/* $OpenBSD: pfvar.h,v 1.107 2002/12/01 19:54:32 mcbride 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 #include #include 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, PF_REPLYTO=4 }; enum { PF_LIMIT_STATES=0, PF_LIMIT_FRAGS=1, PF_LIMIT_MAX=2 }; enum { PF_POOL_RULE_RT=0, PF_POOL_NAT_R=1, PF_POOL_RDR_R=2 }; #define PF_POOL_IDMASK 0x0f #define PF_POOL_LAST 0x10 enum { PF_POOL_NONE=0, PF_POOL_BITMASK=1, PF_POOL_RANDOM=2, PF_POOL_SRCHASH=3, PF_POOL_ROUNDROBIN=4 }; #define PF_POOL_TYPEMASK 0x0f #define PF_POOL_STATICPORT 0x10 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]; char ifname[IFNAMSIZ]; } pfa; /* 128-bit address */ #define v4 pfa.v4 #define v6 pfa.v6 #define addr8 pfa.addr8 #define addr16 pfa.addr16 #define addr32 pfa.addr32 }; struct pf_addr_wrap { struct pf_addr addr; struct pf_addr mask; struct pf_addr_dyn *addr_dyn; }; struct pf_addr_dyn { char ifname[IFNAMSIZ]; struct ifnet *ifp; struct pf_addr *addr; sa_family_t af; void *hook_cookie; u_int8_t undefined; }; /* * 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]) || \ ((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]) || \ ((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]) || \ (!(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) #define PF_AINC(a, f) \ pf_addr_inc(a, f) #define PF_POOLMASK(a, b, c, d, f) \ pf_poolmask(a, b, c, d, 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) #define PF_AINC(a, f) \ pf_addr_inc(a, f) #define PF_POOLMASK(a, b, c, d, f) \ pf_poolmask(a, b, c, d, 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 #define PF_AINC(a, f) \ do { \ (a)->addr32[0] = htonl(ntohl((a)->addr32[0]) + 1); \ } while (0) #define PF_POOLMASK(a, b, c, d, f) \ do { \ (a)->addr32[0] = ((b)->addr32[0] & (c)->addr32[0]) | \ (((c)->addr32[0] ^ 0xffffffff ) & (d)->addr32[0]); \ } while (0) #endif /* PF_INET_ONLY */ #endif /* PF_INET6_ONLY */ #endif /* PF_INET_INET6 */ struct pf_rule_uid { uid_t uid[2]; u_int8_t op; }; struct pf_rule_gid { uid_t gid[2]; u_int8_t op; }; struct pf_rule_addr { struct pf_addr_wrap addr; u_int16_t port[2]; u_int8_t not; u_int8_t port_op; u_int8_t noroute; }; struct pf_pooladdr { struct pf_addr_wrap addr; TAILQ_ENTRY(pf_pooladdr) entries; char ifname[IFNAMSIZ]; struct ifnet *ifp; }; TAILQ_HEAD(pf_palist, pf_pooladdr); struct pf_poolhashkey { union { u_int8_t key8[16]; u_int16_t key16[8]; u_int32_t key32[4]; } pfk; /* 128-bit hash key */ #define key8 pfk.key8 #define key16 pfk.key16 #define key32 pfk.key32 }; struct pf_pool { struct pf_palist list; struct pf_pooladdr *cur; struct pf_poolhashkey key; struct pf_addr counter; u_int8_t opts; }; struct pf_rule { struct pf_rule_addr src; struct pf_rule_addr dst; #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]; #define PF_RULE_LABEL_SIZE 64 char label[PF_RULE_LABEL_SIZE]; u_int32_t timeout[PFTM_MAX]; #define PF_QNAME_SIZE 16 char ifname[IFNAMSIZ]; char qname[PF_QNAME_SIZE]; TAILQ_ENTRY(pf_rule) entries; struct pf_pool rt_pool; u_int64_t evaluations; u_int64_t packets; u_int64_t bytes; struct ifnet *ifp; u_int32_t states; u_int32_t max_states; u_int32_t qid; u_int32_t rt_listid; u_int16_t nr; u_int16_t return_icmp; u_int16_t return_icmp6; u_int16_t max_mss; struct pf_rule_uid uid; struct pf_rule_gid gid; u_int8_t action; u_int8_t direction; u_int8_t log; u_int8_t quick; u_int8_t ifnot; #define PF_STATE_NORMAL 0x1 #define PF_STATE_MODULATE 0x2 u_int8_t keep_state; sa_family_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; u_int8_t allow_opts; u_int8_t rt; u_int8_t return_ttl; u_int8_t tos; }; #define PFRULE_DROP 0x00 #define PFRULE_RETURNRST 0x01 #define PFRULE_NODF 0x02 #define PFRULE_FRAGMENT 0x04 #define PFRULE_RETURNICMP 0x08 #define PFRULE_FRAGCROP 0x10 /* non-buffering frag cache */ #define PFRULE_FRAGDROP 0x20 /* drop funny fragments */ #define PFRULE_RETURN 0x40 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 { 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; union { struct pf_rule *ptr; u_int32_t nr; } rule; struct pf_addr rt_addr; struct ifnet *rt_ifp; u_int32_t creation; u_int32_t expire; u_int32_t packets; u_int32_t bytes; sa_family_t af; u_int8_t proto; u_int8_t direction; u_int8_t log; u_int8_t allow_opts; u_int8_t pad[3]; }; struct pf_tree_node { RB_ENTRY(pf_tree_node) entry; struct pf_state *state; struct pf_addr addr[2]; u_int16_t port[2]; sa_family_t af; u_int8_t proto; }; struct pf_nat { struct pf_rule_addr src; struct pf_rule_addr dst; struct pf_pool rpool; struct pf_pooladdr *rcur; char ifname[IFNAMSIZ]; struct ifnet *ifp; TAILQ_ENTRY(pf_nat) entries; u_int32_t rlistid; u_int16_t proxy_port[2]; sa_family_t af; u_int8_t proto; 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_wrap saddr; struct pf_addr_wrap daddr; struct pf_addr_wrap raddr; sa_family_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_wrap saddr; struct pf_addr_wrap daddr; struct pf_pool rpool; struct pf_pooladdr *rcur; u_int32_t rlistid; u_int16_t dport; u_int16_t dport2; u_int16_t rport; sa_family_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; }; 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 */ sa_family_t af; u_int8_t proto; u_int8_t tos; }; /* 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 \ } /* UDP state enumeration */ #define PFUDPS_NO_TRAFFIC 0 #define PFUDPS_SINGLE 1 #define PFUDPS_MULTIPLE 2 #define PFUDPS_NSTATES 3 /* number of state levels */ #define PFUDPS_NAMES { \ "NO TRAFFIC", \ "SINGLE", \ "MULTIPLE", \ NULL \ } /* Other protocol state enumeration */ #define PFOTHERS_NO_TRAFFIC 0 #define PFOTHERS_SINGLE 1 #define PFOTHERS_MULTIPLE 2 #define PFOTHERS_NSTATES 3 /* number of state levels */ #define PFOTHERS_NAMES { \ "NO TRAFFIC", \ "SINGLE", \ "MULTIPLE", \ NULL \ } #define FCNT_STATE_SEARCH 0 #define FCNT_STATE_INSERT 1 #define FCNT_STATE_REMOVALS 2 #define FCNT_MAX 3 #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; char ifname[IFNAMSIZ]; }; struct cbq_opts { u_int minburst; u_int maxburst; u_int pktsize; u_int maxpktsize; u_int ns_per_byte; u_int maxidle; int minidle; u_int offtime; int flags; }; struct hfsc_opts { u_int rt_m1; u_int rt_d; u_int rt_m2; u_int ls_m1; u_int ls_d; u_int ls_m2; int flags; }; struct pf_altq { char ifname[IFNAMSIZ]; void *altq_disc; /* discipline-specific state */ TAILQ_ENTRY(pf_altq) entries; /* scheduler spec */ u_int8_t scheduler; /* scheduler type */ u_int16_t tbrsize; /* tokenbuket regulator size */ u_int32_t ifbandwidth; /* interface bandwidth */ /* queue spec */ char qname[PF_QNAME_SIZE]; /* queue name */ char parent[PF_QNAME_SIZE]; /* parent name */ u_int32_t parent_qid; /* parent queue id */ u_int32_t bandwidth; /* queue bandwidth */ u_int8_t priority; /* priority */ u_int16_t qlimit; /* queue size limit */ u_int16_t flags; /* misc flags */ union { struct cbq_opts cbq_opts; struct hfsc_opts hfsc_opts; /* and other discipline specific options */ } pq_u; u_int32_t qid; /* return value */ }; #define PFFRAG_FRENT_HIWAT 5000 /* Number of fragment entries */ #define PFFRAG_FRAG_HIWAT 1000 /* Number of fragmented packets */ #define PFFRAG_FRCENT_HIWAT 50000 /* Number of fragment cache entries */ #define PFFRAG_FRCACHE_HIWAT 10000 /* Number of fragment descriptors */ /* * ioctl parameter structures */ struct pfioc_pooladdr { u_int32_t ticket; u_int32_t nr; u_int32_t r_num; u_int8_t r_id; u_int8_t af; struct pf_pooladdr addr; }; struct pfioc_changeaddr { u_int32_t action; u_int32_t r_num; u_int8_t r_id; u_int8_t af; struct pf_pooladdr newaddr; struct pf_pooladdr oldaddr; }; struct pfioc_rule { u_int32_t ticket; u_int32_t pool_ticket; u_int32_t nr; struct pf_rule rule; }; struct pfioc_changerule { u_int32_t pool_ticket; u_int32_t action; struct pf_rule oldrule; struct pf_rule newrule; }; struct pfioc_nat { u_int32_t ticket; u_int32_t pool_ticket; u_int32_t nr; struct pf_nat nat; }; struct pfioc_changenat { u_int32_t pool_ticket; 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; sa_family_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 pool_ticket; u_int32_t nr; struct pf_rdr rdr; }; struct pfioc_changerdr { u_int32_t pool_ticket; 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 */ sa_family_t 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; }; struct pfioc_altq { u_int32_t ticket; u_int32_t nr; struct pf_altq altq; }; struct pfioc_changealtq { u_int32_t action; struct pf_altq oldaltq; struct pf_altq newaltq; }; struct pfioc_qstats { u_int32_t ticket; u_int32_t nr; void *buf; int nbytes; u_int8_t scheduler; }; /* * 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) #define DIOCSTARTALTQ _IO ('D', 42) #define DIOCSTOPALTQ _IO ('D', 43) #define DIOCBEGINALTQS _IOWR('D', 44, u_int32_t) #define DIOCADDALTQ _IOWR('D', 45, struct pfioc_altq) #define DIOCCOMMITALTQS _IOWR('D', 46, u_int32_t) #define DIOCGETALTQS _IOWR('D', 47, struct pfioc_altq) #define DIOCGETALTQ _IOWR('D', 48, struct pfioc_altq) #define DIOCCHANGEALTQ _IOWR('D', 49, struct pfioc_altq) #define DIOCGETQSTATS _IOWR('D', 50, struct pfioc_qstats) #define DIOCBEGINADDRS _IOWR('D', 51, u_int32_t) #define DIOCADDADDR _IOWR('D', 52, struct pfioc_pooladdr) #define DIOCGETADDRS _IOWR('D', 53, struct pfioc_pooladdr) #define DIOCGETADDR _IOWR('D', 54, struct pfioc_pooladdr) #define DIOCCHANGEADDR _IOWR('D', 55, struct pfioc_changeaddr) #ifdef _KERNEL RB_HEAD(pf_state_tree, pf_tree_node); RB_PROTOTYPE(pf_state_tree, pf_tree_node, entry, pf_state_compare); extern struct pf_state_tree tree_lan_ext, tree_ext_gwy; extern struct pf_rulequeue pf_rules[2]; TAILQ_HEAD(pf_natqueue, pf_nat); extern struct pf_natqueue pf_nats[2]; TAILQ_HEAD(pf_binatqueue, pf_binat); extern struct pf_binatqueue pf_binats[2]; TAILQ_HEAD(pf_rdrqueue, pf_rdr); extern struct pf_rdrqueue pf_rdrs[2]; TAILQ_HEAD(pf_poolqueue, pf_pool); extern struct pf_poolqueue pf_pools[2]; TAILQ_HEAD(pf_altqqueue, pf_altq); extern struct pf_altqqueue pf_altqs[2]; extern struct pf_palist pf_pabuf[2]; extern u_int32_t ticket_rules_active; extern u_int32_t ticket_rules_active; extern u_int32_t ticket_rules_inactive; extern u_int32_t ticket_nats_active; extern u_int32_t ticket_nats_inactive; extern u_int32_t ticket_binats_active; extern u_int32_t ticket_binats_inactive; extern u_int32_t ticket_rdrs_active; extern u_int32_t ticket_rdrs_inactive; extern u_int32_t ticket_rules_inactive; extern u_int32_t ticket_altqs_active; extern u_int32_t ticket_altqs_inactive; extern u_int32_t ticket_pabuf; extern struct pf_rulequeue *pf_rules_active; extern struct pf_rulequeue *pf_rules_inactive; extern struct pf_natqueue *pf_nats_active; extern struct pf_natqueue *pf_nats_inactive; extern struct pf_binatqueue *pf_binats_active; extern struct pf_binatqueue *pf_binats_inactive; extern struct pf_rdrqueue *pf_rdrs_active; extern struct pf_rdrqueue *pf_rdrs_inactive; extern struct pf_altqqueue *pf_altqs_active; extern struct pf_altqqueue *pf_altqs_inactive; extern struct pf_poolqueue *pf_pools_active; extern struct pf_poolqueue *pf_pools_inactive; extern void pf_dynaddr_remove(struct pf_addr_wrap *); extern int pf_dynaddr_setup(struct pf_addr_wrap *, u_int8_t); extern void pf_calc_skip_steps(struct pf_rulequeue *); extern void pf_dynaddr_copyout(struct pf_addr_wrap *); extern struct pool pf_tree_pl, pf_rule_pl, pf_nat_pl; extern struct pool pf_rdr_pl, pf_state_pl, pf_binat_pl, pf_addr_pl; extern struct pool pf_altq_pl; extern struct pool pf_pooladdr_pl; extern void pf_purge_timeout(void *); extern int pftm_interval; extern void pf_purge_expired_states(void); extern int pf_insert_state(struct pf_state *); extern struct pf_state *pf_find_state(struct pf_state_tree *, struct pf_tree_node *); extern struct ifnet *status_ifp; extern int *pftm_timeouts[PFTM_MAX]; extern void pf_addrcpy(struct pf_addr *, struct pf_addr *, u_int8_t); #ifdef INET int pf_test(int, struct ifnet *, struct mbuf **); #endif /* INET */ #ifdef INET6 int pf_test6(int, struct ifnet *, struct mbuf **); #endif /* INET */ int pflog_packet(struct ifnet *, struct mbuf *, sa_family_t, u_short, u_short, struct pf_rule *); int pf_match_addr(u_int8_t, struct pf_addr *, struct pf_addr *, struct pf_addr *, sa_family_t); int pf_match(u_int8_t, u_int16_t, u_int16_t, u_int16_t); int pf_match_port(u_int8_t, u_int16_t, u_int16_t, u_int16_t); int pf_match_uid(u_int8_t, uid_t, uid_t, uid_t); int pf_match_gid(u_int8_t, gid_t, gid_t, gid_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, sa_family_t af); extern struct pf_rulequeue *pf_rules_active; extern struct pf_status pf_status; extern struct pool pf_frent_pl, pf_frag_pl; struct pf_pool_limit { void *pp; unsigned limit; }; extern struct pf_pool_limit pf_pool_limits[PF_LIMIT_MAX]; #endif /* _KERNEL */ #endif /* _NET_PFVAR_H_ */