/* $OpenBSD: rde.h,v 1.192 2018/09/20 11:06:04 benno Exp $ */ /* * Copyright (c) 2003, 2004 Claudio Jeker and * Andre Oppermann * * 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. */ #ifndef __RDE_H__ #define __RDE_H__ #include #include #include #include #include "bgpd.h" #include "log.h" /* rde internal structures */ enum peer_state { PEER_NONE, PEER_DOWN, PEER_UP, PEER_ERR /* error occurred going to PEER_DOWN state */ }; enum roa_state { ROA_UNKNOWN, ROA_INVALID, ROA_VALID }; /* * How do we identify peers between the session handler and the rde? * Currently I assume that we can do that with the neighbor_ip... */ LIST_HEAD(rde_peer_head, rde_peer); LIST_HEAD(aspath_list, aspath); LIST_HEAD(attr_list, attr); LIST_HEAD(prefix_list, prefix); TAILQ_HEAD(prefix_queue, prefix); LIST_HEAD(aspath_head, rde_aspath); TAILQ_HEAD(aspath_queue, rde_aspath); RB_HEAD(uptree_prefix, update_prefix); RB_HEAD(uptree_attr, update_attr); struct rib_desc; struct rib; RB_HEAD(rib_tree, rib_entry); TAILQ_HEAD(uplist_prefix, update_prefix); TAILQ_HEAD(uplist_attr, update_attr); struct rde_peer { LIST_ENTRY(rde_peer) hash_l; /* hash list over all peers */ LIST_ENTRY(rde_peer) peer_l; /* list of all peers */ struct aspath_queue path_h; /* list of all as paths */ struct peer_config conf; struct bgpd_addr remote_addr; struct bgpd_addr local_v4_addr; struct bgpd_addr local_v6_addr; struct uptree_prefix up_prefix; struct uptree_attr up_attrs; struct uplist_attr updates[AID_MAX]; struct uplist_prefix withdraws[AID_MAX]; time_t staletime[AID_MAX]; struct capabilities capa; struct rib *rib; u_int64_t prefix_rcvd_update; u_int64_t prefix_rcvd_withdraw; u_int64_t prefix_rcvd_eor; u_int64_t prefix_sent_update; u_int64_t prefix_sent_withdraw; u_int64_t prefix_sent_eor; u_int32_t prefix_cnt; /* # of prefixes */ u_int32_t remote_bgpid; /* host byte order! */ u_int32_t up_pcnt; u_int32_t up_acnt; u_int32_t up_nlricnt; u_int32_t up_wcnt; enum peer_state state; u_int16_t short_as; u_int16_t mrt_idx; u_int8_t reconf_out; /* out filter changed */ u_int8_t reconf_rib; /* rib changed */ u_int8_t throttled; }; #define AS_SET 1 #define AS_SEQUENCE 2 #define AS_CONFED_SEQUENCE 3 #define AS_CONFED_SET 4 #define ASPATH_HEADER_SIZE (sizeof(struct aspath) - sizeof(u_char)) struct aspath { LIST_ENTRY(aspath) entry; int refcnt; /* reference count */ u_int16_t len; /* total length of aspath in octets */ u_int16_t ascnt; /* number of AS hops in data */ u_char data[1]; /* placeholder for actual data */ }; enum attrtypes { ATTR_UNDEF, ATTR_ORIGIN, ATTR_ASPATH, ATTR_NEXTHOP, ATTR_MED, ATTR_LOCALPREF, ATTR_ATOMIC_AGGREGATE, ATTR_AGGREGATOR, ATTR_COMMUNITIES, ATTR_ORIGINATOR_ID, ATTR_CLUSTER_LIST, ATTR_MP_REACH_NLRI=14, ATTR_MP_UNREACH_NLRI=15, ATTR_EXT_COMMUNITIES=16, ATTR_AS4_PATH=17, ATTR_AS4_AGGREGATOR=18, ATTR_LARGE_COMMUNITIES=32, }; /* attribute flags. 4 low order bits reserved */ #define ATTR_EXTLEN 0x10 #define ATTR_PARTIAL 0x20 #define ATTR_TRANSITIVE 0x40 #define ATTR_OPTIONAL 0x80 #define ATTR_RESERVED 0x0f /* by default mask the reserved bits and the ext len bit */ #define ATTR_DEFMASK (ATTR_RESERVED | ATTR_EXTLEN) /* default attribute flags for well known attributes */ #define ATTR_WELL_KNOWN ATTR_TRANSITIVE struct attr { LIST_ENTRY(attr) entry; u_char *data; u_int64_t hash; int refcnt; u_int16_t len; u_int8_t flags; u_int8_t type; }; struct mpattr { void *reach; void *unreach; u_int16_t reach_len; u_int16_t unreach_len; }; #define F_ATTR_ORIGIN 0x00001 #define F_ATTR_ASPATH 0x00002 #define F_ATTR_NEXTHOP 0x00004 #define F_ATTR_LOCALPREF 0x00008 #define F_ATTR_MED 0x00010 #define F_ATTR_MED_ANNOUNCE 0x00020 #define F_ATTR_MP_REACH 0x00040 #define F_ATTR_MP_UNREACH 0x00080 #define F_ATTR_AS4BYTE_NEW 0x00100 /* AS4_PATH or AS4_AGGREGATOR */ #define F_ATTR_LOOP 0x00200 /* path would cause a route loop */ #define F_PREFIX_ANNOUNCED 0x00400 #define F_ANN_DYNAMIC 0x00800 #define F_ATTR_PARSE_ERR 0x10000 /* parse error, not eligable */ #define F_ATTR_LINKED 0x20000 /* if set path is on various lists */ #define ORIGIN_IGP 0 #define ORIGIN_EGP 1 #define ORIGIN_INCOMPLETE 2 #define DEFAULT_LPREF 100 struct rde_aspath { LIST_ENTRY(rde_aspath) path_l; TAILQ_ENTRY(rde_aspath) peer_l; struct prefix_queue prefixes; struct attr **others; struct rde_peer *peer; struct aspath *aspath; u_int64_t hash; u_int32_t flags; /* internally used */ u_int32_t med; /* multi exit disc */ u_int32_t lpref; /* local pref */ u_int32_t weight; /* low prio lpref */ u_int16_t rtlabelid; /* route label id */ u_int16_t pftableid; /* pf table id */ u_int8_t origin; u_int8_t others_len; }; enum nexthop_state { NEXTHOP_LOOKUP, NEXTHOP_UNREACH, NEXTHOP_REACH }; struct nexthop { LIST_ENTRY(nexthop) nexthop_l; struct prefix_list prefix_h; struct bgpd_addr exit_nexthop; struct bgpd_addr true_nexthop; struct bgpd_addr nexthop_net; #if 0 /* * currently we use the boolean nexthop state, this could be exchanged * with a variable cost with a max for unreachable. */ u_int32_t costs; #endif int refcnt; enum nexthop_state state; u_int8_t nexthop_netlen; u_int8_t flags; #define NEXTHOP_CONNECTED 0x01 }; /* generic entry without address specific part */ struct pt_entry { RB_ENTRY(pt_entry) pt_e; u_int8_t aid; u_int8_t prefixlen; u_int16_t refcnt; }; struct pt_entry4 { RB_ENTRY(pt_entry) pt_e; u_int8_t aid; u_int8_t prefixlen; u_int16_t refcnt; struct in_addr prefix4; }; struct pt_entry6 { RB_ENTRY(pt_entry) pt_e; u_int8_t aid; u_int8_t prefixlen; u_int16_t refcnt; struct in6_addr prefix6; }; struct pt_entry_vpn4 { RB_ENTRY(pt_entry) pt_e; u_int8_t aid; u_int8_t prefixlen; u_int16_t refcnt; struct in_addr prefix4; u_int64_t rd; u_int8_t labelstack[21]; u_int8_t labellen; u_int8_t pad1; u_int8_t pad2; }; struct rib_context { struct rib_entry *ctx_re; struct rib *ctx_rib; void (*ctx_upcall)(struct rib_entry *, void *); void (*ctx_done)(void *); void (*ctx_wait)(void *); void *ctx_arg; unsigned int ctx_count; u_int8_t ctx_aid; }; struct rib_entry { RB_ENTRY(rib_entry) rib_e; struct prefix_list prefix_h; struct prefix *active; /* for fast access */ struct pt_entry *prefix; struct rib *__rib; /* mangled pointer with flags */ }; struct rib { struct rib_tree tree; u_int rtableid; u_int16_t flags; u_int16_t id; }; struct rib_desc { char name[PEER_DESCR_LEN]; struct rib rib; struct rib_context ribctx; struct filter_head *in_rules; struct filter_head *in_rules_tmp; enum reconf_action state; u_int8_t dumping; }; #define RIB_ADJ_IN 0 #define RIB_ADJ_OUT 1 #define RIB_LOC_START 2 struct prefix { LIST_ENTRY(prefix) rib_l, nexthop_l; TAILQ_ENTRY(prefix) path_l; struct rib_entry *re; struct rde_aspath *aspath; struct rde_peer *peer; struct nexthop *nexthop; /* may be NULL */ time_t lastchange; u_int8_t nhflags; }; #define NEXTHOP_SELF 0x01 #define NEXTHOP_REJECT 0x02 #define NEXTHOP_BLACKHOLE 0x04 #define NEXTHOP_NOMODIFY 0x08 struct filterstate { struct rde_aspath aspath; struct nexthop *nexthop; u_int8_t nhflags; }; struct tentry_v4; struct tentry_v6; struct trie_head { struct tentry_v4 *root_v4; struct tentry_v6 *root_v6; int match_default_v4; int match_default_v6; }; struct rde_prefixset { char name[SET_NAME_LEN]; struct trie_head th; SIMPLEQ_ENTRY(rde_prefixset) entry; int dirty; int roa; }; SIMPLEQ_HEAD(rde_prefixset_head, rde_prefixset); extern struct rde_memstats rdemem; /* prototypes */ /* mrt.c */ int mrt_dump_v2_hdr(struct mrt *, struct bgpd_config *, struct rde_peer_head *); void mrt_dump_upcall(struct rib_entry *, void *); void mrt_done(void *); /* rde.c */ void rde_send_kroute(struct rib *, struct prefix *, struct prefix *); void rde_send_nexthop(struct bgpd_addr *, int); void rde_send_pftable(u_int16_t, struct bgpd_addr *, u_int8_t, int); void rde_send_pftable_commit(void); void rde_generate_updates(struct rib *, struct prefix *, struct prefix *); u_int32_t rde_local_as(void); int rde_noevaluate(void); int rde_decisionflags(void); int rde_as4byte(struct rde_peer *); /* rde_attr.c */ int attr_write(void *, u_int16_t, u_int8_t, u_int8_t, void *, u_int16_t); int attr_writebuf(struct ibuf *, u_int8_t, u_int8_t, void *, u_int16_t); void attr_init(u_int32_t); void attr_shutdown(void); void attr_hash_stats(struct rde_hashstats *); int attr_optadd(struct rde_aspath *, u_int8_t, u_int8_t, void *, u_int16_t); struct attr *attr_optget(const struct rde_aspath *, u_int8_t); void attr_copy(struct rde_aspath *, const struct rde_aspath *); int attr_compare(struct rde_aspath *, struct rde_aspath *); u_int64_t attr_hash(struct rde_aspath *); void attr_freeall(struct rde_aspath *); void attr_free(struct rde_aspath *, struct attr *); #define attr_optlen(x) \ ((x)->len > 255 ? (x)->len + 4 : (x)->len + 3) void aspath_init(u_int32_t); void aspath_shutdown(void); void aspath_hash_stats(struct rde_hashstats *); struct aspath *aspath_get(void *, u_int16_t); void aspath_put(struct aspath *); u_char *aspath_deflate(u_char *, u_int16_t *, int *); void aspath_merge(struct rde_aspath *, struct attr *); u_char *aspath_dump(struct aspath *); u_int16_t aspath_length(struct aspath *); u_int16_t aspath_count(const void *, u_int16_t); u_int32_t aspath_neighbor(struct aspath *); int aspath_loopfree(struct aspath *, u_int32_t); int aspath_compare(struct aspath *, struct aspath *); u_char *aspath_prepend(struct aspath *, u_int32_t, int, u_int16_t *); int aspath_lenmatch(struct aspath *, enum aslen_spec, u_int); int community_match(struct rde_aspath *, int, int); int community_set(struct rde_aspath *, int, int); void community_delete(struct rde_aspath *, int, int); int community_large_match(struct rde_aspath *, int64_t, int64_t, int64_t); int community_large_set(struct rde_aspath *, int64_t, int64_t, int64_t); void community_large_delete(struct rde_aspath *, int64_t, int64_t, int64_t); int community_ext_match(struct rde_aspath *, struct filter_extcommunity *, u_int16_t); int community_ext_set(struct rde_aspath *, struct filter_extcommunity *, u_int16_t); void community_ext_delete(struct rde_aspath *, struct filter_extcommunity *, u_int16_t); int community_ext_conv(struct filter_extcommunity *, u_int16_t, u_int64_t *); u_char *community_ext_delete_non_trans(u_char *, u_int16_t, u_int16_t *); /* rde_decide.c */ void prefix_evaluate(struct prefix *, struct rib_entry *); /* rde_filter.c */ void rde_filterstate_prep(struct filterstate *, struct rde_aspath *, struct nexthop *, u_int8_t); void rde_filterstate_clean(struct filterstate *); enum filter_actions rde_filter(struct filter_head *, struct rde_peer *, struct prefix *, struct filterstate *); void rde_apply_set(struct filter_set_head *, struct filterstate *, u_int8_t, struct rde_peer *, struct rde_peer *); int rde_filter_equal(struct filter_head *, struct filter_head *, struct rde_peer *); void rde_filter_calc_skip_steps(struct filter_head *); /* rde_prefix.c */ static inline int pt_empty(struct pt_entry *pt) { return (pt->refcnt == 0); } static inline void pt_ref(struct pt_entry *pt) { ++pt->refcnt; if (pt->refcnt == 0) fatalx("pt_ref: overflow"); } static inline void pt_unref(struct pt_entry *pt) { if (pt->refcnt == 0) fatalx("pt_unref: underflow"); --pt->refcnt; } void pt_init(void); void pt_shutdown(void); void pt_getaddr(struct pt_entry *, struct bgpd_addr *); struct pt_entry *pt_fill(struct bgpd_addr *, int); struct pt_entry *pt_get(struct bgpd_addr *, int); struct pt_entry *pt_add(struct bgpd_addr *, int); void pt_remove(struct pt_entry *); struct pt_entry *pt_lookup(struct bgpd_addr *); int pt_prefix_cmp(const struct pt_entry *, const struct pt_entry *); /* rde_rib.c */ extern u_int16_t rib_size; extern struct rib_desc *ribs; struct rib *rib_new(char *, u_int, u_int16_t); struct rib *rib_find(char *); struct rib_desc *rib_desc(struct rib *); void rib_free(struct rib *); struct rib_entry *rib_get(struct rib *, struct bgpd_addr *, int); struct rib_entry *rib_lookup(struct rib *, struct bgpd_addr *); void rib_dump(struct rib *, void (*)(struct rib_entry *, void *), void *, u_int8_t); void rib_dump_r(struct rib_context *); static inline struct rib * re_rib(struct rib_entry *re) { return (struct rib *)((intptr_t)re->__rib & ~1); } static inline int rib_valid(u_int16_t rid) { if (rid >= rib_size || *ribs[rid].name == '\0') return 0; return 1; } void path_init(u_int32_t); void path_init(u_int32_t); void path_shutdown(void); void path_hash_stats(struct rde_hashstats *); int path_update(struct rib *, struct rde_peer *, struct filterstate *, struct bgpd_addr *, int); int path_compare(struct rde_aspath *, struct rde_aspath *); void path_remove(struct rde_aspath *); u_int32_t path_remove_stale(struct rde_aspath *, u_int8_t, time_t); void path_destroy(struct rde_aspath *); int path_empty(struct rde_aspath *); struct rde_aspath *path_copy(struct rde_aspath *, const struct rde_aspath *); struct rde_aspath *path_prep(struct rde_aspath *); struct rde_aspath *path_get(void); void path_clean(struct rde_aspath *); void path_put(struct rde_aspath *); #define PREFIX_SIZE(x) (((x) + 7) / 8 + 1) struct prefix *prefix_get(struct rib *, struct rde_peer *, struct bgpd_addr *, int); int prefix_remove(struct rib *, struct rde_peer *, struct bgpd_addr *, int); int prefix_write(u_char *, int, struct bgpd_addr *, u_int8_t, int); int prefix_writebuf(struct ibuf *, struct bgpd_addr *, u_int8_t); struct prefix *prefix_bypeer(struct rib_entry *, struct rde_peer *); void prefix_updateall(struct prefix *, enum nexthop_state, enum nexthop_state); void prefix_destroy(struct prefix *); void prefix_network_clean(struct rde_peer *); void prefix_relink(struct prefix *, struct rde_aspath *, int); static inline struct rde_peer * prefix_peer(struct prefix *p) { return (p->peer); } static inline struct rde_aspath * prefix_aspath(struct prefix *p) { return (p->aspath); } static inline struct nexthop * prefix_nexthop(struct prefix *p) { return (p->nexthop); } static inline u_int8_t prefix_nhflags(struct prefix *p) { return (p->nhflags); } void nexthop_init(u_int32_t); void nexthop_shutdown(void); void nexthop_modify(struct nexthop *, enum action_types, u_int8_t, struct nexthop **, u_int8_t *); void nexthop_link(struct prefix *); void nexthop_unlink(struct prefix *); void nexthop_update(struct kroute_nexthop *); struct nexthop *nexthop_get(struct bgpd_addr *); struct nexthop *nexthop_ref(struct nexthop *); int nexthop_put(struct nexthop *); int nexthop_compare(struct nexthop *, struct nexthop *); /* rde_update.c */ void up_init(struct rde_peer *); void up_down(struct rde_peer *); int up_test_update(struct rde_peer *, struct prefix *); int up_generate(struct rde_peer *, struct filterstate *, struct bgpd_addr *, u_int8_t); void up_generate_updates(struct filter_head *, struct rde_peer *, struct prefix *, struct prefix *); void up_generate_default(struct filter_head *, struct rde_peer *, u_int8_t); int up_generate_marker(struct rde_peer *, u_int8_t); int up_dump_prefix(u_char *, int, struct uplist_prefix *, struct rde_peer *, int); int up_dump_attrnlri(u_char *, int, struct rde_peer *); u_char *up_dump_mp_unreach(u_char *, u_int16_t *, struct rde_peer *, u_int8_t); int up_dump_mp_reach(u_char *, u_int16_t *, struct rde_peer *, u_int8_t); /* rde_trie.c */ int trie_add(struct trie_head *, struct bgpd_addr *, u_int8_t, u_int8_t, u_int8_t); int trie_roa_add(struct trie_head *, struct bgpd_addr *, u_int8_t, struct as_set *); void trie_free(struct trie_head *); int trie_match(struct trie_head *, struct bgpd_addr *, u_int8_t, int); int trie_roa_check(struct trie_head *, struct bgpd_addr *, u_int8_t, u_int32_t); void trie_dump(struct trie_head *); int trie_equal(struct trie_head *, struct trie_head *); #endif /* __RDE_H__ */