/* $OpenBSD: bgpctl.c,v 1.273 2021/08/09 08:24:36 claudio Exp $ */ /* * Copyright (c) 2003 Henning Brauer * Copyright (c) 2004-2019 Claudio Jeker * Copyright (c) 2016 Job Snijders * Copyright (c) 2016 Peter Hessler * * 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 "bgpd.h" #include "session.h" #include "rde.h" #include "version.h" #include "bgpctl.h" #include "parser.h" #include "mrtparser.h" int main(int, char *[]); int show(struct imsg *, struct parse_result *); void send_filterset(struct imsgbuf *, struct filter_set_head *); void show_mrt_dump_neighbors(struct mrt_rib *, struct mrt_peer *, void *); void show_mrt_dump(struct mrt_rib *, struct mrt_peer *, void *); void network_mrt_dump(struct mrt_rib *, struct mrt_peer *, void *); void show_mrt_state(struct mrt_bgp_state *, void *); void show_mrt_msg(struct mrt_bgp_msg *, void *); const char *msg_type(u_int8_t); void network_bulk(struct parse_result *); int match_aspath(void *, u_int16_t, struct filter_as *); struct imsgbuf *ibuf; struct mrt_parser show_mrt = { show_mrt_dump, show_mrt_state, show_mrt_msg }; struct mrt_parser net_mrt = { network_mrt_dump, NULL, NULL }; const struct output *output = &show_output; int tableid; int nodescr; __dead void usage(void) { extern char *__progname; fprintf(stderr, "usage: %s [-jnV] [-s socket] command [argument ...]\n", __progname); exit(1); } int main(int argc, char *argv[]) { struct sockaddr_un sun; int fd, n, done, ch, verbose = 0; struct imsg imsg; struct network_config net; struct parse_result *res; struct ctl_neighbor neighbor; struct ctl_show_rib_request ribreq; char *sockname; enum imsg_type type; if (pledge("stdio rpath wpath cpath unix inet dns", NULL) == -1) err(1, "pledge"); tableid = getrtable(); if (asprintf(&sockname, "%s.%d", SOCKET_NAME, tableid) == -1) err(1, "asprintf"); while ((ch = getopt(argc, argv, "jns:V")) != -1) { switch (ch) { case 'n': if (++nodescr > 1) usage(); break; case 'j': output = &json_output; break; case 's': sockname = optarg; break; case 'V': fprintf(stderr, "OpenBGPD %s\n", BGPD_VERSION); return 0; default: usage(); /* NOTREACHED */ } } argc -= optind; argv += optind; if ((res = parse(argc, argv)) == NULL) exit(1); memcpy(&neighbor.addr, &res->peeraddr, sizeof(neighbor.addr)); strlcpy(neighbor.descr, res->peerdesc, sizeof(neighbor.descr)); neighbor.is_group = res->is_group; strlcpy(neighbor.reason, res->reason, sizeof(neighbor.reason)); switch (res->action) { case SHOW_MRT: if (pledge("stdio", NULL) == -1) err(1, "pledge"); bzero(&ribreq, sizeof(ribreq)); if (res->as.type != AS_UNDEF) ribreq.as = res->as; if (res->addr.aid) { ribreq.prefix = res->addr; ribreq.prefixlen = res->prefixlen; } /* XXX currently no communities support */ ribreq.neighbor = neighbor; ribreq.aid = res->aid; ribreq.flags = res->flags; ribreq.validation_state = res->validation_state; show_mrt.arg = &ribreq; if (res->flags & F_CTL_NEIGHBORS) show_mrt.dump = show_mrt_dump_neighbors; else output->head(res); mrt_parse(res->mrtfd, &show_mrt, 1); exit(0); default: break; } if (pledge("stdio unix", NULL) == -1) err(1, "pledge"); if ((fd = socket(AF_UNIX, SOCK_STREAM, 0)) == -1) err(1, "control_init: socket"); bzero(&sun, sizeof(sun)); sun.sun_family = AF_UNIX; if (strlcpy(sun.sun_path, sockname, sizeof(sun.sun_path)) >= sizeof(sun.sun_path)) errx(1, "socket name too long"); if (connect(fd, (struct sockaddr *)&sun, sizeof(sun)) == -1) err(1, "connect: %s", sockname); if (pledge("stdio", NULL) == -1) err(1, "pledge"); if ((ibuf = malloc(sizeof(struct imsgbuf))) == NULL) err(1, NULL); imsg_init(ibuf, fd); done = 0; switch (res->action) { case NONE: case SHOW_MRT: usage(); /* NOTREACHED */ case SHOW: case SHOW_SUMMARY: imsg_compose(ibuf, IMSG_CTL_SHOW_NEIGHBOR, 0, 0, -1, NULL, 0); break; case SHOW_SUMMARY_TERSE: imsg_compose(ibuf, IMSG_CTL_SHOW_TERSE, 0, 0, -1, NULL, 0); break; case SHOW_FIB: if (!res->addr.aid) { struct ibuf *msg; sa_family_t af; af = aid2af(res->aid); if ((msg = imsg_create(ibuf, IMSG_CTL_KROUTE, res->rtableid, 0, sizeof(res->flags) + sizeof(af))) == NULL) errx(1, "imsg_create failure"); if (imsg_add(msg, &res->flags, sizeof(res->flags)) == -1 || imsg_add(msg, &af, sizeof(af)) == -1) errx(1, "imsg_add failure"); imsg_close(ibuf, msg); } else imsg_compose(ibuf, IMSG_CTL_KROUTE_ADDR, res->rtableid, 0, -1, &res->addr, sizeof(res->addr)); break; case SHOW_FIB_TABLES: imsg_compose(ibuf, IMSG_CTL_SHOW_FIB_TABLES, 0, 0, -1, NULL, 0); break; case SHOW_NEXTHOP: imsg_compose(ibuf, IMSG_CTL_SHOW_NEXTHOP, res->rtableid, 0, -1, NULL, 0); break; case SHOW_INTERFACE: imsg_compose(ibuf, IMSG_CTL_SHOW_INTERFACE, 0, 0, -1, NULL, 0); break; case SHOW_SET: imsg_compose(ibuf, IMSG_CTL_SHOW_SET, 0, 0, -1, NULL, 0); break; case SHOW_RTR: imsg_compose(ibuf, IMSG_CTL_SHOW_RTR, 0, 0, -1, NULL, 0); break; case SHOW_NEIGHBOR: case SHOW_NEIGHBOR_TIMERS: case SHOW_NEIGHBOR_TERSE: neighbor.show_timers = (res->action == SHOW_NEIGHBOR_TIMERS); if (res->peeraddr.aid || res->peerdesc[0]) imsg_compose(ibuf, IMSG_CTL_SHOW_NEIGHBOR, 0, 0, -1, &neighbor, sizeof(neighbor)); else imsg_compose(ibuf, IMSG_CTL_SHOW_NEIGHBOR, 0, 0, -1, NULL, 0); break; case SHOW_RIB: bzero(&ribreq, sizeof(ribreq)); type = IMSG_CTL_SHOW_RIB; if (res->addr.aid) { ribreq.prefix = res->addr; ribreq.prefixlen = res->prefixlen; type = IMSG_CTL_SHOW_RIB_PREFIX; } if (res->as.type != AS_UNDEF) ribreq.as = res->as; if (res->community.flags != 0) ribreq.community = res->community; ribreq.neighbor = neighbor; strlcpy(ribreq.rib, res->rib, sizeof(ribreq.rib)); ribreq.aid = res->aid; ribreq.path_id = res->pathid; ribreq.flags = res->flags; imsg_compose(ibuf, type, 0, 0, -1, &ribreq, sizeof(ribreq)); break; case SHOW_RIB_MEM: imsg_compose(ibuf, IMSG_CTL_SHOW_RIB_MEM, 0, 0, -1, NULL, 0); break; case RELOAD: imsg_compose(ibuf, IMSG_CTL_RELOAD, 0, 0, -1, res->reason, sizeof(res->reason)); if (res->reason[0]) printf("reload request sent: %s\n", res->reason); else printf("reload request sent.\n"); break; case FIB: errx(1, "action==FIB"); break; case FIB_COUPLE: imsg_compose(ibuf, IMSG_CTL_FIB_COUPLE, res->rtableid, 0, -1, NULL, 0); printf("couple request sent.\n"); done = 1; break; case FIB_DECOUPLE: imsg_compose(ibuf, IMSG_CTL_FIB_DECOUPLE, res->rtableid, 0, -1, NULL, 0); printf("decouple request sent.\n"); done = 1; break; case NEIGHBOR: errx(1, "action==NEIGHBOR"); break; case NEIGHBOR_UP: imsg_compose(ibuf, IMSG_CTL_NEIGHBOR_UP, 0, 0, -1, &neighbor, sizeof(neighbor)); break; case NEIGHBOR_DOWN: imsg_compose(ibuf, IMSG_CTL_NEIGHBOR_DOWN, 0, 0, -1, &neighbor, sizeof(neighbor)); break; case NEIGHBOR_CLEAR: imsg_compose(ibuf, IMSG_CTL_NEIGHBOR_CLEAR, 0, 0, -1, &neighbor, sizeof(neighbor)); break; case NEIGHBOR_RREFRESH: imsg_compose(ibuf, IMSG_CTL_NEIGHBOR_RREFRESH, 0, 0, -1, &neighbor, sizeof(neighbor)); break; case NEIGHBOR_DESTROY: imsg_compose(ibuf, IMSG_CTL_NEIGHBOR_DESTROY, 0, 0, -1, &neighbor, sizeof(neighbor)); break; case NETWORK_BULK_ADD: case NETWORK_BULK_REMOVE: network_bulk(res); printf("requests sent.\n"); done = 1; break; case NETWORK_ADD: case NETWORK_REMOVE: bzero(&net, sizeof(net)); net.prefix = res->addr; net.prefixlen = res->prefixlen; net.rd = res->rd; /* attribute sets are not supported */ if (res->action == NETWORK_ADD) { imsg_compose(ibuf, IMSG_NETWORK_ADD, 0, 0, -1, &net, sizeof(net)); send_filterset(ibuf, &res->set); imsg_compose(ibuf, IMSG_NETWORK_DONE, 0, 0, -1, NULL, 0); } else imsg_compose(ibuf, IMSG_NETWORK_REMOVE, 0, 0, -1, &net, sizeof(net)); printf("request sent.\n"); done = 1; break; case NETWORK_FLUSH: imsg_compose(ibuf, IMSG_NETWORK_FLUSH, 0, 0, -1, NULL, 0); printf("request sent.\n"); done = 1; break; case NETWORK_SHOW: bzero(&ribreq, sizeof(ribreq)); ribreq.aid = res->aid; strlcpy(ribreq.rib, res->rib, sizeof(ribreq.rib)); imsg_compose(ibuf, IMSG_CTL_SHOW_NETWORK, 0, 0, -1, &ribreq, sizeof(ribreq)); break; case NETWORK_MRT: bzero(&ribreq, sizeof(ribreq)); if (res->as.type != AS_UNDEF) ribreq.as = res->as; if (res->addr.aid) { ribreq.prefix = res->addr; ribreq.prefixlen = res->prefixlen; } /* XXX currently no community support */ ribreq.neighbor = neighbor; ribreq.aid = res->aid; ribreq.flags = res->flags; net_mrt.arg = &ribreq; mrt_parse(res->mrtfd, &net_mrt, 1); done = 1; break; case LOG_VERBOSE: verbose = 1; /* FALLTHROUGH */ case LOG_BRIEF: imsg_compose(ibuf, IMSG_CTL_LOG_VERBOSE, 0, 0, -1, &verbose, sizeof(verbose)); printf("logging request sent.\n"); done = 1; break; } while (ibuf->w.queued) if (msgbuf_write(&ibuf->w) <= 0 && errno != EAGAIN) err(1, "write error"); output->head(res); while (!done) { if ((n = imsg_read(ibuf)) == -1 && errno != EAGAIN) err(1, "imsg_read error"); if (n == 0) errx(1, "pipe closed"); while (!done) { if ((n = imsg_get(ibuf, &imsg)) == -1) err(1, "imsg_get error"); if (n == 0) break; done = show(&imsg, res); imsg_free(&imsg); } } output->tail(); close(fd); free(ibuf); exit(0); } int show(struct imsg *imsg, struct parse_result *res) { struct peer *p; struct ctl_timer t; struct ctl_show_interface *iface; struct ctl_show_nexthop *nh; struct ctl_show_set set; struct ctl_show_rtr rtr; struct kroute_full *kf; struct ktable *kt; struct ctl_show_rib rib; struct rde_memstats stats; struct rde_hashstats hash; u_char *asdata; u_int rescode, ilen; size_t aslen; switch (imsg->hdr.type) { case IMSG_CTL_SHOW_NEIGHBOR: p = imsg->data; output->neighbor(p, res); break; case IMSG_CTL_SHOW_TIMER: if (imsg->hdr.len < IMSG_HEADER_SIZE + sizeof(t)) errx(1, "wrong imsg len"); memcpy(&t, imsg->data, sizeof(t)); if (t.type > 0 && t.type < Timer_Max) output->timer(&t); break; case IMSG_CTL_SHOW_INTERFACE: iface = imsg->data; output->interface(iface); break; case IMSG_CTL_SHOW_NEXTHOP: nh = imsg->data; output->nexthop(nh); break; case IMSG_CTL_KROUTE: case IMSG_CTL_SHOW_NETWORK: if (imsg->hdr.len < IMSG_HEADER_SIZE + sizeof(*kf)) errx(1, "wrong imsg len"); kf = imsg->data; output->fib(kf); break; case IMSG_CTL_SHOW_FIB_TABLES: if (imsg->hdr.len < IMSG_HEADER_SIZE + sizeof(*kt)) errx(1, "wrong imsg len"); kt = imsg->data; output->fib_table(kt); break; case IMSG_CTL_SHOW_RIB: if (imsg->hdr.len < IMSG_HEADER_SIZE + sizeof(rib)) errx(1, "wrong imsg len"); memcpy(&rib, imsg->data, sizeof(rib)); aslen = imsg->hdr.len - IMSG_HEADER_SIZE - sizeof(rib); asdata = imsg->data; asdata += sizeof(rib); output->rib(&rib, asdata, aslen, res); break; case IMSG_CTL_SHOW_RIB_COMMUNITIES: ilen = imsg->hdr.len - IMSG_HEADER_SIZE; if (ilen % sizeof(struct community)) { warnx("bad IMSG_CTL_SHOW_RIB_COMMUNITIES received"); break; } output->communities(imsg->data, ilen, res); break; case IMSG_CTL_SHOW_RIB_ATTR: ilen = imsg->hdr.len - IMSG_HEADER_SIZE; if (ilen < 3) { warnx("bad IMSG_CTL_SHOW_RIB_ATTR received"); break; } output->attr(imsg->data, ilen, res->flags, 0); break; case IMSG_CTL_SHOW_RIB_MEM: if (imsg->hdr.len < IMSG_HEADER_SIZE + sizeof(stats)) errx(1, "wrong imsg len"); memcpy(&stats, imsg->data, sizeof(stats)); output->rib_mem(&stats); break; case IMSG_CTL_SHOW_RIB_HASH: if (imsg->hdr.len < IMSG_HEADER_SIZE + sizeof(hash)) errx(1, "wrong imsg len"); memcpy(&hash, imsg->data, sizeof(hash)); output->rib_hash(&hash); break; case IMSG_CTL_SHOW_SET: if (imsg->hdr.len < IMSG_HEADER_SIZE + sizeof(set)) errx(1, "wrong imsg len"); memcpy(&set, imsg->data, sizeof(set)); output->set(&set); break; case IMSG_CTL_SHOW_RTR: if (imsg->hdr.len < IMSG_HEADER_SIZE + sizeof(rtr)) errx(1, "wrong imsg len"); memcpy(&rtr, imsg->data, sizeof(rtr)); output->rtr(&rtr); break; case IMSG_CTL_RESULT: if (imsg->hdr.len != IMSG_HEADER_SIZE + sizeof(rescode)) { warnx("got IMSG_CTL_RESULT with wrong len"); break; } memcpy(&rescode, imsg->data, sizeof(rescode)); output->result(rescode); return (1); case IMSG_CTL_END: return (1); default: warnx("unknown imsg %d received", imsg->hdr.type); break; } return (0); } time_t get_monotime(time_t t) { struct timespec ts; if (t == 0) return -1; if (clock_gettime(CLOCK_MONOTONIC, &ts) != 0) err(1, "clock_gettime"); if (t > ts.tv_sec) /* time in the future is not possible */ t = ts.tv_sec; return (ts.tv_sec - t); } char * fmt_peer(const char *descr, const struct bgpd_addr *remote_addr, int masklen) { const char *ip; char *p; if (descr && descr[0] && !nodescr) { if ((p = strdup(descr)) == NULL) err(1, NULL); return (p); } ip = log_addr(remote_addr); if (masklen != -1 && ((remote_addr->aid == AID_INET && masklen != 32) || (remote_addr->aid == AID_INET6 && masklen != 128))) { if (asprintf(&p, "%s/%u", ip, masklen) == -1) err(1, NULL); } else { if ((p = strdup(ip)) == NULL) err(1, NULL); } return (p); } const char * fmt_auth_method(enum auth_method method) { switch (method) { case AUTH_MD5SIG: return ", using md5sig"; case AUTH_IPSEC_MANUAL_ESP: return ", using ipsec manual esp"; case AUTH_IPSEC_MANUAL_AH: return ", using ipsec manual ah"; case AUTH_IPSEC_IKE_ESP: return ", using ipsec ike esp"; case AUTH_IPSEC_IKE_AH: return ", using ipsec ike ah"; case AUTH_NONE: /* FALLTHROUGH */ default: return ""; } } #define TF_BUFS 8 #define TF_LEN 9 const char * fmt_timeframe(time_t t) { char *buf; static char tfbuf[TF_BUFS][TF_LEN]; /* ring buffer */ static int idx = 0; unsigned int sec, min, hrs, day; unsigned long long week; buf = tfbuf[idx++]; if (idx == TF_BUFS) idx = 0; week = t; sec = week % 60; week /= 60; min = week % 60; week /= 60; hrs = week % 24; week /= 24; day = week % 7; week /= 7; if (week > 0) snprintf(buf, TF_LEN, "%02lluw%01ud%02uh", week, day, hrs); else if (day > 0) snprintf(buf, TF_LEN, "%01ud%02uh%02um", day, hrs, min); else snprintf(buf, TF_LEN, "%02u:%02u:%02u", hrs, min, sec); return (buf); } const char * fmt_monotime(time_t t) { t = get_monotime(t); if (t == -1) return ("Never"); return (fmt_timeframe(t)); } const char * fmt_fib_flags(u_int16_t flags) { static char buf[8]; if (flags & F_DOWN) strlcpy(buf, " ", sizeof(buf)); else strlcpy(buf, "*", sizeof(buf)); if (flags & F_BGPD_INSERTED) strlcat(buf, "B", sizeof(buf)); else if (flags & F_CONNECTED) strlcat(buf, "C", sizeof(buf)); else if (flags & F_STATIC) strlcat(buf, "S", sizeof(buf)); else if (flags & F_DYNAMIC) strlcat(buf, "D", sizeof(buf)); else strlcat(buf, " ", sizeof(buf)); if (flags & F_NEXTHOP) strlcat(buf, "N", sizeof(buf)); else strlcat(buf, " ", sizeof(buf)); if (flags & F_REJECT && flags & F_BLACKHOLE) strlcat(buf, "f", sizeof(buf)); else if (flags & F_REJECT) strlcat(buf, "r", sizeof(buf)); else if (flags & F_BLACKHOLE) strlcat(buf, "b", sizeof(buf)); else strlcat(buf, " ", sizeof(buf)); if (strlcat(buf, " ", sizeof(buf)) >= sizeof(buf)) errx(1, "%s buffer too small", __func__); return buf; } const char * fmt_origin(u_int8_t origin, int sum) { switch (origin) { case ORIGIN_IGP: return (sum ? "i" : "IGP"); case ORIGIN_EGP: return (sum ? "e" : "EGP"); case ORIGIN_INCOMPLETE: return (sum ? "?" : "incomplete"); default: return (sum ? "X" : "bad origin"); } } const char * fmt_flags(u_int8_t flags, int sum) { static char buf[80]; char flagstr[5]; char *p = flagstr; if (sum) { if (flags & F_PREF_INVALID) *p++ = 'E'; if (flags & F_PREF_ANNOUNCE) *p++ = 'A'; if (flags & F_PREF_INTERNAL) *p++ = 'I'; if (flags & F_PREF_STALE) *p++ = 'S'; if (flags & F_PREF_ELIGIBLE) *p++ = '*'; if (flags & F_PREF_ACTIVE) *p++ = '>'; *p = '\0'; snprintf(buf, sizeof(buf), "%-5s", flagstr); } else { if (flags & F_PREF_INTERNAL) strlcpy(buf, "internal", sizeof(buf)); else strlcpy(buf, "external", sizeof(buf)); if (flags & F_PREF_STALE) strlcat(buf, ", stale", sizeof(buf)); if (flags & F_PREF_ELIGIBLE) strlcat(buf, ", valid", sizeof(buf)); if (flags & F_PREF_ACTIVE) strlcat(buf, ", best", sizeof(buf)); if (flags & F_PREF_ANNOUNCE) strlcat(buf, ", announced", sizeof(buf)); if (strlen(buf) >= sizeof(buf) - 1) errx(1, "%s buffer too small", __func__); } return buf; } const char * fmt_ovs(u_int8_t validation_state, int sum) { switch (validation_state) { case ROA_INVALID: return (sum ? "!" : "invalid"); case ROA_VALID: return (sum ? "V" : "valid"); default: return (sum ? "N" : "not-found"); } } const char * fmt_mem(long long num) { static char buf[16]; if (fmt_scaled(num, buf) == -1) snprintf(buf, sizeof(buf), "%lldB", num); return (buf); } const char * fmt_errstr(u_int8_t errcode, u_int8_t subcode) { static char errbuf[256]; const char *errstr = NULL; const char *suberr = NULL; int uk = 0; if (errcode == 0) /* no error */ return NULL; if (errcode < sizeof(errnames)/sizeof(char *)) errstr = errnames[errcode]; switch (errcode) { case ERR_HEADER: if (subcode < sizeof(suberr_header_names)/sizeof(char *)) suberr = suberr_header_names[subcode]; else uk = 1; break; case ERR_OPEN: if (subcode < sizeof(suberr_open_names)/sizeof(char *)) suberr = suberr_open_names[subcode]; else uk = 1; break; case ERR_UPDATE: if (subcode < sizeof(suberr_update_names)/sizeof(char *)) suberr = suberr_update_names[subcode]; else uk = 1; break; case ERR_HOLDTIMEREXPIRED: if (subcode != 0) uk = 1; break; case ERR_FSM: if (subcode < sizeof(suberr_fsm_names)/sizeof(char *)) suberr = suberr_fsm_names[subcode]; else uk = 1; break; case ERR_CEASE: if (subcode < sizeof(suberr_cease_names)/sizeof(char *)) suberr = suberr_cease_names[subcode]; else uk = 1; break; default: snprintf(errbuf, sizeof(errbuf), "unknown error code %u subcode %u", errcode, subcode); return (errbuf); } if (uk) snprintf(errbuf, sizeof(errbuf), "%s, unknown subcode %u", errstr, subcode); else if (suberr == NULL) return (errstr); else snprintf(errbuf, sizeof(errbuf), "%s, %s", errstr, suberr); return (errbuf); } const char * fmt_attr(u_int8_t type, int flags) { #define CHECK_FLAGS(s, t, m) \ if (((s) & ~(ATTR_DEFMASK | (m))) != (t)) pflags = 1 static char cstr[48]; int pflags = 0; switch (type) { case ATTR_ORIGIN: CHECK_FLAGS(flags, ATTR_WELL_KNOWN, 0); strlcpy(cstr, "Origin", sizeof(cstr)); break; case ATTR_ASPATH: CHECK_FLAGS(flags, ATTR_WELL_KNOWN, 0); strlcpy(cstr, "AS-Path", sizeof(cstr)); break; case ATTR_AS4_PATH: CHECK_FLAGS(flags, ATTR_WELL_KNOWN, 0); strlcpy(cstr, "AS4-Path", sizeof(cstr)); break; case ATTR_NEXTHOP: CHECK_FLAGS(flags, ATTR_WELL_KNOWN, 0); strlcpy(cstr, "Nexthop", sizeof(cstr)); break; case ATTR_MED: CHECK_FLAGS(flags, ATTR_OPTIONAL, 0); strlcpy(cstr, "Med", sizeof(cstr)); break; case ATTR_LOCALPREF: CHECK_FLAGS(flags, ATTR_WELL_KNOWN, 0); strlcpy(cstr, "Localpref", sizeof(cstr)); break; case ATTR_ATOMIC_AGGREGATE: CHECK_FLAGS(flags, ATTR_WELL_KNOWN, 0); strlcpy(cstr, "Atomic Aggregate", sizeof(cstr)); break; case ATTR_AGGREGATOR: CHECK_FLAGS(flags, ATTR_OPTIONAL|ATTR_TRANSITIVE, ATTR_PARTIAL); strlcpy(cstr, "Aggregator", sizeof(cstr)); break; case ATTR_AS4_AGGREGATOR: CHECK_FLAGS(flags, ATTR_OPTIONAL|ATTR_TRANSITIVE, ATTR_PARTIAL); strlcpy(cstr, "AS4-Aggregator", sizeof(cstr)); break; case ATTR_COMMUNITIES: CHECK_FLAGS(flags, ATTR_OPTIONAL|ATTR_TRANSITIVE, ATTR_PARTIAL); strlcpy(cstr, "Communities", sizeof(cstr)); break; case ATTR_ORIGINATOR_ID: CHECK_FLAGS(flags, ATTR_OPTIONAL, 0); strlcpy(cstr, "Originator Id", sizeof(cstr)); break; case ATTR_CLUSTER_LIST: CHECK_FLAGS(flags, ATTR_OPTIONAL, 0); strlcpy(cstr, "Cluster Id List", sizeof(cstr)); break; case ATTR_MP_REACH_NLRI: CHECK_FLAGS(flags, ATTR_OPTIONAL, 0); strlcpy(cstr, "MP Reach NLRI", sizeof(cstr)); break; case ATTR_MP_UNREACH_NLRI: CHECK_FLAGS(flags, ATTR_OPTIONAL, 0); strlcpy(cstr, "MP Unreach NLRI", sizeof(cstr)); break; case ATTR_EXT_COMMUNITIES: CHECK_FLAGS(flags, ATTR_OPTIONAL|ATTR_TRANSITIVE, ATTR_PARTIAL); strlcpy(cstr, "Ext. Communities", sizeof(cstr)); break; case ATTR_LARGE_COMMUNITIES: CHECK_FLAGS(flags, ATTR_OPTIONAL|ATTR_TRANSITIVE, ATTR_PARTIAL); strlcpy(cstr, "Large Communities", sizeof(cstr)); break; default: /* ignore unknown attributes */ snprintf(cstr, sizeof(cstr), "Unknown Attribute #%u", type); pflags = 1; break; } if (flags != -1 && pflags) { strlcat(cstr, " flags [", sizeof(cstr)); if (flags & ATTR_OPTIONAL) strlcat(cstr, "O", sizeof(cstr)); if (flags & ATTR_TRANSITIVE) strlcat(cstr, "T", sizeof(cstr)); if (flags & ATTR_PARTIAL) strlcat(cstr, "P", sizeof(cstr)); strlcat(cstr, "]", sizeof(cstr)); } return (cstr); #undef CHECK_FLAGS } const char * fmt_community(u_int16_t a, u_int16_t v) { static char buf[12]; if (a == COMMUNITY_WELLKNOWN) switch (v) { case COMMUNITY_GRACEFUL_SHUTDOWN: return "GRACEFUL_SHUTDOWN"; case COMMUNITY_NO_EXPORT: return "NO_EXPORT"; case COMMUNITY_NO_ADVERTISE: return "NO_ADVERTISE"; case COMMUNITY_NO_EXPSUBCONFED: return "NO_EXPORT_SUBCONFED"; case COMMUNITY_NO_PEER: return "NO_PEER"; case COMMUNITY_BLACKHOLE: return "BLACKHOLE"; default: break; } snprintf(buf, sizeof(buf), "%hu:%hu", a, v); return buf; } const char * fmt_large_community(u_int32_t d1, u_int32_t d2, u_int32_t d3) { static char buf[33]; snprintf(buf, sizeof(buf), "%u:%u:%u", d1, d2, d3); return buf; } const char * fmt_ext_community(u_int8_t *data) { static char buf[32]; u_int64_t ext; struct in_addr ip; u_int32_t as4, u32; u_int16_t as2, u16; u_int8_t type, subtype; type = data[0]; subtype = data[1]; switch (type) { case EXT_COMMUNITY_TRANS_TWO_AS: memcpy(&as2, data + 2, sizeof(as2)); memcpy(&u32, data + 4, sizeof(u32)); snprintf(buf, sizeof(buf), "%s %s:%u", log_ext_subtype(type, subtype), log_as(ntohs(as2)), ntohl(u32)); return buf; case EXT_COMMUNITY_TRANS_IPV4: memcpy(&ip, data + 2, sizeof(ip)); memcpy(&u16, data + 6, sizeof(u16)); snprintf(buf, sizeof(buf), "%s %s:%hu", log_ext_subtype(type, subtype), inet_ntoa(ip), ntohs(u16)); return buf; case EXT_COMMUNITY_TRANS_FOUR_AS: memcpy(&as4, data + 2, sizeof(as4)); memcpy(&u16, data + 6, sizeof(u16)); snprintf(buf, sizeof(buf), "%s %s:%hu", log_ext_subtype(type, subtype), log_as(ntohl(as4)), ntohs(u16)); return buf; case EXT_COMMUNITY_TRANS_OPAQUE: case EXT_COMMUNITY_TRANS_EVPN: memcpy(&ext, data, sizeof(ext)); ext = be64toh(ext) & 0xffffffffffffLL; snprintf(buf, sizeof(buf), "%s 0x%llx", log_ext_subtype(type, subtype), (unsigned long long)ext); return buf; case EXT_COMMUNITY_NON_TRANS_OPAQUE: memcpy(&ext, data, sizeof(ext)); ext = be64toh(ext) & 0xffffffffffffLL; switch (ext) { case EXT_COMMUNITY_OVS_VALID: snprintf(buf, sizeof(buf), "%s valid ", log_ext_subtype(type, subtype)); return buf; case EXT_COMMUNITY_OVS_NOTFOUND: snprintf(buf, sizeof(buf), "%s not-found ", log_ext_subtype(type, subtype)); return buf; case EXT_COMMUNITY_OVS_INVALID: snprintf(buf, sizeof(buf), "%s invalid ", log_ext_subtype(type, subtype)); return buf; default: snprintf(buf, sizeof(buf), "%s 0x%llx ", log_ext_subtype(type, subtype), (unsigned long long)ext); return buf; } break; default: memcpy(&ext, data, sizeof(ext)); snprintf(buf, sizeof(buf), "%s 0x%llx", log_ext_subtype(type, subtype), (unsigned long long)be64toh(ext)); return buf; } } const char * fmt_set_type(struct ctl_show_set *set) { switch (set->type) { case ROA_SET: return "ROA"; case PREFIX_SET: return "PREFIX"; case ORIGIN_SET: return "ORIGIN"; case ASNUM_SET: return "ASNUM"; default: return "BULA"; } } void send_filterset(struct imsgbuf *i, struct filter_set_head *set) { struct filter_set *s; while ((s = TAILQ_FIRST(set)) != NULL) { imsg_compose(i, IMSG_FILTER_SET, 0, 0, -1, s, sizeof(struct filter_set)); TAILQ_REMOVE(set, s, entry); free(s); } } void network_bulk(struct parse_result *res) { struct network_config net; struct filter_set *s = NULL; struct bgpd_addr h; char *line = NULL; size_t linesize = 0; ssize_t linelen; u_int8_t len; FILE *f; if ((f = fdopen(STDIN_FILENO, "r")) == NULL) err(1, "Failed to open stdin\n"); while ((linelen = getline(&line, &linesize, f)) != -1) { char *b, *buf = line; while ((b = strsep(&buf, " \t\n")) != NULL) { if (*b == '\0') /* skip empty tokens */ continue; /* Stop processing after a comment */ if (*b == '#') break; bzero(&net, sizeof(net)); if (parse_prefix(b, strlen(b), &h, &len) != 1) errx(1, "bad prefix: %s", b); net.prefix = h; net.prefixlen = len; net.rd = res->rd; if (res->action == NETWORK_BULK_ADD) { imsg_compose(ibuf, IMSG_NETWORK_ADD, 0, 0, -1, &net, sizeof(net)); /* * can't use send_filterset since that * would free the set. */ TAILQ_FOREACH(s, &res->set, entry) { imsg_compose(ibuf, IMSG_FILTER_SET, 0, 0, -1, s, sizeof(*s)); } imsg_compose(ibuf, IMSG_NETWORK_DONE, 0, 0, -1, NULL, 0); } else imsg_compose(ibuf, IMSG_NETWORK_REMOVE, 0, 0, -1, &net, sizeof(net)); } } free(line); if (ferror(f)) err(1, "getline"); fclose(f); } void show_mrt_dump_neighbors(struct mrt_rib *mr, struct mrt_peer *mp, void *arg) { struct mrt_peer_entry *p; struct in_addr ina; u_int16_t i; ina.s_addr = htonl(mp->bgp_id); printf("view: %s BGP ID: %s Number of peers: %u\n\n", mp->view, inet_ntoa(ina), mp->npeers); printf("%-30s %8s %15s\n", "Neighbor", "AS", "BGP ID"); for (i = 0; i < mp->npeers; i++) { p = &mp->peers[i]; ina.s_addr = htonl(p->bgp_id); printf("%-30s %8u %15s\n", log_addr(&p->addr), p->asnum, inet_ntoa(ina)); } /* we only print the first message */ exit(0); } void show_mrt_dump(struct mrt_rib *mr, struct mrt_peer *mp, void *arg) { struct ctl_show_rib ctl; struct parse_result res; struct ctl_show_rib_request *req = arg; struct mrt_rib_entry *mre; time_t now; u_int16_t i, j; memset(&res, 0, sizeof(res)); res.flags = req->flags; now = time(NULL); for (i = 0; i < mr->nentries; i++) { mre = &mr->entries[i]; bzero(&ctl, sizeof(ctl)); ctl.prefix = mr->prefix; ctl.prefixlen = mr->prefixlen; if (mre->originated <= now) ctl.age = now - mre->originated; ctl.true_nexthop = mre->nexthop; ctl.exit_nexthop = mre->nexthop; ctl.origin = mre->origin; ctl.local_pref = mre->local_pref; ctl.med = mre->med; /* weight is not part of the mrt dump so it can't be set */ if (mr->add_path) { ctl.flags |= F_PREF_PATH_ID; ctl.path_id = mre->path_id; } if (mre->peer_idx < mp->npeers) { ctl.remote_addr = mp->peers[mre->peer_idx].addr; ctl.remote_id = mp->peers[mre->peer_idx].bgp_id; } /* filter by neighbor */ if (req->neighbor.addr.aid != AID_UNSPEC && memcmp(&req->neighbor.addr, &ctl.remote_addr, sizeof(ctl.remote_addr)) != 0) continue; /* filter by AF */ if (req->aid && req->aid != ctl.prefix.aid) return; /* filter by prefix */ if (req->prefix.aid != AID_UNSPEC) { if (req->flags & F_LONGER) { if (req->prefixlen > ctl.prefixlen) return; if (prefix_compare(&req->prefix, &ctl.prefix, req->prefixlen)) return; } else if (req->flags & F_SHORTER) { if (req->prefixlen < ctl.prefixlen) return; if (prefix_compare(&req->prefix, &ctl.prefix, ctl.prefixlen)) return; } else { if (req->prefixlen != ctl.prefixlen) return; if (prefix_compare(&req->prefix, &ctl.prefix, req->prefixlen)) return; } } /* filter by AS */ if (req->as.type != AS_UNDEF && !match_aspath(mre->aspath, mre->aspath_len, &req->as)) continue; output->rib(&ctl, mre->aspath, mre->aspath_len, &res); if (req->flags & F_CTL_DETAIL) { for (j = 0; j < mre->nattrs; j++) output->attr(mre->attrs[j].attr, mre->attrs[j].attr_len, req->flags, 0); } } } void network_mrt_dump(struct mrt_rib *mr, struct mrt_peer *mp, void *arg) { struct ctl_show_rib ctl; struct network_config net; struct ctl_show_rib_request *req = arg; struct mrt_rib_entry *mre; struct ibuf *msg; time_t now; u_int16_t i, j; /* can't announce more than one path so ignore add-path */ if (mr->add_path) return; now = time(NULL); for (i = 0; i < mr->nentries; i++) { mre = &mr->entries[i]; bzero(&ctl, sizeof(ctl)); ctl.prefix = mr->prefix; ctl.prefixlen = mr->prefixlen; if (mre->originated <= now) ctl.age = now - mre->originated; ctl.true_nexthop = mre->nexthop; ctl.exit_nexthop = mre->nexthop; ctl.origin = mre->origin; ctl.local_pref = mre->local_pref; ctl.med = mre->med; if (mre->peer_idx < mp->npeers) { ctl.remote_addr = mp->peers[mre->peer_idx].addr; ctl.remote_id = mp->peers[mre->peer_idx].bgp_id; } /* filter by neighbor */ if (req->neighbor.addr.aid != AID_UNSPEC && memcmp(&req->neighbor.addr, &ctl.remote_addr, sizeof(ctl.remote_addr)) != 0) continue; /* filter by AF */ if (req->aid && req->aid != ctl.prefix.aid) return; /* filter by prefix */ if (req->prefix.aid != AID_UNSPEC) { if (!prefix_compare(&req->prefix, &ctl.prefix, req->prefixlen)) { if (req->flags & F_LONGER) { if (req->prefixlen > ctl.prefixlen) return; } else if (req->prefixlen != ctl.prefixlen) return; } else return; } /* filter by AS */ if (req->as.type != AS_UNDEF && !match_aspath(mre->aspath, mre->aspath_len, &req->as)) continue; bzero(&net, sizeof(net)); net.prefix = ctl.prefix; net.prefixlen = ctl.prefixlen; net.type = NETWORK_MRTCLONE; /* XXX rd can't be set and will be 0 */ imsg_compose(ibuf, IMSG_NETWORK_ADD, 0, 0, -1, &net, sizeof(net)); if ((msg = imsg_create(ibuf, IMSG_NETWORK_ASPATH, 0, 0, sizeof(ctl) + mre->aspath_len)) == NULL) errx(1, "imsg_create failure"); if (imsg_add(msg, &ctl, sizeof(ctl)) == -1 || imsg_add(msg, mre->aspath, mre->aspath_len) == -1) errx(1, "imsg_add failure"); imsg_close(ibuf, msg); for (j = 0; j < mre->nattrs; j++) imsg_compose(ibuf, IMSG_NETWORK_ATTR, 0, 0, -1, mre->attrs[j].attr, mre->attrs[j].attr_len); imsg_compose(ibuf, IMSG_NETWORK_DONE, 0, 0, -1, NULL, 0); while (ibuf->w.queued) { if (msgbuf_write(&ibuf->w) <= 0 && errno != EAGAIN) err(1, "write error"); } } } static const char * fmt_time(struct timespec *t) { static char timebuf[32]; static struct timespec prevtime; struct timespec temp; timespecsub(t, &prevtime, &temp); snprintf(timebuf, sizeof(timebuf), "%lld.%06ld", (long long)temp.tv_sec, temp.tv_nsec / 1000); prevtime = *t; return (timebuf); } void show_mrt_state(struct mrt_bgp_state *ms, void *arg) { printf("%s %s[%u] -> ", fmt_time(&ms->time), log_addr(&ms->src), ms->src_as); printf("%s[%u]: %s -> %s\n", log_addr(&ms->dst), ms->dst_as, statenames[ms->old_state], statenames[ms->new_state]); } static void print_afi(u_char *p, u_int8_t len) { u_int16_t afi; u_int8_t safi, aid; if (len != 4) { printf("bad length"); return; } /* afi, 2 byte */ memcpy(&afi, p, sizeof(afi)); afi = ntohs(afi); p += 2; /* reserved, 1 byte */ p += 1; /* safi, 1 byte */ memcpy(&safi, p, sizeof(safi)); if (afi2aid(afi, safi, &aid) == -1) printf("unkown afi %u safi %u", afi, safi); else printf("%s", aid2str(aid)); } static void print_capability(u_int8_t capa_code, u_char *p, u_int8_t len) { switch (capa_code) { case CAPA_MP: printf("multiprotocol capability: "); print_afi(p, len); break; case CAPA_REFRESH: printf("route refresh capability"); break; case CAPA_RESTART: printf("graceful restart capability"); /* XXX there is more needed here */ break; case CAPA_AS4BYTE: printf("4-byte AS num capability: "); if (len == 4) { u_int32_t as; memcpy(&as, p, sizeof(as)); as = ntohl(as); printf("AS %u", as); } else printf("bad length"); break; case CAPA_ADD_PATH: printf("add-path capability"); /* XXX there is more needed here */ break; case CAPA_ENHANCED_RR: printf("enhanced route refresh capability"); break; default: printf("unknown capability %u length %u", capa_code, len); break; } } static void print_notification(u_int8_t errcode, u_int8_t subcode) { const char *suberrname = NULL; int uk = 0; switch (errcode) { case ERR_HEADER: if (subcode >= sizeof(suberr_header_names)/sizeof(char *)) uk = 1; else suberrname = suberr_header_names[subcode]; break; case ERR_OPEN: if (subcode >= sizeof(suberr_open_names)/sizeof(char *)) uk = 1; else suberrname = suberr_open_names[subcode]; break; case ERR_UPDATE: if (subcode >= sizeof(suberr_update_names)/sizeof(char *)) uk = 1; else suberrname = suberr_update_names[subcode]; break; case ERR_CEASE: if (subcode >= sizeof(suberr_cease_names)/sizeof(char *)) uk = 1; else suberrname = suberr_cease_names[subcode]; break; case ERR_HOLDTIMEREXPIRED: if (subcode != 0) uk = 1; break; case ERR_FSM: if (subcode >= sizeof(suberr_fsm_names)/sizeof(char *)) uk = 1; else suberrname = suberr_fsm_names[subcode]; break; default: printf("unknown errcode %u, subcode %u", errcode, subcode); return; } if (uk) printf("%s, unknown subcode %u", errnames[errcode], subcode); else { if (suberrname == NULL) printf("%s", errnames[errcode]); else printf("%s, %s", errnames[errcode], suberrname); } } static int show_mrt_capabilities(u_char *p, u_int16_t len) { u_int16_t totlen = len; u_int8_t capa_code, capa_len; while (len > 2) { memcpy(&capa_code, p, sizeof(capa_code)); p += sizeof(capa_code); len -= sizeof(capa_code); memcpy(&capa_len, p, sizeof(capa_len)); p += sizeof(capa_len); len -= sizeof(capa_len); if (len < capa_len) { printf("capa_len %u exceeds remaining length", capa_len); return (-1); } printf("\n "); print_capability(capa_code, p, capa_len); p += capa_len; len -= capa_len; } if (len != 0) { printf("length missmatch while capability parsing"); return (-1); } return (totlen); } static void show_mrt_open(u_char *p, u_int16_t len) { u_int8_t version, optparamlen; u_int16_t short_as, holdtime; struct in_addr bgpid; /* length check up to optparamlen already happened */ memcpy(&version, p, sizeof(version)); p += sizeof(version); len -= sizeof(version); memcpy(&short_as, p, sizeof(short_as)); p += sizeof(short_as); len -= sizeof(short_as); short_as = ntohs(short_as); memcpy(&holdtime, p, sizeof(holdtime)); holdtime = ntohs(holdtime); p += sizeof(holdtime); len -= sizeof(holdtime); memcpy(&bgpid, p, sizeof(bgpid)); p += sizeof(bgpid); len -= sizeof(bgpid); memcpy(&optparamlen, p, sizeof(optparamlen)); p += sizeof(optparamlen); len -= sizeof(optparamlen); printf("\n "); printf("Version: %d AS: %u Holdtime: %u BGP Id: %s Paramlen: %u", version, short_as, holdtime, inet_ntoa(bgpid), optparamlen); if (optparamlen != len) { printf("optional parameter length mismatch"); return; } while (len > 2) { u_int8_t op_type, op_len; int r; memcpy(&op_type, p, sizeof(op_type)); p += sizeof(op_type); len -= sizeof(op_type); memcpy(&op_len, p, sizeof(op_len)); p += sizeof(op_len); len -= sizeof(op_len); printf("\n "); switch (op_type) { case OPT_PARAM_CAPABILITIES: printf("Capabilities: size %u", op_len); r = show_mrt_capabilities(p, op_len); if (r == -1) return; p += r; len -= r; break; case OPT_PARAM_AUTH: default: printf("unsupported optional parameter: type %u", op_type); return; } } if (len != 0) { printf("optional parameter encoding error"); return; } } static void show_mrt_notification(u_char *p, u_int16_t len) { u_int16_t i; u_int8_t errcode, subcode; size_t reason_len; char reason[REASON_LEN]; memcpy(&errcode, p, sizeof(errcode)); p += sizeof(errcode); len -= sizeof(errcode); memcpy(&subcode, p, sizeof(subcode)); p += sizeof(subcode); len -= sizeof(subcode); printf("\n "); print_notification(errcode, subcode); if (errcode == ERR_CEASE && (subcode == ERR_CEASE_ADMIN_DOWN || subcode == ERR_CEASE_ADMIN_RESET)) { if (len > 1) { reason_len = *p++; len--; if (len < reason_len) { printf("truncated shutdown reason"); return; } if (reason_len > REASON_LEN - 1) { printf("overly long shutdown reason"); return; } memcpy(reason, p, reason_len); reason[reason_len] = '\0'; printf("shutdown reason: \"%s\"", log_reason(reason)); p += reason_len; len -= reason_len; } } if (errcode == ERR_OPEN && subcode == ERR_OPEN_CAPA) { int r; r = show_mrt_capabilities(p, len); if (r == -1) return; p += r; len -= r; } if (len > 0) { printf("\n additional data %u bytes", len); for (i = 0; i < len; i++) { if (i % 16 == 0) printf("\n "); if (i % 8 == 0) printf(" "); printf(" %02X", *p++); } } } /* XXX this function does not handle JSON output */ static void show_mrt_update(u_char *p, u_int16_t len, int reqflags, int addpath) { struct bgpd_addr prefix; int pos; u_int32_t pathid; u_int16_t wlen, alen; u_int8_t prefixlen; if (len < sizeof(wlen)) { printf("bad length"); return; } memcpy(&wlen, p, sizeof(wlen)); wlen = ntohs(wlen); p += sizeof(wlen); len -= sizeof(wlen); if (len < wlen) { printf("bad withdraw length"); return; } if (wlen > 0) { printf("\n Withdrawn prefixes:"); while (wlen > 0) { if (addpath) { if (wlen <= sizeof(pathid)) { printf("bad withdraw prefix"); return; } memcpy(&pathid, p, sizeof(pathid)); pathid = ntohl(pathid); p += sizeof(pathid); len -= sizeof(pathid); wlen -= sizeof(pathid); } if ((pos = nlri_get_prefix(p, wlen, &prefix, &prefixlen)) == -1) { printf("bad withdraw prefix"); return; } printf(" %s/%u", log_addr(&prefix), prefixlen); if (addpath) printf(" path-id %u", pathid); p += pos; len -= pos; wlen -= pos; } } if (len < sizeof(alen)) { printf("bad length"); return; } memcpy(&alen, p, sizeof(alen)); alen = ntohs(alen); p += sizeof(alen); len -= sizeof(alen); if (len < alen) { printf("bad attribute length"); return; } printf("\n"); /* alen attributes here */ while (alen > 3) { u_int8_t flags; u_int16_t attrlen; flags = p[0]; /* type = p[1]; */ /* get the attribute length */ if (flags & ATTR_EXTLEN) { if (len < sizeof(attrlen) + 2) printf("bad attribute length"); memcpy(&attrlen, &p[2], sizeof(attrlen)); attrlen = ntohs(attrlen); attrlen += sizeof(attrlen) + 2; } else { attrlen = p[2]; attrlen += 1 + 2; } output->attr(p, attrlen, reqflags, addpath); p += attrlen; alen -= attrlen; len -= attrlen; } if (len > 0) { printf(" NLRI prefixes:"); while (len > 0) { if (addpath) { if (len <= sizeof(pathid)) { printf(" bad nlri prefix: pathid, len %d", len); return; } memcpy(&pathid, p, sizeof(pathid)); pathid = ntohl(pathid); p += sizeof(pathid); len -= sizeof(pathid); } if ((pos = nlri_get_prefix(p, len, &prefix, &prefixlen)) == -1) { printf(" bad nlri prefix"); return; } printf(" %s/%u", log_addr(&prefix), prefixlen); if (addpath) printf(" path-id %u", pathid); p += pos; len -= pos; } } } void show_mrt_msg(struct mrt_bgp_msg *mm, void *arg) { static const u_int8_t marker[MSGSIZE_HEADER_MARKER] = { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff }; u_char *p; u_int16_t len; u_int8_t type; struct ctl_show_rib_request *req = arg; printf("%s %s[%u] -> ", fmt_time(&mm->time), log_addr(&mm->src), mm->src_as); printf("%s[%u]: size %u%s ", log_addr(&mm->dst), mm->dst_as, mm->msg_len, mm->add_path ? " addpath" : ""); p = mm->msg; len = mm->msg_len; if (len < MSGSIZE_HEADER) { printf("illegal header length: %u byte\n", len); return; } /* parse BGP message header */ if (memcmp(p, marker, sizeof(marker))) { printf("incorrect marker in BGP message\n"); return; } p += MSGSIZE_HEADER_MARKER; memcpy(&len, p, 2); len = ntohs(len); p += 2; memcpy(&type, p, 1); p += 1; if (len < MSGSIZE_HEADER || len > MAX_PKTSIZE) { printf("illegal header length: %u byte\n", len); return; } switch (type) { case OPEN: printf("%s ", msgtypenames[type]); if (len < MSGSIZE_OPEN_MIN) { printf("illegal length: %u byte\n", len); return; } show_mrt_open(p, len - MSGSIZE_HEADER); break; case NOTIFICATION: printf("%s ", msgtypenames[type]); if (len < MSGSIZE_NOTIFICATION_MIN) { printf("illegal length: %u byte\n", len); return; } show_mrt_notification(p, len - MSGSIZE_HEADER); break; case UPDATE: printf("%s ", msgtypenames[type]); if (len < MSGSIZE_UPDATE_MIN) { printf("illegal length: %u byte\n", len); return; } show_mrt_update(p, len - MSGSIZE_HEADER, req->flags, mm->add_path); break; case KEEPALIVE: printf("%s ", msgtypenames[type]); if (len != MSGSIZE_KEEPALIVE) { printf("illegal length: %u byte\n", len); return; } /* nothing */ break; case RREFRESH: printf("%s ", msgtypenames[type]); if (len != MSGSIZE_RREFRESH) { printf("illegal length: %u byte\n", len); return; } print_afi(p, len); break; default: printf("unknown type %u\n", type); return; } printf("\n"); } const char * msg_type(u_int8_t type) { if (type >= sizeof(msgtypenames)/sizeof(msgtypenames[0])) return "BAD"; return (msgtypenames[type]); } int match_aspath(void *data, u_int16_t len, struct filter_as *f) { u_int8_t *seg; int final; u_int16_t seg_size; u_int8_t i, seg_len; u_int32_t as = 0; if (f->type == AS_EMPTY) { if (len == 0) return (1); else return (0); } seg = data; /* just check the leftmost AS */ if (f->type == AS_PEER && len >= 6) { as = aspath_extract(seg, 0); if (f->as_min == as) return (1); else return (0); } for (; len >= 6; len -= seg_size, seg += seg_size) { seg_len = seg[1]; seg_size = 2 + sizeof(u_int32_t) * seg_len; final = (len == seg_size); if (f->type == AS_SOURCE) { /* * Just extract the rightmost AS * but if that segment is an AS_SET then the rightmost * AS of a previous AS_SEQUENCE segment should be used. * Because of that just look at AS_SEQUENCE segments. */ if (seg[0] == AS_SEQUENCE) as = aspath_extract(seg, seg_len - 1); /* not yet in the final segment */ if (!final) continue; if (f->as_min == as) return (1); else return (0); } /* AS_TRANSIT or AS_ALL */ for (i = 0; i < seg_len; i++) { /* * the source (rightmost) AS is excluded from * AS_TRANSIT matches. */ if (final && i == seg_len - 1 && f->type == AS_TRANSIT) return (0); as = aspath_extract(seg, i); if (f->as_min == as) return (1); } } return (0); }