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|
/* $OpenBSD: pfvar.h,v 1.67 2002/04/23 14:32:22 dhartmei Exp $ */
/*
* Copyright (c) 2001 Daniel Hartmeier
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* - Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* - 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 COPYRIGHT HOLDERS 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
* COPYRIGHT HOLDERS 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 _NET_PFVAR_H_
#define _NET_PFVAR_H_
#include <sys/types.h>
#include <sys/queue.h>
enum { PF_IN=0, PF_OUT=1 };
enum { PF_PASS=0, PF_DROP=1, PF_SCRUB=2 };
enum { PF_OP_IRG=1, PF_OP_EQ=2, PF_OP_NE=3, PF_OP_LT=4,
PF_OP_LE=5, PF_OP_GT=6, PF_OP_GE=7, PF_OP_XRG=8 };
enum { PF_DEBUG_NONE=0, PF_DEBUG_URGENT=1, PF_DEBUG_MISC=2 };
enum { PF_CHANGE_ADD_HEAD=1, PF_CHANGE_ADD_TAIL=2,
PF_CHANGE_ADD_BEFORE=3, PF_CHANGE_ADD_AFTER=4,
PF_CHANGE_REMOVE=5 };
enum { PFTM_TCP_FIRST_PACKET=0, PFTM_TCP_OPENING=1, PFTM_TCP_ESTABLISHED=2,
PFTM_TCP_CLOSING=3, PFTM_TCP_FIN_WAIT=4, PFTM_TCP_CLOSED=5,
PFTM_UDP_FIRST_PACKET=6, PFTM_UDP_SINGLE=7, PFTM_UDP_MULTIPLE=8,
PFTM_ICMP_FIRST_PACKET=9, PFTM_ICMP_ERROR_REPLY=10,
PFTM_OTHER_FIRST_PACKET=11, PFTM_OTHER_SINGLE=12,
PFTM_OTHER_MULTIPLE=13, PFTM_FRAG=14, PFTM_INTERVAL=15, PFTM_MAX=16 };
enum { PF_FASTROUTE=1, PF_ROUTETO=2, PF_DUPTO=3 };
enum { PF_LIMIT_STATES=0, PF_LIMIT_FRAGS=1, PF_LIMIT_MAX=2 };
struct pf_addr {
union {
struct in_addr v4;
struct in6_addr v6;
u_int8_t addr8[16];
u_int16_t addr16[8];
u_int32_t addr32[4];
} pfa; /* 128-bit address */
#define v4 pfa.v4
#define v6 pfa.v6
#define addr8 pfa.addr8
#define addr16 pfa.addr16
#define addr32 pfa.addr32
};
/*
* Address manipulation macros
*/
#ifdef _KERNEL
#ifdef INET
#ifndef INET6
#define PF_INET_ONLY
#endif /* ! INET6 */
#endif /* INET */
#ifdef INET6
#ifndef INET
#define PF_INET6_ONLY
#endif /* ! INET */
#endif /* INET6 */
#ifdef INET
#ifdef INET6
#define PF_INET_INET6
#endif /* INET6 */
#endif /* INET */
#else
#define PF_INET_INET6
#endif /* _KERNEL */
/* Both IPv4 and IPv6 */
#ifdef PF_INET_INET6
#define PF_AEQ(a, b, c) \
((c == AF_INET && (a)->addr32[0] == (b)->addr32[0]) || \
(c == AF_INET6 && (a)->addr32[0] == (b)->addr32[0] && \
(a)->addr32[1] == (b)->addr32[1] && \
(a)->addr32[2] == (b)->addr32[2] && \
(a)->addr32[3] == (b)->addr32[3])) \
#define PF_ANEQ(a, b, c) \
((c == AF_INET && (a)->addr32[0] != (b)->addr32[0]) || \
(c == AF_INET6 && ((a)->addr32[0] != (b)->addr32[0] || \
(a)->addr32[1] != (b)->addr32[1] || \
(a)->addr32[2] != (b)->addr32[2] || \
(a)->addr32[3] != (b)->addr32[3]))) \
#define PF_AZERO(a, c) \
((c == AF_INET && !(a)->addr32[0]) || \
(c == AF_INET6 && !(a)->addr32[0] && \
!(a)->addr32[1] && !(a)->addr32[2] && \
!(a)->addr32[3] )) \
#define PF_MATCHA(n, a, m, b, f) \
pf_match_addr(n, a, m, b, f)
#define PF_ACPY(a, b, f) \
pf_addrcpy(a, b, f)
#else
/* Just IPv6 */
#ifdef PF_INET6_ONLY
#define PF_AEQ(a, b, c) \
((a)->addr32[0] == (b)->addr32[0] && \
(a)->addr32[1] == (b)->addr32[1] && \
(a)->addr32[2] == (b)->addr32[2] && \
(a)->addr32[3] == (b)->addr32[3]) \
#define PF_ANEQ(a, b, c) \
((a)->addr32[0] != (b)->addr32[0] || \
(a)->addr32[1] != (b)->addr32[1] || \
(a)->addr32[2] != (b)->addr32[2] || \
(a)->addr32[3] != (b)->addr32[3]) \
#define PF_AZERO(a, c) \
(!(a)->addr32[0] && \
!(a)->addr32[1] && \
!(a)->addr32[2] && \
!(a)->addr32[3] ) \
#define PF_MATCHA(n, a, m, b, f) \
pf_match_addr(n, a, m, b, f)
#define PF_ACPY(a, b, f) \
pf_addrcpy(a, b, f)
#else
/* Just IPv4 */
#ifdef PF_INET_ONLY
#define PF_AEQ(a, b, c) \
((a)->addr32[0] == (b)->addr32[0])
#define PF_ANEQ(a, b, c) \
((a)->addr32[0] != (b)->addr32[0])
#define PF_AZERO(a, c) \
(!(a)->addr32[0])
#define PF_MATCHA(n, a, m, b, f) \
pf_match_addr(n, a, m, b, f)
#define PF_ACPY(a, b, f) \
(a)->v4.s_addr = (b)->v4.s_addr
#endif /* PF_INET_ONLY */
#endif /* PF_INET6_ONLY */
#endif /* PF_INET_INET6 */
struct pf_rule_addr {
struct pf_addr addr;
struct pf_addr mask;
u_int16_t port[2];
u_int8_t not;
u_int8_t port_op;
u_int8_t noroute;
};
struct pf_rule {
char ifname[IFNAMSIZ];
char rt_ifname[IFNAMSIZ];
#define PF_RULE_LABEL_SIZE 32
char label[PF_RULE_LABEL_SIZE];
struct ifnet *ifp;
struct ifnet *rt_ifp;
struct pf_rule_addr src;
struct pf_rule_addr dst;
struct pf_addr rt_addr;
#define PF_SKIP_ACTION 0
#define PF_SKIP_IFP 1
#define PF_SKIP_DIR 2
#define PF_SKIP_AF 3
#define PF_SKIP_PROTO 4
#define PF_SKIP_SRC_ADDR 5
#define PF_SKIP_SRC_PORT 6
#define PF_SKIP_DST_ADDR 7
#define PF_SKIP_DST_PORT 8
#define PF_SKIP_COUNT 9
struct pf_rule *skip[PF_SKIP_COUNT];
TAILQ_ENTRY(pf_rule) entries;
u_int64_t evaluations;
u_int64_t packets;
u_int64_t bytes;
u_int16_t nr;
u_int16_t return_icmp;
u_int8_t action;
u_int8_t direction;
u_int8_t log;
u_int8_t quick;
#define PF_STATE_NORMAL 0x1
#define PF_STATE_MODULATE 0x2
u_int8_t keep_state;
u_int8_t af;
u_int8_t proto;
u_int8_t type;
u_int8_t code;
u_int8_t flags;
u_int8_t flagset;
u_int8_t rule_flag;
u_int8_t min_ttl; /* minimum ttl for packet normalize */
u_int8_t allow_opts;
u_int8_t rt;
};
#define PFRULE_RETURNRST 0x01
#define PFRULE_NODF 0x02
#define PFRULE_FRAGMENT 0x04
struct pf_state_host {
struct pf_addr addr;
u_int16_t port;
u_int16_t pad;
};
struct pf_state_peer {
u_int32_t seqlo; /* Max sequence number sent */
u_int32_t seqhi; /* Max the other end ACKd + win */
u_int32_t seqdiff; /* Sequence number modulator */
u_int16_t max_win;
u_int8_t state;
u_int8_t pad;
};
struct pf_state {
TAILQ_ENTRY(pf_state) entries;
struct pf_state_host lan;
struct pf_state_host gwy;
struct pf_state_host ext;
struct pf_state_peer src;
struct pf_state_peer dst;
struct pf_rule *rule;
u_int32_t creation;
u_int32_t expire;
u_int32_t packets;
u_int32_t bytes;
u_int8_t af;
u_int8_t proto;
u_int8_t direction;
u_int8_t log;
u_int8_t allow_opts;
};
struct pf_nat {
char ifname[IFNAMSIZ];
struct ifnet *ifp;
TAILQ_ENTRY(pf_nat) entries;
struct pf_addr saddr;
struct pf_addr smask;
struct pf_addr daddr;
struct pf_addr dmask;
struct pf_addr raddr;
u_int8_t af;
u_int8_t proto;
u_int8_t snot;
u_int8_t dnot;
u_int8_t ifnot;
u_int8_t no;
};
struct pf_binat {
char ifname[IFNAMSIZ];
struct ifnet *ifp;
TAILQ_ENTRY(pf_binat) entries;
struct pf_addr saddr;
struct pf_addr daddr;
struct pf_addr dmask;
struct pf_addr raddr;
u_int8_t af;
u_int8_t proto;
u_int8_t dnot;
u_int8_t no;
};
struct pf_rdr {
char ifname[IFNAMSIZ];
struct ifnet *ifp;
TAILQ_ENTRY(pf_rdr) entries;
struct pf_addr saddr;
struct pf_addr smask;
struct pf_addr daddr;
struct pf_addr dmask;
struct pf_addr raddr;
u_int16_t dport;
u_int16_t dport2;
u_int16_t rport;
u_int8_t af;
u_int8_t proto;
u_int8_t snot;
u_int8_t dnot;
u_int8_t ifnot;
u_int8_t opts;
u_int8_t no;
};
struct pf_tree_key {
struct pf_addr addr[2];
u_int16_t port[2];
u_int8_t proto;
u_int8_t af;
};
TAILQ_HEAD(pf_rulequeue, pf_rule);
struct pf_pdesc {
u_int64_t tot_len; /* Make Mickey money */
union {
struct tcphdr *tcp;
struct udphdr *udp;
struct icmp *icmp;
#ifdef INET6
struct icmp6_hdr *icmp6;
#endif /* INET6 */
void *any;
} hdr;
struct pf_addr *src;
struct pf_addr *dst;
u_int16_t *ip_sum;
u_int32_t p_len; /* total length of payload */
u_int16_t flags; /* Let SCRUB trigger behavior in
* state code. Easier than tags */
u_int8_t af;
u_int8_t proto;
};
/* flags for RDR options */
#define PF_DPORT_RANGE 0x01 /* Dest port uses range */
#define PF_RPORT_RANGE 0x02 /* RDR'ed port uses range */
/* Reasons code for passing/dropping a packet */
#define PFRES_MATCH 0 /* Explicit match of a rule */
#define PFRES_BADOFF 1 /* Bad offset for pull_hdr */
#define PFRES_FRAG 2 /* Dropping following fragment */
#define PFRES_SHORT 3 /* Dropping short packet */
#define PFRES_NORM 4 /* Dropping by normalizer */
#define PFRES_MEMORY 5 /* Dropped due to lacking mem */
#define PFRES_MAX 6 /* total+1 */
#define PFRES_NAMES { \
"match", \
"bad-offset", \
"fragment", \
"short", \
"normalize", \
"memory", \
NULL \
}
#define FCNT_STATE_SEARCH 0
#define FCNT_STATE_INSERT 1
#define FCNT_STATE_REMOVALS 2
#define FCNT_MAX 3
#define FCNT_NAMES { \
"state searches", \
"state inserts", \
"state removals", \
NULL \
}
#define ACTION_SET(a, x) \
do { \
if ((a) != NULL) \
*(a) = (x); \
} while (0)
#define REASON_SET(a, x) \
do { \
if ((a) != NULL) \
*(a) = (x); \
if (x < PFRES_MAX) \
pf_status.counters[x]++; \
} while (0)
struct pf_status {
u_int64_t counters[PFRES_MAX];
u_int64_t fcounters[FCNT_MAX];
u_int64_t pcounters[2][2][3];
u_int64_t bcounters[2][2];
u_int32_t running;
u_int32_t states;
u_int32_t since;
u_int32_t debug;
};
#define PFFRAG_FRENT_HIWAT 5000 /* Number of fragment entries */
#define PFFRAG_FRAG_HIWAT 1000 /* Number of fragmented packets */
/*
* ioctl parameter structures
*/
struct pfioc_rule {
u_int32_t ticket;
u_int32_t nr;
struct pf_rule rule;
};
struct pfioc_changerule {
u_int32_t action;
struct pf_rule oldrule;
struct pf_rule newrule;
};
struct pfioc_nat {
u_int32_t ticket;
u_int32_t nr;
struct pf_nat nat;
};
struct pfioc_changenat {
u_int32_t action;
struct pf_nat oldnat;
struct pf_nat newnat;
};
struct pfioc_natlook {
struct pf_addr saddr;
struct pf_addr daddr;
struct pf_addr rsaddr;
struct pf_addr rdaddr;
u_int16_t sport;
u_int16_t dport;
u_int16_t rsport;
u_int16_t rdport;
u_int8_t af;
u_int8_t proto;
u_int8_t direction;
};
struct pfioc_binat {
u_int32_t ticket;
u_int32_t nr;
struct pf_binat binat;
};
struct pfioc_changebinat {
u_int32_t action;
struct pf_binat oldbinat;
struct pf_binat newbinat;
};
struct pfioc_rdr {
u_int32_t ticket;
u_int32_t nr;
struct pf_rdr rdr;
};
struct pfioc_changerdr {
u_int32_t action;
struct pf_rdr oldrdr;
struct pf_rdr newrdr;
};
struct pfioc_state {
u_int32_t nr;
struct pf_state state;
};
struct pfioc_state_kill {
/* XXX returns the number of states killed in psk_af */
int psk_af;
int psk_proto;
struct pf_rule_addr psk_src;
struct pf_rule_addr psk_dst;
};
struct pfioc_states {
int ps_len;
union {
caddr_t psu_buf;
struct pf_state *psu_states;
} ps_u;
#define ps_buf ps_u.psu_buf
#define ps_states ps_u.psu_states
};
struct pfioc_if {
char ifname[IFNAMSIZ];
};
struct pfioc_tm {
int timeout;
int seconds;
};
struct pfioc_limit {
int index;
unsigned limit;
};
/*
* ioctl operations
*/
#define DIOCSTART _IO ('D', 1)
#define DIOCSTOP _IO ('D', 2)
#define DIOCBEGINRULES _IOWR('D', 3, u_int32_t)
#define DIOCADDRULE _IOWR('D', 4, struct pfioc_rule)
#define DIOCCOMMITRULES _IOWR('D', 5, u_int32_t)
#define DIOCGETRULES _IOWR('D', 6, struct pfioc_rule)
#define DIOCGETRULE _IOWR('D', 7, struct pfioc_rule)
#define DIOCBEGINNATS _IOWR('D', 8, u_int32_t)
#define DIOCADDNAT _IOWR('D', 9, struct pfioc_nat)
#define DIOCCOMMITNATS _IOWR('D', 10, u_int32_t)
#define DIOCGETNATS _IOWR('D', 11, struct pfioc_nat)
#define DIOCGETNAT _IOWR('D', 12, struct pfioc_nat)
#define DIOCBEGINRDRS _IOWR('D', 13, u_int32_t)
#define DIOCADDRDR _IOWR('D', 14, struct pfioc_rdr)
#define DIOCCOMMITRDRS _IOWR('D', 15, u_int32_t)
#define DIOCGETRDRS _IOWR('D', 16, struct pfioc_rdr)
#define DIOCGETRDR _IOWR('D', 17, struct pfioc_rdr)
#define DIOCCLRSTATES _IO ('D', 18)
#define DIOCGETSTATE _IOWR('D', 19, struct pfioc_state)
#define DIOCSETSTATUSIF _IOWR('D', 20, struct pfioc_if)
#define DIOCGETSTATUS _IOWR('D', 21, struct pf_status)
#define DIOCCLRSTATUS _IO ('D', 22)
#define DIOCNATLOOK _IOWR('D', 23, struct pfioc_natlook)
#define DIOCSETDEBUG _IOWR('D', 24, u_int32_t)
#define DIOCGETSTATES _IOWR('D', 25, struct pfioc_states)
#define DIOCCHANGERULE _IOWR('D', 26, struct pfioc_changerule)
#define DIOCCHANGENAT _IOWR('D', 27, struct pfioc_changenat)
#define DIOCCHANGERDR _IOWR('D', 28, struct pfioc_changerdr)
#define DIOCSETTIMEOUT _IOWR('D', 29, struct pfioc_tm)
#define DIOCGETTIMEOUT _IOWR('D', 30, struct pfioc_tm)
#define DIOCBEGINBINATS _IOWR('D', 31, u_int32_t)
#define DIOCADDBINAT _IOWR('D', 32, struct pfioc_binat)
#define DIOCCOMMITBINATS _IOWR('D', 33, u_int32_t)
#define DIOCGETBINATS _IOWR('D', 34, struct pfioc_binat)
#define DIOCGETBINAT _IOWR('D', 35, struct pfioc_binat)
#define DIOCCHANGEBINAT _IOWR('D', 36, struct pfioc_changebinat)
#define DIOCADDSTATE _IOWR('D', 37, struct pfioc_state)
#define DIOCCLRRULECTRS _IO ('D', 38)
#define DIOCGETLIMIT _IOWR('D', 39, struct pfioc_limit)
#define DIOCSETLIMIT _IOWR('D', 40, struct pfioc_limit)
#define DIOCKILLSTATES _IOWR('D', 41, struct pfioc_state_kill)
#ifdef _KERNEL
#ifdef INET
int pf_test(int, struct ifnet *, struct mbuf **);
#endif /* INET */
#ifdef INET6
int pf_test6(int, struct ifnet *, struct mbuf **);
#endif /* INET */
struct pf_tree_node;
struct pf_state
*pf_find_state(struct pf_tree_node *, struct pf_tree_key *);
int pf_tree_insert(struct pf_tree_node **, struct pf_tree_node *,
struct pf_tree_key *, struct pf_state *);
int pf_tree_remove(struct pf_tree_node **, struct pf_tree_node *,
struct pf_tree_key *);
int pflog_packet(struct ifnet *, struct mbuf *, int, u_short, u_short,
struct pf_rule *);
int pf_match_addr(u_int8_t, struct pf_addr *, struct pf_addr *,
struct pf_addr *, int);
int pf_match_port(u_int8_t, u_int16_t, u_int16_t, u_int16_t);
void pf_normalize_init(void);
int pf_normalize_ip(struct mbuf **, int, struct ifnet *, u_short *);
void pf_purge_expired_fragments(void);
int pf_routable(struct pf_addr *addr, int af);
extern struct pf_rulequeue *pf_rules_active;
extern struct pf_status pf_status;
extern struct pool pf_frent_pl, pf_frag_pl;
#endif /* _KERNEL */
#endif /* _NET_PFVAR_H_ */
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