1 /*- 2 * SPDX-License-Identifier: BSD-2-Clause 3 * 4 * Copyright (c) 2001 Daniel Hartmeier 5 * All rights reserved. 6 * 7 * Redistribution and use in source and binary forms, with or without 8 * modification, are permitted provided that the following conditions 9 * are met: 10 * 11 * - Redistributions of source code must retain the above copyright 12 * notice, this list of conditions and the following disclaimer. 13 * - Redistributions in binary form must reproduce the above 14 * copyright notice, this list of conditions and the following 15 * disclaimer in the documentation and/or other materials provided 16 * with the distribution. 17 * 18 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 19 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 20 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS 21 * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE 22 * COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, 23 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 24 * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; 25 * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER 26 * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 27 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN 28 * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 * POSSIBILITY OF SUCH DAMAGE. 30 * 31 * $OpenBSD: pfvar.h,v 1.282 2009/01/29 15:12:28 pyr Exp $ 32 */ 33 34 #ifndef _NET_PFVAR_H_ 35 #define _NET_PFVAR_H_ 36 37 #include <sys/param.h> 38 #include <sys/queue.h> 39 #include <sys/counter.h> 40 #include <sys/cpuset.h> 41 #include <sys/epoch.h> 42 #include <sys/malloc.h> 43 #include <sys/nv.h> 44 #include <sys/refcount.h> 45 #include <sys/sdt.h> 46 #include <sys/sysctl.h> 47 #include <sys/smp.h> 48 #include <sys/lock.h> 49 #include <sys/rmlock.h> 50 #include <sys/tree.h> 51 #include <sys/seqc.h> 52 #include <vm/uma.h> 53 54 #include <net/if.h> 55 #include <net/ethernet.h> 56 #include <net/radix.h> 57 #include <netinet/in.h> 58 #ifdef _KERNEL 59 #include <netinet/ip.h> 60 #include <netinet/tcp.h> 61 #include <netinet/udp.h> 62 #include <netinet/sctp.h> 63 #include <netinet/ip_icmp.h> 64 #include <netinet/icmp6.h> 65 #endif 66 67 #include <netpfil/pf/pf.h> 68 #include <netpfil/pf/pf_altq.h> 69 #include <netpfil/pf/pf_mtag.h> 70 71 #ifdef _KERNEL 72 73 #if defined(__arm__) 74 #define PF_WANT_32_TO_64_COUNTER 75 #endif 76 77 /* 78 * A hybrid of 32-bit and 64-bit counters which can be used on platforms where 79 * counter(9) is very expensive. 80 * 81 * As 32-bit counters are expected to overflow, a periodic job sums them up to 82 * a saved 64-bit state. Fetching the value still walks all CPUs to get the most 83 * current snapshot. 84 */ 85 #ifdef PF_WANT_32_TO_64_COUNTER 86 struct pf_counter_u64_pcpu { 87 u_int32_t current; 88 u_int32_t snapshot; 89 }; 90 91 struct pf_counter_u64 { 92 struct pf_counter_u64_pcpu *pfcu64_pcpu; 93 u_int64_t pfcu64_value; 94 seqc_t pfcu64_seqc; 95 }; 96 97 static inline int 98 pf_counter_u64_init(struct pf_counter_u64 *pfcu64, int flags) 99 { 100 101 pfcu64->pfcu64_value = 0; 102 pfcu64->pfcu64_seqc = 0; 103 pfcu64->pfcu64_pcpu = uma_zalloc_pcpu(pcpu_zone_8, flags | M_ZERO); 104 if (__predict_false(pfcu64->pfcu64_pcpu == NULL)) 105 return (ENOMEM); 106 return (0); 107 } 108 109 static inline void 110 pf_counter_u64_deinit(struct pf_counter_u64 *pfcu64) 111 { 112 113 uma_zfree_pcpu(pcpu_zone_8, pfcu64->pfcu64_pcpu); 114 } 115 116 static inline void 117 pf_counter_u64_critical_enter(void) 118 { 119 120 critical_enter(); 121 } 122 123 static inline void 124 pf_counter_u64_critical_exit(void) 125 { 126 127 critical_exit(); 128 } 129 130 static inline void 131 pf_counter_u64_add_protected(struct pf_counter_u64 *pfcu64, uint32_t n) 132 { 133 struct pf_counter_u64_pcpu *pcpu; 134 u_int32_t val; 135 136 MPASS(curthread->td_critnest > 0); 137 pcpu = zpcpu_get(pfcu64->pfcu64_pcpu); 138 val = atomic_load_int(&pcpu->current); 139 atomic_store_int(&pcpu->current, val + n); 140 } 141 142 static inline void 143 pf_counter_u64_add(struct pf_counter_u64 *pfcu64, uint32_t n) 144 { 145 146 critical_enter(); 147 pf_counter_u64_add_protected(pfcu64, n); 148 critical_exit(); 149 } 150 151 static inline u_int64_t 152 pf_counter_u64_periodic(struct pf_counter_u64 *pfcu64) 153 { 154 struct pf_counter_u64_pcpu *pcpu; 155 u_int64_t sum; 156 u_int32_t val; 157 int cpu; 158 159 MPASS(curthread->td_critnest > 0); 160 seqc_write_begin(&pfcu64->pfcu64_seqc); 161 sum = pfcu64->pfcu64_value; 162 CPU_FOREACH(cpu) { 163 pcpu = zpcpu_get_cpu(pfcu64->pfcu64_pcpu, cpu); 164 val = atomic_load_int(&pcpu->current); 165 sum += (uint32_t)(val - pcpu->snapshot); 166 pcpu->snapshot = val; 167 } 168 pfcu64->pfcu64_value = sum; 169 seqc_write_end(&pfcu64->pfcu64_seqc); 170 return (sum); 171 } 172 173 static inline u_int64_t 174 pf_counter_u64_fetch(const struct pf_counter_u64 *pfcu64) 175 { 176 struct pf_counter_u64_pcpu *pcpu; 177 u_int64_t sum; 178 seqc_t seqc; 179 int cpu; 180 181 for (;;) { 182 seqc = seqc_read(&pfcu64->pfcu64_seqc); 183 sum = 0; 184 CPU_FOREACH(cpu) { 185 pcpu = zpcpu_get_cpu(pfcu64->pfcu64_pcpu, cpu); 186 sum += (uint32_t)(atomic_load_int(&pcpu->current) -pcpu->snapshot); 187 } 188 sum += pfcu64->pfcu64_value; 189 if (seqc_consistent(&pfcu64->pfcu64_seqc, seqc)) 190 break; 191 } 192 return (sum); 193 } 194 195 static inline void 196 pf_counter_u64_zero_protected(struct pf_counter_u64 *pfcu64) 197 { 198 struct pf_counter_u64_pcpu *pcpu; 199 int cpu; 200 201 MPASS(curthread->td_critnest > 0); 202 seqc_write_begin(&pfcu64->pfcu64_seqc); 203 CPU_FOREACH(cpu) { 204 pcpu = zpcpu_get_cpu(pfcu64->pfcu64_pcpu, cpu); 205 pcpu->snapshot = atomic_load_int(&pcpu->current); 206 } 207 pfcu64->pfcu64_value = 0; 208 seqc_write_end(&pfcu64->pfcu64_seqc); 209 } 210 211 static inline void 212 pf_counter_u64_zero(struct pf_counter_u64 *pfcu64) 213 { 214 215 critical_enter(); 216 pf_counter_u64_zero_protected(pfcu64); 217 critical_exit(); 218 } 219 #else 220 struct pf_counter_u64 { 221 counter_u64_t counter; 222 }; 223 224 static inline int 225 pf_counter_u64_init(struct pf_counter_u64 *pfcu64, int flags) 226 { 227 228 pfcu64->counter = counter_u64_alloc(flags); 229 if (__predict_false(pfcu64->counter == NULL)) 230 return (ENOMEM); 231 return (0); 232 } 233 234 static inline void 235 pf_counter_u64_deinit(struct pf_counter_u64 *pfcu64) 236 { 237 238 counter_u64_free(pfcu64->counter); 239 } 240 241 static inline void 242 pf_counter_u64_critical_enter(void) 243 { 244 245 } 246 247 static inline void 248 pf_counter_u64_critical_exit(void) 249 { 250 251 } 252 253 static inline void 254 pf_counter_u64_add_protected(struct pf_counter_u64 *pfcu64, uint32_t n) 255 { 256 257 counter_u64_add(pfcu64->counter, n); 258 } 259 260 static inline void 261 pf_counter_u64_add(struct pf_counter_u64 *pfcu64, uint32_t n) 262 { 263 264 pf_counter_u64_add_protected(pfcu64, n); 265 } 266 267 static inline u_int64_t 268 pf_counter_u64_fetch(const struct pf_counter_u64 *pfcu64) 269 { 270 271 return (counter_u64_fetch(pfcu64->counter)); 272 } 273 274 static inline void 275 pf_counter_u64_zero_protected(struct pf_counter_u64 *pfcu64) 276 { 277 278 counter_u64_zero(pfcu64->counter); 279 } 280 281 static inline void 282 pf_counter_u64_zero(struct pf_counter_u64 *pfcu64) 283 { 284 285 pf_counter_u64_zero_protected(pfcu64); 286 } 287 #endif 288 289 #define pf_get_timestamp(prule)({ \ 290 uint32_t _ts = 0; \ 291 uint32_t __ts; \ 292 int cpu; \ 293 CPU_FOREACH(cpu) { \ 294 __ts = *zpcpu_get_cpu(prule->timestamp, cpu); \ 295 if (__ts > _ts) \ 296 _ts = __ts; \ 297 } \ 298 _ts; \ 299 }) 300 301 #define pf_update_timestamp(prule) \ 302 do { \ 303 critical_enter(); \ 304 *zpcpu_get((prule)->timestamp) = time_second; \ 305 critical_exit(); \ 306 } while (0) 307 308 #define pf_timestamp_pcpu_zone (sizeof(time_t) == 4 ? pcpu_zone_4 : pcpu_zone_8) 309 _Static_assert(sizeof(time_t) == 4 || sizeof(time_t) == 8, "unexpected time_t size"); 310 311 SYSCTL_DECL(_net_pf); 312 MALLOC_DECLARE(M_PFHASH); 313 MALLOC_DECLARE(M_PF_RULE_ITEM); 314 315 SDT_PROVIDER_DECLARE(pf); 316 317 struct pfi_dynaddr { 318 TAILQ_ENTRY(pfi_dynaddr) entry; 319 struct pf_addr pfid_addr4; 320 struct pf_addr pfid_mask4; 321 struct pf_addr pfid_addr6; 322 struct pf_addr pfid_mask6; 323 struct pfr_ktable *pfid_kt; 324 struct pfi_kkif *pfid_kif; 325 int pfid_net; /* mask or 128 */ 326 int pfid_acnt4; /* address count IPv4 */ 327 int pfid_acnt6; /* address count IPv6 */ 328 sa_family_t pfid_af; /* rule af */ 329 u_int8_t pfid_iflags; /* PFI_AFLAG_* */ 330 }; 331 332 /* 333 * Address manipulation macros 334 */ 335 #define HTONL(x) (x) = htonl((__uint32_t)(x)) 336 #define HTONS(x) (x) = htons((__uint16_t)(x)) 337 #define NTOHL(x) (x) = ntohl((__uint32_t)(x)) 338 #define NTOHS(x) (x) = ntohs((__uint16_t)(x)) 339 340 #define PF_NAME "pf" 341 342 #define PF_HASHROW_ASSERT(h) mtx_assert(&(h)->lock, MA_OWNED) 343 #define PF_HASHROW_LOCK(h) mtx_lock(&(h)->lock) 344 #define PF_HASHROW_UNLOCK(h) mtx_unlock(&(h)->lock) 345 346 #ifdef INVARIANTS 347 #define PF_STATE_LOCK(s) \ 348 do { \ 349 struct pf_kstate *_s = (s); \ 350 struct pf_idhash *_ih = &V_pf_idhash[PF_IDHASH(_s)]; \ 351 MPASS(_s->lock == &_ih->lock); \ 352 mtx_lock(_s->lock); \ 353 } while (0) 354 #define PF_STATE_UNLOCK(s) \ 355 do { \ 356 struct pf_kstate *_s = (s); \ 357 struct pf_idhash *_ih = &V_pf_idhash[PF_IDHASH(_s)]; \ 358 MPASS(_s->lock == &_ih->lock); \ 359 mtx_unlock(_s->lock); \ 360 } while (0) 361 #else 362 #define PF_STATE_LOCK(s) mtx_lock(s->lock) 363 #define PF_STATE_UNLOCK(s) mtx_unlock(s->lock) 364 #endif 365 366 #ifdef INVARIANTS 367 #define PF_STATE_LOCK_ASSERT(s) \ 368 do { \ 369 struct pf_kstate *_s = (s); \ 370 struct pf_idhash *_ih = &V_pf_idhash[PF_IDHASH(_s)]; \ 371 MPASS(_s->lock == &_ih->lock); \ 372 PF_HASHROW_ASSERT(_ih); \ 373 } while (0) 374 #else /* !INVARIANTS */ 375 #define PF_STATE_LOCK_ASSERT(s) do {} while (0) 376 #endif /* INVARIANTS */ 377 378 #ifdef INVARIANTS 379 #define PF_SRC_NODE_LOCK(sn) \ 380 do { \ 381 struct pf_ksrc_node *_sn = (sn); \ 382 struct pf_srchash *_sh = &V_pf_srchash[ \ 383 pf_hashsrc(&_sn->addr, _sn->af)]; \ 384 MPASS(_sn->lock == &_sh->lock); \ 385 mtx_lock(_sn->lock); \ 386 } while (0) 387 #define PF_SRC_NODE_UNLOCK(sn) \ 388 do { \ 389 struct pf_ksrc_node *_sn = (sn); \ 390 struct pf_srchash *_sh = &V_pf_srchash[ \ 391 pf_hashsrc(&_sn->addr, _sn->af)]; \ 392 MPASS(_sn->lock == &_sh->lock); \ 393 mtx_unlock(_sn->lock); \ 394 } while (0) 395 #else 396 #define PF_SRC_NODE_LOCK(sn) mtx_lock((sn)->lock) 397 #define PF_SRC_NODE_UNLOCK(sn) mtx_unlock((sn)->lock) 398 #endif 399 400 #ifdef INVARIANTS 401 #define PF_SRC_NODE_LOCK_ASSERT(sn) \ 402 do { \ 403 struct pf_ksrc_node *_sn = (sn); \ 404 struct pf_srchash *_sh = &V_pf_srchash[ \ 405 pf_hashsrc(&_sn->addr, _sn->af)]; \ 406 MPASS(_sn->lock == &_sh->lock); \ 407 PF_HASHROW_ASSERT(_sh); \ 408 } while (0) 409 #else /* !INVARIANTS */ 410 #define PF_SRC_NODE_LOCK_ASSERT(sn) do {} while (0) 411 #endif /* INVARIANTS */ 412 413 extern struct mtx_padalign pf_unlnkdrules_mtx; 414 #define PF_UNLNKDRULES_LOCK() mtx_lock(&pf_unlnkdrules_mtx) 415 #define PF_UNLNKDRULES_UNLOCK() mtx_unlock(&pf_unlnkdrules_mtx) 416 #define PF_UNLNKDRULES_ASSERT() mtx_assert(&pf_unlnkdrules_mtx, MA_OWNED) 417 418 extern struct sx pf_config_lock; 419 #define PF_CONFIG_LOCK() sx_xlock(&pf_config_lock) 420 #define PF_CONFIG_UNLOCK() sx_xunlock(&pf_config_lock) 421 #define PF_CONFIG_ASSERT() sx_assert(&pf_config_lock, SA_XLOCKED) 422 423 VNET_DECLARE(struct rmlock, pf_rules_lock); 424 #define V_pf_rules_lock VNET(pf_rules_lock) 425 426 #define PF_RULES_RLOCK_TRACKER struct rm_priotracker _pf_rules_tracker 427 #define PF_RULES_RLOCK() rm_rlock(&V_pf_rules_lock, &_pf_rules_tracker) 428 #define PF_RULES_RUNLOCK() rm_runlock(&V_pf_rules_lock, &_pf_rules_tracker) 429 #define PF_RULES_WLOCK() rm_wlock(&V_pf_rules_lock) 430 #define PF_RULES_WUNLOCK() rm_wunlock(&V_pf_rules_lock) 431 #define PF_RULES_WOWNED() rm_wowned(&V_pf_rules_lock) 432 #define PF_RULES_ASSERT() rm_assert(&V_pf_rules_lock, RA_LOCKED) 433 #define PF_RULES_RASSERT() rm_assert(&V_pf_rules_lock, RA_RLOCKED) 434 #define PF_RULES_WASSERT() rm_assert(&V_pf_rules_lock, RA_WLOCKED) 435 436 extern struct mtx_padalign pf_table_stats_lock; 437 #define PF_TABLE_STATS_LOCK() mtx_lock(&pf_table_stats_lock) 438 #define PF_TABLE_STATS_UNLOCK() mtx_unlock(&pf_table_stats_lock) 439 #define PF_TABLE_STATS_OWNED() mtx_owned(&pf_table_stats_lock) 440 #define PF_TABLE_STATS_ASSERT() mtx_assert(&pf_table_stats_lock, MA_OWNED) 441 442 extern struct sx pf_end_lock; 443 444 #define PF_MODVER 1 445 #define PFLOG_MODVER 1 446 #define PFSYNC_MODVER 1 447 448 #define PFLOG_MINVER 1 449 #define PFLOG_PREFVER PFLOG_MODVER 450 #define PFLOG_MAXVER 1 451 #define PFSYNC_MINVER 1 452 #define PFSYNC_PREFVER PFSYNC_MODVER 453 #define PFSYNC_MAXVER 1 454 455 #ifdef INET 456 #ifndef INET6 457 #define PF_INET_ONLY 458 #endif /* ! INET6 */ 459 #endif /* INET */ 460 461 #ifdef INET6 462 #ifndef INET 463 #define PF_INET6_ONLY 464 #endif /* ! INET */ 465 #endif /* INET6 */ 466 467 #ifdef INET 468 #ifdef INET6 469 #define PF_INET_INET6 470 #endif /* INET6 */ 471 #endif /* INET */ 472 473 #else 474 475 #define PF_INET_INET6 476 477 #endif /* _KERNEL */ 478 479 /* Both IPv4 and IPv6 */ 480 #ifdef PF_INET_INET6 481 482 #define PF_AEQ(a, b, c) \ 483 ((c == AF_INET && (a)->addr32[0] == (b)->addr32[0]) || \ 484 (c == AF_INET6 && (a)->addr32[3] == (b)->addr32[3] && \ 485 (a)->addr32[2] == (b)->addr32[2] && \ 486 (a)->addr32[1] == (b)->addr32[1] && \ 487 (a)->addr32[0] == (b)->addr32[0])) \ 488 489 #define PF_ANEQ(a, b, c) \ 490 ((c == AF_INET && (a)->addr32[0] != (b)->addr32[0]) || \ 491 (c == AF_INET6 && ((a)->addr32[0] != (b)->addr32[0] || \ 492 (a)->addr32[1] != (b)->addr32[1] || \ 493 (a)->addr32[2] != (b)->addr32[2] || \ 494 (a)->addr32[3] != (b)->addr32[3]))) \ 495 496 #define PF_AZERO(a, c) \ 497 ((c == AF_INET && !(a)->addr32[0]) || \ 498 (c == AF_INET6 && !(a)->addr32[0] && !(a)->addr32[1] && \ 499 !(a)->addr32[2] && !(a)->addr32[3] )) \ 500 501 #define PF_MATCHA(n, a, m, b, f) \ 502 pf_match_addr(n, a, m, b, f) 503 504 #define PF_ACPY(a, b, f) \ 505 pf_addrcpy(a, b, f) 506 507 #define PF_AINC(a, f) \ 508 pf_addr_inc(a, f) 509 510 #define PF_POOLMASK(a, b, c, d, f) \ 511 pf_poolmask(a, b, c, d, f) 512 513 #else 514 515 /* Just IPv6 */ 516 517 #ifdef PF_INET6_ONLY 518 519 #define PF_AEQ(a, b, c) \ 520 ((a)->addr32[3] == (b)->addr32[3] && \ 521 (a)->addr32[2] == (b)->addr32[2] && \ 522 (a)->addr32[1] == (b)->addr32[1] && \ 523 (a)->addr32[0] == (b)->addr32[0]) \ 524 525 #define PF_ANEQ(a, b, c) \ 526 ((a)->addr32[3] != (b)->addr32[3] || \ 527 (a)->addr32[2] != (b)->addr32[2] || \ 528 (a)->addr32[1] != (b)->addr32[1] || \ 529 (a)->addr32[0] != (b)->addr32[0]) \ 530 531 #define PF_AZERO(a, c) \ 532 (!(a)->addr32[0] && \ 533 !(a)->addr32[1] && \ 534 !(a)->addr32[2] && \ 535 !(a)->addr32[3] ) \ 536 537 #define PF_MATCHA(n, a, m, b, f) \ 538 pf_match_addr(n, a, m, b, f) 539 540 #define PF_ACPY(a, b, f) \ 541 pf_addrcpy(a, b, f) 542 543 #define PF_AINC(a, f) \ 544 pf_addr_inc(a, f) 545 546 #define PF_POOLMASK(a, b, c, d, f) \ 547 pf_poolmask(a, b, c, d, f) 548 549 #else 550 551 /* Just IPv4 */ 552 #ifdef PF_INET_ONLY 553 554 #define PF_AEQ(a, b, c) \ 555 ((a)->addr32[0] == (b)->addr32[0]) 556 557 #define PF_ANEQ(a, b, c) \ 558 ((a)->addr32[0] != (b)->addr32[0]) 559 560 #define PF_AZERO(a, c) \ 561 (!(a)->addr32[0]) 562 563 #define PF_MATCHA(n, a, m, b, f) \ 564 pf_match_addr(n, a, m, b, f) 565 566 #define PF_ACPY(a, b, f) \ 567 (a)->v4.s_addr = (b)->v4.s_addr 568 569 #define PF_AINC(a, f) \ 570 do { \ 571 (a)->addr32[0] = htonl(ntohl((a)->addr32[0]) + 1); \ 572 } while (0) 573 574 #define PF_POOLMASK(a, b, c, d, f) \ 575 do { \ 576 (a)->addr32[0] = ((b)->addr32[0] & (c)->addr32[0]) | \ 577 (((c)->addr32[0] ^ 0xffffffff ) & (d)->addr32[0]); \ 578 } while (0) 579 580 #endif /* PF_INET_ONLY */ 581 #endif /* PF_INET6_ONLY */ 582 #endif /* PF_INET_INET6 */ 583 584 /* 585 * XXX callers not FIB-aware in our version of pf yet. 586 * OpenBSD fixed it later it seems, 2010/05/07 13:33:16 claudio. 587 */ 588 #define PF_MISMATCHAW(aw, x, af, neg, ifp, rtid) \ 589 ( \ 590 (((aw)->type == PF_ADDR_NOROUTE && \ 591 pf_routable((x), (af), NULL, (rtid))) || \ 592 (((aw)->type == PF_ADDR_URPFFAILED && (ifp) != NULL && \ 593 pf_routable((x), (af), (ifp), (rtid))) || \ 594 ((aw)->type == PF_ADDR_TABLE && \ 595 !pfr_match_addr((aw)->p.tbl, (x), (af))) || \ 596 ((aw)->type == PF_ADDR_DYNIFTL && \ 597 !pfi_match_addr((aw)->p.dyn, (x), (af))) || \ 598 ((aw)->type == PF_ADDR_RANGE && \ 599 !pf_match_addr_range(&(aw)->v.a.addr, \ 600 &(aw)->v.a.mask, (x), (af))) || \ 601 ((aw)->type == PF_ADDR_ADDRMASK && \ 602 !PF_AZERO(&(aw)->v.a.mask, (af)) && \ 603 !PF_MATCHA(0, &(aw)->v.a.addr, \ 604 &(aw)->v.a.mask, (x), (af))))) != \ 605 (neg) \ 606 ) 607 608 #define PF_ALGNMNT(off) (((off) % 2) == 0) 609 610 #ifdef _KERNEL 611 612 struct pf_kpooladdr { 613 struct pf_addr_wrap addr; 614 TAILQ_ENTRY(pf_kpooladdr) entries; 615 char ifname[IFNAMSIZ]; 616 struct pfi_kkif *kif; 617 }; 618 619 TAILQ_HEAD(pf_kpalist, pf_kpooladdr); 620 621 struct pf_kpool { 622 struct mtx mtx; 623 struct pf_kpalist list; 624 struct pf_kpooladdr *cur; 625 struct pf_poolhashkey key; 626 struct pf_addr counter; 627 struct pf_mape_portset mape; 628 int tblidx; 629 u_int16_t proxy_port[2]; 630 u_int8_t opts; 631 }; 632 633 struct pf_rule_actions { 634 int32_t rtableid; 635 uint16_t qid; 636 uint16_t pqid; 637 uint16_t max_mss; 638 uint8_t log; 639 uint8_t set_tos; 640 uint8_t min_ttl; 641 uint16_t dnpipe; 642 uint16_t dnrpipe; /* Reverse direction pipe */ 643 uint32_t flags; 644 uint8_t set_prio[2]; 645 }; 646 647 union pf_keth_rule_ptr { 648 struct pf_keth_rule *ptr; 649 uint32_t nr; 650 }; 651 652 struct pf_keth_rule_addr { 653 uint8_t addr[ETHER_ADDR_LEN]; 654 uint8_t mask[ETHER_ADDR_LEN]; 655 bool neg; 656 uint8_t isset; 657 }; 658 659 struct pf_keth_anchor; 660 661 TAILQ_HEAD(pf_keth_ruleq, pf_keth_rule); 662 663 struct pf_keth_ruleset { 664 struct pf_keth_ruleq rules[2]; 665 struct pf_keth_rules { 666 struct pf_keth_ruleq *rules; 667 int open; 668 uint32_t ticket; 669 } active, inactive; 670 struct epoch_context epoch_ctx; 671 struct vnet *vnet; 672 struct pf_keth_anchor *anchor; 673 }; 674 675 RB_HEAD(pf_keth_anchor_global, pf_keth_anchor); 676 RB_HEAD(pf_keth_anchor_node, pf_keth_anchor); 677 struct pf_keth_anchor { 678 RB_ENTRY(pf_keth_anchor) entry_node; 679 RB_ENTRY(pf_keth_anchor) entry_global; 680 struct pf_keth_anchor *parent; 681 struct pf_keth_anchor_node children; 682 char name[PF_ANCHOR_NAME_SIZE]; 683 char path[MAXPATHLEN]; 684 struct pf_keth_ruleset ruleset; 685 int refcnt; /* anchor rules */ 686 uint8_t anchor_relative; 687 uint8_t anchor_wildcard; 688 }; 689 RB_PROTOTYPE(pf_keth_anchor_node, pf_keth_anchor, entry_node, 690 pf_keth_anchor_compare); 691 RB_PROTOTYPE(pf_keth_anchor_global, pf_keth_anchor, entry_global, 692 pf_keth_anchor_compare); 693 694 struct pf_keth_rule { 695 #define PFE_SKIP_IFP 0 696 #define PFE_SKIP_DIR 1 697 #define PFE_SKIP_PROTO 2 698 #define PFE_SKIP_SRC_ADDR 3 699 #define PFE_SKIP_DST_ADDR 4 700 #define PFE_SKIP_SRC_IP_ADDR 5 701 #define PFE_SKIP_DST_IP_ADDR 6 702 #define PFE_SKIP_COUNT 7 703 union pf_keth_rule_ptr skip[PFE_SKIP_COUNT]; 704 705 TAILQ_ENTRY(pf_keth_rule) entries; 706 707 struct pf_keth_anchor *anchor; 708 u_int8_t anchor_relative; 709 u_int8_t anchor_wildcard; 710 711 uint32_t nr; 712 713 bool quick; 714 715 /* Filter */ 716 char ifname[IFNAMSIZ]; 717 struct pfi_kkif *kif; 718 bool ifnot; 719 uint8_t direction; 720 uint16_t proto; 721 struct pf_keth_rule_addr src, dst; 722 struct pf_rule_addr ipsrc, ipdst; 723 char match_tagname[PF_TAG_NAME_SIZE]; 724 uint16_t match_tag; 725 bool match_tag_not; 726 727 728 /* Stats */ 729 counter_u64_t evaluations; 730 counter_u64_t packets[2]; 731 counter_u64_t bytes[2]; 732 time_t *timestamp; 733 734 /* Action */ 735 char qname[PF_QNAME_SIZE]; 736 int qid; 737 char tagname[PF_TAG_NAME_SIZE]; 738 uint16_t tag; 739 char bridge_to_name[IFNAMSIZ]; 740 struct pfi_kkif *bridge_to; 741 uint8_t action; 742 uint16_t dnpipe; 743 uint32_t dnflags; 744 745 char label[PF_RULE_MAX_LABEL_COUNT][PF_RULE_LABEL_SIZE]; 746 uint32_t ridentifier; 747 }; 748 749 union pf_krule_ptr { 750 struct pf_krule *ptr; 751 u_int32_t nr; 752 }; 753 754 RB_HEAD(pf_krule_global, pf_krule); 755 RB_PROTOTYPE(pf_krule_global, pf_krule, entry_global, pf_krule_compare); 756 757 struct pf_krule { 758 struct pf_rule_addr src; 759 struct pf_rule_addr dst; 760 union pf_krule_ptr skip[PF_SKIP_COUNT]; 761 char label[PF_RULE_MAX_LABEL_COUNT][PF_RULE_LABEL_SIZE]; 762 uint32_t ridentifier; 763 char ifname[IFNAMSIZ]; 764 char qname[PF_QNAME_SIZE]; 765 char pqname[PF_QNAME_SIZE]; 766 char tagname[PF_TAG_NAME_SIZE]; 767 char match_tagname[PF_TAG_NAME_SIZE]; 768 769 char overload_tblname[PF_TABLE_NAME_SIZE]; 770 771 TAILQ_ENTRY(pf_krule) entries; 772 struct pf_kpool rpool; 773 774 struct pf_counter_u64 evaluations; 775 struct pf_counter_u64 packets[2]; 776 struct pf_counter_u64 bytes[2]; 777 time_t *timestamp; 778 779 struct pfi_kkif *kif; 780 struct pf_kanchor *anchor; 781 struct pfr_ktable *overload_tbl; 782 783 pf_osfp_t os_fingerprint; 784 785 int32_t rtableid; 786 u_int32_t timeout[PFTM_MAX]; 787 u_int32_t max_states; 788 u_int32_t max_src_nodes; 789 u_int32_t max_src_states; 790 u_int32_t max_src_conn; 791 struct { 792 u_int32_t limit; 793 u_int32_t seconds; 794 } max_src_conn_rate; 795 u_int16_t qid; 796 u_int16_t pqid; 797 u_int16_t dnpipe; 798 u_int16_t dnrpipe; 799 u_int32_t free_flags; 800 u_int32_t nr; 801 u_int32_t prob; 802 uid_t cuid; 803 pid_t cpid; 804 805 counter_u64_t states_cur; 806 counter_u64_t states_tot; 807 counter_u64_t src_nodes; 808 809 u_int16_t return_icmp; 810 u_int16_t return_icmp6; 811 u_int16_t max_mss; 812 u_int16_t tag; 813 u_int16_t match_tag; 814 u_int16_t scrub_flags; 815 816 struct pf_rule_uid uid; 817 struct pf_rule_gid gid; 818 819 u_int32_t rule_flag; 820 uint32_t rule_ref; 821 u_int8_t action; 822 u_int8_t direction; 823 u_int8_t log; 824 u_int8_t logif; 825 u_int8_t quick; 826 u_int8_t ifnot; 827 u_int8_t match_tag_not; 828 u_int8_t natpass; 829 830 u_int8_t keep_state; 831 sa_family_t af; 832 u_int8_t proto; 833 u_int8_t type; 834 u_int8_t code; 835 u_int8_t flags; 836 u_int8_t flagset; 837 u_int8_t min_ttl; 838 u_int8_t allow_opts; 839 u_int8_t rt; 840 u_int8_t return_ttl; 841 u_int8_t tos; 842 u_int8_t set_tos; 843 u_int8_t anchor_relative; 844 u_int8_t anchor_wildcard; 845 846 u_int8_t flush; 847 u_int8_t prio; 848 u_int8_t set_prio[2]; 849 850 struct { 851 struct pf_addr addr; 852 u_int16_t port; 853 } divert; 854 u_int8_t md5sum[PF_MD5_DIGEST_LENGTH]; 855 RB_ENTRY(pf_krule) entry_global; 856 857 #ifdef PF_WANT_32_TO_64_COUNTER 858 LIST_ENTRY(pf_krule) allrulelist; 859 bool allrulelinked; 860 #endif 861 }; 862 863 struct pf_krule_item { 864 SLIST_ENTRY(pf_krule_item) entry; 865 struct pf_krule *r; 866 }; 867 868 SLIST_HEAD(pf_krule_slist, pf_krule_item); 869 870 struct pf_ksrc_node { 871 LIST_ENTRY(pf_ksrc_node) entry; 872 struct pf_addr addr; 873 struct pf_addr raddr; 874 struct pf_krule_slist match_rules; 875 union pf_krule_ptr rule; 876 struct pfi_kkif *rkif; 877 counter_u64_t bytes[2]; 878 counter_u64_t packets[2]; 879 u_int32_t states; 880 u_int32_t conn; 881 struct pf_threshold conn_rate; 882 u_int32_t creation; 883 u_int32_t expire; 884 sa_family_t af; 885 u_int8_t ruletype; 886 struct mtx *lock; 887 }; 888 #endif 889 890 struct pf_state_scrub { 891 struct timeval pfss_last; /* time received last packet */ 892 u_int32_t pfss_tsecr; /* last echoed timestamp */ 893 u_int32_t pfss_tsval; /* largest timestamp */ 894 u_int32_t pfss_tsval0; /* original timestamp */ 895 u_int16_t pfss_flags; 896 #define PFSS_TIMESTAMP 0x0001 /* modulate timestamp */ 897 #define PFSS_PAWS 0x0010 /* stricter PAWS checks */ 898 #define PFSS_PAWS_IDLED 0x0020 /* was idle too long. no PAWS */ 899 #define PFSS_DATA_TS 0x0040 /* timestamp on data packets */ 900 #define PFSS_DATA_NOTS 0x0080 /* no timestamp on data packets */ 901 u_int8_t pfss_ttl; /* stashed TTL */ 902 u_int8_t pad; 903 union { 904 u_int32_t pfss_ts_mod; /* timestamp modulation */ 905 u_int32_t pfss_v_tag; /* SCTP verification tag */ 906 }; 907 }; 908 909 struct pf_state_host { 910 struct pf_addr addr; 911 u_int16_t port; 912 u_int16_t pad; 913 }; 914 915 struct pf_state_peer { 916 struct pf_state_scrub *scrub; /* state is scrubbed */ 917 u_int32_t seqlo; /* Max sequence number sent */ 918 u_int32_t seqhi; /* Max the other end ACKd + win */ 919 u_int32_t seqdiff; /* Sequence number modulator */ 920 u_int16_t max_win; /* largest window (pre scaling) */ 921 u_int16_t mss; /* Maximum segment size option */ 922 u_int8_t state; /* active state level */ 923 u_int8_t wscale; /* window scaling factor */ 924 u_int8_t tcp_est; /* Did we reach TCPS_ESTABLISHED */ 925 u_int8_t pad[1]; 926 }; 927 928 /* Keep synced with struct pf_state_key. */ 929 struct pf_state_key_cmp { 930 struct pf_addr addr[2]; 931 u_int16_t port[2]; 932 sa_family_t af; 933 u_int8_t proto; 934 u_int8_t pad[2]; 935 }; 936 937 struct pf_state_key { 938 struct pf_addr addr[2]; 939 u_int16_t port[2]; 940 sa_family_t af; 941 u_int8_t proto; 942 u_int8_t pad[2]; 943 944 LIST_ENTRY(pf_state_key) entry; 945 TAILQ_HEAD(, pf_kstate) states[2]; 946 }; 947 948 /* Keep synced with struct pf_kstate. */ 949 struct pf_state_cmp { 950 u_int64_t id; 951 u_int32_t creatorid; 952 u_int8_t direction; 953 u_int8_t pad[3]; 954 }; 955 956 struct pf_state_scrub_export { 957 uint16_t pfss_flags; 958 uint8_t pfss_ttl; /* stashed TTL */ 959 #define PF_SCRUB_FLAG_VALID 0x01 960 uint8_t scrub_flag; 961 uint32_t pfss_ts_mod; /* timestamp modulation */ 962 }; 963 964 struct pf_state_key_export { 965 struct pf_addr addr[2]; 966 uint16_t port[2]; 967 }; 968 969 struct pf_state_peer_export { 970 struct pf_state_scrub_export scrub; /* state is scrubbed */ 971 uint32_t seqlo; /* Max sequence number sent */ 972 uint32_t seqhi; /* Max the other end ACKd + win */ 973 uint32_t seqdiff; /* Sequence number modulator */ 974 uint16_t max_win; /* largest window (pre scaling) */ 975 uint16_t mss; /* Maximum segment size option */ 976 uint8_t state; /* active state level */ 977 uint8_t wscale; /* window scaling factor */ 978 uint8_t dummy[6]; 979 }; 980 _Static_assert(sizeof(struct pf_state_peer_export) == 32, "size incorrect"); 981 982 struct pf_state_export { 983 uint64_t version; 984 #define PF_STATE_VERSION 20230404 985 uint64_t id; 986 char ifname[IFNAMSIZ]; 987 char orig_ifname[IFNAMSIZ]; 988 struct pf_state_key_export key[2]; 989 struct pf_state_peer_export src; 990 struct pf_state_peer_export dst; 991 struct pf_addr rt_addr; 992 uint32_t rule; 993 uint32_t anchor; 994 uint32_t nat_rule; 995 uint32_t creation; 996 uint32_t expire; 997 uint32_t spare0; 998 uint64_t packets[2]; 999 uint64_t bytes[2]; 1000 uint32_t creatorid; 1001 uint32_t spare1; 1002 sa_family_t af; 1003 uint8_t proto; 1004 uint8_t direction; 1005 uint8_t log; 1006 uint8_t state_flags_compat; 1007 uint8_t timeout; 1008 uint8_t sync_flags; 1009 uint8_t updates; 1010 uint16_t state_flags; 1011 uint16_t qid; 1012 uint16_t pqid; 1013 uint16_t dnpipe; 1014 uint16_t dnrpipe; 1015 int32_t rtableid; 1016 uint8_t min_ttl; 1017 uint8_t set_tos; 1018 uint16_t max_mss; 1019 uint8_t set_prio[2]; 1020 uint8_t rt; 1021 char rt_ifname[IFNAMSIZ]; 1022 1023 uint8_t spare[72]; 1024 }; 1025 _Static_assert(sizeof(struct pf_state_export) == 384, "size incorrect"); 1026 1027 #ifdef _KERNEL 1028 struct pf_kstate { 1029 /* 1030 * Area shared with pf_state_cmp 1031 */ 1032 u_int64_t id; 1033 u_int32_t creatorid; 1034 u_int8_t direction; 1035 u_int8_t pad[3]; 1036 /* 1037 * end of the area 1038 */ 1039 1040 u_int16_t state_flags; 1041 u_int8_t timeout; 1042 u_int8_t sync_state; /* PFSYNC_S_x */ 1043 u_int8_t sync_updates; /* XXX */ 1044 u_int refs; 1045 struct mtx *lock; 1046 TAILQ_ENTRY(pf_kstate) sync_list; 1047 TAILQ_ENTRY(pf_kstate) key_list[2]; 1048 LIST_ENTRY(pf_kstate) entry; 1049 struct pf_state_peer src; 1050 struct pf_state_peer dst; 1051 struct pf_krule_slist match_rules; 1052 union pf_krule_ptr rule; 1053 union pf_krule_ptr anchor; 1054 union pf_krule_ptr nat_rule; 1055 struct pf_addr rt_addr; 1056 struct pf_state_key *key[2]; /* addresses stack and wire */ 1057 struct pfi_kkif *kif; 1058 struct pfi_kkif *orig_kif; /* The real kif, even if we're a floating state (i.e. if == V_pfi_all). */ 1059 struct pfi_kkif *rt_kif; 1060 struct pf_ksrc_node *src_node; 1061 struct pf_ksrc_node *nat_src_node; 1062 u_int64_t packets[2]; 1063 u_int64_t bytes[2]; 1064 u_int32_t creation; 1065 u_int32_t expire; 1066 u_int32_t pfsync_time; 1067 struct pf_rule_actions act; 1068 u_int16_t tag; 1069 u_int8_t rt; 1070 }; 1071 1072 /* 1073 * Size <= fits 11 objects per page on LP64. Try to not grow the struct beyond that. 1074 */ 1075 _Static_assert(sizeof(struct pf_kstate) <= 368, "pf_kstate size crosses 368 bytes"); 1076 #endif 1077 1078 /* 1079 * Unified state structures for pulling states out of the kernel 1080 * used by pfsync(4) and the pf(4) ioctl. 1081 */ 1082 struct pfsync_state_scrub { 1083 u_int16_t pfss_flags; 1084 u_int8_t pfss_ttl; /* stashed TTL */ 1085 #define PFSYNC_SCRUB_FLAG_VALID 0x01 1086 u_int8_t scrub_flag; 1087 u_int32_t pfss_ts_mod; /* timestamp modulation */ 1088 } __packed; 1089 1090 struct pfsync_state_peer { 1091 struct pfsync_state_scrub scrub; /* state is scrubbed */ 1092 u_int32_t seqlo; /* Max sequence number sent */ 1093 u_int32_t seqhi; /* Max the other end ACKd + win */ 1094 u_int32_t seqdiff; /* Sequence number modulator */ 1095 u_int16_t max_win; /* largest window (pre scaling) */ 1096 u_int16_t mss; /* Maximum segment size option */ 1097 u_int8_t state; /* active state level */ 1098 u_int8_t wscale; /* window scaling factor */ 1099 u_int8_t pad[6]; 1100 } __packed; 1101 1102 struct pfsync_state_key { 1103 struct pf_addr addr[2]; 1104 u_int16_t port[2]; 1105 }; 1106 1107 struct pfsync_state_1301 { 1108 u_int64_t id; 1109 char ifname[IFNAMSIZ]; 1110 struct pfsync_state_key key[2]; 1111 struct pfsync_state_peer src; 1112 struct pfsync_state_peer dst; 1113 struct pf_addr rt_addr; 1114 u_int32_t rule; 1115 u_int32_t anchor; 1116 u_int32_t nat_rule; 1117 u_int32_t creation; 1118 u_int32_t expire; 1119 u_int32_t packets[2][2]; 1120 u_int32_t bytes[2][2]; 1121 u_int32_t creatorid; 1122 sa_family_t af; 1123 u_int8_t proto; 1124 u_int8_t direction; 1125 u_int8_t __spare[2]; 1126 u_int8_t log; 1127 u_int8_t state_flags; 1128 u_int8_t timeout; 1129 u_int8_t sync_flags; 1130 u_int8_t updates; 1131 } __packed; 1132 1133 struct pfsync_state_1400 { 1134 /* The beginning of the struct is compatible with previous versions */ 1135 u_int64_t id; 1136 char ifname[IFNAMSIZ]; 1137 struct pfsync_state_key key[2]; 1138 struct pfsync_state_peer src; 1139 struct pfsync_state_peer dst; 1140 struct pf_addr rt_addr; 1141 u_int32_t rule; 1142 u_int32_t anchor; 1143 u_int32_t nat_rule; 1144 u_int32_t creation; 1145 u_int32_t expire; 1146 u_int32_t packets[2][2]; 1147 u_int32_t bytes[2][2]; 1148 u_int32_t creatorid; 1149 sa_family_t af; 1150 u_int8_t proto; 1151 u_int8_t direction; 1152 u_int16_t state_flags; 1153 u_int8_t log; 1154 u_int8_t __spare; 1155 u_int8_t timeout; 1156 u_int8_t sync_flags; 1157 u_int8_t updates; 1158 /* The rest is not */ 1159 u_int16_t qid; 1160 u_int16_t pqid; 1161 u_int16_t dnpipe; 1162 u_int16_t dnrpipe; 1163 int32_t rtableid; 1164 u_int8_t min_ttl; 1165 u_int8_t set_tos; 1166 u_int16_t max_mss; 1167 u_int8_t set_prio[2]; 1168 u_int8_t rt; 1169 char rt_ifname[IFNAMSIZ]; 1170 1171 } __packed; 1172 1173 union pfsync_state_union { 1174 struct pfsync_state_1301 pfs_1301; 1175 struct pfsync_state_1400 pfs_1400; 1176 } __packed; 1177 1178 #ifdef _KERNEL 1179 /* pfsync */ 1180 typedef int pfsync_state_import_t(union pfsync_state_union *, int, int); 1181 typedef void pfsync_insert_state_t(struct pf_kstate *); 1182 typedef void pfsync_update_state_t(struct pf_kstate *); 1183 typedef void pfsync_delete_state_t(struct pf_kstate *); 1184 typedef void pfsync_clear_states_t(u_int32_t, const char *); 1185 typedef int pfsync_defer_t(struct pf_kstate *, struct mbuf *); 1186 typedef void pfsync_detach_ifnet_t(struct ifnet *); 1187 1188 VNET_DECLARE(pfsync_state_import_t *, pfsync_state_import_ptr); 1189 #define V_pfsync_state_import_ptr VNET(pfsync_state_import_ptr) 1190 VNET_DECLARE(pfsync_insert_state_t *, pfsync_insert_state_ptr); 1191 #define V_pfsync_insert_state_ptr VNET(pfsync_insert_state_ptr) 1192 VNET_DECLARE(pfsync_update_state_t *, pfsync_update_state_ptr); 1193 #define V_pfsync_update_state_ptr VNET(pfsync_update_state_ptr) 1194 VNET_DECLARE(pfsync_delete_state_t *, pfsync_delete_state_ptr); 1195 #define V_pfsync_delete_state_ptr VNET(pfsync_delete_state_ptr) 1196 VNET_DECLARE(pfsync_clear_states_t *, pfsync_clear_states_ptr); 1197 #define V_pfsync_clear_states_ptr VNET(pfsync_clear_states_ptr) 1198 VNET_DECLARE(pfsync_defer_t *, pfsync_defer_ptr); 1199 #define V_pfsync_defer_ptr VNET(pfsync_defer_ptr) 1200 extern pfsync_detach_ifnet_t *pfsync_detach_ifnet_ptr; 1201 1202 void pfsync_state_export(union pfsync_state_union *, 1203 struct pf_kstate *, int); 1204 void pf_state_export(struct pf_state_export *, 1205 struct pf_kstate *); 1206 1207 /* pflog */ 1208 struct pf_kruleset; 1209 struct pf_pdesc; 1210 typedef int pflog_packet_t(struct pfi_kkif *, struct mbuf *, sa_family_t, 1211 uint8_t, u_int8_t, struct pf_krule *, struct pf_krule *, struct pf_kruleset *, 1212 struct pf_pdesc *, int); 1213 extern pflog_packet_t *pflog_packet_ptr; 1214 1215 #endif /* _KERNEL */ 1216 1217 #define PFSYNC_FLAG_SRCNODE 0x04 1218 #define PFSYNC_FLAG_NATSRCNODE 0x08 1219 1220 /* for copies to/from network byte order */ 1221 /* ioctl interface also uses network byte order */ 1222 #define pf_state_peer_hton(s,d) do { \ 1223 (d)->seqlo = htonl((s)->seqlo); \ 1224 (d)->seqhi = htonl((s)->seqhi); \ 1225 (d)->seqdiff = htonl((s)->seqdiff); \ 1226 (d)->max_win = htons((s)->max_win); \ 1227 (d)->mss = htons((s)->mss); \ 1228 (d)->state = (s)->state; \ 1229 (d)->wscale = (s)->wscale; \ 1230 if ((s)->scrub) { \ 1231 (d)->scrub.pfss_flags = \ 1232 htons((s)->scrub->pfss_flags & PFSS_TIMESTAMP); \ 1233 (d)->scrub.pfss_ttl = (s)->scrub->pfss_ttl; \ 1234 (d)->scrub.pfss_ts_mod = htonl((s)->scrub->pfss_ts_mod);\ 1235 (d)->scrub.scrub_flag = PFSYNC_SCRUB_FLAG_VALID; \ 1236 } \ 1237 } while (0) 1238 1239 #define pf_state_peer_ntoh(s,d) do { \ 1240 (d)->seqlo = ntohl((s)->seqlo); \ 1241 (d)->seqhi = ntohl((s)->seqhi); \ 1242 (d)->seqdiff = ntohl((s)->seqdiff); \ 1243 (d)->max_win = ntohs((s)->max_win); \ 1244 (d)->mss = ntohs((s)->mss); \ 1245 (d)->state = (s)->state; \ 1246 (d)->wscale = (s)->wscale; \ 1247 if ((s)->scrub.scrub_flag == PFSYNC_SCRUB_FLAG_VALID && \ 1248 (d)->scrub != NULL) { \ 1249 (d)->scrub->pfss_flags = \ 1250 ntohs((s)->scrub.pfss_flags) & PFSS_TIMESTAMP; \ 1251 (d)->scrub->pfss_ttl = (s)->scrub.pfss_ttl; \ 1252 (d)->scrub->pfss_ts_mod = ntohl((s)->scrub.pfss_ts_mod);\ 1253 } \ 1254 } while (0) 1255 1256 #define pf_state_counter_hton(s,d) do { \ 1257 d[0] = htonl((s>>32)&0xffffffff); \ 1258 d[1] = htonl(s&0xffffffff); \ 1259 } while (0) 1260 1261 #define pf_state_counter_from_pfsync(s) \ 1262 (((u_int64_t)(s[0])<<32) | (u_int64_t)(s[1])) 1263 1264 #define pf_state_counter_ntoh(s,d) do { \ 1265 d = ntohl(s[0]); \ 1266 d = d<<32; \ 1267 d += ntohl(s[1]); \ 1268 } while (0) 1269 1270 TAILQ_HEAD(pf_krulequeue, pf_krule); 1271 1272 struct pf_kanchor; 1273 1274 struct pf_kruleset { 1275 struct { 1276 struct pf_krulequeue queues[2]; 1277 struct { 1278 struct pf_krulequeue *ptr; 1279 struct pf_krule **ptr_array; 1280 u_int32_t rcount; 1281 u_int32_t ticket; 1282 int open; 1283 struct pf_krule_global *tree; 1284 } active, inactive; 1285 } rules[PF_RULESET_MAX]; 1286 struct pf_kanchor *anchor; 1287 u_int32_t tticket; 1288 int tables; 1289 int topen; 1290 }; 1291 1292 RB_HEAD(pf_kanchor_global, pf_kanchor); 1293 RB_HEAD(pf_kanchor_node, pf_kanchor); 1294 struct pf_kanchor { 1295 RB_ENTRY(pf_kanchor) entry_global; 1296 RB_ENTRY(pf_kanchor) entry_node; 1297 struct pf_kanchor *parent; 1298 struct pf_kanchor_node children; 1299 char name[PF_ANCHOR_NAME_SIZE]; 1300 char path[MAXPATHLEN]; 1301 struct pf_kruleset ruleset; 1302 int refcnt; /* anchor rules */ 1303 }; 1304 RB_PROTOTYPE(pf_kanchor_global, pf_kanchor, entry_global, pf_anchor_compare); 1305 RB_PROTOTYPE(pf_kanchor_node, pf_kanchor, entry_node, pf_kanchor_compare); 1306 1307 #define PF_RESERVED_ANCHOR "_pf" 1308 1309 #define PFR_TFLAG_PERSIST 0x00000001 1310 #define PFR_TFLAG_CONST 0x00000002 1311 #define PFR_TFLAG_ACTIVE 0x00000004 1312 #define PFR_TFLAG_INACTIVE 0x00000008 1313 #define PFR_TFLAG_REFERENCED 0x00000010 1314 #define PFR_TFLAG_REFDANCHOR 0x00000020 1315 #define PFR_TFLAG_COUNTERS 0x00000040 1316 /* Adjust masks below when adding flags. */ 1317 #define PFR_TFLAG_USRMASK (PFR_TFLAG_PERSIST | \ 1318 PFR_TFLAG_CONST | \ 1319 PFR_TFLAG_COUNTERS) 1320 #define PFR_TFLAG_SETMASK (PFR_TFLAG_ACTIVE | \ 1321 PFR_TFLAG_INACTIVE | \ 1322 PFR_TFLAG_REFERENCED | \ 1323 PFR_TFLAG_REFDANCHOR) 1324 #define PFR_TFLAG_ALLMASK (PFR_TFLAG_PERSIST | \ 1325 PFR_TFLAG_CONST | \ 1326 PFR_TFLAG_ACTIVE | \ 1327 PFR_TFLAG_INACTIVE | \ 1328 PFR_TFLAG_REFERENCED | \ 1329 PFR_TFLAG_REFDANCHOR | \ 1330 PFR_TFLAG_COUNTERS) 1331 1332 struct pf_kanchor_stackframe; 1333 struct pf_keth_anchor_stackframe; 1334 1335 struct pfr_table { 1336 char pfrt_anchor[MAXPATHLEN]; 1337 char pfrt_name[PF_TABLE_NAME_SIZE]; 1338 u_int32_t pfrt_flags; 1339 u_int8_t pfrt_fback; 1340 }; 1341 1342 enum { PFR_FB_NONE, PFR_FB_MATCH, PFR_FB_ADDED, PFR_FB_DELETED, 1343 PFR_FB_CHANGED, PFR_FB_CLEARED, PFR_FB_DUPLICATE, 1344 PFR_FB_NOTMATCH, PFR_FB_CONFLICT, PFR_FB_NOCOUNT, PFR_FB_MAX }; 1345 1346 struct pfr_addr { 1347 union { 1348 struct in_addr _pfra_ip4addr; 1349 struct in6_addr _pfra_ip6addr; 1350 } pfra_u; 1351 u_int8_t pfra_af; 1352 u_int8_t pfra_net; 1353 u_int8_t pfra_not; 1354 u_int8_t pfra_fback; 1355 }; 1356 #define pfra_ip4addr pfra_u._pfra_ip4addr 1357 #define pfra_ip6addr pfra_u._pfra_ip6addr 1358 1359 enum { PFR_DIR_IN, PFR_DIR_OUT, PFR_DIR_MAX }; 1360 enum { PFR_OP_BLOCK, PFR_OP_PASS, PFR_OP_ADDR_MAX, PFR_OP_TABLE_MAX }; 1361 enum { PFR_TYPE_PACKETS, PFR_TYPE_BYTES, PFR_TYPE_MAX }; 1362 #define PFR_NUM_COUNTERS (PFR_DIR_MAX * PFR_OP_ADDR_MAX * PFR_TYPE_MAX) 1363 #define PFR_OP_XPASS PFR_OP_ADDR_MAX 1364 1365 struct pfr_astats { 1366 struct pfr_addr pfras_a; 1367 u_int64_t pfras_packets[PFR_DIR_MAX][PFR_OP_ADDR_MAX]; 1368 u_int64_t pfras_bytes[PFR_DIR_MAX][PFR_OP_ADDR_MAX]; 1369 long pfras_tzero; 1370 }; 1371 1372 enum { PFR_REFCNT_RULE, PFR_REFCNT_ANCHOR, PFR_REFCNT_MAX }; 1373 1374 struct pfr_tstats { 1375 struct pfr_table pfrts_t; 1376 u_int64_t pfrts_packets[PFR_DIR_MAX][PFR_OP_TABLE_MAX]; 1377 u_int64_t pfrts_bytes[PFR_DIR_MAX][PFR_OP_TABLE_MAX]; 1378 u_int64_t pfrts_match; 1379 u_int64_t pfrts_nomatch; 1380 long pfrts_tzero; 1381 int pfrts_cnt; 1382 int pfrts_refcnt[PFR_REFCNT_MAX]; 1383 }; 1384 1385 #ifdef _KERNEL 1386 1387 struct pfr_kstate_counter { 1388 counter_u64_t pkc_pcpu; 1389 u_int64_t pkc_zero; 1390 }; 1391 1392 static inline int 1393 pfr_kstate_counter_init(struct pfr_kstate_counter *pfrc, int flags) 1394 { 1395 1396 pfrc->pkc_zero = 0; 1397 pfrc->pkc_pcpu = counter_u64_alloc(flags); 1398 if (pfrc->pkc_pcpu == NULL) 1399 return (ENOMEM); 1400 return (0); 1401 } 1402 1403 static inline void 1404 pfr_kstate_counter_deinit(struct pfr_kstate_counter *pfrc) 1405 { 1406 1407 counter_u64_free(pfrc->pkc_pcpu); 1408 } 1409 1410 static inline u_int64_t 1411 pfr_kstate_counter_fetch(struct pfr_kstate_counter *pfrc) 1412 { 1413 u_int64_t c; 1414 1415 c = counter_u64_fetch(pfrc->pkc_pcpu); 1416 c -= pfrc->pkc_zero; 1417 return (c); 1418 } 1419 1420 static inline void 1421 pfr_kstate_counter_zero(struct pfr_kstate_counter *pfrc) 1422 { 1423 u_int64_t c; 1424 1425 c = counter_u64_fetch(pfrc->pkc_pcpu); 1426 pfrc->pkc_zero = c; 1427 } 1428 1429 static inline void 1430 pfr_kstate_counter_add(struct pfr_kstate_counter *pfrc, int64_t n) 1431 { 1432 1433 counter_u64_add(pfrc->pkc_pcpu, n); 1434 } 1435 1436 struct pfr_ktstats { 1437 struct pfr_table pfrts_t; 1438 struct pfr_kstate_counter pfrkts_packets[PFR_DIR_MAX][PFR_OP_TABLE_MAX]; 1439 struct pfr_kstate_counter pfrkts_bytes[PFR_DIR_MAX][PFR_OP_TABLE_MAX]; 1440 struct pfr_kstate_counter pfrkts_match; 1441 struct pfr_kstate_counter pfrkts_nomatch; 1442 long pfrkts_tzero; 1443 int pfrkts_cnt; 1444 int pfrkts_refcnt[PFR_REFCNT_MAX]; 1445 }; 1446 1447 #endif /* _KERNEL */ 1448 1449 #define pfrts_name pfrts_t.pfrt_name 1450 #define pfrts_flags pfrts_t.pfrt_flags 1451 1452 #ifndef _SOCKADDR_UNION_DEFINED 1453 #define _SOCKADDR_UNION_DEFINED 1454 union sockaddr_union { 1455 struct sockaddr sa; 1456 struct sockaddr_in sin; 1457 struct sockaddr_in6 sin6; 1458 }; 1459 #endif /* _SOCKADDR_UNION_DEFINED */ 1460 1461 struct pfr_kcounters { 1462 counter_u64_t pfrkc_counters; 1463 long pfrkc_tzero; 1464 }; 1465 #define pfr_kentry_counter(kc, dir, op, t) \ 1466 ((kc)->pfrkc_counters + \ 1467 (dir) * PFR_OP_ADDR_MAX * PFR_TYPE_MAX + (op) * PFR_TYPE_MAX + (t)) 1468 1469 #ifdef _KERNEL 1470 SLIST_HEAD(pfr_kentryworkq, pfr_kentry); 1471 struct pfr_kentry { 1472 struct radix_node pfrke_node[2]; 1473 union sockaddr_union pfrke_sa; 1474 SLIST_ENTRY(pfr_kentry) pfrke_workq; 1475 struct pfr_kcounters pfrke_counters; 1476 u_int8_t pfrke_af; 1477 u_int8_t pfrke_net; 1478 u_int8_t pfrke_not; 1479 u_int8_t pfrke_mark; 1480 }; 1481 1482 SLIST_HEAD(pfr_ktableworkq, pfr_ktable); 1483 RB_HEAD(pfr_ktablehead, pfr_ktable); 1484 struct pfr_ktable { 1485 struct pfr_ktstats pfrkt_kts; 1486 RB_ENTRY(pfr_ktable) pfrkt_tree; 1487 SLIST_ENTRY(pfr_ktable) pfrkt_workq; 1488 struct radix_node_head *pfrkt_ip4; 1489 struct radix_node_head *pfrkt_ip6; 1490 struct pfr_ktable *pfrkt_shadow; 1491 struct pfr_ktable *pfrkt_root; 1492 struct pf_kruleset *pfrkt_rs; 1493 long pfrkt_larg; 1494 int pfrkt_nflags; 1495 }; 1496 #define pfrkt_t pfrkt_kts.pfrts_t 1497 #define pfrkt_name pfrkt_t.pfrt_name 1498 #define pfrkt_anchor pfrkt_t.pfrt_anchor 1499 #define pfrkt_ruleset pfrkt_t.pfrt_ruleset 1500 #define pfrkt_flags pfrkt_t.pfrt_flags 1501 #define pfrkt_cnt pfrkt_kts.pfrkts_cnt 1502 #define pfrkt_refcnt pfrkt_kts.pfrkts_refcnt 1503 #define pfrkt_packets pfrkt_kts.pfrkts_packets 1504 #define pfrkt_bytes pfrkt_kts.pfrkts_bytes 1505 #define pfrkt_match pfrkt_kts.pfrkts_match 1506 #define pfrkt_nomatch pfrkt_kts.pfrkts_nomatch 1507 #define pfrkt_tzero pfrkt_kts.pfrkts_tzero 1508 #endif 1509 1510 #ifdef _KERNEL 1511 struct pfi_kkif { 1512 char pfik_name[IFNAMSIZ]; 1513 union { 1514 RB_ENTRY(pfi_kkif) _pfik_tree; 1515 LIST_ENTRY(pfi_kkif) _pfik_list; 1516 } _pfik_glue; 1517 #define pfik_tree _pfik_glue._pfik_tree 1518 #define pfik_list _pfik_glue._pfik_list 1519 struct pf_counter_u64 pfik_packets[2][2][2]; 1520 struct pf_counter_u64 pfik_bytes[2][2][2]; 1521 u_int32_t pfik_tzero; 1522 u_int pfik_flags; 1523 struct ifnet *pfik_ifp; 1524 struct ifg_group *pfik_group; 1525 u_int pfik_rulerefs; 1526 TAILQ_HEAD(, pfi_dynaddr) pfik_dynaddrs; 1527 #ifdef PF_WANT_32_TO_64_COUNTER 1528 LIST_ENTRY(pfi_kkif) pfik_allkiflist; 1529 #endif 1530 }; 1531 #endif 1532 1533 #define PFI_IFLAG_REFS 0x0001 /* has state references */ 1534 #define PFI_IFLAG_SKIP 0x0100 /* skip filtering on interface */ 1535 1536 #ifdef _KERNEL 1537 struct pf_sctp_multihome_job; 1538 TAILQ_HEAD(pf_sctp_multihome_jobs, pf_sctp_multihome_job); 1539 1540 struct pf_pdesc { 1541 struct { 1542 int done; 1543 uid_t uid; 1544 gid_t gid; 1545 } lookup; 1546 u_int64_t tot_len; /* Make Mickey money */ 1547 union pf_headers { 1548 struct tcphdr tcp; 1549 struct udphdr udp; 1550 struct sctphdr sctp; 1551 struct icmp icmp; 1552 #ifdef INET6 1553 struct icmp6_hdr icmp6; 1554 #endif /* INET6 */ 1555 char any[0]; 1556 } hdr; 1557 1558 struct pf_krule *nat_rule; /* nat/rdr rule applied to packet */ 1559 struct pf_addr *src; /* src address */ 1560 struct pf_addr *dst; /* dst address */ 1561 u_int16_t *sport; 1562 u_int16_t *dport; 1563 struct pf_mtag *pf_mtag; 1564 struct pf_rule_actions act; 1565 1566 u_int32_t p_len; /* total length of payload */ 1567 1568 u_int16_t *ip_sum; 1569 u_int16_t *proto_sum; 1570 u_int16_t flags; /* Let SCRUB trigger behavior in 1571 * state code. Easier than tags */ 1572 #define PFDESC_TCP_NORM 0x0001 /* TCP shall be statefully scrubbed */ 1573 #define PFDESC_IP_REAS 0x0002 /* IP frags would've been reassembled */ 1574 sa_family_t af; 1575 u_int8_t proto; 1576 u_int8_t tos; 1577 u_int8_t dir; /* direction */ 1578 u_int8_t sidx; /* key index for source */ 1579 u_int8_t didx; /* key index for destination */ 1580 #define PFDESC_SCTP_INIT 0x0001 1581 #define PFDESC_SCTP_INIT_ACK 0x0002 1582 #define PFDESC_SCTP_COOKIE 0x0004 1583 #define PFDESC_SCTP_COOKIE_ACK 0x0008 1584 #define PFDESC_SCTP_ABORT 0x0010 1585 #define PFDESC_SCTP_SHUTDOWN 0x0020 1586 #define PFDESC_SCTP_SHUTDOWN_COMPLETE 0x0040 1587 #define PFDESC_SCTP_DATA 0x0080 1588 #define PFDESC_SCTP_ASCONF 0x0100 1589 #define PFDESC_SCTP_HEARTBEAT 0x0200 1590 #define PFDESC_SCTP_HEARTBEAT_ACK 0x0400 1591 #define PFDESC_SCTP_OTHER 0x0800 1592 #define PFDESC_SCTP_ADD_IP 0x1000 1593 u_int16_t sctp_flags; 1594 u_int32_t sctp_initiate_tag; 1595 1596 struct pf_sctp_multihome_jobs sctp_multihome_jobs; 1597 }; 1598 1599 struct pf_sctp_multihome_job { 1600 TAILQ_ENTRY(pf_sctp_multihome_job) next; 1601 struct pf_pdesc pd; 1602 struct pf_addr src; 1603 struct pf_addr dst; 1604 struct mbuf *m; 1605 int op; 1606 }; 1607 1608 #endif 1609 1610 /* flags for RDR options */ 1611 #define PF_DPORT_RANGE 0x01 /* Dest port uses range */ 1612 #define PF_RPORT_RANGE 0x02 /* RDR'ed port uses range */ 1613 1614 /* UDP state enumeration */ 1615 #define PFUDPS_NO_TRAFFIC 0 1616 #define PFUDPS_SINGLE 1 1617 #define PFUDPS_MULTIPLE 2 1618 1619 #define PFUDPS_NSTATES 3 /* number of state levels */ 1620 1621 #define PFUDPS_NAMES { \ 1622 "NO_TRAFFIC", \ 1623 "SINGLE", \ 1624 "MULTIPLE", \ 1625 NULL \ 1626 } 1627 1628 /* Other protocol state enumeration */ 1629 #define PFOTHERS_NO_TRAFFIC 0 1630 #define PFOTHERS_SINGLE 1 1631 #define PFOTHERS_MULTIPLE 2 1632 1633 #define PFOTHERS_NSTATES 3 /* number of state levels */ 1634 1635 #define PFOTHERS_NAMES { \ 1636 "NO_TRAFFIC", \ 1637 "SINGLE", \ 1638 "MULTIPLE", \ 1639 NULL \ 1640 } 1641 1642 #define ACTION_SET(a, x) \ 1643 do { \ 1644 if ((a) != NULL) \ 1645 *(a) = (x); \ 1646 } while (0) 1647 1648 #define REASON_SET(a, x) \ 1649 do { \ 1650 if ((a) != NULL) \ 1651 *(a) = (x); \ 1652 if (x < PFRES_MAX) \ 1653 counter_u64_add(V_pf_status.counters[x], 1); \ 1654 } while (0) 1655 1656 enum pf_syncookies_mode { 1657 PF_SYNCOOKIES_NEVER = 0, 1658 PF_SYNCOOKIES_ALWAYS = 1, 1659 PF_SYNCOOKIES_ADAPTIVE = 2, 1660 PF_SYNCOOKIES_MODE_MAX = PF_SYNCOOKIES_ADAPTIVE 1661 }; 1662 1663 #define PF_SYNCOOKIES_HIWATPCT 25 1664 #define PF_SYNCOOKIES_LOWATPCT (PF_SYNCOOKIES_HIWATPCT / 2) 1665 1666 #ifdef _KERNEL 1667 struct pf_kstatus { 1668 counter_u64_t counters[PFRES_MAX]; /* reason for passing/dropping */ 1669 counter_u64_t lcounters[KLCNT_MAX]; /* limit counters */ 1670 struct pf_counter_u64 fcounters[FCNT_MAX]; /* state operation counters */ 1671 counter_u64_t scounters[SCNT_MAX]; /* src_node operation counters */ 1672 uint32_t states; 1673 uint32_t src_nodes; 1674 uint32_t running; 1675 uint32_t since; 1676 uint32_t debug; 1677 uint32_t hostid; 1678 char ifname[IFNAMSIZ]; 1679 uint8_t pf_chksum[PF_MD5_DIGEST_LENGTH]; 1680 bool keep_counters; 1681 enum pf_syncookies_mode syncookies_mode; 1682 bool syncookies_active; 1683 uint64_t syncookies_inflight[2]; 1684 uint32_t states_halfopen; 1685 uint32_t reass; 1686 }; 1687 #endif 1688 1689 struct pf_divert { 1690 union { 1691 struct in_addr ipv4; 1692 struct in6_addr ipv6; 1693 } addr; 1694 u_int16_t port; 1695 }; 1696 1697 #define PFFRAG_FRENT_HIWAT 5000 /* Number of fragment entries */ 1698 #define PFR_KENTRY_HIWAT 200000 /* Number of table entries */ 1699 1700 /* 1701 * Limit the length of the fragment queue traversal. Remember 1702 * search entry points based on the fragment offset. 1703 */ 1704 #define PF_FRAG_ENTRY_POINTS 16 1705 1706 /* 1707 * The number of entries in the fragment queue must be limited 1708 * to avoid DoS by linear searching. Instead of a global limit, 1709 * use a limit per entry point. For large packets these sum up. 1710 */ 1711 #define PF_FRAG_ENTRY_LIMIT 64 1712 1713 /* 1714 * ioctl parameter structures 1715 */ 1716 1717 struct pfioc_pooladdr { 1718 u_int32_t action; 1719 u_int32_t ticket; 1720 u_int32_t nr; 1721 u_int32_t r_num; 1722 u_int8_t r_action; 1723 u_int8_t r_last; 1724 u_int8_t af; 1725 char anchor[MAXPATHLEN]; 1726 struct pf_pooladdr addr; 1727 }; 1728 1729 struct pfioc_rule { 1730 u_int32_t action; 1731 u_int32_t ticket; 1732 u_int32_t pool_ticket; 1733 u_int32_t nr; 1734 char anchor[MAXPATHLEN]; 1735 char anchor_call[MAXPATHLEN]; 1736 struct pf_rule rule; 1737 }; 1738 1739 struct pfioc_natlook { 1740 struct pf_addr saddr; 1741 struct pf_addr daddr; 1742 struct pf_addr rsaddr; 1743 struct pf_addr rdaddr; 1744 u_int16_t sport; 1745 u_int16_t dport; 1746 u_int16_t rsport; 1747 u_int16_t rdport; 1748 sa_family_t af; 1749 u_int8_t proto; 1750 u_int8_t direction; 1751 }; 1752 1753 struct pfioc_state { 1754 struct pfsync_state_1301 state; 1755 }; 1756 1757 struct pfioc_src_node_kill { 1758 sa_family_t psnk_af; 1759 struct pf_rule_addr psnk_src; 1760 struct pf_rule_addr psnk_dst; 1761 u_int psnk_killed; 1762 }; 1763 1764 #ifdef _KERNEL 1765 struct pf_kstate_kill { 1766 struct pf_state_cmp psk_pfcmp; 1767 sa_family_t psk_af; 1768 int psk_proto; 1769 struct pf_rule_addr psk_src; 1770 struct pf_rule_addr psk_dst; 1771 struct pf_rule_addr psk_rt_addr; 1772 char psk_ifname[IFNAMSIZ]; 1773 char psk_label[PF_RULE_LABEL_SIZE]; 1774 u_int psk_killed; 1775 bool psk_kill_match; 1776 bool psk_nat; 1777 }; 1778 #endif 1779 1780 struct pfioc_state_kill { 1781 struct pf_state_cmp psk_pfcmp; 1782 sa_family_t psk_af; 1783 int psk_proto; 1784 struct pf_rule_addr psk_src; 1785 struct pf_rule_addr psk_dst; 1786 char psk_ifname[IFNAMSIZ]; 1787 char psk_label[PF_RULE_LABEL_SIZE]; 1788 u_int psk_killed; 1789 }; 1790 1791 struct pfioc_states { 1792 int ps_len; 1793 union { 1794 void *ps_buf; 1795 struct pfsync_state_1301 *ps_states; 1796 }; 1797 }; 1798 1799 struct pfioc_states_v2 { 1800 int ps_len; 1801 uint64_t ps_req_version; 1802 union { 1803 void *ps_buf; 1804 struct pf_state_export *ps_states; 1805 }; 1806 }; 1807 1808 struct pfioc_src_nodes { 1809 int psn_len; 1810 union { 1811 void *psn_buf; 1812 struct pf_src_node *psn_src_nodes; 1813 }; 1814 }; 1815 1816 struct pfioc_if { 1817 char ifname[IFNAMSIZ]; 1818 }; 1819 1820 struct pfioc_tm { 1821 int timeout; 1822 int seconds; 1823 }; 1824 1825 struct pfioc_limit { 1826 int index; 1827 unsigned limit; 1828 }; 1829 1830 struct pfioc_altq_v0 { 1831 u_int32_t action; 1832 u_int32_t ticket; 1833 u_int32_t nr; 1834 struct pf_altq_v0 altq; 1835 }; 1836 1837 struct pfioc_altq_v1 { 1838 u_int32_t action; 1839 u_int32_t ticket; 1840 u_int32_t nr; 1841 /* 1842 * Placed here so code that only uses the above parameters can be 1843 * written entirely in terms of the v0 or v1 type. 1844 */ 1845 u_int32_t version; 1846 struct pf_altq_v1 altq; 1847 }; 1848 1849 /* 1850 * Latest version of struct pfioc_altq_vX. This must move in lock-step with 1851 * the latest version of struct pf_altq_vX as it has that struct as a 1852 * member. 1853 */ 1854 #define PFIOC_ALTQ_VERSION PF_ALTQ_VERSION 1855 1856 struct pfioc_qstats_v0 { 1857 u_int32_t ticket; 1858 u_int32_t nr; 1859 void *buf; 1860 int nbytes; 1861 u_int8_t scheduler; 1862 }; 1863 1864 struct pfioc_qstats_v1 { 1865 u_int32_t ticket; 1866 u_int32_t nr; 1867 void *buf; 1868 int nbytes; 1869 u_int8_t scheduler; 1870 /* 1871 * Placed here so code that only uses the above parameters can be 1872 * written entirely in terms of the v0 or v1 type. 1873 */ 1874 u_int32_t version; /* Requested version of stats struct */ 1875 }; 1876 1877 /* Latest version of struct pfioc_qstats_vX */ 1878 #define PFIOC_QSTATS_VERSION 1 1879 1880 struct pfioc_ruleset { 1881 u_int32_t nr; 1882 char path[MAXPATHLEN]; 1883 char name[PF_ANCHOR_NAME_SIZE]; 1884 }; 1885 1886 #define PF_RULESET_ALTQ (PF_RULESET_MAX) 1887 #define PF_RULESET_TABLE (PF_RULESET_MAX+1) 1888 #define PF_RULESET_ETH (PF_RULESET_MAX+2) 1889 struct pfioc_trans { 1890 int size; /* number of elements */ 1891 int esize; /* size of each element in bytes */ 1892 struct pfioc_trans_e { 1893 int rs_num; 1894 char anchor[MAXPATHLEN]; 1895 u_int32_t ticket; 1896 } *array; 1897 }; 1898 1899 #define PFR_FLAG_ATOMIC 0x00000001 /* unused */ 1900 #define PFR_FLAG_DUMMY 0x00000002 1901 #define PFR_FLAG_FEEDBACK 0x00000004 1902 #define PFR_FLAG_CLSTATS 0x00000008 1903 #define PFR_FLAG_ADDRSTOO 0x00000010 1904 #define PFR_FLAG_REPLACE 0x00000020 1905 #define PFR_FLAG_ALLRSETS 0x00000040 1906 #define PFR_FLAG_ALLMASK 0x0000007F 1907 #ifdef _KERNEL 1908 #define PFR_FLAG_USERIOCTL 0x10000000 1909 #endif 1910 1911 struct pfioc_table { 1912 struct pfr_table pfrio_table; 1913 void *pfrio_buffer; 1914 int pfrio_esize; 1915 int pfrio_size; 1916 int pfrio_size2; 1917 int pfrio_nadd; 1918 int pfrio_ndel; 1919 int pfrio_nchange; 1920 int pfrio_flags; 1921 u_int32_t pfrio_ticket; 1922 }; 1923 #define pfrio_exists pfrio_nadd 1924 #define pfrio_nzero pfrio_nadd 1925 #define pfrio_nmatch pfrio_nadd 1926 #define pfrio_naddr pfrio_size2 1927 #define pfrio_setflag pfrio_size2 1928 #define pfrio_clrflag pfrio_nadd 1929 1930 struct pfioc_iface { 1931 char pfiio_name[IFNAMSIZ]; 1932 void *pfiio_buffer; 1933 int pfiio_esize; 1934 int pfiio_size; 1935 int pfiio_nzero; 1936 int pfiio_flags; 1937 }; 1938 1939 /* 1940 * ioctl operations 1941 */ 1942 1943 #define DIOCSTART _IO ('D', 1) 1944 #define DIOCSTOP _IO ('D', 2) 1945 #define DIOCADDRULE _IOWR('D', 4, struct pfioc_rule) 1946 #define DIOCADDRULENV _IOWR('D', 4, struct pfioc_nv) 1947 #define DIOCGETRULES _IOWR('D', 6, struct pfioc_rule) 1948 #define DIOCGETRULENV _IOWR('D', 7, struct pfioc_nv) 1949 /* XXX cut 8 - 17 */ 1950 #define DIOCCLRSTATESNV _IOWR('D', 18, struct pfioc_nv) 1951 #define DIOCGETSTATE _IOWR('D', 19, struct pfioc_state) 1952 #define DIOCGETSTATENV _IOWR('D', 19, struct pfioc_nv) 1953 #define DIOCSETSTATUSIF _IOWR('D', 20, struct pfioc_if) 1954 #define DIOCGETSTATUSNV _IOWR('D', 21, struct pfioc_nv) 1955 #define DIOCCLRSTATUS _IO ('D', 22) 1956 #define DIOCNATLOOK _IOWR('D', 23, struct pfioc_natlook) 1957 #define DIOCSETDEBUG _IOWR('D', 24, u_int32_t) 1958 #ifdef COMPAT_FREEBSD14 1959 #define DIOCGETSTATES _IOWR('D', 25, struct pfioc_states) 1960 #endif 1961 #define DIOCCHANGERULE _IOWR('D', 26, struct pfioc_rule) 1962 /* XXX cut 26 - 28 */ 1963 #define DIOCSETTIMEOUT _IOWR('D', 29, struct pfioc_tm) 1964 #define DIOCGETTIMEOUT _IOWR('D', 30, struct pfioc_tm) 1965 #define DIOCADDSTATE _IOWR('D', 37, struct pfioc_state) 1966 #define DIOCCLRRULECTRS _IO ('D', 38) 1967 #define DIOCGETLIMIT _IOWR('D', 39, struct pfioc_limit) 1968 #define DIOCSETLIMIT _IOWR('D', 40, struct pfioc_limit) 1969 #define DIOCKILLSTATESNV _IOWR('D', 41, struct pfioc_nv) 1970 #define DIOCSTARTALTQ _IO ('D', 42) 1971 #define DIOCSTOPALTQ _IO ('D', 43) 1972 #define DIOCADDALTQV0 _IOWR('D', 45, struct pfioc_altq_v0) 1973 #define DIOCADDALTQV1 _IOWR('D', 45, struct pfioc_altq_v1) 1974 #define DIOCGETALTQSV0 _IOWR('D', 47, struct pfioc_altq_v0) 1975 #define DIOCGETALTQSV1 _IOWR('D', 47, struct pfioc_altq_v1) 1976 #define DIOCGETALTQV0 _IOWR('D', 48, struct pfioc_altq_v0) 1977 #define DIOCGETALTQV1 _IOWR('D', 48, struct pfioc_altq_v1) 1978 #define DIOCCHANGEALTQV0 _IOWR('D', 49, struct pfioc_altq_v0) 1979 #define DIOCCHANGEALTQV1 _IOWR('D', 49, struct pfioc_altq_v1) 1980 #define DIOCGETQSTATSV0 _IOWR('D', 50, struct pfioc_qstats_v0) 1981 #define DIOCGETQSTATSV1 _IOWR('D', 50, struct pfioc_qstats_v1) 1982 #define DIOCBEGINADDRS _IOWR('D', 51, struct pfioc_pooladdr) 1983 #define DIOCADDADDR _IOWR('D', 52, struct pfioc_pooladdr) 1984 #define DIOCGETADDRS _IOWR('D', 53, struct pfioc_pooladdr) 1985 #define DIOCGETADDR _IOWR('D', 54, struct pfioc_pooladdr) 1986 #define DIOCCHANGEADDR _IOWR('D', 55, struct pfioc_pooladdr) 1987 /* XXX cut 55 - 57 */ 1988 #define DIOCGETRULESETS _IOWR('D', 58, struct pfioc_ruleset) 1989 #define DIOCGETRULESET _IOWR('D', 59, struct pfioc_ruleset) 1990 #define DIOCRCLRTABLES _IOWR('D', 60, struct pfioc_table) 1991 #define DIOCRADDTABLES _IOWR('D', 61, struct pfioc_table) 1992 #define DIOCRDELTABLES _IOWR('D', 62, struct pfioc_table) 1993 #define DIOCRGETTABLES _IOWR('D', 63, struct pfioc_table) 1994 #define DIOCRGETTSTATS _IOWR('D', 64, struct pfioc_table) 1995 #define DIOCRCLRTSTATS _IOWR('D', 65, struct pfioc_table) 1996 #define DIOCRCLRADDRS _IOWR('D', 66, struct pfioc_table) 1997 #define DIOCRADDADDRS _IOWR('D', 67, struct pfioc_table) 1998 #define DIOCRDELADDRS _IOWR('D', 68, struct pfioc_table) 1999 #define DIOCRSETADDRS _IOWR('D', 69, struct pfioc_table) 2000 #define DIOCRGETADDRS _IOWR('D', 70, struct pfioc_table) 2001 #define DIOCRGETASTATS _IOWR('D', 71, struct pfioc_table) 2002 #define DIOCRCLRASTATS _IOWR('D', 72, struct pfioc_table) 2003 #define DIOCRTSTADDRS _IOWR('D', 73, struct pfioc_table) 2004 #define DIOCRSETTFLAGS _IOWR('D', 74, struct pfioc_table) 2005 #define DIOCRINADEFINE _IOWR('D', 77, struct pfioc_table) 2006 #define DIOCOSFPFLUSH _IO('D', 78) 2007 #define DIOCOSFPADD _IOWR('D', 79, struct pf_osfp_ioctl) 2008 #define DIOCOSFPGET _IOWR('D', 80, struct pf_osfp_ioctl) 2009 #define DIOCXBEGIN _IOWR('D', 81, struct pfioc_trans) 2010 #define DIOCXCOMMIT _IOWR('D', 82, struct pfioc_trans) 2011 #define DIOCXROLLBACK _IOWR('D', 83, struct pfioc_trans) 2012 #define DIOCGETSRCNODES _IOWR('D', 84, struct pfioc_src_nodes) 2013 #define DIOCCLRSRCNODES _IO('D', 85) 2014 #define DIOCSETHOSTID _IOWR('D', 86, u_int32_t) 2015 #define DIOCIGETIFACES _IOWR('D', 87, struct pfioc_iface) 2016 #define DIOCSETIFFLAG _IOWR('D', 89, struct pfioc_iface) 2017 #define DIOCCLRIFFLAG _IOWR('D', 90, struct pfioc_iface) 2018 #define DIOCKILLSRCNODES _IOWR('D', 91, struct pfioc_src_node_kill) 2019 #define DIOCGIFSPEEDV0 _IOWR('D', 92, struct pf_ifspeed_v0) 2020 #define DIOCGIFSPEEDV1 _IOWR('D', 92, struct pf_ifspeed_v1) 2021 #ifdef COMPAT_FREEBSD14 2022 #define DIOCGETSTATESV2 _IOWR('D', 93, struct pfioc_states_v2) 2023 #endif 2024 #define DIOCGETSYNCOOKIES _IOWR('D', 94, struct pfioc_nv) 2025 #define DIOCSETSYNCOOKIES _IOWR('D', 95, struct pfioc_nv) 2026 #define DIOCKEEPCOUNTERS _IOWR('D', 96, struct pfioc_nv) 2027 #define DIOCKEEPCOUNTERS_FREEBSD13 _IOWR('D', 92, struct pfioc_nv) 2028 #define DIOCADDETHRULE _IOWR('D', 97, struct pfioc_nv) 2029 #define DIOCGETETHRULE _IOWR('D', 98, struct pfioc_nv) 2030 #define DIOCGETETHRULES _IOWR('D', 99, struct pfioc_nv) 2031 #define DIOCGETETHRULESETS _IOWR('D', 100, struct pfioc_nv) 2032 #define DIOCGETETHRULESET _IOWR('D', 101, struct pfioc_nv) 2033 #define DIOCSETREASS _IOWR('D', 102, u_int32_t) 2034 2035 struct pf_ifspeed_v0 { 2036 char ifname[IFNAMSIZ]; 2037 u_int32_t baudrate; 2038 }; 2039 2040 struct pf_ifspeed_v1 { 2041 char ifname[IFNAMSIZ]; 2042 u_int32_t baudrate32; 2043 /* layout identical to struct pf_ifspeed_v0 up to this point */ 2044 u_int64_t baudrate; 2045 }; 2046 2047 /* Latest version of struct pf_ifspeed_vX */ 2048 #define PF_IFSPEED_VERSION 1 2049 2050 /* 2051 * Compatibility and convenience macros 2052 */ 2053 #ifndef _KERNEL 2054 #ifdef PFIOC_USE_LATEST 2055 /* 2056 * Maintaining in-tree consumers of the ioctl interface is easier when that 2057 * code can be written in terms old names that refer to the latest interface 2058 * version as that reduces the required changes in the consumers to those 2059 * that are functionally necessary to accommodate a new interface version. 2060 */ 2061 #define pfioc_altq __CONCAT(pfioc_altq_v, PFIOC_ALTQ_VERSION) 2062 #define pfioc_qstats __CONCAT(pfioc_qstats_v, PFIOC_QSTATS_VERSION) 2063 #define pf_ifspeed __CONCAT(pf_ifspeed_v, PF_IFSPEED_VERSION) 2064 2065 #define DIOCADDALTQ __CONCAT(DIOCADDALTQV, PFIOC_ALTQ_VERSION) 2066 #define DIOCGETALTQS __CONCAT(DIOCGETALTQSV, PFIOC_ALTQ_VERSION) 2067 #define DIOCGETALTQ __CONCAT(DIOCGETALTQV, PFIOC_ALTQ_VERSION) 2068 #define DIOCCHANGEALTQ __CONCAT(DIOCCHANGEALTQV, PFIOC_ALTQ_VERSION) 2069 #define DIOCGETQSTATS __CONCAT(DIOCGETQSTATSV, PFIOC_QSTATS_VERSION) 2070 #define DIOCGIFSPEED __CONCAT(DIOCGIFSPEEDV, PF_IFSPEED_VERSION) 2071 #else 2072 /* 2073 * When building out-of-tree code that is written for the old interface, 2074 * such as may exist in ports for example, resolve the old struct tags and 2075 * ioctl command names to the v0 versions. 2076 */ 2077 #define pfioc_altq __CONCAT(pfioc_altq_v, 0) 2078 #define pfioc_qstats __CONCAT(pfioc_qstats_v, 0) 2079 #define pf_ifspeed __CONCAT(pf_ifspeed_v, 0) 2080 2081 #define DIOCADDALTQ __CONCAT(DIOCADDALTQV, 0) 2082 #define DIOCGETALTQS __CONCAT(DIOCGETALTQSV, 0) 2083 #define DIOCGETALTQ __CONCAT(DIOCGETALTQV, 0) 2084 #define DIOCCHANGEALTQ __CONCAT(DIOCCHANGEALTQV, 0) 2085 #define DIOCGETQSTATS __CONCAT(DIOCGETQSTATSV, 0) 2086 #define DIOCGIFSPEED __CONCAT(DIOCGIFSPEEDV, 0) 2087 #endif /* PFIOC_USE_LATEST */ 2088 #endif /* _KERNEL */ 2089 2090 #ifdef _KERNEL 2091 LIST_HEAD(pf_ksrc_node_list, pf_ksrc_node); 2092 struct pf_srchash { 2093 struct pf_ksrc_node_list nodes; 2094 struct mtx lock; 2095 }; 2096 2097 struct pf_keyhash { 2098 LIST_HEAD(, pf_state_key) keys; 2099 struct mtx lock; 2100 }; 2101 2102 struct pf_idhash { 2103 LIST_HEAD(, pf_kstate) states; 2104 struct mtx lock; 2105 }; 2106 2107 extern u_long pf_ioctl_maxcount; 2108 extern u_long pf_hashmask; 2109 extern u_long pf_srchashmask; 2110 #define PF_HASHSIZ (131072) 2111 #define PF_SRCHASHSIZ (PF_HASHSIZ/4) 2112 VNET_DECLARE(struct pf_keyhash *, pf_keyhash); 2113 VNET_DECLARE(struct pf_idhash *, pf_idhash); 2114 #define V_pf_keyhash VNET(pf_keyhash) 2115 #define V_pf_idhash VNET(pf_idhash) 2116 VNET_DECLARE(struct pf_srchash *, pf_srchash); 2117 #define V_pf_srchash VNET(pf_srchash) 2118 2119 #define PF_IDHASH(s) (be64toh((s)->id) % (pf_hashmask + 1)) 2120 2121 VNET_DECLARE(void *, pf_swi_cookie); 2122 #define V_pf_swi_cookie VNET(pf_swi_cookie) 2123 VNET_DECLARE(struct intr_event *, pf_swi_ie); 2124 #define V_pf_swi_ie VNET(pf_swi_ie) 2125 2126 VNET_DECLARE(struct unrhdr64, pf_stateid); 2127 #define V_pf_stateid VNET(pf_stateid) 2128 2129 TAILQ_HEAD(pf_altqqueue, pf_altq); 2130 VNET_DECLARE(struct pf_altqqueue, pf_altqs[4]); 2131 #define V_pf_altqs VNET(pf_altqs) 2132 VNET_DECLARE(struct pf_kpalist, pf_pabuf); 2133 #define V_pf_pabuf VNET(pf_pabuf) 2134 2135 VNET_DECLARE(u_int32_t, ticket_altqs_active); 2136 #define V_ticket_altqs_active VNET(ticket_altqs_active) 2137 VNET_DECLARE(u_int32_t, ticket_altqs_inactive); 2138 #define V_ticket_altqs_inactive VNET(ticket_altqs_inactive) 2139 VNET_DECLARE(int, altqs_inactive_open); 2140 #define V_altqs_inactive_open VNET(altqs_inactive_open) 2141 VNET_DECLARE(u_int32_t, ticket_pabuf); 2142 #define V_ticket_pabuf VNET(ticket_pabuf) 2143 VNET_DECLARE(struct pf_altqqueue *, pf_altqs_active); 2144 #define V_pf_altqs_active VNET(pf_altqs_active) 2145 VNET_DECLARE(struct pf_altqqueue *, pf_altq_ifs_active); 2146 #define V_pf_altq_ifs_active VNET(pf_altq_ifs_active) 2147 VNET_DECLARE(struct pf_altqqueue *, pf_altqs_inactive); 2148 #define V_pf_altqs_inactive VNET(pf_altqs_inactive) 2149 VNET_DECLARE(struct pf_altqqueue *, pf_altq_ifs_inactive); 2150 #define V_pf_altq_ifs_inactive VNET(pf_altq_ifs_inactive) 2151 2152 VNET_DECLARE(struct pf_krulequeue, pf_unlinked_rules); 2153 #define V_pf_unlinked_rules VNET(pf_unlinked_rules) 2154 2155 #ifdef PF_WANT_32_TO_64_COUNTER 2156 LIST_HEAD(allkiflist_head, pfi_kkif); 2157 VNET_DECLARE(struct allkiflist_head, pf_allkiflist); 2158 #define V_pf_allkiflist VNET(pf_allkiflist) 2159 VNET_DECLARE(size_t, pf_allkifcount); 2160 #define V_pf_allkifcount VNET(pf_allkifcount) 2161 VNET_DECLARE(struct pfi_kkif *, pf_kifmarker); 2162 #define V_pf_kifmarker VNET(pf_kifmarker) 2163 2164 LIST_HEAD(allrulelist_head, pf_krule); 2165 VNET_DECLARE(struct allrulelist_head, pf_allrulelist); 2166 #define V_pf_allrulelist VNET(pf_allrulelist) 2167 VNET_DECLARE(size_t, pf_allrulecount); 2168 #define V_pf_allrulecount VNET(pf_allrulecount) 2169 VNET_DECLARE(struct pf_krule *, pf_rulemarker); 2170 #define V_pf_rulemarker VNET(pf_rulemarker) 2171 #endif 2172 2173 int pf_start(void); 2174 int pf_stop(void); 2175 void pf_initialize(void); 2176 void pf_mtag_initialize(void); 2177 void pf_mtag_cleanup(void); 2178 void pf_cleanup(void); 2179 2180 struct pf_mtag *pf_get_mtag(struct mbuf *); 2181 2182 extern void pf_calc_skip_steps(struct pf_krulequeue *); 2183 #ifdef ALTQ 2184 extern void pf_altq_ifnet_event(struct ifnet *, int); 2185 #endif 2186 VNET_DECLARE(uma_zone_t, pf_state_z); 2187 #define V_pf_state_z VNET(pf_state_z) 2188 VNET_DECLARE(uma_zone_t, pf_state_key_z); 2189 #define V_pf_state_key_z VNET(pf_state_key_z) 2190 VNET_DECLARE(uma_zone_t, pf_state_scrub_z); 2191 #define V_pf_state_scrub_z VNET(pf_state_scrub_z) 2192 2193 extern void pf_purge_thread(void *); 2194 extern void pf_unload_vnet_purge(void); 2195 extern void pf_intr(void *); 2196 extern void pf_purge_expired_src_nodes(void); 2197 2198 extern int pf_unlink_state(struct pf_kstate *); 2199 extern int pf_state_insert(struct pfi_kkif *, 2200 struct pfi_kkif *, 2201 struct pf_state_key *, 2202 struct pf_state_key *, 2203 struct pf_kstate *); 2204 extern struct pf_kstate *pf_alloc_state(int); 2205 extern void pf_free_state(struct pf_kstate *); 2206 2207 static __inline void 2208 pf_ref_state(struct pf_kstate *s) 2209 { 2210 2211 refcount_acquire(&s->refs); 2212 } 2213 2214 static __inline int 2215 pf_release_state(struct pf_kstate *s) 2216 { 2217 2218 if (refcount_release(&s->refs)) { 2219 pf_free_state(s); 2220 return (1); 2221 } else 2222 return (0); 2223 } 2224 2225 static __inline int 2226 pf_release_staten(struct pf_kstate *s, u_int n) 2227 { 2228 2229 if (refcount_releasen(&s->refs, n)) { 2230 pf_free_state(s); 2231 return (1); 2232 } else 2233 return (0); 2234 } 2235 2236 extern struct pf_kstate *pf_find_state_byid(uint64_t, uint32_t); 2237 extern struct pf_kstate *pf_find_state_all(struct pf_state_key_cmp *, 2238 u_int, int *); 2239 extern bool pf_find_state_all_exists(struct pf_state_key_cmp *, 2240 u_int); 2241 extern struct pf_ksrc_node *pf_find_src_node(struct pf_addr *, 2242 struct pf_krule *, sa_family_t, 2243 struct pf_srchash **, bool); 2244 extern void pf_unlink_src_node(struct pf_ksrc_node *); 2245 extern u_int pf_free_src_nodes(struct pf_ksrc_node_list *); 2246 extern void pf_print_state(struct pf_kstate *); 2247 extern void pf_print_flags(u_int8_t); 2248 extern int pf_addr_wrap_neq(struct pf_addr_wrap *, 2249 struct pf_addr_wrap *); 2250 extern u_int16_t pf_cksum_fixup(u_int16_t, u_int16_t, u_int16_t, 2251 u_int8_t); 2252 extern u_int16_t pf_proto_cksum_fixup(struct mbuf *, u_int16_t, 2253 u_int16_t, u_int16_t, u_int8_t); 2254 2255 VNET_DECLARE(struct ifnet *, sync_ifp); 2256 #define V_sync_ifp VNET(sync_ifp); 2257 VNET_DECLARE(struct pf_krule, pf_default_rule); 2258 #define V_pf_default_rule VNET(pf_default_rule) 2259 extern void pf_addrcpy(struct pf_addr *, struct pf_addr *, 2260 sa_family_t); 2261 void pf_free_rule(struct pf_krule *); 2262 2263 int pf_test_eth(int, int, struct ifnet *, struct mbuf **, struct inpcb *); 2264 #ifdef INET 2265 int pf_test(int, int, struct ifnet *, struct mbuf **, struct inpcb *, 2266 struct pf_rule_actions *); 2267 int pf_normalize_ip(struct mbuf **, struct pfi_kkif *, u_short *, 2268 struct pf_pdesc *); 2269 #endif /* INET */ 2270 2271 #ifdef INET6 2272 int pf_test6(int, int, struct ifnet *, struct mbuf **, struct inpcb *, 2273 struct pf_rule_actions *); 2274 int pf_normalize_ip6(struct mbuf **, struct pfi_kkif *, u_short *, 2275 struct pf_pdesc *); 2276 void pf_poolmask(struct pf_addr *, struct pf_addr*, 2277 struct pf_addr *, struct pf_addr *, sa_family_t); 2278 void pf_addr_inc(struct pf_addr *, sa_family_t); 2279 int pf_refragment6(struct ifnet *, struct mbuf **, struct m_tag *, bool); 2280 #endif /* INET6 */ 2281 2282 int pf_multihome_scan_init(struct mbuf *, int, int, struct pf_pdesc *, 2283 struct pfi_kkif *); 2284 int pf_multihome_scan_asconf(struct mbuf *, int, int, struct pf_pdesc *, 2285 struct pfi_kkif *); 2286 2287 u_int32_t pf_new_isn(struct pf_kstate *); 2288 void *pf_pull_hdr(struct mbuf *, int, void *, int, u_short *, u_short *, 2289 sa_family_t); 2290 void pf_change_a(void *, u_int16_t *, u_int32_t, u_int8_t); 2291 void pf_change_proto_a(struct mbuf *, void *, u_int16_t *, u_int32_t, 2292 u_int8_t); 2293 void pf_change_tcp_a(struct mbuf *, void *, u_int16_t *, u_int32_t); 2294 void pf_patch_16_unaligned(struct mbuf *, u_int16_t *, void *, u_int16_t, 2295 bool, u_int8_t); 2296 void pf_patch_32_unaligned(struct mbuf *, u_int16_t *, void *, u_int32_t, 2297 bool, u_int8_t); 2298 void pf_send_deferred_syn(struct pf_kstate *); 2299 int pf_match_addr(u_int8_t, struct pf_addr *, struct pf_addr *, 2300 struct pf_addr *, sa_family_t); 2301 int pf_match_addr_range(struct pf_addr *, struct pf_addr *, 2302 struct pf_addr *, sa_family_t); 2303 int pf_match_port(u_int8_t, u_int16_t, u_int16_t, u_int16_t); 2304 2305 void pf_normalize_init(void); 2306 void pf_normalize_cleanup(void); 2307 int pf_normalize_tcp(struct pfi_kkif *, struct mbuf *, int, int, void *, 2308 struct pf_pdesc *); 2309 void pf_normalize_tcp_cleanup(struct pf_kstate *); 2310 int pf_normalize_tcp_init(struct mbuf *, int, struct pf_pdesc *, 2311 struct tcphdr *, struct pf_state_peer *, struct pf_state_peer *); 2312 int pf_normalize_tcp_stateful(struct mbuf *, int, struct pf_pdesc *, 2313 u_short *, struct tcphdr *, struct pf_kstate *, 2314 struct pf_state_peer *, struct pf_state_peer *, int *); 2315 int pf_normalize_sctp_init(struct mbuf *, int, struct pf_pdesc *, 2316 struct pf_state_peer *, struct pf_state_peer *); 2317 int pf_normalize_sctp(int, struct pfi_kkif *, struct mbuf *, int, 2318 int, void *, struct pf_pdesc *); 2319 u_int32_t 2320 pf_state_expires(const struct pf_kstate *); 2321 void pf_purge_expired_fragments(void); 2322 void pf_purge_fragments(uint32_t); 2323 int pf_routable(struct pf_addr *addr, sa_family_t af, struct pfi_kkif *, 2324 int); 2325 int pf_socket_lookup(struct pf_pdesc *, struct mbuf *); 2326 struct pf_state_key *pf_alloc_state_key(int); 2327 void pfr_initialize(void); 2328 void pfr_cleanup(void); 2329 int pfr_match_addr(struct pfr_ktable *, struct pf_addr *, sa_family_t); 2330 void pfr_update_stats(struct pfr_ktable *, struct pf_addr *, sa_family_t, 2331 u_int64_t, int, int, int); 2332 int pfr_pool_get(struct pfr_ktable *, int *, struct pf_addr *, sa_family_t); 2333 void pfr_dynaddr_update(struct pfr_ktable *, struct pfi_dynaddr *); 2334 struct pfr_ktable * 2335 pfr_attach_table(struct pf_kruleset *, char *); 2336 struct pfr_ktable * 2337 pfr_eth_attach_table(struct pf_keth_ruleset *, char *); 2338 void pfr_detach_table(struct pfr_ktable *); 2339 int pfr_clr_tables(struct pfr_table *, int *, int); 2340 int pfr_add_tables(struct pfr_table *, int, int *, int); 2341 int pfr_del_tables(struct pfr_table *, int, int *, int); 2342 int pfr_table_count(struct pfr_table *, int); 2343 int pfr_get_tables(struct pfr_table *, struct pfr_table *, int *, int); 2344 int pfr_get_tstats(struct pfr_table *, struct pfr_tstats *, int *, int); 2345 int pfr_clr_tstats(struct pfr_table *, int, int *, int); 2346 int pfr_set_tflags(struct pfr_table *, int, int, int, int *, int *, int); 2347 int pfr_clr_addrs(struct pfr_table *, int *, int); 2348 int pfr_insert_kentry(struct pfr_ktable *, struct pfr_addr *, long); 2349 int pfr_add_addrs(struct pfr_table *, struct pfr_addr *, int, int *, 2350 int); 2351 int pfr_del_addrs(struct pfr_table *, struct pfr_addr *, int, int *, 2352 int); 2353 int pfr_set_addrs(struct pfr_table *, struct pfr_addr *, int, int *, 2354 int *, int *, int *, int, u_int32_t); 2355 int pfr_get_addrs(struct pfr_table *, struct pfr_addr *, int *, int); 2356 int pfr_get_astats(struct pfr_table *, struct pfr_astats *, int *, int); 2357 int pfr_clr_astats(struct pfr_table *, struct pfr_addr *, int, int *, 2358 int); 2359 int pfr_tst_addrs(struct pfr_table *, struct pfr_addr *, int, int *, 2360 int); 2361 int pfr_ina_begin(struct pfr_table *, u_int32_t *, int *, int); 2362 int pfr_ina_rollback(struct pfr_table *, u_int32_t, int *, int); 2363 int pfr_ina_commit(struct pfr_table *, u_int32_t, int *, int *, int); 2364 int pfr_ina_define(struct pfr_table *, struct pfr_addr *, int, int *, 2365 int *, u_int32_t, int); 2366 2367 MALLOC_DECLARE(PFI_MTYPE); 2368 VNET_DECLARE(struct pfi_kkif *, pfi_all); 2369 #define V_pfi_all VNET(pfi_all) 2370 2371 void pfi_initialize(void); 2372 void pfi_initialize_vnet(void); 2373 void pfi_cleanup(void); 2374 void pfi_cleanup_vnet(void); 2375 void pfi_kkif_ref(struct pfi_kkif *); 2376 void pfi_kkif_unref(struct pfi_kkif *); 2377 struct pfi_kkif *pfi_kkif_find(const char *); 2378 struct pfi_kkif *pfi_kkif_attach(struct pfi_kkif *, const char *); 2379 int pfi_kkif_match(struct pfi_kkif *, struct pfi_kkif *); 2380 void pfi_kkif_purge(void); 2381 int pfi_match_addr(struct pfi_dynaddr *, struct pf_addr *, 2382 sa_family_t); 2383 int pfi_dynaddr_setup(struct pf_addr_wrap *, sa_family_t); 2384 void pfi_dynaddr_remove(struct pfi_dynaddr *); 2385 void pfi_dynaddr_copyout(struct pf_addr_wrap *); 2386 void pfi_update_status(const char *, struct pf_status *); 2387 void pfi_get_ifaces(const char *, struct pfi_kif *, int *); 2388 int pfi_set_flags(const char *, int); 2389 int pfi_clear_flags(const char *, int); 2390 2391 int pf_match_tag(struct mbuf *, struct pf_krule *, int *, int); 2392 int pf_tag_packet(struct mbuf *, struct pf_pdesc *, int); 2393 int pf_addr_cmp(struct pf_addr *, struct pf_addr *, 2394 sa_family_t); 2395 2396 u_int16_t pf_get_mss(struct mbuf *, int, u_int16_t, sa_family_t); 2397 u_int8_t pf_get_wscale(struct mbuf *, int, u_int16_t, sa_family_t); 2398 struct mbuf *pf_build_tcp(const struct pf_krule *, sa_family_t, 2399 const struct pf_addr *, const struct pf_addr *, 2400 u_int16_t, u_int16_t, u_int32_t, u_int32_t, 2401 u_int8_t, u_int16_t, u_int16_t, u_int8_t, bool, 2402 u_int16_t, u_int16_t, int); 2403 void pf_send_tcp(const struct pf_krule *, sa_family_t, 2404 const struct pf_addr *, const struct pf_addr *, 2405 u_int16_t, u_int16_t, u_int32_t, u_int32_t, 2406 u_int8_t, u_int16_t, u_int16_t, u_int8_t, bool, 2407 u_int16_t, u_int16_t, int); 2408 2409 void pf_syncookies_init(void); 2410 void pf_syncookies_cleanup(void); 2411 int pf_get_syncookies(struct pfioc_nv *); 2412 int pf_set_syncookies(struct pfioc_nv *); 2413 int pf_synflood_check(struct pf_pdesc *); 2414 void pf_syncookie_send(struct mbuf *m, int off, 2415 struct pf_pdesc *); 2416 bool pf_syncookie_check(struct pf_pdesc *); 2417 u_int8_t pf_syncookie_validate(struct pf_pdesc *); 2418 struct mbuf * pf_syncookie_recreate_syn(uint8_t, int, 2419 struct pf_pdesc *); 2420 2421 VNET_DECLARE(struct pf_kstatus, pf_status); 2422 #define V_pf_status VNET(pf_status) 2423 2424 struct pf_limit { 2425 uma_zone_t zone; 2426 u_int limit; 2427 }; 2428 VNET_DECLARE(struct pf_limit, pf_limits[PF_LIMIT_MAX]); 2429 #define V_pf_limits VNET(pf_limits) 2430 2431 #endif /* _KERNEL */ 2432 2433 #ifdef _KERNEL 2434 VNET_DECLARE(struct pf_kanchor_global, pf_anchors); 2435 #define V_pf_anchors VNET(pf_anchors) 2436 VNET_DECLARE(struct pf_kanchor, pf_main_anchor); 2437 #define V_pf_main_anchor VNET(pf_main_anchor) 2438 VNET_DECLARE(struct pf_keth_anchor_global, pf_keth_anchors); 2439 #define V_pf_keth_anchors VNET(pf_keth_anchors) 2440 #define pf_main_ruleset V_pf_main_anchor.ruleset 2441 2442 VNET_DECLARE(struct pf_keth_anchor, pf_main_keth_anchor); 2443 #define V_pf_main_keth_anchor VNET(pf_main_keth_anchor) 2444 VNET_DECLARE(struct pf_keth_ruleset*, pf_keth); 2445 #define V_pf_keth VNET(pf_keth) 2446 2447 void pf_init_kruleset(struct pf_kruleset *); 2448 void pf_init_keth(struct pf_keth_ruleset *); 2449 int pf_kanchor_setup(struct pf_krule *, 2450 const struct pf_kruleset *, const char *); 2451 int pf_kanchor_nvcopyout(const struct pf_kruleset *, 2452 const struct pf_krule *, nvlist_t *); 2453 int pf_kanchor_copyout(const struct pf_kruleset *, 2454 const struct pf_krule *, struct pfioc_rule *); 2455 void pf_kanchor_remove(struct pf_krule *); 2456 void pf_remove_if_empty_kruleset(struct pf_kruleset *); 2457 struct pf_kruleset *pf_find_kruleset(const char *); 2458 struct pf_kruleset *pf_find_or_create_kruleset(const char *); 2459 void pf_rs_initialize(void); 2460 2461 2462 struct pf_krule *pf_krule_alloc(void); 2463 2464 void pf_remove_if_empty_keth_ruleset( 2465 struct pf_keth_ruleset *); 2466 struct pf_keth_ruleset *pf_find_keth_ruleset(const char *); 2467 struct pf_keth_anchor *pf_find_keth_anchor(const char *); 2468 int pf_keth_anchor_setup(struct pf_keth_rule *, 2469 const struct pf_keth_ruleset *, const char *); 2470 int pf_keth_anchor_nvcopyout( 2471 const struct pf_keth_ruleset *, 2472 const struct pf_keth_rule *, nvlist_t *); 2473 struct pf_keth_ruleset *pf_find_or_create_keth_ruleset(const char *); 2474 void pf_keth_anchor_remove(struct pf_keth_rule *); 2475 2476 int pf_ioctl_getrules(struct pfioc_rule *); 2477 int pf_ioctl_addrule(struct pf_krule *, uint32_t, 2478 uint32_t, const char *, const char *, uid_t uid, 2479 pid_t); 2480 2481 void pf_krule_free(struct pf_krule *); 2482 #endif 2483 2484 /* The fingerprint functions can be linked into userland programs (tcpdump) */ 2485 int pf_osfp_add(struct pf_osfp_ioctl *); 2486 #ifdef _KERNEL 2487 struct pf_osfp_enlist * 2488 pf_osfp_fingerprint(struct pf_pdesc *, struct mbuf *, int, 2489 const struct tcphdr *); 2490 #endif /* _KERNEL */ 2491 void pf_osfp_flush(void); 2492 int pf_osfp_get(struct pf_osfp_ioctl *); 2493 int pf_osfp_match(struct pf_osfp_enlist *, pf_osfp_t); 2494 2495 #ifdef _KERNEL 2496 void pf_print_host(struct pf_addr *, u_int16_t, sa_family_t); 2497 2498 void pf_step_into_anchor(struct pf_kanchor_stackframe *, int *, 2499 struct pf_kruleset **, int, struct pf_krule **, 2500 struct pf_krule **, int *); 2501 int pf_step_out_of_anchor(struct pf_kanchor_stackframe *, int *, 2502 struct pf_kruleset **, int, struct pf_krule **, 2503 struct pf_krule **, int *); 2504 void pf_step_into_keth_anchor(struct pf_keth_anchor_stackframe *, 2505 int *, struct pf_keth_ruleset **, 2506 struct pf_keth_rule **, struct pf_keth_rule **, 2507 int *); 2508 int pf_step_out_of_keth_anchor(struct pf_keth_anchor_stackframe *, 2509 int *, struct pf_keth_ruleset **, 2510 struct pf_keth_rule **, struct pf_keth_rule **, 2511 int *); 2512 2513 u_short pf_map_addr(u_int8_t, struct pf_krule *, 2514 struct pf_addr *, struct pf_addr *, 2515 struct pfi_kkif **nkif, struct pf_addr *, 2516 struct pf_ksrc_node **); 2517 struct pf_krule *pf_get_translation(struct pf_pdesc *, struct mbuf *, 2518 int, struct pfi_kkif *, struct pf_ksrc_node **, 2519 struct pf_state_key **, struct pf_state_key **, 2520 struct pf_addr *, struct pf_addr *, 2521 uint16_t, uint16_t, struct pf_kanchor_stackframe *); 2522 2523 struct pf_state_key *pf_state_key_setup(struct pf_pdesc *, struct pf_addr *, 2524 struct pf_addr *, u_int16_t, u_int16_t); 2525 struct pf_state_key *pf_state_key_clone(struct pf_state_key *); 2526 void pf_rule_to_actions(struct pf_krule *, 2527 struct pf_rule_actions *); 2528 int pf_normalize_mss(struct mbuf *m, int off, 2529 struct pf_pdesc *pd); 2530 #ifdef INET 2531 void pf_scrub_ip(struct mbuf **, struct pf_pdesc *); 2532 #endif /* INET */ 2533 #ifdef INET6 2534 void pf_scrub_ip6(struct mbuf **, struct pf_pdesc *); 2535 #endif /* INET6 */ 2536 2537 struct pfi_kkif *pf_kkif_create(int); 2538 void pf_kkif_free(struct pfi_kkif *); 2539 void pf_kkif_zero(struct pfi_kkif *); 2540 #endif /* _KERNEL */ 2541 2542 #endif /* _NET_PFVAR_H_ */ 2543