/* * BIRD Internet Routing Daemon -- MPLS Structures * * (c) 2022 Ondrej Zajicek * (c) 2022 CZ.NIC z.s.p.o. * * Can be freely distributed and used under the terms of the GNU GPL. */ #ifndef _BIRD_MPLS_H_ #define _BIRD_MPLS_H_ #include "nest/bird.h" #include "lib/bitmap.h" #include "lib/hash.h" #include "nest/route.h" #include "nest/protocol.h" #define MPLS_POLICY_NONE 0 #define MPLS_POLICY_STATIC 1 #define MPLS_POLICY_PREFIX 2 #define MPLS_POLICY_AGGREGATE 3 #define MPLS_POLICY_VRF 4 #define MPLS_FEC_DOWN 0 #define MPLS_FEC_CLEAN 1 #define MPLS_FEC_DIRTY 2 struct mpls_domain_config { node n; /* Node in config.mpls_domains */ struct mpls_domain *domain; /* Our instance */ const char *name; list ranges; /* List of label ranges (struct mpls_range_config) */ struct mpls_range_config *static_range; /* Default static label range */ struct mpls_range_config *dynamic_range; /* Default dynamic label range */ }; struct mpls_domain { node n; /* Node in global list of MPLS domains (mpls_domains) */ struct mpls_domain_config *cf; /* Our config */ const char *name; pool *pool; /* Pool for the domain and associated objects */ struct lmap labels; /* Bitmap of allocated labels */ uint label_count; /* Number of allocated labels */ uint use_count; /* Reference counter */ struct config *removed; /* Deconfigured, waiting for zero use_count, while keeping config obstacle */ list ranges; /* List of label ranges (struct mpls_range) */ list handles; /* List of label handles (struct mpls_handle) */ }; struct mpls_range_config { node n; /* Node in mpls_domain_config.ranges */ struct mpls_range *range; /* Our instance */ struct mpls_domain_config *domain; /* Parent MPLS domain */ const char *name; uint start; /* Label range start, (uint) -1 for undefined */ uint length; /* Label range length, (uint) -1 for undefined */ }; struct mpls_range { node n; /* Node in mpls_domain.ranges */ struct mpls_range_config *cf; /* Our config */ const char *name; uint lo, hi; /* Label range interval */ uint label_count; /* Number of allocated labels */ uint use_count; /* Reference counter */ u8 removed; /* Deconfigured, waiting for zero use_count */ }; struct mpls_handle { node n; /* Node in mpls_domain.handles */ struct mpls_range *range; /* Associated range, keeping reference */ uint label_count; /* Number of allocated labels */ }; void mpls_init(void); struct mpls_domain_config * mpls_domain_config_new(struct symbol *s); void mpls_domain_postconfig(struct mpls_domain_config *cf); struct mpls_range_config * mpls_range_config_new(struct mpls_domain_config *m, struct symbol *s); void mpls_preconfig(struct config *c); void mpls_commit(struct config *new, struct config *old); uint mpls_new_label(struct mpls_domain *m, struct mpls_handle *h); void mpls_free_label(struct mpls_domain *m, struct mpls_handle *h, uint n); static inline struct mpls_domain_config *cf_default_mpls_domain(struct config *cfg) { return EMPTY_LIST(cfg->mpls_domains) ? NULL : HEAD(cfg->mpls_domains); } struct mpls_channel_config { struct channel_config c; struct mpls_domain_config *domain; struct mpls_range_config *range; uint label_policy; }; struct mpls_channel { struct channel c; struct mpls_domain *domain; struct mpls_range *range; uint label_policy; }; void mpls_channel_postconfig(struct channel_config *CF); extern struct channel_class channel_mpls; struct mpls_fec { u32 label; /* Label for FEC */ u32 hash; /* Hash for primary key (net / rta) */ u32 uc; /* Number of LSPs for FEC */ union { /* Extension part of key */ u32 path_id; /* Source path_id */ u32 class_id; /* Aaggregation class */ }; u8 state; /* FEC state (MPLS_FEC_*) */ u8 policy; /* Label policy (MPLS_POLICY_*) */ struct mpls_fec *next_k; /* Next in mpls_fec.net_hash/rta_hash */ struct mpls_fec *next_l; /* Next in mpls_fec.label_hash */ union { /* Primary key */ struct rta *rta; struct iface *iface; net_addr net[0]; }; }; struct mpls_fec_map { pool *pool; /* Pool for FEC map */ slab *slabs[4]; /* Slabs for FEC allocation */ HASH(struct mpls_fec) net_hash; /* Hash table for MPLS_POLICY_PREFIX FECs */ HASH(struct mpls_fec) rta_hash; /* Hash table for MPLS_POLICY_AGGREGATE FECs */ HASH(struct mpls_fec) label_hash; /* Hash table for FEC lookup by label */ struct mpls_fec *vrf_fec; /* Single FEC for MPLS_POLICY_VRF */ struct channel *channel; /* MPLS channel for FEC announcement */ struct mpls_domain *domain; /* MPLS domain, keeping reference */ struct mpls_handle *handle; /* Handle for allocation of labels */ struct iface *vrf_iface; u8 mpls_rts; /* Source value used for MPLS routes (RTS_*) */ u8 mpls_scope; /* Scope value used for MPLS routes (SCOPE_*) */ }; struct mpls_fec_map *mpls_fec_map_new(pool *p, struct channel *c, uint rts); void mpls_fec_map_free(struct mpls_fec_map *m); struct mpls_fec *mpls_find_fec_by_label(struct mpls_fec_map *x, u32 label); struct mpls_fec *mpls_get_fec_by_label(struct mpls_fec_map *m, u32 label); struct mpls_fec *mpls_get_fec_by_net(struct mpls_fec_map *m, const net_addr *net, u32 path_id); struct mpls_fec *mpls_get_fec_by_rta(struct mpls_fec_map *m, const rta *src, u32 class_id); void mpls_free_fec(struct mpls_fec_map *x, struct mpls_fec *fec); void mpls_handle_rte(struct mpls_fec_map *m, const net_addr *n, rte *r, linpool *lp, struct mpls_fec **locked_fec); void mpls_handle_rte_cleanup(struct mpls_fec_map *m, struct mpls_fec **locked_fec); void mpls_rte_insert(net *n UNUSED, rte *r); void mpls_rte_remove(net *n UNUSED, rte *r); struct mpls_show_ranges_cmd { struct mpls_domain_config *domain; struct mpls_range_config *range; /* Runtime */ struct mpls_domain *dom; }; void mpls_show_ranges(struct mpls_show_ranges_cmd *cmd); #endif