/* * BIRD -- Static Protocol Configuration * * (c) 1998--1999 Martin Mares * * Can be freely distributed and used under the terms of the GNU GPL. */ CF_HDR #include "proto/static/static.h" CF_DEFINES #define STATIC_CFG ((struct static_config *) this_proto) static struct static_route *this_srt, *this_snh; static struct f_inst *this_srt_cmds, *this_srt_last_cmd; static uint this_srt_aspa_max; static struct static_route * static_nexthop_new(void) { struct static_route *nh = this_srt; if (this_snh) { /* Additional next hop */ nh = cfg_allocz(sizeof(struct static_route)); nh->net = this_srt->net; this_snh->mp_next = nh; } nh->dest = RTD_UNICAST; nh->mp_head = this_srt; return nh; }; static void static_route_finish(void) { if (net_type_match(this_srt->net, NB_DEST) == !this_srt->dest) cf_error("Unexpected or missing nexthop/type"); this_srt->cmds = f_linearize(this_srt_cmds, 0); } CF_DECLS CF_KEYWORDS(STATIC, ROUTE, VIA, DROP, REJECT, PROHIBIT, PREFERENCE, CHECK, LINK, DEV) CF_KEYWORDS(ONLINK, WEIGHT, RECURSIVE, IGP, TABLE, BLACKHOLE, UNREACHABLE, BFD, MPLS) CF_KEYWORDS(TRANSIT, PROVIDERS) CF_GRAMMAR proto: static_proto '}' ; static_proto_start: proto_start STATIC { this_proto = proto_config_new(&proto_static, $1); init_list(&STATIC_CFG->routes); }; static_proto: static_proto_start proto_name '{' | static_proto proto_item ';' | static_proto proto_channel ';' { this_proto->net_type = $2->net_type; } | static_proto mpls_channel ';' | static_proto CHECK LINK bool ';' { STATIC_CFG->check_link = $4; } | static_proto IGP TABLE rtable ';' { if ($4->addr_type == NET_IP4) STATIC_CFG->igp_table_ip4 = $4; else if ($4->addr_type == NET_IP6) STATIC_CFG->igp_table_ip6 = $4; else cf_error("Incompatible IGP table type"); } | static_proto stat_route stat_route_opt_list ';' { static_route_finish(); } ; stat_nexthop: VIA ipa ipa_scope { this_snh = static_nexthop_new(); this_snh->via = $2; this_snh->iface = $3; } | VIA TEXT { this_snh = static_nexthop_new(); this_snh->via = IPA_NONE; this_snh->iface = if_get_by_name($2); } | stat_nexthop DEV TEXT { this_snh->iface = if_get_by_name($3); } | stat_nexthop MPLS label_stack { this_snh->mls = $3; } | stat_nexthop ONLINK bool { this_snh->onlink = $3; if (this_snh->use_bfd && this_snh->onlink) cf_error("Options 'bfd' and 'onlink' cannot be combined"); } | stat_nexthop WEIGHT expr { this_snh->weight = $3 - 1; if (($3<1) || ($3>256)) cf_error("Weight must be in range 1-256"); } | stat_nexthop BFD bool { this_snh->use_bfd = $3; cf_check_bfd($3); if (this_snh->use_bfd && this_snh->onlink) cf_error("Options 'bfd' and 'onlink' cannot be combined"); } ; stat_nexthops: stat_nexthop | stat_nexthops stat_nexthop ; stat_mpls: /* empty */ | MPLS expr { this_srt->mpls_label = $2; if ($2 >= MPLS_MAX_LABEL) cf_error("MPLS label must be less than 2^20"); } ; stat_route0: ROUTE net_any { this_srt = cfg_allocz(sizeof(struct static_route)); add_tail(&STATIC_CFG->routes, &this_srt->n); this_srt->net = $2; this_srt->mpls_label = (uint) -1; this_srt_cmds = NULL; this_srt_last_cmd = NULL; this_srt->mp_next = NULL; this_snh = NULL; } stat_mpls ; stat_route: stat_route0 stat_nexthops | stat_route0 RECURSIVE ipa { this_srt->dest = RTDX_RECURSIVE; this_srt->via = $3; } | stat_route0 RECURSIVE ipa MPLS label_stack { this_srt->dest = RTDX_RECURSIVE; this_srt->via = $3; this_srt->mls = $5; } | stat_route0 { this_srt->dest = RTD_NONE; } | stat_route0 DROP { this_srt->dest = RTD_BLACKHOLE; } | stat_route0 REJECT { this_srt->dest = RTD_UNREACHABLE; } | stat_route0 BLACKHOLE { this_srt->dest = RTD_BLACKHOLE; } | stat_route0 UNREACHABLE { this_srt->dest = RTD_UNREACHABLE; } | stat_route0 PROHIBIT { this_srt->dest = RTD_PROHIBIT; } | stat_route0 PROVIDERS { if (this_srt->net->type != NET_ASPA) cf_error("Provider settings available only for ASPA"); this_srt->aspa = cfg_alloc(sizeof (adata) + (this_srt_aspa_max = 8) * sizeof (u32)); this_srt->aspa->length = 0; } stat_aspa_providers | stat_route0 TRANSIT { if (this_srt->net->type != NET_ASPA) cf_error("Transit settings available only for ASPA"); /* Allocate an explicit zero */ this_srt->aspa = cfg_alloc(sizeof (adata) + sizeof (u32)); this_srt->aspa->length = sizeof(u32); ((u32 *) this_srt->aspa->data)[0] = 0; } ; stat_aspa_provider: NUM { if (this_srt->aspa->length == this_srt_aspa_max * sizeof(u32)) { adata *new = cfg_alloc(sizeof (adata) + (this_srt_aspa_max * 2) * sizeof (u32)); memcpy(new, this_srt->aspa, this_srt->aspa->length + sizeof(adata)); this_srt->aspa = new; this_srt_aspa_max *= 2; } ((u32 *) this_srt->aspa->data)[this_srt->aspa->length / sizeof(u32)] = $1; this_srt->aspa->length += sizeof(u32); } stat_aspa_providers: stat_aspa_provider | stat_aspa_providers ',' stat_aspa_provider ; stat_route_item: cmd { if (this_srt_last_cmd) this_srt_last_cmd->next = $1; else this_srt_cmds = $1; this_srt_last_cmd = $1; } ; stat_route_opts: /* empty */ | stat_route_opts stat_route_item ; stat_route_opt_list: /* empty */ | '{' stat_route_opts '}' ; CF_CLI(SHOW STATIC, optproto, [], [[Show details of static protocol]]) { PROTO_WALK_CMD($3, &proto_static, p) static_show(p); } ; CF_CODE CF_END