0
0
mirror of https://gitlab.nic.cz/labs/bird.git synced 2024-11-18 00:58:42 +00:00
bird/proto/radv/config.Y
Alexander Zubkov 9c81250c04 RAdv: Add custom options
Currently one can use only a predefined set of advertised options in RAdv
protocol, which are supported by BIRD configuration. It would be convenient
to be able to specify other possible options at least manually as a blob
so one should not wait until it is supported in the code, released, etc.

This idea is inspired by presentation by Ondřej Caletka at CSNOG, in which
he noticed the lack of either PREF64 option or possibility to add custom
options in various software.

The patch makes it possible to define such options with the syntax:

  other type <num> <bytestring>
2023-06-23 17:26:03 +02:00

359 lines
11 KiB
Plaintext

/*
* 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 */
static inline void
radv_add_to_custom_list(list *l, int type, struct bytestring *payload)
{
if (type < 0 || type > 255) cf_error("RA cusom type must be in range 0-255");
struct radv_custom_config *cf = cfg_allocz(sizeof(struct radv_custom_config));
add_tail(l, NODE cf);
cf->type = type;
cf->payload = payload;
}
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);
this_proto->net_type = NET_IP6;
init_list(&RADV_CFG->patt_list);
init_list(&RADV_CFG->pref_list);
init_list(&RADV_CFG->rdnss_list);
init_list(&RADV_CFG->dnssl_list);
init_list(&RADV_CFG->custom_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); }
| OTHER TYPE expr BYTESTRING { radv_add_to_custom_list(&RADV_CFG->custom_list, $3, $4); }
| 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);
init_list(&RADV_IFACE->custom_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); }
| OTHER TYPE expr BYTESTRING { radv_add_to_custom_list(&RADV_IFACE->custom_list, $3, $4); }
| RDNSS LOCAL bool { RADV_IFACE->rdnss_local = $3; }
| DNSSL LOCAL bool { RADV_IFACE->dnssl_local = $3; }
| OTHER LOCAL bool { RADV_IFACE->custom_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