xref: /illumos-gate/usr/src/uts/common/inet/ipf/netinet/ip_nat.h (revision 1eea4119ffbe77304e95eb3044905255ff920d33)
1 /*
2  * Copyright (C) 1995-2001, 2003 by Darren Reed.
3  *
4  * See the IPFILTER.LICENCE file for details on licencing.
5  *
6  * @(#)ip_nat.h	1.5 2/4/96
7  * $Id: ip_nat.h,v 2.90.2.11 2005/06/18 02:41:32 darrenr Exp $
8  *
9  * Copyright 2009 Sun Microsystems, Inc.  All rights reserved.
10  * Use is subject to license terms.
11  */
12 
13 #ifndef	__IP_NAT_H__
14 #define	__IP_NAT_H__
15 
16 #ifndef SOLARIS
17 #define	SOLARIS	(defined(sun) && (defined(__svr4__) || defined(__SVR4)))
18 #endif
19 
20 #if defined(__STDC__) || defined(__GNUC__) || defined(_AIX51)
21 #define	SIOCADNAT	_IOW('r', 60, struct ipfobj)
22 #define	SIOCRMNAT	_IOW('r', 61, struct ipfobj)
23 #define	SIOCGNATS	_IOWR('r', 62, struct ipfobj)
24 #define	SIOCGNATL	_IOWR('r', 63, struct ipfobj)
25 #else
26 #define	SIOCADNAT	_IOW(r, 60, struct ipfobj)
27 #define	SIOCRMNAT	_IOW(r, 61, struct ipfobj)
28 #define	SIOCGNATS	_IOWR(r, 62, struct ipfobj)
29 #define	SIOCGNATL	_IOWR(r, 63, struct ipfobj)
30 #endif
31 
32 #undef	LARGE_NAT	/* define this if you're setting up a system to NAT
33 			 * LARGE numbers of networks/hosts - i.e. in the
34 			 * hundreds or thousands.  In such a case, you should
35 			 * also change the RDR_SIZE and NAT_SIZE below to more
36 			 * appropriate sizes.  The figures below were used for
37 			 * a setup with 1000-2000 networks to NAT.
38 			 */
39 #ifndef NAT_SIZE
40 # ifdef LARGE_NAT
41 #  define	NAT_SIZE	2047
42 # else
43 #  define	NAT_SIZE	127
44 # endif
45 #endif
46 #ifndef RDR_SIZE
47 # ifdef LARGE_NAT
48 #  define	RDR_SIZE	2047
49 # else
50 #  define	RDR_SIZE	127
51 # endif
52 #endif
53 #ifndef HOSTMAP_SIZE
54 # ifdef LARGE_NAT
55 #  define	HOSTMAP_SIZE	8191
56 # else
57 #  define	HOSTMAP_SIZE	2047
58 # endif
59 #endif
60 #ifndef NAT_TABLE_MAX
61 /*
62  * This is newly introduced and for the sake of "least surprise", the numbers
63  * present aren't what we'd normally use for creating a proper hash table.
64  */
65 # ifdef	LARGE_NAT
66 #  define	NAT_TABLE_MAX	180000
67 # else
68 #  define	NAT_TABLE_MAX	30000
69 # endif
70 #endif
71 #ifndef NAT_TABLE_SZ
72 # ifdef LARGE_NAT
73 #  define	NAT_TABLE_SZ	16383
74 # else
75 #  define	NAT_TABLE_SZ	2047
76 # endif
77 #endif
78 #ifndef	APR_LABELLEN
79 #define	APR_LABELLEN	16
80 #endif
81 
82 #define	DEF_NAT_AGE	1200     /* 10 minutes (600 seconds) */
83 
84 struct ipstate;
85 struct ap_session;
86 
87 typedef	struct	nat	{
88 	ipfmutex_t	nat_lock;
89 	struct	nat	*nat_next;
90 	struct	nat	**nat_pnext;
91 	struct	nat	*nat_hnext[2];
92 	struct	nat	**nat_phnext[2];
93 	struct	hostmap	*nat_hm;
94 	void		*nat_data;
95 	struct	nat	**nat_me;
96 	struct	ipstate	*nat_state;
97 	struct	ap_session	*nat_aps;		/* proxy session */
98 	frentry_t	*nat_fr;	/* filter rule ptr if appropriate */
99 	struct	ipnat	*nat_ptr;	/* pointer back to the rule */
100 	void		*nat_ifps[2];
101 	void		*nat_sync;
102 	ipftqent_t	nat_tqe;
103 	u_32_t		nat_flags;
104 	u_32_t		nat_sumd[2];	/* ip checksum delta for data segment */
105 	u_32_t		nat_ipsumd;	/* ip checksum delta for ip header */
106 	u_32_t		nat_mssclamp;	/* if != zero clamp MSS to this */
107 	i6addr_t	nat_inip6;
108 	i6addr_t	nat_outip6;
109 	i6addr_t	nat_oip6;		/* other ip */
110 	U_QUAD_T	nat_pkts[2];
111 	U_QUAD_T	nat_bytes[2];
112 	union	{
113 		udpinfo_t	nat_unu;
114 		tcpinfo_t	nat_unt;
115 		icmpinfo_t	nat_uni;
116 		greinfo_t	nat_ugre;
117 	} nat_un;
118 	u_short		nat_oport;		/* other port */
119 	u_short		nat_use;
120 	u_char		nat_p;			/* protocol for NAT */
121 	int		nat_dir;
122 	int		nat_ref;		/* reference count */
123 	int		nat_hv[2];
124 	char		nat_ifnames[2][LIFNAMSIZ];
125 	int		nat_rev;		/* 0 = forward, 1 = reverse */
126 	int		nat_v;
127 	int		nat_redir;		/* copy of in_redir */
128 } nat_t;
129 
130 #define	nat_inip	nat_inip6.in4
131 #define	nat_outip	nat_outip6.in4
132 #define	nat_oip		nat_oip6.in4
133 #define	nat_age		nat_tqe.tqe_die
134 #define	nat_inport	nat_un.nat_unt.ts_sport
135 #define	nat_outport	nat_un.nat_unt.ts_dport
136 #define	nat_type	nat_un.nat_uni.ici_type
137 #define	nat_seq		nat_un.nat_uni.ici_seq
138 #define	nat_id		nat_un.nat_uni.ici_id
139 #define	nat_tcpstate	nat_tqe.tqe_state
140 
141 /*
142  * Values for nat_dir
143  */
144 #define	NAT_INBOUND	0
145 #define	NAT_OUTBOUND	1
146 
147 /*
148  * Definitions for nat_flags
149  */
150 #define	NAT_TCP		0x0001	/* IPN_TCP */
151 #define	NAT_UDP		0x0002	/* IPN_UDP */
152 #define	NAT_ICMPERR	0x0004	/* IPN_ICMPERR */
153 #define	NAT_ICMPQUERY	0x0008	/* IPN_ICMPQUERY */
154 #define	NAT_SEARCH	0x0010
155 #define	NAT_SLAVE	0x0020	/* Slave connection for a proxy */
156 #define	NAT_NOTRULEPORT	0x0040
157 
158 #define	NAT_TCPUDP	(NAT_TCP|NAT_UDP)
159 #define	NAT_TCPUDPICMP	(NAT_TCP|NAT_UDP|NAT_ICMPERR)
160 #define	NAT_TCPUDPICMPQ	(NAT_TCP|NAT_UDP|NAT_ICMPQUERY)
161 #define	NAT_FROMRULE	(NAT_TCP|NAT_UDP)
162 
163 /* 0x0100 reserved for FI_W_SPORT */
164 /* 0x0200 reserved for FI_W_DPORT */
165 /* 0x0400 reserved for FI_W_SADDR */
166 /* 0x0800 reserved for FI_W_DADDR */
167 /* 0x1000 reserved for FI_W_NEWFR */
168 /* 0x2000 reserved for SI_CLONE */
169 /* 0x4000 reserved for SI_CLONED */
170 /* 0x8000 reserved for SI_IGNOREPKT */
171 
172 #define	NAT_DEBUG	0x800000
173 
174 typedef	struct	ipnat	{
175 	struct	ipnat	*in_next;		/* NAT rule list next */
176 	struct	ipnat	*in_rnext;		/* rdr rule hash next */
177 	struct	ipnat	**in_prnext;		/* prior rdr next ptr */
178 	struct	ipnat	*in_mnext;		/* map rule hash next */
179 	struct	ipnat	**in_pmnext;		/* prior map next ptr */
180 	struct	ipftq	*in_tqehead[2];
181 	void		*in_ifps[2];
182 	void		*in_apr;
183 	char		*in_comment;
184 	i6addr_t	in_next6;
185 	u_long		in_space;
186 	u_long		in_hits;
187 	u_int		in_use;
188 	u_int		in_hv;
189 	int		in_flineno;		/* conf. file line number */
190 	u_short		in_pnext;
191 	u_char		in_v;
192 	u_char		in_xxx;
193 	/* From here to the end is covered by IPN_CMPSIZ */
194 	u_32_t		in_flags;
195 	u_32_t		in_mssclamp;		/* if != 0 clamp MSS to this */
196 	u_int		in_age[2];
197 	int		in_redir;		/* see below for values */
198 	int		in_p;			/* protocol. */
199 	i6addr_t	in_in[2];
200 	i6addr_t	in_out[2];
201 	i6addr_t	in_src[2];
202 	frtuc_t		in_tuc;
203 	u_short		in_port[2];
204 	u_short		in_ppip;		/* ports per IP. */
205 	u_short		in_ippip;		/* IP #'s per IP# */
206 	char		in_ifnames[2][LIFNAMSIZ];
207 	char		in_plabel[APR_LABELLEN];	/* proxy label. */
208 	ipftag_t	in_tag;
209 } ipnat_t;
210 
211 #define	in_pmin		in_port[0]	/* Also holds static redir port */
212 #define	in_pmax		in_port[1]
213 #define	in_nextip	in_next6.in4
214 #define	in_nip		in_next6.in4.s_addr
215 #define	in_inip		in_in[0].in4.s_addr
216 #define	in_inmsk	in_in[1].in4.s_addr
217 #define	in_outip	in_out[0].in4.s_addr
218 #define	in_outmsk	in_out[1].in4.s_addr
219 #define	in_srcip	in_src[0].in4.s_addr
220 #define	in_srcmsk	in_src[1].in4.s_addr
221 #define	in_scmp		in_tuc.ftu_scmp
222 #define	in_dcmp		in_tuc.ftu_dcmp
223 #define	in_stop		in_tuc.ftu_stop
224 #define	in_dtop		in_tuc.ftu_dtop
225 #define	in_sport	in_tuc.ftu_sport
226 #define	in_dport	in_tuc.ftu_dport
227 
228 /*
229  * Bit definitions for in_flags
230  */
231 #define	IPN_ANY		0x00000
232 #define	IPN_TCP		0x00001
233 #define	IPN_UDP		0x00002
234 #define	IPN_TCPUDP	(IPN_TCP|IPN_UDP)
235 #define	IPN_ICMPERR	0x00004
236 #define	IPN_TCPUDPICMP	(IPN_TCP|IPN_UDP|IPN_ICMPERR)
237 #define	IPN_ICMPQUERY	0x00008
238 #define	IPN_TCPUDPICMPQ	(IPN_TCP|IPN_UDP|IPN_ICMPQUERY)
239 #define	IPN_RF		(IPN_TCPUDP|IPN_DELETE|IPN_ICMPERR)
240 #define	IPN_AUTOPORTMAP	0x00010
241 #define	IPN_IPRANGE	0x00020
242 #define	IPN_FILTER	0x00040
243 #define	IPN_SPLIT	0x00080
244 #define	IPN_ROUNDR	0x00100
245 #define	IPN_NOTSRC	0x04000
246 #define	IPN_NOTDST	0x08000
247 #define	IPN_DYNSRCIP	0x10000	/* dynamic src IP# */
248 #define	IPN_DYNDSTIP	0x20000	/* dynamic dst IP# */
249 #define	IPN_DELETE	0x40000
250 #define	IPN_STICKY	0x80000
251 #define	IPN_FRAG	0x100000
252 #define	IPN_FIXEDDPORT	0x200000
253 #define	IPN_FINDFORWARD	0x400000
254 #define	IPN_IN		0x800000
255 #define	IPN_SEQUENTIAL	0x1000000
256 #define	IPN_USERFLAGS	(IPN_TCPUDP|IPN_AUTOPORTMAP|IPN_IPRANGE|IPN_SPLIT|\
257 			 IPN_ROUNDR|IPN_FILTER|IPN_NOTSRC|IPN_NOTDST|\
258 			 IPN_FRAG|IPN_STICKY|IPN_FIXEDDPORT|IPN_ICMPQUERY|\
259 			 IPN_SEQUENTIAL)
260 
261 /*
262  * Values for in_redir
263  */
264 #define	NAT_MAP		0x01
265 #define	NAT_REDIRECT	0x02
266 #define	NAT_BIMAP	(NAT_MAP|NAT_REDIRECT)
267 #define	NAT_MAPBLK	0x04
268 
269 #define	MAPBLK_MINPORT	1024	/* don't use reserved ports for src port */
270 #define	USABLE_PORTS	(65536 - MAPBLK_MINPORT)
271 
272 #define	IPN_CMPSIZ	(sizeof (ipnat_t) - offsetof(ipnat_t, in_flags))
273 
274 typedef	struct	natlookup {
275 	i6addr_t	nl_inipaddr;
276 	i6addr_t	nl_outipaddr;
277 	i6addr_t	nl_realipaddr;
278 	int		nl_v;
279 	int		nl_flags;
280 	u_short		nl_inport;
281 	u_short		nl_outport;
282 	u_short		nl_realport;
283 } natlookup_t;
284 
285 #define	nl_inip		nl_inipaddr.in4
286 #define	nl_outip	nl_outipaddr.in4
287 #define	nl_realip	nl_realipaddr.in4
288 #define	nl_inip6	nl_inipaddr.in6
289 #define	nl_outip6	nl_outipaddr.in6
290 #define	nl_realip6	nl_realipaddr.in6
291 
292 
293 typedef struct  nat_save    {
294 	void	*ipn_next;
295 	struct	nat	ipn_nat;
296 	struct	ipnat	ipn_ipnat;
297 	struct	frentry ipn_fr;
298 	int	ipn_dsize;
299 	char	ipn_data[4];
300 } nat_save_t;
301 
302 #define	ipn_rule	ipn_nat.nat_fr
303 
304 typedef	struct	natget	{
305 	void	*ng_ptr;
306 	int	ng_sz;
307 } natget_t;
308 
309 
310 #undef	tr_flags
311 typedef	struct	nattrpnt	{
312 	struct	in_addr	tr_dstip;	/* real destination IP# */
313 	struct	in_addr	tr_srcip;	/* real source IP# */
314 	struct	in_addr	tr_locip;	/* local source IP# */
315 	u_int	tr_flags;
316 	int	tr_expire;
317 	u_short	tr_dstport;	/* real destination port# */
318 	u_short	tr_srcport;	/* real source port# */
319 	u_short	tr_locport;	/* local source port# */
320 	struct	nattrpnt	*tr_hnext;
321 	struct	nattrpnt	**tr_phnext;
322 	struct	nattrpnt	*tr_next;
323 	struct	nattrpnt	**tr_pnext;	/* previous next */
324 } nattrpnt_t;
325 
326 #define	TN_CMPSIZ	offsetof(nattrpnt_t, tr_hnext)
327 
328 
329 /*
330  * This structure gets used to help NAT sessions keep the same NAT rule (and
331  * thus translation for IP address) when:
332  * (a) round-robin redirects are in use
333  * (b) different IP add
334  */
335 typedef	struct	hostmap	{
336 	struct	hostmap	*hm_next;
337 	struct	hostmap	**hm_pnext;
338 	struct	hostmap	*hm_hnext;
339 	struct	hostmap	**hm_phnext;
340 	struct	ipnat	*hm_ipnat;
341 	i6addr_t	hm_src;
342 	i6addr_t	hm_dst;
343 	i6addr_t	hm_map;
344 	u_32_t		hm_port;
345 	int		hm_ref;
346 	int		hm_v;
347 } hostmap_t;
348 
349 #define	hm_srcip	hm_src.in4
350 #define	hm_dstip	hm_dst.in4
351 #define	hm_mapip	hm_map.in4
352 #define	hm_srcip6	hm_src.in6
353 #define	hm_dstip6	hm_dst.in6
354 #define	hm_mapip6	hm_map.in6
355 
356 
357 /*
358  * Structure used to pass information in to nat_newmap and nat_newrdr.
359  */
360 typedef struct	natinfo	{
361 	ipnat_t		*nai_np;
362 	u_32_t		nai_nflags;
363 	u_32_t		nai_flags;
364 	struct	in_addr	nai_ip;
365 	u_short		nai_port;
366 	u_short		nai_nport;
367 	u_short		nai_sport;
368 	u_short		nai_dport;
369 } natinfo_t;
370 
371 
372 typedef	struct	natstat	{
373 	u_long	ns_mapped[2];
374 	u_long	ns_rules;
375 	u_long	ns_added;
376 	u_long	ns_expire;
377 	u_long	ns_inuse;
378 	u_long	ns_logged;
379 	u_long	ns_logfail;
380 	u_long	ns_memfail;
381 	u_long	ns_badnat;
382 	u_long	ns_addtrpnt;
383 	nat_t	**ns_table[2];
384 	hostmap_t **ns_maptable;
385 	ipnat_t	*ns_list;
386 	void	*ns_apslist;
387 	u_int	ns_wilds;
388 	u_int	ns_nattab_sz;
389 	u_int	ns_nattab_max;
390 	u_int	ns_rultab_sz;
391 	u_int	ns_rdrtab_sz;
392 	u_int	ns_trpntab_sz;
393 	u_int	ns_hostmap_sz;
394 	nat_t	*ns_instances;
395 	nattrpnt_t *ns_trpntlist;
396 	hostmap_t *ns_maplist;
397 	u_long	*ns_bucketlen[2];
398 	u_int	ns_orphans;
399 	u_long	ns_uncreate[2][2];
400 } natstat_t;
401 
402 typedef	struct	natlog {
403 	i6addr_t	nlg_origip;
404 	i6addr_t	nlg_outip;
405 	i6addr_t	nlg_inip;
406 	u_short		nlg_origport;
407 	u_short		nlg_outport;
408 	u_short		nlg_inport;
409 	u_short		nlg_type;
410 	int		nlg_rule;
411 	U_QUAD_T	nlg_pkts[2];
412 	U_QUAD_T	nlg_bytes[2];
413 	u_char		nlg_p;
414 	int		nlg_v;
415 } natlog_t;
416 
417 
418 #define	NL_NEWMAP	NAT_MAP
419 #define	NL_NEWRDR	NAT_REDIRECT
420 #define	NL_NEWBIMAP	NAT_BIMAP
421 #define	NL_NEWBLOCK	NAT_MAPBLK
422 #define	NL_DESTROY	0xfffc
423 #define	NL_CLONE	0xfffd
424 #define	NL_FLUSH	0xfffe
425 #define	NL_EXPIRE	0xffff
426 
427 #define	NAT_HASH_FN(k, l, m)	(((k) + ((k) >> 12) + l) % (m))
428 #define	NAT_HASH_FN6(k, l, m)	((((u_32_t *)(k))[3] \
429 				+ (((u_32_t *)(k))[3] >> 12) \
430 				+ (((u_32_t *)(k))[2]) \
431 				+ (((u_32_t *)(k))[2] >> 12) \
432 				+ (((u_32_t *)(k))[1]) \
433 				+ (((u_32_t *)(k))[1] >> 12) \
434 				+ (((u_32_t *)(k))[0]) \
435 				+ (((u_32_t *)(k))[0] >> 12) \
436 				+ l) % (m))
437 
438 #define	LONG_SUM(in)	(((in) & 0xffff) + ((in) >> 16))
439 #define	LONG_SUM6(in)	(LONG_SUM(ntohl(((u_32_t *)(in))[0])) + \
440 			 LONG_SUM(ntohl(((u_32_t *)(in))[1])) + \
441 			 LONG_SUM(ntohl(((u_32_t *)(in))[2])) + \
442 			 LONG_SUM(ntohl(((u_32_t *)(in))[3])))
443 
444 #define	CALC_SUMD(s1, s2, sd) { \
445 			    (s1) = ((s1) & 0xffff) + ((s1) >> 16); \
446 			    (s2) = ((s2) & 0xffff) + ((s2) >> 16); \
447 			    /* Do it twice */ \
448 			    (s1) = ((s1) & 0xffff) + ((s1) >> 16); \
449 			    (s2) = ((s2) & 0xffff) + ((s2) >> 16); \
450 			    /* Because ~1 == -2, We really need ~1 == -1 */ \
451 			    if ((s1) > (s2)) (s2)--; \
452 			    (sd) = (s2) - (s1); \
453 			    (sd) = ((sd) & 0xffff) + ((sd) >> 16); }
454 
455 #define	NAT_SYSSPACE		0x80000000
456 #define	NAT_LOCKHELD		0x40000000
457 
458 extern	void	fr_natsync __P((void *, ipf_stack_t *));
459 extern	void	fr_nataddrsync __P((int, void *, void *, ipf_stack_t *));
460 extern	void	fr_natifpsync __P((int, int, void *, char *, ipf_stack_t *));
461 
462 #if defined(__OpenBSD__)
463 extern	void	nat_ifdetach __P((void *, ipf_stack_t *));
464 #endif
465 extern	int	fr_nat_ioctl __P((caddr_t, ioctlcmd_t, int, int, void *, ipf_stack_t *));
466 extern	int	fr_natinit __P((ipf_stack_t *));
467 extern	nat_t	*nat_new __P((fr_info_t *, ipnat_t *, nat_t **, u_int, int));
468 extern	nat_t	*nat_outlookup __P((fr_info_t *, u_int, u_int, struct in_addr,
469 				 struct in_addr));
470 extern	void	fix_datacksum __P((u_short *, u_32_t));
471 extern	nat_t	*nat_inlookup __P((fr_info_t *, u_int, u_int, struct in_addr,
472 				struct in_addr));
473 extern	nat_t	*nat_tnlookup __P((fr_info_t *, int));
474 extern	nat_t	*nat_maplookup __P((void *, u_int, struct in_addr,
475 				struct in_addr));
476 extern	nat_t	*nat_lookupredir __P((natlookup_t *, ipf_stack_t *));
477 extern	nat_t	*nat_icmperrorlookup __P((fr_info_t *, int));
478 extern	nat_t	*nat_icmperror __P((fr_info_t *, u_int *, int));
479 extern	int	nat_delete __P((struct nat *, int, ipf_stack_t *));
480 extern	int	nat_insert __P((nat_t *, int, ipf_stack_t *));
481 
482 extern	int	fr_checknatout __P((fr_info_t *, u_32_t *));
483 extern	int	fr_natout __P((fr_info_t *, nat_t *, int, u_32_t));
484 extern	int	fr_checknatin __P((fr_info_t *, u_32_t *));
485 extern	int	fr_natin __P((fr_info_t *, nat_t *, int, u_32_t));
486 extern	void	fr_natunload __P((ipf_stack_t *));
487 extern	void	nat_uncreate __P((fr_info_t *));
488 extern	void	fr_natexpire __P((ipf_stack_t *));
489 extern	void	nat_log __P((struct nat *, u_int, ipf_stack_t *));
490 extern	void	fix_incksum __P((u_short *, u_32_t));
491 extern	void	fix_outcksum __P((u_short *, u_32_t));
492 extern  void    fr_ipnatderef __P((ipnat_t **, ipf_stack_t *));
493 extern	void	fr_natderef __P((nat_t **, ipf_stack_t *));
494 extern	u_short	*nat_proto __P((fr_info_t *, nat_t *, u_int));
495 extern	void	nat_update __P((fr_info_t *, nat_t *, ipnat_t *));
496 extern	void	fr_setnatqueue __P((nat_t *, int, ipf_stack_t *));
497 extern  void    fr_hostmapdel __P((hostmap_t **));
498 #if SOLARIS2 >= 10
499 extern	void	fr_natifindexsync __P((void *, void *, ipf_stack_t *));
500 #endif
501 
502 extern	nat_t	*fr_natclone __P((fr_info_t *, nat_t *));
503 extern	void	nat_delrdr __P((struct ipnat *));
504 extern	void	nat_delnat __P((struct ipnat *));
505 extern	int	nat_wildok __P((nat_t *, int, int, int, int));
506 extern	void	nat_calc_chksum_diffs __P((nat_t *));
507 
508 #ifdef	USE_INET6
509 extern	void	nat6_addnat __P((ipnat_t *, ipf_stack_t *));
510 extern	void	nat6_addrdr __P((ipnat_t *, ipf_stack_t *));
511 extern	nat_t	*nat6_new __P((fr_info_t *, ipnat_t *, nat_t **, u_int, int));
512 extern	nat_t	*nat6_outlookup __P((fr_info_t *, u_int, u_int,
513 				struct in6_addr *, struct in6_addr *));
514 extern	nat_t	*nat6_inlookup __P((fr_info_t *, u_int, u_int,
515 				struct in6_addr *, struct in6_addr *));
516 extern	nat_t	*nat6_lookupredir __P((natlookup_t *, ipf_stack_t *));
517 extern	nat_t	*nat6_icmperrorlookup __P((fr_info_t *, int));
518 extern	nat_t	*nat6_icmperror __P((fr_info_t *, u_int *, int));
519 extern	int	nat6_insert __P((nat_t *, int, ipf_stack_t *));
520 extern	int	fr_checknat6out __P((fr_info_t *, u_32_t *));
521 extern	int	fr_nat6out __P((fr_info_t *, nat_t *, int, u_32_t));
522 extern	int	fr_checknat6in __P((fr_info_t *, u_32_t *));
523 extern	int	fr_nat6in __P((fr_info_t *, nat_t *, int, u_32_t));
524 #endif
525 
526 #endif /* __IP_NAT_H__ */
527