/* $NetBSD: prune.h,v 1.2 1995/10/09 03:51:52 thorpej Exp $ */ /* * The mrouted program is covered by the license in the accompanying file * named "LICENSE". Use of the mrouted program represents acceptance of * the terms and conditions listed in that file. * * The mrouted program is COPYRIGHT 1989 by The Board of Trustees of * Leland Stanford Junior University. */ /* * Group table * * Each group entry is a member of two doubly-linked lists: * * a) A list hanging off of the routing table entry for this source (rt_groups) * sorted by group address under the routing entry (gt_next, gt_prev) * b) An independent list pointed to by kernel_table, which is a list of * active source,group's (gt_gnext, gt_gprev). * */ struct gtable { struct gtable *gt_next; /* pointer to the next entry */ struct gtable *gt_prev; /* back pointer for linked list */ struct gtable *gt_gnext; /* fwd pointer for group list */ struct gtable *gt_gprev; /* rev pointer for group list */ u_int32_t gt_mcastgrp; /* multicast group associated */ vifbitmap_t gt_scope; /* scoped interfaces */ u_char gt_ttls[MAXVIFS]; /* ttl vector for forwarding */ vifbitmap_t gt_grpmems; /* forw. vifs for src, grp */ int gt_prsent_timer; /* prune timer for this group */ int gt_timer; /* timer for this group entry */ time_t gt_ctime; /* time of entry creation */ u_char gt_grftsnt; /* graft sent/retransmit timer */ struct stable *gt_srctbl; /* source table */ struct ptable *gt_pruntbl; /* prune table */ struct rtentry *gt_route; /* parent route */ }; /* * Source table * * When source-based prunes exist, there will be a struct ptable here as well. */ struct stable { struct stable *st_next; /* pointer to the next entry */ u_int32_t st_origin; /* host origin of multicasts */ u_long st_pktcnt; /* packet count for src-grp entry */ }; /* * structure to store incoming prunes. Can hang off of either group or source. */ struct ptable { struct ptable *pt_next; /* pointer to the next entry */ u_int32_t pt_router; /* router that sent this prune */ vifi_t pt_vifi; /* vif prune received on */ int pt_timer; /* timer for prune */ }; /* * The packet format for a traceroute request. */ struct tr_query { u_int32_t tr_src; /* traceroute source */ u_int32_t tr_dst; /* traceroute destination */ u_int32_t tr_raddr; /* traceroute response address */ #if defined(BYTE_ORDER) && (BYTE_ORDER == LITTLE_ENDIAN) struct { u_int qid : 24; /* traceroute query id */ u_int ttl : 8; /* traceroute response ttl */ } q; #else struct { u_int ttl : 8; /* traceroute response ttl */ u_int qid : 24; /* traceroute query id */ } q; #endif /* BYTE_ORDER */ }; #define tr_rttl q.ttl #define tr_qid q.qid /* * Traceroute response format. A traceroute response has a tr_query at the * beginning, followed by one tr_resp for each hop taken. */ struct tr_resp { u_int32_t tr_qarr; /* query arrival time */ u_int32_t tr_inaddr; /* incoming interface address */ u_int32_t tr_outaddr; /* outgoing interface address */ u_int32_t tr_rmtaddr; /* parent address in source tree */ u_int32_t tr_vifin; /* input packet count on interface */ u_int32_t tr_vifout; /* output packet count on interface */ u_int32_t tr_pktcnt; /* total incoming packets for src-grp */ u_char tr_rproto; /* routing protocol deployed on router */ u_char tr_fttl; /* ttl required to forward on outvif */ u_char tr_smask; /* subnet mask for src addr */ u_char tr_rflags; /* forwarding error codes */ }; /* defs within mtrace */ #define QUERY 1 #define RESP 2 #define QLEN sizeof(struct tr_query) #define RLEN sizeof(struct tr_resp) /* fields for tr_rflags (forwarding error codes) */ #define TR_NO_ERR 0 #define TR_WRONG_IF 1 #define TR_PRUNED 2 #define TR_OPRUNED 3 #define TR_SCOPED 4 #define TR_NO_RTE 5 #define TR_NO_FWD 7 #define TR_NO_SPACE 0x81 #define TR_OLD_ROUTER 0x82 /* fields for tr_rproto (routing protocol) */ #define PROTO_DVMRP 1 #define PROTO_MOSPF 2 #define PROTO_PIM 3 #define PROTO_CBT 4 #define MASK_TO_VAL(x, i) { \ u_int32_t _x = ntohl(x); \ (i) = 0; \ while ((_x) << (i)) \ (i)++; \ }; #define VAL_TO_MASK(x, i) { \ x = htonl(~((1 << (32 - (i))) - 1)); \ }; #define NBR_VERS(n) (((n)->al_pv << 8) + (n)->al_mv)