src/racoon/proposal.h - platform/external/ipsec-tools - Git at Google

 /*	$NetBSD: proposal.h,v 1.6 2006/12/09 05:52:57 manu Exp $	*/

 /* Id: proposal.h,v 1.5 2004/06/11 16:00:17 ludvigm Exp */

 /*
  * Copyright (C) 1995, 1996, 1997, and 1998 WIDE Project.
  * All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  * 1. Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  * 2. Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in the
  *    documentation and/or other materials provided with the distribution.
  * 3. Neither the name of the project nor the names of its contributors
  *    may be used to endorse or promote products derived from this software
  *    without specific prior written permission.
  *
  * THIS SOFTWARE IS PROVIDED BY THE PROJECT AND CONTRIBUTORS ``AS IS'' AND
  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
  * ARE DISCLAIMED.  IN NO EVENT SHALL THE PROJECT OR CONTRIBUTORS BE LIABLE
  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
  * SUCH DAMAGE.
  */

 #ifndef _PROPOSAL_H
 #define _PROPOSAL_H

 #include <sys/queue.h>

 /*
  *   A. chained list of transform, only for single proto_id
  *      (this is same as set of transforms in single proposal payload)
  *   B. proposal.  this will point to multiple (A) items (order is important
  *      here so pointer to (A) must be ordered array, or chained list).
  *      this covers multiple proposal on a packet if proposal # is the same.
  *   C. finally, (B) needs to be connected as chained list.
  *
  * 	head ---> prop[.......] ---> prop[...] ---> prop[...] ---> ...
  * 	               | | | |
  * 	               | | | +- proto4  <== must preserve order here
  * 	               | | +--- proto3
  * 	               | +----- proto2
  * 	               +------- proto1[trans1, trans2, trans3, ...]
  *
  *   incoming packets needs to be parsed to construct the same structure
  *   (check "prop_pair" too).
  */
 /* SA proposal specification */
 struct saprop {
 	int prop_no;
 	time_t lifetime;
 	int lifebyte;
 	int pfs_group;			/* pfs group */
 	int claim;			/* flag to send RESPONDER-LIFETIME. */
 					/* XXX assumed DOI values are 1 or 2. */
 #ifdef HAVE_SECCTX
 	struct security_ctx sctx;       /* security context structure */
 #endif
 	struct saproto *head;
 	struct saprop *next;
 };

 /* SA protocol specification */
 struct saproto {
 	int proto_id;
 	size_t spisize;			/* spi size */
 	int encmode;			/* encryption mode */

 	int udp_encap;			/* UDP encapsulation */

 	/* XXX should be vchar_t * */
 	/* these are network byte order */
 	u_int32_t spi;			/* inbound. i.e. --SA-> me */
 	u_int32_t spi_p;		/* outbound. i.e. me -SA-> */

 	vchar_t *keymat;		/* KEYMAT */
 	vchar_t *keymat_p;		/* peer's KEYMAT */

 	int reqid_out;			/* request id (outbound) */
 	int reqid_in;			/* request id (inbound) */

 	int ok;				/* if 1, success to set SA in kenrel */

 	struct satrns *head;		/* header of transform */
 	struct saproto *next;		/* next protocol */
 };

 /* SA algorithm specification */
 struct satrns {
 	int trns_no;
 	int trns_id;			/* transform id */
 	int encklen;			/* key length of encryption algorithm */
 	int authtype;			/* authentication algorithm if ESP */

 	struct satrns *next;		/* next transform */
 };

 /*
  * prop_pair: (proposal number, transform number)
  *
  *	(SA (P1 (T1 T2)) (P1' (T1' T2')) (P2 (T1" T2")))
  *
  *              p[1]      p[2]
  *      top     (P1,T1)   (P2",T1")
  *		 |  |tnext     |tnext
  *		 |  v          v
  *		 | (P1, T2)   (P2", T2")
  *		 v next
  *		(P1', T1')
  *		    |tnext
  *		    v
  *		   (P1', T2')
  *
  * when we convert it to saprop in prop2saprop(), it should become like:
  *
  * 		 (next)
  * 	saprop --------------------> saprop
  * 	 | (head)                     | (head)
  * 	 +-> saproto                  +-> saproto
  * 	      | | (head)                     | (head)
  * 	      | +-> satrns(P1 T1)            +-> satrns(P2" T1")
  * 	      |      | (next)                     | (next)
  * 	      |      v                            v
  * 	      |     satrns(P1, T2)               satrns(P2", T2")
  * 	      v (next)
  * 	     saproto
  * 		| (head)
  * 		+-> satrns(P1' T1')
  * 		     | (next)
  * 		     v
  * 		    satrns(P1', T2')
  */
 struct prop_pair {
 	struct isakmp_pl_p *prop;
 	struct isakmp_pl_t *trns;
 	struct prop_pair *next;	/* next prop_pair with same proposal # */
 				/* (bundle case) */
 	struct prop_pair *tnext; /* next prop_pair in same proposal payload */
 				/* (multiple tranform case) */
 };
 #define MAXPROPPAIRLEN	256	/* It's enough because field size is 1 octet. */

 /*
  * Lifetime length selection refered to the section 4.5.4 of RFC2407.  It does
  * not completely conform to the description of RFC.  There are four types of
  * the behavior.  If the value of "proposal_check" in "remote" directive is;
  *     "obey"
  *         the responder obey the initiator anytime.
  *     "strict"
  *         If the responder's length is longer than the initiator's one, the
  *         responder uses the intitiator's one.  Otherwise rejects the proposal.
  *         If PFS is not required by the responder, the responder obeys the
  *         proposal.  If PFS is required by both sides and if the responder's
  *         group is not equal to the initiator's one, then the responder reject
  *         the proposal.
  *     "claim"
  *         If the responder's length is longer than the initiator's one, the
  *         responder use the intitiator's one.  If the responder's length is
  *         shorter than the initiator's one, the responder uses own length
  *         AND send RESPONDER-LIFETIME notify message to a initiator in the
  *         case of lifetime.
  *         About PFS, this directive is same as "strict".
  *     "exact"
  *         If the initiator's length is not equal to the responder's one, the
  *         responder rejects the proposal.
  *         If PFS is required and if the responder's group is not equal to
  *         the initiator's one, then the responder reject the proposal.
  * XXX should be defined the behavior of key length.
  */
 #define PROP_CHECK_OBEY		1
 #define PROP_CHECK_STRICT	2
 #define PROP_CHECK_CLAIM	3
 #define PROP_CHECK_EXACT	4

 struct sainfo;
 struct ph1handle;
 struct secpolicy;
 extern struct saprop *newsaprop __P((void));
 extern struct saproto *newsaproto __P((void));
 extern void inssaprop __P((struct saprop **, struct saprop *));
 extern void inssaproto __P((struct saprop *, struct saproto *));
 extern void inssaprotorev __P((struct saprop *, struct saproto *));
 extern struct satrns *newsatrns __P((void));
 extern void inssatrns __P((struct saproto *, struct satrns *));
 extern struct saprop *cmpsaprop_alloc __P((struct ph1handle *,
 	const struct saprop *, const struct saprop *, int));
 extern int cmpsaprop __P((const struct saprop *, const struct saprop *));
 extern int cmpsatrns __P((int, const struct satrns *, const struct satrns *, int));
 extern int set_satrnsbysainfo __P((struct saproto *, struct sainfo *));
 extern struct saprop *aproppair2saprop __P((struct prop_pair *));
 extern void free_proppair __P((struct prop_pair **));
 extern void flushsaprop __P((struct saprop *));
 extern void flushsaproto __P((struct saproto *));
 extern void flushsatrns __P((struct satrns *));
 extern void printsaprop __P((const int, const struct saprop *));
 extern void printsaprop0 __P((const int, const struct saprop *));
 extern void printsaproto __P((const int, const struct saproto *));
 extern void printsatrns __P((const int, const int, const struct satrns *));
 extern void print_proppair0 __P((int, struct prop_pair *, int));
 extern void print_proppair __P((int, struct prop_pair *));
 extern int set_proposal_from_policy __P((struct ph2handle *,
 	struct secpolicy *, struct secpolicy *));
 extern int set_proposal_from_proposal __P((struct ph2handle *));

 #endif /* _PROPOSAL_H */
	/* $NetBSD: proposal.h,v 1.6 2006/12/09 05:52:57 manu Exp $ */

	/* Id: proposal.h,v 1.5 2004/06/11 16:00:17 ludvigm Exp */

	/*
	* Copyright (C) 1995, 1996, 1997, and 1998 WIDE Project.
	* All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	* 3. Neither the name of the project nor the names of its contributors
	* may be used to endorse or promote products derived from this software
	* without specific prior written permission.
	*
	* THIS SOFTWARE IS PROVIDED BY THE PROJECT AND CONTRIBUTORS ``AS IS'' AND
	* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
	* ARE DISCLAIMED. IN NO EVENT SHALL THE PROJECT OR CONTRIBUTORS BE LIABLE
	* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
	* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
	* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
	* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
	* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
	* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
	* SUCH DAMAGE.
	*/

	#ifndef _PROPOSAL_H
	#define _PROPOSAL_H

	#include <sys/queue.h>

	/*
	* A. chained list of transform, only for single proto_id
	* (this is same as set of transforms in single proposal payload)
	* B. proposal. this will point to multiple (A) items (order is important
	* here so pointer to (A) must be ordered array, or chained list).
	* this covers multiple proposal on a packet if proposal # is the same.
	* C. finally, (B) needs to be connected as chained list.
	*
	* head ---> prop[.......] ---> prop[...] ---> prop[...] ---> ...
	* \| \| \| \|
	* \| \| \| +- proto4 <== must preserve order here
	* \| \| +--- proto3
	* \| +----- proto2
	* +------- proto1[trans1, trans2, trans3, ...]
	*
	* incoming packets needs to be parsed to construct the same structure
	* (check "prop_pair" too).
	*/
	/* SA proposal specification */
	struct saprop {
	int prop_no;
	time_t lifetime;
	int lifebyte;
	int pfs_group; /* pfs group */
	int claim; /* flag to send RESPONDER-LIFETIME. */
	/* XXX assumed DOI values are 1 or 2. */
	#ifdef HAVE_SECCTX
	struct security_ctx sctx; /* security context structure */
	#endif
	struct saproto *head;
	struct saprop *next;
	};

	/* SA protocol specification */
	struct saproto {
	int proto_id;
	size_t spisize; /* spi size */
	int encmode; /* encryption mode */

	int udp_encap; /* UDP encapsulation */

	/* XXX should be vchar_t * */
	/* these are network byte order */
	u_int32_t spi; /* inbound. i.e. --SA-> me */
	u_int32_t spi_p; /* outbound. i.e. me -SA-> */

	vchar_t keymat; / KEYMAT */
	vchar_t keymat_p; / peer's KEYMAT */

	int reqid_out; /* request id (outbound) */
	int reqid_in; /* request id (inbound) */

	int ok; /* if 1, success to set SA in kenrel */

	struct satrns head; / header of transform */
	struct saproto next; / next protocol */
	};

	/* SA algorithm specification */
	struct satrns {
	int trns_no;
	int trns_id; /* transform id */
	int encklen; /* key length of encryption algorithm */
	int authtype; /* authentication algorithm if ESP */

	struct satrns next; / next transform */
	};

	/*
	* prop_pair: (proposal number, transform number)
	*
	* (SA (P1 (T1 T2)) (P1' (T1' T2')) (P2 (T1" T2")))
	*
	* p[1] p[2]
	* top (P1,T1) (P2",T1")
	* \| \|tnext \|tnext
	* \| v v
	* \| (P1, T2) (P2", T2")
	* v next
	* (P1', T1')
	* \|tnext
	* v
	* (P1', T2')
	*
	* when we convert it to saprop in prop2saprop(), it should become like:
	*
	* (next)
	* saprop --------------------> saprop
	* \| (head) \| (head)
	* +-> saproto +-> saproto
	* \| \| (head) \| (head)
	* \| +-> satrns(P1 T1) +-> satrns(P2" T1")
	* \| \| (next) \| (next)
	* \| v v
	* \| satrns(P1, T2) satrns(P2", T2")
	* v (next)
	* saproto
	* \| (head)
	* +-> satrns(P1' T1')
	* \| (next)
	* v
	* satrns(P1', T2')
	*/
	struct prop_pair {
	struct isakmp_pl_p *prop;
	struct isakmp_pl_t *trns;
	struct prop_pair next; / next prop_pair with same proposal # */
	/* (bundle case) */
	struct prop_pair tnext; / next prop_pair in same proposal payload */
	/* (multiple tranform case) */
	};
	#define MAXPROPPAIRLEN 256 /* It's enough because field size is 1 octet. */

	/*
	* Lifetime length selection refered to the section 4.5.4 of RFC2407. It does
	* not completely conform to the description of RFC. There are four types of
	* the behavior. If the value of "proposal_check" in "remote" directive is;
	* "obey"
	* the responder obey the initiator anytime.
	* "strict"
	* If the responder's length is longer than the initiator's one, the
	* responder uses the intitiator's one. Otherwise rejects the proposal.
	* If PFS is not required by the responder, the responder obeys the
	* proposal. If PFS is required by both sides and if the responder's
	* group is not equal to the initiator's one, then the responder reject
	* the proposal.
	* "claim"
	* If the responder's length is longer than the initiator's one, the
	* responder use the intitiator's one. If the responder's length is
	* shorter than the initiator's one, the responder uses own length
	* AND send RESPONDER-LIFETIME notify message to a initiator in the
	* case of lifetime.
	* About PFS, this directive is same as "strict".
	* "exact"
	* If the initiator's length is not equal to the responder's one, the
	* responder rejects the proposal.
	* If PFS is required and if the responder's group is not equal to
	* the initiator's one, then the responder reject the proposal.
	* XXX should be defined the behavior of key length.
	*/
	#define PROP_CHECK_OBEY 1
	#define PROP_CHECK_STRICT 2
	#define PROP_CHECK_CLAIM 3
	#define PROP_CHECK_EXACT 4

	struct sainfo;
	struct ph1handle;
	struct secpolicy;
	extern struct saprop *newsaprop __P((void));
	extern struct saproto *newsaproto __P((void));
	extern void inssaprop __P((struct saprop *, struct saprop ));
	extern void inssaproto __P((struct saprop , struct saproto ));
	extern void inssaprotorev __P((struct saprop , struct saproto ));
	extern struct satrns *newsatrns __P((void));
	extern void inssatrns __P((struct saproto , struct satrns ));
	extern struct saprop cmpsaprop_alloc __P((struct ph1handle ,
	const struct saprop , const struct saprop , int));
	extern int cmpsaprop __P((const struct saprop , const struct saprop ));
	extern int cmpsatrns __P((int, const struct satrns , const struct satrns , int));
	extern int set_satrnsbysainfo __P((struct saproto , struct sainfo ));
	extern struct saprop aproppair2saprop __P((struct prop_pair ));
	extern void free_proppair __P((struct prop_pair **));
	extern void flushsaprop __P((struct saprop *));
	extern void flushsaproto __P((struct saproto *));
	extern void flushsatrns __P((struct satrns *));
	extern void printsaprop __P((const int, const struct saprop *));
	extern void printsaprop0 __P((const int, const struct saprop *));
	extern void printsaproto __P((const int, const struct saproto *));
	extern void printsatrns __P((const int, const int, const struct satrns *));
	extern void print_proppair0 __P((int, struct prop_pair *, int));
	extern void print_proppair __P((int, struct prop_pair *));
	extern int set_proposal_from_policy __P((struct ph2handle *,
	struct secpolicy , struct secpolicy ));
	extern int set_proposal_from_proposal __P((struct ph2handle *));

	#endif /* _PROPOSAL_H */