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bird/proto/radv/config.Y
Ondrej Zajicek (work) 70a4320bdd RAdv: Allow solicited RAs to be sent as unicast
Add option to send solicited router advertisements as unicast directly
to soliciting nodes instead of as multicast to all-nodes group.
2019-08-12 00:43:19 +02:00

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/*
* BIRD -- Router Advertisement Configuration
*
* (c) 2011--2019 Ondrej Zajicek <santiago@crfreenet.org>
* (c) 2011--2019 CZ.NIC z.s.p.o.
*
* Can be freely distributed and used under the terms of the GNU GPL.
*/
CF_HDR
#include "proto/radv/radv.h"
CF_DEFINES
#define RADV_CFG ((struct radv_config *) this_proto)
#define RADV_IFACE ((struct radv_iface_config *) this_ipatt)
#define RADV_PREFIX this_radv_prefix
#define RADV_RDNSS (&this_radv_rdnss)
#define RADV_DNSSL (&this_radv_dnssl)
static struct radv_prefix_config *this_radv_prefix;
static struct radv_rdnss_config this_radv_rdnss;
static struct radv_dnssl_config this_radv_dnssl;
static list radv_dns_list; /* Used by radv_rdnss and radv_dnssl */
static u8 radv_mult_val; /* Used by radv_mult for second return value */
CF_DECLS
CF_KEYWORDS(RADV, PREFIX, INTERFACE, MIN, MAX, RA, DELAY, INTERVAL, SOLICITED,
UNICAST, 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<i> radv_mult radv_sensitive radv_preference
CF_GRAMMAR
proto: radv_proto ;
radv_proto_start: proto_start RADV
{
this_proto = proto_config_new(&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 this_radv_prefix); }
| RDNSS { init_list(&radv_dns_list); } radv_rdnss { add_tail_list(&RADV_CFG->rdnss_list, &radv_dns_list); }
| DNSSL { init_list(&radv_dns_list); } radv_dnssl { add_tail_list(&RADV_CFG->dnssl_list, &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:
{
this_ipatt = cfg_allocz(sizeof(struct radv_iface_config));
add_tail(&RADV_CFG->patt_list, NODE this_ipatt);
init_list(&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("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("Max RA interval must be in range 4-1800"); }
| MIN DELAY expr { RADV_IFACE->min_delay = $3; if ($3 <= 0) cf_error("Min delay must be positive"); }
| SOLICITED RA UNICAST bool { RADV_IFACE->solicited_ra_unicast = $4; }
| 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("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("Current hop limit must be in range 0-255"); }
| DEFAULT LIFETIME expr radv_sensitive {
RADV_IFACE->default_lifetime = $3;
if ($3 > 9000) cf_error("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 this_radv_prefix); }
| RDNSS { init_list(&radv_dns_list); } radv_rdnss { add_tail_list(&RADV_IFACE->rdnss_list, &radv_dns_list); }
| DNSSL { init_list(&radv_dns_list); } radv_dnssl { add_tail_list(&RADV_IFACE->dnssl_list, &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("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("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("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("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("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
{
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("Preferred lifetime must be at most Valid lifetime");
if (RADV_PREFIX->valid_lifetime_sensitive > RADV_PREFIX->preferred_lifetime_sensitive)
cf_error("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(&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 = radv_mult_val; }
;
radv_rdnss_finish:
{
if (EMPTY_LIST(radv_dns_list))
cf_error("No nameserver in RDNSS section");
struct radv_rdnss_config *cf;
WALK_LIST(cf, 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(&radv_dns_list, NODE cf);
cf->domain = $1;
cf->lifetime_mult = DEFAULT_DNS_LIFETIME_MULT;
if (radv_process_domain(cf) < 0)
cf_error("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 = radv_mult_val; }
;
radv_dnssl_finish:
{
if (EMPTY_LIST(radv_dns_list))
cf_error("No domain in DNSSL section");
struct radv_dnssl_config *cf;
WALK_LIST(cf, 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; radv_mult_val = 0; }
| MULT expr { $$ = 0; radv_mult_val = $2; if (($2 < 1) || ($2 > 254)) cf_error("Multiplier must be in range 1-254"); }
;
radv_sensitive:
/* empty */ { $$ = (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