/* $OpenBSD: mrt.c,v 1.83 2017/05/27 10:55:45 phessler Exp $ */ /* * Copyright (c) 2003, 2004 Claudio Jeker * * 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 "bgpd.h" #include "rde.h" #include "session.h" #include "mrt.h" #include "log.h" int mrt_attr_dump(struct ibuf *, struct rde_aspath *, struct bgpd_addr *, int); int mrt_dump_entry_mp(struct mrt *, struct prefix *, u_int16_t, struct rde_peer*); int mrt_dump_entry(struct mrt *, struct prefix *, u_int16_t, struct rde_peer*); int mrt_dump_entry_v2(struct mrt *, struct rib_entry *, u_int32_t); int mrt_dump_peer(struct ibuf *, struct rde_peer *); int mrt_dump_hdr_se(struct ibuf **, struct peer *, u_int16_t, u_int16_t, u_int32_t, int); int mrt_dump_hdr_rde(struct ibuf **, u_int16_t type, u_int16_t, u_int32_t); int mrt_open(struct mrt *, time_t); #define DUMP_BYTE(x, b) \ do { \ u_char t = (b); \ if (ibuf_add((x), &t, sizeof(t)) == -1) { \ log_warn("mrt_dump1: ibuf_add error"); \ goto fail; \ } \ } while (0) #define DUMP_SHORT(x, s) \ do { \ u_int16_t t; \ t = htons((s)); \ if (ibuf_add((x), &t, sizeof(t)) == -1) { \ log_warn("mrt_dump2: ibuf_add error"); \ goto fail; \ } \ } while (0) #define DUMP_LONG(x, l) \ do { \ u_int32_t t; \ t = htonl((l)); \ if (ibuf_add((x), &t, sizeof(t)) == -1) { \ log_warn("mrt_dump3: ibuf_add error"); \ goto fail; \ } \ } while (0) #define DUMP_NLONG(x, l) \ do { \ u_int32_t t = (l); \ if (ibuf_add((x), &t, sizeof(t)) == -1) { \ log_warn("mrt_dump4: ibuf_add error"); \ goto fail; \ } \ } while (0) #define RDEIDX 0 #define SEIDX 1 #define TYPE2IDX(x) ((x == MRT_TABLE_DUMP || \ x == MRT_TABLE_DUMP_MP || \ x == MRT_TABLE_DUMP_V2) ? RDEIDX : SEIDX \ ) void mrt_dump_bgp_msg(struct mrt *mrt, void *pkg, u_int16_t pkglen, struct peer *peer) { struct ibuf *buf; int incoming = 0; u_int16_t subtype = BGP4MP_MESSAGE; if (peer->capa.neg.as4byte) subtype = BGP4MP_MESSAGE_AS4; /* get the direction of the message to swap address and AS fields */ if (mrt->type == MRT_ALL_IN || mrt->type == MRT_UPDATE_IN) incoming = 1; if (mrt_dump_hdr_se(&buf, peer, MSG_PROTOCOL_BGP4MP, subtype, pkglen, incoming) == -1) return; if (ibuf_add(buf, pkg, pkglen) == -1) { log_warn("mrt_dump_bgp_msg: ibuf_add error"); ibuf_free(buf); return; } ibuf_close(&mrt->wbuf, buf); } void mrt_dump_state(struct mrt *mrt, u_int16_t old_state, u_int16_t new_state, struct peer *peer) { struct ibuf *buf; u_int16_t subtype = BGP4MP_STATE_CHANGE; if (peer->capa.neg.as4byte) subtype = BGP4MP_STATE_CHANGE_AS4; if (mrt_dump_hdr_se(&buf, peer, MSG_PROTOCOL_BGP4MP, subtype, 2 * sizeof(short), 0) == -1) return; DUMP_SHORT(buf, old_state); DUMP_SHORT(buf, new_state); ibuf_close(&mrt->wbuf, buf); return; fail: ibuf_free(buf); } int mrt_attr_dump(struct ibuf *buf, struct rde_aspath *a, struct bgpd_addr *nexthop, int v2) { struct attr *oa; u_char *pdata; u_int32_t tmp; int neednewpath = 0; u_int16_t plen, afi; u_int8_t l, safi; /* origin */ if (attr_writebuf(buf, ATTR_WELL_KNOWN, ATTR_ORIGIN, &a->origin, 1) == -1) return (-1); /* aspath */ pdata = aspath_prepend(a->aspath, rde_local_as(), 0, &plen); if (!v2) pdata = aspath_deflate(pdata, &plen, &neednewpath); if (attr_writebuf(buf, ATTR_WELL_KNOWN, ATTR_ASPATH, pdata, plen) == -1) { free(pdata); return (-1); } free(pdata); if (nexthop && nexthop->aid == AID_INET) { /* nexthop, already network byte order */ if (attr_writebuf(buf, ATTR_WELL_KNOWN, ATTR_NEXTHOP, &nexthop->v4.s_addr, 4) == -1) return (-1); } /* MED, non transitive */ if (a->med != 0) { tmp = htonl(a->med); if (attr_writebuf(buf, ATTR_OPTIONAL, ATTR_MED, &tmp, 4) == -1) return (-1); } /* local preference */ tmp = htonl(a->lpref); if (attr_writebuf(buf, ATTR_WELL_KNOWN, ATTR_LOCALPREF, &tmp, 4) == -1) return (-1); /* dump all other path attributes without modification */ for (l = 0; l < a->others_len; l++) { if ((oa = a->others[l]) == NULL) break; if (attr_writebuf(buf, oa->flags, oa->type, oa->data, oa->len) == -1) return (-1); } if (nexthop && nexthop->aid != AID_INET) { struct ibuf *nhbuf; if ((nhbuf = ibuf_dynamic(0, UCHAR_MAX)) == NULL) return (-1); if (!v2) { if (aid2afi(nexthop->aid, &afi, &safi)) return (-1); DUMP_SHORT(nhbuf, afi); DUMP_BYTE(nhbuf, safi); } switch (nexthop->aid) { case AID_INET6: DUMP_BYTE(nhbuf, sizeof(struct in6_addr)); if (ibuf_add(nhbuf, &nexthop->v6, sizeof(struct in6_addr)) == -1) { } break; case AID_VPN_IPv4: DUMP_BYTE(nhbuf, sizeof(u_int64_t) + sizeof(struct in_addr)); DUMP_NLONG(nhbuf, 0); /* set RD to 0 */ DUMP_NLONG(nhbuf, 0); DUMP_NLONG(nhbuf, nexthop->v4.s_addr); break; } if (!v2) DUMP_BYTE(nhbuf, 0); if (attr_writebuf(buf, ATTR_OPTIONAL, ATTR_MP_REACH_NLRI, nhbuf->buf, ibuf_size(nhbuf)) == -1) { fail: ibuf_free(nhbuf); return (-1); } ibuf_free(nhbuf); } if (neednewpath) { pdata = aspath_prepend(a->aspath, rde_local_as(), 0, &plen); if (plen != 0) if (attr_writebuf(buf, ATTR_OPTIONAL|ATTR_TRANSITIVE, ATTR_AS4_PATH, pdata, plen) == -1) { free(pdata); return (-1); } free(pdata); } return (0); } int mrt_dump_entry_mp(struct mrt *mrt, struct prefix *p, u_int16_t snum, struct rde_peer *peer) { struct ibuf *buf, *hbuf = NULL, *h2buf = NULL; struct bgpd_addr addr, nexthop, *nh; u_int16_t len; u_int8_t aid; if ((buf = ibuf_dynamic(0, MAX_PKTSIZE)) == NULL) { log_warn("mrt_dump_entry_mp: ibuf_dynamic"); return (-1); } if (mrt_attr_dump(buf, p->aspath, NULL, 0) == -1) { log_warnx("mrt_dump_entry_mp: mrt_attr_dump error"); goto fail; } len = ibuf_size(buf); if ((h2buf = ibuf_dynamic(MRT_BGP4MP_IPv4_HEADER_SIZE + MRT_BGP4MP_IPv4_ENTRY_SIZE, MRT_BGP4MP_IPv6_HEADER_SIZE + MRT_BGP4MP_IPv6_ENTRY_SIZE + MRT_BGP4MP_MAX_PREFIXLEN)) == NULL) { log_warn("mrt_dump_entry_mp: ibuf_dynamic"); goto fail; } DUMP_SHORT(h2buf, peer->conf.local_short_as); DUMP_SHORT(h2buf, peer->short_as); DUMP_SHORT(h2buf, /* ifindex */ 0); /* XXX is this for peer self? */ aid = peer->remote_addr.aid == AID_UNSPEC ? p->prefix->aid : peer->remote_addr.aid; switch (aid) { case AID_INET: DUMP_SHORT(h2buf, AFI_IPv4); DUMP_NLONG(h2buf, peer->local_v4_addr.v4.s_addr); DUMP_NLONG(h2buf, peer->remote_addr.v4.s_addr); break; case AID_INET6: DUMP_SHORT(h2buf, AFI_IPv6); if (ibuf_add(h2buf, &peer->local_v6_addr.v6, sizeof(struct in6_addr)) == -1 || ibuf_add(h2buf, &peer->remote_addr.v6, sizeof(struct in6_addr)) == -1) { log_warn("mrt_dump_entry_mp: ibuf_add error"); goto fail; } break; default: log_warnx("king bula found new AF in mrt_dump_entry_mp"); goto fail; } DUMP_SHORT(h2buf, 0); /* view */ DUMP_SHORT(h2buf, 1); /* status */ DUMP_LONG(h2buf, p->lastchange); /* originated */ pt_getaddr(p->prefix, &addr); if (p->aspath->nexthop == NULL) { bzero(&nexthop, sizeof(struct bgpd_addr)); nexthop.aid = addr.aid; nh = &nexthop; } else nh = &p->aspath->nexthop->exit_nexthop; switch (addr.aid) { case AID_INET: DUMP_SHORT(h2buf, AFI_IPv4); /* afi */ DUMP_BYTE(h2buf, SAFI_UNICAST); /* safi */ DUMP_BYTE(h2buf, 4); /* nhlen */ DUMP_NLONG(h2buf, nh->v4.s_addr); /* nexthop */ break; case AID_INET6: DUMP_SHORT(h2buf, AFI_IPv6); /* afi */ DUMP_BYTE(h2buf, SAFI_UNICAST); /* safi */ DUMP_BYTE(h2buf, 16); /* nhlen */ if (ibuf_add(h2buf, &nh->v6, sizeof(struct in6_addr)) == -1) { log_warn("mrt_dump_entry_mp: ibuf_add error"); goto fail; } break; default: log_warnx("king bula found new AF in mrt_dump_entry_mp"); goto fail; } if (prefix_writebuf(h2buf, &addr, p->prefix->prefixlen) == -1) { log_warn("mrt_dump_entry_mp: prefix_writebuf error"); goto fail; } DUMP_SHORT(h2buf, len); len += ibuf_size(h2buf); if (mrt_dump_hdr_rde(&hbuf, MSG_PROTOCOL_BGP4MP, BGP4MP_ENTRY, len) == -1) goto fail; ibuf_close(&mrt->wbuf, hbuf); ibuf_close(&mrt->wbuf, h2buf); ibuf_close(&mrt->wbuf, buf); return (len + MRT_HEADER_SIZE); fail: ibuf_free(hbuf); ibuf_free(h2buf); ibuf_free(buf); return (-1); } int mrt_dump_entry(struct mrt *mrt, struct prefix *p, u_int16_t snum, struct rde_peer *peer) { struct ibuf *buf, *hbuf; struct bgpd_addr addr, *nh; size_t len; u_int16_t subtype; u_int8_t dummy; if (p->prefix->aid != peer->remote_addr.aid && p->prefix->aid != AID_INET && p->prefix->aid != AID_INET6) /* only able to dump pure IPv4/IPv6 */ return (0); if ((buf = ibuf_dynamic(0, MAX_PKTSIZE)) == NULL) { log_warn("mrt_dump_entry: ibuf_dynamic"); return (-1); } if (p->aspath->nexthop == NULL) { bzero(&addr, sizeof(struct bgpd_addr)); addr.aid = p->prefix->aid; nh = &addr; } else nh = &p->aspath->nexthop->exit_nexthop; if (mrt_attr_dump(buf, p->aspath, nh, 0) == -1) { log_warnx("mrt_dump_entry: mrt_attr_dump error"); ibuf_free(buf); return (-1); } len = ibuf_size(buf); aid2afi(p->prefix->aid, &subtype, &dummy); if (mrt_dump_hdr_rde(&hbuf, MSG_TABLE_DUMP, subtype, len) == -1) { ibuf_free(buf); return (-1); } DUMP_SHORT(hbuf, 0); DUMP_SHORT(hbuf, snum); pt_getaddr(p->prefix, &addr); switch (p->prefix->aid) { case AID_INET: DUMP_NLONG(hbuf, addr.v4.s_addr); break; case AID_INET6: if (ibuf_add(hbuf, &addr.v6, sizeof(struct in6_addr)) == -1) { log_warn("mrt_dump_entry: ibuf_add error"); goto fail; } break; } DUMP_BYTE(hbuf, p->prefix->prefixlen); DUMP_BYTE(hbuf, 1); /* state */ DUMP_LONG(hbuf, p->lastchange); /* originated */ switch (p->prefix->aid) { case AID_INET: DUMP_NLONG(hbuf, peer->remote_addr.v4.s_addr); break; case AID_INET6: if (ibuf_add(hbuf, &peer->remote_addr.v6, sizeof(struct in6_addr)) == -1) { log_warn("mrt_dump_entry: ibuf_add error"); goto fail; } break; } DUMP_SHORT(hbuf, peer->short_as); DUMP_SHORT(hbuf, len); ibuf_close(&mrt->wbuf, hbuf); ibuf_close(&mrt->wbuf, buf); return (len + MRT_HEADER_SIZE); fail: ibuf_free(hbuf); ibuf_free(buf); return (-1); } int mrt_dump_entry_v2(struct mrt *mrt, struct rib_entry *re, u_int32_t snum) { struct ibuf *buf, *hbuf = NULL; struct prefix *p; struct bgpd_addr addr; size_t len, off; u_int16_t subtype, nump; switch (re->prefix->aid) { case AID_INET: subtype = MRT_DUMP_V2_RIB_IPV4_UNICAST; break; case AID_INET6: subtype = MRT_DUMP_V2_RIB_IPV6_UNICAST; break; default: subtype = MRT_DUMP_V2_RIB_GENERIC; break; } if ((buf = ibuf_dynamic(0, UINT_MAX)) == NULL) { log_warn("%s: ibuf_dynamic", __func__); return (-1); } DUMP_LONG(buf, snum); pt_getaddr(re->prefix, &addr); if (subtype == MRT_DUMP_V2_RIB_GENERIC) { u_int16_t afi; u_int8_t safi; aid2afi(re->prefix->aid, &afi, &safi); DUMP_SHORT(buf, afi); DUMP_BYTE(buf, safi); } if (prefix_writebuf(buf, &addr, re->prefix->prefixlen) == -1) { log_warn("%s: prefix_writebuf error", __func__); goto fail; } off = ibuf_size(buf); if (ibuf_reserve(buf, sizeof(nump)) == NULL) { log_warn("%s: ibuf_reserve error", __func__); goto fail; } nump = 0; LIST_FOREACH(p, &re->prefix_h, rib_l) { struct bgpd_addr *nh; struct ibuf *tbuf; if (p->aspath->nexthop == NULL) { bzero(&addr, sizeof(struct bgpd_addr)); addr.aid = p->prefix->aid; nh = &addr; } else nh = &p->aspath->nexthop->exit_nexthop; DUMP_SHORT(buf, p->aspath->peer->mrt_idx); DUMP_LONG(buf, p->lastchange); /* originated */ if ((tbuf = ibuf_dynamic(0, MAX_PKTSIZE)) == NULL) { log_warn("%s: ibuf_dynamic", __func__); return (-1); } if (mrt_attr_dump(tbuf, p->aspath, nh, 1) == -1) { log_warnx("%s: mrt_attr_dump error", __func__); ibuf_free(buf); return (-1); } len = ibuf_size(tbuf); DUMP_SHORT(buf, (u_int16_t)len); if (ibuf_add(buf, tbuf->buf, ibuf_size(tbuf)) == -1) { log_warn("%s: ibuf_add error", __func__); ibuf_free(tbuf); return (-1); } ibuf_free(tbuf); nump++; } nump = htons(nump); memcpy(ibuf_seek(buf, off, sizeof(nump)), &nump, sizeof(nump)); len = ibuf_size(buf); if (mrt_dump_hdr_rde(&hbuf, MSG_TABLE_DUMP_V2, subtype, len) == -1) { ibuf_free(buf); return (-1); } ibuf_close(&mrt->wbuf, hbuf); ibuf_close(&mrt->wbuf, buf); return (0); fail: ibuf_free(hbuf); ibuf_free(buf); return (-1); } int mrt_dump_v2_hdr(struct mrt *mrt, struct bgpd_config *conf, struct rde_peer_head *ph) { struct rde_peer *peer; struct ibuf *buf, *hbuf = NULL; size_t len, off; u_int16_t nlen, nump; if ((buf = ibuf_dynamic(0, UINT_MAX)) == NULL) { log_warn("%s: ibuf_dynamic", __func__); return (-1); } DUMP_NLONG(buf, conf->bgpid); nlen = strlen(mrt->rib); if (nlen > 0) nlen += 1; DUMP_SHORT(buf, nlen); if (ibuf_add(buf, mrt->rib, nlen) == -1) { log_warn("%s: ibuf_add error", __func__); goto fail; } off = ibuf_size(buf); if (ibuf_reserve(buf, sizeof(nump)) == NULL) { log_warn("%s: ibuf_reserve error", __func__); goto fail; } nump = 0; LIST_FOREACH(peer, ph, peer_l) { peer->mrt_idx = nump; if (mrt_dump_peer(buf, peer) == -1) goto fail; nump++; } nump = htons(nump); memcpy(ibuf_seek(buf, off, sizeof(nump)), &nump, sizeof(nump)); len = ibuf_size(buf); if (mrt_dump_hdr_rde(&hbuf, MSG_TABLE_DUMP_V2, MRT_DUMP_V2_PEER_INDEX_TABLE, len) == -1) goto fail; ibuf_close(&mrt->wbuf, hbuf); ibuf_close(&mrt->wbuf, buf); return (0); fail: ibuf_free(hbuf); ibuf_free(buf); return (-1); } int mrt_dump_peer(struct ibuf *buf, struct rde_peer *peer) { u_int8_t type = 0; if (peer->capa.as4byte) type |= MRT_DUMP_V2_PEER_BIT_A; if (peer->remote_addr.aid == AID_INET6) type |= MRT_DUMP_V2_PEER_BIT_I; DUMP_BYTE(buf, type); DUMP_LONG(buf, peer->remote_bgpid); switch (peer->remote_addr.aid) { case AID_INET: DUMP_NLONG(buf, peer->remote_addr.v4.s_addr); break; case AID_INET6: if (ibuf_add(buf, &peer->remote_addr.v6, sizeof(struct in6_addr)) == -1) { log_warn("mrt_dump_peer: ibuf_add error"); goto fail; } break; case AID_UNSPEC: /* XXX special handling for peer_self? */ DUMP_NLONG(buf, 0); break; default: log_warnx("king bula found new AF in mrt_dump_entry_mp"); goto fail; } if (peer->capa.as4byte) DUMP_LONG(buf, peer->conf.remote_as); else DUMP_SHORT(buf, peer->short_as); return (0); fail: return (-1); } void mrt_dump_upcall(struct rib_entry *re, void *ptr) { struct mrt *mrtbuf = ptr; struct prefix *p; if (mrtbuf->type == MRT_TABLE_DUMP_V2) { mrt_dump_entry_v2(mrtbuf, re, mrtbuf->seqnum++); return; } /* * dump all prefixes even the inactive ones. That is the way zebra * dumps the table so we do the same. If only the active route should * be dumped p should be set to p = pt->active. */ LIST_FOREACH(p, &re->prefix_h, rib_l) { if (mrtbuf->type == MRT_TABLE_DUMP) mrt_dump_entry(mrtbuf, p, mrtbuf->seqnum++, p->aspath->peer); else mrt_dump_entry_mp(mrtbuf, p, mrtbuf->seqnum++, p->aspath->peer); } } void mrt_done(void *ptr) { struct mrt *mrtbuf = ptr; mrtbuf->state = MRT_STATE_REMOVE; } int mrt_dump_hdr_se(struct ibuf ** bp, struct peer *peer, u_int16_t type, u_int16_t subtype, u_int32_t len, int swap) { time_t now; if ((*bp = ibuf_dynamic(MRT_HEADER_SIZE, MRT_HEADER_SIZE + MRT_BGP4MP_AS4_IPv6_HEADER_SIZE + len)) == NULL) { log_warn("mrt_dump_hdr_se: ibuf_dynamic error"); return (-1); } now = time(NULL); DUMP_LONG(*bp, now); DUMP_SHORT(*bp, type); DUMP_SHORT(*bp, subtype); switch (peer->sa_local.ss_family) { case AF_INET: if (subtype == BGP4MP_STATE_CHANGE_AS4 || subtype == BGP4MP_MESSAGE_AS4) len += MRT_BGP4MP_AS4_IPv4_HEADER_SIZE; else len += MRT_BGP4MP_IPv4_HEADER_SIZE; break; case AF_INET6: if (subtype == BGP4MP_STATE_CHANGE_AS4 || subtype == BGP4MP_MESSAGE_AS4) len += MRT_BGP4MP_AS4_IPv6_HEADER_SIZE; else len += MRT_BGP4MP_IPv6_HEADER_SIZE; break; case 0: goto fail; default: log_warnx("king bula found new AF in mrt_dump_hdr_se"); goto fail; } DUMP_LONG(*bp, len); if (subtype == BGP4MP_STATE_CHANGE_AS4 || subtype == BGP4MP_MESSAGE_AS4) { if (!swap) DUMP_LONG(*bp, peer->conf.local_as); DUMP_LONG(*bp, peer->conf.remote_as); if (swap) DUMP_LONG(*bp, peer->conf.local_as); } else { if (!swap) DUMP_SHORT(*bp, peer->conf.local_short_as); DUMP_SHORT(*bp, peer->short_as); if (swap) DUMP_SHORT(*bp, peer->conf.local_short_as); } DUMP_SHORT(*bp, /* ifindex */ 0); switch (peer->sa_local.ss_family) { case AF_INET: DUMP_SHORT(*bp, AFI_IPv4); if (!swap) DUMP_NLONG(*bp, ((struct sockaddr_in *) &peer->sa_local)->sin_addr.s_addr); DUMP_NLONG(*bp, ((struct sockaddr_in *)&peer->sa_remote)->sin_addr.s_addr); if (swap) DUMP_NLONG(*bp, ((struct sockaddr_in *) &peer->sa_local)->sin_addr.s_addr); break; case AF_INET6: DUMP_SHORT(*bp, AFI_IPv6); if (!swap) if (ibuf_add(*bp, &((struct sockaddr_in6 *) &peer->sa_local)->sin6_addr, sizeof(struct in6_addr)) == -1) { log_warn("mrt_dump_hdr_se: ibuf_add error"); goto fail; } if (ibuf_add(*bp, &((struct sockaddr_in6 *)&peer->sa_remote)->sin6_addr, sizeof(struct in6_addr)) == -1) { log_warn("mrt_dump_hdr_se: ibuf_add error"); goto fail; } if (swap) if (ibuf_add(*bp, &((struct sockaddr_in6 *) &peer->sa_local)->sin6_addr, sizeof(struct in6_addr)) == -1) { log_warn("mrt_dump_hdr_se: ibuf_add error"); goto fail; } break; } return (0); fail: ibuf_free(*bp); return (-1); } int mrt_dump_hdr_rde(struct ibuf **bp, u_int16_t type, u_int16_t subtype, u_int32_t len) { time_t now; if ((*bp = ibuf_dynamic(MRT_HEADER_SIZE, MRT_HEADER_SIZE + MRT_BGP4MP_AS4_IPv6_HEADER_SIZE + MRT_BGP4MP_IPv6_ENTRY_SIZE)) == NULL) { log_warn("mrt_dump_hdr_rde: ibuf_dynamic error"); return (-1); } now = time(NULL); DUMP_LONG(*bp, now); DUMP_SHORT(*bp, type); DUMP_SHORT(*bp, subtype); switch (type) { case MSG_TABLE_DUMP: switch (subtype) { case AFI_IPv4: len += MRT_DUMP_HEADER_SIZE; break; case AFI_IPv6: len += MRT_DUMP_HEADER_SIZE_V6; break; } DUMP_LONG(*bp, len); break; case MSG_PROTOCOL_BGP4MP: case MSG_TABLE_DUMP_V2: DUMP_LONG(*bp, len); break; default: log_warnx("mrt_dump_hdr_rde: unsupported type"); goto fail; } return (0); fail: ibuf_free(*bp); return (-1); } void mrt_write(struct mrt *mrt) { int r; if ((r = ibuf_write(&mrt->wbuf)) < 0 && errno != EAGAIN) { log_warn("mrt dump aborted, mrt_write"); mrt_clean(mrt); mrt_done(mrt); } } void mrt_clean(struct mrt *mrt) { struct ibuf *b; close(mrt->wbuf.fd); while ((b = TAILQ_FIRST(&mrt->wbuf.bufs))) { TAILQ_REMOVE(&mrt->wbuf.bufs, b, entry); ibuf_free(b); } mrt->wbuf.queued = 0; } static struct imsgbuf *mrt_imsgbuf[2]; void mrt_init(struct imsgbuf *rde, struct imsgbuf *se) { mrt_imsgbuf[RDEIDX] = rde; mrt_imsgbuf[SEIDX] = se; } int mrt_open(struct mrt *mrt, time_t now) { enum imsg_type type; int fd; if (strftime(MRT2MC(mrt)->file, sizeof(MRT2MC(mrt)->file), MRT2MC(mrt)->name, localtime(&now)) == 0) { log_warnx("mrt_open: strftime conversion failed"); return (-1); } fd = open(MRT2MC(mrt)->file, O_WRONLY|O_NONBLOCK|O_CREAT|O_TRUNC, 0644); if (fd == -1) { log_warn("mrt_open %s", MRT2MC(mrt)->file); return (1); } if (mrt->state == MRT_STATE_OPEN) type = IMSG_MRT_OPEN; else type = IMSG_MRT_REOPEN; if (imsg_compose(mrt_imsgbuf[TYPE2IDX(mrt->type)], type, 0, 0, fd, mrt, sizeof(struct mrt)) == -1) log_warn("mrt_open"); return (1); } int mrt_timeout(struct mrt_head *mrt) { struct mrt *m; time_t now; int timeout = MRT_MAX_TIMEOUT; now = time(NULL); LIST_FOREACH(m, mrt, entry) { if (m->state == MRT_STATE_RUNNING && MRT2MC(m)->ReopenTimerInterval != 0) { if (MRT2MC(m)->ReopenTimer <= now) { mrt_open(m, now); MRT2MC(m)->ReopenTimer = now + MRT2MC(m)->ReopenTimerInterval; } if (MRT2MC(m)->ReopenTimer - now < timeout) timeout = MRT2MC(m)->ReopenTimer - now; } } return (timeout > 0 ? timeout : 0); } void mrt_reconfigure(struct mrt_head *mrt) { struct mrt *m, *xm; time_t now; now = time(NULL); for (m = LIST_FIRST(mrt); m != NULL; m = xm) { xm = LIST_NEXT(m, entry); if (m->state == MRT_STATE_OPEN || m->state == MRT_STATE_REOPEN) { if (mrt_open(m, now) == -1) continue; if (MRT2MC(m)->ReopenTimerInterval != 0) MRT2MC(m)->ReopenTimer = now + MRT2MC(m)->ReopenTimerInterval; m->state = MRT_STATE_RUNNING; } if (m->state == MRT_STATE_REMOVE) { if (imsg_compose(mrt_imsgbuf[TYPE2IDX(m->type)], IMSG_MRT_CLOSE, 0, 0, -1, m, sizeof(struct mrt)) == -1) log_warn("mrt_reconfigure"); LIST_REMOVE(m, entry); free(m); continue; } } } void mrt_handler(struct mrt_head *mrt) { struct mrt *m; time_t now; now = time(NULL); LIST_FOREACH(m, mrt, entry) { if (m->state == MRT_STATE_RUNNING && (MRT2MC(m)->ReopenTimerInterval != 0 || m->type == MRT_TABLE_DUMP || m->type == MRT_TABLE_DUMP_MP || m->type == MRT_TABLE_DUMP_V2)) { if (mrt_open(m, now) == -1) continue; MRT2MC(m)->ReopenTimer = now + MRT2MC(m)->ReopenTimerInterval; } } } struct mrt * mrt_get(struct mrt_head *c, struct mrt *m) { struct mrt *t; LIST_FOREACH(t, c, entry) { if (t->type != m->type) continue; if (strcmp(t->rib, m->rib)) continue; if (t->peer_id == m->peer_id && t->group_id == m->group_id) return (t); } return (NULL); } int mrt_mergeconfig(struct mrt_head *xconf, struct mrt_head *nconf) { struct mrt *m, *xm; /* both lists here are actually struct mrt_conifg nodes */ LIST_FOREACH(m, nconf, entry) { if ((xm = mrt_get(xconf, m)) == NULL) { /* NEW */ if ((xm = malloc(sizeof(struct mrt_config))) == NULL) fatal("mrt_mergeconfig"); memcpy(xm, m, sizeof(struct mrt_config)); xm->state = MRT_STATE_OPEN; LIST_INSERT_HEAD(xconf, xm, entry); } else { /* MERGE */ if (strlcpy(MRT2MC(xm)->name, MRT2MC(m)->name, sizeof(MRT2MC(xm)->name)) >= sizeof(MRT2MC(xm)->name)) fatalx("mrt_mergeconfig: strlcpy"); MRT2MC(xm)->ReopenTimerInterval = MRT2MC(m)->ReopenTimerInterval; xm->state = MRT_STATE_REOPEN; } } LIST_FOREACH(xm, xconf, entry) if (mrt_get(nconf, xm) == NULL) /* REMOVE */ xm->state = MRT_STATE_REMOVE; /* free config */ while ((m = LIST_FIRST(nconf)) != NULL) { LIST_REMOVE(m, entry); free(m); } return (0); }