/* * BIRD Internet Routing Daemon -- Network Interfaces * * (c) 1998--2000 Martin Mares * * Can be freely distributed and used under the terms of the GNU GPL. */ #ifndef _BIRD_IFACE_H_ #define _BIRD_IFACE_H_ #include "lib/lists.h" extern list iface_list; struct proto; struct pool; struct ifa { /* Interface address */ node n; struct iface *iface; /* Interface this address belongs to */ net_addr prefix; /* Network prefix */ ip_addr ip; /* IP address of this host */ ip_addr brd; /* Broadcast address */ ip_addr opposite; /* Opposite end of a point-to-point link */ unsigned scope; /* Interface address scope */ unsigned flags; /* Analogous to iface->flags */ }; struct iface { node n; char name[16]; unsigned flags; unsigned mtu; unsigned index; /* OS-dependent interface index */ unsigned vifi; /* VIF index for multicast routing */ list addrs; /* Addresses assigned to this interface */ struct ifa *addr; /* Primary address */ list neighbors; /* All neighbors on this interface */ }; #define IF_UP 1 /* IF_ADMIN_UP and IP address known */ #define IF_MULTIACCESS 2 #define IF_BROADCAST 4 #define IF_MULTICAST 8 #define IF_SHUTDOWN 0x10 /* Interface disappeared */ #define IF_LOOPBACK 0x20 #define IF_IGNORE 0x40 /* Not to be used by routing protocols (loopbacks etc.) */ #define IF_ADMIN_UP 0x80 /* Administrative up (e.g. IFF_UP in Linux) */ #define IF_LINK_UP 0x100 /* Link available (e.g. IFF_LOWER_UP in Linux) */ #define IF_VIFI_ASSIGNED 0x200 /* This device is set up for multicast routing */ #define IA_PRIMARY 0x10000 /* This address is primary */ #define IA_SECONDARY 0x20000 /* This address has been reported as secondary by the kernel */ #define IA_PEER 0x40000 /* A peer/ptp address */ #define IA_HOST 0x80000 /* A host/loopback address */ #define IA_FLAGS 0xff0000 /* * There are three kinds of addresses in BIRD: * - Standard (prefix-based) addresses, these may define ifa.opposite (for /30 or /31). * - Peer/ptp addresses, without common prefix for ifa.ip and ifa.opposite. * ifa.opposite is defined and ifa.prefix/pxlen == ifa.opposite/32 (for simplicity). * - Host addresses, with ifa.prefix/pxlen == ifa.ip/32 (or /128). * May be considered a special case of standard addresses. * * Peer addresses (AFAIK) do not exist in IPv6. Linux also supports generalized peer * addresses (with pxlen < 32 and ifa.ip outside prefix), we do not support that. */ #define IF_JUST_CREATED 0x10000000 /* Send creation event as soon as possible */ #define IF_TMP_DOWN 0x20000000 /* Temporary shutdown due to interface reconfiguration */ #define IF_UPDATED 0x40000000 /* Touched in last scan */ /* Interface change events */ #define IF_CHANGE_UP 1 #define IF_CHANGE_DOWN 2 #define IF_CHANGE_MTU 4 #define IF_CHANGE_CREATE 8 /* Seen this interface for the first time */ #define IF_CHANGE_LINK 0x10 #define IF_CHANGE_TOO_MUCH 0x40000000 /* Used internally */ void if_init(void); void if_dump(struct iface *); void if_dump_all(void); void ifa_dump(struct ifa *); void if_show(void); void if_show_summary(void); struct iface *if_update(struct iface *); void if_delete(struct iface *old); struct ifa *ifa_find_match(struct iface *i, u32 mask); struct ifa *ifa_update(struct ifa *); void ifa_delete(struct ifa *); void if_start_update(void); void if_end_partial_update(struct iface *); void if_end_update(void); void if_flush_ifaces(struct proto *p); void if_feed_baby(struct proto *); struct iface *if_find_by_index(unsigned); struct iface *if_find_by_name(char *); struct iface *if_get_by_name(char *); void ifa_recalc_all_primary_addresses(void); static inline int if_get_vifi(struct iface *iface) { return (iface && (iface->flags & IF_VIFI_ASSIGNED)) ? iface->vifi : -1; } /* The Neighbor Cache */ typedef struct neighbor { node n; /* Node in global neighbor list */ node if_n; /* Node in per-interface neighbor list */ ip_addr addr; /* Address of the neighbor */ struct ifa *ifa; /* Ifa on related iface */ struct iface *iface; /* Interface it's connected to */ struct proto *proto; /* Protocol this belongs to */ void *data; /* Protocol-specific data */ unsigned aux; /* Protocol-specific data */ unsigned flags; int scope; /* Address scope, -1 for unreachable sticky neighbors, SCOPE_HOST when it's our own address */ } neighbor; #define NEF_STICKY 1 #define NEF_ONLINK 2 #define NEF_BIND 4 /* Used internally for neighbors bound to an iface */ neighbor *neigh_find(struct proto *, ip_addr *, unsigned flags); neighbor *neigh_find2(struct proto *p, ip_addr *a, struct iface *ifa, unsigned flags); static inline int neigh_connected_to(struct proto *p, ip_addr *a, struct iface *i) { neighbor *n = neigh_find(p, a, 0); return n && n->iface == i; } void neigh_dump(neighbor *); void neigh_dump_all(void); void neigh_prune(void); void neigh_if_up(struct iface *); void neigh_if_down(struct iface *); void neigh_if_link(struct iface *); void neigh_ifa_update(struct ifa *); void neigh_init(struct pool *); /* * Interface Pattern Lists */ struct iface_patt_node { node n; int positive; byte *pattern; net_addr prefix; }; struct iface_patt { node n; list ipn_list; /* A list of struct iface_patt_node */ /* Protocol-specific data follow after this structure */ }; int iface_patt_match(struct iface_patt *ifp, struct iface *i, struct ifa *a); struct iface_patt *iface_patt_find(list *l, struct iface *i, struct ifa *a); int iface_patts_equal(list *, list *, int (*)(struct iface_patt *, struct iface_patt *)); u32 if_choose_router_id(struct iface_patt *mask, u32 old_id); #endif