837 int backward; 2838 int oi; 2839 int i; 2840 2841 fr = is->is_rule; 2842 if (fr != NULL && fr->fr_icmpgrp != NULL) { 2843 savefr = fin->fin_fr; 2844 fin->fin_fr = fr->fr_icmpgrp->fg_start; 2845 2846 ipass = ipf_scanlist(fin, softc->ipf_pass); 2847 fin->fin_fr = savefr; 2848 if (FR_ISBLOCK(ipass)) { 2849 SBUMPD(ipf_state_stats, iss_icmp_headblock); 2850 return (1); 2851 } 2852 } 2853 2854 /* 2855 * i : the index of this packet (the icmp unreachable) 2856 * oi : the index of the original packet found in the 2857 * icmp header (i.e. the packet causing this icmp) 2858 * backward : original packet was backward compared to 2859 * the state 2860 */ 2861 backward = IP6_NEQ(&is->is_src, src); 2862 fin->fin_rev = !backward; 2863 i = (!backward << 1) + fin->fin_out; 2864 oi = (backward << 1) + !fin->fin_out; 2865 2866 if (is->is_pass & FR_NOICMPERR) { 2867 SBUMPD(ipf_state_stats, iss_icmp_banned); 2868 return (1); 2869 } 2870 if (is->is_icmppkts[i] > is->is_pkts[oi]) { 2871 SBUMPD(ipf_state_stats, iss_icmp_toomany); 2872 return (1); 2873 } 2874 2875 DT2(iss_icmp_hits, fr_info_t *, fin, ipstate_t *, is); 2876 SBUMP(ipf_state_stats.iss_icmp_hits); 2877 is->is_icmppkts[i]++; 2878 2879 /* 2880 * we deliberately do not touch the timeouts 2881 * for the accompanying state table entry. 2882 * It remains to be seen if that is correct. XXX 2883 */ 2884 return (0); 2885 } 2886 2887 2888 /* ------------------------------------------------------------------------ */ 2889 /* Function: ipf_ipsmove */ 2890 /* Returns: Nil */ 2891 /* Parameters: is(I) - pointer to state table entry */ 2892 /* hv(I) - new hash value for state table entry */ 2893 /* Write Locks: ipf_state */ 2894 /* */ 2895 /* Move a state entry from one position in the hash table to another. */ 2896 /* ------------------------------------------------------------------------ */ 2897 static void 2898 ipf_ipsmove(ipf_state_softc_t *softs, ipstate_t *is, u_int hv) 2899 { 2900 ipstate_t **isp; 2901 u_int hvm; 2902 2903 hvm = is->is_hv; 2904 2905 /* TRACE is, is_hv, hvm */ 2906 2907 /* 2908 * Remove the hash from the old location... 2909 */ 2910 isp = is->is_phnext; 2911 if (is->is_hnext) 2912 is->is_hnext->is_phnext = isp; 2913 *isp = is->is_hnext; 2914 if (softs->ipf_state_table[hvm] == NULL) 2915 softs->ipf_state_stats.iss_inuse--; 2916 softs->ipf_state_stats.iss_bucketlen[hvm]--; 2917 2918 /* 2919 * ...and put the hash in the new one. 2920 */ 2921 hvm = DOUBLE_HASH(hv); 2922 is->is_hv = hvm; 2923 2924 /* TRACE is, hv, is_hv, hvm */ 2925 2926 isp = &softs->ipf_state_table[hvm]; 2927 if (*isp) 2928 (*isp)->is_phnext = &is->is_hnext; 2929 else 2930 softs->ipf_state_stats.iss_inuse++; 2931 softs->ipf_state_stats.iss_bucketlen[hvm]++; 2932 is->is_phnext = isp; 2933 is->is_hnext = *isp; 2934 *isp = is; 2935 } 2936 2937 2938 /* ------------------------------------------------------------------------ */ 2939 /* Function: ipf_state_lookup */ 2940 /* Returns: ipstate_t* - NULL == no matching state found, */ 2941 /* else pointer to state information is returned */ 2942 /* Parameters: fin(I) - pointer to packet information */ 2943 /* tcp(I) - pointer to TCP/UDP header. */ 2944 /* ifqp(O) - pointer for storing tailq timeout */ 2945 /* */ 2946 /* Search the state table for a matching entry to the packet described by */ 2947 /* the contents of *fin. For certain protocols, when a match is found the */ 2948 /* timeout queue is also selected and stored in ifpq if it is non-NULL. */ 2949 /* */ 2950 /* If we return NULL then no lock on ipf_state is held. */ 2951 /* If we return non-null then a read-lock on ipf_state is held. */ 2952 /* ------------------------------------------------------------------------ */ 2953 ipstate_t * 2954 ipf_state_lookup(fr_info_t *fin, tcphdr_t *tcp, ipftq_t **ifqp) 2955 { 2956 ipf_main_softc_t *softc = fin->fin_main_soft; 2957 ipf_state_softc_t *softs = softc->ipf_state_soft; 2958 u_int hv, hvm, pr, v, tryagain; 2959 ipstate_t *is, **isp; 2960 u_short dport, sport; 2961 i6addr_t src, dst; 2962 struct icmp *ic; 2963 ipftq_t *ifq; 2964 int oow; 2965 2966 is = NULL; 2967 ifq = NULL; 2968 tcp = fin->fin_dp; 2969 ic = (struct icmp *)tcp; 2970 hv = (pr = fin->fin_fi.fi_p); 2971 src = fin->fin_fi.fi_src; 2972 dst = fin->fin_fi.fi_dst; 2973 hv += src.in4.s_addr; 2974 hv += dst.in4.s_addr; 2975 2976 v = fin->fin_fi.fi_v; 2977 #ifdef USE_INET6 2978 if (v == 6) { 2979 hv += fin->fin_fi.fi_src.i6[1]; 2980 hv += fin->fin_fi.fi_src.i6[2]; 2981 hv += fin->fin_fi.fi_src.i6[3]; 2982 2983 if ((fin->fin_p == IPPROTO_ICMPV6) && 2984 IN6_IS_ADDR_MULTICAST(&fin->fin_fi.fi_dst.in6)) { 2985 hv -= dst.in4.s_addr; 2986 } else { 2987 hv += fin->fin_fi.fi_dst.i6[1]; 2988 hv += fin->fin_fi.fi_dst.i6[2]; 2989 hv += fin->fin_fi.fi_dst.i6[3]; 2990 } 2991 } 2992 #endif 2993 if ((v == 4) && 2994 (fin->fin_flx & (FI_MULTICAST|FI_BROADCAST|FI_MBCAST))) { 2995 if (fin->fin_out == 0) { 2996 hv -= src.in4.s_addr; 2997 } else { 2998 hv -= dst.in4.s_addr; 2999 } 3000 } 3001 3002 /* TRACE fin_saddr, fin_daddr, hv */ 3003 3004 /* 3005 * Search the hash table for matching packet header info. 3006 */ 3007 switch (pr) 3008 { 3009 #ifdef USE_INET6 3010 case IPPROTO_ICMPV6 : 3011 tryagain = 0; 3012 if (v == 6) { 3013 if ((ic->icmp_type == ICMP6_ECHO_REQUEST) || 3014 (ic->icmp_type == ICMP6_ECHO_REPLY)) { 3015 hv += ic->icmp_id; 3016 } 3017 } 3018 READ_ENTER(&softc->ipf_state); 3019 icmp6again: 3020 hvm = DOUBLE_HASH(hv); 3021 for (isp = &softs->ipf_state_table[hvm]; 3022 ((is = *isp) != NULL); ) { 3023 isp = &is->is_hnext; 3024 if ((is->is_p != pr) || (is->is_v != v)) 3025 continue; 3026 is = ipf_matchsrcdst(fin, is, &src, &dst, NULL, FI_CMP); 3027 if (is != NULL && 3028 ipf_matchicmpqueryreply(v, &is->is_icmp, 3029 ic, fin->fin_rev)) { 3030 if (fin->fin_rev) 3031 ifq = &softs->ipf_state_icmpacktq; 3032 else 3033 ifq = &softs->ipf_state_icmptq; 3034 break; 3035 } 3036 } 3037 3038 if (is != NULL) { 3039 if ((tryagain != 0) && !(is->is_flags & SI_W_DADDR)) { 3040 hv += fin->fin_fi.fi_src.i6[0]; 3041 hv += fin->fin_fi.fi_src.i6[1]; 3042 hv += fin->fin_fi.fi_src.i6[2]; 3043 hv += fin->fin_fi.fi_src.i6[3]; 3044 ipf_ipsmove(softs, is, hv); 3045 MUTEX_DOWNGRADE(&softc->ipf_state); 3046 } 3047 break; 3048 } 3049 RWLOCK_EXIT(&softc->ipf_state); 3050 3051 /* 3052 * No matching icmp state entry. Perhaps this is a 3053 * response to another state entry. 3054 * 3055 * XXX With some ICMP6 packets, the "other" address is already 3056 * in the packet, after the ICMP6 header, and this could be 3057 * used in place of the multicast address. However, taking 3058 * advantage of this requires some significant code changes 3059 * to handle the specific types where that is the case. 3060 */ 3061 if ((softs->ipf_state_stats.iss_wild != 0) && 3062 ((fin->fin_flx & FI_NOWILD) == 0) && 3063 (v == 6) && (tryagain == 0)) { 3064 hv -= fin->fin_fi.fi_src.i6[0]; 3065 hv -= fin->fin_fi.fi_src.i6[1]; 3066 hv -= fin->fin_fi.fi_src.i6[2]; 3067 hv -= fin->fin_fi.fi_src.i6[3]; 3068 tryagain = 1; 3069 WRITE_ENTER(&softc->ipf_state); 3070 goto icmp6again; 3071 } 3072 3073 is = ipf_checkicmp6matchingstate(fin); 3074 if (is != NULL) 3075 return (is); 3076 break; 3077 #endif 3078 3079 case IPPROTO_ICMP : 3080 if (v == 4) { 3081 hv += ic->icmp_id; 3082 } 3083 hv = DOUBLE_HASH(hv); 3084 READ_ENTER(&softc->ipf_state); 3085 for (isp = &softs->ipf_state_table[hv]; 3086 ((is = *isp) != NULL); ) { 3087 isp = &is->is_hnext; 3088 if ((is->is_p != pr) || (is->is_v != v)) 3089 continue; 3090 is = ipf_matchsrcdst(fin, is, &src, &dst, NULL, FI_CMP); 3091 if ((is != NULL) && 3092 (ic->icmp_id == is->is_icmp.ici_id) && 3093 ipf_matchicmpqueryreply(v, &is->is_icmp, 3094 ic, fin->fin_rev)) { 3095 if (fin->fin_rev) 3096 ifq = &softs->ipf_state_icmpacktq; 3097 else 3098 ifq = &softs->ipf_state_icmptq; 3099 break; 3100 } 3101 } 3102 if (is == NULL) { 3103 RWLOCK_EXIT(&softc->ipf_state); 3104 } 3105 break; 3106 3107 case IPPROTO_TCP : 3108 case IPPROTO_UDP : 3109 ifqp = NULL; 3110 sport = htons(fin->fin_data[0]); 3111 hv += sport; 3112 dport = htons(fin->fin_data[1]); 3113 hv += dport; 3114 oow = 0; 3115 tryagain = 0; 3116 READ_ENTER(&softc->ipf_state); 3117 retry_tcpudp: 3118 hvm = DOUBLE_HASH(hv); 3119 3120 /* TRACE hv, hvm */ 3121 3122 for (isp = &softs->ipf_state_table[hvm]; 3123 ((is = *isp) != NULL); ) { 3124 isp = &is->is_hnext; 3125 if ((is->is_p != pr) || (is->is_v != v)) 3126 continue; 3127 fin->fin_flx &= ~FI_OOW; 3128 is = ipf_matchsrcdst(fin, is, &src, &dst, tcp, FI_CMP); 3129 if (is != NULL) { 3130 if (pr == IPPROTO_TCP) { 3131 if (!ipf_state_tcp(softc, softs, fin, 3132 tcp, is)) { 3133 oow |= fin->fin_flx & FI_OOW; 3134 continue; 3135 } 3136 } 3137 break; 3138 } 3139 } 3140 if (is != NULL) { 3141 if (tryagain && 3142 !(is->is_flags & (SI_CLONE|SI_WILDP|SI_WILDA))) { 3143 hv += dport; 3144 hv += sport; 3145 ipf_ipsmove(softs, is, hv); 3146 MUTEX_DOWNGRADE(&softc->ipf_state); 3147 } 3148 break; 3149 } 3150 RWLOCK_EXIT(&softc->ipf_state); 3151 3152 if ((softs->ipf_state_stats.iss_wild != 0) && 3153 ((fin->fin_flx & FI_NOWILD) == 0)) { 3154 if (tryagain == 0) { 3155 hv -= dport; 3156 hv -= sport; 3157 } else if (tryagain == 1) { 3158 hv = fin->fin_fi.fi_p; 3159 /* 3160 * If we try to pretend this is a reply to a 3161 * multicast/broadcast packet then we need to 3162 * exclude part of the address from the hash 3163 * calculation. 3164 */ 3165 if (fin->fin_out == 0) { 3166 hv += src.in4.s_addr; 3167 } else { 3168 hv += dst.in4.s_addr; 3169 } 3170 hv += dport; 3171 hv += sport; 3172 } 3173 tryagain++; 3174 if (tryagain <= 2) { 3175 WRITE_ENTER(&softc->ipf_state); 3176 goto retry_tcpudp; 3177 } 3178 } 3179 fin->fin_flx |= oow; 3180 break; 3181 3182 #if 0 3183 case IPPROTO_GRE : 3184 gre = fin->fin_dp; 3185 if (GRE_REV(gre->gr_flags) == 1) { 3186 hv += gre->gr_call; 3187 } 3188 /* FALLTHROUGH */ 3189 #endif 3190 default : 3191 ifqp = NULL; 3192 hvm = DOUBLE_HASH(hv); 3193 READ_ENTER(&softc->ipf_state); 3194 for (isp = &softs->ipf_state_table[hvm]; 3195 ((is = *isp) != NULL); ) { 3196 isp = &is->is_hnext; 3197 if ((is->is_p != pr) || (is->is_v != v)) 3198 continue; 3199 is = ipf_matchsrcdst(fin, is, &src, &dst, NULL, FI_CMP); 3200 if (is != NULL) { 3201 ifq = &softs->ipf_state_iptq; 3202 break; 3203 } 3204 } 3205 if (is == NULL) { 3206 RWLOCK_EXIT(&softc->ipf_state); 3207 } 3208 break; 3209 } 3210 3211 if (is != NULL) { 3212 if (((is->is_sti.tqe_flags & TQE_RULEBASED) != 0) && 3213 (is->is_tqehead[fin->fin_rev] != NULL)) 3214 ifq = is->is_tqehead[fin->fin_rev]; 3215 if (ifq != NULL && ifqp != NULL) 3216 *ifqp = ifq; 3217 } else { 3218 SBUMP(ipf_state_stats.iss_lookup_miss); 3219 } 3220 return (is); 3221 } 3222 3223 3224 /* ------------------------------------------------------------------------ */ 3225 /* Function: ipf_state_check */ 3226 /* Returns: frentry_t* - NULL == search failed, */ 3227 /* else pointer to rule for matching state */ 3228 /* Parameters: fin(I) - pointer to packet information */ 3229 /* passp(I) - pointer to filtering result flags */ 3230 /* */ 3231 /* Check if a packet is associated with an entry in the state table. */ 3232 /* ------------------------------------------------------------------------ */ 3233 frentry_t * 3234 ipf_state_check(fr_info_t *fin, u_32_t *passp) 3235 { 3236 ipf_main_softc_t *softc = fin->fin_main_soft; 3237 ipf_state_softc_t *softs = softc->ipf_state_soft; 3238 ipftqent_t *tqe; 3239 ipstate_t *is; 3240 frentry_t *fr; 3241 tcphdr_t *tcp; 3242 ipftq_t *ifq; 3243 u_int pass; 3244 int inout; 3245 3246 if (softs->ipf_state_lock || (softs->ipf_state_list == NULL)) 3247 return (NULL); 3248 3249 if (fin->fin_flx & (FI_SHORT|FI_FRAGBODY|FI_BAD)) { 3250 SBUMPD(ipf_state_stats, iss_check_bad); 3251 return (NULL); 3252 } 3253 3254 if ((fin->fin_flx & FI_TCPUDP) || 3255 (fin->fin_fi.fi_p == IPPROTO_ICMP) 3256 #ifdef USE_INET6 3257 || (fin->fin_fi.fi_p == IPPROTO_ICMPV6) 3258 #endif 3259 ) 3260 tcp = fin->fin_dp; 3261 else 3262 tcp = NULL; 3263 3264 ifq = NULL; 3265 /* 3266 * Search the hash table for matching packet header info. 3267 */ 3268 is = ipf_state_lookup(fin, tcp, &ifq); 3269 3270 switch (fin->fin_p) 3271 { 3272 #ifdef USE_INET6 3273 case IPPROTO_ICMPV6 : 3274 if (is != NULL) 3275 break; 3276 if (fin->fin_v == 6) { 3277 is = ipf_checkicmp6matchingstate(fin); 3278 } 3279 break; 3280 #endif 3281 case IPPROTO_ICMP : 3282 if (is != NULL) 3283 break; 3284 /* 3285 * No matching icmp state entry. Perhaps this is a 3286 * response to another state entry. 3287 */ 3288 is = ipf_checkicmpmatchingstate(fin); 3289 break; 3290 3291 case IPPROTO_TCP : 3292 if (is == NULL) 3293 break; 3294 3295 if (is->is_pass & FR_NEWISN) { 3296 if (fin->fin_out == 0) 3297 ipf_fixinisn(fin, is); 3298 else if (fin->fin_out == 1) 3299 ipf_fixoutisn(fin, is); 3300 } 3301 break; 3302 default : 3303 if (fin->fin_rev) 3304 ifq = &softs->ipf_state_udpacktq; 3305 else 3306 ifq = &softs->ipf_state_udptq; 3307 break; 3308 } 3309 if (is == NULL) { 3310 SBUMP(ipf_state_stats.iss_check_miss); 3311 return (NULL); 3312 } 3313 3314 fr = is->is_rule; 3315 if (fr != NULL) { 3316 if ((fin->fin_out == 0) && (fr->fr_nattag.ipt_num[0] != 0)) { 3317 if (fin->fin_nattag == NULL) { 3318 RWLOCK_EXIT(&softc->ipf_state); 3319 SBUMPD(ipf_state_stats, iss_check_notag); 3320 return (NULL); 3321 } 3322 if (ipf_matchtag(&fr->fr_nattag, fin->fin_nattag)!=0) { 3323 RWLOCK_EXIT(&softc->ipf_state); 3324 SBUMPD(ipf_state_stats, iss_check_nattag); 3325 return (NULL); 3326 } 3327 } 3328 (void) strncpy(fin->fin_group, FR_NAME(fr, fr_group), 3329 FR_GROUPLEN); 3330 fin->fin_icode = fr->fr_icode; 3331 } 3332 3333 fin->fin_rule = is->is_rulen; 3334 fin->fin_fr = fr; 3335 3336 /* 3337 * If this packet is a fragment and the rule says to track fragments, 3338 * then create a new fragment cache entry. 3339 */ 3340 if (fin->fin_flx & FI_FRAG && FR_ISPASS(is->is_pass) && 3341 is->is_pass & FR_KEEPFRAG) 3342 (void) ipf_frag_new(softc, fin, is->is_pass); 3343 3344 /* 3345 * For TCP packets, ifq == NULL. For all others, check if this new 3346 * queue is different to the last one it was on and move it if so. 3347 */ 3348 tqe = &is->is_sti; 3349 if ((tqe->tqe_flags & TQE_RULEBASED) != 0) 3350 ifq = is->is_tqehead[fin->fin_rev]; 3351 3352 MUTEX_ENTER(&is->is_lock); 3353 3354 if (ifq != NULL) 3355 ipf_movequeue(softc->ipf_ticks, tqe, tqe->tqe_ifq, ifq); 3356 3357 inout = (fin->fin_rev << 1) + fin->fin_out; 3358 is->is_pkts[inout]++; 3359 is->is_bytes[inout] += fin->fin_plen; 3360 fin->fin_pktnum = is->is_pkts[inout] + is->is_icmppkts[inout]; 3361 3362 MUTEX_EXIT(&is->is_lock); 3363 3364 pass = is->is_pass; 3365 3366 if (is->is_flags & IS_STATESYNC) 3367 ipf_sync_update(softc, SMC_STATE, fin, is->is_sync); 3368 3369 RWLOCK_EXIT(&softc->ipf_state); 3370 3371 SBUMP(ipf_state_stats.iss_hits); 3372 3373 fin->fin_dif = &is->is_dif; 3374 fin->fin_tif = &is->is_tifs[fin->fin_rev]; 3375 fin->fin_flx |= FI_STATE; 3376 if ((pass & FR_LOGFIRST) != 0) 3377 pass &= ~(FR_LOGFIRST|FR_LOG); 3378 *passp = pass; 3379 return (fr); 3380 } 3381 3382 3383 /* ------------------------------------------------------------------------ */ 3384 /* Function: ipf_fixoutisn */ 3385 /* Returns: Nil */ 3386 /* Parameters: fin(I) - pointer to packet information */ 3387 /* is(I) - pointer to master state structure */ 3388 /* */ 3389 /* Called only for outbound packets, adjusts the sequence number and the */ 3390 /* TCP checksum to match that change. */ 3391 /* ------------------------------------------------------------------------ */ 3392 static void 3393 ipf_fixoutisn(fr_info_t *fin, ipstate_t *is) 3394 { 3395 tcphdr_t *tcp; 3396 int rev; 3397 u_32_t seq; 3398 3399 tcp = fin->fin_dp; 3400 rev = fin->fin_rev; 3401 if ((is->is_flags & IS_ISNSYN) != 0) { 3402 if ((rev == 0) && (fin->fin_cksum < FI_CK_L4PART)) { 3403 seq = ntohl(tcp->th_seq); 3404 seq += is->is_isninc[0]; 3405 tcp->th_seq = htonl(seq); 3406 ipf_fix_outcksum(0, &tcp->th_sum, is->is_sumd[0], 0); 3407 } 3408 } 3409 if ((is->is_flags & IS_ISNACK) != 0) { 3410 if ((rev == 1) && (fin->fin_cksum < FI_CK_L4PART)) { 3411 seq = ntohl(tcp->th_seq); 3412 seq += is->is_isninc[1]; 3413 tcp->th_seq = htonl(seq); 3414 ipf_fix_outcksum(0, &tcp->th_sum, is->is_sumd[1], 0); 3415 } 3416 } 3417 } 3418 3419 3420 /* ------------------------------------------------------------------------ */ 3421 /* Function: ipf_fixinisn */ 3422 /* Returns: Nil */ 3423 /* Parameters: fin(I) - pointer to packet information */ 3424 /* is(I) - pointer to master state structure */ 3425 /* */ 3426 /* Called only for inbound packets, adjusts the acknowledge number and the */ 3427 /* TCP checksum to match that change. */ 3428 /* ------------------------------------------------------------------------ */ 3429 static void 3430 ipf_fixinisn(fr_info_t *fin, ipstate_t *is) 3431 { 3432 tcphdr_t *tcp; 3433 int rev; 3434 u_32_t ack; 3435 3436 tcp = fin->fin_dp; 3437 rev = fin->fin_rev; 3438 if ((is->is_flags & IS_ISNSYN) != 0) { 3439 if ((rev == 1) && (fin->fin_cksum < FI_CK_L4PART)) { 3440 ack = ntohl(tcp->th_ack); 3441 ack -= is->is_isninc[0]; 3442 tcp->th_ack = htonl(ack); 3443 ipf_fix_incksum(0, &tcp->th_sum, is->is_sumd[0], 0); 3444 } 3445 } 3446 if ((is->is_flags & IS_ISNACK) != 0) { 3447 if ((rev == 0) && (fin->fin_cksum < FI_CK_L4PART)) { 3448 ack = ntohl(tcp->th_ack); 3449 ack -= is->is_isninc[1]; 3450 tcp->th_ack = htonl(ack); 3451 ipf_fix_incksum(0, &tcp->th_sum, is->is_sumd[1], 0); 3452 } 3453 } 3454 } 3455 3456 3457 /* ------------------------------------------------------------------------ */ 3458 /* Function: ipf_state_sync */ 3459 /* Returns: Nil */ 3460 /* Parameters: softc(I) - pointer to soft context main structure */ 3461 /* ifp(I) - pointer to interface */ 3462 /* */ 3463 /* Walk through all state entries and if an interface pointer match is */ 3464 /* found then look it up again, based on its name in case the pointer has */ 3465 /* changed since last time. */ 3466 /* */ 3467 /* If ifp is passed in as being non-null then we are only doing updates for */ 3468 /* existing, matching, uses of it. */ 3469 /* ------------------------------------------------------------------------ */ 3470 void 3471 ipf_state_sync(ipf_main_softc_t *softc, void *ifp) 3472 { 3473 ipf_state_softc_t *softs = softc->ipf_state_soft; 3474 ipstate_t *is; 3475 int i; 3476 3477 if (softc->ipf_running <= 0) 3478 return; 3479 3480 WRITE_ENTER(&softc->ipf_state); 3481 3482 if (softc->ipf_running <= 0) { 3483 RWLOCK_EXIT(&softc->ipf_state); 3484 return; 3485 } 3486 3487 for (is = softs->ipf_state_list; is; is = is->is_next) { 3488 /* 3489 * Look up all the interface names in the state entry. 3490 */ 3491 for (i = 0; i < FR_NUM(is->is_ifp); i++) { 3492 if (ifp == NULL || ifp == is->is_ifp[i]) 3493 is->is_ifp[i] = ipf_resolvenic(softc, 3494 is->is_ifname[i], 3495 is->is_v); 3496 } 3497 } 3498 RWLOCK_EXIT(&softc->ipf_state); 3499 } 3500 3501 3502 /* ------------------------------------------------------------------------ */ 3503 /* Function: ipf_state_del */ 3504 /* Returns: int - 0 = deleted, else refernce count on active struct */ 3505 /* Parameters: softc(I) - pointer to soft context main structure */ 3506 /* is(I) - pointer to state structure to delete */ 3507 /* why(I) - if not 0, log reason why it was deleted */ 3508 /* Write Locks: ipf_state */ 3509 /* */ 3510 /* Deletes a state entry from the enumerated list as well as the hash table */ 3511 /* and timeout queue lists. Make adjustments to hash table statistics and */ 3512 /* global counters as required. */ 3513 /* ------------------------------------------------------------------------ */ 3514 static int 3515 ipf_state_del(ipf_main_softc_t *softc, ipstate_t *is, int why) 3516 { 3517 ipf_state_softc_t *softs = softc->ipf_state_soft; 3518 int orphan = 1; 3519 frentry_t *fr; 3520 3521 /* 3522 * Since we want to delete this, remove it from the state table, 3523 * where it can be found & used, first. 3524 */ 3525 if (is->is_phnext != NULL) { 3526 *is->is_phnext = is->is_hnext; 3527 if (is->is_hnext != NULL) 3528 is->is_hnext->is_phnext = is->is_phnext; 3529 if (softs->ipf_state_table[is->is_hv] == NULL) 3530 softs->ipf_state_stats.iss_inuse--; 3531 softs->ipf_state_stats.iss_bucketlen[is->is_hv]--; 3532 3533 is->is_phnext = NULL; 3534 is->is_hnext = NULL; 3535 orphan = 0; 3536 } 3537 3538 /* 3539 * Because ipf_state_stats.iss_wild is a count of entries in the state 3540 * table that have wildcard flags set, only decerement it once 3541 * and do it here. 3542 */ 3543 if (is->is_flags & (SI_WILDP|SI_WILDA)) { 3544 if (!(is->is_flags & SI_CLONED)) { 3545 ATOMIC_DECL(softs->ipf_state_stats.iss_wild); 3546 } 3547 is->is_flags &= ~(SI_WILDP|SI_WILDA); 3548 } 3549 3550 /* 3551 * Next, remove it from the timeout queue it is in. 3552 */ 3553 if (is->is_sti.tqe_ifq != NULL) 3554 ipf_deletequeueentry(&is->is_sti); 3555 3556 /* 3557 * If it is still in use by something else, do not go any further, 3558 * but note that at this point it is now an orphan. How can this 3559 * be? ipf_state_flush() calls ipf_delete() directly because it wants 3560 * to empty the table out and if something has a hold on a state 3561 * entry (such as ipfstat), it'll do the deref path that'll bring 3562 * us back here to do the real delete & free. 3563 */ 3564 MUTEX_ENTER(&is->is_lock); 3565 if (is->is_me != NULL) { 3566 *is->is_me = NULL; 3567 is->is_me = NULL; 3568 is->is_ref--; 3569 } 3570 is->is_ref--; 3571 if (is->is_ref > 0) { 3572 int refs; 3573 3574 refs = is->is_ref; 3575 MUTEX_EXIT(&is->is_lock); 3576 if (!orphan) 3577 softs->ipf_state_stats.iss_orphan++; 3578 return (refs); 3579 } 3580 3581 fr = is->is_rule; 3582 is->is_rule = NULL; 3583 if (fr != NULL) { 3584 if (fr->fr_srctrack.ht_max_nodes != 0) { 3585 (void) ipf_ht_node_del(&fr->fr_srctrack, 3586 is->is_family, &is->is_src); 3587 } 3588 } 3589 3590 ASSERT(is->is_ref == 0); 3591 MUTEX_EXIT(&is->is_lock); 3592 3593 if (is->is_tqehead[0] != NULL) { 3594 if (ipf_deletetimeoutqueue(is->is_tqehead[0]) == 0) 3595 ipf_freetimeoutqueue(softc, is->is_tqehead[0]); 3596 } 3597 if (is->is_tqehead[1] != NULL) { 3598 if (ipf_deletetimeoutqueue(is->is_tqehead[1]) == 0) 3599 ipf_freetimeoutqueue(softc, is->is_tqehead[1]); 3600 } 3601 3602 if (is->is_sync) 3603 ipf_sync_del_state(softc->ipf_sync_soft, is->is_sync); 3604 3605 /* 3606 * Now remove it from the linked list of known states 3607 */ 3608 if (is->is_pnext != NULL) { 3609 *is->is_pnext = is->is_next; 3610 3611 if (is->is_next != NULL) 3612 is->is_next->is_pnext = is->is_pnext; 3613 3614 is->is_pnext = NULL; 3615 is->is_next = NULL; 3616 } 3617 3618 if (softs->ipf_state_logging != 0 && why != 0) 3619 ipf_state_log(softc, is, why); 3620 3621 if (is->is_p == IPPROTO_TCP) 3622 softs->ipf_state_stats.iss_fin++; 3623 else 3624 softs->ipf_state_stats.iss_expire++; 3625 if (orphan) 3626 softs->ipf_state_stats.iss_orphan--; 3627 3628 if (fr != NULL) { 3629 fr->fr_statecnt--; 3630 (void) ipf_derefrule(softc, &fr); 3631 } 3632 3633 softs->ipf_state_stats.iss_active_proto[is->is_p]--; 3634 3635 MUTEX_DESTROY(&is->is_lock); 3636 KFREE(is); 3637 softs->ipf_state_stats.iss_active--; 3638 3639 return (0); 3640 } 3641 3642 3643 /* ------------------------------------------------------------------------ */ 3644 /* Function: ipf_state_expire */ 3645 /* Returns: Nil */ 3646 /* Parameters: softc(I) - pointer to soft context main structure */ 3647 /* */ 3648 /* Slowly expire held state for thingslike UDP and ICMP. The algorithm */ 3649 /* used here is to keep the queue sorted with the oldest things at the top */ 3650 /* and the youngest at the bottom. So if the top one doesn't need to be */ 3651 /* expired then neither will any under it. */ 3652 /* ------------------------------------------------------------------------ */ 3653 void 3654 ipf_state_expire(ipf_main_softc_t *softc) 3655 { 3656 ipf_state_softc_t *softs = softc->ipf_state_soft; 3657 ipftq_t *ifq, *ifqnext; 3658 ipftqent_t *tqe, *tqn; 3659 ipstate_t *is; 3660 SPL_INT(s); 3661 3662 SPL_NET(s); 3663 WRITE_ENTER(&softc->ipf_state); 3664 for (ifq = softs->ipf_state_tcptq; ifq != NULL; ifq = ifq->ifq_next) 3665 for (tqn = ifq->ifq_head; ((tqe = tqn) != NULL); ) { 3666 if (tqe->tqe_die > softc->ipf_ticks) 3667 break; 3668 tqn = tqe->tqe_next; 3669 is = tqe->tqe_parent; 3670 ipf_state_del(softc, is, ISL_EXPIRE); 3671 } 3672 3673 for (ifq = softs->ipf_state_usertq; ifq != NULL; ifq = ifqnext) { 3674 ifqnext = ifq->ifq_next; 3675 3676 for (tqn = ifq->ifq_head; ((tqe = tqn) != NULL); ) { 3677 if (tqe->tqe_die > softc->ipf_ticks) 3678 break; 3679 tqn = tqe->tqe_next; 3680 is = tqe->tqe_parent; 3681 ipf_state_del(softc, is, ISL_EXPIRE); 3682 } 3683 } 3684 3685 for (ifq = softs->ipf_state_usertq; ifq != NULL; ifq = ifqnext) { 3686 ifqnext = ifq->ifq_next; 3687 3688 if (((ifq->ifq_flags & IFQF_DELETE) != 0) && 3689 (ifq->ifq_ref == 0)) { 3690 ipf_freetimeoutqueue(softc, ifq); 3691 } 3692 } 3693 3694 if (softs->ipf_state_doflush) { 3695 (void) ipf_state_flush(softc, 2, 0); 3696 softs->ipf_state_doflush = 0; 3697 softs->ipf_state_wm_last = softc->ipf_ticks; 3698 } 3699 3700 RWLOCK_EXIT(&softc->ipf_state); 3701 SPL_X(s); 3702 } 3703 3704 3705 /* ------------------------------------------------------------------------ */ 3706 /* Function: ipf_state_flush */ 3707 /* Returns: int - 0 == success, -1 == failure */ 3708 /* Parameters: softc(I) - pointer to soft context main structure */ 3709 /* which(I) - which flush action to perform */ 3710 /* proto(I) - which protocol to flush (0 == ALL) */ 3711 /* Write Locks: ipf_state */ 3712 /* */ 3713 /* Flush state tables. Three actions currently defined: */ 3714 /* which == 0 : flush all state table entries */ 3715 /* which == 1 : flush TCP connections which have started to close but are */ 3716 /* stuck for some reason. */ 3717 /* which == 2 : flush TCP connections which have been idle for a long time, */ 3718 /* starting at > 4 days idle and working back in successive half-*/ 3719 /* days to at most 12 hours old. If this fails to free enough */ 3720 /* slots then work backwards in half hour slots to 30 minutes. */ 3721 /* If that too fails, then work backwards in 30 second intervals */ 3722 /* for the last 30 minutes to at worst 30 seconds idle. */ 3723 /* ------------------------------------------------------------------------ */ 3724 int 3725 ipf_state_flush(ipf_main_softc_t *softc, int which, int proto) 3726 { 3727 ipf_state_softc_t *softs = softc->ipf_state_soft; 3728 ipftqent_t *tqe, *tqn; 3729 ipstate_t *is, **isp; 3730 ipftq_t *ifq; 3731 int removed; 3732 SPL_INT(s); 3733 3734 removed = 0; 3735 3736 SPL_NET(s); 3737 3738 switch (which) 3739 { 3740 case 0 : 3741 SBUMP(ipf_state_stats.iss_flush_all); 3742 /* 3743 * Style 0 flush removes everything... 3744 */ 3745 for (isp = &softs->ipf_state_list; ((is = *isp) != NULL); ) { 3746 if ((proto != 0) && (is->is_v != proto)) { 3747 isp = &is->is_next; 3748 continue; 3749 } 3750 if (ipf_state_del(softc, is, ISL_FLUSH) == 0) 3751 removed++; 3752 else 3753 isp = &is->is_next; 3754 } 3755 break; 3756 3757 case 1 : 3758 SBUMP(ipf_state_stats.iss_flush_closing); 3759 /* 3760 * Since we're only interested in things that are closing, 3761 * we can start with the appropriate timeout queue. 3762 */ 3763 for (ifq = softs->ipf_state_tcptq + IPF_TCPS_CLOSE_WAIT; 3764 ifq != NULL; ifq = ifq->ifq_next) { 3765 3766 for (tqn = ifq->ifq_head; ((tqe = tqn) != NULL); ) { 3767 tqn = tqe->tqe_next; 3768 is = tqe->tqe_parent; 3769 if (is->is_p != IPPROTO_TCP) 3770 break; 3771 if (ipf_state_del(softc, is, ISL_FLUSH) == 0) 3772 removed++; 3773 } 3774 } 3775 3776 /* 3777 * Also need to look through the user defined queues. 3778 */ 3779 for (ifq = softs->ipf_state_usertq; ifq != NULL; 3780 ifq = ifq->ifq_next) { 3781 for (tqn = ifq->ifq_head; ((tqe = tqn) != NULL); ) { 3782 tqn = tqe->tqe_next; 3783 is = tqe->tqe_parent; 3784 if (is->is_p != IPPROTO_TCP) 3785 continue; 3786 3787 if ((is->is_state[0] > IPF_TCPS_ESTABLISHED) && 3788 (is->is_state[1] > IPF_TCPS_ESTABLISHED)) { 3789 if (ipf_state_del(softc, is, 3790 ISL_FLUSH) == 0) 3791 removed++; 3792 } 3793 } 3794 } 3795 break; 3796 3797 case 2 : 3798 break; 3799 3800 /* 3801 * Args 5-11 correspond to flushing those particular states 3802 * for TCP connections. 3803 */ 3804 case IPF_TCPS_CLOSE_WAIT : 3805 case IPF_TCPS_FIN_WAIT_1 : 3806 case IPF_TCPS_CLOSING : 3807 case IPF_TCPS_LAST_ACK : 3808 case IPF_TCPS_FIN_WAIT_2 : 3809 case IPF_TCPS_TIME_WAIT : 3810 case IPF_TCPS_CLOSED : 3811 SBUMP(ipf_state_stats.iss_flush_queue); 3812 tqn = softs->ipf_state_tcptq[which].ifq_head; 3813 while (tqn != NULL) { 3814 tqe = tqn; 3815 tqn = tqe->tqe_next; 3816 is = tqe->tqe_parent; 3817 if (ipf_state_del(softc, is, ISL_FLUSH) == 0) 3818 removed++; 3819 } 3820 break; 3821 3822 default : 3823 if (which < 30) 3824 break; 3825 3826 SBUMP(ipf_state_stats.iss_flush_state); 3827 /* 3828 * Take a large arbitrary number to mean the number of seconds 3829 * for which which consider to be the maximum value we'll allow 3830 * the expiration to be. 3831 */ 3832 which = IPF_TTLVAL(which); 3833 for (isp = &softs->ipf_state_list; ((is = *isp) != NULL); ) { 3834 if ((proto == 0) || (is->is_v == proto)) { 3835 if (softc->ipf_ticks - is->is_touched > which) { 3836 if (ipf_state_del(softc, is, 3837 ISL_FLUSH) == 0) { 3838 removed++; 3839 continue; 3840 } 3841 } 3842 } 3843 isp = &is->is_next; 3844 } 3845 break; 3846 } 3847 3848 if (which != 2) { 3849 SPL_X(s); 3850 return (removed); 3851 } 3852 3853 SBUMP(ipf_state_stats.iss_flush_timeout); 3854 /* 3855 * Asked to remove inactive entries because the table is full, try 3856 * again, 3 times, if first attempt failed with a different criteria 3857 * each time. The order tried in must be in decreasing age. 3858 * Another alternative is to implement random drop and drop N entries 3859 * at random until N have been freed up. 3860 */ 3861 if (softc->ipf_ticks - softs->ipf_state_wm_last > 3862 softs->ipf_state_wm_freq) { 3863 removed = ipf_queueflush(softc, ipf_state_flush_entry, 3864 softs->ipf_state_tcptq, 3865 softs->ipf_state_usertq, 3866 &softs->ipf_state_stats.iss_active, 3867 softs->ipf_state_size, 3868 softs->ipf_state_wm_low); 3869 softs->ipf_state_wm_last = softc->ipf_ticks; 3870 } 3871 3872 SPL_X(s); 3873 return (removed); 3874 } 3875 3876 3877 /* ------------------------------------------------------------------------ */ 3878 /* Function: ipf_state_flush_entry */ 3879 /* Returns: int - 0 = entry deleted, else not deleted */ 3880 /* Parameters: softc(I) - pointer to soft context main structure */ 3881 /* entry(I) - pointer to state structure to delete */ 3882 /* Write Locks: ipf_state */ 3883 /* */ 3884 /* This function is a stepping stone between ipf_queueflush() and */ 3885 /* ipf_state_del(). It is used so we can provide a uniform interface via */ 3886 /* the ipf_queueflush() function. */ 3887 /* ------------------------------------------------------------------------ */ 3888 static int 3889 ipf_state_flush_entry(ipf_main_softc_t *softc, void *entry) 3890 { 3891 return (ipf_state_del(softc, entry, ISL_FLUSH)); 3892 } 3893 3894 3895 /* ------------------------------------------------------------------------ */ 3896 /* Function: ipf_tcp_age */ 3897 /* Returns: int - 1 == state transition made, 0 == no change (rejected) */ 3898 /* Parameters: tqe(I) - pointer to timeout queue information */ 3899 /* fin(I) - pointer to packet information */ 3900 /* tqtab(I) - TCP timeout queue table this is in */ 3901 /* flags(I) - flags from state/NAT entry */ 3902 /* ok(I) - can we advance state */ 3903 /* */ 3904 /* Rewritten by Arjan de Vet <Arjan.deVet@adv.iae.nl>, 2000-07-29: */ 3905 /* */ 3906 /* - (try to) base state transitions on real evidence only, */ 3907 /* i.e. packets that are sent and have been received by ipfilter; */ 3908 /* diagram 18.12 of TCP/IP volume 1 by W. Richard Stevens was used. */ 3909 /* */ 3910 /* - deal with half-closed connections correctly; */ 3911 /* */ 3912 /* - store the state of the source in state[0] such that ipfstat */ 3913 /* displays the state as source/dest instead of dest/source; the calls */ 3914 /* to ipf_tcp_age have been changed accordingly. */ 3915 /* */ 3916 /* Internal Parameters: */ 3917 /* */ 3918 /* state[0] = state of source (host that initiated connection) */ 3919 /* state[1] = state of dest (host that accepted the connection) */ 3920 /* */ 3921 /* dir == 0 : a packet from source to dest */ 3922 /* dir == 1 : a packet from dest to source */ 3923 /* */ 3924 /* A typical procession for a connection is as follows: */ 3925 /* */ 3926 /* +--------------+-------------------+ */ 3927 /* | Side '0' | Side '1' | */ 3928 /* +--------------+-------------------+ */ 3929 /* | 0 -> 1 (SYN) | | */ 3930 /* | | 0 -> 2 (SYN-ACK) | */ 3931 /* | 1 -> 3 (ACK) | | */ 3932 /* | | 2 -> 4 (ACK-PUSH) | */ 3933 /* | 3 -> 4 (ACK) | | */ 3934 /* | ... | ... | */ 3935 /* | | 4 -> 6 (FIN-ACK) | */ 3936 /* | 4 -> 5 (ACK) | | */ 3937 /* | | 6 -> 6 (ACK-PUSH) | */ 3938 /* | 5 -> 5 (ACK) | | */ 3939 /* | 5 -> 8 (FIN) | | */ 3940 /* | | 6 -> 10 (ACK) | */ 3941 /* +--------------+-------------------+ */ 3942 /* */ 3943 /* Locking: it is assumed that the parent of the tqe structure is locked. */ 3944 /* ------------------------------------------------------------------------ */ 3945 int 3946 ipf_tcp_age(ipftqent_t *tqe, fr_info_t *fin, ipftq_t *tqtab, int flags, int ok) 3947 { 3948 ipf_main_softc_t *softc = fin->fin_main_soft; 3949 int dlen, ostate, nstate, rval, dir; 3950 u_char tcpflags; 3951 tcphdr_t *tcp; 3952 3953 tcp = fin->fin_dp; 3954 3955 rval = 0; 3956 dir = fin->fin_rev; 3957 tcpflags = tcp->th_flags; 3958 dlen = fin->fin_dlen - (TCP_OFF(tcp) << 2); 3959 ostate = tqe->tqe_state[1 - dir]; 3960 nstate = tqe->tqe_state[dir]; 3961 3962 if (tcpflags & TH_RST) { 3963 if (!(tcpflags & TH_PUSH) && !dlen) 3964 nstate = IPF_TCPS_CLOSED; 3965 else 3966 nstate = IPF_TCPS_CLOSE_WAIT; 3967 3968 if (ostate <= IPF_TCPS_ESTABLISHED) { 3969 tqe->tqe_state[1 - dir] = IPF_TCPS_CLOSE_WAIT; 3970 } 3971 rval = 1; 3972 } else { 3973 switch (nstate) 3974 { 3975 case IPF_TCPS_LISTEN: /* 0 */ 3976 if ((tcpflags & TH_OPENING) == TH_OPENING) { 3977 /* 3978 * 'dir' received an S and sends SA in 3979 * response, LISTEN -> SYN_RECEIVED 3980 */ 3981 nstate = IPF_TCPS_SYN_RECEIVED; 3982 rval = 1; 3983 } else if ((tcpflags & TH_OPENING) == TH_SYN) { 3984 /* 'dir' sent S, LISTEN -> SYN_SENT */ 3985 nstate = IPF_TCPS_SYN_SENT; 3986 rval = 1; 3987 } 3988 /* 3989 * the next piece of code makes it possible to get 3990 * already established connections into the state table 3991 * after a restart or reload of the filter rules; this 3992 * does not work when a strict 'flags S keep state' is 3993 * used for tcp connections of course 3994 */ 3995 if (((flags & IS_TCPFSM) == 0) && 3996 ((tcpflags & TH_ACKMASK) == TH_ACK)) { 3997 /* 3998 * we saw an A, guess 'dir' is in ESTABLISHED 3999 * mode 4000 */ 4001 switch (ostate) 4002 { 4003 case IPF_TCPS_LISTEN : 4004 case IPF_TCPS_SYN_RECEIVED : 4005 nstate = IPF_TCPS_HALF_ESTAB; 4006 rval = 1; 4007 break; 4008 case IPF_TCPS_HALF_ESTAB : 4009 case IPF_TCPS_ESTABLISHED : 4010 nstate = IPF_TCPS_ESTABLISHED; 4011 rval = 1; 4012 break; 4013 default : 4014 break; 4015 } 4016 } 4017 /* 4018 * TODO: besides regular ACK packets we can have other 4019 * packets as well; it is yet to be determined how we 4020 * should initialize the states in those cases 4021 */ 4022 break; 4023 4024 case IPF_TCPS_SYN_SENT: /* 1 */ 4025 if ((tcpflags & ~(TH_ECN|TH_CWR)) == TH_SYN) { 4026 /* 4027 * A retransmitted SYN packet. We do not reset 4028 * the timeout here to ipf_tcptimeout because a 4029 * connection connect timeout does not renew 4030 * after every packet that is sent. We need to 4031 * set rval so as to indicate the packet has 4032 * passed the check for its flags being valid 4033 * in the TCP FSM. Setting rval to 2 has the 4034 * result of not resetting the timeout. 4035 */ 4036 rval = 2; 4037 } else if ((tcpflags & (TH_SYN|TH_FIN|TH_ACK)) == 4038 TH_ACK) { 4039 /* 4040 * we see an A from 'dir' which is in SYN_SENT 4041 * state: 'dir' sent an A in response to an SA 4042 * which it received, SYN_SENT -> ESTABLISHED 4043 */ 4044 nstate = IPF_TCPS_ESTABLISHED; 4045 rval = 1; 4046 } else if (tcpflags & TH_FIN) { 4047 /* 4048 * we see an F from 'dir' which is in SYN_SENT 4049 * state and wants to close its side of the 4050 * connection; SYN_SENT -> FIN_WAIT_1 4051 */ 4052 nstate = IPF_TCPS_FIN_WAIT_1; 4053 rval = 1; 4054 } else if ((tcpflags & TH_OPENING) == TH_OPENING) { 4055 /* 4056 * we see an SA from 'dir' which is already in 4057 * SYN_SENT state, this means we have a 4058 * simultaneous open; SYN_SENT -> SYN_RECEIVED 4059 */ 4060 nstate = IPF_TCPS_SYN_RECEIVED; 4061 rval = 1; 4062 } 4063 break; 4064 4065 case IPF_TCPS_SYN_RECEIVED: /* 2 */ 4066 if ((tcpflags & (TH_SYN|TH_FIN|TH_ACK)) == TH_ACK) { 4067 /* 4068 * we see an A from 'dir' which was in 4069 * SYN_RECEIVED state so it must now be in 4070 * established state, SYN_RECEIVED -> 4071 * ESTABLISHED 4072 */ 4073 nstate = IPF_TCPS_ESTABLISHED; 4074 rval = 1; 4075 } else if ((tcpflags & ~(TH_ECN|TH_CWR)) == 4076 TH_OPENING) { 4077 /* 4078 * We see an SA from 'dir' which is already in 4079 * SYN_RECEIVED state. 4080 */ 4081 rval = 2; 4082 } else if (tcpflags & TH_FIN) { 4083 /* 4084 * we see an F from 'dir' which is in 4085 * SYN_RECEIVED state and wants to close its 4086 * side of the connection; SYN_RECEIVED -> 4087 * FIN_WAIT_1 4088 */ 4089 nstate = IPF_TCPS_FIN_WAIT_1; 4090 rval = 1; 4091 } 4092 break; 4093 4094 case IPF_TCPS_HALF_ESTAB: /* 3 */ 4095 if (tcpflags & TH_FIN) { 4096 nstate = IPF_TCPS_FIN_WAIT_1; 4097 rval = 1; 4098 } else if ((tcpflags & TH_ACKMASK) == TH_ACK) { 4099 /* 4100 * If we've picked up a connection in mid 4101 * flight, we could be looking at a follow on 4102 * packet from the same direction as the one 4103 * that created this state. Recognise it but 4104 * do not advance the entire connection's 4105 * state. 4106 */ 4107 switch (ostate) 4108 { 4109 case IPF_TCPS_LISTEN : 4110 case IPF_TCPS_SYN_SENT : 4111 case IPF_TCPS_SYN_RECEIVED : 4112 rval = 1; 4113 break; 4114 case IPF_TCPS_HALF_ESTAB : 4115 case IPF_TCPS_ESTABLISHED : 4116 nstate = IPF_TCPS_ESTABLISHED; 4117 rval = 1; 4118 break; 4119 default : 4120 break; 4121 } 4122 } 4123 break; 4124 4125 case IPF_TCPS_ESTABLISHED: /* 4 */ 4126 rval = 1; 4127 if (tcpflags & TH_FIN) { 4128 /* 4129 * 'dir' closed its side of the connection; 4130 * this gives us a half-closed connection; 4131 * ESTABLISHED -> FIN_WAIT_1 4132 */ 4133 if (ostate == IPF_TCPS_FIN_WAIT_1) { 4134 nstate = IPF_TCPS_CLOSING; 4135 } else { 4136 nstate = IPF_TCPS_FIN_WAIT_1; 4137 } 4138 } else if (tcpflags & TH_ACK) { 4139 /* 4140 * an ACK, should we exclude other flags here? 4141 */ 4142 if (ostate == IPF_TCPS_FIN_WAIT_1) { 4143 /* 4144 * We know the other side did an active 4145 * close, so we are ACKing the recvd 4146 * FIN packet (does the window matching 4147 * code guarantee this?) and go into 4148 * CLOSE_WAIT state; this gives us a 4149 * half-closed connection 4150 */ 4151 nstate = IPF_TCPS_CLOSE_WAIT; 4152 } else if (ostate < IPF_TCPS_CLOSE_WAIT) { 4153 /* 4154 * still a fully established 4155 * connection reset timeout 4156 */ 4157 nstate = IPF_TCPS_ESTABLISHED; 4158 } 4159 } 4160 break; 4161 4162 case IPF_TCPS_CLOSE_WAIT: /* 5 */ 4163 rval = 1; 4164 if (tcpflags & TH_FIN) { 4165 /* 4166 * application closed and 'dir' sent a FIN, 4167 * we're now going into LAST_ACK state 4168 */ 4169 nstate = IPF_TCPS_LAST_ACK; 4170 } else { 4171 /* 4172 * we remain in CLOSE_WAIT because the other 4173 * side has closed already and we did not 4174 * close our side yet; reset timeout 4175 */ 4176 nstate = IPF_TCPS_CLOSE_WAIT; 4177 } 4178 break; 4179 4180 case IPF_TCPS_FIN_WAIT_1: /* 6 */ 4181 rval = 1; 4182 if ((tcpflags & TH_ACK) && 4183 ostate > IPF_TCPS_CLOSE_WAIT) { 4184 /* 4185 * if the other side is not active anymore 4186 * it has sent us a FIN packet that we are 4187 * ack'ing now with an ACK; this means both 4188 * sides have now closed the connection and 4189 * we go into TIME_WAIT 4190 */ 4191 /* 4192 * XXX: how do we know we really are ACKing 4193 * the FIN packet here? does the window code 4194 * guarantee that? 4195 */ 4196 nstate = IPF_TCPS_LAST_ACK; 4197 } else { 4198 /* 4199 * we closed our side of the connection 4200 * already but the other side is still active 4201 * (ESTABLISHED/CLOSE_WAIT); continue with 4202 * this half-closed connection 4203 */ 4204 nstate = IPF_TCPS_FIN_WAIT_1; 4205 } 4206 break; 4207 4208 case IPF_TCPS_CLOSING: /* 7 */ 4209 if ((tcpflags & (TH_FIN|TH_ACK)) == TH_ACK) { 4210 nstate = IPF_TCPS_TIME_WAIT; 4211 } 4212 rval = 1; 4213 break; 4214 4215 case IPF_TCPS_LAST_ACK: /* 8 */ 4216 if (tcpflags & TH_ACK) { 4217 rval = 1; 4218 } 4219 /* 4220 * we cannot detect when we go out of LAST_ACK state 4221 * to CLOSED because that is based on the reception 4222 * of ACK packets; ipfilter can only detect that a 4223 * packet has been sent by a host 4224 */ 4225 break; 4226 4227 case IPF_TCPS_FIN_WAIT_2: /* 9 */ 4228 /* NOT USED */ 4229 break; 4230 4231 case IPF_TCPS_TIME_WAIT: /* 10 */ 4232 /* we're in 2MSL timeout now */ 4233 if (ostate == IPF_TCPS_LAST_ACK) { 4234 nstate = IPF_TCPS_CLOSED; 4235 rval = 1; 4236 } else { 4237 rval = 2; 4238 } 4239 break; 4240 4241 case IPF_TCPS_CLOSED: /* 11 */ 4242 rval = 2; 4243 break; 4244 4245 default : 4246 #if !defined(_KERNEL) 4247 abort(); 4248 #endif 4249 break; 4250 } 4251 } 4252 4253 /* 4254 * If rval == 2 then do not update the queue position, but treat the 4255 * packet as being ok. 4256 */ 4257 if (rval == 2) 4258 rval = 1; 4259 else if (rval == 1) { 4260 if (ok) 4261 tqe->tqe_state[dir] = nstate; 4262 if ((tqe->tqe_flags & TQE_RULEBASED) == 0) 4263 ipf_movequeue(softc->ipf_ticks, tqe, tqe->tqe_ifq, 4264 tqtab + nstate); 4265 } 4266 4267 return (rval); 4268 } 4269 4270 4271 /* ------------------------------------------------------------------------ */ 4272 /* Function: ipf_state_log */ 4273 /* Returns: Nil */ 4274 /* Parameters: softc(I) - pointer to soft context main structure */ 4275 /* is(I) - pointer to state structure */ 4276 /* type(I) - type of log entry to create */ 4277 /* */ 4278 /* Creates a state table log entry using the state structure and type info. */ 4279 /* passed in. Log packet/byte counts, source/destination address and other */ 4280 /* protocol specific information. */ 4281 /* ------------------------------------------------------------------------ */ 4282 void 4283 ipf_state_log(ipf_main_softc_t *softc, struct ipstate *is, u_int type) 4284 { 4285 #ifdef IPFILTER_LOG 4286 struct ipslog ipsl; 4287 size_t sizes[1]; 4288 void *items[1]; 4289 int types[1]; 4290 4291 /* 4292 * Copy information out of the ipstate_t structure and into the 4293 * structure used for logging. 4294 */ 4295 ipsl.isl_type = type; 4296 ipsl.isl_pkts[0] = is->is_pkts[0] + is->is_icmppkts[0]; 4297 ipsl.isl_bytes[0] = is->is_bytes[0]; 4298 ipsl.isl_pkts[1] = is->is_pkts[1] + is->is_icmppkts[1]; 4299 ipsl.isl_bytes[1] = is->is_bytes[1]; 4300 ipsl.isl_pkts[2] = is->is_pkts[2] + is->is_icmppkts[2]; 4301 ipsl.isl_bytes[2] = is->is_bytes[2]; 4302 ipsl.isl_pkts[3] = is->is_pkts[3] + is->is_icmppkts[3]; 4303 ipsl.isl_bytes[3] = is->is_bytes[3]; 4304 ipsl.isl_src = is->is_src; 4305 ipsl.isl_dst = is->is_dst; 4306 ipsl.isl_p = is->is_p; 4307 ipsl.isl_v = is->is_v; 4308 ipsl.isl_flags = is->is_flags; 4309 ipsl.isl_tag = is->is_tag; 4310 ipsl.isl_rulen = is->is_rulen; 4311 (void) strncpy(ipsl.isl_group, is->is_group, FR_GROUPLEN); 4312 4313 if (ipsl.isl_p == IPPROTO_TCP || ipsl.isl_p == IPPROTO_UDP) { 4314 ipsl.isl_sport = is->is_sport; 4315 ipsl.isl_dport = is->is_dport; 4316 if (ipsl.isl_p == IPPROTO_TCP) { 4317 ipsl.isl_state[0] = is->is_state[0]; 4318 ipsl.isl_state[1] = is->is_state[1]; 4319 } 4320 } else if (ipsl.isl_p == IPPROTO_ICMP) { 4321 ipsl.isl_itype = is->is_icmp.ici_type; 4322 } else if (ipsl.isl_p == IPPROTO_ICMPV6) { 4323 ipsl.isl_itype = is->is_icmp.ici_type; 4324 } else { 4325 ipsl.isl_ps.isl_filler[0] = 0; 4326 ipsl.isl_ps.isl_filler[1] = 0; 4327 } 4328 4329 items[0] = &ipsl; 4330 sizes[0] = sizeof(ipsl); 4331 types[0] = 0; 4332 4333 (void) ipf_log_items(softc, IPL_LOGSTATE, NULL, items, sizes, types, 1); 4334 #endif 4335 } 4336 4337 4338 #ifdef USE_INET6 4339 /* ------------------------------------------------------------------------ */ 4340 /* Function: ipf_checkicmp6matchingstate */ 4341 /* Returns: ipstate_t* - NULL == no match found, */ 4342 /* else pointer to matching state entry */ 4343 /* Parameters: fin(I) - pointer to packet information */ 4344 /* Locks: NULL == no locks, else Read Lock on ipf_state */ 4345 /* */ 4346 /* If we've got an ICMPv6 error message, using the information stored in */ 4347 /* the ICMPv6 packet, look for a matching state table entry. */ 4348 /* ------------------------------------------------------------------------ */ 4349 static ipstate_t * 4350 ipf_checkicmp6matchingstate(fr_info_t *fin) 4351 { 4352 ipf_main_softc_t *softc = fin->fin_main_soft; 4353 ipf_state_softc_t *softs = softc->ipf_state_soft; 4354 struct icmp6_hdr *ic6, *oic; 4355 ipstate_t *is, **isp; 4356 u_short sport, dport; 4357 i6addr_t dst, src; 4358 u_short savelen; 4359 icmpinfo_t *ic; 4360 fr_info_t ofin; 4361 tcphdr_t *tcp; 4362 ip6_t *oip6; 4363 u_char pr; 4364 u_int hv; 4365 int type; 4366 4367 /* 4368 * Does it at least have the return (basic) IP header ? 4369 * Is it an actual recognised ICMP error type? 4370 * Only a basic IP header (no options) should be with 4371 * an ICMP error header. 4372 */ 4373 if ((fin->fin_v != 6) || (fin->fin_plen < ICMP6ERR_MINPKTLEN) || 4374 !(fin->fin_flx & FI_ICMPERR)) { 4375 SBUMPD(ipf_state_stats, iss_icmp_bad); 4376 return (NULL); 4377 } 4378 4379 ic6 = fin->fin_dp; 4380 type = ic6->icmp6_type; 4381 4382 oip6 = (ip6_t *)((char *)ic6 + ICMPERR_ICMPHLEN); 4383 if (fin->fin_plen < sizeof(*oip6)) { 4384 SBUMPD(ipf_state_stats, iss_icmp_short); 4385 return (NULL); 4386 } 4387 4388 bcopy((char *)fin, (char *)&ofin, sizeof(*fin)); 4389 ofin.fin_v = 6; 4390 ofin.fin_ifp = fin->fin_ifp; 4391 ofin.fin_out = !fin->fin_out; 4392 ofin.fin_m = NULL; /* if dereferenced, panic XXX */ 4393 ofin.fin_mp = NULL; /* if dereferenced, panic XXX */ 4394 4395 /* 4396 * We make a fin entry to be able to feed it to 4397 * matchsrcdst. Note that not all fields are necessary 4398 * but this is the cleanest way. Note further we fill 4399 * in fin_mp such that if someone uses it we'll get 4400 * a kernel panic. ipf_matchsrcdst does not use this. 4401 * 4402 * watch out here, as ip is in host order and oip6 in network 4403 * order. Any change we make must be undone afterwards. 4404 */ 4405 savelen = oip6->ip6_plen; 4406 oip6->ip6_plen = htons(fin->fin_dlen - ICMPERR_ICMPHLEN); 4407 ofin.fin_flx = FI_NOCKSUM; 4408 ofin.fin_ip = (ip_t *)oip6; 4409 (void) ipf_makefrip(sizeof(*oip6), (ip_t *)oip6, &ofin); 4410 ofin.fin_flx &= ~(FI_BAD|FI_SHORT); 4411 oip6->ip6_plen = savelen; 4412 pr = ofin.fin_p; 4413 4414 /* 4415 * an ICMP error can never generate an ICMP error in response. 4416 */ 4417 if (ofin.fin_flx & FI_ICMPERR) { 4418 DT1(iss_icmp6_icmperr, fr_info_t *, &ofin); 4419 SBUMP(ipf_state_stats.iss_icmp6_icmperr); 4420 return (NULL); 4421 } 4422 4423 if (oip6->ip6_nxt == IPPROTO_ICMPV6) { 4424 oic = ofin.fin_dp; 4425 /* 4426 * an ICMP error can only be generated as a result of an 4427 * ICMP query, not as the response on an ICMP error 4428 * 4429 * XXX theoretically ICMP_ECHOREP and the other reply's are 4430 * ICMP query's as well, but adding them here seems strange XXX 4431 */ 4432 if (!(oic->icmp6_type & ICMP6_INFOMSG_MASK)) { 4433 DT1(iss_icmp6_notinfo, fr_info_t *, &ofin); 4434 SBUMP(ipf_state_stats.iss_icmp6_notinfo); 4435 return (NULL); 4436 } 4437 4438 /* 4439 * perform a lookup of the ICMP packet in the state table 4440 */ 4441 hv = (pr = oip6->ip6_nxt); 4442 src.in6 = oip6->ip6_src; 4443 hv += src.in4.s_addr; 4444 dst.in6 = oip6->ip6_dst; 4445 hv += dst.in4.s_addr; 4446 hv += oic->icmp6_id; 4447 hv += oic->icmp6_seq; 4448 hv = DOUBLE_HASH(hv); 4449 4450 READ_ENTER(&softc->ipf_state); 4451 for (isp = &softs->ipf_state_table[hv]; 4452 ((is = *isp) != NULL); ) { 4453 ic = &is->is_icmp; 4454 isp = &is->is_hnext; 4455 if ((is->is_p == pr) && 4456 !(is->is_pass & FR_NOICMPERR) && 4457 (oic->icmp6_id == ic->ici_id) && 4458 (oic->icmp6_seq == ic->ici_seq) && 4459 (is = ipf_matchsrcdst(&ofin, is, &src, 4460 &dst, NULL, FI_ICMPCMP))) { 4461 /* 4462 * in the state table ICMP query's are stored 4463 * with the type of the corresponding ICMP 4464 * response. Correct here 4465 */ 4466 if (((ic->ici_type == ICMP6_ECHO_REPLY) && 4467 (oic->icmp6_type == ICMP6_ECHO_REQUEST)) || 4468 (ic->ici_type - 1 == oic->icmp6_type )) { 4469 if (!ipf_allowstateicmp(fin, is, &src)) 4470 return (is); 4471 } 4472 } 4473 } 4474 RWLOCK_EXIT(&softc->ipf_state); 4475 SBUMPD(ipf_state_stats, iss_icmp6_miss); 4476 return (NULL); 4477 } 4478 4479 hv = (pr = oip6->ip6_nxt); 4480 src.in6 = oip6->ip6_src; 4481 hv += src.i6[0]; 4482 hv += src.i6[1]; 4483 hv += src.i6[2]; 4484 hv += src.i6[3]; 4485 dst.in6 = oip6->ip6_dst; 4486 hv += dst.i6[0]; 4487 hv += dst.i6[1]; 4488 hv += dst.i6[2]; 4489 hv += dst.i6[3]; 4490 4491 tcp = NULL; 4492 4493 switch (oip6->ip6_nxt) 4494 { 4495 case IPPROTO_TCP : 4496 case IPPROTO_UDP : 4497 tcp = (tcphdr_t *)(oip6 + 1); 4498 dport = tcp->th_dport; 4499 sport = tcp->th_sport; 4500 hv += dport; 4501 hv += sport; 4502 break; 4503 4504 case IPPROTO_ICMPV6 : 4505 oic = (struct icmp6_hdr *)(oip6 + 1); 4506 hv += oic->icmp6_id; 4507 hv += oic->icmp6_seq; 4508 break; 4509 4510 default : 4511 break; 4512 } 4513 4514 hv = DOUBLE_HASH(hv); 4515 4516 READ_ENTER(&softc->ipf_state); 4517 for (isp = &softs->ipf_state_table[hv]; ((is = *isp) != NULL); ) { 4518 isp = &is->is_hnext; 4519 /* 4520 * Only allow this icmp though if the 4521 * encapsulated packet was allowed through the 4522 * other way around. Note that the minimal amount 4523 * of info present does not allow for checking against 4524 * tcp internals such as seq and ack numbers. 4525 */ 4526 if ((is->is_p != pr) || (is->is_v != 6) || 4527 (is->is_pass & FR_NOICMPERR)) 4528 continue; 4529 is = ipf_matchsrcdst(&ofin, is, &src, &dst, tcp, FI_ICMPCMP); 4530 if ((is != NULL) && (ipf_allowstateicmp(fin, is, &src) == 0)) 4531 return (is); 4532 } 4533 RWLOCK_EXIT(&softc->ipf_state); 4534 SBUMPD(ipf_state_stats, iss_icmp_miss); 4535 return (NULL); 4536 } 4537 #endif 4538 4539 4540 /* ------------------------------------------------------------------------ */ 4541 /* Function: ipf_sttab_init */ 4542 /* Returns: Nil */ 4543 /* Parameters: softc(I) - pointer to soft context main structure */ 4544 /* tqp(I) - pointer to an array of timeout queues for TCP */ 4545 /* */ 4546 /* Initialise the array of timeout queues for TCP. */ 4547 /* ------------------------------------------------------------------------ */ 4548 void 4549 ipf_sttab_init(ipf_main_softc_t *softc, ipftq_t *tqp) 4550 { 4551 int i; 4552 4553 for (i = IPF_TCP_NSTATES - 1; i >= 0; i--) { 4554 IPFTQ_INIT(&tqp[i], 0, "ipftq tcp tab"); 4555 tqp[i].ifq_next = tqp + i + 1; 4556 } 4557 tqp[IPF_TCP_NSTATES - 1].ifq_next = NULL; 4558 tqp[IPF_TCPS_CLOSED].ifq_ttl = softc->ipf_tcpclosed; 4559 tqp[IPF_TCPS_LISTEN].ifq_ttl = softc->ipf_tcptimeout; 4560 tqp[IPF_TCPS_SYN_SENT].ifq_ttl = softc->ipf_tcpsynsent; 4561 tqp[IPF_TCPS_SYN_RECEIVED].ifq_ttl = softc->ipf_tcpsynrecv; 4562 tqp[IPF_TCPS_ESTABLISHED].ifq_ttl = softc->ipf_tcpidletimeout; 4563 tqp[IPF_TCPS_CLOSE_WAIT].ifq_ttl = softc->ipf_tcphalfclosed; 4564 tqp[IPF_TCPS_FIN_WAIT_1].ifq_ttl = softc->ipf_tcphalfclosed; 4565 tqp[IPF_TCPS_CLOSING].ifq_ttl = softc->ipf_tcptimeout; 4566 tqp[IPF_TCPS_LAST_ACK].ifq_ttl = softc->ipf_tcplastack; 4567 tqp[IPF_TCPS_FIN_WAIT_2].ifq_ttl = softc->ipf_tcpclosewait; 4568 tqp[IPF_TCPS_TIME_WAIT].ifq_ttl = softc->ipf_tcptimewait; 4569 tqp[IPF_TCPS_HALF_ESTAB].ifq_ttl = softc->ipf_tcptimeout; 4570 } 4571 4572 4573 /* ------------------------------------------------------------------------ */ 4574 /* Function: ipf_sttab_destroy */ 4575 /* Returns: Nil */ 4576 /* Parameters: tqp(I) - pointer to an array of timeout queues for TCP */ 4577 /* */ 4578 /* Do whatever is necessary to "destroy" each of the entries in the array */ 4579 /* of timeout queues for TCP. */ 4580 /* ------------------------------------------------------------------------ */ 4581 void 4582 ipf_sttab_destroy(ipftq_t *tqp) 4583 { 4584 int i; 4585 4586 for (i = IPF_TCP_NSTATES - 1; i >= 0; i--) 4587 MUTEX_DESTROY(&tqp[i].ifq_lock); 4588 } 4589 4590 4591 /* ------------------------------------------------------------------------ */ 4592 /* Function: ipf_state_deref */ 4593 /* Returns: Nil */ 4594 /* Parameters: softc(I) - pointer to soft context main structure */ 4595 /* isp(I) - pointer to pointer to state table entry */ 4596 /* */ 4597 /* Decrement the reference counter for this state table entry and free it */ 4598 /* if there are no more things using it. */ 4599 /* */ 4600 /* This function is only called when cleaning up after increasing is_ref by */ 4601 /* one earlier in the 'code path' so if is_ref is 1 when entering, we do */ 4602 /* have an orphan, otherwise not. However there is a possible race between */ 4603 /* the entry being deleted via flushing with an ioctl call (that calls the */ 4604 /* delete function directly) and the tail end of packet processing so we */ 4605 /* need to grab is_lock before doing the check to synchronise the two code */ 4606 /* paths. */ 4607 /* */ 4608 /* When operating in userland (ipftest), we have no timers to clear a state */ 4609 /* entry. Therefore, we make a few simple tests before deleting an entry */ 4610 /* outright. We compare states on each side looking for a combination of */ 4611 /* TIME_WAIT (should really be FIN_WAIT_2?) and LAST_ACK. Then we factor */ 4612 /* in packet direction with the interface list to make sure we don't */ 4613 /* prematurely delete an entry on a final inbound packet that's we're also */ 4614 /* supposed to route elsewhere. */ 4615 /* */ 4616 /* Internal parameters: */ 4617 /* state[0] = state of source (host that initiated connection) */ 4618 /* state[1] = state of dest (host that accepted the connection) */ 4619 /* */ 4620 /* dir == 0 : a packet from source to dest */ 4621 /* dir == 1 : a packet from dest to source */ 4622 /* ------------------------------------------------------------------------ */ 4623 void 4624 ipf_state_deref(ipf_main_softc_t *softc, ipstate_t **isp) 4625 { 4626 ipstate_t *is = *isp; 4627 4628 is = *isp; 4629 *isp = NULL; 4630 4631 MUTEX_ENTER(&is->is_lock); 4632 if (is->is_ref > 1) { 4633 is->is_ref--; 4634 MUTEX_EXIT(&is->is_lock); 4635 #ifndef _KERNEL 4636 if ((is->is_sti.tqe_state[0] > IPF_TCPS_ESTABLISHED) || 4637 (is->is_sti.tqe_state[1] > IPF_TCPS_ESTABLISHED)) { 4638 ipf_state_del(softc, is, ISL_EXPIRE); 4639 } 4640 #endif 4641 return; 4642 } 4643 MUTEX_EXIT(&is->is_lock); 4644 4645 WRITE_ENTER(&softc->ipf_state); 4646 ipf_state_del(softc, is, ISL_ORPHAN); 4647 RWLOCK_EXIT(&softc->ipf_state); 4648 } 4649 4650 4651 /* ------------------------------------------------------------------------ */ 4652 /* Function: ipf_state_setqueue */ 4653 /* Returns: Nil */ 4654 /* Parameters: softc(I) - pointer to soft context main structure */ 4655 /* is(I) - pointer to state structure */ 4656 /* rev(I) - forward(0) or reverse(1) direction */ 4657 /* Locks: ipf_state (read or write) */ 4658 /* */ 4659 /* Put the state entry on its default queue entry, using rev as a helped in */ 4660 /* determining which queue it should be placed on. */ 4661 /* ------------------------------------------------------------------------ */ 4662 void 4663 ipf_state_setqueue(ipf_main_softc_t *softc, ipstate_t *is, int rev) 4664 { 4665 ipf_state_softc_t *softs = softc->ipf_state_soft; 4666 ipftq_t *oifq, *nifq; 4667 4668 if ((is->is_sti.tqe_flags & TQE_RULEBASED) != 0) 4669 nifq = is->is_tqehead[rev]; 4670 else 4671 nifq = NULL; 4672 4673 if (nifq == NULL) { 4674 switch (is->is_p) 4675 { 4676 #ifdef USE_INET6 4677 case IPPROTO_ICMPV6 : 4678 if (rev == 1) 4679 nifq = &softs->ipf_state_icmpacktq; 4680 else 4681 nifq = &softs->ipf_state_icmptq; 4682 break; 4683 #endif 4684 case IPPROTO_ICMP : 4685 if (rev == 1) 4686 nifq = &softs->ipf_state_icmpacktq; 4687 else 4688 nifq = &softs->ipf_state_icmptq; 4689 break; 4690 case IPPROTO_TCP : 4691 nifq = softs->ipf_state_tcptq + is->is_state[rev]; 4692 break; 4693 4694 case IPPROTO_UDP : 4695 if (rev == 1) 4696 nifq = &softs->ipf_state_udpacktq; 4697 else 4698 nifq = &softs->ipf_state_udptq; 4699 break; 4700 4701 default : 4702 nifq = &softs->ipf_state_iptq; 4703 break; 4704 } 4705 } 4706 4707 oifq = is->is_sti.tqe_ifq; 4708 /* 4709 * If it's currently on a timeout queue, move it from one queue to 4710 * another, else put it on the end of the newly determined queue. 4711 */ 4712 if (oifq != NULL) 4713 ipf_movequeue(softc->ipf_ticks, &is->is_sti, oifq, nifq); 4714 else 4715 ipf_queueappend(softc->ipf_ticks, &is->is_sti, nifq, is); 4716 return; 4717 } 4718 4719 4720 /* ------------------------------------------------------------------------ */ 4721 /* Function: ipf_state_iter */ 4722 /* Returns: int - 0 == success, else error */ 4723 /* Parameters: softc(I) - pointer to main soft context */ 4724 /* token(I) - pointer to ipftoken structure */ 4725 /* itp(I) - pointer to ipfgeniter structure */ 4726 /* obj(I) - pointer to data description structure */ 4727 /* */ 4728 /* This function handles the SIOCGENITER ioctl for the state tables and */ 4729 /* walks through the list of entries in the state table list (softs->ipf_state_list.) */ 4730 /* ------------------------------------------------------------------------ */ 4731 static int 4732 ipf_state_iter(ipf_main_softc_t *softc, ipftoken_t *token, ipfgeniter_t *itp, 4733 ipfobj_t *obj) 4734 { 4735 ipf_state_softc_t *softs = softc->ipf_state_soft; 4736 ipstate_t *is, *next, zero; 4737 int error; 4738 4739 if (itp->igi_data == NULL) { 4740 IPFERROR(100026); 4741 return (EFAULT); 4742 } 4743 4744 if (itp->igi_nitems < 1) { 4745 IPFERROR(100027); 4746 return (ENOSPC); 4747 } 4748 4749 if (itp->igi_type != IPFGENITER_STATE) { 4750 IPFERROR(100028); 4751 return (EINVAL); 4752 } 4753 4754 is = token->ipt_data; 4755 if (is == (void *)-1) { 4756 IPFERROR(100029); 4757 return (ESRCH); 4758 } 4759 4760 error = 0; 4761 obj->ipfo_type = IPFOBJ_IPSTATE; 4762 obj->ipfo_size = sizeof(ipstate_t); 4763 4764 READ_ENTER(&softc->ipf_state); 4765 4766 is = token->ipt_data; 4767 if (is == NULL) { 4768 next = softs->ipf_state_list; 4769 } else { 4770 next = is->is_next; 4771 } 4772 4773 /* 4774 * If we find a state entry to use, bump its reference count so that 4775 * it can be used for is_next when we come back. 4776 */ 4777 if (next != NULL) { 4778 MUTEX_ENTER(&next->is_lock); 4779 next->is_ref++; 4780 MUTEX_EXIT(&next->is_lock); 4781 token->ipt_data = next; 4782 } else { 4783 bzero(&zero, sizeof(zero)); 4784 next = &zero; 4785 token->ipt_data = NULL; 4786 } 4787 if (next->is_next == NULL) 4788 ipf_token_mark_complete(token); 4789 4790 RWLOCK_EXIT(&softc->ipf_state); 4791 4792 obj->ipfo_ptr = itp->igi_data; 4793 error = ipf_outobjk(softc, obj, next); 4794 if (is != NULL) 4795 ipf_state_deref(softc, &is); 4796 4797 return (error); 4798 } 4799 4800 4801 /* ------------------------------------------------------------------------ */ 4802 /* Function: ipf_state_gettable */ 4803 /* Returns: int - 0 = success, else error */ 4804 /* Parameters: softc(I) - pointer to main soft context */ 4805 /* softs(I) - pointer to state context structure */ 4806 /* data(I) - pointer to ioctl data */ 4807 /* */ 4808 /* This function handles ioctl requests for tables of state information. */ 4809 /* At present the only table it deals with is the hash bucket statistics. */ 4810 /* ------------------------------------------------------------------------ */ 4811 static int 4812 ipf_state_gettable(ipf_main_softc_t *softc, ipf_state_softc_t *softs, 4813 char *data) 4814 { 4815 ipftable_t table; 4816 int error; 4817 4818 error = ipf_inobj(softc, data, NULL, &table, IPFOBJ_GTABLE); 4819 if (error != 0) 4820 return (error); 4821 4822 if (table.ita_type != IPFTABLE_BUCKETS) { 4823 IPFERROR(100031); 4824 return (EINVAL); 4825 } 4826 4827 error = COPYOUT(softs->ipf_state_stats.iss_bucketlen, table.ita_table, 4828 softs->ipf_state_size * sizeof(u_int)); 4829 if (error != 0) { 4830 IPFERROR(100032); 4831 error = EFAULT; 4832 } 4833 return (error); 4834 } 4835 4836 4837 /* ------------------------------------------------------------------------ */ 4838 /* Function: ipf_state_setpending */ 4839 /* Returns: Nil */ 4840 /* Parameters: softc(I) - pointer to main soft context */ 4841 /* is(I) - pointer to state structure */ 4842 /* Locks: ipf_state (read or write) */ 4843 /* */ 4844 /* Put the state entry on to the pending queue - this queue has a very */ 4845 /* short lifetime where items are put that can't be deleted straight away */ 4846 /* because of locking issues but we want to delete them ASAP, anyway. */ 4847 /* ------------------------------------------------------------------------ */ 4848 void 4849 ipf_state_setpending(ipf_main_softc_t *softc, ipstate_t *is) 4850 { 4851 ipf_state_softc_t *softs = softc->ipf_state_soft; 4852 ipftq_t *oifq; 4853 4854 oifq = is->is_sti.tqe_ifq; 4855 if (oifq != NULL) 4856 ipf_movequeue(softc->ipf_ticks, &is->is_sti, oifq, 4857 &softs->ipf_state_pending); 4858 else 4859 ipf_queueappend(softc->ipf_ticks, &is->is_sti, 4860 &softs->ipf_state_pending, is); 4861 4862 MUTEX_ENTER(&is->is_lock); 4863 if (is->is_me != NULL) { 4864 *is->is_me = NULL; 4865 is->is_me = NULL; 4866 is->is_ref--; 4867 } 4868 MUTEX_EXIT(&is->is_lock); 4869 } 4870 4871 4872 /* ------------------------------------------------------------------------ */ 4873 /* Function: ipf_state_matchflush */ 4874 /* Returns: Nil */ 4875 /* Parameters: softc(I) - pointer to main soft context */ 4876 /* data(I) - pointer to state structure */ 4877 /* Locks: ipf_state (read or write) */ 4878 /* */ 4879 /* Flush all entries from the list of state entries that match the */ 4880 /* properties in the array loaded. */ 4881 /* ------------------------------------------------------------------------ */ 4882 int 4883 ipf_state_matchflush(ipf_main_softc_t *softc, caddr_t data) 4884 { 4885 ipf_state_softc_t *softs = softc->ipf_state_soft; 4886 int *array, flushed, error; 4887 ipstate_t *state, *statenext; 4888 ipfobj_t obj; 4889 4890 error = ipf_matcharray_load(softc, data, &obj, &array); 4891 if (error != 0) 4892 return (error); 4893 4894 flushed = 0; 4895 4896 for (state = softs->ipf_state_list; state != NULL; state = statenext) { 4897 statenext = state->is_next; 4898 if (ipf_state_matcharray(state, array, softc->ipf_ticks) == 0) { 4899 ipf_state_del(softc, state, ISL_FLUSH); 4900 flushed++; 4901 } 4902 } 4903 4904 obj.ipfo_retval = flushed; 4905 error = BCOPYOUT(&obj, data, sizeof(obj)); 4906 4907 KFREES(array, array[0] * sizeof(*array)); 4908 4909 return (error); 4910 } 4911 4912 4913 /* ------------------------------------------------------------------------ */ 4914 /* Function: ipf_state_matcharray */ 4915 /* Returns: int - 0 = no match, 1 = match */ 4916 /* Parameters: state(I) - pointer to state structure */ 4917 /* array(I) - pointer to ipf matching expression */ 4918 /* ticks(I) - current value of ipfilter tick timer */ 4919 /* Locks: ipf_state (read or write) */ 4920 /* */ 4921 /* Compare a state entry with the match array passed in and return a value */ 4922 /* to indicate whether or not the matching was successful. */ 4923 /* ------------------------------------------------------------------------ */ 4924 static int 4925 ipf_state_matcharray(ipstate_t *state, int *array, u_long ticks) 4926 { 4927 int i, n, *x, rv, p; 4928 ipfexp_t *e; 4929 4930 rv = 0; 4931 n = array[0]; 4932 x = array + 1; 4933 4934 for (; n > 0; x += 3 + x[3], rv = 0) { 4935 e = (ipfexp_t *)x; 4936 n -= e->ipfe_size; 4937 if (x[0] == IPF_EXP_END) 4938 break; 4939 4940 /* 4941 * If we need to match the protocol and that doesn't match, 4942 * don't even both with the instruction array. 4943 */ 4944 p = e->ipfe_cmd >> 16; 4945 if ((p != 0) && (p != state->is_p)) 4946 break; 4947 4948 switch (e->ipfe_cmd) 4949 { 4950 case IPF_EXP_IP_PR : 4951 for (i = 0; !rv && i < e->ipfe_narg; i++) { 4952 rv |= (state->is_p == e->ipfe_arg0[i]); 4953 } 4954 break; 4955 4956 case IPF_EXP_IP_SRCADDR : 4957 if (state->is_v != 4) 4958 break; 4959 for (i = 0; !rv && i < e->ipfe_narg; i++) { 4960 rv |= ((state->is_saddr & 4961 e->ipfe_arg0[i * 2 + 1]) == 4962 e->ipfe_arg0[i * 2]); 4963 } 4964 break; 4965 4966 case IPF_EXP_IP_DSTADDR : 4967 if (state->is_v != 4) 4968 break; 4969 for (i = 0; !rv && i < e->ipfe_narg; i++) { 4970 rv |= ((state->is_daddr & 4971 e->ipfe_arg0[i * 2 + 1]) == 4972 e->ipfe_arg0[i * 2]); 4973 } 4974 break; 4975 4976 case IPF_EXP_IP_ADDR : 4977 if (state->is_v != 4) 4978 break; 4979 for (i = 0; !rv && i < e->ipfe_narg; i++) { 4980 rv |= ((state->is_saddr & 4981 e->ipfe_arg0[i * 2 + 1]) == 4982 e->ipfe_arg0[i * 2]) || 4983 ((state->is_daddr & 4984 e->ipfe_arg0[i * 2 + 1]) == 4985 e->ipfe_arg0[i * 2]); 4986 } 4987 break; 4988 4989 #ifdef USE_INET6 4990 case IPF_EXP_IP6_SRCADDR : 4991 if (state->is_v != 6) 4992 break; 4993 for (i = 0; !rv && i < x[3]; i++) { 4994 rv |= IP6_MASKEQ(&state->is_src.in6, 4995 &e->ipfe_arg0[i * 8 + 4], 4996 &e->ipfe_arg0[i * 8]); 4997 } 4998 break; 4999 5000 case IPF_EXP_IP6_DSTADDR : 5001 if (state->is_v != 6) 5002 break; 5003 for (i = 0; !rv && i < x[3]; i++) { 5004 rv |= IP6_MASKEQ(&state->is_dst.in6, 5005 &e->ipfe_arg0[i * 8 + 4], 5006 &e->ipfe_arg0[i * 8]); 5007 } 5008 break; 5009 5010 case IPF_EXP_IP6_ADDR : 5011 if (state->is_v != 6) 5012 break; 5013 for (i = 0; !rv && i < x[3]; i++) { 5014 rv |= IP6_MASKEQ(&state->is_src.in6, 5015 &e->ipfe_arg0[i * 8 + 4], 5016 &e->ipfe_arg0[i * 8]) || 5017 IP6_MASKEQ(&state->is_dst.in6, 5018 &e->ipfe_arg0[i * 8 + 4], 5019 &e->ipfe_arg0[i * 8]); 5020 } 5021 break; 5022 #endif 5023 5024 case IPF_EXP_UDP_PORT : 5025 case IPF_EXP_TCP_PORT : 5026 for (i = 0; !rv && i < e->ipfe_narg; i++) { 5027 rv |= (state->is_sport == e->ipfe_arg0[i]) || 5028 (state->is_dport == e->ipfe_arg0[i]); 5029 } 5030 break; 5031 5032 case IPF_EXP_UDP_SPORT : 5033 case IPF_EXP_TCP_SPORT : 5034 for (i = 0; !rv && i < e->ipfe_narg; i++) { 5035 rv |= (state->is_sport == e->ipfe_arg0[i]); 5036 } 5037 break; 5038 5039 case IPF_EXP_UDP_DPORT : 5040 case IPF_EXP_TCP_DPORT : 5041 for (i = 0; !rv && i < e->ipfe_narg; i++) { 5042 rv |= (state->is_dport == e->ipfe_arg0[i]); 5043 } 5044 break; 5045 5046 case IPF_EXP_TCP_STATE : 5047 for (i = 0; !rv && i < e->ipfe_narg; i++) { 5048 rv |= (state->is_state[0] == e->ipfe_arg0[i]) || 5049 (state->is_state[1] == e->ipfe_arg0[i]); 5050 } 5051 break; 5052 5053 case IPF_EXP_IDLE_GT : 5054 rv |= (ticks - state->is_touched > e->ipfe_arg0[0]); 5055 break; 5056 } 5057 5058 /* 5059 * Factor in doing a negative match. 5060 */ 5061 rv ^= e->ipfe_not; 5062 5063 if (rv == 0) 5064 break; 5065 } 5066 5067 return (rv); 5068 } 5069 5070 5071 /* ------------------------------------------------------------------------ */ 5072 /* Function: ipf_state_settimeout */ 5073 /* Returns: int 0 = success, else failure */ 5074 /* Parameters: softc(I) - pointer to main soft context */ 5075 /* t(I) - pointer to tuneable being changed */ 5076 /* p(I) - pointer to the new value */ 5077 /* */ 5078 /* Sets a timeout value for one of the many timeout queues. We find the */ 5079 /* correct queue using a somewhat manual process of comparing the timeout */ 5080 /* names for each specific value available and calling ipf_apply_timeout on */ 5081 /* that queue so that all of the items on it are updated accordingly. */ 5082 /* ------------------------------------------------------------------------ */ 5083 int 5084 ipf_state_settimeout(struct ipf_main_softc_s *softc, ipftuneable_t *t, 5085 ipftuneval_t *p) 5086 { 5087 ipf_state_softc_t *softs = softc->ipf_state_soft; 5088 5089 /* 5090 * In case there is nothing to do... 5091 */ 5092 if (*t->ipft_pint == p->ipftu_int) 5093 return (0); 5094 5095 if (!strncmp(t->ipft_name, "tcp_", 4)) 5096 return (ipf_settimeout_tcp(t, p, softs->ipf_state_tcptq)); 5097 5098 if (!strcmp(t->ipft_name, "udp_timeout")) { 5099 ipf_apply_timeout(&softs->ipf_state_udptq, p->ipftu_int); 5100 } else if (!strcmp(t->ipft_name, "udp_ack_timeout")) { 5101 ipf_apply_timeout(&softs->ipf_state_udpacktq, p->ipftu_int); 5102 } else if (!strcmp(t->ipft_name, "icmp_timeout")) { 5103 ipf_apply_timeout(&softs->ipf_state_icmptq, p->ipftu_int); 5104 } else if (!strcmp(t->ipft_name, "icmp_ack_timeout")) { 5105 ipf_apply_timeout(&softs->ipf_state_icmpacktq, p->ipftu_int); 5106 } else if (!strcmp(t->ipft_name, "ip_timeout")) { 5107 ipf_apply_timeout(&softs->ipf_state_iptq, p->ipftu_int); 5108 } else { 5109 IPFERROR(100034); 5110 return (ESRCH); 5111 } 5112 5113 /* 5114 * Update the tuneable being set. 5115 */ 5116 *t->ipft_pint = p->ipftu_int; 5117 5118 return (0); 5119 } 5120 5121 5122 /* ------------------------------------------------------------------------ */ 5123 /* Function: ipf_state_rehash */ 5124 /* Returns: int 0 = success, else failure */ 5125 /* Parameters: softc(I) - pointer to main soft context */ 5126 /* t(I) - pointer to tuneable being changed */ 5127 /* p(I) - pointer to the new value */ 5128 /* */ 5129 /* To change the size of the state hash table at runtime, a new table has */ 5130 /* to be allocated and then all of the existing entries put in it, bumping */ 5131 /* up the bucketlength for it as we go along. */ 5132 /* ------------------------------------------------------------------------ */ 5133 int 5134 ipf_state_rehash(ipf_main_softc_t *softc, ipftuneable_t *t, ipftuneval_t *p) 5135 { 5136 ipf_state_softc_t *softs = softc->ipf_state_soft; 5137 ipstate_t **newtab, *is; 5138 u_long *newseed; 5139 u_int *bucketlens; 5140 u_int maxbucket; 5141 u_int newsize; 5142 u_int hv; 5143 int i; 5144 5145 newsize = p->ipftu_int; 5146 /* 5147 * In case there is nothing to do... 5148 */ 5149 if (newsize == softs->ipf_state_size) 5150 return (0); 5151 5152 KMALLOCS(newtab, ipstate_t **, newsize * sizeof(ipstate_t *)); 5153 if (newtab == NULL) { 5154 IPFERROR(100035); 5155 return (ENOMEM); 5156 } 5157 5158 KMALLOCS(bucketlens, u_int *, newsize * sizeof(u_int)); 5159 if (bucketlens == NULL) { 5160 KFREES(newtab, newsize * sizeof(*softs->ipf_state_table)); 5161 IPFERROR(100036); 5162 return (ENOMEM); 5163 } 5164 5165 newseed = ipf_state_seed_alloc(newsize, softs->ipf_state_max); 5166 if (newseed == NULL) { 5167 KFREES(bucketlens, newsize * sizeof(*bucketlens)); 5168 KFREES(newtab, newsize * sizeof(*newtab)); 5169 IPFERROR(100037); 5170 return (ENOMEM); 5171 } 5172 5173 for (maxbucket = 0, i = newsize; i > 0; i >>= 1) 5174 maxbucket++; 5175 maxbucket *= 2; 5176 5177 bzero((char *)newtab, newsize * sizeof(ipstate_t *)); 5178 bzero((char *)bucketlens, newsize * sizeof(u_int)); 5179 5180 WRITE_ENTER(&softc->ipf_state); 5181 5182 if (softs->ipf_state_table != NULL) { 5183 KFREES(softs->ipf_state_table, 5184 softs->ipf_state_size * sizeof(*softs->ipf_state_table)); 5185 } 5186 softs->ipf_state_table = newtab; 5187 5188 if (softs->ipf_state_seed != NULL) { 5189 KFREES(softs->ipf_state_seed, 5190 softs->ipf_state_size * sizeof(*softs->ipf_state_seed)); 5191 } 5192 softs->ipf_state_seed = newseed; 5193 5194 if (softs->ipf_state_stats.iss_bucketlen != NULL) { 5195 KFREES(softs->ipf_state_stats.iss_bucketlen, 5196 softs->ipf_state_size * sizeof(u_int)); 5197 } 5198 softs->ipf_state_stats.iss_bucketlen = bucketlens; 5199 softs->ipf_state_maxbucket = maxbucket; 5200 softs->ipf_state_size = newsize; 5201 5202 /* 5203 * Walk through the entire list of state table entries and put them 5204 * in the new state table, somewhere. Because we have a new table, 5205 * we need to restart the counter of how many chains are in use. 5206 */ 5207 softs->ipf_state_stats.iss_inuse = 0; 5208 for (is = softs->ipf_state_list; is != NULL; is = is->is_next) { 5209 is->is_hnext = NULL; 5210 is->is_phnext = NULL; 5211 hv = is->is_hv % softs->ipf_state_size; 5212 5213 if (softs->ipf_state_table[hv] != NULL) 5214 softs->ipf_state_table[hv]->is_phnext = &is->is_hnext; 5215 else 5216 softs->ipf_state_stats.iss_inuse++; 5217 is->is_phnext = softs->ipf_state_table + hv; 5218 is->is_hnext = softs->ipf_state_table[hv]; 5219 softs->ipf_state_table[hv] = is; 5220 softs->ipf_state_stats.iss_bucketlen[hv]++; 5221 } 5222 RWLOCK_EXIT(&softc->ipf_state); 5223 5224 return (0); 5225 } 5226 5227 5228 /* ------------------------------------------------------------------------ */ 5229 /* Function: ipf_state_add_tq */ 5230 /* Returns: ipftq_t * - NULL = failure, else pointer to new timeout */ 5231 /* queue */ 5232 /* Parameters: softc(I) - pointer to main soft context */ 5233 /* ttl(I) - pointer to the ttl for the new queue */ 5234 /* */ 5235 /* Request a pointer to a timeout queue that has a ttl as given by the */ 5236 /* value being passed in. The timeout queue is added tot the list of those */ 5237 /* used internally for stateful filtering. */ 5238 /* ------------------------------------------------------------------------ */ 5239 ipftq_t * 5240 ipf_state_add_tq(ipf_main_softc_t *softc, int ttl) 5241 { 5242 ipf_state_softc_t *softs = softc->ipf_state_soft; 5243 5244 return (ipf_addtimeoutqueue(softc, &softs->ipf_state_usertq, ttl)); 5245 } 5246 5247 5248 #ifndef _KERNEL 5249 /* 5250 * Display the built up state table rules and mapping entries. 5251 */ 5252 void 5253 ipf_state_dump(ipf_main_softc_t *softc, void *arg) 5254 { 5255 ipf_state_softc_t *softs = arg; 5256 ipstate_t *ips; 5257 5258 printf("List of active state sessions:\n"); 5259 for (ips = softs->ipf_state_list; ips != NULL; ) 5260 ips = printstate(ips, opts & (OPT_DEBUG|OPT_VERBOSE), 5261 softc->ipf_ticks); 5262 } 5263 #endif 5264