/* $OpenBSD: interface.c,v 1.82 2018/03/11 13:16:49 claudio Exp $ */ /* * Copyright (c) 2005 Claudio Jeker * Copyright (c) 2004, 2005 Esben Norby * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "ospfd.h" #include "ospf.h" #include "log.h" #include "ospfe.h" void if_hello_timer(int, short, void *); void if_start_hello_timer(struct iface *); void if_stop_hello_timer(struct iface *); void if_stop_wait_timer(struct iface *); void if_wait_timer(int, short, void *); void if_start_wait_timer(struct iface *); void if_stop_wait_timer(struct iface *); struct nbr *if_elect(struct nbr *, struct nbr *); struct { int state; enum iface_event event; enum iface_action action; int new_state; } iface_fsm[] = { /* current state event that happened action to take resulting state */ {IF_STA_DOWN, IF_EVT_UP, IF_ACT_STRT, 0}, {IF_STA_WAITING, IF_EVT_BACKUP_SEEN, IF_ACT_ELECT, 0}, {IF_STA_WAITING, IF_EVT_WTIMER, IF_ACT_ELECT, 0}, {IF_STA_ANY, IF_EVT_WTIMER, IF_ACT_NOTHING, 0}, {IF_STA_WAITING, IF_EVT_NBR_CHNG, IF_ACT_NOTHING, 0}, {IF_STA_MULTI, IF_EVT_NBR_CHNG, IF_ACT_ELECT, 0}, {IF_STA_ANY, IF_EVT_NBR_CHNG, IF_ACT_NOTHING, 0}, {IF_STA_ANY, IF_EVT_DOWN, IF_ACT_RST, IF_STA_DOWN}, {IF_STA_ANY, IF_EVT_LOOP, IF_ACT_RST, IF_STA_LOOPBACK}, {IF_STA_LOOPBACK, IF_EVT_UNLOOP, IF_ACT_NOTHING, IF_STA_DOWN}, {-1, IF_EVT_NOTHING, IF_ACT_NOTHING, 0}, }; static int vlink_cnt = 0; const char * const if_event_names[] = { "NOTHING", "UP", "WAITTIMER", "BACKUPSEEN", "NEIGHBORCHANGE", "LOOP", "UNLOOP", "DOWN" }; const char * const if_action_names[] = { "NOTHING", "START", "ELECT", "RESET" }; int if_fsm(struct iface *iface, enum iface_event event) { int old_state; int new_state = 0; int i, ret = 0; old_state = iface->state; for (i = 0; iface_fsm[i].state != -1; i++) if ((iface_fsm[i].state & old_state) && (iface_fsm[i].event == event)) { new_state = iface_fsm[i].new_state; break; } if (iface_fsm[i].state == -1) { /* event outside of the defined fsm, ignore it. */ log_debug("if_fsm: interface %s, " "event %s not expected in state %s", iface->name, if_event_names[event], if_state_name(old_state)); return (0); } switch (iface_fsm[i].action) { case IF_ACT_STRT: ret = if_act_start(iface); break; case IF_ACT_ELECT: ret = if_act_elect(iface); break; case IF_ACT_RST: ret = if_act_reset(iface); break; case IF_ACT_NOTHING: /* do nothing */ break; } if (ret) { log_debug("if_fsm: error changing state for interface %s, " "event %s, state %s", iface->name, if_event_names[event], if_state_name(old_state)); return (-1); } if (new_state != 0) iface->state = new_state; if (iface->state != old_state) { area_track(iface->area); orig_rtr_lsa(iface->area); } if (old_state & (IF_STA_MULTI | IF_STA_POINTTOPOINT) && (iface->state & (IF_STA_MULTI | IF_STA_POINTTOPOINT)) == 0) ospfe_demote_iface(iface, 0); if ((old_state & (IF_STA_MULTI | IF_STA_POINTTOPOINT)) == 0 && iface->state & (IF_STA_MULTI | IF_STA_POINTTOPOINT)) ospfe_demote_iface(iface, 1); log_debug("if_fsm: event %s resulted in action %s and changing " "state for interface %s from %s to %s", if_event_names[event], if_action_names[iface_fsm[i].action], iface->name, if_state_name(old_state), if_state_name(iface->state)); return (ret); } struct iface * if_new(struct kif *kif, struct kif_addr *ka) { struct iface *iface; if ((iface = calloc(1, sizeof(*iface))) == NULL) err(1, "if_new: calloc"); iface->state = IF_STA_DOWN; LIST_INIT(&iface->nbr_list); TAILQ_INIT(&iface->ls_ack_list); TAILQ_INIT(&iface->auth_md_list); RB_INIT(&iface->lsa_tree); iface->crypt_seq_num = arc4random() & 0x0fffffff; if (kif == NULL) { iface->type = IF_TYPE_VIRTUALLINK; snprintf(iface->name, sizeof(iface->name), "vlink%d", vlink_cnt++); iface->flags |= IFF_UP; iface->mtu = IP_MSS; return (iface); } strlcpy(iface->name, kif->ifname, sizeof(iface->name)); /* get type */ if (kif->flags & IFF_POINTOPOINT) iface->type = IF_TYPE_POINTOPOINT; if (kif->flags & IFF_BROADCAST && kif->flags & IFF_MULTICAST) iface->type = IF_TYPE_BROADCAST; if (kif->flags & IFF_LOOPBACK) { iface->type = IF_TYPE_POINTOPOINT; iface->passive = 1; } /* get mtu, index and flags */ iface->mtu = kif->mtu; iface->ifindex = kif->ifindex; iface->rdomain = kif->rdomain; iface->flags = kif->flags; iface->linkstate = kif->link_state; iface->if_type = kif->if_type; iface->baudrate = kif->baudrate; /* set address, mask and p2p addr */ iface->addr = ka->addr; iface->mask = ka->mask; if (kif->flags & IFF_POINTOPOINT) { iface->dst = ka->dstbrd; } return (iface); } void if_del(struct iface *iface) { struct nbr *nbr = NULL; /* revert the demotion when the interface is deleted */ if ((iface->state & (IF_STA_MULTI | IF_STA_POINTTOPOINT)) == 0) ospfe_demote_iface(iface, 1); /* clear lists etc */ while ((nbr = LIST_FIRST(&iface->nbr_list)) != NULL) nbr_del(nbr); if (evtimer_pending(&iface->hello_timer, NULL)) evtimer_del(&iface->hello_timer); if (evtimer_pending(&iface->wait_timer, NULL)) evtimer_del(&iface->wait_timer); if (evtimer_pending(&iface->lsack_tx_timer, NULL)) evtimer_del(&iface->lsack_tx_timer); ls_ack_list_clr(iface); md_list_clr(&iface->auth_md_list); free(iface); } void if_init(struct ospfd_conf *xconf, struct iface *iface) { /* init the dummy local neighbor */ iface->self = nbr_new(ospfe_router_id(), iface, 1); /* set event handlers for interface */ evtimer_set(&iface->lsack_tx_timer, ls_ack_tx_timer, iface); evtimer_set(&iface->hello_timer, if_hello_timer, iface); evtimer_set(&iface->wait_timer, if_wait_timer, iface); iface->fd = xconf->ospf_socket; ospfe_demote_iface(iface, 0); } /* timers */ /* ARGSUSED */ void if_hello_timer(int fd, short event, void *arg) { struct iface *iface = arg; struct timeval tv; send_hello(iface); /* reschedule hello_timer */ timerclear(&tv); if (iface->dead_interval == FAST_RTR_DEAD_TIME) tv.tv_usec = iface->fast_hello_interval * 1000; else tv.tv_sec = iface->hello_interval; if (evtimer_add(&iface->hello_timer, &tv) == -1) fatal("if_hello_timer"); } void if_start_hello_timer(struct iface *iface) { struct timeval tv; timerclear(&tv); if (evtimer_add(&iface->hello_timer, &tv) == -1) fatal("if_start_hello_timer"); } void if_stop_hello_timer(struct iface *iface) { if (evtimer_del(&iface->hello_timer) == -1) fatal("if_stop_hello_timer"); } /* ARGSUSED */ void if_wait_timer(int fd, short event, void *arg) { struct iface *iface = arg; if_fsm(iface, IF_EVT_WTIMER); } void if_start_wait_timer(struct iface *iface) { struct timeval tv; timerclear(&tv); tv.tv_sec = iface->dead_interval; if (evtimer_add(&iface->wait_timer, &tv) == -1) fatal("if_start_wait_timer"); } void if_stop_wait_timer(struct iface *iface) { if (evtimer_del(&iface->wait_timer) == -1) fatal("if_stop_wait_timer"); } /* actions */ int if_act_start(struct iface *iface) { struct in_addr addr; struct timeval now; if (!(iface->flags & IFF_UP) || (!LINK_STATE_IS_UP(iface->linkstate) && !(iface->if_type == IFT_CARP && iface->linkstate == LINK_STATE_DOWN))) return (0); if (iface->if_type == IFT_CARP && iface->passive == 0) { /* force passive mode on carp interfaces */ log_warnx("if_act_start: forcing interface %s to passive", iface->name); iface->passive = 1; } gettimeofday(&now, NULL); iface->uptime = now.tv_sec; /* loopback interfaces have a special state and are passive */ if (iface->flags & IFF_LOOPBACK) iface->state = IF_STA_LOOPBACK; if (iface->passive) { /* for an update of stub network entries */ orig_rtr_lsa(iface->area); return (0); } switch (iface->type) { case IF_TYPE_POINTOPOINT: inet_aton(AllSPFRouters, &addr); if (if_join_group(iface, &addr)) return (-1); iface->state = IF_STA_POINTTOPOINT; break; case IF_TYPE_VIRTUALLINK: iface->state = IF_STA_POINTTOPOINT; break; case IF_TYPE_POINTOMULTIPOINT: case IF_TYPE_NBMA: log_debug("if_act_start: type %s not supported, interface %s", if_type_name(iface->type), iface->name); return (-1); case IF_TYPE_BROADCAST: inet_aton(AllSPFRouters, &addr); if (if_join_group(iface, &addr)) return (-1); if (iface->priority == 0) { iface->state = IF_STA_DROTHER; } else { iface->state = IF_STA_WAITING; if_start_wait_timer(iface); } break; default: fatalx("if_act_start: unknown interface type"); } /* hello timer needs to be started in any case */ if_start_hello_timer(iface); return (0); } struct nbr * if_elect(struct nbr *a, struct nbr *b) { if (a->priority > b->priority) return (a); if (a->priority < b->priority) return (b); if (ntohl(a->id.s_addr) > ntohl(b->id.s_addr)) return (a); return (b); } int if_act_elect(struct iface *iface) { struct in_addr addr; struct nbr *nbr, *bdr = NULL, *dr = NULL; int round = 0; int changed = 0; int old_state; char b1[16], b2[16], b3[16], b4[16]; start: /* elect backup designated router */ LIST_FOREACH(nbr, &iface->nbr_list, entry) { if (nbr->priority == 0 || nbr == dr || /* not electable */ nbr->state & NBR_STA_PRELIM || /* not available */ nbr->dr.s_addr == nbr->addr.s_addr) /* don't elect DR */ continue; if (bdr != NULL) { /* * routers announcing themselves as BDR have higher * precedence over those routers announcing a * different BDR. */ if (nbr->bdr.s_addr == nbr->addr.s_addr) { if (bdr->bdr.s_addr == bdr->addr.s_addr) bdr = if_elect(bdr, nbr); else bdr = nbr; } else if (bdr->bdr.s_addr != bdr->addr.s_addr) bdr = if_elect(bdr, nbr); } else bdr = nbr; } /* elect designated router */ LIST_FOREACH(nbr, &iface->nbr_list, entry) { if (nbr->priority == 0 || nbr->state & NBR_STA_PRELIM || (nbr != dr && nbr->dr.s_addr != nbr->addr.s_addr)) /* only DR may be elected check priority too */ continue; if (dr == NULL) dr = nbr; else dr = if_elect(dr, nbr); } if (dr == NULL) { /* no designated router found use backup DR */ dr = bdr; bdr = NULL; } /* * if we are involved in the election (e.g. new DR or no * longer BDR) redo the election */ if (round == 0 && ((iface->self == dr && iface->self != iface->dr) || (iface->self != dr && iface->self == iface->dr) || (iface->self == bdr && iface->self != iface->bdr) || (iface->self != bdr && iface->self == iface->bdr))) { /* * Reset announced DR/BDR to calculated one, so * that we may get elected in the second round. * This is needed to drop from a DR to a BDR. */ iface->self->dr.s_addr = dr->addr.s_addr; if (bdr) iface->self->bdr.s_addr = bdr->addr.s_addr; round = 1; goto start; } log_debug("if_act_elect: interface %s old dr %s new dr %s, " "old bdr %s new bdr %s", iface->name, iface->dr ? inet_ntop(AF_INET, &iface->dr->addr, b1, sizeof(b1)) : "none", dr ? inet_ntop(AF_INET, &dr->addr, b2, sizeof(b2)) : "none", iface->bdr ? inet_ntop(AF_INET, &iface->bdr->addr, b3, sizeof(b3)) : "none", bdr ? inet_ntop(AF_INET, &bdr->addr, b4, sizeof(b4)) : "none"); /* * After the second round still DR or BDR change state to DR or BDR, * etc. */ old_state = iface->state; if (dr == iface->self) iface->state = IF_STA_DR; else if (bdr == iface->self) iface->state = IF_STA_BACKUP; else iface->state = IF_STA_DROTHER; /* TODO if iface is NBMA send all non eligible neighbors event Start */ /* * if DR or BDR changed issue a AdjOK? event for all neighbors > 2-Way */ if (iface->dr != dr || iface->bdr != bdr) changed = 1; iface->dr = dr; iface->bdr = bdr; if (changed) { inet_aton(AllDRouters, &addr); if (old_state & IF_STA_DRORBDR && (iface->state & IF_STA_DRORBDR) == 0) { if (if_leave_group(iface, &addr)) return (-1); } else if ((old_state & IF_STA_DRORBDR) == 0 && iface->state & IF_STA_DRORBDR) { if (if_join_group(iface, &addr)) return (-1); } LIST_FOREACH(nbr, &iface->nbr_list, entry) { if (nbr->state & NBR_STA_BIDIR) nbr_fsm(nbr, NBR_EVT_ADJ_OK); } orig_rtr_lsa(iface->area); if (iface->state & IF_STA_DR || old_state & IF_STA_DR) orig_net_lsa(iface); } if_start_hello_timer(iface); return (0); } int if_act_reset(struct iface *iface) { struct nbr *nbr = NULL; struct in_addr addr; if (iface->passive) { /* for an update of stub network entries */ orig_rtr_lsa(iface->area); return (0); } switch (iface->type) { case IF_TYPE_POINTOPOINT: case IF_TYPE_BROADCAST: /* try to cleanup */ inet_aton(AllSPFRouters, &addr); if_leave_group(iface, &addr); if (iface->state & IF_STA_DRORBDR) { inet_aton(AllDRouters, &addr); if_leave_group(iface, &addr); } break; case IF_TYPE_VIRTUALLINK: /* nothing */ break; case IF_TYPE_NBMA: case IF_TYPE_POINTOMULTIPOINT: log_debug("if_act_reset: type %s not supported, interface %s", if_type_name(iface->type), iface->name); return (-1); default: fatalx("if_act_reset: unknown interface type"); } LIST_FOREACH(nbr, &iface->nbr_list, entry) { if (nbr_fsm(nbr, NBR_EVT_KILL_NBR)) { log_debug("if_act_reset: error killing neighbor %s", inet_ntoa(nbr->id)); } } iface->dr = NULL; iface->bdr = NULL; ls_ack_list_clr(iface); stop_ls_ack_tx_timer(iface); if_stop_hello_timer(iface); if_stop_wait_timer(iface); /* send empty hello to tell everybody that we are going down */ send_hello(iface); return (0); } struct ctl_iface * if_to_ctl(struct iface *iface) { static struct ctl_iface ictl; struct timeval tv, now, res; struct nbr *nbr; memcpy(ictl.name, iface->name, sizeof(ictl.name)); memcpy(&ictl.addr, &iface->addr, sizeof(ictl.addr)); memcpy(&ictl.mask, &iface->mask, sizeof(ictl.mask)); ictl.rtr_id.s_addr = ospfe_router_id(); memcpy(&ictl.area, &iface->area->id, sizeof(ictl.area)); if (iface->dr) { memcpy(&ictl.dr_id, &iface->dr->id, sizeof(ictl.dr_id)); memcpy(&ictl.dr_addr, &iface->dr->addr, sizeof(ictl.dr_addr)); } else { bzero(&ictl.dr_id, sizeof(ictl.dr_id)); bzero(&ictl.dr_addr, sizeof(ictl.dr_addr)); } if (iface->bdr) { memcpy(&ictl.bdr_id, &iface->bdr->id, sizeof(ictl.bdr_id)); memcpy(&ictl.bdr_addr, &iface->bdr->addr, sizeof(ictl.bdr_addr)); } else { bzero(&ictl.bdr_id, sizeof(ictl.bdr_id)); bzero(&ictl.bdr_addr, sizeof(ictl.bdr_addr)); } ictl.ifindex = iface->ifindex; ictl.state = iface->state; ictl.mtu = iface->mtu; ictl.nbr_cnt = 0; ictl.adj_cnt = 0; ictl.baudrate = iface->baudrate; ictl.dead_interval = iface->dead_interval; ictl.fast_hello_interval = iface->fast_hello_interval; ictl.transmit_delay = iface->transmit_delay; ictl.hello_interval = iface->hello_interval; ictl.flags = iface->flags; ictl.metric = iface->metric; ictl.rxmt_interval = iface->rxmt_interval; ictl.type = iface->type; ictl.linkstate = iface->linkstate; ictl.if_type = iface->if_type; ictl.priority = iface->priority; ictl.passive = iface->passive; ictl.auth_type = iface->auth_type; ictl.auth_keyid = iface->auth_keyid; gettimeofday(&now, NULL); if (evtimer_pending(&iface->hello_timer, &tv)) { timersub(&tv, &now, &res); ictl.hello_timer = res; } else { ictl.hello_timer.tv_sec = -1; } if (iface->state != IF_STA_DOWN && iface->uptime != 0) { ictl.uptime = now.tv_sec - iface->uptime; } else ictl.uptime = 0; LIST_FOREACH(nbr, &iface->nbr_list, entry) { if (nbr == iface->self) continue; ictl.nbr_cnt++; if (nbr->state & NBR_STA_ADJFORM) ictl.adj_cnt++; } return (&ictl); } /* misc */ int if_set_recvif(int fd, int enable) { if (setsockopt(fd, IPPROTO_IP, IP_RECVIF, &enable, sizeof(enable)) < 0) { log_warn("if_set_recvif: error setting IP_RECVIF"); return (-1); } return (0); } void if_set_sockbuf(int fd) { int bsize; bsize = 256 * 1024; while (setsockopt(fd, SOL_SOCKET, SO_RCVBUF, &bsize, sizeof(bsize)) == -1) bsize /= 2; if (bsize != 256 * 1024) log_warnx("if_set_sockbuf: recvbuf size only %d", bsize); bsize = 64 * 1024; while (setsockopt(fd, SOL_SOCKET, SO_SNDBUF, &bsize, sizeof(bsize)) == -1) bsize /= 2; if (bsize != 64 * 1024) log_warnx("if_set_sockbuf: sendbuf size only %d", bsize); } /* * only one JOIN or DROP per interface and address is allowed so we need * to keep track of what is added and removed. */ struct if_group_count { LIST_ENTRY(if_group_count) entry; struct in_addr addr; unsigned int ifindex; int count; }; LIST_HEAD(,if_group_count) ifglist = LIST_HEAD_INITIALIZER(ifglist); int if_join_group(struct iface *iface, struct in_addr *addr) { struct ip_mreq mreq; struct if_group_count *ifg; switch (iface->type) { case IF_TYPE_POINTOPOINT: case IF_TYPE_BROADCAST: LIST_FOREACH(ifg, &ifglist, entry) if (iface->ifindex == ifg->ifindex && addr->s_addr == ifg->addr.s_addr) break; if (ifg == NULL) { if ((ifg = calloc(1, sizeof(*ifg))) == NULL) fatal("if_join_group"); ifg->addr.s_addr = addr->s_addr; ifg->ifindex = iface->ifindex; LIST_INSERT_HEAD(&ifglist, ifg, entry); } if (ifg->count++ != 0) /* already joined */ return (0); mreq.imr_multiaddr.s_addr = addr->s_addr; mreq.imr_interface.s_addr = iface->addr.s_addr; if (setsockopt(iface->fd, IPPROTO_IP, IP_ADD_MEMBERSHIP, (void *)&mreq, sizeof(mreq)) < 0) { log_warn("if_join_group: error IP_ADD_MEMBERSHIP, " "interface %s address %s", iface->name, inet_ntoa(*addr)); return (-1); } break; case IF_TYPE_POINTOMULTIPOINT: case IF_TYPE_VIRTUALLINK: case IF_TYPE_NBMA: log_debug("if_join_group: type %s not supported, interface %s", if_type_name(iface->type), iface->name); return (-1); default: fatalx("if_join_group: unknown interface type"); } return (0); } int if_leave_group(struct iface *iface, struct in_addr *addr) { struct ip_mreq mreq; struct if_group_count *ifg; switch (iface->type) { case IF_TYPE_POINTOPOINT: case IF_TYPE_BROADCAST: LIST_FOREACH(ifg, &ifglist, entry) if (iface->ifindex == ifg->ifindex && addr->s_addr == ifg->addr.s_addr) break; /* if interface is not found just try to drop membership */ if (ifg) { if (--ifg->count != 0) /* others still joined */ return (0); LIST_REMOVE(ifg, entry); free(ifg); } mreq.imr_multiaddr.s_addr = addr->s_addr; mreq.imr_interface.s_addr = iface->addr.s_addr; if (setsockopt(iface->fd, IPPROTO_IP, IP_DROP_MEMBERSHIP, (void *)&mreq, sizeof(mreq)) < 0) { log_warn("if_leave_group: error IP_DROP_MEMBERSHIP, " "interface %s address %s", iface->name, inet_ntoa(*addr)); return (-1); } break; case IF_TYPE_POINTOMULTIPOINT: case IF_TYPE_VIRTUALLINK: case IF_TYPE_NBMA: log_debug("if_leave_group: type %s not supported, interface %s", if_type_name(iface->type), iface->name); return (-1); default: fatalx("if_leave_group: unknown interface type"); } return (0); } int if_set_mcast(struct iface *iface) { switch (iface->type) { case IF_TYPE_POINTOPOINT: case IF_TYPE_BROADCAST: if (setsockopt(iface->fd, IPPROTO_IP, IP_MULTICAST_IF, &iface->addr.s_addr, sizeof(iface->addr.s_addr)) < 0) { log_warn("if_set_mcast: error setting " "IP_MULTICAST_IF, interface %s", iface->name); return (-1); } break; case IF_TYPE_POINTOMULTIPOINT: case IF_TYPE_VIRTUALLINK: case IF_TYPE_NBMA: log_debug("if_set_mcast: type %s not supported, interface %s", if_type_name(iface->type), iface->name); return (-1); default: fatalx("if_set_mcast: unknown interface type"); } return (0); } int if_set_mcast_loop(int fd) { u_int8_t loop = 0; if (setsockopt(fd, IPPROTO_IP, IP_MULTICAST_LOOP, (char *)&loop, sizeof(loop)) < 0) { log_warn("if_set_mcast_loop: error setting IP_MULTICAST_LOOP"); return (-1); } return (0); } int if_set_ip_hdrincl(int fd) { int hincl = 1; if (setsockopt(fd, IPPROTO_IP, IP_HDRINCL, &hincl, sizeof(hincl)) < 0) { log_warn("if_set_ip_hdrincl: error setting IP_HDRINCL"); return (-1); } return (0); }