/* * BIRD -- Router Advertisement Configuration * * * Can be freely distributed and used under the terms of the GNU GPL. */ CF_HDR #include "proto/radv/radv.h" CF_CTX struct radv_prefix_config *this_radv_prefix; struct radv_rdnss_config this_radv_rdnss; struct radv_dnssl_config this_radv_dnssl; list radv_dns_list; /* Used by radv_rdnss and radv_dnssl */ u8 radv_mult_val; /* Used by radv_mult for second return value */ CF_DEFINES #define RADV_CFG ((struct radv_config *) ctx->this_proto) #define RADV_IFACE ((struct radv_iface_config *) ctx->this_ipatt) #define RADV_PREFIX ctx->this_radv_prefix #define RADV_RDNSS (&ctx->this_radv_rdnss) #define RADV_DNSSL (&ctx->this_radv_dnssl) CF_DECLS CF_KEYWORDS(RADV, PREFIX, INTERFACE, MIN, MAX, RA, DELAY, INTERVAL, MANAGED, OTHER, CONFIG, LINGER, LINK, MTU, REACHABLE, TIME, RETRANS, TIMER, CURRENT, HOP, LIMIT, DEFAULT, VALID, PREFERRED, MULT, LIFETIME, SKIP, ONLINK, AUTONOMOUS, RDNSS, DNSSL, NS, DOMAIN, LOCAL, TRIGGER, SENSITIVE, PREFERENCE, LOW, MEDIUM, HIGH, PROPAGATE, ROUTE, ROUTES, RA_PREFERENCE, RA_LIFETIME) CF_ENUM(T_ENUM_RA_PREFERENCE, RA_PREF_, LOW, MEDIUM, HIGH) %type radv_mult radv_sensitive radv_preference CF_GRAMMAR proto: radv_proto ; radv_proto_start: proto_start RADV { ctx->this_proto = proto_config_new(ctx, &proto_radv, $1); init_list(&RADV_CFG->patt_list); init_list(&RADV_CFG->pref_list); init_list(&RADV_CFG->rdnss_list); init_list(&RADV_CFG->dnssl_list); }; radv_proto_item: proto_item | proto_channel | INTERFACE radv_iface | PREFIX radv_prefix { add_tail(&RADV_CFG->pref_list, NODE ctx->this_radv_prefix); } | RDNSS { init_list(&ctx->radv_dns_list); } radv_rdnss { add_tail_list(&RADV_CFG->rdnss_list, &ctx->radv_dns_list); } | DNSSL { init_list(&ctx->radv_dns_list); } radv_dnssl { add_tail_list(&RADV_CFG->dnssl_list, &ctx->radv_dns_list); } | TRIGGER net_ip6 { RADV_CFG->trigger = $2; } | PROPAGATE ROUTES bool { RADV_CFG->propagate_routes = $3; } ; radv_proto_opts: /* empty */ | radv_proto_opts radv_proto_item ';' ; radv_proto: radv_proto_start proto_name '{' radv_proto_opts '}'; radv_iface_start: { ctx->this_ipatt = cfg_allocz(sizeof(struct radv_iface_config)); add_tail(&RADV_CFG->patt_list, NODE ctx->this_ipatt); init_list(&ctx->this_ipatt->ipn_list); init_list(&RADV_IFACE->pref_list); init_list(&RADV_IFACE->rdnss_list); init_list(&RADV_IFACE->dnssl_list); RADV_IFACE->min_ra_int = (u32) -1; /* undefined */ RADV_IFACE->max_ra_int = DEFAULT_MAX_RA_INT; RADV_IFACE->min_delay = DEFAULT_MIN_DELAY; RADV_IFACE->prefix_linger_time = (u32) -1; RADV_IFACE->route_linger_time = (u32) -1; RADV_IFACE->current_hop_limit = DEFAULT_CURRENT_HOP_LIMIT; RADV_IFACE->default_lifetime = (u32) -1; RADV_IFACE->default_lifetime_sensitive = 1; RADV_IFACE->default_preference = RA_PREF_MEDIUM; RADV_IFACE->route_lifetime = (u32) -1; RADV_IFACE->route_lifetime_sensitive = 0; RADV_IFACE->route_preference = RA_PREF_MEDIUM; }; radv_iface_item: MIN RA INTERVAL expr { RADV_IFACE->min_ra_int = $4; if ($4 < 3) cf_error(ctx, "Min RA interval must be at least 3"); } | MAX RA INTERVAL expr { RADV_IFACE->max_ra_int = $4; if (($4 < 4) || ($4 > 1800)) cf_error(ctx, "Max RA interval must be in range 4-1800"); } | MIN DELAY expr { RADV_IFACE->min_delay = $3; if ($3 <= 0) cf_error(ctx, "Min delay must be positive"); } | MANAGED bool { RADV_IFACE->managed = $2; } | OTHER CONFIG bool { RADV_IFACE->other_config = $3; } | LINK MTU expr { RADV_IFACE->link_mtu = $3; } | REACHABLE TIME expr { RADV_IFACE->reachable_time = $3; if ($3 > 3600000) cf_error(ctx, "Reachable time must be in range 0-3600000"); } | RETRANS TIMER expr { RADV_IFACE->retrans_timer = $3; } | CURRENT HOP LIMIT expr { RADV_IFACE->current_hop_limit = $4; if ($4 > 255) cf_error(ctx, "Current hop limit must be in range 0-255"); } | DEFAULT LIFETIME expr radv_sensitive { RADV_IFACE->default_lifetime = $3; if ($3 > 9000) cf_error(ctx, "Default lifetime must be in range 0-9000"); if ($4 != (uint) -1) RADV_IFACE->default_lifetime_sensitive = $4; } | ROUTE LIFETIME expr radv_sensitive { RADV_IFACE->route_lifetime = $3; if ($4 != (uint) -1) RADV_IFACE->route_lifetime_sensitive = $4; } | DEFAULT PREFERENCE radv_preference { RADV_IFACE->default_preference = $3; } | ROUTE PREFERENCE radv_preference { RADV_IFACE->route_preference = $3; } | PREFIX LINGER TIME expr { RADV_IFACE->prefix_linger_time = $4; } | ROUTE LINGER TIME expr { RADV_IFACE->route_linger_time = $4; } | PREFIX radv_prefix { add_tail(&RADV_IFACE->pref_list, NODE ctx->this_radv_prefix); } | RDNSS { init_list(&ctx->radv_dns_list); } radv_rdnss { add_tail_list(&RADV_IFACE->rdnss_list, &ctx->radv_dns_list); } | DNSSL { init_list(&ctx->radv_dns_list); } radv_dnssl { add_tail_list(&RADV_IFACE->dnssl_list, &ctx->radv_dns_list); } | RDNSS LOCAL bool { RADV_IFACE->rdnss_local = $3; } | DNSSL LOCAL bool { RADV_IFACE->dnssl_local = $3; } ; radv_preference: LOW { $$ = RA_PREF_LOW; } | MEDIUM { $$ = RA_PREF_MEDIUM; } | HIGH { $$ = RA_PREF_HIGH; } radv_iface_finish: { struct radv_iface_config *ic = RADV_IFACE; if (ic->min_ra_int == (u32) -1) ic->min_ra_int = MAX_(ic->max_ra_int / 3, 3); if (ic->default_lifetime == (u32) -1) ic->default_lifetime = 3 * ic->max_ra_int; if (ic->route_lifetime == (u32) -1) ic->route_lifetime = 3 * ic->max_ra_int; if (ic->prefix_linger_time == (u32) -1) ic->prefix_linger_time = 3 * ic->max_ra_int; if (ic->route_linger_time == (u32) -1) ic->route_linger_time = 3 * ic->max_ra_int; if ((ic->min_ra_int > 3) && (ic->min_ra_int > (ic->max_ra_int * 3 / 4))) cf_error(ctx, "Min RA interval must be at most 3/4 * Max RA interval"); if ((ic->default_lifetime > 0) && (ic->default_lifetime < ic->max_ra_int)) cf_error(ctx, "Default lifetime must be either 0 or at least Max RA interval"); if ((ic->route_lifetime > 0) && (ic->route_lifetime < ic->max_ra_int)) cf_error(ctx, "Route lifetime must be either 0 or at least Max RA interval"); if ((ic->prefix_linger_time > 0) && (ic->prefix_linger_time < ic->max_ra_int)) cf_error(ctx, "Prefix linger time must be either 0 or at least Max RA interval"); if ((ic->route_linger_time > 0) && (ic->route_linger_time < ic->max_ra_int)) cf_error(ctx, "Route linger time must be either 0 or at least Max RA interval"); RADV_CFG->max_linger_time = MAX_(RADV_CFG->max_linger_time, ic->route_linger_time); }; radv_iface_opts: /* empty */ | radv_iface_opts radv_iface_item ';' ; radv_iface_opt_list: /* empty */ | '{' radv_iface_opts '}' ; radv_iface: radv_iface_start iface_patt_list_nopx radv_iface_opt_list radv_iface_finish; radv_prefix_start: net_ip6 { ctx->this_radv_prefix = cfg_allocz(sizeof(struct radv_prefix_config)); RADV_PREFIX->prefix = *(net_addr_ip6 *) &($1); RADV_PREFIX->onlink = 1; RADV_PREFIX->autonomous = 1; RADV_PREFIX->valid_lifetime = DEFAULT_VALID_LIFETIME; RADV_PREFIX->preferred_lifetime = DEFAULT_PREFERRED_LIFETIME; }; radv_prefix_item: SKIP bool { RADV_PREFIX->skip = $2; } | ONLINK bool { RADV_PREFIX->onlink = $2; } | AUTONOMOUS bool { RADV_PREFIX->autonomous = $2; } | VALID LIFETIME expr radv_sensitive { RADV_PREFIX->valid_lifetime = $3; if ($4 != (uint) -1) RADV_PREFIX->valid_lifetime_sensitive = $4; } | PREFERRED LIFETIME expr radv_sensitive { RADV_PREFIX->preferred_lifetime = $3; if ($4 != (uint) -1) RADV_PREFIX->preferred_lifetime_sensitive = $4; } ; radv_prefix_finish: { if (RADV_PREFIX->preferred_lifetime > RADV_PREFIX->valid_lifetime) cf_error(ctx, "Preferred lifetime must be at most Valid lifetime"); if (RADV_PREFIX->valid_lifetime_sensitive > RADV_PREFIX->preferred_lifetime_sensitive) cf_error(ctx, "Valid lifetime sensitive requires that Preferred lifetime is sensitive too"); }; radv_prefix_opts: /* empty */ | radv_prefix_opts radv_prefix_item ';' ; radv_prefix_opt_list: /* empty */ | '{' radv_prefix_opts '}' ; radv_prefix: radv_prefix_start radv_prefix_opt_list radv_prefix_finish; radv_rdnss_node: ipa { struct radv_rdnss_config *cf = cfg_allocz(sizeof(struct radv_rdnss_config)); add_tail(&ctx->radv_dns_list, NODE cf); cf->server = $1; cf->lifetime_mult = DEFAULT_DNS_LIFETIME_MULT; }; radv_rdnss_start: { RADV_RDNSS->lifetime = 0; RADV_RDNSS->lifetime_mult = DEFAULT_DNS_LIFETIME_MULT; }; radv_rdnss_item: | NS radv_rdnss_node | LIFETIME radv_mult { RADV_RDNSS->lifetime = $2; RADV_RDNSS->lifetime_mult = ctx->radv_mult_val; } ; radv_rdnss_finish: { if (EMPTY_LIST(ctx->radv_dns_list)) cf_error(ctx, "No nameserver in RDNSS section"); struct radv_rdnss_config *cf; WALK_LIST(cf, ctx->radv_dns_list) { cf->lifetime = RADV_RDNSS->lifetime; cf->lifetime_mult = RADV_RDNSS->lifetime_mult; } }; radv_rdnss_opts: /* empty */ | radv_rdnss_opts radv_rdnss_item ';' ; radv_rdnss: radv_rdnss_node | '{' radv_rdnss_start radv_rdnss_opts '}' radv_rdnss_finish ; radv_dnssl_node: TEXT { struct radv_dnssl_config *cf = cfg_allocz(sizeof(struct radv_dnssl_config)); add_tail(&ctx->radv_dns_list, NODE cf); cf->domain = $1; cf->lifetime_mult = DEFAULT_DNS_LIFETIME_MULT; if (radv_process_domain(cf) < 0) cf_error(ctx, "Invalid domain dame"); }; radv_dnssl_start: { RADV_DNSSL->lifetime = 0; RADV_DNSSL->lifetime_mult = DEFAULT_DNS_LIFETIME_MULT; }; radv_dnssl_item: | DOMAIN radv_dnssl_node | LIFETIME radv_mult { RADV_DNSSL->lifetime = $2; RADV_DNSSL->lifetime_mult = ctx->radv_mult_val; } ; radv_dnssl_finish: { if (EMPTY_LIST(ctx->radv_dns_list)) cf_error(ctx, "No domain in DNSSL section"); struct radv_dnssl_config *cf; WALK_LIST(cf, ctx->radv_dns_list) { cf->lifetime = RADV_DNSSL->lifetime; cf->lifetime_mult = RADV_DNSSL->lifetime_mult; } }; radv_dnssl_opts: /* empty */ | radv_dnssl_opts radv_dnssl_item ';' ; radv_dnssl: radv_dnssl_node | '{' radv_dnssl_start radv_dnssl_opts '}' radv_dnssl_finish ; radv_mult: expr { $$ = $1; ctx->radv_mult_val = 0; } | MULT expr { $$ = 0; ctx->radv_mult_val = $2; if (($2 < 1) || ($2 > 254)) cf_error(ctx, "Multiplier must be in range 1-254"); } ; radv_sensitive: /* empty */ { $$ = (uint) -1; } | SENSITIVE bool { $$ = $2; } ; dynamic_attr: RA_PREFERENCE { $$ = f_new_dynamic_attr(EAF_TYPE_INT, T_ENUM_RA_PREFERENCE, EA_RA_PREFERENCE); } ; dynamic_attr: RA_LIFETIME { $$ = f_new_dynamic_attr(EAF_TYPE_INT, T_INT, EA_RA_LIFETIME); } ; CF_CODE CF_END