/* * BIRD Internet Routing Daemon -- Attribute Operations * * (c) 2000 Martin Mares * * Can be freely distributed and used under the terms of the GNU GPL. */ #ifndef _BIRD_ATTRS_H_ #define _BIRD_ATTRS_H_ #include #include "lib/unaligned.h" typedef struct adata { uint length; /* Length of data */ byte data[0]; } adata; #define ADATA_SIZE(s) BIRD_CPU_ALIGN(sizeof(struct adata) + s) extern const adata null_adata; /* adata of length 0 */ static inline struct adata * lp_alloc_adata(struct linpool *pool, uint len) { struct adata *ad = lp_alloc(pool, sizeof(struct adata) + len); ad->length = len; return ad; } static inline struct adata * lp_store_adata(struct linpool *pool, const void *buf, uint len) { struct adata *ad = lp_alloc_adata(pool, len); memcpy(ad->data, buf, len); return ad; } #define tmp_alloc_adata(len) lp_alloc_adata(tmp_linpool, len) #define tmp_store_adata(buf, len) lp_store_adata(tmp_linpool, buf, len) #define tmp_copy_adata(ad) tmp_store_adata((ad)->data, (ad)->length) static inline int adata_same(const struct adata *a, const struct adata *b) { return (!a && !b) || (a->length == b->length && !memcmp(a->data, b->data, a->length)); } /* a-path.c */ #define AS_PATH_SET 1 /* Types of path segments */ #define AS_PATH_SEQUENCE 2 #define AS_PATH_CONFED_SEQUENCE 3 #define AS_PATH_CONFED_SET 4 #define AS_PATH_MAXLEN 10000 #define AS_TRANS 23456 /* AS_TRANS is used when we need to store 32bit ASN larger than 0xFFFF * to 16bit slot (like in 16bit AS_PATH). See RFC 4893 for details */ struct f_val; struct f_tree; int as_path_valid(byte *data, uint len, int bs, int sets, int confed, char *err, uint elen); int as_path_16to32(byte *dst, const byte *src, uint len); int as_path_32to16(byte *dst, const byte *src, uint len); int as_path_contains_as4(const struct adata *path); int as_path_contains_confed(const struct adata *path); struct adata *as_path_strip_confed(struct linpool *pool, const struct adata *op); struct adata *as_path_prepend2(struct linpool *pool, const struct adata *op, int seq, u32 as); struct adata *as_path_to_old(struct linpool *pool, const struct adata *path); struct adata *as_path_cut(struct linpool *pool, const struct adata *path, uint num); const struct adata *as_path_merge(struct linpool *pool, const struct adata *p1, const struct adata *p2); void as_path_format(const struct adata *path, byte *buf, uint size) ACCESS_WRITE(2, 3); int as_path_getlen(const struct adata *path); int as_path_getlen_int(const struct adata *path, int bs); int as_path_get_first(const struct adata *path, u32 *orig_as); int as_path_get_first_regular(const struct adata *path, u32 *last_as); int as_path_get_last(const struct adata *path, u32 *last_as); u32 as_path_get_last_nonaggregated(const struct adata *path); int as_path_contains(const struct adata *path, u32 as, int min); int as_path_match_set(const struct adata *path, const struct f_tree *set); const struct adata *as_path_filter(struct linpool *pool, const struct adata *path, const struct f_val *set, int pos); int as_path_compare(const struct adata *path1, const struct adata *path2); int as_path_walk(const struct adata *path, uint *pos, uint *val); static inline struct adata *as_path_prepend(struct linpool *pool, const struct adata *path, u32 as) { return as_path_prepend2(pool, path, AS_PATH_SEQUENCE, as); } #define PM_ASN 0 #define PM_QUESTION 1 #define PM_ASTERISK 2 #define PM_ASN_EXPR 3 #define PM_ASN_RANGE 4 #define PM_ASN_SET 5 #define PM_LOOP 6 struct f_path_mask_item { union { u32 asn; /* PM_ASN */ const struct f_line *expr; /* PM_ASN_EXPR */ const struct f_tree *set; /* PM_ASN_SET */ struct { /* PM_ASN_RANGE */ u32 from; u32 to; }; }; int kind; }; struct f_path_mask { uint len; struct f_path_mask_item item[0]; }; int as_path_match(const struct adata *path, const struct f_path_mask *mask); /* Counterparts to appropriate as_path_* functions */ static inline int aggregator_16to32(byte *dst, const byte *src) { put_u32(dst, get_u16(src)); memcpy(dst+4, src+2, 4); return 8; } static inline int aggregator_32to16(byte *dst, const byte *src) { put_u16(dst, get_u32(src)); memcpy(dst+2, src+4, 4); return 6; } static inline int aggregator_contains_as4(const struct adata *a) { return get_u32(a->data) > 0xFFFF; } static inline struct adata * aggregator_to_old(struct linpool *pool, const struct adata *a) { struct adata *d = lp_alloc_adata(pool, 8); put_u32(d->data, AS_TRANS); memcpy(d->data + 4, a->data + 4, 4); return d; } /* a-set.c */ /* Extended Community subtypes (kinds) */ enum ec_subtype { EC_RT = 0x0002, EC_RO = 0x0003, EC_GENERIC = 0xFFFF, }; static inline const char *ec_subtype_str(const enum ec_subtype ecs) { switch (ecs) { case EC_RT: return "rt"; case EC_RO: return "ro"; default: return NULL; } } /* Check for EC_RT subtype within different types (0-2) */ static inline int ec_type_is_rt(uint type) { return (type == EC_RT) || (type == (0x0100 | EC_RT)) || (type == (0x0200 | EC_RT)); } /* Transitive bit (for first u32 half of EC) */ #define EC_TBIT 0x40000000 #define ECOMM_LENGTH 8 static inline int int_set_get_size(const struct adata *list) { return list->length / 4; } static inline int ec_set_get_size(const struct adata *list) { return list->length / 8; } static inline int lc_set_get_size(const struct adata *list) { return list->length / 12; } static inline u32 *int_set_get_data(const struct adata *list) { return (u32 *) list->data; } static inline u32 ec_hi(u64 ec) { return ec >> 32; } static inline u32 ec_lo(u64 ec) { return ec; } static inline u64 ec_get(const u32 *l, int i) { return (((u64) l[i]) << 32) | l[i+1]; } static inline void ec_put(u32 *l, int i, u64 val) { l[i] = ec_hi(val); l[i+1] = ec_lo(val); } /* RFC 4360 3.1. Two-Octet AS Specific Extended Community */ static inline u64 ec_as2(enum ec_subtype kind, u64 key, u64 val) { return (((u64) kind | 0x0000) << 48) | (key << 32) | val; } /* RFC 5668 4-Octet AS Specific BGP Extended Community */ static inline u64 ec_as4(enum ec_subtype kind, u64 key, u64 val) { return (((u64) kind | 0x0200) << 48) | (key << 16) | val; } /* RFC 4360 3.2. IPv4 Address Specific Extended Community */ static inline u64 ec_ip4(enum ec_subtype kind, u64 key, u64 val) { return (((u64) kind | 0x0100) << 48) | (key << 16) | val; } static inline u64 ec_generic(u64 key, u64 val) { return (key << 32) | val; } /* Large community value */ typedef struct lcomm { u32 asn; u32 ldp1; u32 ldp2; } lcomm; #define LCOMM_LENGTH 12 static inline lcomm lc_get(const u32 *l, int i) { return (lcomm) { l[i], l[i+1], l[i+2] }; } static inline void lc_put(u32 *l, lcomm v) { l[0] = v.asn; l[1] = v.ldp1; l[2] = v.ldp2; } static inline int lc_match(const u32 *l, int i, lcomm v) { return (l[i] == v.asn && l[i+1] == v.ldp1 && l[i+2] == v.ldp2); } static inline u32 *lc_copy(u32 *dst, const u32 *src) { memcpy(dst, src, LCOMM_LENGTH); return dst + 3; } enum isf_way { ISF_NUMBERS, ISF_COMMUNITY_LIST, ISF_ROUTER_ID, }; int int_set_format(const struct adata *set, enum isf_way way, int from, byte *buf, uint size) ACCESS_WRITE(4, 5); int ec_format(byte *buf, u64 ec); int ec_set_format(const struct adata *set, int from, byte *buf, uint size) ACCESS_WRITE(3, 4); int lc_format(byte *buf, lcomm lc); int lc_set_format(const struct adata *set, int from, byte *buf, uint size) ACCESS_WRITE(3, 4); int int_set_contains(const struct adata *list, u32 val); int ec_set_contains(const struct adata *list, u64 val); int lc_set_contains(const struct adata *list, lcomm val); const struct adata *int_set_prepend(struct linpool *pool, const struct adata *list, u32 val); const struct adata *int_set_add(struct linpool *pool, const struct adata *list, u32 val); const struct adata *ec_set_add(struct linpool *pool, const struct adata *list, u64 val); const struct adata *lc_set_add(struct linpool *pool, const struct adata *list, lcomm val); const struct adata *int_set_del(struct linpool *pool, const struct adata *list, u32 val); const struct adata *ec_set_del(struct linpool *pool, const struct adata *list, u64 val); const struct adata *lc_set_del(struct linpool *pool, const struct adata *list, lcomm val); const struct adata *int_set_union(struct linpool *pool, const struct adata *l1, const struct adata *l2); const struct adata *ec_set_union(struct linpool *pool, const struct adata *l1, const struct adata *l2); const struct adata *lc_set_union(struct linpool *pool, const struct adata *l1, const struct adata *l2); struct adata *ec_set_del_nontrans(struct linpool *pool, const struct adata *set); struct adata *int_set_sort(struct linpool *pool, const struct adata *src); struct adata *ec_set_sort(struct linpool *pool, const struct adata *src); struct adata *lc_set_sort(struct linpool *pool, const struct adata *src); int int_set_min(const struct adata *list, u32 *val); int ec_set_min(const struct adata *list, u64 *val); int lc_set_min(const struct adata *list, lcomm *val); int int_set_max(const struct adata *list, u32 *val); int ec_set_max(const struct adata *list, u64 *val); int lc_set_max(const struct adata *list, lcomm *val); int int_set_walk(const struct adata *list, uint *pos, u32 *val); int ec_set_walk(const struct adata *list, uint *pos, u64 *val); int lc_set_walk(const struct adata *list, uint *pos, lcomm *val); void ec_set_sort_x(struct adata *set); /* Sort in place */ #endif