/* * BIRD Internet Routing Daemon -- Dynamic data structures * * (c) 1999 Pavel Machek * (c) 2018--2019 Maria Matejka * * Can be freely distributed and used under the terms of the GNU GPL. */ #ifndef _BIRD_FILTER_DATA_H_ #define _BIRD_FILTER_DATA_H_ #include "nest/bird.h" /* Type numbers must be in 0..0xff range */ #define T_MASK 0xff /* Internal types */ enum f_type { /* Nothing. Simply nothing. */ T_VOID = 0, /* Something but inaccessible. */ T_OPAQUE = 0xee, /* User visible types, which fit in int */ T_INT = 0x10, T_BOOL = 0x11, T_PAIR = 0x12, /* Notice that pair is stored as integer: first << 16 | second */ T_QUAD = 0x13, /* Put enumerational types in 0x30..0x3f range */ T_ENUM_LO = 0x30, T_ENUM_HI = 0x3f, T_ENUM_RTS = 0x30, T_ENUM_BGP_ORIGIN = 0x31, T_ENUM_SCOPE = 0x32, T_ENUM_RTC = 0x33, T_ENUM_RTD = 0x34, T_ENUM_ROA = 0x35, T_ENUM_NETTYPE = 0x36, T_ENUM_RA_PREFERENCE = 0x37, T_ENUM_AF = 0x38, /* new enums go here */ #define T_ENUM T_ENUM_LO ... T_ENUM_HI /* Bigger ones */ T_IP = 0x20, T_NET = 0x21, T_STRING = 0x22, T_PATH_MASK = 0x23, /* mask for BGP path */ T_PATH = 0x24, /* BGP path */ T_CLIST = 0x25, /* Community list */ T_EC = 0x26, /* Extended community value, u64 */ T_ECLIST = 0x27, /* Extended community list */ T_LC = 0x28, /* Large community value, lcomm */ T_LCLIST = 0x29, /* Large community list */ T_RD = 0x2a, /* Route distinguisher for VPN addresses */ T_PATH_MASK_ITEM = 0x2b, /* Path mask item for path mask constructors */ T_SET = 0x80, T_PREFIX_SET = 0x81, } PACKED; /* Filter value; size of this affects filter memory consumption */ struct f_val { enum f_type type; /* T_* */ union { uint i; u64 ec; lcomm lc; ip_addr ip; const net_addr *net; const char *s; const struct f_tree *t; const struct f_trie *ti; const struct adata *ad; const struct f_path_mask *path_mask; struct f_path_mask_item pmi; } val; }; /* Dynamic attribute definition (eattrs) */ struct f_dynamic_attr { u8 type; /* EA type (EAF_*) */ u8 bit; /* For bitfield accessors */ enum f_type f_type; /* Filter type */ uint ea_code; /* EA code */ }; enum f_sa_code { SA_FROM = 1, SA_GW, SA_NET, SA_PROTO, SA_SOURCE, SA_SCOPE, SA_DEST, SA_IFNAME, SA_IFINDEX, SA_WEIGHT, SA_PREF, SA_GW_MPLS, } PACKED; /* Static attribute definition (members of struct rta) */ struct f_static_attr { enum f_type f_type; /* Filter type */ enum f_sa_code sa_code; /* Static attribute id */ int readonly:1; /* Don't allow writing */ }; /* Filter l-value type */ enum f_lval_type { F_LVAL_VARIABLE, F_LVAL_PREFERENCE, F_LVAL_SA, F_LVAL_EA, }; /* Filter l-value */ struct f_lval { enum f_lval_type type; union { struct symbol *sym; struct f_dynamic_attr da; struct f_static_attr sa; }; }; /* IP prefix range structure */ struct f_prefix { net_addr net; /* The matching prefix must match this net */ u8 lo, hi; /* And its length must fit between lo and hi */ }; struct f_tree { struct f_tree *left, *right; struct f_val from, to; void *data; }; #define TRIE_STEP 4 #define TRIE_STACK_LENGTH 33 struct f_trie_node4 { ip4_addr addr, mask, accept; u16 plen; u16 local; struct f_trie_node4 *c[1 << TRIE_STEP]; }; struct f_trie_node6 { ip6_addr addr, mask, accept; u16 plen; u16 local; struct f_trie_node6 *c[1 << TRIE_STEP]; }; struct f_trie_node { union { struct f_trie_node4 v4; struct f_trie_node6 v6; }; }; struct f_trie { linpool *lp; u8 zero; s8 ipv4; /* -1 for undefined / empty */ u16 data_size; /* Additional data for each trie node */ u32 prefix_count; /* Works only for restricted tries (pxlen == l == h) */ struct f_trie_node root; /* Root trie node */ }; struct f_trie_walk_state { u8 ipv4; u8 accept_length; /* Current inter-node prefix position */ u8 start_pos; /* Initial prefix position in stack[0] */ u8 local_pos; /* Current intra-node prefix position */ u8 stack_pos; /* Current node in stack below */ const struct f_trie_node *stack[TRIE_STACK_LENGTH]; }; struct f_tree *f_new_tree(void); struct f_tree *build_tree(struct f_tree *); const struct f_tree *find_tree(const struct f_tree *t, const struct f_val *val); int same_tree(const struct f_tree *t0, const struct f_tree *t2); void tree_format(const struct f_tree *t, buffer *buf); void tree_walk(const struct f_tree *t, void (*hook)(const struct f_tree *, void *), void *data); struct f_trie *f_new_trie(linpool *lp, uint data_size); void *trie_add_prefix(struct f_trie *t, const net_addr *n, uint l, uint h); int trie_match_net(const struct f_trie *t, const net_addr *n); int trie_match_longest_ip4(const struct f_trie *t, const net_addr_ip4 *net, net_addr_ip4 *dst, ip4_addr *found0); int trie_match_longest_ip6(const struct f_trie *t, const net_addr_ip6 *net, net_addr_ip6 *dst, ip6_addr *found0); void trie_walk_init(struct f_trie_walk_state *s, const struct f_trie *t, const net_addr *from); int trie_walk_next(struct f_trie_walk_state *s, net_addr *net); int trie_same(const struct f_trie *t1, const struct f_trie *t2); void trie_format(const struct f_trie *t, buffer *buf); static inline int trie_match_next_longest_ip4(net_addr_ip4 *n, ip4_addr *found) { while (n->pxlen) { n->pxlen--; ip4_clrbit(&n->prefix, n->pxlen); if (ip4_getbit(*found, n->pxlen)) return 1; } return 0; } static inline int trie_match_next_longest_ip6(net_addr_ip6 *n, ip6_addr *found) { while (n->pxlen) { n->pxlen--; ip6_clrbit(&n->prefix, n->pxlen); if (ip6_getbit(*found, n->pxlen)) return 1; } return 0; } #define TRIE_WALK_TO_ROOT_IP4(trie, net, dst) ({ \ net_addr_ip4 dst; \ ip4_addr _found; \ for (int _n = trie_match_longest_ip4(trie, net, &dst, &_found); \ _n; \ _n = trie_match_next_longest_ip4(&dst, &_found)) #define TRIE_WALK_TO_ROOT_IP6(trie, net, dst) ({ \ net_addr_ip6 dst; \ ip6_addr _found; \ for (int _n = trie_match_longest_ip6(trie, net, &dst, &_found); \ _n; \ _n = trie_match_next_longest_ip6(&dst, &_found)) #define TRIE_WALK_TO_ROOT_END }) #define TRIE_WALK(trie, net, from) ({ \ net_addr net; \ struct f_trie_walk_state tws_; \ trie_walk_init(&tws_, trie, from); \ while (trie_walk_next(&tws_, &net)) #define TRIE_WALK_END }) #define F_CMP_ERROR 999 const char *f_type_name(enum f_type t); enum f_type f_type_element_type(enum f_type t); int val_same(const struct f_val *v1, const struct f_val *v2); int val_compare(const struct f_val *v1, const struct f_val *v2); void val_format(const struct f_val *v, buffer *buf); char *val_format_str(struct linpool *lp, const struct f_val *v); const char *val_dump(const struct f_val *v); static inline int val_is_ip4(const struct f_val *v) { return (v->type == T_IP) && ipa_is_ip4(v->val.ip); } int val_in_range(const struct f_val *v1, const struct f_val *v2); int clist_set_type(const struct f_tree *set, struct f_val *v); static inline int eclist_set_type(const struct f_tree *set) { return set->from.type == T_EC; } static inline int lclist_set_type(const struct f_tree *set) { return set->from.type == T_LC; } const struct adata *clist_filter(struct linpool *pool, const struct adata *list, const struct f_val *set, int pos); const struct adata *eclist_filter(struct linpool *pool, const struct adata *list, const struct f_val *set, int pos); const struct adata *lclist_filter(struct linpool *pool, const struct adata *list, const struct f_val *set, int pos); /* Special undef value for paths and clists */ static inline int undef_value(struct f_val v) { return ((v.type == T_PATH) || (v.type == T_CLIST) || (v.type == T_ECLIST) || (v.type == T_LCLIST)) && (v.val.ad == &null_adata); } extern const struct f_val f_const_empty_path, f_const_empty_clist, f_const_empty_eclist, f_const_empty_lclist; enum filter_return f_eval(const struct f_line *expr, struct linpool *tmp_pool, struct f_val *pres); #endif