sys/net/pf/pfvar.h
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2022 2023 2024 2025 2026 2027 2028 | /* * Copyright (c) 2010-2014 The DragonFly Project. All rights reserved. * Copyright (c) 2001 Daniel Hartmeier. All rights reserved. * Originally imported from OpenBSD. * * 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/param.h> #include <sys/types.h> #include <sys/limits.h> #include <sys/ioccom.h> #include <sys/queue.h> #include <sys/tree.h> #include <sys/lock.h> #include <net/radix.h> #include <net/if_clone.h> #include <netinet/in.h> #include <netinet/in_pcb.h> /* * XXX * If we include <netipsec/keydb.h>, we need _KERNEL definition. * This makes pfctl compilation difficult. */ union sockaddr_union { struct sockaddr sa; struct sockaddr_in sin; struct sockaddr_in6 sin6; }; #include <netinet/tcp_fsm.h> struct ip; struct ip6_hdr; struct pf_state; extern struct lwkt_token pf_token; extern struct lwkt_token pf_gtoken; #define PF_TCPS_PROXY_SRC ((TCP_NSTATES)+0) #define PF_TCPS_PROXY_DST ((TCP_NSTATES)+1) #define RTLABEL_LEN 32 #define BPF_DIRECTION_OUT (1<<1) #define PWAIT 0 #define RT_NUMFIBS 1 #define ALTQ_IS_ENABLED(ifq) ((ifq)->altq_flags & ALTQF_ENABLED) #define PF_MD5_DIGEST_LENGTH 16 #ifdef MD5_DIGEST_LENGTH #if PF_MD5_DIGEST_LENGTH != MD5_DIGEST_LENGTH #error #endif #endif enum { PF_INOUT, PF_IN, PF_OUT }; enum { PF_PASS, PF_DROP, PF_SCRUB, PF_NOSCRUB, PF_NAT, PF_NONAT, PF_BINAT, PF_NOBINAT, PF_RDR, PF_NORDR, PF_SYNPROXY_DROP }; enum { PF_RULESET_SCRUB, PF_RULESET_FILTER, PF_RULESET_NAT, PF_RULESET_BINAT, PF_RULESET_RDR, PF_RULESET_MAX }; enum { PF_OP_NONE, PF_OP_IRG, PF_OP_EQ, PF_OP_NE, PF_OP_LT, PF_OP_LE, PF_OP_GT, PF_OP_GE, PF_OP_XRG, PF_OP_RRG }; enum { PF_DEBUG_NONE, PF_DEBUG_URGENT, PF_DEBUG_MISC, PF_DEBUG_NOISY }; enum { PF_CHANGE_NONE, PF_CHANGE_ADD_HEAD, PF_CHANGE_ADD_TAIL, PF_CHANGE_ADD_BEFORE, PF_CHANGE_ADD_AFTER, PF_CHANGE_REMOVE, PF_CHANGE_GET_TICKET }; enum { PF_GET_NONE, PF_GET_CLR_CNTR }; enum { PF_SK_WIRE, PF_SK_STACK, PF_SK_BOTH }; /* * Note about PFTM_*: real indices into pf_rule.timeout[] come before * PFTM_MAX, special cases afterwards. See pf_state_expires(). */ enum { PFTM_TCP_FIRST_PACKET, PFTM_TCP_OPENING, PFTM_TCP_ESTABLISHED, PFTM_TCP_CLOSING, PFTM_TCP_FIN_WAIT, PFTM_TCP_CLOSED, PFTM_UDP_FIRST_PACKET, PFTM_UDP_SINGLE, PFTM_UDP_MULTIPLE, PFTM_ICMP_FIRST_PACKET, PFTM_ICMP_ERROR_REPLY, PFTM_OTHER_FIRST_PACKET, PFTM_OTHER_SINGLE, PFTM_OTHER_MULTIPLE, PFTM_FRAG, PFTM_INTERVAL, PFTM_ADAPTIVE_START, PFTM_ADAPTIVE_END, PFTM_SRC_NODE, PFTM_TS_DIFF, PFTM_MAX, PFTM_PURGE, PFTM_UNLINKED, PFTM_UNTIL_PACKET }; /* PFTM default values */ #define PFTM_TCP_FIRST_PACKET_VAL 120 /* First TCP packet */ #define PFTM_TCP_OPENING_VAL 30 /* No response yet */ #define PFTM_TCP_ESTABLISHED_VAL (24*60*60)/* Established */ #define PFTM_TCP_CLOSING_VAL (15 * 60) /* Half closed */ #define PFTM_TCP_FIN_WAIT_VAL 45 /* Got both FINs */ #define PFTM_TCP_CLOSED_VAL 90 /* Got a RST */ #define PFTM_UDP_FIRST_PACKET_VAL 60 /* First UDP packet */ #define PFTM_UDP_SINGLE_VAL 30 /* Unidirectional */ #define PFTM_UDP_MULTIPLE_VAL 60 /* Bidirectional */ #define PFTM_ICMP_FIRST_PACKET_VAL 20 /* First ICMP packet */ #define PFTM_ICMP_ERROR_REPLY_VAL 10 /* Got error response */ #define PFTM_OTHER_FIRST_PACKET_VAL 60 /* First packet */ #define PFTM_OTHER_SINGLE_VAL 30 /* Unidirectional */ #define PFTM_OTHER_MULTIPLE_VAL 60 /* Bidirectional */ #define PFTM_FRAG_VAL 30 /* Fragment expire */ #define PFTM_INTERVAL_VAL 10 /* Expire interval */ #define PFTM_SRC_NODE_VAL 0 /* Source tracking */ #define PFTM_TS_DIFF_VAL 30 /* Allowed TS diff */ enum { PF_NOPFROUTE, PF_FASTROUTE, PF_ROUTETO, PF_DUPTO, PF_REPLYTO }; enum { PF_LIMIT_STATES, PF_LIMIT_SRC_NODES, PF_LIMIT_FRAGS, PF_LIMIT_TABLES, PF_LIMIT_TABLE_ENTRIES, PF_LIMIT_MAX }; #define PF_POOL_IDMASK 0x0f enum { PF_POOL_NONE, PF_POOL_BITMASK, PF_POOL_RANDOM, PF_POOL_SRCHASH, PF_POOL_ROUNDROBIN }; enum { PF_ADDR_ADDRMASK, PF_ADDR_NOROUTE, PF_ADDR_DYNIFTL, PF_ADDR_TABLE, PF_ADDR_RTLABEL, PF_ADDR_URPFFAILED, PF_ADDR_RANGE }; #define PF_POOL_TYPEMASK 0x0f #define PF_POOL_STICKYADDR 0x20 #define PF_WSCALE_FLAG 0x80 #define PF_WSCALE_MASK 0x0f #define PF_LOG 0x01 #define PF_LOG_ALL 0x02 #define PF_LOG_SOCKET_LOOKUP 0x04 #define PR_WAITOK 0x0001 /* M_WAITOK */ #define PR_NOWAIT 0x0002 /* M_NOWAIT */ #define PR_LIMITFAIL 0x0004 /* M_CANFAIL */ #define PR_ZERO 0x0008 /* M_ZERO */ 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 }; #define PF_TABLE_NAME_SIZE 32 #define PFI_AFLAG_NETWORK 0x01 #define PFI_AFLAG_BROADCAST 0x02 #define PFI_AFLAG_PEER 0x04 #define PFI_AFLAG_MODEMASK 0x07 #define PFI_AFLAG_NOALIAS 0x08 struct pf_addr_wrap { union { struct { struct pf_addr addr; struct pf_addr mask; } a; char ifname[IFNAMSIZ]; char tblname[PF_TABLE_NAME_SIZE]; char rtlabelname[RTLABEL_LEN]; u_int32_t rtlabel; } v; union { struct pfi_dynaddr *dyn; struct pfr_ktable *tbl; int dyncnt; int tblcnt; } p; u_int8_t type; /* PF_ADDR_* */ u_int8_t iflags; /* PFI_AFLAG_* */ }; #ifdef _KERNEL #ifdef MALLOC_DECLARE MALLOC_DECLARE(M_PF); #endif struct pfi_dynaddr { TAILQ_ENTRY(pfi_dynaddr) entry; struct pf_addr pfid_addr4; struct pf_addr pfid_mask4; struct pf_addr pfid_addr6; struct pf_addr pfid_mask6; struct pfr_ktable *pfid_kt; struct pfi_kif *pfid_kif; void *pfid_hook_cookie; int pfid_net; /* mask or 128 */ int pfid_acnt4; /* address count IPv4 */ int pfid_acnt6; /* address count IPv6 */ sa_family_t pfid_af; /* rule af */ u_int8_t pfid_iflags; /* PFI_AFLAG_* */ }; /* * Address manipulation macros */ #define NTOHS(x) (x) = ntohs((__uint16_t)(x)) #define HTONS(x) (x) = htons((__uint16_t)(x)) #define PF_NAME "pf" #define PF_MODVER 44 #define PFLOG_MODVER 44 #define PFSYNC_MODVER 44 #define PFLOG_MINVER 44 #define PFLOG_PREFVER PFLOG_MODVER #define PFLOG_MAXVER 44 #define PFSYNC_MINVER 44 #define PFSYNC_PREFVER PFSYNC_MODVER #define PFSYNC_MAXVER 44 /* prototyped for pf_subr.c */ struct hook_desc { TAILQ_ENTRY(hook_desc) hd_list; void (*hd_fn)(void *); void *hd_arg; }; TAILQ_HEAD(hook_desc_head, hook_desc); void *hook_establish(struct hook_desc_head *, int, void (*)(void *), void *); void hook_disestablish(struct hook_desc_head *, void *); void dohooks(struct hook_desc_head *, int); #define HOOK_REMOVE 0x01 #define HOOK_FREE 0x02 #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[3] == (b)->addr32[3] && \ (a)->addr32[2] == (b)->addr32[2] && \ (a)->addr32[1] == (b)->addr32[1] && \ (a)->addr32[0] == (b)->addr32[0]))) \ #define PF_ANEQ(a, b, c) \ ((c == AF_INET && (a)->addr32[0] != (b)->addr32[0]) || \ ((c == AF_INET6 && ((a)->addr32[3] != (b)->addr32[3] || \ (a)->addr32[2] != (b)->addr32[2] || \ (a)->addr32[1] != (b)->addr32[1] || \ (a)->addr32[0] != (b)->addr32[0])))) \ #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) #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[3] == (b)->addr32[3] && \ (a)->addr32[2] == (b)->addr32[2] && \ (a)->addr32[1] == (b)->addr32[1] && \ (a)->addr32[0] == (b)->addr32[0]) \ #define PF_ANEQ(a, b, c) \ ((a)->addr32[3] != (b)->addr32[3] || \ (a)->addr32[2] != (b)->addr32[2] || \ (a)->addr32[1] != (b)->addr32[1] || \ (a)->addr32[0] != (b)->addr32[0]) \ #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 */ #define PF_MISMATCHAW(aw, x, af, neg, ifp) \ ( \ (((aw)->type == PF_ADDR_NOROUTE && \ pf_routable((x), (af), NULL)) || \ (((aw)->type == PF_ADDR_URPFFAILED && (ifp) != NULL && \ pf_routable((x), (af), (ifp))) || \ ((aw)->type == PF_ADDR_RTLABEL && \ !pf_rtlabel_match((x), (af), (aw))) || \ ((aw)->type == PF_ADDR_TABLE && \ !pfr_match_addr((aw)->p.tbl, (x), (af))) || \ ((aw)->type == PF_ADDR_DYNIFTL && \ !pfi_match_addr((aw)->p.dyn, (x), (af))) || \ ((aw)->type == PF_ADDR_RANGE && \ !pf_match_addr_range(&(aw)->v.a.addr, \ &(aw)->v.a.mask, (x), (af))) || \ ((aw)->type == PF_ADDR_ADDRMASK && \ !PF_AZERO(&(aw)->v.a.mask, (af)) && \ !PF_MATCHA(0, &(aw)->v.a.addr, \ &(aw)->v.a.mask, (x), (af))))) != \ (neg) \ ) 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 neg; u_int8_t port_op; }; struct pf_pooladdr { struct pf_addr_wrap addr; TAILQ_ENTRY(pf_pooladdr) entries; char ifname[IFNAMSIZ]; struct pfi_kif *kif; }; 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; int tblidx; u_int16_t proxy_port[2]; u_int8_t port_op; u_int8_t opts; }; /* A packed Operating System description for fingerprinting */ typedef u_int32_t pf_osfp_t; #define PF_OSFP_ANY ((pf_osfp_t)0) #define PF_OSFP_UNKNOWN ((pf_osfp_t)-1) #define PF_OSFP_NOMATCH ((pf_osfp_t)-2) struct pf_osfp_entry { SLIST_ENTRY(pf_osfp_entry) fp_entry; pf_osfp_t fp_os; int fp_enflags; #define PF_OSFP_EXPANDED 0x001 /* expanded entry */ #define PF_OSFP_GENERIC 0x002 /* generic signature */ #define PF_OSFP_NODETAIL 0x004 /* no p0f details */ #define PF_OSFP_LEN 32 char fp_class_nm[PF_OSFP_LEN]; char fp_version_nm[PF_OSFP_LEN]; char fp_subtype_nm[PF_OSFP_LEN]; }; #define PF_OSFP_ENTRY_EQ(a, b) \ ((a)->fp_os == (b)->fp_os && \ memcmp((a)->fp_class_nm, (b)->fp_class_nm, PF_OSFP_LEN) == 0 && \ memcmp((a)->fp_version_nm, (b)->fp_version_nm, PF_OSFP_LEN) == 0 && \ memcmp((a)->fp_subtype_nm, (b)->fp_subtype_nm, PF_OSFP_LEN) == 0) /* handle pf_osfp_t packing */ #define _FP_RESERVED_BIT 1 /* For the special negative #defines */ #define _FP_UNUSED_BITS 1 #define _FP_CLASS_BITS 10 /* OS Class (Windows, Linux) */ #define _FP_VERSION_BITS 10 /* OS version (95, 98, NT, 2.4.54, 3.2) */ #define _FP_SUBTYPE_BITS 10 /* patch level (NT SP4, SP3, ECN patch) */ #define PF_OSFP_UNPACK(osfp, class, version, subtype) do { \ (class) = ((osfp) >> (_FP_VERSION_BITS+_FP_SUBTYPE_BITS)) & \ ((1 << _FP_CLASS_BITS) - 1); \ (version) = ((osfp) >> _FP_SUBTYPE_BITS) & \ ((1 << _FP_VERSION_BITS) - 1);\ (subtype) = (osfp) & ((1 << _FP_SUBTYPE_BITS) - 1); \ } while(0) #define PF_OSFP_PACK(osfp, class, version, subtype) do { \ (osfp) = ((class) & ((1 << _FP_CLASS_BITS) - 1)) << (_FP_VERSION_BITS \ + _FP_SUBTYPE_BITS); \ (osfp) |= ((version) & ((1 << _FP_VERSION_BITS) - 1)) << \ _FP_SUBTYPE_BITS; \ (osfp) |= (subtype) & ((1 << _FP_SUBTYPE_BITS) - 1); \ } while(0) /* the fingerprint of an OSes TCP SYN packet */ typedef u_int64_t pf_tcpopts_t; struct pf_os_fingerprint { SLIST_HEAD(pf_osfp_enlist, pf_osfp_entry) fp_oses; /* list of matches */ pf_tcpopts_t fp_tcpopts; /* packed TCP options */ u_int16_t fp_wsize; /* TCP window size */ u_int16_t fp_psize; /* ip->ip_len (host order) */ u_int16_t fp_mss; /* TCP MSS */ u_int16_t fp_flags; #define PF_OSFP_WSIZE_MOD 0x0001 /* Window modulus */ #define PF_OSFP_WSIZE_DC 0x0002 /* Window don't care */ #define PF_OSFP_WSIZE_MSS 0x0004 /* Window multiple of MSS */ #define PF_OSFP_WSIZE_MTU 0x0008 /* Window multiple of MTU */ #define PF_OSFP_PSIZE_MOD 0x0010 /* packet size modulus */ #define PF_OSFP_PSIZE_DC 0x0020 /* packet size don't care */ #define PF_OSFP_WSCALE 0x0040 /* TCP window scaling */ #define PF_OSFP_WSCALE_MOD 0x0080 /* TCP window scale modulus */ #define PF_OSFP_WSCALE_DC 0x0100 /* TCP window scale dont-care */ #define PF_OSFP_MSS 0x0200 /* TCP MSS */ #define PF_OSFP_MSS_MOD 0x0400 /* TCP MSS modulus */ #define PF_OSFP_MSS_DC 0x0800 /* TCP MSS dont-care */ #define PF_OSFP_DF 0x1000 /* IPv4 don't fragment bit */ #define PF_OSFP_TS0 0x2000 /* Zero timestamp */ #define PF_OSFP_INET6 0x4000 /* IPv6 */ u_int8_t fp_optcnt; /* TCP option count */ u_int8_t fp_wscale; /* TCP window scaling */ u_int8_t fp_ttl; /* IPv4 TTL */ #define PF_OSFP_MAXTTL_OFFSET 40 /* TCP options packing */ #define PF_OSFP_TCPOPT_NOP 0x0 /* TCP NOP option */ #define PF_OSFP_TCPOPT_WSCALE 0x1 /* TCP window scaling option */ #define PF_OSFP_TCPOPT_MSS 0x2 /* TCP max segment size opt */ #define PF_OSFP_TCPOPT_SACK 0x3 /* TCP SACK OK option */ #define PF_OSFP_TCPOPT_TS 0x4 /* TCP timestamp option */ #define PF_OSFP_TCPOPT_BITS 3 /* bits used by each option */ #define PF_OSFP_MAX_OPTS \ (sizeof(((struct pf_os_fingerprint *)0)->fp_tcpopts) * 8) \ / PF_OSFP_TCPOPT_BITS SLIST_ENTRY(pf_os_fingerprint) fp_next; }; struct pf_osfp_ioctl { struct pf_osfp_entry fp_os; pf_tcpopts_t fp_tcpopts; /* packed TCP options */ u_int16_t fp_wsize; /* TCP window size */ u_int16_t fp_psize; /* ip->ip_len (host order) */ u_int16_t fp_mss; /* TCP MSS */ u_int16_t fp_flags; u_int8_t fp_optcnt; /* TCP option count */ u_int8_t fp_wscale; /* TCP window scaling */ u_int8_t fp_ttl; /* IPv4 TTL */ int fp_getnum; /* DIOCOSFPGET number */ }; union pf_rule_ptr { struct pf_rule *ptr; u_int32_t nr; }; #define PF_ANCHOR_NAME_SIZE 64 struct pf_rule { struct pf_rule_addr src; struct pf_rule_addr dst; #define PF_SKIP_IFP 0 #define PF_SKIP_DIR 1 #define PF_SKIP_AF 2 #define PF_SKIP_PROTO 3 #define PF_SKIP_SRC_ADDR 4 #define PF_SKIP_SRC_PORT 5 #define PF_SKIP_DST_ADDR 6 #define PF_SKIP_DST_PORT 7 #define PF_SKIP_COUNT 8 union pf_rule_ptr skip[PF_SKIP_COUNT]; #define PF_RULE_LABEL_SIZE 64 char label[PF_RULE_LABEL_SIZE]; #define PF_QNAME_SIZE 64 char ifname[IFNAMSIZ]; char qname[PF_QNAME_SIZE]; char pqname[PF_QNAME_SIZE]; #define PF_TAG_NAME_SIZE 64 char tagname[PF_TAG_NAME_SIZE]; char match_tagname[PF_TAG_NAME_SIZE]; char overload_tblname[PF_TABLE_NAME_SIZE]; TAILQ_ENTRY(pf_rule) entries; struct pf_pool rpool; u_int64_t evaluations; u_int64_t packets[2]; u_int64_t bytes[2]; struct pfi_kif *kif; struct pf_anchor *anchor; struct pfr_ktable *overload_tbl; pf_osfp_t os_fingerprint; int rtableid; u_int32_t timeout[PFTM_MAX]; u_int32_t states_cur; u_int32_t states_tot; u_int32_t max_states; u_int32_t src_nodes; u_int32_t max_src_nodes; u_int32_t max_src_states; u_int32_t max_src_conn; struct { u_int32_t limit; u_int32_t seconds; } max_src_conn_rate; u_int32_t qid; u_int32_t pqid; u_int32_t rt_listid; u_int32_t nr; u_int32_t prob; uid_t cuid; pid_t cpid; u_int16_t return_icmp; u_int16_t return_icmp6; u_int16_t max_mss; u_int16_t tag; u_int16_t match_tag; struct pf_rule_uid uid; struct pf_rule_gid gid; u_int32_t rule_flag; u_int8_t action; u_int8_t direction; u_int8_t log; u_int8_t logif; u_int8_t quick; u_int8_t ifnot; u_int8_t match_tag_not; u_int8_t natpass; #define PF_STATE_NORMAL 0x1 #define PF_STATE_MODULATE 0x2 #define PF_STATE_SYNPROXY 0x3 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 min_ttl; u_int8_t allow_opts; u_int8_t rt; u_int8_t return_ttl; u_int8_t tos; u_int8_t set_tos; u_int8_t anchor_relative; u_int8_t anchor_wildcard; #define PF_FLUSH 0x01 #define PF_FLUSH_GLOBAL 0x02 u_int8_t flush; struct { struct pf_addr addr; u_int16_t port; } divert; #define PF_PICKUPS_UNSPECIFIED 0 #define PF_PICKUPS_DISABLED 1 #define PF_PICKUPS_HASHONLY 2 #define PF_PICKUPS_ENABLED 3 u_int8_t pickup_mode; u_int8_t unused01; /* available for use */ }; /* rule flags */ #define PFRULE_DROP 0x0000 #define PFRULE_RETURNRST 0x0001 #define PFRULE_FRAGMENT 0x0002 #define PFRULE_RETURNICMP 0x0004 #define PFRULE_RETURN 0x0008 #define PFRULE_NOSYNC 0x0010 #define PFRULE_SRCTRACK 0x0020 /* track source states */ #define PFRULE_RULESRCTRACK 0x0040 /* per rule */ /* scrub flags */ #define PFRULE_NODF 0x0100 #define PFRULE_FRAGCROP 0x0200 /* non-buffering frag cache */ #define PFRULE_FRAGDROP 0x0400 /* drop funny fragments */ #define PFRULE_RANDOMID 0x0800 #define PFRULE_REASSEMBLE_TCP 0x1000 #define PFRULE_SET_TOS 0x2000 /* rule flags again */ #define PFRULE_IFBOUND 0x00010000 /* if-bound */ #define PFRULE_STATESLOPPY 0x00020000 /* sloppy state tracking */ #define PFSTATE_HIWAT 50000 /* default state table size */ #define PFSTATE_ADAPT_START 30000 /* default adaptive timeout start */ #define PFSTATE_ADAPT_END 60000 /* default adaptive timeout end */ struct pf_threshold { u_int32_t limit; #define PF_THRESHOLD_MULT 1000 #define PF_THRESHOLD_MAX 0xffffffff / PF_THRESHOLD_MULT u_int32_t seconds; u_int32_t count; u_int32_t last; }; struct pf_src_node { RB_ENTRY(pf_src_node) entry; struct pf_addr addr; struct pf_addr raddr; union pf_rule_ptr rule; struct pfi_kif *kif; u_int64_t bytes[2]; u_int64_t packets[2]; u_int32_t states; u_int32_t conn; struct pf_threshold conn_rate; u_int32_t creation; u_int32_t expire; sa_family_t af; u_int8_t ruletype; }; #define PFSNODE_HIWAT 10000 /* default source node table size */ struct pf_state_scrub { struct timeval pfss_last; /* time received last packet */ u_int32_t pfss_tsecr; /* last echoed timestamp */ u_int32_t pfss_tsval; /* largest timestamp */ u_int32_t pfss_tsval0; /* original timestamp */ u_int16_t pfss_flags; #define PFSS_TIMESTAMP 0x0001 /* modulate timestamp */ #define PFSS_PAWS 0x0010 /* stricter PAWS checks */ #define PFSS_PAWS_IDLED 0x0020 /* was idle too long. no PAWS */ #define PFSS_DATA_TS 0x0040 /* timestamp on data packets */ #define PFSS_DATA_NOTS 0x0080 /* no timestamp on data packets */ u_int8_t pfss_ttl; /* stashed TTL */ u_int8_t pad; u_int32_t pfss_ts_mod; /* timestamp modulation */ }; struct pf_state_host { struct pf_addr addr; u_int16_t port; u_int16_t pad; }; struct pf_state_peer { struct pf_state_scrub *scrub; /* state is scrubbed */ 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; /* largest window (pre scaling) */ u_int16_t mss; /* Maximum segment size option */ u_int8_t state; /* active state level */ u_int8_t wscale; /* window scaling factor */ u_int8_t tcp_est; /* Did we reach TCPS_ESTABLISHED */ u_int8_t pad[1]; }; TAILQ_HEAD(pf_state_queue, pf_state); /* keep synced with struct pf_state_key, used in RB_FIND */ struct pf_state_key_cmp { struct pf_addr addr[2]; u_int16_t port[2]; sa_family_t af; u_int8_t proto; u_int8_t pad[2]; }; struct pf_state_item { TAILQ_ENTRY(pf_state_item) entry; struct pf_state *s; }; TAILQ_HEAD(pf_statelisthead, pf_state_item); struct pf_state_key { struct pf_addr addr[2]; u_int16_t port[2]; sa_family_t af; u_int8_t proto; u_int8_t pad[2]; RB_ENTRY(pf_state_key) entry; struct pf_statelisthead states; struct pf_state_key *reverse; struct inpcb *inp; }; #define PF_STATE_KEY_HASH_LENGTH offsetof(struct pf_state_key, pad[0]) /* keep synced with struct pf_state, used in RB_FIND */ struct pf_state_cmp { u_int64_t id; u_int32_t creatorid; u_int8_t direction; u_int8_t pad[3]; }; #if defined(_KERNEL) || defined(_KERNEL_STRUCTURES) struct pf_state { u_int64_t id; u_int32_t creatorid; u_int8_t direction; u_int8_t cpuid; u_int8_t pad[2]; TAILQ_ENTRY(pf_state) entry_list; RB_ENTRY(pf_state) entry_id; struct pf_state_peer src; struct pf_state_peer dst; union pf_rule_ptr rule; union pf_rule_ptr anchor; union pf_rule_ptr nat_rule; struct pf_addr rt_addr; struct pf_state_key *key[2]; /* addresses stack and wire */ struct pfi_kif *kif; struct pfi_kif *rt_kif; struct pf_src_node *src_node; struct pf_src_node *nat_src_node; u_int64_t packets[2]; u_int64_t bytes[2]; u_int32_t hash; u_int32_t creation; u_int32_t expire; u_int32_t pfsync_time; u_int16_t tag; u_int8_t log; u_int8_t state_flags; u_int8_t timeout; u_int8_t sync_flags; u_int8_t pickup_mode; struct lock lk; }; #endif /* * state_flags */ #define PFSTATE_ALLOWOPTS 0x01 #define PFSTATE_SLOPPY 0x02 #define PFSTATE_STACK_GLOBAL 0x04 /* pf_state_key[1] is global */ #define PFSTATE_CREATEINPROG 0x08 /* prevent find from finding it */ #define PFSTATE_HALF_DUPLEX 0x10 /* collision against translation */ /* * sync_flags */ #define PFSTATE_NOSYNC 0x01 #define PFSTATE_FROMSYNC 0x02 #define PFSTATE_STALE 0x04 /* * Unified state structures for pulling states out of the kernel * used by pfsync(4) and the pf(4) ioctl. */ struct pfsync_state_scrub { u_int16_t pfss_flags; u_int8_t pfss_ttl; /* stashed TTL */ #define PFSYNC_SCRUB_FLAG_VALID 0x01 u_int8_t scrub_flag; u_int32_t pfss_ts_mod; /* timestamp modulation */ } __packed; struct pfsync_state_peer { struct pfsync_state_scrub scrub; /* state is scrubbed */ 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; /* largest window (pre scaling) */ u_int16_t mss; /* Maximum segment size option */ u_int8_t state; /* active state level */ u_int8_t wscale; /* window scaling factor */ u_int8_t pad[6]; } __packed; struct pfsync_state_key { struct pf_addr addr[2]; u_int16_t port[2]; }; struct pfsync_state { u_int32_t id[2]; char ifname[IFNAMSIZ]; struct pfsync_state_key key[2]; struct pfsync_state_peer src; struct pfsync_state_peer dst; struct pf_addr rt_addr; u_int32_t rule; u_int32_t anchor; u_int32_t nat_rule; u_int32_t creation; u_int32_t expire; u_int32_t packets[2][2]; u_int32_t bytes[2][2]; u_int32_t creatorid; sa_family_t af; u_int8_t proto; u_int8_t direction; u_int8_t log; u_int8_t state_flags; u_int8_t timeout; u_int8_t sync_flags; u_int8_t updates; u_int8_t pickup_mode; u_int16_t cpuid; u_int16_t reserved01; /* future expansion */ u_int32_t reserved02; u_int16_t reserved03[8]; u_int32_t reserved04[8]; }; #define PFSYNC_FLAG_COMPRESS 0x01 #define PFSYNC_FLAG_STALE 0x02 #define PFSYNC_FLAG_SRCNODE 0x04 #define PFSYNC_FLAG_NATSRCNODE 0x08 #define PFSTATE_GOT_SYN_MASK (PFSTATE_GOT_SYN1|PFSTATE_GOT_SYN2) #define PFSTATE_GOT_SYN1 0x04 /* got SYN in one direction */ #define PFSTATE_GOT_SYN2 0x08 /* got SYN in the other direction */ /* for copies to/from network byte order */ /* ioctl interface also uses network byte order */ #define pf_state_peer_hton(s,d) do { \ (d)->seqlo = htonl((s)->seqlo); \ (d)->seqhi = htonl((s)->seqhi); \ (d)->seqdiff = htonl((s)->seqdiff); \ (d)->max_win = htons((s)->max_win); \ (d)->mss = htons((s)->mss); \ (d)->state = (s)->state; \ (d)->wscale = (s)->wscale; \ if ((s)->scrub) { \ (d)->scrub.pfss_flags = \ htons((s)->scrub->pfss_flags & PFSS_TIMESTAMP); \ (d)->scrub.pfss_ttl = (s)->scrub->pfss_ttl; \ (d)->scrub.pfss_ts_mod = htonl((s)->scrub->pfss_ts_mod);\ (d)->scrub.scrub_flag = PFSYNC_SCRUB_FLAG_VALID; \ } \ } while (0) #define pf_state_peer_ntoh(s,d) do { \ (d)->seqlo = ntohl((s)->seqlo); \ (d)->seqhi = ntohl((s)->seqhi); \ (d)->seqdiff = ntohl((s)->seqdiff); \ (d)->max_win = ntohs((s)->max_win); \ (d)->mss = ntohs((s)->mss); \ (d)->state = (s)->state; \ (d)->wscale = (s)->wscale; \ if ((s)->scrub.scrub_flag == PFSYNC_SCRUB_FLAG_VALID && \ (d)->scrub != NULL) { \ (d)->scrub->pfss_flags = \ ntohs((s)->scrub.pfss_flags) & PFSS_TIMESTAMP; \ (d)->scrub->pfss_ttl = (s)->scrub.pfss_ttl; \ (d)->scrub->pfss_ts_mod = ntohl((s)->scrub.pfss_ts_mod);\ } \ } while (0) #define pf_state_counter_hton(s,d) do { \ d[0] = htonl((s>>32)&0xffffffff); \ d[1] = htonl(s&0xffffffff); \ } while (0) #define pf_state_counter_from_pfsync(s) \ (((u_int64_t)(s[0])<<32) | (u_int64_t)(s[1])) #define pf_state_counter_ntoh(s,d) do { \ d = ntohl(s[0]); \ d = d<<32; \ d += ntohl(s[1]); \ } while (0) TAILQ_HEAD(pf_rulequeue, pf_rule); struct pf_anchor; struct pf_ruleset { struct { struct pf_rulequeue queues[2]; struct { struct pf_rulequeue *ptr; struct pf_rule **ptr_array; u_int32_t rcount; u_int32_t ticket; int open; } active, inactive; } rules[PF_RULESET_MAX]; struct pf_anchor *anchor; u_int32_t tticket; int tables; int topen; }; RB_HEAD(pf_anchor_global, pf_anchor); RB_HEAD(pf_anchor_node, pf_anchor); struct pf_anchor { RB_ENTRY(pf_anchor) entry_global; RB_ENTRY(pf_anchor) entry_node; struct pf_anchor *parent; struct pf_anchor_node children; char name[PF_ANCHOR_NAME_SIZE]; char path[MAXPATHLEN]; struct pf_ruleset ruleset; int refcnt; /* anchor rules */ int match; }; RB_PROTOTYPE(pf_anchor_global, pf_anchor, entry_global, pf_anchor_compare); RB_PROTOTYPE(pf_anchor_node, pf_anchor, entry_node, pf_anchor_compare); #define PF_RESERVED_ANCHOR "_pf" #define PFR_TFLAG_PERSIST 0x00000001 #define PFR_TFLAG_CONST 0x00000002 #define PFR_TFLAG_ACTIVE 0x00000004 #define PFR_TFLAG_INACTIVE 0x00000008 #define PFR_TFLAG_REFERENCED 0x00000010 #define PFR_TFLAG_REFDANCHOR 0x00000020 #define PFR_TFLAG_COUNTERS 0x00000040 /* Adjust masks below when adding flags. */ #define PFR_TFLAG_USRMASK 0x00000043 #define PFR_TFLAG_SETMASK 0x0000003C #define PFR_TFLAG_ALLMASK 0x0000007F struct pfr_table { char pfrt_anchor[MAXPATHLEN]; char pfrt_name[PF_TABLE_NAME_SIZE]; u_int32_t pfrt_flags; u_int8_t pfrt_fback; }; enum { PFR_FB_NONE, PFR_FB_MATCH, PFR_FB_ADDED, PFR_FB_DELETED, PFR_FB_CHANGED, PFR_FB_CLEARED, PFR_FB_DUPLICATE, PFR_FB_NOTMATCH, PFR_FB_CONFLICT, PFR_FB_NOCOUNT, PFR_FB_MAX }; struct pfr_addr { union { struct in_addr _pfra_ip4addr; struct in6_addr _pfra_ip6addr; } pfra_u; u_int8_t pfra_af; u_int8_t pfra_net; u_int8_t pfra_not; u_int8_t pfra_fback; }; #define pfra_ip4addr pfra_u._pfra_ip4addr #define pfra_ip6addr pfra_u._pfra_ip6addr enum { PFR_DIR_IN, PFR_DIR_OUT, PFR_DIR_MAX }; enum { PFR_OP_BLOCK, PFR_OP_PASS, PFR_OP_ADDR_MAX, PFR_OP_TABLE_MAX }; #define PFR_OP_XPASS PFR_OP_ADDR_MAX struct pfr_astats { struct pfr_addr pfras_a; u_int64_t pfras_packets[PFR_DIR_MAX][PFR_OP_ADDR_MAX]; u_int64_t pfras_bytes[PFR_DIR_MAX][PFR_OP_ADDR_MAX]; long pfras_tzero; }; enum { PFR_REFCNT_RULE, PFR_REFCNT_ANCHOR, PFR_REFCNT_MAX }; struct pfr_tstats { struct pfr_table pfrts_t; u_int64_t pfrts_packets[PFR_DIR_MAX][PFR_OP_TABLE_MAX]; u_int64_t pfrts_bytes[PFR_DIR_MAX][PFR_OP_TABLE_MAX]; u_int64_t pfrts_match; u_int64_t pfrts_nomatch; long pfrts_tzero; int pfrts_cnt; int pfrts_refcnt[PFR_REFCNT_MAX]; }; #define pfrts_name pfrts_t.pfrt_name #define pfrts_flags pfrts_t.pfrt_flags struct pfr_kcounters { u_int64_t pfrkc_packets[PFR_DIR_MAX][PFR_OP_ADDR_MAX]; u_int64_t pfrkc_bytes[PFR_DIR_MAX][PFR_OP_ADDR_MAX]; }; SLIST_HEAD(pfr_kentryworkq, pfr_kentry); struct pfr_kentry { struct radix_node pfrke_node[2]; union sockaddr_union pfrke_sa; SLIST_ENTRY(pfr_kentry) pfrke_workq; union { struct pfr_kcounters *pfrke_counters; #if 0 struct pfr_kroute *pfrke_route; #endif } u; long pfrke_tzero; u_int8_t pfrke_af; u_int8_t pfrke_net; u_int8_t pfrke_not; u_int8_t pfrke_mark; u_int8_t pfrke_intrpool; }; #define pfrke_counters u.pfrke_counters #define pfrke_route u.pfrke_route SLIST_HEAD(pfr_ktableworkq, pfr_ktable); RB_HEAD(pfr_ktablehead, pfr_ktable); struct pfr_ktable { struct pfr_tstats pfrkt_ts; RB_ENTRY(pfr_ktable) pfrkt_tree; SLIST_ENTRY(pfr_ktable) pfrkt_workq; struct radix_node_head *pfrkt_ip4; struct radix_node_head *pfrkt_ip6; struct pfr_ktable *pfrkt_shadow; struct pfr_ktable *pfrkt_root; struct pf_ruleset *pfrkt_rs; long pfrkt_larg; int pfrkt_nflags; }; #define pfrkt_t pfrkt_ts.pfrts_t #define pfrkt_name pfrkt_t.pfrt_name #define pfrkt_anchor pfrkt_t.pfrt_anchor #define pfrkt_ruleset pfrkt_t.pfrt_ruleset #define pfrkt_flags pfrkt_t.pfrt_flags #define pfrkt_cnt pfrkt_ts.pfrts_cnt #define pfrkt_refcnt pfrkt_ts.pfrts_refcnt #define pfrkt_packets pfrkt_ts.pfrts_packets #define pfrkt_bytes pfrkt_ts.pfrts_bytes #define pfrkt_match pfrkt_ts.pfrts_match #define pfrkt_nomatch pfrkt_ts.pfrts_nomatch #define pfrkt_tzero pfrkt_ts.pfrts_tzero RB_HEAD(pf_state_tree, pf_state_key); RB_PROTOTYPE(pf_state_tree, pf_state_key, entry, pf_state_compare_key); RB_HEAD(pf_state_rtree, pf_state_key); RB_PROTOTYPE(pf_state_rtree, pf_state_key, entry, pf_state_compare_rkey); RB_HEAD(pf_state_tree_ext_gwy, pf_state_key); RB_PROTOTYPE(pf_state_tree_ext_gwy, pf_state_key, entry_ext_gwy, pf_state_compare_ext_gwy); struct pfi_if { char pfif_name[IFNAMSIZ]; u_int64_t pfif_packets[2][2][2]; u_int64_t pfif_bytes[2][2][2]; u_int64_t pfif_addcnt; u_int64_t pfif_delcnt; long pfif_tzero; int pfif_states; int pfif_rules; int pfif_flags; }; TAILQ_HEAD(pfi_grouphead, pfi_kif); TAILQ_HEAD(pfi_statehead, pfi_kif); RB_HEAD(pfi_ifhead, pfi_kif); /* keep synced with pfi_kif, used in RB_FIND */ struct pfi_kif_cmp { char pfik_name[IFNAMSIZ]; }; struct pfi_kif { char pfik_name[IFNAMSIZ]; RB_ENTRY(pfi_kif) pfik_tree; u_int64_t pfik_packets[2][2][2]; u_int64_t pfik_bytes[2][2][2]; u_int32_t pfik_tzero; int pfik_flags; struct ifnet *pfik_ifp; struct ifg_group *pfik_group; int pfik_states; int pfik_rules; TAILQ_HEAD(, pfi_dynaddr) pfik_dynaddrs; }; enum pfi_kif_refs { PFI_KIF_REF_NONE, PFI_KIF_REF_STATE, PFI_KIF_REF_RULE }; #define PFI_IFLAG_GROUP 0x0001 /* group of interfaces */ #define PFI_IFLAG_INSTANCE 0x0002 /* single instance */ #define PFI_IFLAG_CLONABLE 0x0010 /* clonable group */ #define PFI_IFLAG_DYNAMIC 0x0020 /* dynamic group */ #define PFI_IFLAG_SKIP 0x0100 /* skip filtering on interface */ #define PFI_IFLAG_PLACEHOLDER 0x8000 /* placeholder group/interface */ struct pf_pdesc { struct { int done; uid_t uid; gid_t gid; pid_t pid; } lookup; 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_rule *nat_rule; /* nat/rdr rule applied to packet */ struct ether_header *eh; struct pf_addr *src; /* src address */ struct pf_addr *dst; /* dst address */ u_int16_t *sport; u_int16_t *dport; u_int32_t p_len; /* total length of payload */ u_int16_t *ip_sum; u_int16_t *proto_sum; u_int16_t flags; /* Let SCRUB trigger behavior in * state code. Easier than tags */ #define PFDESC_TCP_NORM 0x0001 /* TCP shall be statefully scrubbed */ #define PFDESC_IP_REAS 0x0002 /* IP frags would've been reassembled */ sa_family_t af; u_int8_t proto; u_int8_t tos; u_int8_t dir; /* direction */ u_int8_t sidx; /* key index for source */ u_int8_t didx; /* key index for destination */ u_int8_t not_cpu_localized; /* translation not localized */ }; /* 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_TS 6 /* Bad TCP Timestamp (RFC1323) */ #define PFRES_CONGEST 7 /* Congestion (of ipintrq) */ #define PFRES_IPOPTIONS 8 /* IP option */ #define PFRES_PROTCKSUM 9 /* Protocol checksum invalid */ #define PFRES_BADSTATE 10 /* State mismatch */ #define PFRES_STATEINS 11 /* State insertion failure */ #define PFRES_MAXSTATES 12 /* State limit */ #define PFRES_SRCLIMIT 13 /* Source node/conn limit */ #define PFRES_SYNPROXY 14 /* SYN proxy */ #define PFRES_MAX 15 /* total+1 */ #define PFRES_NAMES { \ "match", \ "bad-offset", \ "fragment", \ "short", \ "normalize", \ "memory", \ "bad-timestamp", \ "congestion", \ "ip-option", \ "proto-cksum", \ "state-mismatch", \ "state-insert", \ "state-limit", \ "src-limit", \ "synproxy", \ NULL \ } /* Counters for other things we want to keep track of */ #define LCNT_STATES 0 /* states */ #define LCNT_SRCSTATES 1 /* max-src-states */ #define LCNT_SRCNODES 2 /* max-src-nodes */ #define LCNT_SRCCONN 3 /* max-src-conn */ #define LCNT_SRCCONNRATE 4 /* max-src-conn-rate */ #define LCNT_OVERLOAD_TABLE 5 /* entry added to overload table */ #define LCNT_OVERLOAD_FLUSH 6 /* state entries flushed */ #define LCNT_MAX 7 /* total+1 */ #define LCNT_NAMES { \ "max states per rule", \ "max-src-states", \ "max-src-nodes", \ "max-src-conn", \ "max-src-conn-rate", \ "overload table insertion", \ "overload flush states", \ 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 SCNT_SRC_NODE_SEARCH 0 #define SCNT_SRC_NODE_INSERT 1 #define SCNT_SRC_NODE_REMOVALS 2 #define SCNT_MAX 3 #define ACTION_SET(a, x) \ do { \ if ((a) != NULL) \ *(a) = (x); \ } while (0) #define PF_INC_COUNTER(x) pf_counters[mycpu->gd_cpuid].counters[(x)]++ #define PF_INC_LCOUNTER(x) pf_counters[mycpu->gd_cpuid].lcounters[(x)]++ #define PF_INC_FCOUNTER(x) pf_counters[mycpu->gd_cpuid].fcounters[(x)]++ #define PF_INC_SCOUNTER(x) pf_counters[mycpu->gd_cpuid].scounters[(x)]++ #define REASON_SET(a, x) \ do { \ u_short *r = (a); /* keep -Waddress happy */ \ if (r != NULL) \ *r = (x); \ if ((x) < PFRES_MAX) \ PF_INC_COUNTER(x); \ } while (0) struct pf_counters { u_int64_t counters[PFRES_MAX]; u_int64_t lcounters[LCNT_MAX]; /* limit counters */ u_int64_t fcounters[FCNT_MAX]; u_int64_t scounters[SCNT_MAX]; } __cachealign; struct pf_status { u_int64_t counters[PFRES_MAX]; u_int64_t lcounters[LCNT_MAX]; /* limit counters */ u_int64_t fcounters[FCNT_MAX]; u_int64_t scounters[SCNT_MAX]; u_int64_t pcounters[2][2][3]; u_int64_t bcounters[2][2]; u_int64_t stateid; /* atomic */ u_int32_t running; u_int32_t states; /* atomic */ u_int32_t src_nodes; /* atomic */ u_int32_t since; u_int32_t debug; u_int32_t hostid; char ifname[IFNAMSIZ]; u_int8_t pf_chksum[PF_MD5_DIGEST_LENGTH]; }; 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 priq_opts { int flags; }; struct hfsc_opts { /* real-time service curve */ u_int rtsc_m1; /* slope of the 1st segment in bps */ u_int rtsc_d; /* the x-projection of m1 in msec */ u_int rtsc_m2; /* slope of the 2nd segment in bps */ /* link-sharing service curve */ u_int lssc_m1; u_int lssc_d; u_int lssc_m2; /* upper-limit service curve */ u_int ulsc_m1; u_int ulsc_d; u_int ulsc_m2; int flags; }; /* * XXX this needs some work */ struct fairq_opts { u_int nbuckets; /* hash buckets */ u_int hogs_m1; /* hog detection bandwidth */ int flags; /* link-sharing service curve */ u_int lssc_m1; u_int lssc_d; u_int lssc_m2; }; 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; /* tokenbucket 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 priq_opts priq_opts; struct hfsc_opts hfsc_opts; struct fairq_opts fairq_opts; } pq_u; u_int32_t qid; /* return value */ }; /* * DO NOT USE PF_TAG_GENERATED! Set PF_MBUF_TAGGED in fw_flags instead and * then clear pf.flags. The mbuf allocator does not automatically clear * the pf fields in the mbuf packet header. */ /*#define PF_TAG_GENERATED 0x01*/ #define PF_TAG_FRAGCACHE 0x02 #define PF_TAG_TRANSLATE_LOCALHOST 0x04 #define PF_TAG_STATE_HASHED 0x08 struct pf_tagname { TAILQ_ENTRY(pf_tagname) entries; char name[PF_TAG_NAME_SIZE]; u_int16_t tag; int ref; }; struct pf_divert { union { struct in_addr ipv4; struct in6_addr ipv6; } addr; u_int16_t port; }; #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 */ #define PFR_KTABLE_HIWAT 1000 /* Number of tables */ #define PFR_KENTRY_HIWAT 200000 /* Number of table entries */ #define PFR_KENTRY_HIWAT_SMALL 100000 /* Number of table entries (tiny hosts) */ /* * ioctl parameter structures */ struct pfioc_pooladdr { u_int32_t action; u_int32_t ticket; u_int32_t nr; u_int32_t r_num; u_int8_t r_action; u_int8_t r_last; u_int8_t af; char anchor[MAXPATHLEN]; struct pf_pooladdr addr; }; struct pfioc_rule { u_int32_t action; u_int32_t ticket; u_int32_t pool_ticket; u_int32_t nr; char anchor[MAXPATHLEN]; char anchor_call[MAXPATHLEN]; struct pf_rule rule; }; 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_state { struct pfsync_state state; }; struct pfioc_src_node_kill { sa_family_t psnk_af; struct pf_rule_addr psnk_src; struct pf_rule_addr psnk_dst; u_int psnk_killed; }; struct pfioc_state_kill { struct pf_state_cmp psk_pfcmp; sa_family_t psk_af; int psk_proto; struct pf_rule_addr psk_src; struct pf_rule_addr psk_dst; char psk_ifname[IFNAMSIZ]; char psk_label[PF_RULE_LABEL_SIZE]; u_int psk_killed; }; struct pfioc_states { int ps_len; union { caddr_t psu_buf; struct pfsync_state *psu_states; } ps_u; #define ps_buf ps_u.psu_buf #define ps_states ps_u.psu_states }; struct pfioc_src_nodes { int psn_len; union { caddr_t psu_buf; struct pf_src_node *psu_src_nodes; } psn_u; #define psn_buf psn_u.psu_buf #define psn_src_nodes psn_u.psu_src_nodes }; 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 action; u_int32_t ticket; u_int32_t nr; struct pf_altq altq; }; struct pfioc_qstats { u_int32_t ticket; u_int32_t nr; void *buf; int nbytes; u_int8_t scheduler; }; struct pfioc_anchor { u_int32_t nr; char name[PF_ANCHOR_NAME_SIZE]; }; struct pfioc_ruleset { u_int32_t nr; char path[MAXPATHLEN]; char name[PF_ANCHOR_NAME_SIZE]; }; #define PF_RULESET_ALTQ (PF_RULESET_MAX) #define PF_RULESET_TABLE (PF_RULESET_MAX+1) struct pfioc_trans { int size; /* number of elements */ int esize; /* size of each element in bytes */ struct pfioc_trans_e { int rs_num; char anchor[MAXPATHLEN]; u_int32_t ticket; } *array; }; #define PFR_FLAG_ATOMIC 0x00000001 #define PFR_FLAG_DUMMY 0x00000002 #define PFR_FLAG_FEEDBACK 0x00000004 #define PFR_FLAG_CLSTATS 0x00000008 #define PFR_FLAG_ADDRSTOO 0x00000010 #define PFR_FLAG_REPLACE 0x00000020 #define PFR_FLAG_ALLRSETS 0x00000040 #define PFR_FLAG_ALLMASK 0x0000007F #ifdef _KERNEL #define PFR_FLAG_USERIOCTL 0x10000000 #endif struct pfioc_table { struct pfr_table pfrio_table; void *pfrio_buffer; int pfrio_esize; int pfrio_size; int pfrio_size2; int pfrio_nadd; int pfrio_ndel; int pfrio_nchange; int pfrio_flags; u_int32_t pfrio_ticket; }; #define pfrio_exists pfrio_nadd #define pfrio_nzero pfrio_nadd #define pfrio_nmatch pfrio_nadd #define pfrio_naddr pfrio_size2 #define pfrio_setflag pfrio_size2 #define pfrio_clrflag pfrio_nadd struct pfioc_iface { char pfiio_name[IFNAMSIZ]; void *pfiio_buffer; int pfiio_esize; int pfiio_size; int pfiio_nzero; int pfiio_flags; }; /* * ioctl operations */ #define DIOCSTART _IO ('D', 1) #define DIOCSTOP _IO ('D', 2) #define DIOCBEGINRULES _IOWR('D', 3, struct pfioc_rule) #define DIOCADDRULE _IOWR('D', 4, struct pfioc_rule) #define DIOCCOMMITRULES _IOWR('D', 5, struct pfioc_rule) #define DIOCGETRULES _IOWR('D', 6, struct pfioc_rule) #define DIOCGETRULE _IOWR('D', 7, struct pfioc_rule) /* XXX cut 8 - 17 */ #define DIOCCLRSTATES _IOWR('D', 18, struct pfioc_state_kill) #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_rule) /* XXX cut 26 - 28 */ #define DIOCSETTIMEOUT _IOWR('D', 29, struct pfioc_tm) #define DIOCGETTIMEOUT _IOWR('D', 30, struct pfioc_tm) #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, struct pfioc_pooladdr) #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_pooladdr) /* XXX cut 55 - 57 */ #define DIOCGETRULESETS _IOWR('D', 58, struct pfioc_ruleset) #define DIOCGETRULESET _IOWR('D', 59, struct pfioc_ruleset) #define DIOCRCLRTABLES _IOWR('D', 60, struct pfioc_table) #define DIOCRADDTABLES _IOWR('D', 61, struct pfioc_table) #define DIOCRDELTABLES _IOWR('D', 62, struct pfioc_table) #define DIOCRGETTABLES _IOWR('D', 63, struct pfioc_table) #define DIOCRGETTSTATS _IOWR('D', 64, struct pfioc_table) #define DIOCRCLRTSTATS _IOWR('D', 65, struct pfioc_table) #define DIOCRCLRADDRS _IOWR('D', 66, struct pfioc_table) #define DIOCRADDADDRS _IOWR('D', 67, struct pfioc_table) #define DIOCRDELADDRS _IOWR('D', 68, struct pfioc_table) #define DIOCRSETADDRS _IOWR('D', 69, struct pfioc_table) #define DIOCRGETADDRS _IOWR('D', 70, struct pfioc_table) #define DIOCRGETASTATS _IOWR('D', 71, struct pfioc_table) #define DIOCRCLRASTATS _IOWR('D', 72, struct pfioc_table) #define DIOCRTSTADDRS _IOWR('D', 73, struct pfioc_table) #define DIOCRSETTFLAGS _IOWR('D', 74, struct pfioc_table) #define DIOCRINABEGIN _IOWR('D', 75, struct pfioc_table) #define DIOCRINACOMMIT _IOWR('D', 76, struct pfioc_table) #define DIOCRINADEFINE _IOWR('D', 77, struct pfioc_table) #define DIOCOSFPFLUSH _IO('D', 78) #define DIOCOSFPADD _IOWR('D', 79, struct pf_osfp_ioctl) #define DIOCOSFPGET _IOWR('D', 80, struct pf_osfp_ioctl) #define DIOCXBEGIN _IOWR('D', 81, struct pfioc_trans) #define DIOCXCOMMIT _IOWR('D', 82, struct pfioc_trans) #define DIOCXROLLBACK _IOWR('D', 83, struct pfioc_trans) #define DIOCGETSRCNODES _IOWR('D', 84, struct pfioc_src_nodes) #define DIOCCLRSRCNODES _IO('D', 85) #define DIOCSETHOSTID _IOWR('D', 86, u_int32_t) #define DIOCIGETIFACES _IOWR('D', 87, struct pfioc_iface) #define DIOCICLRISTATS _IOWR('D', 88, struct pfioc_iface) #define DIOCSETIFFLAG _IOWR('D', 89, struct pfioc_iface) #define DIOCCLRIFFLAG _IOWR('D', 90, struct pfioc_iface) #define DIOCKILLSRCNODES _IOWR('D', 91, struct pfioc_src_node_kill) struct pf_ifspeed { char ifname[IFNAMSIZ]; u_int32_t baudrate; }; #define DIOCGIFSPEED _IOWR('D', 89, struct pf_ifspeed) #ifdef _KERNEL RB_HEAD(pf_src_tree, pf_src_node); RB_PROTOTYPE(pf_src_tree, pf_src_node, entry, pf_src_compare); RB_HEAD(pf_state_tree_id, pf_state); RB_PROTOTYPE(pf_state_tree_id, pf_state, entry_id, pf_state_compare_id); extern struct pf_src_tree *tree_src_tracking; /* ncpus */ extern struct pf_state_tree_id *tree_id; /* ncpus */ extern struct pf_state_queue *state_list; /* ncpus */ extern struct pf_counters *pf_counters; /* ncpus */ extern struct pf_state **purge_cur; /* ncpus */ extern struct pf_state_tree *pf_statetbl; /* ncpus + 1 */ 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; extern u_int32_t ticket_altqs_active; extern u_int32_t ticket_altqs_inactive; extern int altqs_inactive_open; extern u_int32_t ticket_pabuf; 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 int pf_tbladdr_setup(struct pf_ruleset *, struct pf_addr_wrap *); extern void pf_tbladdr_remove(struct pf_addr_wrap *); extern void pf_tbladdr_copyout(struct pf_addr_wrap *); extern void pf_calc_skip_steps(struct pf_rulequeue *); extern struct malloc_type *pf_src_tree_pl, *pf_rule_pl; extern struct malloc_type *pf_state_pl, *pf_state_key_pl, *pf_state_item_pl, *pf_altq_pl, *pf_pooladdr_pl; extern struct malloc_type *pfr_ktable_pl, *pfr_kentry_pl; extern struct malloc_type *pfr_kentry_pl2; extern struct malloc_type *pf_cache_pl, *pf_cent_pl; extern struct malloc_type *pf_state_scrub_pl; extern struct malloc_type *pfi_addr_pl; extern void pf_purge_thread(void *); extern int pf_purge_expired_src_nodes(int); extern int pf_purge_expired_states(u_int32_t, int); extern void pf_unlink_state(struct pf_state *); extern void pf_free_state(struct pf_state *); extern int pf_state_insert(struct pfi_kif *, struct pf_state_key *, struct pf_state_key *, struct pf_state *); extern int pf_insert_src_node(struct pf_src_node **, struct pf_rule *, struct pf_addr *, sa_family_t); void pf_src_tree_remove_state(struct pf_state *); u_int32_t pf_state_hash(struct pf_state_key *sk); extern struct pf_state *pf_find_state_byid(struct pf_state_cmp *); extern struct pf_state *pf_find_state_all(struct pf_state_key_cmp *, u_int, int *); extern void pf_print_state(struct pf_state *); extern void pf_print_flags(u_int8_t); extern u_int16_t pf_cksum_fixup(u_int16_t, u_int16_t, u_int16_t, u_int8_t); extern struct ifnet *sync_ifp; extern struct pf_rule pf_default_rule; extern void pf_addrcpy(struct pf_addr *, struct pf_addr *, u_int8_t); void pf_rm_rule(struct pf_rulequeue *, struct pf_rule *); struct pf_divert *pf_find_divert(struct mbuf *); #ifdef INET int pf_test(int, struct ifnet *, struct mbuf **, struct ether_header *, struct inpcb *); #endif /* INET */ #ifdef INET6 int pf_test6(int, struct ifnet *, struct mbuf **, struct ether_header *, struct inpcb *); void pf_poolmask(struct pf_addr *, struct pf_addr*, struct pf_addr *, struct pf_addr *, u_int8_t); void pf_addr_inc(struct pf_addr *, sa_family_t); #endif /* INET6 */ void *pf_pull_hdr(struct mbuf *, int, void *, int, u_short *, u_short *, sa_family_t); void pf_change_a(void *, u_int16_t *, u_int32_t, u_int8_t); int pflog_packet(struct pfi_kif *, struct mbuf *, sa_family_t, u_int8_t, u_int8_t, struct pf_rule *, struct pf_rule *, struct pf_ruleset *, struct pf_pdesc *); int pf_match_addr(u_int8_t, struct pf_addr *, struct pf_addr *, struct pf_addr *, sa_family_t); int pf_match_addr_range(struct pf_addr *, struct pf_addr *, struct pf_addr *, sa_family_t); int pf_match(u_int8_t, u_int32_t, u_int32_t, u_int32_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); void pf_normalize_unload(void); int pf_normalize_ip(struct mbuf **, int, struct pfi_kif *, u_short *, struct pf_pdesc *); int pf_normalize_ip6(struct mbuf **, int, struct pfi_kif *, u_short *, struct pf_pdesc *); int pf_normalize_tcp(int, struct pfi_kif *, struct mbuf *, int, int, void *, struct pf_pdesc *); void pf_normalize_tcp_cleanup(struct pf_state *); int pf_normalize_tcp_init(struct mbuf *, int, struct pf_pdesc *, struct tcphdr *, struct pf_state_peer *, struct pf_state_peer *); int pf_normalize_tcp_stateful(struct mbuf *, int, struct pf_pdesc *, u_short *, struct tcphdr *, struct pf_state *, struct pf_state_peer *, struct pf_state_peer *, int *); u_int32_t pf_state_expires(const struct pf_state *); void pf_purge_expired_fragments(void); int pf_routable(struct pf_addr *addr, sa_family_t af, struct pfi_kif *); int pf_rtlabel_match(struct pf_addr *, sa_family_t, struct pf_addr_wrap *); int pf_socket_lookup(int, struct pf_pdesc *); struct pf_state_key *pf_alloc_state_key(int); int pf_state_key_attach(struct pf_state_key *, struct pf_state *, int); void pfr_initialize(void); int pfr_match_addr(struct pfr_ktable *, struct pf_addr *, sa_family_t); void pfr_update_stats(struct pfr_ktable *, struct pf_addr *, sa_family_t, u_int64_t, int, int, int); int pfr_pool_get(struct pfr_ktable *, int *, struct pf_addr *, struct pf_addr **, struct pf_addr **, sa_family_t); void pfr_dynaddr_update(struct pfr_ktable *, struct pfi_dynaddr *); struct pfr_ktable * pfr_attach_table(struct pf_ruleset *, char *); void pfr_detach_table(struct pfr_ktable *); int pfr_clr_tables(struct pfr_table *, int *, int); int pfr_add_tables(struct pfr_table *, int, int *, int); int pfr_del_tables(struct pfr_table *, int, int *, int); int pfr_get_tables(struct pfr_table *, struct pfr_table *, int *, int); int pfr_get_tstats(struct pfr_table *, struct pfr_tstats *, int *, int); int pfr_clr_tstats(struct pfr_table *, int, int *, int); int pfr_set_tflags(struct pfr_table *, int, int, int, int *, int *, int); int pfr_clr_addrs(struct pfr_table *, int *, int); int pfr_insert_kentry(struct pfr_ktable *, struct pfr_addr *, long); int pfr_add_addrs(struct pfr_table *, struct pfr_addr *, int, int *, int); int pfr_del_addrs(struct pfr_table *, struct pfr_addr *, int, int *, int); int pfr_set_addrs(struct pfr_table *, struct pfr_addr *, int, int *, int *, int *, int *, int, u_int32_t); int pfr_get_addrs(struct pfr_table *, struct pfr_addr *, int *, int); int pfr_get_astats(struct pfr_table *, struct pfr_astats *, int *, int); int pfr_clr_astats(struct pfr_table *, struct pfr_addr *, int, int *, int); int pfr_tst_addrs(struct pfr_table *, struct pfr_addr *, int, int *, int); int pfr_ina_begin(struct pfr_table *, u_int32_t *, int *, int); int pfr_ina_rollback(struct pfr_table *, u_int32_t, int *, int); int pfr_ina_commit(struct pfr_table *, u_int32_t, int *, int *, int); int pfr_ina_define(struct pfr_table *, struct pfr_addr *, int, int *, int *, u_int32_t, int); extern struct pfi_kif *pfi_all; void pfi_initialize(void); struct pfi_kif *pfi_kif_get(const char *); void pfi_cleanup(void); void pfi_attach_clone(struct if_clone *); void pfi_kif_ref(struct pfi_kif *, enum pfi_kif_refs); void pfi_kif_unref(struct pfi_kif *, enum pfi_kif_refs); struct pfi_kif *pfi_kif_find(const char *); int pfi_kif_match(struct pfi_kif *, struct pfi_kif *); void pfi_attach_ifnet(struct ifnet *); void pfi_detach_ifnet(struct ifnet *); struct pfi_kif *pfi_lookup_create(const char *); struct pfi_kif *pfi_lookup_if(const char *); void pfi_attach_ifgroup(struct ifg_group *); void pfi_detach_ifgroup(struct ifg_group *); void pfi_group_change(const char *); int pfi_match_addr(struct pfi_dynaddr *, struct pf_addr *, sa_family_t); int pfi_dynaddr_setup(struct pf_addr_wrap *, sa_family_t); void pfi_dynaddr_remove(struct pf_addr_wrap *); void pfi_dynaddr_copyout(struct pf_addr_wrap *); void pfi_update_status(const char *, struct pf_status *); int pfi_get_ifaces(const char *, struct pfi_kif *, int *); int pfi_set_flags(const char *, int); int pfi_clear_flags(const char *, int); int pf_match_tag(struct mbuf *, struct pf_rule *, int *); u_int16_t pf_tagname2tag(char *); void pf_tag2tagname(u_int16_t, char *); void pf_tag_ref(u_int16_t); void pf_tag_unref(u_int16_t); int pf_tag_packet(struct mbuf *, int, int); u_int32_t pf_qname2qid(char *); void pf_qid2qname(u_int32_t, char *); void pf_qid_unref(u_int32_t); extern struct pf_status pf_status; extern struct malloc_type *pf_frent_pl, *pf_frag_pl; extern struct lock pf_consistency_lock; extern struct lock pf_global_statetbl_lock; struct pf_pool_limit { void *pp; unsigned limit; }; extern struct pf_pool_limit pf_pool_limits[PF_LIMIT_MAX]; struct pf_frent { LIST_ENTRY(pf_frent) fr_next; struct ip *fr_ip; struct mbuf *fr_m; }; struct pf_frcache { LIST_ENTRY(pf_frcache) fr_next; uint16_t fr_off; uint16_t fr_end; }; struct pf_fragment { RB_ENTRY(pf_fragment) fr_entry; TAILQ_ENTRY(pf_fragment) frag_next; struct in_addr fr_src; struct in_addr fr_dst; u_int8_t fr_p; /* protocol of this fragment */ u_int8_t fr_flags; /* status flags */ u_int16_t fr_id; /* fragment id for reassemble */ u_int16_t fr_max; /* fragment data max */ u_int32_t fr_timeout; #define fr_queue fr_u.fru_queue #define fr_cache fr_u.fru_cache union { LIST_HEAD(pf_fragq, pf_frent) fru_queue; /* buffering */ LIST_HEAD(pf_cacheq, pf_frcache) fru_cache; /* non-buf */ } fr_u; }; #endif /* _KERNEL */ extern struct radix_node_head *pf_maskhead; extern struct pf_anchor_global pf_anchors; extern struct pf_anchor pf_main_anchor; #define pf_main_ruleset pf_main_anchor.ruleset /* these ruleset functions can be linked into userland programs (pfctl) */ int pf_get_ruleset_number(u_int8_t); void pf_init_ruleset(struct pf_ruleset *); int pf_anchor_setup(struct pf_rule *, const struct pf_ruleset *, const char *); int pf_anchor_copyout(const struct pf_ruleset *, const struct pf_rule *, struct pfioc_rule *); void pf_anchor_remove(struct pf_rule *); void pf_remove_if_empty_ruleset(struct pf_ruleset *); struct pf_anchor *pf_find_anchor(const char *); struct pf_ruleset *pf_find_ruleset(const char *); struct pf_ruleset *pf_find_or_create_ruleset(const char *); void pf_rs_initialize(void); /* The fingerprint functions can be linked into userland programs (tcpdump) */ int pf_osfp_add(struct pf_osfp_ioctl *); #ifdef _KERNEL struct pf_osfp_enlist * pf_osfp_fingerprint(struct pf_pdesc *, struct mbuf *, int, const struct tcphdr *); #endif /* _KERNEL */ struct pf_osfp_enlist * pf_osfp_fingerprint_hdr(const struct ip *, const struct ip6_hdr *, const struct tcphdr *); void pf_osfp_flush(void); int pf_osfp_get(struct pf_osfp_ioctl *); void pf_osfp_initialize(void); int pf_osfp_match(struct pf_osfp_enlist *, pf_osfp_t); struct pf_os_fingerprint * pf_osfp_validate(void); #endif /* _NET_PFVAR_H_ */ |