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|
/*
* BIRD -- Routing Information Protocol (RIP)
*
* (c) 1998--1999 Pavel Machek <pavel@ucw.cz>
* (c) 2004--2013 Ondrej Filip <feela@network.cz>
* (c) 2009--2015 Ondrej Zajicek <santiago@crfreenet.org>
* (c) 2009--2015 CZ.NIC z.s.p.o.
*
* Can be freely distributed and used under the terms of the GNU GPL.
*/
/**
* DOC: Routing Information Protocol (RIP)
*
* The RIP protocol is implemented in two files: |rip.c| containing the protocol
* logic, route management and the protocol glue with BIRD core, and |packets.c|
* handling RIP packet processing, RX, TX and protocol sockets.
*
* Each instance of RIP is described by a structure &rip_proto, which contains
* an internal RIP routing table, a list of protocol interfaces and the main
* timer responsible for RIP routing table cleanup.
*
* RIP internal routing table contains incoming and outgoing routes. For each
* network (represented by structure &rip_entry) there is one outgoing route
* stored directly in &rip_entry and an one-way linked list of incoming routes
* (structures &rip_rte). The list contains incoming routes from different RIP
* neighbors, but only routes with the lowest metric are stored (i.e., all
* stored incoming routes have the same metric).
*
* Note that RIP itself does not select outgoing route, that is done by the core
* routing table. When a new incoming route is received, it is propagated to the
* RIP table by rip_update_rte() and possibly stored in the list of incoming
* routes. Then the change may be propagated to the core by rip_announce_rte().
* The core selects the best route and propagate it to RIP by rip_rt_notify(),
* which updates outgoing route part of &rip_entry and possibly triggers route
* propagation by rip_trigger_update().
*
* RIP interfaces are represented by structures &rip_iface. A RIP interface
* contains a per-interface socket, a list of associated neighbors, interface
* configuration, and state information related to scheduled interface events
* and running update sessions. RIP interfaces are added and removed based on
* core interface notifications.
*
* There are two RIP interface events - regular updates and triggered updates.
* Both are managed from the RIP interface timer (rip_iface_timer()). Regular
* updates are called at fixed interval and propagate the whole routing table,
* while triggered updates are scheduled by rip_trigger_update() due to some
* routing table change and propagate only the routes modified since the time
* they were scheduled. There are also unicast-destined requested updates, but
* these are sent directly as a reaction to received RIP request message. The
* update session is started by rip_send_table(). There may be at most one
* active update session per interface, as the associated state (including the
* fib iterator) is stored directly in &rip_iface structure.
*
* RIP neighbors are represented by structures &rip_neighbor. Compared to
* neighbor handling in other routing protocols, RIP does not have explicit
* neighbor discovery and adjacency maintenance, which makes the &rip_neighbor
* related code a bit peculiar. RIP neighbors are interlinked with core neighbor
* structures (&neighbor) and use core neighbor notifications to ensure that RIP
* neighbors are timely removed. RIP neighbors are added based on received route
* notifications and removed based on core neighbor and RIP interface events.
*
* RIP neighbors are linked by RIP routes and use counter to track the number of
* associated routes, but when these RIP routes timeout, associated RIP neighbor
* is still alive (with zero counter). When RIP neighbor is removed but still
* has some associated routes, it is not freed, just changed to detached state
* (core neighbors and RIP ifaces are unlinked), then during the main timer
* cleanup phase the associated routes are removed and the &rip_neighbor
* structure is finally freed.
*
* Supported standards:
* RFC 1058 - RIPv1
* RFC 2453 - RIPv2
* RFC 2080 - RIPng
* RFC 2091 - Triggered RIP for demand circuits
* RFC 4822 - RIP cryptographic authentication
*/
#include <stdlib.h>
#include "rip.h"
#include "lib/macro.h"
static inline void rip_lock_neighbor(struct rip_neighbor *n);
static inline void rip_unlock_neighbor(struct rip_neighbor *n);
static inline int rip_iface_link_up(struct rip_iface *ifa);
static inline void rip_kick_timer(struct rip_proto *p);
static inline void rip_iface_kick_timer(struct rip_iface *ifa);
static void rip_iface_timer(timer *timer);
static void rip_trigger_update(struct rip_proto *p);
static struct ea_class ea_rip_metric, ea_rip_tag, ea_rip_from;
/*
* RIP routes
*/
static struct rip_rte *
rip_add_rte(struct rip_proto *p, struct rip_rte **rp, struct rip_rte *src)
{
struct rip_rte *rt = sl_alloc(p->rte_slab);
memcpy(rt, src, sizeof(struct rip_rte));
rt->next = *rp;
*rp = rt;
rip_lock_neighbor(rt->from);
return rt;
}
static inline void
rip_remove_rte(struct rip_proto *p UNUSED, struct rip_rte **rp)
{
struct rip_rte *rt = *rp;
rip_unlock_neighbor(rt->from);
*rp = rt->next;
sl_free(rt);
}
static inline int rip_same_rte(struct rip_rte *a, struct rip_rte *b)
{ return a->metric == b->metric && a->tag == b->tag && ipa_equal(a->next_hop, b->next_hop); }
static inline int rip_valid_rte(struct rip_rte *rt)
{ return rt->from->ifa != NULL; }
struct rip_iface_adata {
struct adata ad;
struct iface *iface;
};
/**
* rip_announce_rte - announce route from RIP routing table to the core
* @p: RIP instance
* @en: related network
*
* The function takes a list of incoming routes from @en, prepare appropriate
* &rte for the core and propagate it by rte_update().
*/
static void
rip_announce_rte(struct rip_proto *p, struct rip_entry *en)
{
struct rip_rte *rt = en->routes;
/* Find first valid rte */
while (rt && !rip_valid_rte(rt))
rt = rt->next;
if (rt)
{
/* Update */
struct {
ea_list l;
eattr a[3];
} ea_block = {
.l.count = ARRAY_SIZE(ea_block.a),
.a = {
EA_LITERAL_EMBEDDED(&ea_gen_preference, 0, p->p.main_channel->preference),
EA_LITERAL_EMBEDDED(&ea_gen_source, 0, RTS_RIP),
EA_LITERAL_EMBEDDED(&ea_rip_metric, 0, rt->metric),
},
};
ea_list *ea = &ea_block.l;
u16 rt_tag = rt->tag;
struct iface *rt_from = NULL;
if (p->ecmp)
{
/* ECMP route */
int num = 0;
for (rt = en->routes; rt && (num < p->ecmp); rt = rt->next)
if (rip_valid_rte(rt))
num++;
struct nexthop_adata *nhad = (struct nexthop_adata *) tmp_alloc_adata((num+1) * sizeof(struct nexthop));
struct nexthop *nh = &nhad->nh;
for (rt = en->routes; rt && (num < p->ecmp); rt = rt->next)
{
if (!rip_valid_rte(rt))
continue;
*nh = (struct nexthop) {
.gw = rt->next_hop,
.iface = rt->from->ifa->iface,
.weight = rt->from->ifa->cf->ecmp_weight,
};
if (!rt_from)
rt_from = rt->from->ifa->iface;
nh = NEXTHOP_NEXT(nh);
if (rt->tag != rt_tag)
rt_tag = 0;
}
nhad->ad.length = ((void *) nh - (void *) nhad->ad.data);
ea_set_attr(&ea,
EA_LITERAL_DIRECT_ADATA(&ea_gen_nexthop, 0,
&(nexthop_sort(nhad, tmp_linpool)->ad)));
}
else
{
/* Unipath route */
rt_from = rt->from->ifa->iface;
struct nexthop_adata nhad = {
.nh.gw = rt->next_hop,
.nh.iface = rt->from->ifa->iface,
};
ea_set_attr_data(&ea, &ea_gen_nexthop, 0,
&nhad.ad.data, sizeof nhad - sizeof nhad.ad);
ea_set_attr_data(&ea, &ea_gen_from, 0, &rt->from->nbr->addr, sizeof(ip_addr));
}
ea_set_attr_u32(&ea, &ea_rip_tag, 0, rt_tag);
struct rip_iface_adata riad = {
.ad = { .length = sizeof(struct rip_iface_adata) - sizeof(struct adata) },
.iface = rt_from,
};
ea_set_attr(&ea,
EA_LITERAL_DIRECT_ADATA(&ea_rip_from, 0, &riad.ad));
rte e0 = {
.attrs = ea,
.src = p->p.main_source,
};
rte_update(p->p.main_channel, en->n.addr, &e0, p->p.main_source);
}
else
rte_update(p->p.main_channel, en->n.addr, NULL, p->p.main_source);
}
/**
* rip_update_rte - enter a route update to RIP routing table
* @p: RIP instance
* @addr: network address
* @new: a &rip_rte representing the new route
*
* The function is called by the RIP packet processing code whenever it receives
* a reachable route. The appropriate routing table entry is found and the list
* of incoming routes is updated. Eventually, the change is also propagated to
* the core by rip_announce_rte(). Note that for unreachable routes,
* rip_withdraw_rte() should be called instead of rip_update_rte().
*/
void
rip_update_rte(struct rip_proto *p, net_addr *n, struct rip_rte *new)
{
struct rip_entry *en = fib_get(&p->rtable, n);
struct rip_rte *rt, **rp;
int changed = 0;
/* If the new route is better, remove all current routes */
if (en->routes && new->metric < en->routes->metric)
while (en->routes)
rip_remove_rte(p, &en->routes);
/* Find the old route (also set rp for later) */
for (rp = &en->routes; rt = *rp; rp = &rt->next)
if (rt->from == new->from)
{
if (rip_same_rte(rt, new))
{
rt->expires = new->expires;
return;
}
/* Remove the old route */
rip_remove_rte(p, rp);
changed = 1;
break;
}
/* If the new route is optimal, add it to the list */
if (!en->routes || new->metric == en->routes->metric)
{
rt = rip_add_rte(p, rp, new);
changed = 1;
}
/* Announce change if on relevant position (the first or any for ECMP) */
if (changed && (rp == &en->routes || p->ecmp))
rip_announce_rte(p, en);
}
/**
* rip_withdraw_rte - enter a route withdraw to RIP routing table
* @p: RIP instance
* @addr: network address
* @from: a &rip_neighbor propagating the withdraw
*
* The function is called by the RIP packet processing code whenever it receives
* an unreachable route. The incoming route for given network from nbr @from is
* removed. Eventually, the change is also propagated by rip_announce_rte().
*/
void
rip_withdraw_rte(struct rip_proto *p, net_addr *n, struct rip_neighbor *from)
{
struct rip_entry *en = fib_find(&p->rtable, n);
struct rip_rte *rt, **rp;
if (!en)
return;
/* Find the old route */
for (rp = &en->routes; rt = *rp; rp = &rt->next)
if (rt->from == from)
break;
if (!rt)
return;
/* Remove the old route */
rip_remove_rte(p, rp);
/* Announce change if on relevant position */
if (rp == &en->routes || p->ecmp)
rip_announce_rte(p, en);
}
/*
* rip_rt_notify - core tells us about new route, so store
* it into our data structures.
*/
static void
rip_rt_notify(struct proto *P, struct channel *ch UNUSED, const net_addr *net, struct rte *new,
const struct rte *old UNUSED)
{
struct rip_proto *p = (struct rip_proto *) P;
struct rip_entry *en;
int old_metric;
if (new)
{
/* Update */
u32 rt_tag = ea_get_int(new->attrs, &ea_rip_tag, 0);
u32 rt_metric = ea_get_int(new->attrs, &ea_rip_metric, 1);
const eattr *rie = ea_find(new->attrs, &ea_rip_from);
struct iface *rt_from = rie ? ((struct rip_iface_adata *) rie->u.ptr)->iface : NULL;
if (rt_metric > p->infinity)
{
log(L_WARN "%s: Invalid rip_metric value %u for route %N",
p->p.name, rt_metric, net);
rt_metric = p->infinity;
}
if (rt_tag > 0xffff)
{
log(L_WARN "%s: Invalid rip_tag value %u for route %N",
p->p.name, rt_tag, net);
rt_metric = p->infinity;
rt_tag = 0;
}
/*
* Note that we accept exported routes with infinity metric (this could
* happen if rip_metric is modified in filters). Such entry has infinity
* metric but is RIP_ENTRY_VALID and therefore is not subject to garbage
* collection.
*/
en = fib_get(&p->rtable, net);
old_metric = en->valid ? en->metric : -1;
en->valid = RIP_ENTRY_VALID;
en->metric = rt_metric;
en->tag = rt_tag;
en->from = (new->src->owner == &P->sources) ? rt_from : NULL;
eattr *nhea = ea_find(new->attrs, &ea_gen_nexthop);
if (nhea)
{
struct nexthop_adata *nhad = (struct nexthop_adata *) nhea->u.ptr;
en->iface = nhad->nh.iface;
en->next_hop = nhad->nh.gw;
}
}
else
{
/* Withdraw */
en = fib_find(&p->rtable, net);
if (!en || en->valid != RIP_ENTRY_VALID)
return;
old_metric = en->metric;
en->valid = RIP_ENTRY_STALE;
en->metric = p->infinity;
en->tag = 0;
en->from = NULL;
en->iface = NULL;
en->next_hop = IPA_NONE;
}
/* Activate triggered updates */
if (en->metric != old_metric)
{
en->changed = current_time();
rip_trigger_update(p);
}
}
void
rip_flush_table(struct rip_proto *p, struct rip_neighbor *n)
{
btime expires = current_time() + n->ifa->cf->timeout_time;
FIB_WALK(&p->rtable, struct rip_entry, en)
{
for (struct rip_rte *e = en->routes; e; e = e->next)
if ((e->from == n) && (e->expires == TIME_INFINITY))
e->expires = expires;
}
FIB_WALK_END;
}
/*
* RIP neighbors
*/
struct rip_neighbor *
rip_get_neighbor(struct rip_proto *p, ip_addr *a, struct rip_iface *ifa)
{
neighbor *nbr = neigh_find(&p->p, *a, ifa->iface, 0);
if (!nbr || (nbr->scope == SCOPE_HOST) || !rip_iface_link_up(ifa))
return NULL;
if (nbr->data)
return nbr->data;
TRACE(D_EVENTS, "New neighbor %I on %s", *a, ifa->iface->name);
struct rip_neighbor *n = mb_allocz(p->p.pool, sizeof(struct rip_neighbor));
n->ifa = ifa;
n->nbr = nbr;
nbr->data = n;
n->csn = nbr->aux;
add_tail(&ifa->neigh_list, NODE n);
return n;
}
static void
rip_remove_neighbor(struct rip_proto *p, struct rip_neighbor *n)
{
neighbor *nbr = n->nbr;
TRACE(D_EVENTS, "Removing neighbor %I on %s", nbr->addr, nbr->ifreq->name);
rem_node(NODE n);
n->ifa = NULL;
n->nbr = NULL;
nbr->data = NULL;
nbr->aux = n->csn;
rfree(n->bfd_req);
n->bfd_req = NULL;
n->last_seen = 0;
if (!n->uc)
mb_free(n);
/* Related routes are removed in rip_timer() */
rip_kick_timer(p);
}
static inline void
rip_lock_neighbor(struct rip_neighbor *n)
{
n->uc++;
}
static inline void
rip_unlock_neighbor(struct rip_neighbor *n)
{
n->uc--;
if (!n->nbr && !n->uc)
mb_free(n);
}
static void
rip_neigh_notify(struct neighbor *nbr)
{
struct rip_proto *p = (struct rip_proto *) nbr->proto;
struct rip_neighbor *n = nbr->data;
if (!n)
return;
/*
* We assume that rip_neigh_notify() is called before rip_if_notify() for
* IF_CHANGE_DOWN and therefore n->ifa is still valid. We have no such
* ordering assumption for IF_CHANGE_LINK, so we test link state of the
* underlying iface instead of just rip_iface state.
*/
if ((nbr->scope <= 0) || !rip_iface_link_up(n->ifa))
rip_remove_neighbor(p, n);
}
static void
rip_bfd_notify(struct bfd_request *req)
{
struct rip_neighbor *n = req->data;
struct rip_proto *p = n->ifa->rip;
if (req->down)
{
TRACE(D_EVENTS, "BFD session down for nbr %I on %s",
n->nbr->addr, n->ifa->iface->name);
rip_remove_neighbor(p, n);
}
}
void
rip_update_bfd(struct rip_proto *p, struct rip_neighbor *n)
{
int use_bfd = n->ifa->cf->bfd && n->last_seen;
if (use_bfd && !n->bfd_req)
{
/*
* For RIPv2, use the same address as rip_open_socket(). For RIPng, neighbor
* should contain an address from the same prefix, thus also link-local. It
* may cause problems if two link-local addresses are assigned to one iface.
*/
ip_addr saddr = rip_is_v2(p) ? n->ifa->sk->saddr : n->nbr->ifa->ip;
n->bfd_req = bfd_request_session(p->p.pool, n->nbr->addr, saddr,
n->nbr->iface, p->p.vrf,
rip_bfd_notify, n, p->p.loop, NULL);
}
if (!use_bfd && n->bfd_req)
{
rfree(n->bfd_req);
n->bfd_req = NULL;
}
}
/*
* RIP interfaces
*/
static void
rip_iface_start(struct rip_iface *ifa)
{
struct rip_proto *p = ifa->rip;
TRACE(D_EVENTS, "Starting interface %s", ifa->iface->name);
if (! ifa->cf->demand_circuit)
{
ifa->next_regular = current_time() + (random() % ifa->cf->update_time) + 100 MS;
tm_set(ifa->timer, ifa->next_regular);
}
else
{
ifa->next_regular = TIME_INFINITY;
}
ifa->up = 1;
if (ifa->cf->passive)
return;
rip_send_request(p, ifa);
rip_send_table(p, ifa, ifa->addr, 0);
}
static void
rip_iface_stop(struct rip_iface *ifa)
{
struct rip_proto *p = ifa->rip;
struct rip_neighbor *n;
TRACE(D_EVENTS, "Stopping interface %s", ifa->iface->name);
rip_reset_tx_session(p, ifa);
ifa->next_regular = 0;
ifa->next_triggered = 0;
ifa->want_triggered = 0;
if (ifa->tx_pending)
ifa->tx_seqnum++;
ifa->tx_pending = 0;
ifa->req_pending = 0;
if (ifa->cf->demand_circuit && !ifa->cf->passive)
rip_send_flush(p, ifa);
WALK_LIST_FIRST(n, ifa->neigh_list)
rip_remove_neighbor(p, n);
tm_stop(ifa->timer);
tm_stop(ifa->rxmt_timer);
ifa->up = 0;
}
static inline int
rip_iface_link_up(struct rip_iface *ifa)
{
return !ifa->cf->check_link || (ifa->iface->flags & IF_LINK_UP);
}
static void
rip_iface_update_state(struct rip_iface *ifa)
{
int up = ifa->sk && rip_iface_link_up(ifa);
if (up == ifa->up)
return;
if (up)
rip_iface_start(ifa);
else
rip_iface_stop(ifa);
}
static void
rip_iface_update_buffers(struct rip_iface *ifa)
{
if (!ifa->sk)
return;
uint rbsize = ifa->cf->rx_buffer ?: ifa->iface->mtu;
uint tbsize = ifa->cf->tx_length ?: ifa->iface->mtu;
rbsize = MAX(rbsize, tbsize);
sk_set_rbsize(ifa->sk, rbsize);
sk_set_tbsize(ifa->sk, tbsize);
uint headers = (rip_is_v2(ifa->rip) ? IP4_HEADER_LENGTH : IP6_HEADER_LENGTH) + UDP_HEADER_LENGTH;
ifa->tx_plen = tbsize - headers;
if (ifa->cf->auth_type == RIP_AUTH_CRYPTO)
ifa->tx_plen -= RIP_AUTH_TAIL_LENGTH + max_mac_length(ifa->cf->passwords);
}
static inline void
rip_iface_update_bfd(struct rip_iface *ifa)
{
struct rip_proto *p = ifa->rip;
struct rip_neighbor *n;
WALK_LIST(n, ifa->neigh_list)
rip_update_bfd(p, n);
}
static void
rip_iface_locked(void *_ifa)
{
struct rip_iface *ifa = _ifa;
struct rip_proto *p = ifa->rip;
if (!rip_open_socket(ifa))
{
log(L_ERR "%s: Cannot open socket for %s", p->p.name, ifa->iface->name);
return;
}
rip_iface_update_buffers(ifa);
rip_iface_update_state(ifa);
}
static struct rip_iface *
rip_find_iface(struct rip_proto *p, struct iface *what)
{
struct rip_iface *ifa;
WALK_LIST(ifa, p->iface_list)
if (ifa->iface == what)
return ifa;
return NULL;
}
static void
rip_add_iface(struct rip_proto *p, struct iface *iface, struct rip_iface_config *ic)
{
struct rip_iface *ifa;
TRACE(D_EVENTS, "Adding interface %s", iface->name);
ifa = mb_allocz(p->p.pool, sizeof(struct rip_iface));
ifa->rip = p;
ifa->iface = iface;
ifa->cf = ic;
if (ipa_nonzero(ic->address))
ifa->addr = ic->address;
else if (ic->mode == RIP_IM_MULTICAST)
ifa->addr = rip_is_v2(p) ? IP4_RIP_ROUTERS : IP6_RIP_ROUTERS;
else /* Broadcast */
ifa->addr = iface->addr4->brd;
/*
* The above is just a workaround for BSD as it can't send broadcasts
* to 255.255.255.255. BSD systems need the network broadcast address instead.
*
* TODO: move this to sysdep code
*/
init_list(&ifa->neigh_list);
add_tail(&p->iface_list, NODE ifa);
ifa->timer = tm_new_init(p->p.pool, rip_iface_timer, ifa, 0, 0);
ifa->rxmt_timer = tm_new_init(p->p.pool, rip_rxmt_timeout, ifa, 0, 0);
struct object_lock *lock = olock_new(p->p.pool);
lock->type = OBJLOCK_UDP;
lock->port = ic->port;
lock->iface = iface;
lock->event = (event) {
.hook = rip_iface_locked,
.data = ifa,
};
lock->target = &global_event_list;
ifa->lock = lock;
olock_acquire(lock);
}
static void
rip_remove_iface(struct rip_proto *p, struct rip_iface *ifa)
{
rip_iface_stop(ifa);
TRACE(D_EVENTS, "Removing interface %s", ifa->iface->name);
rem_node(NODE ifa);
rfree(ifa->sk);
rfree(ifa->lock);
rfree(ifa->timer);
mb_free(ifa);
}
static int
rip_reconfigure_iface(struct rip_proto *p, struct rip_iface *ifa, struct rip_iface_config *new)
{
struct rip_iface_config *old = ifa->cf;
/* Change of these options would require to reset the iface socket */
if ((new->mode != old->mode) ||
(new->port != old->port) ||
(new->tx_tos != old->tx_tos) ||
(new->tx_priority != old->tx_priority) ||
(new->ttl_security != old->ttl_security) ||
(new->demand_circuit != old->demand_circuit))
return 0;
TRACE(D_EVENTS, "Reconfiguring interface %s", ifa->iface->name);
ifa->cf = new;
rip_iface_update_buffers(ifa);
if ((! ifa->cf->demand_circuit) &&
(ifa->next_regular > (current_time() + new->update_time)))
ifa->next_regular = current_time() + (random() % new->update_time) + 100 MS;
if (ifa->up && new->demand_circuit && (new->passive != old->passive))
{
if (new->passive)
rip_send_flush(p, ifa);
else
{
rip_send_request(p, ifa);
rip_send_table(p, ifa, ifa->addr, 0);
}
}
if (new->check_link != old->check_link)
rip_iface_update_state(ifa);
if (new->bfd != old->bfd)
rip_iface_update_bfd(ifa);
if (ifa->up)
rip_iface_kick_timer(ifa);
return 1;
}
static void
rip_reconfigure_ifaces(struct rip_proto *p, struct rip_config *cf)
{
IFACE_WALK(iface)
{
if (p->p.vrf && p->p.vrf != iface->master)
continue;
if (!(iface->flags & IF_UP))
continue;
/* Ignore ifaces without appropriate address */
if (rip_is_v2(p) ? !iface->addr4 : !iface->llv6)
continue;
struct rip_iface *ifa = rip_find_iface(p, iface);
struct rip_iface_config *ic = (void *) iface_patt_find(&cf->patt_list, iface, NULL);
if (ifa && ic)
{
if (rip_reconfigure_iface(p, ifa, ic))
continue;
/* Hard restart */
log(L_INFO "%s: Restarting interface %s", p->p.name, ifa->iface->name);
rip_remove_iface(p, ifa);
rip_add_iface(p, iface, ic);
}
if (ifa && !ic)
rip_remove_iface(p, ifa);
if (!ifa && ic)
rip_add_iface(p, iface, ic);
}
}
static void
rip_if_notify(struct proto *P, unsigned flags, struct iface *iface)
{
struct rip_proto *p = (void *) P;
struct rip_config *cf = (void *) P->cf;
struct rip_iface *ifa = rip_find_iface(p, iface);
if (iface->flags & IF_IGNORE)
return;
/* Add, remove or restart interface */
if (flags & (IF_CHANGE_UPDOWN | (rip_is_v2(p) ? IF_CHANGE_ADDR4 : IF_CHANGE_LLV6)))
{
if (ifa)
rip_remove_iface(p, ifa);
if (!(iface->flags & IF_UP))
return;
/* Ignore ifaces without appropriate address */
if (rip_is_v2(p) ? !iface->addr4 : !iface->llv6)
return;
struct rip_iface_config *ic = (void *) iface_patt_find(&cf->patt_list, iface, NULL);
if (ic)
rip_add_iface(p, iface, ic);
return;
}
if (!ifa)
return;
if (flags & IF_CHANGE_MTU)
rip_iface_update_buffers(ifa);
if (flags & IF_CHANGE_LINK)
rip_iface_update_state(ifa);
}
/*
* RIP timer events
*/
/**
* rip_timer - RIP main timer hook
* @t: timer
*
* The RIP main timer is responsible for routing table maintenance. Invalid or
* expired routes (&rip_rte) are removed and garbage collection of stale routing
* table entries (&rip_entry) is done. Changes are propagated to core tables,
* route reload is also done here. Note that garbage collection uses a maximal
* GC time, while interfaces maintain an illusion of per-interface GC times in
* rip_send_response().
*
* Keeping incoming routes and the selected outgoing route are two independent
* functions, therefore after garbage collection some entries now considered
* invalid (RIP_ENTRY_DUMMY) still may have non-empty list of incoming routes,
* while some valid entries (representing an outgoing route) may have that list
* empty.
*
* The main timer is not scheduled periodically but it uses the time of the
* current next event and the minimal interval of any possible event to compute
* the time of the next run.
*/
static void
rip_timer(timer *t)
{
struct rip_proto *p = t->data;
struct rip_config *cf = (void *) (p->p.cf);
struct rip_iface *ifa;
struct rip_neighbor *n, *nn;
struct fib_iterator fit;
btime now_ = current_time();
btime next = now_ + MIN(cf->min_timeout_time, cf->max_garbage_time);
btime expires = 0;
TRACE(D_EVENTS, "Main timer fired");
FIB_ITERATE_INIT(&fit, &p->rtable);
loop:
FIB_ITERATE_START(&p->rtable, &fit, struct rip_entry, en)
{
struct rip_rte *rt, **rp;
int changed = 0;
/* Checking received routes for timeout and for dead neighbors */
for (rp = &en->routes; rt = *rp; /* rp = &rt->next */)
{
if (!rip_valid_rte(rt) || (rt->expires <= now_))
{
rip_remove_rte(p, rp);
changed = 1;
continue;
}
next = MIN(next, rt->expires);
rp = &rt->next;
}
/* Propagating eventual change */
if (changed || p->rt_reload)
{
/*
* We have to restart the iteration because there may be a cascade of
* synchronous events rip_announce_rte() -> nest table change ->
* rip_rt_notify() -> p->rtable change, invalidating hidden variables.
*/
FIB_ITERATE_PUT_NEXT(&fit, &p->rtable);
rip_announce_rte(p, en);
goto loop;
}
/* Checking stale entries for garbage collection timeout */
if (en->valid == RIP_ENTRY_STALE)
{
expires = en->changed + cf->max_garbage_time;
if (expires <= now_)
{
// TRACE(D_EVENTS, "entry is too old: %N", en->n.addr);
en->valid = 0;
}
else
next = MIN(next, expires);
}
/* Remove empty nodes */
if (!en->valid && !en->routes)
{
FIB_ITERATE_PUT(&fit);
fib_delete(&p->rtable, en);
goto loop;
}
}
FIB_ITERATE_END;
p->rt_reload = 0;
/* Handling neighbor expiration */
WALK_LIST(ifa, p->iface_list)
{
/* No expiration for demand circuit ifaces */
if (ifa->cf->demand_circuit)
continue;
WALK_LIST_DELSAFE(n, nn, ifa->neigh_list)
if (n->last_seen)
{
expires = n->last_seen + n->ifa->cf->timeout_time;
if (expires <= now_)
rip_remove_neighbor(p, n);
else
next = MIN(next, expires);
}
}
tm_start(p->timer, MAX(next - now_, 100 MS));
}
static inline void
rip_kick_timer(struct rip_proto *p)
{
if ((p->timer->expires > (current_time() + 100 MS)))
tm_start(p->timer, 100 MS);
}
/**
* rip_iface_timer - RIP interface timer hook
* @t: timer
*
* RIP interface timers are responsible for scheduling both regular and
* triggered updates. Fixed, delay-independent period is used for regular
* updates, while minimal separating interval is enforced for triggered updates.
* The function also ensures that a new update is not started when the old one
* is still running.
*/
static void
rip_iface_timer(timer *t)
{
struct rip_iface *ifa = t->data;
struct rip_proto *p = ifa->rip;
btime now_ = current_time();
btime period = ifa->cf->update_time;
if (ifa->cf->passive)
return;
TRACE(D_EVENTS, "Interface timer fired for %s", ifa->iface->name);
if (ifa->tx_active)
{
tm_start(ifa->timer, 100 MS);
return;
}
if (now_ >= ifa->next_regular)
{
/* Send regular update, set timer for next period (or following one if necessay) */
TRACE(D_EVENTS, "Sending regular updates for %s", ifa->iface->name);
rip_send_table(p, ifa, ifa->addr, 0);
ifa->next_regular += period * (1 + ((now_ - ifa->next_regular) / period));
ifa->want_triggered = 0;
p->triggered = 0;
}
else if (ifa->want_triggered && (now_ >= ifa->next_triggered))
{
/* Send triggered update, enforce interval between triggered updates */
TRACE(D_EVENTS, "Sending triggered updates for %s", ifa->iface->name);
rip_send_table(p, ifa, ifa->addr, ifa->want_triggered);
ifa->next_triggered = now_ + MIN(5 S, period / 2);
ifa->want_triggered = 0;
p->triggered = 0;
}
if (ifa->want_triggered && (ifa->next_triggered < ifa->next_regular))
tm_set(ifa->timer, ifa->next_triggered);
else if (ifa->next_regular != TIME_INFINITY)
tm_set(ifa->timer, ifa->next_regular);
}
static inline void
rip_iface_kick_timer(struct rip_iface *ifa)
{
if ((! tm_active(ifa->timer)) || (ifa->timer->expires > (current_time() + 100 MS)))
tm_start(ifa->timer, 100 MS);
}
static void
rip_trigger_update(struct rip_proto *p)
{
if (p->triggered)
return;
struct rip_iface *ifa;
WALK_LIST(ifa, p->iface_list)
{
/* Interface not active */
if (! ifa->up)
continue;
/* Already scheduled */
if (ifa->want_triggered)
continue;
TRACE(D_EVENTS, "Scheduling triggered updates for %s", ifa->iface->name);
ifa->want_triggered = current_time();
rip_iface_kick_timer(ifa);
p->triggered = 1;
}
}
/*
* RIP protocol glue
*/
static void
rip_reload_routes(struct channel *C)
{
struct rip_proto *p = (struct rip_proto *) C->proto;
if (p->rt_reload)
return;
TRACE(D_EVENTS, "Scheduling route reload");
p->rt_reload = 1;
rip_kick_timer(p);
}
static struct rte_owner_class rip_rte_owner_class;
static inline struct rip_proto *
rip_rte_proto(struct rte *rte)
{
return (rte->src->owner->class == &rip_rte_owner_class) ?
SKIP_BACK(struct rip_proto, p.sources, rte->src->owner) : NULL;
}
static u32
rip_rte_igp_metric(const rte *rt)
{
return ea_get_int(rt->attrs, &ea_rip_metric, IGP_METRIC_UNKNOWN);
}
static int
rip_rte_better(struct rte *new, struct rte *old)
{
return rip_rte_igp_metric(new) < rip_rte_igp_metric(old);
}
static void
rip_postconfig(struct proto_config *CF)
{
// struct rip_config *cf = (void *) CF;
/* Define default channel */
if (! proto_cf_main_channel(CF))
channel_config_new(NULL, net_label[CF->net_type], CF->net_type, CF);
}
static struct proto *
rip_init(struct proto_config *CF)
{
struct proto *P = proto_new(CF);
P->main_channel = proto_add_channel(P, proto_cf_main_channel(CF));
P->iface_sub.if_notify = rip_if_notify;
P->rt_notify = rip_rt_notify;
P->iface_sub.neigh_notify = rip_neigh_notify;
P->reload_routes = rip_reload_routes;
P->sources.class = &rip_rte_owner_class;
return P;
}
static int
rip_start(struct proto *P)
{
struct rip_proto *p = (void *) P;
struct rip_config *cf = (void *) (P->cf);
init_list(&p->iface_list);
fib_init(&p->rtable, P->pool, cf->rip2 ? NET_IP4 : NET_IP6,
sizeof(struct rip_entry), OFFSETOF(struct rip_entry, n), 0, NULL);
p->rte_slab = sl_new(P->pool, sizeof(struct rip_rte));
p->timer = tm_new_init(P->pool, rip_timer, p, 0, 0);
p->rip2 = cf->rip2;
p->ecmp = cf->ecmp;
p->infinity = cf->infinity;
p->triggered = 0;
p->log_pkt_tbf = (struct tbf){ .rate = 1, .burst = 5 };
p->log_rte_tbf = (struct tbf){ .rate = 4, .burst = 20 };
tm_start(p->timer, MIN(cf->min_timeout_time, cf->max_garbage_time));
return PS_UP;
}
static int
rip_shutdown(struct proto *P)
{
struct rip_proto *p = (void *) P;
TRACE(D_EVENTS, "Shutdown requested");
struct rip_iface *ifa;
WALK_LIST(ifa, p->iface_list)
rip_iface_stop(ifa);
return PS_DOWN;
}
static int
rip_reconfigure(struct proto *P, struct proto_config *CF)
{
struct rip_proto *p = (void *) P;
struct rip_config *new = (void *) CF;
// struct rip_config *old = (void *) (P->cf);
if (new->rip2 != p->rip2)
return 0;
if (new->infinity != p->infinity)
return 0;
if (!proto_configure_channel(P, &P->main_channel, proto_cf_main_channel(CF)))
return 0;
TRACE(D_EVENTS, "Reconfiguring");
p->p.cf = CF;
p->ecmp = new->ecmp;
rip_reconfigure_ifaces(p, new);
p->rt_reload = 1;
rip_kick_timer(p);
return 1;
}
static void
rip_get_route_info(rte *rte, byte *buf)
{
struct rip_proto *p = rip_rte_proto(rte);
u32 rt_metric = ea_get_int(rte->attrs, &ea_rip_metric, p->infinity);
u32 rt_tag = ea_get_int(rte->attrs, &ea_rip_tag, 0);
buf += bsprintf(buf, " (%d/%d)", rt_get_preference(rte), rt_metric);
if (rt_tag)
bsprintf(buf, " [%04x]", rt_tag);
}
static void
rip_tag_format(const eattr *a, byte *buf, uint buflen)
{
bsnprintf(buf, buflen, "%04x", a->u.data);
}
static struct ea_class ea_rip_metric = {
.name = "rip_metric",
.type = T_INT,
};
static struct ea_class ea_rip_tag = {
.name = "rip_tag",
.type = T_INT,
.format = rip_tag_format,
};
static struct ea_class ea_rip_from = {
.name = "rip_from",
.type = T_IFACE,
.readonly = 1,
.hidden = 1,
};
void
rip_show_interfaces(struct proto *P, const char *iff)
{
struct rip_proto *p = (void *) P;
struct rip_iface *ifa = NULL;
struct rip_neighbor *n = NULL;
if (p->p.proto_state != PS_UP)
{
cli_msg(-1021, "%s: is not up", p->p.name);
return;
}
cli_msg(-1021, "%s:", p->p.name);
cli_msg(-1021, "%-10s %-6s %6s %6s %7s",
"Interface", "State", "Metric", "Nbrs", "Timer");
WALK_LIST(ifa, p->iface_list)
{
if (iff && !patmatch(iff, ifa->iface->name))
continue;
int nbrs = 0;
WALK_LIST(n, ifa->neigh_list)
if (n->last_seen)
nbrs++;
btime now_ = current_time();
btime timer = ((ifa->next_regular < TIME_INFINITY) && (ifa->next_regular > now_)) ?
(ifa->next_regular - now_) : 0;
cli_msg(-1021, "%-10s %-6s %6u %6u %7t",
ifa->iface->name, (ifa->up ? "Up" : "Down"), ifa->cf->metric, nbrs, timer);
}
}
void
rip_show_neighbors(struct proto *P, const char *iff)
{
struct rip_proto *p = (void *) P;
struct rip_iface *ifa = NULL;
struct rip_neighbor *n = NULL;
if (p->p.proto_state != PS_UP)
{
cli_msg(-1022, "%s: is not up", p->p.name);
return;
}
cli_msg(-1022, "%s:", p->p.name);
cli_msg(-1022, "%-25s %-10s %6s %6s %7s",
"IP address", "Interface", "Metric", "Routes", "Seen");
WALK_LIST(ifa, p->iface_list)
{
if (iff && !patmatch(iff, ifa->iface->name))
continue;
WALK_LIST(n, ifa->neigh_list)
{
if (!n->last_seen)
continue;
btime timer = current_time() - n->last_seen;
cli_msg(-1022, "%-25I %-10s %6u %6u %7t",
n->nbr->addr, ifa->iface->name, ifa->cf->metric, n->uc, timer);
}
}
}
static void
rip_dump(struct proto *P)
{
struct rip_proto *p = (struct rip_proto *) P;
struct rip_iface *ifa;
int i;
i = 0;
FIB_WALK(&p->rtable, struct rip_entry, en)
{
debug("RIP: entry #%d: %N via %I dev %s valid %d metric %d age %t\n",
i++, en->n.addr, en->next_hop, en->iface ? en->iface->name : "(null)",
en->valid, en->metric, current_time() - en->changed);
for (struct rip_rte *e = en->routes; e; e = e->next)
debug("RIP: via %I metric %d expires %t\n",
e->next_hop, e->metric, e->expires - current_time());
}
FIB_WALK_END;
i = 0;
WALK_LIST(ifa, p->iface_list)
{
debug("RIP: interface #%d: %s, %I, up = %d, busy = %d\n",
i++, ifa->iface->name, ifa->sk ? ifa->sk->daddr : IPA_NONE,
ifa->up, ifa->tx_active);
}
}
static struct rte_owner_class rip_rte_owner_class = {
.get_route_info = rip_get_route_info,
.rte_better = rip_rte_better,
.rte_igp_metric = rip_rte_igp_metric,
};
struct protocol proto_rip = {
.name = "RIP",
.template = "rip%d",
.preference = DEF_PREF_RIP,
.channel_mask = NB_IP,
.proto_size = sizeof(struct rip_proto),
.config_size = sizeof(struct rip_config),
.postconfig = rip_postconfig,
.init = rip_init,
.dump = rip_dump,
.start = rip_start,
.shutdown = rip_shutdown,
.reconfigure = rip_reconfigure,
};
void
rip_build(void)
{
proto_build(&proto_rip);
EA_REGISTER_ALL(
&ea_rip_metric,
&ea_rip_tag,
&ea_rip_from
);
}
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