Index: head/sys/netpfil/pf/pf_if.c =================================================================== --- head/sys/netpfil/pf/pf_if.c (revision 366646) +++ head/sys/netpfil/pf/pf_if.c (revision 366647) @@ -1,989 +1,1003 @@ /*- * SPDX-License-Identifier: BSD-2-Clause * * Copyright (c) 2001 Daniel Hartmeier * Copyright (c) 2003 Cedric Berger * Copyright (c) 2005 Henning Brauer * Copyright (c) 2005 Ryan McBride * Copyright (c) 2012 Gleb Smirnoff * 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. * * $OpenBSD: pf_if.c,v 1.54 2008/06/14 16:55:28 mk Exp $ */ #include __FBSDID("$FreeBSD$"); #include "opt_inet.h" #include "opt_inet6.h" #include #include #include #include #include #include #include #include #include #include #include VNET_DEFINE(struct pfi_kif *, pfi_all); VNET_DEFINE_STATIC(long, pfi_update); #define V_pfi_update VNET(pfi_update) #define PFI_BUFFER_MAX 0x10000 VNET_DECLARE(int, pf_vnet_active); #define V_pf_vnet_active VNET(pf_vnet_active) VNET_DEFINE_STATIC(struct pfr_addr *, pfi_buffer); VNET_DEFINE_STATIC(int, pfi_buffer_cnt); VNET_DEFINE_STATIC(int, pfi_buffer_max); #define V_pfi_buffer VNET(pfi_buffer) #define V_pfi_buffer_cnt VNET(pfi_buffer_cnt) #define V_pfi_buffer_max VNET(pfi_buffer_max) eventhandler_tag pfi_attach_cookie; eventhandler_tag pfi_detach_cookie; eventhandler_tag pfi_attach_group_cookie; eventhandler_tag pfi_change_group_cookie; eventhandler_tag pfi_detach_group_cookie; eventhandler_tag pfi_ifaddr_event_cookie; static void pfi_attach_ifnet(struct ifnet *, struct pfi_kif *); static void pfi_attach_ifgroup(struct ifg_group *, struct pfi_kif *); static void pfi_kif_update(struct pfi_kif *); static void pfi_dynaddr_update(struct pfi_dynaddr *dyn); static void pfi_table_update(struct pfr_ktable *, struct pfi_kif *, int, int); static void pfi_instance_add(struct ifnet *, int, int); static void pfi_address_add(struct sockaddr *, int, int); static int pfi_if_compare(struct pfi_kif *, struct pfi_kif *); static int pfi_skip_if(const char *, struct pfi_kif *); static int pfi_unmask(void *); static void pfi_attach_ifnet_event(void * __unused, struct ifnet *); static void pfi_detach_ifnet_event(void * __unused, struct ifnet *); static void pfi_attach_group_event(void * __unused, struct ifg_group *); static void pfi_change_group_event(void * __unused, char *); static void pfi_detach_group_event(void * __unused, struct ifg_group *); static void pfi_ifaddr_event(void * __unused, struct ifnet *); RB_HEAD(pfi_ifhead, pfi_kif); static RB_PROTOTYPE(pfi_ifhead, pfi_kif, pfik_tree, pfi_if_compare); static RB_GENERATE(pfi_ifhead, pfi_kif, pfik_tree, pfi_if_compare); VNET_DEFINE_STATIC(struct pfi_ifhead, pfi_ifs); #define V_pfi_ifs VNET(pfi_ifs) #define PFI_BUFFER_MAX 0x10000 MALLOC_DEFINE(PFI_MTYPE, "pf_ifnet", "pf(4) interface database"); LIST_HEAD(pfi_list, pfi_kif); VNET_DEFINE_STATIC(struct pfi_list, pfi_unlinked_kifs); #define V_pfi_unlinked_kifs VNET(pfi_unlinked_kifs) static struct mtx pfi_unlnkdkifs_mtx; MTX_SYSINIT(pfi_unlnkdkifs_mtx, &pfi_unlnkdkifs_mtx, "pf unlinked interfaces", MTX_DEF); void pfi_initialize_vnet(void) { struct pfi_list kifs = LIST_HEAD_INITIALIZER(); struct epoch_tracker et; struct pfi_kif *kif; struct ifg_group *ifg; struct ifnet *ifp; int nkifs; V_pfi_buffer_max = 64; V_pfi_buffer = malloc(V_pfi_buffer_max * sizeof(*V_pfi_buffer), PFI_MTYPE, M_WAITOK); nkifs = 1; /* one for V_pfi_all */ IFNET_RLOCK(); CK_STAILQ_FOREACH(ifg, &V_ifg_head, ifg_next) nkifs++; CK_STAILQ_FOREACH(ifp, &V_ifnet, if_link) nkifs++; for (int n = 0; n < nkifs; n++) { kif = malloc(sizeof(*kif), PFI_MTYPE, M_WAITOK); LIST_INSERT_HEAD(&kifs, kif, pfik_list); } NET_EPOCH_ENTER(et); PF_RULES_WLOCK(); kif = LIST_FIRST(&kifs); LIST_REMOVE(kif, pfik_list); V_pfi_all = pfi_kif_attach(kif, IFG_ALL); CK_STAILQ_FOREACH(ifg, &V_ifg_head, ifg_next) { kif = LIST_FIRST(&kifs); LIST_REMOVE(kif, pfik_list); pfi_attach_ifgroup(ifg, kif); } CK_STAILQ_FOREACH(ifp, &V_ifnet, if_link) { kif = LIST_FIRST(&kifs); LIST_REMOVE(kif, pfik_list); pfi_attach_ifnet(ifp, kif); } PF_RULES_WUNLOCK(); NET_EPOCH_EXIT(et); IFNET_RUNLOCK(); MPASS(LIST_EMPTY(&kifs)); } void pfi_initialize(void) { pfi_attach_cookie = EVENTHANDLER_REGISTER(ifnet_arrival_event, pfi_attach_ifnet_event, NULL, EVENTHANDLER_PRI_ANY); pfi_detach_cookie = EVENTHANDLER_REGISTER(ifnet_departure_event, pfi_detach_ifnet_event, NULL, EVENTHANDLER_PRI_ANY); pfi_attach_group_cookie = EVENTHANDLER_REGISTER(group_attach_event, pfi_attach_group_event, NULL, EVENTHANDLER_PRI_ANY); pfi_change_group_cookie = EVENTHANDLER_REGISTER(group_change_event, pfi_change_group_event, NULL, EVENTHANDLER_PRI_ANY); pfi_detach_group_cookie = EVENTHANDLER_REGISTER(group_detach_event, pfi_detach_group_event, NULL, EVENTHANDLER_PRI_ANY); pfi_ifaddr_event_cookie = EVENTHANDLER_REGISTER(ifaddr_event, pfi_ifaddr_event, NULL, EVENTHANDLER_PRI_ANY); } void pfi_cleanup_vnet(void) { struct pfi_kif *kif; PF_RULES_WASSERT(); V_pfi_all = NULL; while ((kif = RB_MIN(pfi_ifhead, &V_pfi_ifs))) { RB_REMOVE(pfi_ifhead, &V_pfi_ifs, kif); if (kif->pfik_group) kif->pfik_group->ifg_pf_kif = NULL; if (kif->pfik_ifp) { if_rele(kif->pfik_ifp); kif->pfik_ifp->if_pf_kif = NULL; } free(kif, PFI_MTYPE); } mtx_lock(&pfi_unlnkdkifs_mtx); while ((kif = LIST_FIRST(&V_pfi_unlinked_kifs))) { LIST_REMOVE(kif, pfik_list); free(kif, PFI_MTYPE); } mtx_unlock(&pfi_unlnkdkifs_mtx); free(V_pfi_buffer, PFI_MTYPE); } void pfi_cleanup(void) { EVENTHANDLER_DEREGISTER(ifnet_arrival_event, pfi_attach_cookie); EVENTHANDLER_DEREGISTER(ifnet_departure_event, pfi_detach_cookie); EVENTHANDLER_DEREGISTER(group_attach_event, pfi_attach_group_cookie); EVENTHANDLER_DEREGISTER(group_change_event, pfi_change_group_cookie); EVENTHANDLER_DEREGISTER(group_detach_event, pfi_detach_group_cookie); EVENTHANDLER_DEREGISTER(ifaddr_event, pfi_ifaddr_event_cookie); } struct pfi_kif * pfi_kif_find(const char *kif_name) { struct pfi_kif_cmp s; PF_RULES_ASSERT(); bzero(&s, sizeof(s)); strlcpy(s.pfik_name, kif_name, sizeof(s.pfik_name)); return (RB_FIND(pfi_ifhead, &V_pfi_ifs, (struct pfi_kif *)&s)); } struct pfi_kif * pfi_kif_attach(struct pfi_kif *kif, const char *kif_name) { struct pfi_kif *kif1; PF_RULES_WASSERT(); KASSERT(kif != NULL, ("%s: null kif", __func__)); kif1 = pfi_kif_find(kif_name); if (kif1 != NULL) { free(kif, PFI_MTYPE); return (kif1); } bzero(kif, sizeof(*kif)); strlcpy(kif->pfik_name, kif_name, sizeof(kif->pfik_name)); /* * It seems that the value of time_second is in unintialzied state * when pf sets interface statistics clear time in boot phase if pf * was statically linked to kernel. Instead of setting the bogus * time value have pfi_get_ifaces handle this case. In * pfi_get_ifaces it uses time_second if it sees the time is 0. */ kif->pfik_tzero = time_second > 1 ? time_second : 0; TAILQ_INIT(&kif->pfik_dynaddrs); RB_INSERT(pfi_ifhead, &V_pfi_ifs, kif); return (kif); } void pfi_kif_ref(struct pfi_kif *kif) { PF_RULES_WASSERT(); kif->pfik_rulerefs++; } void pfi_kif_unref(struct pfi_kif *kif) { PF_RULES_WASSERT(); KASSERT(kif->pfik_rulerefs > 0, ("%s: %p has zero refs", __func__, kif)); kif->pfik_rulerefs--; if (kif->pfik_rulerefs > 0) return; /* kif referencing an existing ifnet or group should exist. */ if (kif->pfik_ifp != NULL || kif->pfik_group != NULL || kif == V_pfi_all) return; RB_REMOVE(pfi_ifhead, &V_pfi_ifs, kif); kif->pfik_flags |= PFI_IFLAG_REFS; mtx_lock(&pfi_unlnkdkifs_mtx); LIST_INSERT_HEAD(&V_pfi_unlinked_kifs, kif, pfik_list); mtx_unlock(&pfi_unlnkdkifs_mtx); } void pfi_kif_purge(void) { struct pfi_kif *kif, *kif1; /* * Do naive mark-and-sweep garbage collecting of old kifs. * Reference flag is raised by pf_purge_expired_states(). */ mtx_lock(&pfi_unlnkdkifs_mtx); LIST_FOREACH_SAFE(kif, &V_pfi_unlinked_kifs, pfik_list, kif1) { if (!(kif->pfik_flags & PFI_IFLAG_REFS)) { LIST_REMOVE(kif, pfik_list); free(kif, PFI_MTYPE); } else kif->pfik_flags &= ~PFI_IFLAG_REFS; } mtx_unlock(&pfi_unlnkdkifs_mtx); } int pfi_kif_match(struct pfi_kif *rule_kif, struct pfi_kif *packet_kif) { struct ifg_list *p; NET_EPOCH_ASSERT(); if (rule_kif == NULL || rule_kif == packet_kif) return (1); if (rule_kif->pfik_group != NULL) { CK_STAILQ_FOREACH(p, &packet_kif->pfik_ifp->if_groups, ifgl_next) if (p->ifgl_group == rule_kif->pfik_group) return (1); } return (0); } static void pfi_attach_ifnet(struct ifnet *ifp, struct pfi_kif *kif) { PF_RULES_WASSERT(); V_pfi_update++; kif = pfi_kif_attach(kif, ifp->if_xname); if_ref(ifp); kif->pfik_ifp = ifp; ifp->if_pf_kif = kif; pfi_kif_update(kif); } static void pfi_attach_ifgroup(struct ifg_group *ifg, struct pfi_kif *kif) { PF_RULES_WASSERT(); V_pfi_update++; kif = pfi_kif_attach(kif, ifg->ifg_group); kif->pfik_group = ifg; ifg->ifg_pf_kif = kif; } int pfi_match_addr(struct pfi_dynaddr *dyn, struct pf_addr *a, sa_family_t af) { switch (af) { #ifdef INET case AF_INET: switch (dyn->pfid_acnt4) { case 0: return (0); case 1: return (PF_MATCHA(0, &dyn->pfid_addr4, &dyn->pfid_mask4, a, AF_INET)); default: return (pfr_match_addr(dyn->pfid_kt, a, AF_INET)); } break; #endif /* INET */ #ifdef INET6 case AF_INET6: switch (dyn->pfid_acnt6) { case 0: return (0); case 1: return (PF_MATCHA(0, &dyn->pfid_addr6, &dyn->pfid_mask6, a, AF_INET6)); default: return (pfr_match_addr(dyn->pfid_kt, a, AF_INET6)); } break; #endif /* INET6 */ default: return (0); } } int pfi_dynaddr_setup(struct pf_addr_wrap *aw, sa_family_t af) { struct epoch_tracker et; struct pfi_dynaddr *dyn; char tblname[PF_TABLE_NAME_SIZE]; struct pf_ruleset *ruleset = NULL; struct pfi_kif *kif; int rv = 0; PF_RULES_WASSERT(); KASSERT(aw->type == PF_ADDR_DYNIFTL, ("%s: type %u", __func__, aw->type)); KASSERT(aw->p.dyn == NULL, ("%s: dyn is %p", __func__, aw->p.dyn)); if ((dyn = malloc(sizeof(*dyn), PFI_MTYPE, M_NOWAIT | M_ZERO)) == NULL) return (ENOMEM); if ((kif = malloc(sizeof(*kif), PFI_MTYPE, M_NOWAIT)) == NULL) { free(dyn, PFI_MTYPE); return (ENOMEM); } if (!strcmp(aw->v.ifname, "self")) dyn->pfid_kif = pfi_kif_attach(kif, IFG_ALL); else dyn->pfid_kif = pfi_kif_attach(kif, aw->v.ifname); pfi_kif_ref(dyn->pfid_kif); dyn->pfid_net = pfi_unmask(&aw->v.a.mask); if (af == AF_INET && dyn->pfid_net == 32) dyn->pfid_net = 128; strlcpy(tblname, aw->v.ifname, sizeof(tblname)); if (aw->iflags & PFI_AFLAG_NETWORK) strlcat(tblname, ":network", sizeof(tblname)); if (aw->iflags & PFI_AFLAG_BROADCAST) strlcat(tblname, ":broadcast", sizeof(tblname)); if (aw->iflags & PFI_AFLAG_PEER) strlcat(tblname, ":peer", sizeof(tblname)); if (aw->iflags & PFI_AFLAG_NOALIAS) strlcat(tblname, ":0", sizeof(tblname)); if (dyn->pfid_net != 128) snprintf(tblname + strlen(tblname), sizeof(tblname) - strlen(tblname), "/%d", dyn->pfid_net); if ((ruleset = pf_find_or_create_ruleset(PF_RESERVED_ANCHOR)) == NULL) { rv = ENOMEM; goto _bad; } if ((dyn->pfid_kt = pfr_attach_table(ruleset, tblname)) == NULL) { rv = ENOMEM; goto _bad; } dyn->pfid_kt->pfrkt_flags |= PFR_TFLAG_ACTIVE; dyn->pfid_iflags = aw->iflags; dyn->pfid_af = af; TAILQ_INSERT_TAIL(&dyn->pfid_kif->pfik_dynaddrs, dyn, entry); aw->p.dyn = dyn; NET_EPOCH_ENTER(et); pfi_kif_update(dyn->pfid_kif); NET_EPOCH_EXIT(et); return (0); _bad: if (dyn->pfid_kt != NULL) pfr_detach_table(dyn->pfid_kt); if (ruleset != NULL) pf_remove_if_empty_ruleset(ruleset); if (dyn->pfid_kif != NULL) pfi_kif_unref(dyn->pfid_kif); free(dyn, PFI_MTYPE); return (rv); } static void pfi_kif_update(struct pfi_kif *kif) { struct ifg_list *ifgl; struct ifg_member *ifgm; struct pfi_dynaddr *p; struct pfi_kif *tmpkif; NET_EPOCH_ASSERT(); PF_RULES_WASSERT(); /* update all dynaddr */ TAILQ_FOREACH(p, &kif->pfik_dynaddrs, entry) pfi_dynaddr_update(p); /* Apply group flags to new members. */ if (kif->pfik_group != NULL) { CK_STAILQ_FOREACH(ifgm, &kif->pfik_group->ifg_members, ifgm_next) { tmpkif = (struct pfi_kif *)ifgm->ifgm_ifp->if_pf_kif; if (tmpkif == NULL) continue; tmpkif->pfik_flags |= kif->pfik_flags; } } /* again for all groups kif is member of */ if (kif->pfik_ifp != NULL) { CK_STAILQ_FOREACH(ifgl, &kif->pfik_ifp->if_groups, ifgl_next) pfi_kif_update((struct pfi_kif *) ifgl->ifgl_group->ifg_pf_kif); } } static void pfi_dynaddr_update(struct pfi_dynaddr *dyn) { struct pfi_kif *kif; struct pfr_ktable *kt; PF_RULES_WASSERT(); KASSERT(dyn && dyn->pfid_kif && dyn->pfid_kt, ("%s: bad argument", __func__)); kif = dyn->pfid_kif; kt = dyn->pfid_kt; if (kt->pfrkt_larg != V_pfi_update) { /* this table needs to be brought up-to-date */ pfi_table_update(kt, kif, dyn->pfid_net, dyn->pfid_iflags); kt->pfrkt_larg = V_pfi_update; } pfr_dynaddr_update(kt, dyn); } static void pfi_table_update(struct pfr_ktable *kt, struct pfi_kif *kif, int net, int flags) { int e, size2 = 0; struct ifg_member *ifgm; NET_EPOCH_ASSERT(); V_pfi_buffer_cnt = 0; if (kif->pfik_ifp != NULL) pfi_instance_add(kif->pfik_ifp, net, flags); else if (kif->pfik_group != NULL) { CK_STAILQ_FOREACH(ifgm, &kif->pfik_group->ifg_members, ifgm_next) pfi_instance_add(ifgm->ifgm_ifp, net, flags); } if ((e = pfr_set_addrs(&kt->pfrkt_t, V_pfi_buffer, V_pfi_buffer_cnt, &size2, NULL, NULL, NULL, 0, PFR_TFLAG_ALLMASK))) printf("%s: cannot set %d new addresses into table %s: %d\n", __func__, V_pfi_buffer_cnt, kt->pfrkt_name, e); } static void pfi_instance_add(struct ifnet *ifp, int net, int flags) { struct ifaddr *ia; int got4 = 0, got6 = 0; int net2, af; NET_EPOCH_ASSERT(); CK_STAILQ_FOREACH(ia, &ifp->if_addrhead, ifa_link) { if (ia->ifa_addr == NULL) continue; af = ia->ifa_addr->sa_family; if (af != AF_INET && af != AF_INET6) continue; /* * XXX: For point-to-point interfaces, (ifname:0) and IPv4, * jump over addresses without a proper route to work * around a problem with ppp not fully removing the * address used during IPCP. */ if ((ifp->if_flags & IFF_POINTOPOINT) && !(ia->ifa_flags & IFA_ROUTE) && (flags & PFI_AFLAG_NOALIAS) && (af == AF_INET)) continue; if ((flags & PFI_AFLAG_BROADCAST) && af == AF_INET6) continue; if ((flags & PFI_AFLAG_BROADCAST) && !(ifp->if_flags & IFF_BROADCAST)) continue; if ((flags & PFI_AFLAG_PEER) && !(ifp->if_flags & IFF_POINTOPOINT)) continue; if ((flags & (PFI_AFLAG_NETWORK | PFI_AFLAG_NOALIAS)) && af == AF_INET6 && IN6_IS_ADDR_LINKLOCAL( &((struct sockaddr_in6 *)ia->ifa_addr)->sin6_addr)) continue; if (flags & PFI_AFLAG_NOALIAS) { if (af == AF_INET && got4) continue; if (af == AF_INET6 && got6) continue; } if (af == AF_INET) got4 = 1; else if (af == AF_INET6) got6 = 1; net2 = net; if (net2 == 128 && (flags & PFI_AFLAG_NETWORK)) { if (af == AF_INET) net2 = pfi_unmask(&((struct sockaddr_in *) ia->ifa_netmask)->sin_addr); else if (af == AF_INET6) net2 = pfi_unmask(&((struct sockaddr_in6 *) ia->ifa_netmask)->sin6_addr); } if (af == AF_INET && net2 > 32) net2 = 32; if (flags & PFI_AFLAG_BROADCAST) pfi_address_add(ia->ifa_broadaddr, af, net2); else if (flags & PFI_AFLAG_PEER) pfi_address_add(ia->ifa_dstaddr, af, net2); else pfi_address_add(ia->ifa_addr, af, net2); } } static void pfi_address_add(struct sockaddr *sa, int af, int net) { struct pfr_addr *p; int i; if (V_pfi_buffer_cnt >= V_pfi_buffer_max) { int new_max = V_pfi_buffer_max * 2; if (new_max > PFI_BUFFER_MAX) { printf("%s: address buffer full (%d/%d)\n", __func__, V_pfi_buffer_cnt, PFI_BUFFER_MAX); return; } p = malloc(new_max * sizeof(*V_pfi_buffer), PFI_MTYPE, M_NOWAIT); if (p == NULL) { printf("%s: no memory to grow buffer (%d/%d)\n", __func__, V_pfi_buffer_cnt, PFI_BUFFER_MAX); return; } memcpy(p, V_pfi_buffer, V_pfi_buffer_max * sizeof(*V_pfi_buffer)); /* no need to zero buffer */ free(V_pfi_buffer, PFI_MTYPE); V_pfi_buffer = p; V_pfi_buffer_max = new_max; } if (af == AF_INET && net > 32) net = 128; p = V_pfi_buffer + V_pfi_buffer_cnt++; bzero(p, sizeof(*p)); p->pfra_af = af; p->pfra_net = net; if (af == AF_INET) p->pfra_ip4addr = ((struct sockaddr_in *)sa)->sin_addr; else if (af == AF_INET6) { p->pfra_ip6addr = ((struct sockaddr_in6 *)sa)->sin6_addr; if (IN6_IS_SCOPE_EMBED(&p->pfra_ip6addr)) p->pfra_ip6addr.s6_addr16[1] = 0; } /* mask network address bits */ if (net < 128) ((caddr_t)p)[p->pfra_net/8] &= ~(0xFF >> (p->pfra_net%8)); for (i = (p->pfra_net+7)/8; i < sizeof(p->pfra_u); i++) ((caddr_t)p)[i] = 0; } void pfi_dynaddr_remove(struct pfi_dynaddr *dyn) { KASSERT(dyn->pfid_kif != NULL, ("%s: null pfid_kif", __func__)); KASSERT(dyn->pfid_kt != NULL, ("%s: null pfid_kt", __func__)); TAILQ_REMOVE(&dyn->pfid_kif->pfik_dynaddrs, dyn, entry); pfi_kif_unref(dyn->pfid_kif); pfr_detach_table(dyn->pfid_kt); free(dyn, PFI_MTYPE); } void pfi_dynaddr_copyout(struct pf_addr_wrap *aw) { KASSERT(aw->type == PF_ADDR_DYNIFTL, ("%s: type %u", __func__, aw->type)); if (aw->p.dyn == NULL || aw->p.dyn->pfid_kif == NULL) return; aw->p.dyncnt = aw->p.dyn->pfid_acnt4 + aw->p.dyn->pfid_acnt6; } static int pfi_if_compare(struct pfi_kif *p, struct pfi_kif *q) { return (strncmp(p->pfik_name, q->pfik_name, IFNAMSIZ)); } void pfi_update_status(const char *name, struct pf_status *pfs) { struct pfi_kif *p; struct pfi_kif_cmp key; struct ifg_member p_member, *ifgm; CK_STAILQ_HEAD(, ifg_member) ifg_members; int i, j, k; strlcpy(key.pfik_name, name, sizeof(key.pfik_name)); p = RB_FIND(pfi_ifhead, &V_pfi_ifs, (struct pfi_kif *)&key); if (p == NULL) return; if (p->pfik_group != NULL) { bcopy(&p->pfik_group->ifg_members, &ifg_members, sizeof(ifg_members)); } else { /* build a temporary list for p only */ bzero(&p_member, sizeof(p_member)); p_member.ifgm_ifp = p->pfik_ifp; CK_STAILQ_INIT(&ifg_members); CK_STAILQ_INSERT_TAIL(&ifg_members, &p_member, ifgm_next); } if (pfs) { bzero(pfs->pcounters, sizeof(pfs->pcounters)); bzero(pfs->bcounters, sizeof(pfs->bcounters)); } CK_STAILQ_FOREACH(ifgm, &ifg_members, ifgm_next) { if (ifgm->ifgm_ifp == NULL || ifgm->ifgm_ifp->if_pf_kif == NULL) continue; p = (struct pfi_kif *)ifgm->ifgm_ifp->if_pf_kif; /* just clear statistics */ if (pfs == NULL) { bzero(p->pfik_packets, sizeof(p->pfik_packets)); bzero(p->pfik_bytes, sizeof(p->pfik_bytes)); p->pfik_tzero = time_second; continue; } for (i = 0; i < 2; i++) for (j = 0; j < 2; j++) for (k = 0; k < 2; k++) { pfs->pcounters[i][j][k] += p->pfik_packets[i][j][k]; pfs->bcounters[i][j] += p->pfik_bytes[i][j][k]; } } } void pfi_get_ifaces(const char *name, struct pfi_kif *buf, int *size) { struct epoch_tracker et; struct pfi_kif *p, *nextp; int n = 0; NET_EPOCH_ENTER(et); for (p = RB_MIN(pfi_ifhead, &V_pfi_ifs); p; p = nextp) { nextp = RB_NEXT(pfi_ifhead, &V_pfi_ifs, p); if (pfi_skip_if(name, p)) continue; if (*size <= n++) break; if (!p->pfik_tzero) p->pfik_tzero = time_second; bcopy(p, buf++, sizeof(*buf)); nextp = RB_NEXT(pfi_ifhead, &V_pfi_ifs, p); } *size = n; NET_EPOCH_EXIT(et); } static int pfi_skip_if(const char *filter, struct pfi_kif *p) { struct ifg_list *i; int n; NET_EPOCH_ASSERT(); if (filter == NULL || !*filter) return (0); if (!strcmp(p->pfik_name, filter)) return (0); /* exact match */ n = strlen(filter); if (n < 1 || n >= IFNAMSIZ) return (1); /* sanity check */ if (filter[n-1] >= '0' && filter[n-1] <= '9') return (1); /* group names may not end in a digit */ if (p->pfik_ifp == NULL) return (1); CK_STAILQ_FOREACH(i, &p->pfik_ifp->if_groups, ifgl_next) if (!strncmp(i->ifgl_group->ifg_group, filter, IFNAMSIZ)) return (0); /* iface is in group "filter" */ return (1); } int pfi_set_flags(const char *name, int flags) { struct epoch_tracker et; - struct pfi_kif *p; + struct pfi_kif *p, *kif; + kif = malloc(sizeof(*kif), PFI_MTYPE, M_NOWAIT); + if (kif == NULL) + return (ENOMEM); + NET_EPOCH_ENTER(et); + + kif = pfi_kif_attach(kif, name); + RB_FOREACH(p, pfi_ifhead, &V_pfi_ifs) { if (pfi_skip_if(name, p)) continue; p->pfik_flags |= flags; } NET_EPOCH_EXIT(et); return (0); } int pfi_clear_flags(const char *name, int flags) { struct epoch_tracker et; - struct pfi_kif *p; + struct pfi_kif *p, *tmp; NET_EPOCH_ENTER(et); - RB_FOREACH(p, pfi_ifhead, &V_pfi_ifs) { + RB_FOREACH_SAFE(p, pfi_ifhead, &V_pfi_ifs, tmp) { if (pfi_skip_if(name, p)) continue; p->pfik_flags &= ~flags; + + if (p->pfik_ifp == NULL && p->pfik_group == NULL && + p->pfik_flags == 0) { + /* Delete this kif. */ + RB_REMOVE(pfi_ifhead, &V_pfi_ifs, p); + free(p, PFI_MTYPE); + } } NET_EPOCH_EXIT(et); return (0); } /* from pf_print_state.c */ static int pfi_unmask(void *addr) { struct pf_addr *m = addr; int i = 31, j = 0, b = 0; u_int32_t tmp; while (j < 4 && m->addr32[j] == 0xffffffff) { b += 32; j++; } if (j < 4) { tmp = ntohl(m->addr32[j]); for (i = 31; tmp & (1 << i); --i) b++; } return (b); } static void pfi_attach_ifnet_event(void *arg __unused, struct ifnet *ifp) { struct epoch_tracker et; struct pfi_kif *kif; if (V_pf_vnet_active == 0) { /* Avoid teardown race in the least expensive way. */ return; } kif = malloc(sizeof(*kif), PFI_MTYPE, M_WAITOK); NET_EPOCH_ENTER(et); PF_RULES_WLOCK(); pfi_attach_ifnet(ifp, kif); #ifdef ALTQ pf_altq_ifnet_event(ifp, 0); #endif PF_RULES_WUNLOCK(); NET_EPOCH_EXIT(et); } static void pfi_detach_ifnet_event(void *arg __unused, struct ifnet *ifp) { struct epoch_tracker et; struct pfi_kif *kif = (struct pfi_kif *)ifp->if_pf_kif; if (pfsync_detach_ifnet_ptr) pfsync_detach_ifnet_ptr(ifp); if (kif == NULL) return; if (V_pf_vnet_active == 0) { /* Avoid teardown race in the least expensive way. */ return; } NET_EPOCH_ENTER(et); PF_RULES_WLOCK(); V_pfi_update++; pfi_kif_update(kif); if (kif->pfik_ifp) if_rele(kif->pfik_ifp); kif->pfik_ifp = NULL; ifp->if_pf_kif = NULL; #ifdef ALTQ pf_altq_ifnet_event(ifp, 1); #endif PF_RULES_WUNLOCK(); NET_EPOCH_EXIT(et); } static void pfi_attach_group_event(void *arg __unused, struct ifg_group *ifg) { struct epoch_tracker et; struct pfi_kif *kif; if (V_pf_vnet_active == 0) { /* Avoid teardown race in the least expensive way. */ return; } kif = malloc(sizeof(*kif), PFI_MTYPE, M_WAITOK); NET_EPOCH_ENTER(et); PF_RULES_WLOCK(); pfi_attach_ifgroup(ifg, kif); PF_RULES_WUNLOCK(); NET_EPOCH_EXIT(et); } static void pfi_change_group_event(void *arg __unused, char *gname) { struct epoch_tracker et; struct pfi_kif *kif; if (V_pf_vnet_active == 0) { /* Avoid teardown race in the least expensive way. */ return; } kif = malloc(sizeof(*kif), PFI_MTYPE, M_WAITOK); NET_EPOCH_ENTER(et); PF_RULES_WLOCK(); V_pfi_update++; kif = pfi_kif_attach(kif, gname); pfi_kif_update(kif); PF_RULES_WUNLOCK(); NET_EPOCH_EXIT(et); } static void pfi_detach_group_event(void *arg __unused, struct ifg_group *ifg) { struct pfi_kif *kif = (struct pfi_kif *)ifg->ifg_pf_kif; if (kif == NULL) return; if (V_pf_vnet_active == 0) { /* Avoid teardown race in the least expensive way. */ return; } PF_RULES_WLOCK(); V_pfi_update++; kif->pfik_group = NULL; ifg->ifg_pf_kif = NULL; PF_RULES_WUNLOCK(); } static void pfi_ifaddr_event(void *arg __unused, struct ifnet *ifp) { KASSERT(ifp, ("ifp == NULL")); if (ifp->if_pf_kif == NULL) return; if (V_pf_vnet_active == 0) { /* Avoid teardown race in the least expensive way. */ return; } PF_RULES_WLOCK(); if (ifp->if_pf_kif) { struct epoch_tracker et; V_pfi_update++; NET_EPOCH_ENTER(et); pfi_kif_update(ifp->if_pf_kif); NET_EPOCH_EXIT(et); } PF_RULES_WUNLOCK(); }