/* * BIRD Internet Routing Daemon -- Routing Table * * (c) 1998--2000 Martin Mares * (c) 2019--2021 Maria Matejka * * Can be freely distributed and used under the terms of the GNU GPL. */ #ifndef _BIRD_ROUTE_H_ #define _BIRD_ROUTE_H_ #include "lib/lists.h" #include "lib/bitmap.h" #include "lib/resource.h" #include "lib/net.h" #include "lib/netindex.h" #include "lib/type.h" #include "lib/fib.h" #include "lib/route.h" #include "lib/event.h" #include "lib/rcu.h" #include "lib/io-loop.h" #include "lib/settle.h" #include "filter/data.h" #include struct ea_list; struct protocol; struct proto; struct channel; struct rte_src; struct hostcache; struct symbol; struct timer; struct filter; struct f_trie; struct f_trie_walk_state; struct cli; struct rt_cork_threshold { u64 low, high; }; /* * Master Routing Tables. Generally speaking, each of them contains a FIB * with each entry pointing to a list of route entries representing routes * to given network (with the selected one at the head). * * Each of the RTE's contains variable data (the preference and protocol-dependent * metrics) and a pointer to a route attribute block common for many routes). * * It's guaranteed that there is at most one RTE for every (prefix,proto) pair. */ struct rtable_config { node n; char *name; union rtable *table; struct proto_config *krt_attached; /* Kernel syncer attached to this table */ uint addr_type; /* Type of address data stored in table (NET_*) */ uint gc_threshold; /* Maximum number of operations before GC is run */ uint gc_period; /* Approximate time between two consecutive GC runs */ u32 debug; /* Debugging flags (D_*) */ byte sorted; /* Routes of network are sorted according to rte_better() */ byte trie_used; /* Rtable has attached trie */ struct rt_cork_threshold cork_threshold; /* Cork threshold values */ struct settle_config export_settle; /* Export announcement settler */ struct settle_config export_rr_settle;/* Export announcement settler config valid when any route refresh is running */ }; struct rt_export_hook; struct rt_export_request; struct rt_exporter; struct rt_exporter_class { void (*start)(struct rt_exporter *, struct rt_export_request *); void (*stop)(struct rt_export_hook *); void (*done)(void *_rt_export_hook); }; struct rt_exporter { const struct rt_exporter_class *class; pool *rp; list hooks; /* Registered route export hooks */ uint addr_type; /* Type of address data exported (NET_*) */ }; struct rt_table_exporter { struct rt_exporter e; list pending; /* List of packed struct rt_pending_export */ struct rt_pending_export *first; /* First export to announce */ u64 next_seq; /* The next export will have this ID */ }; extern uint rtable_max_id; /* The public part of rtable structure */ #define RTABLE_PUBLIC \ resource r; \ node n; /* Node in list of all tables */ \ char *name; /* Name of this table */ \ uint addr_type; /* Type of address data stored in table (NET_*) */ \ uint id; /* Integer table ID for fast lookup */ \ DOMAIN(rtable) lock; /* Lock to take to access the private parts */ \ struct rtable_config *config; /* Configuration of this table */ \ struct birdloop *loop; /* Service thread */ \ netindex_hash *netindex; /* Prefix index for this table */ \ /* The complete rtable structure */ struct rtable_private { /* Once more the public part */ struct { RTABLE_PUBLIC; }; struct rtable_private **locked_at; /* Here the private items not to be accessed without locking */ pool *rp; /* Resource pool to allocate everything from, including itself */ struct slab *rte_slab; /* Slab to allocate route objects */ struct network *routes; /* Actual route objects in the table */ u32 routes_block_size; /* Size of the route object pointer block */ struct f_trie *trie; /* Trie of prefixes defined in fib */ int use_count; /* Number of protocols using this table */ u32 rt_count; /* Number of routes in the table */ u32 net_count; /* Number of nets in the table */ u32 debug; /* Debugging flags (D_*) */ list imports; /* Registered route importers */ struct rt_table_exporter exporter; /* Exporter API structure */ struct hmap id_map; struct hostcache *hostcache; struct config *deleted; /* Table doesn't exist in current configuration, * delete as soon as use_count becomes 0 and remove * obstacle from this routing table. */ struct event *nhu_uncork_event; /* Helper event to schedule NHU on uncork */ struct settle export_settle; /* Export batching settle timer */ struct timer *prune_timer; /* Timer for periodic pruning / GC */ struct birdloop_flag_handler fh; /* Handler for simple events */ btime last_rt_change; /* Last time when route changed */ btime gc_time; /* Time of last GC */ uint gc_counter; /* Number of operations since last GC */ uint rr_counter; /* Number of currently running route refreshes, in fact sum of (stale_set - stale_pruned) over all importers + one for each TIS_FLUSHING importer */ uint wait_counter; /* Number of imports in TIS_WAITING state */ byte prune_state; /* Table prune state, 1 -> scheduled, 2-> running */ byte prune_trie; /* Prune prefix trie during next table prune */ byte imports_flushing; /* Some imports are being flushed right now */ byte nhu_state; /* Next Hop Update state */ byte nhu_corked; /* Next Hop Update is corked with this state */ byte export_used; /* Pending Export pruning is scheduled */ byte cork_active; /* Cork has been activated */ struct rt_cork_threshold cork_threshold; /* Threshold for table cork */ u32 prune_index; /* Rtable prune FIB iterator */ u32 nhu_index; /* Next Hop Update FIB iterator */ struct f_trie *trie_new; /* New prefix trie defined during pruning */ struct f_trie *trie_old; /* Old prefix trie waiting to be freed */ u32 trie_lock_count; /* Prefix trie locked by walks */ u32 trie_old_lock_count; /* Old prefix trie locked by walks */ struct tbf rl_pipe; /* Rate limiting token buffer for pipe collisions */ struct f_trie *flowspec_trie; /* Trie for evaluation of flowspec notifications */ // struct mpls_domain *mpls_domain; /* Label allocator for MPLS */ }; /* The final union private-public rtable structure */ typedef union rtable { struct { RTABLE_PUBLIC; }; struct rtable_private priv; } rtable; /* Define the lock cleanup function */ LOBJ_UNLOCK_CLEANUP(rtable, rtable); #define RT_IS_LOCKED(tab) LOBJ_IS_LOCKED((tab), rtable) #define RT_LOCKED(tab, tp) LOBJ_LOCKED((tab), tp, rtable, rtable) #define RT_LOCK_SIMPLE(tab) LOBJ_LOCK_SIMPLE((tab), rtable) #define RT_UNLOCK_SIMPLE(tab) LOBJ_UNLOCK_SIMPLE((tab), rtable) #define RT_UNLOCKED_TEMPORARILY(tab, tp) LOBJ_UNLOCKED_TEMPORARILY((tab), tp, rtable, rtable) #define RT_PUB(tab) SKIP_BACK(rtable, priv, tab) /* Flags for birdloop_flag() */ #define RTF_CLEANUP 1 #define RTF_NHU 2 #define RTF_EXPORT 4 #define RTF_DELETE 8 extern struct rt_cork { _Atomic uint active; event_list queue; event run; } rt_cork; static inline void rt_cork_acquire(void) { atomic_fetch_add_explicit(&rt_cork.active, 1, memory_order_acq_rel); } static inline void rt_cork_release(void) { if (atomic_fetch_sub_explicit(&rt_cork.active, 1, memory_order_acq_rel) == 1) { synchronize_rcu(); ev_send(&global_work_list, &rt_cork.run); } } static inline int rt_cork_check(event *e) { rcu_read_lock(); int corked = (atomic_load_explicit(&rt_cork.active, memory_order_acquire) > 0); if (corked) ev_send(&rt_cork.queue, e); rcu_read_unlock(); return corked; } typedef struct network { struct rte_storage *routes; /* Available routes for this network */ struct rt_pending_export *first, *last; } net; struct rte_storage { struct rte_storage *next; /* Next in chain */ union { struct { RTE_IN_TABLE_WRITABLE; }; const struct rte rte; /* Route data */ }; }; #define RTE_COPY(r) ((r) ? (r)->rte : (rte) {}) #define RTE_COPY_VALID(r) (((r) && (rte_is_valid((r)))) ? *(r) : (rte) {}) #define RTE_OR_NULL(r) ((r) ? &((r)->rte) : NULL) #define RTE_VALID_OR_NULL(r) (((r) && (rte_is_valid((r)))) ? (r) : NULL) #define RTES_WRITE(r) (((r) != ((struct rte_storage *) 0)) ? ((struct rte *) &(r)->rte) : NULL) #define RTE_GET_NETINDEX(e) NET_TO_INDEX((e)->net) /* Table-channel connections */ struct rt_prefilter { union { const struct f_trie *trie; const net_addr *addr; /* Network prefilter address */ int (*hook)(const struct rt_prefilter *, const net_addr *); }; /* Network prefilter mode (TE_ADDR_*) */ enum { TE_ADDR_NONE = 0, /* No address matching */ TE_ADDR_EQUAL, /* Exact query - show route */ TE_ADDR_FOR, /* Longest prefix match - show route for */ TE_ADDR_IN, /* Interval query - show route in */ TE_ADDR_TRIE, /* Query defined by trie */ TE_ADDR_HOOK, /* Query processed by supplied custom hook */ } mode; } PACKED; struct rt_import_request { struct rt_import_hook *hook; /* The table part of importer */ char *name; u8 trace_routes; event_list *list; /* Where to schedule announce events */ void (*dump_req)(struct rt_import_request *req); void (*log_state_change)(struct rt_import_request *req, u8 state); /* Preimport is called when the @new route is just-to-be inserted, replacing @old. * Return a route (may be different or modified in-place) to continue or NULL to withdraw. */ int (*preimport)(struct rt_import_request *req, struct rte *new, const struct rte *old); }; struct rt_import_hook { node n; rtable *table; /* The connected table */ struct rt_import_request *req; /* The requestor */ struct rt_import_stats { /* Import - from protocol to core */ u32 pref; /* Number of routes selected as best in the (adjacent) routing table */ u32 updates_ignored; /* Number of route updates rejected as already in route table */ u32 updates_accepted; /* Number of route updates accepted and imported */ u32 withdraws_ignored; /* Number of route withdraws rejected as already not in route table */ u32 withdraws_accepted; /* Number of route withdraws accepted and processed */ } stats; u64 flush_seq; /* Table export seq when the channel announced flushing */ btime last_state_change; /* Time of last state transition */ u8 import_state; /* IS_* */ u8 stale_set; /* Set this stale_cycle to imported routes */ u8 stale_valid; /* Routes with this stale_cycle and bigger are considered valid */ u8 stale_pruned; /* Last prune finished when this value was set at stale_valid */ u8 stale_pruning; /* Last prune started when this value was set at stale_valid */ void (*stopped)(struct rt_import_request *); /* Stored callback when import is stopped */ event announce_event; /* This event announces table updates */ }; struct rt_pending_export { struct rt_pending_export * _Atomic next; /* Next export for the same destination */ const rte *new, *new_best, *old, *old_best; u64 seq; /* Sequential ID (table-local) of the pending export */ }; struct rt_export_request { struct rt_export_hook *hook; /* Table part of the export */ char *name; u8 trace_routes; uint feed_block_size; /* How many routes to feed at once */ struct rt_prefilter prefilter; event_list *list; /* Where to schedule export events */ pool *pool; /* Pool to use for allocations */ /* There are two methods of export. You can either request feeding every single change * or feeding the whole route feed. In case of regular export, &export_one is preferred. * Anyway, when feeding, &export_bulk is preferred, falling back to &export_one. * Thus, for RA_OPTIMAL, &export_one is only set, * for RA_MERGED and RA_ACCEPTED, &export_bulk is only set * and for RA_ANY, both are set to accomodate for feeding all routes but receiving single changes */ void (*export_one)(struct rt_export_request *req, const net_addr *net, struct rt_pending_export *rpe); void (*export_bulk)(struct rt_export_request *req, const net_addr *net, struct rt_pending_export *rpe, struct rt_pending_export *last, const rte **feed, uint count); void (*mark_seen)(struct rt_export_request *req, struct rt_pending_export *rpe); void (*dump_req)(struct rt_export_request *req); void (*log_state_change)(struct rt_export_request *req, u8); }; static inline int rt_prefilter_net(const struct rt_prefilter *p, const net_addr *n) { switch (p->mode) { case TE_ADDR_NONE: return 1; case TE_ADDR_IN: return net_in_netX(n, p->addr); case TE_ADDR_EQUAL: return net_equal(n, p->addr); case TE_ADDR_FOR: return net_in_netX(p->addr, n); case TE_ADDR_TRIE: return trie_match_net(p->trie, n); case TE_ADDR_HOOK: return p->hook(p, n); } bug("Crazy prefilter application attempt failed wildly."); } struct rt_export_hook { node n; struct rt_exporter *table; /* The connected table */ pool *pool; struct rt_export_request *req; /* The requestor */ struct rt_export_stats { /* Export - from core to protocol */ u32 updates_received; /* Number of route updates received */ u32 withdraws_received; /* Number of route withdraws received */ } stats; btime last_state_change; /* Time of last state transition */ _Atomic u8 export_state; /* Route export state (TES_*, see below) */ struct event event; /* Event running all the export operations */ struct bmap seq_map; /* Keep track which exports were already procesed */ void (*stopped)(struct rt_export_request *); /* Stored callback when export is stopped */ }; struct rt_table_export_hook { union { struct rt_export_hook h; struct { /* Overriding the parent structure beginning */ node _n; struct rt_table_exporter *table; }; }; union { u32 feed_index; /* Routing table iterator used during feeding */ struct { struct f_trie_walk_state *walk_state; /* Iterator over networks in trie */ struct f_trie *walk_lock; /* Locked trie for walking */ union { /* Last net visited but not processed */ net_addr walk_last; net_addr_ip4 walk_last_ip4; net_addr_ip6 walk_last_ip6; }; }; }; struct rt_pending_export *_Atomic last_export;/* Last export processed */ struct rt_pending_export *rpe_next; /* Next pending export to process */ u8 refeed_pending; /* Refeeding and another refeed is scheduled */ u8 feed_type; /* Which feeding method is used (TFT_*, see below) */ }; #define TIS_DOWN 0 #define TIS_UP 1 #define TIS_STOP 2 #define TIS_FLUSHING 3 #define TIS_WAITING 4 #define TIS_CLEARED 5 #define TIS_MAX 6 #define TES_DOWN 0 #define TES_HUNGRY 1 #define TES_FEEDING 2 #define TES_READY 3 #define TES_STOP 4 #define TES_MAX 5 #define TFT_FIB 1 #define TFT_TRIE 2 #define TFT_HASH 3 void rt_request_import(rtable *tab, struct rt_import_request *req); void rt_request_export(rtable *tab, struct rt_export_request *req); void rt_request_export_other(struct rt_exporter *tab, struct rt_export_request *req); void rt_stop_import(struct rt_import_request *, void (*stopped)(struct rt_import_request *)); void rt_stop_export(struct rt_export_request *, void (*stopped)(struct rt_export_request *)); const char *rt_import_state_name(u8 state); const char *rt_export_state_name(u8 state); static inline u8 rt_import_get_state(struct rt_import_hook *ih) { return ih ? ih->import_state : TIS_DOWN; } static inline u8 rt_export_get_state(struct rt_export_hook *eh) { return eh ? eh->export_state : TES_DOWN; } u8 rt_set_export_state(struct rt_export_hook *hook, u32 expected_mask, u8 state); void rte_import(struct rt_import_request *req, const net_addr *net, rte *new, struct rte_src *src); /* * For table export processing */ /* Get next rpe. If src is given, it must match. */ struct rt_pending_export *rpe_next(struct rt_pending_export *rpe, struct rte_src *src); /* Walk all rpe's */ #define RPE_WALK(first, it, src) \ for (struct rt_pending_export *it = (first); it; it = rpe_next(it, (src))) /* Mark the pending export processed */ void rpe_mark_seen(struct rt_export_hook *hook, struct rt_pending_export *rpe); #define rpe_mark_seen_all(hook, first, last, src) do { \ RPE_WALK((first), _rpe, (src)) { \ rpe_mark_seen((hook), _rpe); \ if (_rpe == last) break; \ }} while (0) /* Get pending export seen status */ int rpe_get_seen(struct rt_export_hook *hook, struct rt_pending_export *rpe); /* * For rt_export_hook and rt_exporter inheritance */ void rt_init_export(struct rt_exporter *re, struct rt_export_hook *hook); struct rt_export_hook *rt_alloc_export(struct rt_exporter *re, pool *pool, uint size); void rt_stop_export_common(struct rt_export_hook *hook); void rt_export_stopped(struct rt_export_hook *hook); void rt_exporter_init(struct rt_exporter *re); /* * Channel export hooks. To be refactored out. */ int channel_preimport(struct rt_import_request *req, rte *new, const rte *old); void channel_reload_export_bulk(struct rt_export_request *req, const net_addr *net, struct rt_pending_export *first, struct rt_pending_export *last, const rte **feed, uint count); void rt_notify_optimal(struct rt_export_request *req, const net_addr *net, struct rt_pending_export *rpe); void rt_notify_any(struct rt_export_request *req, const net_addr *net, struct rt_pending_export *rpe); void rt_feed_any(struct rt_export_request *req, const net_addr *net, struct rt_pending_export *first, struct rt_pending_export *last, const rte **feed, uint count); void rt_notify_accepted(struct rt_export_request *req, const net_addr *net, struct rt_pending_export *first, struct rt_pending_export *last, const rte **feed, uint count); void rt_notify_merged(struct rt_export_request *req, const net_addr *net, struct rt_pending_export *first, struct rt_pending_export *last, const rte **feed, uint count); void channel_rpe_mark_seen(struct channel *c, struct rt_pending_export *rpe); /* Types of route announcement, also used as flags */ #define RA_UNDEF 0 /* Undefined RA type */ #define RA_OPTIMAL 1 /* Announcement of optimal route change */ #define RA_ACCEPTED 2 /* Announcement of first accepted route */ #define RA_ANY 3 /* Announcement of any route change */ #define RA_MERGED 4 /* Announcement of optimal route merged with next ones */ /* Return value of preexport() callback */ #define RIC_ACCEPT 1 /* Accepted by protocol */ #define RIC_PROCESS 0 /* Process it through import filter */ #define RIC_REJECT -1 /* Rejected by protocol */ #define RIC_DROP -2 /* Silently dropped by protocol */ /* * Next hop update data structures */ #define NHU_CLEAN 0 #define NHU_SCHEDULED 1 #define NHU_RUNNING 2 #define NHU_DIRTY 3 struct hostentry { node ln; ip_addr addr; /* IP address of host, part of key */ ip_addr link; /* (link-local) IP address of host, used as gw if host is directly attached */ rtable *tab; /* Dependent table, part of key */ rtable *owner; /* Nexthop owner table */ struct hostentry *next; /* Next in hash chain */ unsigned hash_key; /* Hash key */ unsigned uc; /* Use count */ ea_list *src; /* Source attributes */ byte nexthop_linkable; /* Nexthop list is completely non-device */ u32 igp_metric; /* Chosen route IGP metric */ }; struct hostcache { slab *slab; /* Slab holding all hostentries */ struct hostentry **hash_table; /* Hash table for hostentries */ unsigned hash_order, hash_shift; unsigned hash_max, hash_min; unsigned hash_items; linpool *lp; /* Linpool for trie */ struct f_trie *trie; /* Trie of prefixes that might affect hostentries */ list hostentries; /* List of all hostentries */ event update; struct rt_export_request req; /* Notifier */ }; struct rt_flowspec_link { rtable *src; rtable *dst; u32 uc; struct rt_export_request req; }; #define rte_update channel_rte_import /** * rte_update - enter a new update to a routing table * @c: channel doing the update * @net: network address * @rte: a &rte representing the new route * @src: old route source identifier * * This function imports a new route to the appropriate table (via the channel). * Table keys are @net (obligatory) and @rte->attrs->src. * Both the @net and @rte pointers can be local. * * The route attributes (@rte->attrs) are obligatory. They can be also allocated * locally. Anyway, if you use an already-cached attribute object, you shall * call rta_clone() on that object yourself. (This semantics may change in future.) * * If the route attributes are local, you may set @rte->attrs->src to NULL, then * the protocol's default route source will be supplied. * * When rte_update() gets a route, it automatically validates it. This includes * checking for validity of the given network and next hop addresses and also * checking for host-scope or link-scope routes. Then the import filters are * processed and if accepted, the route is passed to route table recalculation. * * The accepted routes are then inserted into the table, replacing the old route * for the same @net identified by @src. Then the route is announced * to all the channels connected to the table using the standard export mechanism. * Setting @rte to NULL makes this a withdraw, otherwise @rte->src must be the same * as @src. * * All memory used for temporary allocations is taken from a special linpool * @rte_update_pool and freed when rte_update() finishes. */ void rte_update(struct channel *c, const net_addr *net, struct rte *rte, struct rte_src *src); extern list routing_tables; struct config; void rt_init(void); void rt_preconfig(struct config *); void rt_postconfig(struct config *); void rt_commit(struct config *new, struct config *old); void rt_lock_table_priv(struct rtable_private *, const char *file, uint line); void rt_unlock_table_priv(struct rtable_private *, const char *file, uint line); static inline void rt_lock_table_pub(rtable *t, const char *file, uint line) { RT_LOCKED(t, tt) rt_lock_table_priv(tt, file, line); } static inline void rt_unlock_table_pub(rtable *t, const char *file, uint line) { RT_LOCKED(t, tt) rt_unlock_table_priv(tt, file, line); } #define rt_lock_table(t) _Generic((t), rtable *: rt_lock_table_pub, \ struct rtable_private *: rt_lock_table_priv)((t), __FILE__, __LINE__) #define rt_unlock_table(t) _Generic((t), rtable *: rt_unlock_table_pub, \ struct rtable_private *: rt_unlock_table_priv)((t), __FILE__, __LINE__) struct f_trie * rt_lock_trie(struct rtable_private *tab); void rt_unlock_trie(struct rtable_private *tab, struct f_trie *trie); void rt_flowspec_link(rtable *src, rtable *dst); void rt_flowspec_unlink(rtable *src, rtable *dst); rtable *rt_setup(pool *, struct rtable_config *); static inline net *net_find(struct rtable_private *tab, const struct netindex *i) { return (i->index < tab->routes_block_size) ? &(tab->routes[i->index]) : NULL; } int rt_examine(rtable *t, net_addr *a, struct channel *c, const struct filter *filter); rte *rt_export_merged(struct channel *c, const net_addr *n, const rte ** feed, uint count, linpool *pool, int silent); void rt_refresh_begin(struct rt_import_request *); void rt_refresh_end(struct rt_import_request *); void rt_schedule_prune(struct rtable_private *t); void rte_dump(struct rte_storage *); void rt_dump(rtable *); void rt_dump_all(void); void rt_dump_hooks(rtable *); void rt_dump_hooks_all(void); int rt_reload_channel(struct channel *c); void rt_reload_channel_abort(struct channel *c); void rt_refeed_channel(struct channel *c); void rt_prune_sync(rtable *t, int all); struct rtable_config *rt_new_table(struct symbol *s, uint addr_type); void rt_new_default_table(struct symbol *s); struct rtable_config *rt_get_default_table(struct config *cf, uint addr_type); static inline int rt_is_ip(rtable *tab) { return (tab->addr_type == NET_IP4) || (tab->addr_type == NET_IP6); } static inline int rt_is_vpn(rtable *tab) { return (tab->addr_type == NET_VPN4) || (tab->addr_type == NET_VPN6); } static inline int rt_is_roa(rtable *tab) { return (tab->addr_type == NET_ROA4) || (tab->addr_type == NET_ROA6); } static inline int rt_is_flow(rtable *tab) { return (tab->addr_type == NET_FLOW4) || (tab->addr_type == NET_FLOW6); } /* Default limit for ECMP next hops, defined in sysdep code */ extern const int rt_default_ecmp; struct rt_show_data_rtable { node n; const char *name; struct rt_exporter *table; struct channel *export_channel; struct channel *prefilter; struct krt_proto *kernel; }; struct rt_show_data { struct cli *cli; /* Pointer back to the CLI */ net_addr *addr; list tables; struct rt_show_data_rtable *tab; /* Iterator over table list */ struct rt_show_data_rtable *last_table; /* Last table in output */ struct rt_export_request req; /* Export request in use */ int verbose, tables_defined_by; const struct filter *filter; struct proto *show_protocol; struct proto *export_protocol; struct channel *export_channel; struct config *running_on_config; struct rt_export_hook *kernel_export_hook; int export_mode, addr_mode, primary_only, filtered, stats; int net_counter, rt_counter, show_counter, table_counter; int net_counter_last, rt_counter_last, show_counter_last; int show_counter_last_flush; }; void rt_show(struct rt_show_data *); struct rt_show_data_rtable * rt_show_add_exporter(struct rt_show_data *d, struct rt_exporter *t, const char *name); struct rt_show_data_rtable * rt_show_add_table(struct rt_show_data *d, rtable *t); /* Value of table definition mode in struct rt_show_data */ #define RSD_TDB_DEFAULT 0 /* no table specified */ #define RSD_TDB_INDIRECT 0 /* show route ... protocol P ... */ #define RSD_TDB_ALL RSD_TDB_SET /* show route ... table all ... */ #define RSD_TDB_DIRECT RSD_TDB_SET | RSD_TDB_NMN /* show route ... table X table Y ... */ #define RSD_TDB_SET 0x1 /* internal: show empty tables */ #define RSD_TDB_NMN 0x2 /* internal: need matching net */ /* Value of export_mode in struct rt_show_data */ #define RSEM_NONE 0 /* Export mode not used */ #define RSEM_PREEXPORT 1 /* Routes ready for export, before filtering */ #define RSEM_EXPORT 2 /* Routes accepted by export filter */ #define RSEM_NOEXPORT 3 /* Routes rejected by export filter */ #define RSEM_EXPORTED 4 /* Routes marked in export map */ #define RSEM_EXPORT_TABLE 5 /* Export from export table */ /* Host entry: Resolve hook for recursive nexthops */ extern struct ea_class ea_gen_hostentry; struct hostentry_adata { adata ad; struct hostentry *he; u32 labels[0]; }; #define HOSTENTRY_LABEL_COUNT(head) (head->ad.length + sizeof(struct adata) - sizeof(struct hostentry_adata)) / sizeof(u32) void ea_set_hostentry(ea_list **to, rtable *dep, rtable *tab, ip_addr gw, ip_addr ll, u32 lnum, u32 labels[lnum]); void ea_show_hostentry(const struct adata *ad, byte *buf, uint size); void ea_show_nexthop_list(struct cli *c, struct nexthop_adata *nhad); /* * Default protocol preferences */ #define DEF_PREF_DIRECT 240 /* Directly connected */ #define DEF_PREF_STATIC 200 /* Static route */ #define DEF_PREF_OSPF 150 /* OSPF intra-area, inter-area and type 1 external routes */ #define DEF_PREF_BABEL 130 /* Babel */ #define DEF_PREF_RIP 120 /* RIP */ #define DEF_PREF_BGP 100 /* BGP */ #define DEF_PREF_RPKI 100 /* RPKI */ #define DEF_PREF_L3VPN_IMPORT 80 /* L3VPN import -> lower than BGP */ #define DEF_PREF_L3VPN_EXPORT 120 /* L3VPN export -> higher than BGP */ #define DEF_PREF_INHERITED 10 /* Routes inherited from other routing daemons */ #define DEF_PREF_UNKNOWN 0 /* Routes with no preference set */ /* * Route Origin Authorization */ #define ROA_UNKNOWN 0 #define ROA_VALID 1 #define ROA_INVALID 2 int net_roa_check(rtable *tab, const net_addr *n, u32 asn); #endif