/* $OpenBSD: rde_filter.c,v 1.125 2020/12/03 11:53:34 claudio Exp $ */ /* * Copyright (c) 2004 Claudio Jeker * Copyright (c) 2016 Job Snijders * Copyright (c) 2016 Peter Hessler * Copyright (c) 2018 Sebastian Benoit * * 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 "bgpd.h" #include "rde.h" #include "log.h" int filterset_equal(struct filter_set_head *, struct filter_set_head *); void rde_apply_set(struct filter_set_head *sh, struct rde_peer *peer, struct rde_peer *from, struct filterstate *state, u_int8_t aid) { struct filter_set *set; u_char *np; u_int32_t prep_as; u_int16_t nl; u_int8_t prepend; TAILQ_FOREACH(set, sh, entry) { switch (set->type) { case ACTION_SET_LOCALPREF: state->aspath.lpref = set->action.metric; break; case ACTION_SET_RELATIVE_LOCALPREF: if (set->action.relative > 0) { if (state->aspath.lpref > UINT_MAX - set->action.relative) state->aspath.lpref = UINT_MAX; else state->aspath.lpref += set->action.relative; } else { if ((u_int32_t)-set->action.relative > state->aspath.lpref) state->aspath.lpref = 0; else state->aspath.lpref += set->action.relative; } break; case ACTION_SET_MED: state->aspath.flags |= F_ATTR_MED | F_ATTR_MED_ANNOUNCE; state->aspath.med = set->action.metric; break; case ACTION_SET_RELATIVE_MED: state->aspath.flags |= F_ATTR_MED | F_ATTR_MED_ANNOUNCE; if (set->action.relative > 0) { if (state->aspath.med > UINT_MAX - set->action.relative) state->aspath.med = UINT_MAX; else state->aspath.med += set->action.relative; } else { if ((u_int32_t)-set->action.relative > state->aspath.med) state->aspath.med = 0; else state->aspath.med += set->action.relative; } break; case ACTION_SET_WEIGHT: state->aspath.weight = set->action.metric; break; case ACTION_SET_RELATIVE_WEIGHT: if (set->action.relative > 0) { if (state->aspath.weight > UINT_MAX - set->action.relative) state->aspath.weight = UINT_MAX; else state->aspath.weight += set->action.relative; } else { if ((u_int32_t)-set->action.relative > state->aspath.weight) state->aspath.weight = 0; else state->aspath.weight += set->action.relative; } break; case ACTION_SET_PREPEND_SELF: prep_as = peer->conf.local_as; prepend = set->action.prepend; np = aspath_prepend(state->aspath.aspath, prep_as, prepend, &nl); aspath_put(state->aspath.aspath); state->aspath.aspath = aspath_get(np, nl); free(np); break; case ACTION_SET_PREPEND_PEER: if (from == NULL) break; prep_as = from->conf.remote_as; prepend = set->action.prepend; np = aspath_prepend(state->aspath.aspath, prep_as, prepend, &nl); aspath_put(state->aspath.aspath); state->aspath.aspath = aspath_get(np, nl); free(np); break; case ACTION_SET_AS_OVERRIDE: if (from == NULL) break; np = aspath_override(state->aspath.aspath, from->conf.remote_as, from->conf.local_as, &nl); aspath_put(state->aspath.aspath); state->aspath.aspath = aspath_get(np, nl); free(np); break; case ACTION_SET_NEXTHOP: fatalx("unexpected filter action in RDE"); case ACTION_SET_NEXTHOP_REF: case ACTION_SET_NEXTHOP_REJECT: case ACTION_SET_NEXTHOP_BLACKHOLE: case ACTION_SET_NEXTHOP_NOMODIFY: case ACTION_SET_NEXTHOP_SELF: nexthop_modify(set->action.nh_ref, set->type, aid, &state->nexthop, &state->nhflags); break; case ACTION_SET_COMMUNITY: community_set(&state->communities, &set->action.community, peer); break; case ACTION_DEL_COMMUNITY: community_delete(&state->communities, &set->action.community, peer); break; case ACTION_PFTABLE: /* convert pftable name to an id */ set->action.id = pftable_name2id(set->action.pftable); set->type = ACTION_PFTABLE_ID; /* FALLTHROUGH */ case ACTION_PFTABLE_ID: pftable_unref(state->aspath.pftableid); state->aspath.pftableid = pftable_ref(set->action.id); break; case ACTION_RTLABEL: /* convert the route label to an id for faster access */ set->action.id = rtlabel_name2id(set->action.rtlabel); set->type = ACTION_RTLABEL_ID; /* FALLTHROUGH */ case ACTION_RTLABEL_ID: rtlabel_unref(state->aspath.rtlabelid); state->aspath.rtlabelid = rtlabel_ref(set->action.id); break; case ACTION_SET_ORIGIN: state->aspath.origin = set->action.origin; break; } } } /* return 1 when prefix matches filter_prefix, 0 if not */ static int rde_prefix_match(struct filter_prefix *fp, struct bgpd_addr *prefix, u_int8_t plen) { if (fp->addr.aid != prefix->aid) /* don't use IPv4 rules for IPv6 and vice versa */ return (0); if (prefix_compare(prefix, &fp->addr, fp->len)) return (0); /* test prefixlen stuff too */ switch (fp->op) { case OP_NONE: /* perfect match */ return (plen == fp->len); case OP_EQ: return (plen == fp->len_min); case OP_NE: return (plen != fp->len_min); case OP_RANGE: return ((plen >= fp->len_min) && (plen <= fp->len_max)); case OP_XRANGE: return ((plen < fp->len_min) || (plen > fp->len_max)); default: log_warnx("%s: unsupported prefix operation", __func__); return (0); } } static int rde_filter_match(struct filter_rule *f, struct rde_peer *peer, struct rde_peer *from, struct filterstate *state, struct bgpd_addr *prefix, u_int8_t plen, u_int8_t vstate) { struct rde_aspath *asp = &state->aspath; int i; if (f->peer.ebgp && !peer->conf.ebgp) return (0); if (f->peer.ibgp && peer->conf.ebgp) return (0); if (f->match.ovs.is_set) { if (vstate != f->match.ovs.validity) return (0); } if (asp != NULL && f->match.as.type != AS_UNDEF) { if (aspath_match(asp->aspath, &f->match.as, peer->conf.remote_as) == 0) return (0); } if (asp != NULL && f->match.aslen.type != ASLEN_NONE) if (aspath_lenmatch(asp->aspath, f->match.aslen.type, f->match.aslen.aslen) == 0) return (0); for (i = 0; i < MAX_COMM_MATCH; i++) { if (f->match.community[i].flags == 0) break; if (community_match(&state->communities, &f->match.community[i], peer) == 0) return (0); } if (f->match.nexthop.flags != 0) { struct bgpd_addr *nexthop, *cmpaddr; if (state->nexthop == NULL) /* no nexthop, skip */ return (0); nexthop = &state->nexthop->exit_nexthop; if (f->match.nexthop.flags == FILTER_NEXTHOP_ADDR) cmpaddr = &f->match.nexthop.addr; else cmpaddr = &from->remote_addr; if (cmpaddr->aid != nexthop->aid) /* don't use IPv4 rules for IPv6 and vice versa */ return (0); switch (cmpaddr->aid) { case AID_INET: if (cmpaddr->v4.s_addr != nexthop->v4.s_addr) return (0); break; case AID_INET6: if (memcmp(&cmpaddr->v6, &nexthop->v6, sizeof(struct in6_addr))) return (0); break; default: fatalx("King Bula lost in address space"); } } /* origin-set lookups match only on ROA_VALID */ if (asp != NULL && f->match.originset.ps != NULL) { if (trie_roa_check(&f->match.originset.ps->th, prefix, plen, aspath_origin(asp->aspath)) != ROA_VALID) return (0); } /* * prefixset and prefix filter rules are mutual exclusive */ if (f->match.prefixset.flags != 0) { if (f->match.prefixset.ps == NULL || !trie_match(&f->match.prefixset.ps->th, prefix, plen, (f->match.prefixset.flags & PREFIXSET_FLAG_LONGER))) return (0); } else if (f->match.prefix.addr.aid != 0) return (rde_prefix_match(&f->match.prefix, prefix, plen)); /* matched somewhen or is anymatch rule */ return (1); } /* return true when the rule f can never match for this peer */ static int rde_filter_skip_rule(struct rde_peer *peer, struct filter_rule *f) { /* if any of the two is unset then rule can't be skipped */ if (peer == NULL || f == NULL) return (0); if (f->peer.groupid != 0 && f->peer.groupid != peer->conf.groupid) return (1); if (f->peer.peerid != 0 && f->peer.peerid != peer->conf.id) return (1); if (f->peer.remote_as != 0 && f->peer.remote_as != peer->conf.remote_as) return (1); if (f->peer.ebgp != 0 && f->peer.ebgp != peer->conf.ebgp) return (1); if (f->peer.ibgp != 0 && f->peer.ibgp != !peer->conf.ebgp) return (1); return (0); } int rde_filter_equal(struct filter_head *a, struct filter_head *b, struct rde_peer *peer) { struct filter_rule *fa, *fb; struct rde_prefixset *psa, *psb, *osa, *osb; struct as_set *asa, *asb; int r; fa = a ? TAILQ_FIRST(a) : NULL; fb = b ? TAILQ_FIRST(b) : NULL; while (fa != NULL || fb != NULL) { /* skip all rules with wrong peer */ if (rde_filter_skip_rule(peer, fa)) { fa = TAILQ_NEXT(fa, entry); continue; } if (rde_filter_skip_rule(peer, fb)) { fb = TAILQ_NEXT(fb, entry); continue; } /* compare the two rules */ if ((fa == NULL && fb != NULL) || (fa != NULL && fb == NULL)) /* new rule added or removed */ return (0); if (fa->action != fb->action || fa->quick != fb->quick) return (0); if (memcmp(&fa->peer, &fb->peer, sizeof(fa->peer))) return (0); /* compare filter_rule.match without the prefixset pointer */ psa = fa->match.prefixset.ps; psb = fb->match.prefixset.ps; osa = fa->match.originset.ps; osb = fb->match.originset.ps; asa = fa->match.as.aset; asb = fb->match.as.aset; fa->match.prefixset.ps = fb->match.prefixset.ps = NULL; fa->match.originset.ps = fb->match.originset.ps = NULL; fa->match.as.aset = fb->match.as.aset = NULL; r = memcmp(&fa->match, &fb->match, sizeof(fa->match)); /* fixup the struct again */ fa->match.prefixset.ps = psa; fb->match.prefixset.ps = psb; fa->match.originset.ps = osa; fb->match.originset.ps = osb; fa->match.as.aset = asa; fb->match.as.aset = asb; if (r != 0) return (0); if (fa->match.prefixset.ps != NULL && fa->match.prefixset.ps->dirty) { log_debug("%s: prefixset %s has changed", __func__, fa->match.prefixset.name); return (0); } if (fa->match.originset.ps != NULL && fa->match.originset.ps->dirty) { log_debug("%s: originset %s has changed", __func__, fa->match.originset.name); return (0); } if ((fa->match.as.flags & AS_FLAG_AS_SET) && fa->match.as.aset->dirty) { log_debug("%s: as-set %s has changed", __func__, fa->match.as.name); return (0); } if (!filterset_equal(&fa->set, &fb->set)) return (0); fa = TAILQ_NEXT(fa, entry); fb = TAILQ_NEXT(fb, entry); } return (1); } void rde_filterstate_prep(struct filterstate *state, struct rde_aspath *asp, struct rde_community *communities, struct nexthop *nh, u_int8_t nhflags) { memset(state, 0, sizeof(*state)); path_prep(&state->aspath); if (asp) path_copy(&state->aspath, asp); if (communities) communities_copy(&state->communities, communities); state->nexthop = nexthop_ref(nh); state->nhflags = nhflags; } void rde_filterstate_clean(struct filterstate *state) { path_clean(&state->aspath); communities_clean(&state->communities); nexthop_unref(state->nexthop); state->nexthop = NULL; } void filterlist_free(struct filter_head *fh) { struct filter_rule *r; if (fh == NULL) return; while ((r = TAILQ_FIRST(fh)) != NULL) { TAILQ_REMOVE(fh, r, entry); filterset_free(&r->set); free(r); } free(fh); } /* free a filterset and take care of possible name2id references */ void filterset_free(struct filter_set_head *sh) { struct filter_set *s; if (sh == NULL) return; while ((s = TAILQ_FIRST(sh)) != NULL) { TAILQ_REMOVE(sh, s, entry); if (s->type == ACTION_RTLABEL_ID) rtlabel_unref(s->action.id); else if (s->type == ACTION_PFTABLE_ID) pftable_unref(s->action.id); else if (s->type == ACTION_SET_NEXTHOP_REF) nexthop_unref(s->action.nh_ref); free(s); } } /* * this function is a bit more complicated than a memcmp() because there are * types that need to be considered equal e.g. ACTION_SET_MED and * ACTION_SET_RELATIVE_MED. Also ACTION_SET_COMMUNITY and ACTION_SET_NEXTHOP * need some special care. It only checks the types and not the values so * it does not do a real compare. */ int filterset_cmp(struct filter_set *a, struct filter_set *b) { if (strcmp(filterset_name(a->type), filterset_name(b->type))) return (a->type - b->type); if (a->type == ACTION_SET_COMMUNITY || a->type == ACTION_DEL_COMMUNITY) { /* a->type == b->type */ return (memcmp(&a->action.community, &b->action.community, sizeof(a->action.community))); } if (a->type == ACTION_SET_NEXTHOP && b->type == ACTION_SET_NEXTHOP) { /* * This is the only interesting case, all others are considered * equal. It does not make sense to e.g. set a nexthop and * reject it at the same time. Allow one IPv4 and one IPv6 * per filter set or only one of the other nexthop modifiers. */ return (a->action.nexthop.aid - b->action.nexthop.aid); } /* equal */ return (0); } /* * move filterset from source to dest. dest will be initialized first. * After the move source is an empty list. */ void filterset_move(struct filter_set_head *source, struct filter_set_head *dest) { TAILQ_INIT(dest); if (source == NULL) return; TAILQ_CONCAT(dest, source, entry); } /* * copy filterset from source to dest. dest will be initialized first. */ void filterset_copy(struct filter_set_head *source, struct filter_set_head *dest) { struct filter_set *s, *t; TAILQ_INIT(dest); if (source == NULL) return; TAILQ_FOREACH(s, source, entry) { if ((t = malloc(sizeof(struct filter_set))) == NULL) fatal(NULL); memcpy(t, s, sizeof(struct filter_set)); TAILQ_INSERT_TAIL(dest, t, entry); } } int filterset_equal(struct filter_set_head *ah, struct filter_set_head *bh) { struct filter_set *a, *b; const char *as, *bs; for (a = TAILQ_FIRST(ah), b = TAILQ_FIRST(bh); a != NULL && b != NULL; a = TAILQ_NEXT(a, entry), b = TAILQ_NEXT(b, entry)) { switch (a->type) { case ACTION_SET_PREPEND_SELF: case ACTION_SET_PREPEND_PEER: if (a->type == b->type && a->action.prepend == b->action.prepend) continue; break; case ACTION_SET_AS_OVERRIDE: if (a->type == b->type) continue; break; case ACTION_SET_LOCALPREF: case ACTION_SET_MED: case ACTION_SET_WEIGHT: if (a->type == b->type && a->action.metric == b->action.metric) continue; break; case ACTION_SET_RELATIVE_LOCALPREF: case ACTION_SET_RELATIVE_MED: case ACTION_SET_RELATIVE_WEIGHT: if (a->type == b->type && a->action.relative == b->action.relative) continue; break; case ACTION_SET_NEXTHOP: if (a->type == b->type && memcmp(&a->action.nexthop, &b->action.nexthop, sizeof(a->action.nexthop)) == 0) continue; break; case ACTION_SET_NEXTHOP_REF: if (a->type == b->type && a->action.nh_ref == b->action.nh_ref) continue; break; case ACTION_SET_NEXTHOP_BLACKHOLE: case ACTION_SET_NEXTHOP_REJECT: case ACTION_SET_NEXTHOP_NOMODIFY: case ACTION_SET_NEXTHOP_SELF: if (a->type == b->type) continue; break; case ACTION_DEL_COMMUNITY: case ACTION_SET_COMMUNITY: if (a->type == b->type && memcmp(&a->action.community, &b->action.community, sizeof(a->action.community)) == 0) continue; break; case ACTION_PFTABLE: case ACTION_PFTABLE_ID: if (b->type == ACTION_PFTABLE) bs = b->action.pftable; else if (b->type == ACTION_PFTABLE_ID) bs = pftable_id2name(b->action.id); else break; if (a->type == ACTION_PFTABLE) as = a->action.pftable; else as = pftable_id2name(a->action.id); if (strcmp(as, bs) == 0) continue; break; case ACTION_RTLABEL: case ACTION_RTLABEL_ID: if (b->type == ACTION_RTLABEL) bs = b->action.rtlabel; else if (b->type == ACTION_RTLABEL_ID) bs = rtlabel_id2name(b->action.id); else break; if (a->type == ACTION_RTLABEL) as = a->action.rtlabel; else as = rtlabel_id2name(a->action.id); if (strcmp(as, bs) == 0) continue; break; case ACTION_SET_ORIGIN: if (a->type == b->type && a->action.origin == b->action.origin) continue; break; } /* compare failed */ return (0); } if (a != NULL || b != NULL) return (0); return (1); } const char * filterset_name(enum action_types type) { switch (type) { case ACTION_SET_LOCALPREF: case ACTION_SET_RELATIVE_LOCALPREF: return ("localpref"); case ACTION_SET_MED: case ACTION_SET_RELATIVE_MED: return ("metric"); case ACTION_SET_WEIGHT: case ACTION_SET_RELATIVE_WEIGHT: return ("weight"); case ACTION_SET_PREPEND_SELF: return ("prepend-self"); case ACTION_SET_PREPEND_PEER: return ("prepend-peer"); case ACTION_SET_AS_OVERRIDE: return ("as-override"); case ACTION_SET_NEXTHOP: case ACTION_SET_NEXTHOP_REF: case ACTION_SET_NEXTHOP_REJECT: case ACTION_SET_NEXTHOP_BLACKHOLE: case ACTION_SET_NEXTHOP_NOMODIFY: case ACTION_SET_NEXTHOP_SELF: return ("nexthop"); case ACTION_SET_COMMUNITY: return ("community"); case ACTION_DEL_COMMUNITY: return ("community delete"); case ACTION_PFTABLE: case ACTION_PFTABLE_ID: return ("pftable"); case ACTION_RTLABEL: case ACTION_RTLABEL_ID: return ("rtlabel"); case ACTION_SET_ORIGIN: return ("origin"); } fatalx("filterset_name: got lost"); } /* * Copyright (c) 2001 Daniel Hartmeier * 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. * * Effort sponsored in part by the Defense Advanced Research Projects * Agency (DARPA) and Air Force Research Laboratory, Air Force * Materiel Command, USAF, under agreement number F30602-01-2-0537. * */ #define RDE_FILTER_SET_SKIP_STEPS(i) \ do { \ while (head[i] != cur) { \ head[i]->skip[i] = cur; \ head[i] = TAILQ_NEXT(head[i], entry); \ } \ } while (0) void rde_filter_calc_skip_steps(struct filter_head *rules) { struct filter_rule *cur, *prev, *head[RDE_FILTER_SKIP_COUNT]; int i; if (rules == NULL) return; cur = TAILQ_FIRST(rules); prev = cur; for (i = 0; i < RDE_FILTER_SKIP_COUNT; ++i) head[i] = cur; while (cur != NULL) { if (cur->peer.groupid != prev->peer.groupid) RDE_FILTER_SET_SKIP_STEPS(RDE_FILTER_SKIP_GROUPID); if (cur->peer.remote_as != prev->peer.remote_as) RDE_FILTER_SET_SKIP_STEPS(RDE_FILTER_SKIP_REMOTE_AS); if (cur->peer.peerid != prev->peer.peerid) RDE_FILTER_SET_SKIP_STEPS(RDE_FILTER_SKIP_PEERID); prev = cur; cur = TAILQ_NEXT(cur, entry); } for (i = 0; i < RDE_FILTER_SKIP_COUNT; ++i) RDE_FILTER_SET_SKIP_STEPS(i); } #define RDE_FILTER_TEST_ATTRIB(t, a) \ do { \ if (t) { \ f = a; \ goto nextrule; \ } \ } while (0) enum filter_actions rde_filter(struct filter_head *rules, struct rde_peer *peer, struct rde_peer *from, struct bgpd_addr *prefix, u_int8_t plen, u_int8_t vstate, struct filterstate *state) { struct filter_rule *f; enum filter_actions action = ACTION_DENY; /* default deny */ if (state->aspath.flags & F_ATTR_PARSE_ERR) /* * don't try to filter bad updates just deny them * so they act as implicit withdraws */ return (ACTION_DENY); if (rules == NULL) return (action); f = TAILQ_FIRST(rules); while (f != NULL) { RDE_FILTER_TEST_ATTRIB( (f->peer.groupid && f->peer.groupid != peer->conf.groupid), f->skip[RDE_FILTER_SKIP_GROUPID]); RDE_FILTER_TEST_ATTRIB( (f->peer.remote_as && f->peer.remote_as != peer->conf.remote_as), f->skip[RDE_FILTER_SKIP_REMOTE_AS]); RDE_FILTER_TEST_ATTRIB( (f->peer.peerid && f->peer.peerid != peer->conf.id), f->skip[RDE_FILTER_SKIP_PEERID]); if (rde_filter_match(f, peer, from, state, prefix, plen, vstate)) { rde_apply_set(&f->set, peer, from, state, prefix->aid); if (f->action != ACTION_NONE) action = f->action; if (f->quick) return (action); } f = TAILQ_NEXT(f, entry); nextrule: ; } return (action); }