/* defs.h 4.10 82/06/10 */ /* * Internal data structure definitions for * user routing process. Based on Xerox NS * protocol specs with mods relevant to more * general addressing scheme. */ #include /* * An ``interface'' is similar to an ifnet structure, * except it doesn't contain q'ing info, and it also * handles ``logical'' interfaces (remote gateways * that we want to keep polling even if they go down). * The list of interfaces which we maintain is used * in supplying the gratuitous routing table updates. */ struct interface { struct interface *int_next; struct sockaddr int_addr; /* address on this host */ union { struct sockaddr intu_broadaddr; struct sockaddr intu_dstaddr; } int_intu; #define int_broadaddr int_intu.intu_broadaddr /* broadcast address */ #define int_dstaddr int_intu.intu_dstaddr /* other end of p-to-p link */ int int_metric; /* init's routing entry */ int int_flags; /* see below */ int int_net; /* network # */ }; /* * 0x1 to 0x10 are reused from the kernel's ifnet definitions, * the others agree with the RTS_ flags defined below */ #define IFF_UP 0x1 /* interface is up */ #define IFF_BROADCAST 0x2 /* broadcast address valid */ #define IFF_DEBUG 0x4 /* turn on debugging */ #define IFF_ROUTE 0x8 /* routing entry installed */ #define IFF_POINTOPOINT 0x10 /* interface is point-to-point link */ #define IFF_PASSIVE 0x20 /* can't tell if up/down */ #define IFF_INTERFACE 0x40 /* hardware interface */ #define IFF_REMOTE 0x80 /* interface isn't on this machine */ /* * Routing table structure; differs a bit from kernel tables. * * Note: the union below must agree in the first 4 members * so the ioctl's will work. */ struct rthash { struct rt_entry *rt_forw; struct rt_entry *rt_back; }; struct rt_entry { struct rt_entry *rt_forw; struct rt_entry *rt_back; union { struct rtentry rtu_rt; struct { u_long rtu_hash; struct sockaddr rtu_dst; struct sockaddr rtu_router; short rtu_flags; short rtu_state; int rtu_timer; int rtu_metric; struct interface *rtu_ifp; } rtu_entry; } rt_rtu; }; #define rt_rt rt_rtu.rtu_rt /* pass to ioctl */ #define rt_hash rt_rtu.rtu_entry.rtu_hash /* for net or host */ #define rt_dst rt_rtu.rtu_entry.rtu_dst /* match value */ #define rt_router rt_rtu.rtu_entry.rtu_router /* who to forward to */ #define rt_flags rt_rtu.rtu_entry.rtu_flags /* kernel flags */ #define rt_timer rt_rtu.rtu_entry.rtu_timer /* for invalidation */ #define rt_state rt_rtu.rtu_entry.rtu_state /* see below */ #define rt_metric rt_rtu.rtu_entry.rtu_metric /* cost of route */ #define rt_ifp rt_rtu.rtu_entry.rtu_ifp /* interface to take */ #define ROUTEHASHSIZ 19 /* * "State" of routing table entry. */ #define RTS_CHANGED 0x1 /* route has been altered recently */ #define RTS_PASSIVE 0x20 /* don't time out route */ #define RTS_INTERFACE 0x40 /* route is for network interface */ #define RTS_REMOTE 0x80 /* route is for ``remote'' entity */ struct rthash nethash[ROUTEHASHSIZ], hosthash[ROUTEHASHSIZ]; struct rt_entry *rtlookup(), *rtfind(); /* * Per address family routines. */ struct afswitch { int (*af_hash)(); /* returns keys based on address */ int (*af_netmatch)(); /* verifies net # matching */ int (*af_output)(); /* interprets address for sending */ int (*af_portmatch)(); /* packet from some other router? */ int (*af_portcheck)(); /* packet from priviledged peer? */ int (*af_checkhost)(); /* tells if address for host or net */ int (*af_canon)(); /* canonicalize address for compares */ }; /* * Structure returned by af_hash routines. */ struct afhash { u_int afh_hosthash; /* host based hash */ u_int afh_nethash; /* network based hash */ }; struct afswitch afswitch[AF_MAX]; /* table proper */ /* * When we find any interfaces marked down we rescan the * kernel every CHECK_INTERVAL seconds to see if they've * come up. */ #define CHECK_INTERVAL (1*60)