xref: /freebsd/sys/netpfil/pf/pf_lb.c (revision d8a0fe102c0cfdfcd5b818f850eff09d8536c9bc)
1 /*-
2  * SPDX-License-Identifier: BSD-2-Clause
3  *
4  * Copyright (c) 2001 Daniel Hartmeier
5  * Copyright (c) 2002 - 2008 Henning Brauer
6  * All rights reserved.
7  *
8  * Redistribution and use in source and binary forms, with or without
9  * modification, are permitted provided that the following conditions
10  * are met:
11  *
12  *    - Redistributions of source code must retain the above copyright
13  *      notice, this list of conditions and the following disclaimer.
14  *    - Redistributions in binary form must reproduce the above
15  *      copyright notice, this list of conditions and the following
16  *      disclaimer in the documentation and/or other materials provided
17  *      with the distribution.
18  *
19  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
20  * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
21  * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
22  * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
23  * COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
24  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
25  * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
26  * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
27  * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
28  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
29  * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
30  * POSSIBILITY OF SUCH DAMAGE.
31  *
32  * Effort sponsored in part by the Defense Advanced Research Projects
33  * Agency (DARPA) and Air Force Research Laboratory, Air Force
34  * Materiel Command, USAF, under agreement number F30602-01-2-0537.
35  *
36  *	$OpenBSD: pf_lb.c,v 1.2 2009/02/12 02:13:15 sthen Exp $
37  */
38 
39 #include <sys/cdefs.h>
40 __FBSDID("$FreeBSD$");
41 
42 #include "opt_pf.h"
43 #include "opt_inet.h"
44 #include "opt_inet6.h"
45 
46 #include <sys/param.h>
47 #include <sys/lock.h>
48 #include <sys/mbuf.h>
49 #include <sys/rwlock.h>
50 #include <sys/socket.h>
51 #include <sys/sysctl.h>
52 
53 #include <net/if.h>
54 #include <net/vnet.h>
55 #include <net/pfvar.h>
56 #include <net/if_pflog.h>
57 
58 #define DPFPRINTF(n, x)	if (V_pf_status.debug >= (n)) printf x
59 
60 static void		 pf_hash(struct pf_addr *, struct pf_addr *,
61 			    struct pf_poolhashkey *, sa_family_t);
62 static struct pf_rule	*pf_match_translation(struct pf_pdesc *, struct mbuf *,
63 			    int, int, struct pfi_kif *,
64 			    struct pf_addr *, u_int16_t, struct pf_addr *,
65 			    uint16_t, int, struct pf_anchor_stackframe *);
66 static int pf_get_sport(sa_family_t, uint8_t, struct pf_rule *,
67     struct pf_addr *, uint16_t, struct pf_addr *, uint16_t, struct pf_addr *,
68     uint16_t *, uint16_t, uint16_t, struct pf_src_node **);
69 
70 #define mix(a,b,c) \
71 	do {					\
72 		a -= b; a -= c; a ^= (c >> 13);	\
73 		b -= c; b -= a; b ^= (a << 8);	\
74 		c -= a; c -= b; c ^= (b >> 13);	\
75 		a -= b; a -= c; a ^= (c >> 12);	\
76 		b -= c; b -= a; b ^= (a << 16);	\
77 		c -= a; c -= b; c ^= (b >> 5);	\
78 		a -= b; a -= c; a ^= (c >> 3);	\
79 		b -= c; b -= a; b ^= (a << 10);	\
80 		c -= a; c -= b; c ^= (b >> 15);	\
81 	} while (0)
82 
83 /*
84  * hash function based on bridge_hash in if_bridge.c
85  */
86 static void
87 pf_hash(struct pf_addr *inaddr, struct pf_addr *hash,
88     struct pf_poolhashkey *key, sa_family_t af)
89 {
90 	u_int32_t	a = 0x9e3779b9, b = 0x9e3779b9, c = key->key32[0];
91 
92 	switch (af) {
93 #ifdef INET
94 	case AF_INET:
95 		a += inaddr->addr32[0];
96 		b += key->key32[1];
97 		mix(a, b, c);
98 		hash->addr32[0] = c + key->key32[2];
99 		break;
100 #endif /* INET */
101 #ifdef INET6
102 	case AF_INET6:
103 		a += inaddr->addr32[0];
104 		b += inaddr->addr32[2];
105 		mix(a, b, c);
106 		hash->addr32[0] = c;
107 		a += inaddr->addr32[1];
108 		b += inaddr->addr32[3];
109 		c += key->key32[1];
110 		mix(a, b, c);
111 		hash->addr32[1] = c;
112 		a += inaddr->addr32[2];
113 		b += inaddr->addr32[1];
114 		c += key->key32[2];
115 		mix(a, b, c);
116 		hash->addr32[2] = c;
117 		a += inaddr->addr32[3];
118 		b += inaddr->addr32[0];
119 		c += key->key32[3];
120 		mix(a, b, c);
121 		hash->addr32[3] = c;
122 		break;
123 #endif /* INET6 */
124 	}
125 }
126 
127 static struct pf_rule *
128 pf_match_translation(struct pf_pdesc *pd, struct mbuf *m, int off,
129     int direction, struct pfi_kif *kif, struct pf_addr *saddr, u_int16_t sport,
130     struct pf_addr *daddr, uint16_t dport, int rs_num,
131     struct pf_anchor_stackframe *anchor_stack)
132 {
133 	struct pf_rule		*r, *rm = NULL;
134 	struct pf_ruleset	*ruleset = NULL;
135 	int			 tag = -1;
136 	int			 rtableid = -1;
137 	int			 asd = 0;
138 
139 	r = TAILQ_FIRST(pf_main_ruleset.rules[rs_num].active.ptr);
140 	while (r && rm == NULL) {
141 		struct pf_rule_addr	*src = NULL, *dst = NULL;
142 		struct pf_addr_wrap	*xdst = NULL;
143 
144 		if (r->action == PF_BINAT && direction == PF_IN) {
145 			src = &r->dst;
146 			if (r->rpool.cur != NULL)
147 				xdst = &r->rpool.cur->addr;
148 		} else {
149 			src = &r->src;
150 			dst = &r->dst;
151 		}
152 
153 		r->evaluations++;
154 		if (pfi_kif_match(r->kif, kif) == r->ifnot)
155 			r = r->skip[PF_SKIP_IFP].ptr;
156 		else if (r->direction && r->direction != direction)
157 			r = r->skip[PF_SKIP_DIR].ptr;
158 		else if (r->af && r->af != pd->af)
159 			r = r->skip[PF_SKIP_AF].ptr;
160 		else if (r->proto && r->proto != pd->proto)
161 			r = r->skip[PF_SKIP_PROTO].ptr;
162 		else if (PF_MISMATCHAW(&src->addr, saddr, pd->af,
163 		    src->neg, kif, M_GETFIB(m)))
164 			r = r->skip[src == &r->src ? PF_SKIP_SRC_ADDR :
165 			    PF_SKIP_DST_ADDR].ptr;
166 		else if (src->port_op && !pf_match_port(src->port_op,
167 		    src->port[0], src->port[1], sport))
168 			r = r->skip[src == &r->src ? PF_SKIP_SRC_PORT :
169 			    PF_SKIP_DST_PORT].ptr;
170 		else if (dst != NULL &&
171 		    PF_MISMATCHAW(&dst->addr, daddr, pd->af, dst->neg, NULL,
172 		    M_GETFIB(m)))
173 			r = r->skip[PF_SKIP_DST_ADDR].ptr;
174 		else if (xdst != NULL && PF_MISMATCHAW(xdst, daddr, pd->af,
175 		    0, NULL, M_GETFIB(m)))
176 			r = TAILQ_NEXT(r, entries);
177 		else if (dst != NULL && dst->port_op &&
178 		    !pf_match_port(dst->port_op, dst->port[0],
179 		    dst->port[1], dport))
180 			r = r->skip[PF_SKIP_DST_PORT].ptr;
181 		else if (r->match_tag && !pf_match_tag(m, r, &tag,
182 		    pd->pf_mtag ? pd->pf_mtag->tag : 0))
183 			r = TAILQ_NEXT(r, entries);
184 		else if (r->os_fingerprint != PF_OSFP_ANY && (pd->proto !=
185 		    IPPROTO_TCP || !pf_osfp_match(pf_osfp_fingerprint(pd, m,
186 		    off, pd->hdr.tcp), r->os_fingerprint)))
187 			r = TAILQ_NEXT(r, entries);
188 		else {
189 			if (r->tag)
190 				tag = r->tag;
191 			if (r->rtableid >= 0)
192 				rtableid = r->rtableid;
193 			if (r->anchor == NULL) {
194 				rm = r;
195 			} else
196 				pf_step_into_anchor(anchor_stack, &asd,
197 				    &ruleset, rs_num, &r, NULL, NULL);
198 		}
199 		if (r == NULL)
200 			pf_step_out_of_anchor(anchor_stack, &asd, &ruleset,
201 			    rs_num, &r, NULL, NULL);
202 	}
203 
204 	if (tag > 0 && pf_tag_packet(m, pd, tag))
205 		return (NULL);
206 	if (rtableid >= 0)
207 		M_SETFIB(m, rtableid);
208 
209 	if (rm != NULL && (rm->action == PF_NONAT ||
210 	    rm->action == PF_NORDR || rm->action == PF_NOBINAT))
211 		return (NULL);
212 	return (rm);
213 }
214 
215 static int
216 pf_get_sport(sa_family_t af, u_int8_t proto, struct pf_rule *r,
217     struct pf_addr *saddr, uint16_t sport, struct pf_addr *daddr,
218     uint16_t dport, struct pf_addr *naddr, uint16_t *nport, uint16_t low,
219     uint16_t high, struct pf_src_node **sn)
220 {
221 	struct pf_state_key_cmp	key;
222 	struct pf_addr		init_addr;
223 
224 	bzero(&init_addr, sizeof(init_addr));
225 	if (pf_map_addr(af, r, saddr, naddr, &init_addr, sn))
226 		return (1);
227 
228 	if (proto == IPPROTO_ICMP) {
229 		low = 1;
230 		high = 65535;
231 	}
232 
233 	bzero(&key, sizeof(key));
234 	key.af = af;
235 	key.proto = proto;
236 	key.port[0] = dport;
237 	PF_ACPY(&key.addr[0], daddr, key.af);
238 
239 	do {
240 		PF_ACPY(&key.addr[1], naddr, key.af);
241 
242 		/*
243 		 * port search; start random, step;
244 		 * similar 2 portloop in in_pcbbind
245 		 */
246 		if (!(proto == IPPROTO_TCP || proto == IPPROTO_UDP ||
247 		    proto == IPPROTO_ICMP) || (low == 0 && high == 0)) {
248 			/*
249 			 * XXX bug: icmp states don't use the id on both sides.
250 			 * (traceroute -I through nat)
251 			 */
252 			key.port[1] = sport;
253 			if (pf_find_state_all(&key, PF_IN, NULL) == NULL) {
254 				*nport = sport;
255 				return (0);
256 			}
257 		} else if (low == high) {
258 			key.port[1] = htons(low);
259 			if (pf_find_state_all(&key, PF_IN, NULL) == NULL) {
260 				*nport = htons(low);
261 				return (0);
262 			}
263 		} else {
264 			uint32_t tmp;
265 			uint16_t cut;
266 
267 			if (low > high) {
268 				tmp = low;
269 				low = high;
270 				high = tmp;
271 			}
272 			/* low < high */
273 			cut = arc4random() % (1 + high - low) + low;
274 			/* low <= cut <= high */
275 			for (tmp = cut; tmp <= high && tmp <= 0xffff; ++tmp) {
276 				key.port[1] = htons(tmp);
277 				if (pf_find_state_all(&key, PF_IN, NULL) ==
278 				    NULL) {
279 					*nport = htons(tmp);
280 					return (0);
281 				}
282 			}
283 			tmp = cut;
284 			for (tmp -= 1; tmp >= low && tmp <= 0xffff; --tmp) {
285 				key.port[1] = htons(tmp);
286 				if (pf_find_state_all(&key, PF_IN, NULL) ==
287 				    NULL) {
288 					*nport = htons(tmp);
289 					return (0);
290 				}
291 			}
292 		}
293 
294 		switch (r->rpool.opts & PF_POOL_TYPEMASK) {
295 		case PF_POOL_RANDOM:
296 		case PF_POOL_ROUNDROBIN:
297 			if (pf_map_addr(af, r, saddr, naddr, &init_addr, sn))
298 				return (1);
299 			break;
300 		case PF_POOL_NONE:
301 		case PF_POOL_SRCHASH:
302 		case PF_POOL_BITMASK:
303 		default:
304 			return (1);
305 		}
306 	} while (! PF_AEQ(&init_addr, naddr, af) );
307 	return (1);					/* none available */
308 }
309 
310 int
311 pf_map_addr(sa_family_t af, struct pf_rule *r, struct pf_addr *saddr,
312     struct pf_addr *naddr, struct pf_addr *init_addr, struct pf_src_node **sn)
313 {
314 	struct pf_pool		*rpool = &r->rpool;
315 	struct pf_addr		*raddr = NULL, *rmask = NULL;
316 
317 	/* Try to find a src_node if none was given and this
318 	   is a sticky-address rule. */
319 	if (*sn == NULL && r->rpool.opts & PF_POOL_STICKYADDR &&
320 	    (r->rpool.opts & PF_POOL_TYPEMASK) != PF_POOL_NONE)
321 		*sn = pf_find_src_node(saddr, r, af, 0);
322 
323 	/* If a src_node was found or explicitly given and it has a non-zero
324 	   route address, use this address. A zeroed address is found if the
325 	   src node was created just a moment ago in pf_create_state and it
326 	   needs to be filled in with routing decision calculated here. */
327 	if (*sn != NULL && !PF_AZERO(&(*sn)->raddr, af)) {
328 		PF_ACPY(naddr, &(*sn)->raddr, af);
329 		if (V_pf_status.debug >= PF_DEBUG_MISC) {
330 			printf("pf_map_addr: src tracking maps ");
331 			pf_print_host(saddr, 0, af);
332 			printf(" to ");
333 			pf_print_host(naddr, 0, af);
334 			printf("\n");
335 		}
336 		return (0);
337 	}
338 
339 	/* Find the route using chosen algorithm. Store the found route
340 	   in src_node if it was given or found. */
341 	if (rpool->cur->addr.type == PF_ADDR_NOROUTE)
342 		return (1);
343 	if (rpool->cur->addr.type == PF_ADDR_DYNIFTL) {
344 		switch (af) {
345 #ifdef INET
346 		case AF_INET:
347 			if (rpool->cur->addr.p.dyn->pfid_acnt4 < 1 &&
348 			    (rpool->opts & PF_POOL_TYPEMASK) !=
349 			    PF_POOL_ROUNDROBIN)
350 				return (1);
351 			 raddr = &rpool->cur->addr.p.dyn->pfid_addr4;
352 			 rmask = &rpool->cur->addr.p.dyn->pfid_mask4;
353 			break;
354 #endif /* INET */
355 #ifdef INET6
356 		case AF_INET6:
357 			if (rpool->cur->addr.p.dyn->pfid_acnt6 < 1 &&
358 			    (rpool->opts & PF_POOL_TYPEMASK) !=
359 			    PF_POOL_ROUNDROBIN)
360 				return (1);
361 			raddr = &rpool->cur->addr.p.dyn->pfid_addr6;
362 			rmask = &rpool->cur->addr.p.dyn->pfid_mask6;
363 			break;
364 #endif /* INET6 */
365 		}
366 	} else if (rpool->cur->addr.type == PF_ADDR_TABLE) {
367 		if ((rpool->opts & PF_POOL_TYPEMASK) != PF_POOL_ROUNDROBIN)
368 			return (1); /* unsupported */
369 	} else {
370 		raddr = &rpool->cur->addr.v.a.addr;
371 		rmask = &rpool->cur->addr.v.a.mask;
372 	}
373 
374 	switch (rpool->opts & PF_POOL_TYPEMASK) {
375 	case PF_POOL_NONE:
376 		PF_ACPY(naddr, raddr, af);
377 		break;
378 	case PF_POOL_BITMASK:
379 		PF_POOLMASK(naddr, raddr, rmask, saddr, af);
380 		break;
381 	case PF_POOL_RANDOM:
382 		if (init_addr != NULL && PF_AZERO(init_addr, af)) {
383 			switch (af) {
384 #ifdef INET
385 			case AF_INET:
386 				rpool->counter.addr32[0] = htonl(arc4random());
387 				break;
388 #endif /* INET */
389 #ifdef INET6
390 			case AF_INET6:
391 				if (rmask->addr32[3] != 0xffffffff)
392 					rpool->counter.addr32[3] =
393 					    htonl(arc4random());
394 				else
395 					break;
396 				if (rmask->addr32[2] != 0xffffffff)
397 					rpool->counter.addr32[2] =
398 					    htonl(arc4random());
399 				else
400 					break;
401 				if (rmask->addr32[1] != 0xffffffff)
402 					rpool->counter.addr32[1] =
403 					    htonl(arc4random());
404 				else
405 					break;
406 				if (rmask->addr32[0] != 0xffffffff)
407 					rpool->counter.addr32[0] =
408 					    htonl(arc4random());
409 				break;
410 #endif /* INET6 */
411 			}
412 			PF_POOLMASK(naddr, raddr, rmask, &rpool->counter, af);
413 			PF_ACPY(init_addr, naddr, af);
414 
415 		} else {
416 			PF_AINC(&rpool->counter, af);
417 			PF_POOLMASK(naddr, raddr, rmask, &rpool->counter, af);
418 		}
419 		break;
420 	case PF_POOL_SRCHASH:
421 	    {
422 		unsigned char hash[16];
423 
424 		pf_hash(saddr, (struct pf_addr *)&hash, &rpool->key, af);
425 		PF_POOLMASK(naddr, raddr, rmask, (struct pf_addr *)&hash, af);
426 		break;
427 	    }
428 	case PF_POOL_ROUNDROBIN:
429 	    {
430 		struct pf_pooladdr *acur = rpool->cur;
431 
432 		/*
433 		 * XXXGL: in the round-robin case we need to store
434 		 * the round-robin machine state in the rule, thus
435 		 * forwarding thread needs to modify rule.
436 		 *
437 		 * This is done w/o locking, because performance is assumed
438 		 * more important than round-robin precision.
439 		 *
440 		 * In the simpliest case we just update the "rpool->cur"
441 		 * pointer. However, if pool contains tables or dynamic
442 		 * addresses, then "tblidx" is also used to store machine
443 		 * state. Since "tblidx" is int, concurrent access to it can't
444 		 * lead to inconsistence, only to lost of precision.
445 		 *
446 		 * Things get worse, if table contains not hosts, but
447 		 * prefixes. In this case counter also stores machine state,
448 		 * and for IPv6 address, counter can't be updated atomically.
449 		 * Probably, using round-robin on a table containing IPv6
450 		 * prefixes (or even IPv4) would cause a panic.
451 		 */
452 
453 		if (rpool->cur->addr.type == PF_ADDR_TABLE) {
454 			if (!pfr_pool_get(rpool->cur->addr.p.tbl,
455 			    &rpool->tblidx, &rpool->counter, af))
456 				goto get_addr;
457 		} else if (rpool->cur->addr.type == PF_ADDR_DYNIFTL) {
458 			if (!pfr_pool_get(rpool->cur->addr.p.dyn->pfid_kt,
459 			    &rpool->tblidx, &rpool->counter, af))
460 				goto get_addr;
461 		} else if (pf_match_addr(0, raddr, rmask, &rpool->counter, af))
462 			goto get_addr;
463 
464 	try_next:
465 		if (TAILQ_NEXT(rpool->cur, entries) == NULL)
466 			rpool->cur = TAILQ_FIRST(&rpool->list);
467 		else
468 			rpool->cur = TAILQ_NEXT(rpool->cur, entries);
469 		if (rpool->cur->addr.type == PF_ADDR_TABLE) {
470 			rpool->tblidx = -1;
471 			if (pfr_pool_get(rpool->cur->addr.p.tbl,
472 			    &rpool->tblidx, &rpool->counter, af)) {
473 				/* table contains no address of type 'af' */
474 				if (rpool->cur != acur)
475 					goto try_next;
476 				return (1);
477 			}
478 		} else if (rpool->cur->addr.type == PF_ADDR_DYNIFTL) {
479 			rpool->tblidx = -1;
480 			if (pfr_pool_get(rpool->cur->addr.p.dyn->pfid_kt,
481 			    &rpool->tblidx, &rpool->counter, af)) {
482 				/* table contains no address of type 'af' */
483 				if (rpool->cur != acur)
484 					goto try_next;
485 				return (1);
486 			}
487 		} else {
488 			raddr = &rpool->cur->addr.v.a.addr;
489 			rmask = &rpool->cur->addr.v.a.mask;
490 			PF_ACPY(&rpool->counter, raddr, af);
491 		}
492 
493 	get_addr:
494 		PF_ACPY(naddr, &rpool->counter, af);
495 		if (init_addr != NULL && PF_AZERO(init_addr, af))
496 			PF_ACPY(init_addr, naddr, af);
497 		PF_AINC(&rpool->counter, af);
498 		break;
499 	    }
500 	}
501 	if (*sn != NULL)
502 		PF_ACPY(&(*sn)->raddr, naddr, af);
503 
504 	if (V_pf_status.debug >= PF_DEBUG_MISC &&
505 	    (rpool->opts & PF_POOL_TYPEMASK) != PF_POOL_NONE) {
506 		printf("pf_map_addr: selected address ");
507 		pf_print_host(naddr, 0, af);
508 		printf("\n");
509 	}
510 
511 	return (0);
512 }
513 
514 struct pf_rule *
515 pf_get_translation(struct pf_pdesc *pd, struct mbuf *m, int off, int direction,
516     struct pfi_kif *kif, struct pf_src_node **sn,
517     struct pf_state_key **skp, struct pf_state_key **nkp,
518     struct pf_addr *saddr, struct pf_addr *daddr,
519     uint16_t sport, uint16_t dport, struct pf_anchor_stackframe *anchor_stack)
520 {
521 	struct pf_rule	*r = NULL;
522 	struct pf_addr	*naddr;
523 	uint16_t	*nport;
524 
525 	PF_RULES_RASSERT();
526 	KASSERT(*skp == NULL, ("*skp not NULL"));
527 	KASSERT(*nkp == NULL, ("*nkp not NULL"));
528 
529 	if (direction == PF_OUT) {
530 		r = pf_match_translation(pd, m, off, direction, kif, saddr,
531 		    sport, daddr, dport, PF_RULESET_BINAT, anchor_stack);
532 		if (r == NULL)
533 			r = pf_match_translation(pd, m, off, direction, kif,
534 			    saddr, sport, daddr, dport, PF_RULESET_NAT,
535 			    anchor_stack);
536 	} else {
537 		r = pf_match_translation(pd, m, off, direction, kif, saddr,
538 		    sport, daddr, dport, PF_RULESET_RDR, anchor_stack);
539 		if (r == NULL)
540 			r = pf_match_translation(pd, m, off, direction, kif,
541 			    saddr, sport, daddr, dport, PF_RULESET_BINAT,
542 			    anchor_stack);
543 	}
544 
545 	if (r == NULL)
546 		return (NULL);
547 
548 	switch (r->action) {
549 	case PF_NONAT:
550 	case PF_NOBINAT:
551 	case PF_NORDR:
552 		return (NULL);
553 	}
554 
555 	*skp = pf_state_key_setup(pd, saddr, daddr, sport, dport);
556 	if (*skp == NULL)
557 		return (NULL);
558 	*nkp = pf_state_key_clone(*skp);
559 	if (*nkp == NULL) {
560 		uma_zfree(V_pf_state_key_z, *skp);
561 		*skp = NULL;
562 		return (NULL);
563 	}
564 
565 	/* XXX We only modify one side for now. */
566 	naddr = &(*nkp)->addr[1];
567 	nport = &(*nkp)->port[1];
568 
569 	switch (r->action) {
570 	case PF_NAT:
571 		if (pf_get_sport(pd->af, pd->proto, r, saddr, sport, daddr,
572 		    dport, naddr, nport, r->rpool.proxy_port[0],
573 		    r->rpool.proxy_port[1], sn)) {
574 			DPFPRINTF(PF_DEBUG_MISC,
575 			    ("pf: NAT proxy port allocation (%u-%u) failed\n",
576 			    r->rpool.proxy_port[0], r->rpool.proxy_port[1]));
577 			goto notrans;
578 		}
579 		break;
580 	case PF_BINAT:
581 		switch (direction) {
582 		case PF_OUT:
583 			if (r->rpool.cur->addr.type == PF_ADDR_DYNIFTL){
584 				switch (pd->af) {
585 #ifdef INET
586 				case AF_INET:
587 					if (r->rpool.cur->addr.p.dyn->
588 					    pfid_acnt4 < 1)
589 						goto notrans;
590 					PF_POOLMASK(naddr,
591 					    &r->rpool.cur->addr.p.dyn->
592 					    pfid_addr4,
593 					    &r->rpool.cur->addr.p.dyn->
594 					    pfid_mask4, saddr, AF_INET);
595 					break;
596 #endif /* INET */
597 #ifdef INET6
598 				case AF_INET6:
599 					if (r->rpool.cur->addr.p.dyn->
600 					    pfid_acnt6 < 1)
601 						goto notrans;
602 					PF_POOLMASK(naddr,
603 					    &r->rpool.cur->addr.p.dyn->
604 					    pfid_addr6,
605 					    &r->rpool.cur->addr.p.dyn->
606 					    pfid_mask6, saddr, AF_INET6);
607 					break;
608 #endif /* INET6 */
609 				}
610 			} else
611 				PF_POOLMASK(naddr,
612 				    &r->rpool.cur->addr.v.a.addr,
613 				    &r->rpool.cur->addr.v.a.mask, saddr,
614 				    pd->af);
615 			break;
616 		case PF_IN:
617 			if (r->src.addr.type == PF_ADDR_DYNIFTL) {
618 				switch (pd->af) {
619 #ifdef INET
620 				case AF_INET:
621 					if (r->src.addr.p.dyn-> pfid_acnt4 < 1)
622 						goto notrans;
623 					PF_POOLMASK(naddr,
624 					    &r->src.addr.p.dyn->pfid_addr4,
625 					    &r->src.addr.p.dyn->pfid_mask4,
626 					    daddr, AF_INET);
627 					break;
628 #endif /* INET */
629 #ifdef INET6
630 				case AF_INET6:
631 					if (r->src.addr.p.dyn->pfid_acnt6 < 1)
632 						goto notrans;
633 					PF_POOLMASK(naddr,
634 					    &r->src.addr.p.dyn->pfid_addr6,
635 					    &r->src.addr.p.dyn->pfid_mask6,
636 					    daddr, AF_INET6);
637 					break;
638 #endif /* INET6 */
639 				}
640 			} else
641 				PF_POOLMASK(naddr, &r->src.addr.v.a.addr,
642 				    &r->src.addr.v.a.mask, daddr, pd->af);
643 			break;
644 		}
645 		break;
646 	case PF_RDR: {
647 		if (pf_map_addr(pd->af, r, saddr, naddr, NULL, sn))
648 			goto notrans;
649 		if ((r->rpool.opts & PF_POOL_TYPEMASK) == PF_POOL_BITMASK)
650 			PF_POOLMASK(naddr, naddr, &r->rpool.cur->addr.v.a.mask,
651 			    daddr, pd->af);
652 
653 		if (r->rpool.proxy_port[1]) {
654 			uint32_t	tmp_nport;
655 
656 			tmp_nport = ((ntohs(dport) - ntohs(r->dst.port[0])) %
657 			    (r->rpool.proxy_port[1] - r->rpool.proxy_port[0] +
658 			    1)) + r->rpool.proxy_port[0];
659 
660 			/* Wrap around if necessary. */
661 			if (tmp_nport > 65535)
662 				tmp_nport -= 65535;
663 			*nport = htons((uint16_t)tmp_nport);
664 		} else if (r->rpool.proxy_port[0])
665 			*nport = htons(r->rpool.proxy_port[0]);
666 		break;
667 	}
668 	default:
669 		panic("%s: unknown action %u", __func__, r->action);
670 	}
671 
672 	/* Return success only if translation really happened. */
673 	if (bcmp(*skp, *nkp, sizeof(struct pf_state_key_cmp)))
674 		return (r);
675 
676 notrans:
677 	uma_zfree(V_pf_state_key_z, *nkp);
678 	uma_zfree(V_pf_state_key_z, *skp);
679 	*skp = *nkp = NULL;
680 	*sn = NULL;
681 
682 	return (NULL);
683 }
684