NetBSD/dist/ipf/radix_ipf.h

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2004-03-28 12:55:20 +04:00
/* $NetBSD: radix_ipf.h,v 1.1.1.1 2004/03/28 08:55:49 martti Exp $ */
/*
* Copyright (c) 1988, 1989, 1993
* The Regents of the University of California. 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.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS 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 REGENTS 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.
*
* @(#)radix.h 8.2 (Berkeley) 10/31/94
*/
#ifndef _NET_RADIX_H_
#define _NET_RADIX_H_
#ifndef _RADIX_H_
#define _RADIX_H_
#endif /* _RADIX_H_ */
#ifndef __P
# ifdef __STDC__
# define __P(x) x
# else
# define __P(x) ()
# endif
#endif
#ifdef __sgi
# define radix_mask ipf_radix_mask
# define radix_node ipf_radix_node
# define radix_node_head ipf_radix_node_head
#endif
/*
* Radix search tree node layout.
*/
struct radix_node {
struct radix_mask *rn_mklist; /* list of masks contained in subtree */
struct radix_node *rn_p; /* parent */
short rn_b; /* bit offset; -1-index(netmask) */
char rn_bmask; /* node: mask for bit test*/
u_char rn_flags; /* enumerated next */
#define RNF_NORMAL 1 /* leaf contains normal route */
#define RNF_ROOT 2 /* leaf is root leaf for tree */
#define RNF_ACTIVE 4 /* This node is alive (for rtfree) */
union {
struct { /* leaf only data: */
caddr_t rn_Key; /* object of search */
caddr_t rn_Mask; /* netmask, if present */
struct radix_node *rn_Dupedkey;
} rn_leaf;
struct { /* node only data: */
int rn_Off; /* where to start compare */
struct radix_node *rn_L;/* progeny */
struct radix_node *rn_R;/* progeny */
} rn_node;
} rn_u;
#ifdef RN_DEBUG
int rn_info;
struct radix_node *rn_twin;
struct radix_node *rn_ybro;
#endif
};
#define rn_dupedkey rn_u.rn_leaf.rn_Dupedkey
#define rn_key rn_u.rn_leaf.rn_Key
#define rn_mask rn_u.rn_leaf.rn_Mask
#define rn_off rn_u.rn_node.rn_Off
#define rn_l rn_u.rn_node.rn_L
#define rn_r rn_u.rn_node.rn_R
/*
* Annotations to tree concerning potential routes applying to subtrees.
*/
struct radix_mask {
short rm_b; /* bit offset; -1-index(netmask) */
char rm_unused; /* cf. rn_bmask */
u_char rm_flags; /* cf. rn_flags */
struct radix_mask *rm_mklist; /* more masks to try */
union {
caddr_t rmu_mask; /* the mask */
struct radix_node *rmu_leaf; /* for normal routes */
} rm_rmu;
int rm_refs; /* # of references to this struct */
};
#define rm_mask rm_rmu.rmu_mask
#define rm_leaf rm_rmu.rmu_leaf /* extra field would make 32 bytes */
#define MKGet(m) {\
if (rn_mkfreelist) {\
m = rn_mkfreelist; \
rn_mkfreelist = (m)->rm_mklist; \
} else \
R_Malloc(m, struct radix_mask *, sizeof (*(m))); }\
#define MKFree(m) { (m)->rm_mklist = rn_mkfreelist; rn_mkfreelist = (m);}
struct radix_node_head {
struct radix_node *rnh_treetop;
struct radix_node *rnh_leaflist;
u_long rnh_hits;
u_int rnh_number;
u_int rnh_ref;
int rnh_addrsize; /* permit, but not require fixed keys */
int rnh_pktsize; /* permit, but not require fixed keys */
struct radix_node *(*rnh_addaddr) /* add based on sockaddr */
__P((void *v, void *mask,
struct radix_node_head *head, struct radix_node nodes[]));
struct radix_node *(*rnh_addpkt) /* add based on packet hdr */
__P((void *v, void *mask,
struct radix_node_head *head, struct radix_node nodes[]));
struct radix_node *(*rnh_deladdr) /* remove based on sockaddr */
__P((void *v, void *mask, struct radix_node_head *head));
struct radix_node *(*rnh_delpkt) /* remove based on packet hdr */
__P((void *v, void *mask, struct radix_node_head *head));
struct radix_node *(*rnh_matchaddr) /* locate based on sockaddr */
__P((void *v, struct radix_node_head *head));
struct radix_node *(*rnh_lookup) /* locate based on sockaddr */
__P((void *v, void *mask, struct radix_node_head *head));
struct radix_node *(*rnh_matchpkt) /* locate based on packet hdr */
__P((void *v, struct radix_node_head *head));
int (*rnh_walktree) /* traverse tree */
__P((struct radix_node_head *,
int (*)(struct radix_node *, void *), void *));
struct radix_node rnh_nodes[3]; /* empty tree for common case */
};
#define Bcmp(a, b, n) bcmp(((caddr_t)(a)), ((caddr_t)(b)), (unsigned)(n))
#if defined(linux) && defined(_KERNEL)
# define Bcopy(a, b, n) memmove(((caddr_t)(b)), ((caddr_t)(a)), (unsigned)(n))
#else
# define Bcopy(a, b, n) bcopy(((caddr_t)(a)), ((caddr_t)(b)), (unsigned)(n))
#endif
#define Bzero(p, n) bzero((caddr_t)(p), (unsigned)(n));
#define R_Malloc(p, t, n) KMALLOCS(p, t, n)
#define FreeS(p, z) KFREES(p, z)
#define Free(p) KFREE(p)
#if (defined(__osf__) || (IRIX >= 60516)) && defined(_KERNEL)
# define rn_init ipf_rn_init
# define rn_fini ipf_rn_fini
# define rn_inithead ipf_rn_inithead
# define rn_freehead ipf_rn_freehead
# define rn_inithead0 ipf_rn_inithead0
# define rn_refines ipf_rn_refines
# define rn_walktree ipf_rn_walktree
# define rn_addmask ipf_rn_addmask
# define rn_addroute ipf_rn_addroute
# define rn_delete ipf_rn_delete
# define rn_insert ipf_rn_insert
# define rn_lookup ipf_rn_lookup
# define rn_match ipf_rn_match
# define rn_newpair ipf_rn_newpair
# define rn_search ipf_rn_search
# define rn_search_m ipf_rn_search_m
# define max_keylen ipf_maxkeylen
# define rn_mkfreelist ipf_rn_mkfreelist
# define rn_zeros ipf_rn_zeros
# define rn_ones ipf_rn_ones
# define rn_satisfies_leaf ipf_rn_satisfies_leaf
# define rn_lexobetter ipf_rn_lexobetter
# define rn_new_radix_mask ipf_rn_new_radix_mask
# define rn_freenode ipf_rn_freenode
#endif
void rn_init __P((void));
void rn_fini __P((void));
int rn_inithead __P((void **, int));
void rn_freehead __P((struct radix_node_head *));
int rn_inithead0 __P((struct radix_node_head *, int));
int rn_refines __P((void *, void *));
int rn_walktree __P((struct radix_node_head *,
int (*)(struct radix_node *, void *), void *));
struct radix_node
*rn_addmask __P((void *, int, int)),
*rn_addroute __P((void *, void *, struct radix_node_head *,
struct radix_node [2])),
*rn_delete __P((void *, void *, struct radix_node_head *)),
*rn_insert __P((void *, struct radix_node_head *, int *,
struct radix_node [2])),
*rn_lookup __P((void *, void *, struct radix_node_head *)),
*rn_match __P((void *, struct radix_node_head *)),
*rn_newpair __P((void *, int, struct radix_node[2])),
*rn_search __P((void *, struct radix_node *)),
*rn_search_m __P((void *, struct radix_node *, void *));
#endif /* _NET_RADIX_H_ */