xref: /titanic_50/usr/src/uts/common/inet/ipsec_impl.h (revision 02e56f3f1bfc8d9977bafb8cb5202f576dcded27)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License, Version 1.0 only
6  * (the "License").  You may not use this file except in compliance
7  * with the License.
8  *
9  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10  * or http://www.opensolaris.org/os/licensing.
11  * See the License for the specific language governing permissions
12  * and limitations under the License.
13  *
14  * When distributing Covered Code, include this CDDL HEADER in each
15  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16  * If applicable, add the following below this CDDL HEADER, with the
17  * fields enclosed by brackets "[]" replaced with your own identifying
18  * information: Portions Copyright [yyyy] [name of copyright owner]
19  *
20  * CDDL HEADER END
21  */
22 /*
23  * Copyright 2005 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 #ifndef _INET_IPSEC_IMPL_H
28 #define	_INET_IPSEC_IMPL_H
29 
30 #pragma ident	"%Z%%M%	%I%	%E% SMI"
31 
32 #ifdef	__cplusplus
33 extern "C" {
34 #endif
35 
36 #define	IPSEC_CONF_SRC_ADDRESS	0	/* Source Address */
37 #define	IPSEC_CONF_SRC_PORT		1	/* Source Port */
38 #define	IPSEC_CONF_DST_ADDRESS	2	/* Dest Address */
39 #define	IPSEC_CONF_DST_PORT		3	/* Dest Port */
40 #define	IPSEC_CONF_SRC_MASK		4	/* Source Address Mask */
41 #define	IPSEC_CONF_DST_MASK		5	/* Destination Address Mask */
42 #define	IPSEC_CONF_ULP			6	/* Upper layer Port */
43 #define	IPSEC_CONF_IPSEC_PROT	7	/* AH or ESP or AH_ESP */
44 #define	IPSEC_CONF_IPSEC_AALGS	8	/* Auth Algorithms - MD5 etc. */
45 #define	IPSEC_CONF_IPSEC_EALGS	9	/* Encr Algorithms - DES etc. */
46 #define	IPSEC_CONF_IPSEC_EAALGS	10	/* Encr Algorithms - MD5 etc. */
47 #define	IPSEC_CONF_IPSEC_SA		11	/* Shared or unique SA */
48 #define	IPSEC_CONF_IPSEC_DIR 		12	/* Direction of traffic */
49 #define	IPSEC_CONF_ICMP_TYPE 		13	/* ICMP type */
50 #define	IPSEC_CONF_ICMP_CODE 		14	/* ICMP code */
51 
52 /* Type of an entry */
53 
54 #define	IPSEC_NTYPES			0x02
55 #define	IPSEC_TYPE_OUTBOUND		0x00
56 #define	IPSEC_TYPE_INBOUND		0x01
57 
58 /* Policy */
59 #define	IPSEC_POLICY_APPLY	0x01
60 #define	IPSEC_POLICY_DISCARD	0x02
61 #define	IPSEC_POLICY_BYPASS	0x03
62 
63 /* Shared or unique SA */
64 #define	IPSEC_SHARED_SA		0x01
65 #define	IPSEC_UNIQUE_SA		0x02
66 
67 /* IPSEC protocols and combinations */
68 #define	IPSEC_AH_ONLY		0x01
69 #define	IPSEC_ESP_ONLY		0x02
70 #define	IPSEC_AH_ESP		0x03
71 
72 #ifdef _KERNEL
73 
74 #include <inet/common.h>
75 #include <netinet/ip6.h>
76 #include <netinet/icmp6.h>
77 #include <net/pfkeyv2.h>
78 #include <inet/ip.h>
79 #include <inet/sadb.h>
80 #include <inet/ipsecah.h>
81 #include <inet/ipsecesp.h>
82 #include <sys/crypto/common.h>
83 #include <sys/crypto/api.h>
84 #include <sys/avl.h>
85 
86 /*
87  * Maximum number of authentication algorithms (can be indexed by one byte
88  * per PF_KEY and the IKE IPsec DOI.
89  */
90 #define	MAX_AALGS 256
91 
92 /*
93  * IPsec task queue constants.
94  */
95 #define	IPSEC_TASKQ_MIN 10
96 #define	IPSEC_TASKQ_MAX 20
97 
98 /*
99  * So we can access IPsec global variables that live in keysock.c.
100  */
101 extern boolean_t keysock_extended_reg(void);
102 extern uint32_t keysock_next_seq(void);
103 
104 /*
105  * Locking for ipsec policy rules:
106  *
107  * policy heads: system policy is static; per-conn polheads are dynamic,
108  * and refcounted (and inherited); use atomic refcounts and "don't let
109  * go with both hands".
110  *
111  * policy: refcounted; references from polhead, ipsec_out
112  *
113  * actions: refcounted; referenced from: action hash table, policy, ipsec_out
114  * selectors: refcounted; referenced from: selector hash table, policy.
115  */
116 
117 /*
118  * the following are inspired by, but not directly based on,
119  * some of the sys/queue.h type-safe pseudo-polymorphic macros
120  * found in BSD.
121  *
122  * XXX If we use these more generally, we'll have to make the names
123  * less generic (HASH_* will probably clobber other namespaces).
124  */
125 
126 #define	HASH_LOCK(table, hash) \
127 	mutex_enter(&(table)[hash].hash_lock)
128 #define	HASH_UNLOCK(table, hash) \
129 	mutex_exit(&(table)[hash].hash_lock)
130 
131 #define	HASH_LOCKED(table, hash) \
132 	MUTEX_HELD(&(table)[hash].hash_lock)
133 
134 #define	HASH_ITERATE(var, field, table, hash) 		\
135 	var = table[hash].hash_head; var != NULL; var = var->field.hash_next
136 
137 #define	HASH_NEXT(var, field) 		\
138 	(var)->field.hash_next
139 
140 #define	HASH_INSERT(var, field, table, hash)			\
141 {								\
142 	ASSERT(HASH_LOCKED(table, hash));			\
143 	(var)->field.hash_next = (table)[hash].hash_head;	\
144 	(var)->field.hash_pp = &(table)[hash].hash_head;	\
145 	(table)[hash].hash_head = var;				\
146 	if ((var)->field.hash_next != NULL)			\
147 		(var)->field.hash_next->field.hash_pp = 	\
148 			&((var)->field.hash_next); 		\
149 }
150 
151 
152 #define	HASH_UNCHAIN(var, field, table, hash)			\
153 {								\
154 	ASSERT(MUTEX_HELD(&(table)[hash].hash_lock));		\
155 	HASHLIST_UNCHAIN(var, field);				\
156 }
157 
158 #define	HASHLIST_INSERT(var, field, head)			\
159 {								\
160 	(var)->field.hash_next = head;				\
161 	(var)->field.hash_pp = &(head);				\
162 	head = var;						\
163 	if ((var)->field.hash_next != NULL)			\
164 		(var)->field.hash_next->field.hash_pp = 	\
165 			&((var)->field.hash_next); 		\
166 }
167 
168 #define	HASHLIST_UNCHAIN(var, field) 				\
169 {								\
170 	*var->field.hash_pp = var->field.hash_next;		\
171 	if (var->field.hash_next)				\
172 		var->field.hash_next->field.hash_pp = 		\
173 			var->field.hash_pp;			\
174 	HASH_NULL(var, field);					\
175 }
176 
177 
178 #define	HASH_NULL(var, field) 					\
179 {								\
180 	var->field.hash_next = NULL;				\
181 	var->field.hash_pp = NULL;				\
182 }
183 
184 #define	HASH_LINK(fieldname, type)				\
185 	struct {						\
186 		type *hash_next;				\
187 		type **hash_pp;					\
188 	} fieldname
189 
190 
191 #define	HASH_HEAD(tag)						\
192 	struct {						\
193 		struct tag *hash_head;				\
194 		kmutex_t hash_lock;				\
195 	}
196 
197 typedef struct ipsec_policy_s ipsec_policy_t;
198 
199 typedef HASH_HEAD(ipsec_policy_s) ipsec_policy_hash_t;
200 
201 /*
202  * When adding new fields to ipsec_prot_t, make sure to update
203  * ipsec_in_to_out_action() as well as other code in spd.c
204  */
205 
206 typedef struct ipsec_prot
207 {
208 	unsigned int
209 		ipp_use_ah : 1,
210 		ipp_use_esp : 1,
211 		ipp_use_se : 1,
212 		ipp_use_unique : 1,
213 		ipp_use_espa : 1,
214 		ipp_pad : 27;
215 	uint8_t		ipp_auth_alg;		 /* DOI number */
216 	uint8_t		ipp_encr_alg;		 /* DOI number */
217 	uint8_t		ipp_esp_auth_alg;	 /* DOI number */
218 	uint16_t 	ipp_ah_minbits;		 /* AH: min keylen */
219 	uint16_t 	ipp_ah_maxbits;		 /* AH: max keylen */
220 	uint16_t	ipp_espe_minbits;	 /* ESP encr: min keylen */
221 	uint16_t	ipp_espe_maxbits;	 /* ESP encr: max keylen */
222 	uint16_t	ipp_espa_minbits;	 /* ESP auth: min keylen */
223 	uint16_t	ipp_espa_maxbits;	 /* ESP auth: max keylen */
224 	uint32_t	ipp_km_proto;		 /* key mgmt protocol */
225 	uint32_t	ipp_km_cookie;		 /* key mgmt cookie */
226 	uint32_t	ipp_replay_depth;	 /* replay window */
227 	/* XXX add lifetimes */
228 } ipsec_prot_t;
229 
230 #define	IPSEC_MAX_KEYBITS (0xffff)
231 
232 /*
233  * An individual policy action, possibly a member of a chain.
234  *
235  * Action chains may be shared between multiple policy rules.
236  *
237  * With one exception (IPSEC_POLICY_LOG), a chain consists of an
238  * ordered list of alternative ways to handle a packet.
239  *
240  * All actions are also "interned" into a hash table (to allow
241  * multiple rules with the same action chain to share one copy in
242  * memory).
243  */
244 
245 typedef struct ipsec_act
246 {
247 	uint8_t		ipa_type;
248 	uint8_t		ipa_log;
249 	union
250 	{
251 		ipsec_prot_t	ipau_apply;
252 		uint8_t		ipau_reject_type;
253 		uint32_t	ipau_resolve_id; /* magic cookie */
254 		uint8_t		ipau_log_type;
255 	} ipa_u;
256 #define	ipa_apply ipa_u.ipau_apply
257 #define	ipa_reject_type ipa_u.ipau_reject_type
258 #define	ipa_log_type ipa_u.ipau_log_type
259 #define	ipa_resolve_type ipa_u.ipau_resolve_type
260 } ipsec_act_t;
261 
262 #define	IPSEC_ACT_APPLY		0x01 /* match IPSEC_POLICY_APPLY */
263 #define	IPSEC_ACT_DISCARD	0x02 /* match IPSEC_POLICY_DISCARD */
264 #define	IPSEC_ACT_BYPASS	0x03 /* match IPSEC_POLICY_BYPASS */
265 #define	IPSEC_ACT_REJECT	0x04
266 #define	IPSEC_ACT_CLEAR		0x05
267 
268 typedef struct ipsec_action_s
269 {
270 	HASH_LINK(ipa_hash, struct ipsec_action_s);
271 	struct ipsec_action_s	*ipa_next;	/* next alternative */
272 	uint32_t		ipa_refs;		/* refcount */
273 	ipsec_act_t		ipa_act;
274 	/*
275 	 * The following bits are equivalent to an OR of bits included in the
276 	 * ipau_apply fields of this and subsequent actions in an
277 	 * action chain; this is an optimization for the sake of
278 	 * ipsec_out_process() in ip.c and a few other places.
279 	 */
280 	unsigned int
281 		ipa_hval: 8,
282 		ipa_allow_clear:1,		/* rule allows cleartext? */
283 		ipa_want_ah:1,			/* an action wants ah */
284 		ipa_want_esp:1,			/* an action wants esp */
285 		ipa_want_se:1,			/* an action wants se */
286 		ipa_want_unique:1,		/* want unique sa's */
287 		ipa_pad:19;
288 	uint32_t		ipa_ovhd;	/* per-packet encap ovhd */
289 } ipsec_action_t;
290 
291 #define	IPACT_REFHOLD(ipa) {			\
292 	atomic_add_32(&(ipa)->ipa_refs, 1);	\
293 	ASSERT((ipa)->ipa_refs != 0);	\
294 }
295 #define	IPACT_REFRELE(ipa) {					\
296 	ASSERT((ipa)->ipa_refs != 0);				\
297 	membar_exit();						\
298 	if (atomic_add_32_nv(&(ipa)->ipa_refs, -1) == 0)	\
299 		ipsec_action_free(ipa);				\
300 	(ipa) = 0;						\
301 }
302 
303 /*
304  * Merged address structure, for cheezy address-family independant
305  * matches in policy code.
306  */
307 
308 typedef union ipsec_addr
309 {
310 	in6_addr_t	ipsad_v6;
311 	in_addr_t	ipsad_v4;
312 } ipsec_addr_t;
313 
314 /*
315  * ipsec selector set, as used by the kernel policy structures.
316  * Note that that we specify "local" and "remote"
317  * rather than "source" and "destination", which allows the selectors
318  * for symmetric policy rules to be shared between inbound and
319  * outbound rules.
320  *
321  * "local" means "destination" on inbound, and "source" on outbound.
322  * "remote" means "source" on inbound, and "destination" on outbound.
323  * XXX if we add a fifth policy enforcement point for forwarded packets,
324  * what do we do?
325  *
326  * The ipsl_valid mask is not done as a bitfield; this is so we
327  * can use "ffs()" to find the "most interesting" valid tag.
328  *
329  * XXX should we have multiple types for space-conservation reasons?
330  * (v4 vs v6?  prefix vs. range)?
331  */
332 
333 typedef struct ipsec_selkey
334 {
335 	uint32_t	ipsl_valid;		/* bitmask of valid entries */
336 #define	IPSL_REMOTE_ADDR		0x00000001
337 #define	IPSL_LOCAL_ADDR			0x00000002
338 #define	IPSL_REMOTE_PORT		0x00000004
339 #define	IPSL_LOCAL_PORT			0x00000008
340 #define	IPSL_PROTOCOL			0x00000010
341 #define	IPSL_ICMP_TYPE			0x00000020
342 #define	IPSL_ICMP_CODE			0x00000040
343 #define	IPSL_IPV6			0x00000080
344 #define	IPSL_IPV4			0x00000100
345 
346 #define	IPSL_WILDCARD			0x0000007f
347 
348 	ipsec_addr_t	ipsl_local;
349 	ipsec_addr_t	ipsl_remote;
350 	uint16_t	ipsl_lport;
351 	uint16_t	ipsl_rport;
352 	/*
353 	 * ICMP type and code selectors. Both have an end value to
354 	 * specify ranges, or * and *_end are equal for a single
355 	 * value
356 	 */
357 	uint8_t		ipsl_icmp_type;
358 	uint8_t		ipsl_icmp_type_end;
359 	uint8_t		ipsl_icmp_code;
360 	uint8_t		ipsl_icmp_code_end;
361 
362 	uint8_t		ipsl_proto;		/* ip payload type */
363 	uint8_t		ipsl_local_pfxlen;	/* #bits of prefix */
364 	uint8_t		ipsl_remote_pfxlen;	/* #bits of prefix */
365 	uint8_t		ipsl_mbz;
366 
367 	uint32_t	ipsl_hval;
368 } ipsec_selkey_t;
369 
370 typedef struct ipsec_sel
371 {
372 	HASH_LINK(ipsl_hash, struct ipsec_sel);
373 	uint32_t	ipsl_refs;		/* # refs to this sel */
374 	ipsec_selkey_t	ipsl_key;		/* actual selector guts */
375 } ipsec_sel_t;
376 
377 /*
378  * One policy rule.  This will be linked into a single hash chain bucket in
379  * the parent rule structure.  If the selector is simple enough to
380  * allow hashing, it gets filed under ipsec_policy_root_t->ipr_hash.
381  * Otherwise it goes onto a linked list in ipsec_policy_root_t->ipr_nonhash[af]
382  *
383  * In addition, we file the rule into an avl tree keyed by the rule index.
384  * (Duplicate rules are permitted; the comparison function breaks ties).
385  */
386 struct ipsec_policy_s
387 {
388 	HASH_LINK(ipsp_hash, struct ipsec_policy_s);
389 	avl_node_t		ipsp_byid;
390 	uint64_t		ipsp_index;	/* unique id */
391 	uint32_t		ipsp_prio; 	/* rule priority */
392 	uint32_t		ipsp_refs;
393 	ipsec_sel_t		*ipsp_sel;	/* selector set (shared) */
394 	ipsec_action_t		*ipsp_act; 	/* action (may be shared) */
395 };
396 
397 #define	IPPOL_REFHOLD(ipp) {			\
398 	atomic_add_32(&(ipp)->ipsp_refs, 1);	\
399 	ASSERT((ipp)->ipsp_refs != 0);		\
400 }
401 #define	IPPOL_REFRELE(ipp) {					\
402 	ASSERT((ipp)->ipsp_refs != 0);				\
403 	membar_exit();						\
404 	if (atomic_add_32_nv(&(ipp)->ipsp_refs, -1) == 0)	\
405 		ipsec_policy_free(ipp);				\
406 	(ipp) = 0;						\
407 }
408 
409 /*
410  * Policy ruleset.  One per (protocol * direction) for system policy.
411  */
412 
413 #define	IPSEC_AF_V4	0
414 #define	IPSEC_AF_V6	1
415 #define	IPSEC_NAF	2
416 
417 typedef struct ipsec_policy_root_s
418 {
419 	ipsec_policy_t		*ipr_nonhash[IPSEC_NAF];
420 	int			ipr_nchains;
421 	ipsec_policy_hash_t 	*ipr_hash;
422 } ipsec_policy_root_t;
423 
424 /*
425  * Policy head.  One for system policy; there may also be one present
426  * on ill_t's with interface-specific policy, as well as one present
427  * for sockets with per-socket policy allocated.
428  */
429 
430 typedef struct ipsec_policy_head_s
431 {
432 	uint32_t	iph_refs;
433 	krwlock_t	iph_lock;
434 	uint64_t	iph_gen; /* generation number */
435 	ipsec_policy_root_t iph_root[IPSEC_NTYPES];
436 	avl_tree_t	iph_rulebyid;
437 } ipsec_policy_head_t;
438 
439 #define	IPPH_REFHOLD(iph) {			\
440 	atomic_add_32(&(iph)->iph_refs, 1);	\
441 	ASSERT((iph)->iph_refs != 0);		\
442 }
443 #define	IPPH_REFRELE(iph) {					\
444 	ASSERT((iph)->iph_refs != 0);				\
445 	membar_exit();						\
446 	if (atomic_add_32_nv(&(iph)->iph_refs, -1) == 0)	\
447 		ipsec_polhead_free(iph);			\
448 	(iph) = 0;						\
449 }
450 
451 /*
452  * Certificate identity.
453  */
454 
455 typedef struct ipsid_s
456 {
457 	struct ipsid_s *ipsid_next;
458 	struct ipsid_s **ipsid_ptpn;
459 	uint32_t	ipsid_refcnt;
460 	int		ipsid_type;	/* id type */
461 	char 		*ipsid_cid;	/* certificate id string */
462 } ipsid_t;
463 
464 /*
465  * ipsid_t reference hold/release macros, just like ipsa versions.
466  */
467 
468 #define	IPSID_REFHOLD(ipsid) {			\
469 	atomic_add_32(&(ipsid)->ipsid_refcnt, 1);	\
470 	ASSERT((ipsid)->ipsid_refcnt != 0);	\
471 }
472 
473 /*
474  * Decrement the reference count on the ID.  Someone else will clean up
475  * after us later.
476  */
477 
478 #define	IPSID_REFRELE(ipsid) {					\
479 	membar_exit();						\
480 	atomic_add_32(&(ipsid)->ipsid_refcnt, -1);		\
481 }
482 
483 extern boolean_t ipsec_inbound_v4_policy_present;
484 extern boolean_t ipsec_outbound_v4_policy_present;
485 extern boolean_t ipsec_inbound_v6_policy_present;
486 extern boolean_t ipsec_outbound_v6_policy_present;
487 
488 struct ipsec_out_s;
489 
490 /*
491  * Following are the estimates of what the maximum AH and ESP header size
492  * would be. This is used to tell the upper layer the right value of MSS
493  * it should use without consulting AH/ESP. If the size is something
494  * different from this, ULP will learn the right one through
495  * ICMP_FRAGMENTATION_NEEDED messages generated locally.
496  *
497  * AH : 12 bytes of constant header + 12 bytes of ICV checksum (MD5/SHA1).
498  *
499  * ESP : 8 bytes of constant header + 16 bytes of IV + 12 bytes ICV +
500  * 2 bytes of trailer + 15 bytes pad = 53
501  *
502  * Note that for ESP, this estimate is overly pessimistic; however, a
503  * more accurate estimate needs to know the exact amount of space
504  * which will be available to ESP so it can just leave 2 bytes free in
505  * the last cipherblock for the ESP inner trailer, and that
506  * information is not available at the right moment in the current
507  * stack.
508  */
509 #define	IPSEC_MAX_AH_HDR_SIZE   (24)
510 #define	IPSEC_MAX_ESP_HDR_SIZE  (53)
511 
512 /* Alternate, when we know the crypto block size */
513 #define	IPSEC_BASE_ESP_HDR_SIZE(sa) (4 + 4 + 12 + 1 + 2 * (sa)->ipsa_iv_len)
514 #define	IPSEC_DEF_BLOCKSIZE	(8) /* safe default */
515 
516 /*
517  * Loader states..
518  */
519 #define	IPSEC_LOADER_WAIT	0
520 #define	IPSEC_LOADER_FAILED	-1
521 #define	IPSEC_LOADER_SUCCEEDED	1
522 
523 extern kmutex_t ipsec_loader_lock;
524 extern int ipsec_loader_state;
525 
526 /*
527  * ipsec_loader entrypoints.
528  */
529 extern void ipsec_loader_init(void);
530 extern void ipsec_loader_start(void);
531 extern void ipsec_loader_destroy(void);
532 extern void ipsec_loader_loadnow(void);
533 extern boolean_t ipsec_loader_wait(queue_t *q);
534 extern boolean_t ipsec_loaded(void);
535 extern boolean_t ipsec_failed(void);
536 
537 /*
538  * callback from ipsec_loader to ip
539  */
540 extern void ip_ipsec_load_complete();
541 
542 /*
543  * ipsec policy entrypoints (spd.c)
544  */
545 
546 extern void ipsec_policy_destroy(void);
547 extern void ipsec_policy_init(void);
548 extern boolean_t ipsec_inherit_global_policy(conn_t *, ipsec_req_t *,
549     ipsec_selector_t *, boolean_t);
550 extern mblk_t *ipsec_check_global_policy(mblk_t *, conn_t *, ipha_t *,
551 		    ip6_t *, boolean_t);
552 extern mblk_t *ipsec_check_inbound_policy(mblk_t *, conn_t *, ipha_t *, ip6_t *,
553     boolean_t);
554 
555 extern boolean_t ipsec_in_to_out(mblk_t *, ipha_t *, ip6_t *);
556 extern void ipsec_log_policy_failure(queue_t *, int, char *, ipha_t *,
557 		    ip6_t *, boolean_t);
558 extern boolean_t ipsec_inbound_accept_clear(mblk_t *, ipha_t *, ip6_t *);
559 extern int ipsec_policy_alloc(conn_t *);
560 extern int ipsec_conn_cache_policy(conn_t *, boolean_t);
561 extern mblk_t *ipsec_alloc_ipsec_out(void);
562 extern mblk_t	*ipsec_attach_ipsec_out(mblk_t *, conn_t *, ipsec_policy_t *,
563     uint8_t);
564 extern mblk_t	*ipsec_init_ipsec_out(mblk_t *, conn_t *, ipsec_policy_t *,
565     uint8_t);
566 struct ipsec_in_s;
567 extern ipsec_action_t *ipsec_in_to_out_action(struct ipsec_in_s *);
568 extern boolean_t ipsec_check_ipsecin_latch(struct ipsec_in_s *, mblk_t *,
569     struct ipsec_latch_s *, ipha_t *, ip6_t *, const char **, kstat_named_t **);
570 extern void ipsec_latch_inbound(ipsec_latch_t *ipl, struct ipsec_in_s *ii);
571 
572 extern void ipsec_policy_free(ipsec_policy_t *);
573 extern void ipsec_action_free(ipsec_action_t *);
574 extern void ipsec_polhead_free(ipsec_policy_head_t *);
575 extern ipsec_policy_head_t *ipsec_polhead_split(ipsec_policy_head_t *);
576 extern ipsec_policy_head_t *ipsec_polhead_create(void);
577 extern ipsec_policy_head_t *ipsec_system_policy(void);
578 extern ipsec_policy_head_t *ipsec_inactive_policy(void);
579 extern void ipsec_swap_policy(void);
580 
581 extern int ipsec_clone_system_policy(void);
582 extern ipsec_policy_t *ipsec_policy_create(ipsec_selkey_t *,
583     const ipsec_act_t *, int, int);
584 extern boolean_t ipsec_policy_delete(ipsec_policy_head_t *,
585     ipsec_selkey_t *, int);
586 extern int ipsec_policy_delete_index(ipsec_policy_head_t *, uint64_t);
587 extern void ipsec_polhead_flush(ipsec_policy_head_t *);
588 extern void ipsec_actvec_from_req(ipsec_req_t *, ipsec_act_t **, uint_t *);
589 extern void ipsec_actvec_free(ipsec_act_t *, uint_t);
590 extern mblk_t *ipsec_construct_inverse_acquire(sadb_msg_t *, sadb_ext_t **);
591 extern mblk_t *ip_wput_attach_policy(mblk_t *, ipha_t *, ip6_t *, ire_t *,
592     conn_t *, boolean_t);
593 extern mblk_t	*ip_wput_ire_parse_ipsec_out(mblk_t *, ipha_t *, ip6_t *,
594     ire_t *, conn_t *, boolean_t);
595 extern ipsec_policy_t *ipsec_find_policy(int, conn_t *,
596     struct ipsec_out_s *, ipsec_selector_t *);
597 extern ipsid_t *ipsid_lookup(int, char *);
598 extern boolean_t ipsid_equal(ipsid_t *, ipsid_t *);
599 extern void ipsid_gc(void);
600 extern void ipsec_latch_ids(ipsec_latch_t *, ipsid_t *, ipsid_t *);
601 
602 extern void ipsec_config_flush(void);
603 extern boolean_t ipsec_check_policy(ipsec_policy_head_t *, ipsec_policy_t *,
604     int);
605 extern void ipsec_enter_policy(ipsec_policy_head_t *, ipsec_policy_t *, int);
606 extern boolean_t ipsec_check_action(ipsec_act_t *, int *);
607 
608 extern void ipsec_config_list_compat(queue_t *, mblk_t *);
609 extern int ipsec_config_add_compat(mblk_t *);
610 extern int ipsec_config_delete_compat(mblk_t *);
611 
612 extern mblk_t *ipsec_out_tag(mblk_t *, mblk_t *);
613 extern mblk_t *ipsec_in_tag(mblk_t *, mblk_t *);
614 extern mblk_t *ip_copymsg(mblk_t *mp);
615 
616 extern void iplatch_free(ipsec_latch_t *);
617 extern ipsec_latch_t *iplatch_create(void);
618 extern int ipsec_set_req(cred_t *, conn_t *, ipsec_req_t *);
619 
620 extern void ipsec_insert_always(avl_tree_t *tree, void *new_node);
621 
622 /*
623  * IPsec AH/ESP functions called from IP.
624  */
625 
626 extern void ipsecah_rl_strlog(char, ushort_t, char *, ...);
627 extern void ipsecah_in_assocfailure(mblk_t *, char, ushort_t, char *,
628     uint32_t, void *, int);
629 extern void ipsecesp_in_assocfailure(mblk_t *, char, ushort_t, char *,
630     uint32_t, void *, int);
631 
632 /*
633  * Algorithm management helper functions.
634  */
635 extern boolean_t ipsec_valid_key_size(uint16_t, ipsec_alginfo_t *);
636 
637 /*
638  * Per-socket policy, for now, takes precedence... this priority value
639  * insures it.
640  */
641 #define	IPSEC_PRIO_SOCKET		0x1000000
642 
643 /* DDI initialization functions. */
644 extern	boolean_t    ipsecesp_ddi_init(void);
645 extern	boolean_t    ipsecah_ddi_init(void);
646 extern	boolean_t    keysock_ddi_init(void);
647 extern	boolean_t    spdsock_ddi_init(void);
648 
649 extern	void    ipsecesp_ddi_destroy(void);
650 extern	void    ipsecah_ddi_destroy(void);
651 extern	void	keysock_ddi_destroy(void);
652 extern	void    spdsock_ddi_destroy(void);
653 
654 /*
655  * AH- and ESP-specific functions that are called directly by other modules.
656  */
657 extern void ipsecah_fill_defs(struct sadb_x_ecomb *);
658 extern void ipsecesp_fill_defs(struct sadb_x_ecomb *);
659 extern void ipsecah_algs_changed(void);
660 extern void ipsecesp_algs_changed(void);
661 extern void ipsecesp_init_funcs(ipsa_t *);
662 extern void ipsecah_init_funcs(ipsa_t *);
663 extern ipsec_status_t ipsecah_icmp_error(mblk_t *);
664 extern ipsec_status_t ipsecesp_icmp_error(mblk_t *);
665 
666 /*
667  * Wrapper for putnext() to ipsec accelerated interface.
668  */
669 extern void ipsec_hw_putnext(queue_t *, mblk_t *);
670 
671 /*
672  * spdsock functions that are called directly by IP.
673  */
674 extern void spdsock_update_pending_algs(void);
675 
676 /*
677  * IP functions that are called from AH and ESP.
678  */
679 extern boolean_t ipsec_outbound_sa(mblk_t *, uint_t);
680 extern esph_t *ipsec_inbound_esp_sa(mblk_t *);
681 extern ah_t *ipsec_inbound_ah_sa(mblk_t *);
682 
683 /*
684  * NAT-Traversal cleanup
685  */
686 extern void nattymod_clean_ipif(ipif_t *);
687 
688 /*
689  * AH and ESP counters types.
690  */
691 typedef uint32_t ah_counter;
692 typedef uint32_t esp_counter;
693 
694 #endif /* _KERNEL */
695 
696 #ifdef	__cplusplus
697 }
698 #endif
699 
700 #endif	/* _INET_IPSEC_IMPL_H */
701