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|
/*
* OSPF routing table.
* Copyright (C) 1999, 2000 Toshiaki Takada
*
* This file is part of GNU Zebra.
*
* GNU Zebra is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation; either version 2, or (at your option) any
* later version.
*
* GNU Zebra is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with GNU Zebra; see the file COPYING. If not, write to the Free
* Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
* 02111-1307, USA.
*/
#include <zebra.h>
#include "prefix.h"
#include "table.h"
#include "memory.h"
#include "linklist.h"
#include "log.h"
#include "if.h"
#include "command.h"
#include "sockunion.h"
#include "ospfd/ospfd.h"
#include "ospfd/ospf_interface.h"
#include "ospfd/ospf_asbr.h"
#include "ospfd/ospf_lsa.h"
#include "ospfd/ospf_route.h"
#include "ospfd/ospf_spf.h"
#include "ospfd/ospf_zebra.h"
#include "ospfd/ospf_dump.h"
struct ospf_route *
ospf_route_new ()
{
struct ospf_route *new;
new = XCALLOC (MTYPE_OSPF_ROUTE, sizeof (struct ospf_route));
new->ctime = time (NULL);
new->mtime = new->ctime;
new->paths = list_new ();
new->paths->del = (void (*) (void *))ospf_path_free;
return new;
}
void
ospf_route_free (struct ospf_route *or)
{
if (or->paths)
list_delete (or->paths);
XFREE (MTYPE_OSPF_ROUTE, or);
}
struct ospf_path *
ospf_path_new ()
{
struct ospf_path *new;
new = XCALLOC (MTYPE_OSPF_PATH, sizeof (struct ospf_path));
return new;
}
static struct ospf_path *
ospf_path_dup (struct ospf_path *path)
{
struct ospf_path *new;
new = ospf_path_new ();
memcpy (new, path, sizeof (struct ospf_path));
return new;
}
void
ospf_path_free (struct ospf_path *op)
{
XFREE (MTYPE_OSPF_PATH, op);
}
void
ospf_route_delete (struct route_table *rt)
{
struct route_node *rn;
struct ospf_route *or;
for (rn = route_top (rt); rn; rn = route_next (rn))
if ((or = rn->info) != NULL)
{
if (or->type == OSPF_DESTINATION_NETWORK)
ospf_zebra_delete ((struct prefix_ipv4 *) &rn->p,
or);
else if (or->type == OSPF_DESTINATION_DISCARD)
ospf_zebra_delete_discard ((struct prefix_ipv4 *) &rn->p);
}
}
void
ospf_route_table_free (struct route_table *rt)
{
struct route_node *rn;
struct ospf_route *or;
for (rn = route_top (rt); rn; rn = route_next (rn))
if ((or = rn->info) != NULL)
{
ospf_route_free (or);
rn->info = NULL;
route_unlock_node (rn);
}
route_table_finish (rt);
}
/* If a prefix and a nexthop match any route in the routing table,
then return 1, otherwise return 0. */
int
ospf_route_match_same (struct route_table *rt, struct prefix_ipv4 *prefix,
struct ospf_route *newor)
{
struct route_node *rn;
struct ospf_route *or;
struct ospf_path *op;
struct ospf_path *newop;
struct listnode *n1;
struct listnode *n2;
if (! rt || ! prefix)
return 0;
rn = route_node_lookup (rt, (struct prefix *) prefix);
if (! rn || ! rn->info)
return 0;
route_unlock_node (rn);
or = rn->info;
if (or->type == newor->type && or->cost == newor->cost)
{
if (or->type == OSPF_DESTINATION_NETWORK)
{
if (or->paths->count != newor->paths->count)
return 0;
/* Check each path. */
for (n1 = listhead (or->paths), n2 = listhead (newor->paths);
n1 && n2; n1 = listnextnode (n1), n2 = listnextnode (n2))
{
op = listgetdata (n1);
newop = listgetdata (n2);
if (! IPV4_ADDR_SAME (&op->nexthop, &newop->nexthop))
return 0;
}
return 1;
}
else if (prefix_same (&rn->p, (struct prefix *) prefix))
return 1;
}
return 0;
}
/* delete routes generated from AS-External routes if there is a inter/intra
* area route
*/
static void
ospf_route_delete_same_ext(struct route_table *external_routes,
struct route_table *routes)
{
struct route_node *rn,
*ext_rn;
if ( (external_routes == NULL) || (routes == NULL) )
return;
/* Remove deleted routes */
for ( rn = route_top (routes); rn; rn = route_next (rn) )
{
if (rn && rn->info)
{
struct prefix_ipv4 *p = (struct prefix_ipv4 *)(&rn->p);
if ( (ext_rn = route_node_lookup (external_routes, (struct prefix *)p)) )
{
ospf_zebra_delete (p, ext_rn->info);
if (ext_rn->info)
{
ospf_route_free( ext_rn->info);
ext_rn->info = NULL;
}
route_unlock_node (ext_rn);
}
}
}
}
/* rt: Old, cmprt: New */
static void
ospf_route_delete_uniq (struct route_table *rt, struct route_table *cmprt)
{
struct route_node *rn;
struct ospf_route *or;
for (rn = route_top (rt); rn; rn = route_next (rn))
if ((or = rn->info) != NULL)
if (or->path_type == OSPF_PATH_INTRA_AREA ||
or->path_type == OSPF_PATH_INTER_AREA)
{
if (or->type == OSPF_DESTINATION_NETWORK)
{
if (! ospf_route_match_same (cmprt,
(struct prefix_ipv4 *) &rn->p, or))
ospf_zebra_delete ((struct prefix_ipv4 *) &rn->p, or);
}
else if (or->type == OSPF_DESTINATION_DISCARD)
if (! ospf_route_match_same (cmprt,
(struct prefix_ipv4 *) &rn->p, or))
ospf_zebra_delete_discard ((struct prefix_ipv4 *) &rn->p);
}
}
/* Install routes to table. */
void
ospf_route_install (struct ospf *ospf, struct route_table *rt)
{
struct route_node *rn;
struct ospf_route *or;
/* rt contains new routing table, new_table contains an old one.
updating pointers */
if (ospf->old_table)
ospf_route_table_free (ospf->old_table);
ospf->old_table = ospf->new_table;
ospf->new_table = rt;
/* Delete old routes. */
if (ospf->old_table)
ospf_route_delete_uniq (ospf->old_table, rt);
if (ospf->old_external_route)
ospf_route_delete_same_ext (ospf->old_external_route, rt);
/* Install new routes. */
for (rn = route_top (rt); rn; rn = route_next (rn))
if ((or = rn->info) != NULL)
{
if (or->type == OSPF_DESTINATION_NETWORK)
{
if (! ospf_route_match_same (ospf->old_table,
(struct prefix_ipv4 *)&rn->p, or))
ospf_zebra_add ((struct prefix_ipv4 *) &rn->p, or);
}
else if (or->type == OSPF_DESTINATION_DISCARD)
if (! ospf_route_match_same (ospf->old_table,
(struct prefix_ipv4 *) &rn->p, or))
ospf_zebra_add_discard ((struct prefix_ipv4 *) &rn->p);
}
}
static void
ospf_intra_route_add (struct route_table *rt, struct vertex *v,
struct ospf_area *area)
{
struct route_node *rn;
struct ospf_route *or;
struct prefix_ipv4 p;
struct ospf_path *path;
struct vertex_parent *parent;
struct listnode *node, *nnode;
p.family = AF_INET;
p.prefix = v->id;
if (v->type == OSPF_VERTEX_ROUTER)
p.prefixlen = IPV4_MAX_BITLEN;
else
{
struct network_lsa *lsa = (struct network_lsa *) v->lsa;
p.prefixlen = ip_masklen (lsa->mask);
}
apply_mask_ipv4 (&p);
rn = route_node_get (rt, (struct prefix *) &p);
if (rn->info)
{
zlog_warn ("Same routing information exists for %s", inet_ntoa (v->id));
route_unlock_node (rn);
return;
}
or = ospf_route_new ();
if (v->type == OSPF_VERTEX_NETWORK)
{
or->type = OSPF_DESTINATION_NETWORK;
for (ALL_LIST_ELEMENTS (v->parents, node, nnode, parent))
{
path = ospf_path_new ();
path->nexthop = parent->nexthop->router;
listnode_add (or->paths, path);
}
}
else
or->type = OSPF_DESTINATION_ROUTER;
or->id = v->id;
or->u.std.area_id = area->area_id;
or->u.std.external_routing= area->external_routing;
or->path_type = OSPF_PATH_INTRA_AREA;
or->cost = v->distance;
rn->info = or;
}
/* RFC2328 16.1. (4). For "router". */
void
ospf_intra_add_router (struct route_table *rt, struct vertex *v,
struct ospf_area *area)
{
struct route_node *rn;
struct ospf_route *or;
struct prefix_ipv4 p;
struct router_lsa *lsa;
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("ospf_intra_add_router: Start");
lsa = (struct router_lsa *) v->lsa;
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("ospf_intra_add_router: LS ID: %s",
inet_ntoa (lsa->header.id));
ospf_vl_up_check (area, lsa->header.id, v);
if (!CHECK_FLAG (lsa->flags, ROUTER_LSA_SHORTCUT))
area->shortcut_capability = 0;
/* If the newly added vertex is an area border router or AS boundary
router, a routing table entry is added whose destination type is
"router". */
if (! IS_ROUTER_LSA_BORDER (lsa) && ! IS_ROUTER_LSA_EXTERNAL (lsa))
{
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("ospf_intra_add_router: "
"this router is neither ASBR nor ABR, skipping it");
return;
}
/* Update ABR and ASBR count in this area. */
if (IS_ROUTER_LSA_BORDER (lsa))
area->abr_count++;
if (IS_ROUTER_LSA_EXTERNAL (lsa))
area->asbr_count++;
/* The Options field found in the associated router-LSA is copied
into the routing table entry's Optional capabilities field. Call
the newly added vertex Router X. */
or = ospf_route_new ();
or->id = v->id;
or->u.std.area_id = area->area_id;
or->u.std.external_routing = area->external_routing;
or->path_type = OSPF_PATH_INTRA_AREA;
or->cost = v->distance;
or->type = OSPF_DESTINATION_ROUTER;
or->u.std.origin = (struct lsa_header *) lsa;
or->u.std.options = lsa->header.options;
or->u.std.flags = lsa->flags;
/* If Router X is the endpoint of one of the calculating router's
virtual links, and the virtual link uses Area A as Transit area:
the virtual link is declared up, the IP address of the virtual
interface is set to the IP address of the outgoing interface
calculated above for Router X, and the virtual neighbor's IP
address is set to Router X's interface address (contained in
Router X's router-LSA) that points back to the root of the
shortest- path tree; equivalently, this is the interface that
points back to Router X's parent vertex on the shortest-path tree
(similar to the calculation in Section 16.1.1). */
p.family = AF_INET;
p.prefix = v->id;
p.prefixlen = IPV4_MAX_BITLEN;
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("ospf_intra_add_router: talking about %s/%d",
inet_ntoa (p.prefix), p.prefixlen);
rn = route_node_get (rt, (struct prefix *) &p);
/* Note that we keep all routes to ABRs and ASBRs, not only the best */
if (rn->info == NULL)
rn->info = list_new ();
else
route_unlock_node (rn);
ospf_route_copy_nexthops_from_vertex (or, v);
listnode_add (rn->info, or);
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("ospf_intra_add_router: Stop");
}
/* RFC2328 16.1. (4). For transit network. */
void
ospf_intra_add_transit (struct route_table *rt, struct vertex *v,
struct ospf_area *area)
{
struct route_node *rn;
struct ospf_route *or;
struct prefix_ipv4 p;
struct network_lsa *lsa;
lsa = (struct network_lsa*) v->lsa;
/* If the newly added vertex is a transit network, the routing table
entry for the network is located. The entry's Destination ID is
the IP network number, which can be obtained by masking the
Vertex ID (Link State ID) with its associated subnet mask (found
in the body of the associated network-LSA). */
p.family = AF_INET;
p.prefix = v->id;
p.prefixlen = ip_masklen (lsa->mask);
apply_mask_ipv4 (&p);
rn = route_node_get (rt, (struct prefix *) &p);
/* If the routing table entry already exists (i.e., there is already
an intra-area route to the destination installed in the routing
table), multiple vertices have mapped to the same IP network.
For example, this can occur when a new Designated Router is being
established. In this case, the current routing table entry
should be overwritten if and only if the newly found path is just
as short and the current routing table entry's Link State Origin
has a smaller Link State ID than the newly added vertex' LSA. */
if (rn->info)
{
struct ospf_route *cur_or;
route_unlock_node (rn);
cur_or = rn->info;
if (v->distance > cur_or->cost ||
IPV4_ADDR_CMP (&cur_or->u.std.origin->id, &lsa->header.id) > 0)
return;
ospf_route_free (rn->info);
}
or = ospf_route_new ();
or->id = v->id;
or->u.std.area_id = area->area_id;
or->u.std.external_routing = area->external_routing;
or->path_type = OSPF_PATH_INTRA_AREA;
or->cost = v->distance;
or->type = OSPF_DESTINATION_NETWORK;
or->u.std.origin = (struct lsa_header *) lsa;
ospf_route_copy_nexthops_from_vertex (or, v);
rn->info = or;
}
/* RFC2328 16.1. second stage. */
void
ospf_intra_add_stub (struct route_table *rt, struct router_lsa_link *link,
struct vertex *v, struct ospf_area *area)
{
u_int32_t cost;
struct route_node *rn;
struct ospf_route *or;
struct prefix_ipv4 p;
struct router_lsa *lsa;
struct ospf_interface *oi;
struct ospf_path *path;
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("ospf_intra_add_stub(): Start");
lsa = (struct router_lsa *) v->lsa;
p.family = AF_INET;
p.prefix = link->link_id;
p.prefixlen = ip_masklen (link->link_data);
apply_mask_ipv4 (&p);
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("ospf_intra_add_stub(): processing route to %s/%d",
inet_ntoa (p.prefix), p.prefixlen);
/* (1) Calculate the distance D of stub network from the root. D is
equal to the distance from the root to the router vertex
(calculated in stage 1), plus the stub network link's advertised
cost. */
cost = v->distance + ntohs (link->m[0].metric);
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("ospf_intra_add_stub(): calculated cost is %d + %d = %d",
v->distance, ntohs(link->m[0].metric), cost);
rn = route_node_get (rt, (struct prefix *) &p);
/* Lookup current routing table. */
if (rn->info)
{
struct ospf_route *cur_or;
route_unlock_node (rn);
cur_or = rn->info;
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("ospf_intra_add_stub(): "
"another route to the same prefix found with cost %u",
cur_or->cost);
/* Compare this distance to the current best cost to the stub
network. This is done by looking up the stub network's
current routing table entry. If the calculated distance D is
larger, go on to examine the next stub network link in the
LSA. */
if (cost > cur_or->cost)
{
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("ospf_intra_add_stub(): old route is better, exit");
return;
}
/* (2) If this step is reached, the stub network's routing table
entry must be updated. Calculate the set of next hops that
would result from using the stub network link. This
calculation is shown in Section 16.1.1; input to this
calculation is the destination (the stub network) and the
parent vertex (the router vertex). If the distance D is the
same as the current routing table cost, simply add this set
of next hops to the routing table entry's list of next hops.
In this case, the routing table already has a Link State
Origin. If this Link State Origin is a router-LSA whose Link
State ID is smaller than V's Router ID, reset the Link State
Origin to V's router-LSA. */
if (cost == cur_or->cost)
{
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("ospf_intra_add_stub(): routes are equal, merge");
ospf_route_copy_nexthops_from_vertex (cur_or, v);
if (IPV4_ADDR_CMP (&cur_or->u.std.origin->id, &lsa->header.id) < 0)
cur_or->u.std.origin = (struct lsa_header *) lsa;
return;
}
/* Otherwise D is smaller than the routing table cost.
Overwrite the current routing table entry by setting the
routing table entry's cost to D, and by setting the entry's
list of next hops to the newly calculated set. Set the
routing table entry's Link State Origin to V's router-LSA.
Then go on to examine the next stub network link. */
if (cost < cur_or->cost)
{
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("ospf_intra_add_stub(): new route is better, set it");
cur_or->cost = cost;
list_delete_all_node (cur_or->paths);
ospf_route_copy_nexthops_from_vertex (cur_or, v);
cur_or->u.std.origin = (struct lsa_header *) lsa;
return;
}
}
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("ospf_intra_add_stub(): installing new route");
or = ospf_route_new ();
or->id = v->id;
or->u.std.area_id = area->area_id;
or->u.std.external_routing = area->external_routing;
or->path_type = OSPF_PATH_INTRA_AREA;
or->cost = cost;
or->type = OSPF_DESTINATION_NETWORK;
or->u.std.origin = (struct lsa_header *) lsa;
/* Nexthop is depend on connection type. */
if (v != area->spf)
{
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("ospf_intra_add_stub(): this network is on remote router");
ospf_route_copy_nexthops_from_vertex (or, v);
}
else
{
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("ospf_intra_add_stub(): this network is on this router");
if ((oi = ospf_if_lookup_by_prefix (area->ospf, &p)))
{
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("ospf_intra_add_stub(): the interface is %s",
IF_NAME (oi));
path = ospf_path_new ();
path->nexthop.s_addr = 0;
path->oi = oi;
listnode_add (or->paths, path);
}
else
{
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("ospf_intra_add_stub(): where's the interface ?");
}
}
rn->info = or;
if (IS_DEBUG_OSPF_EVENT)
zlog_debug("ospf_intra_add_stub(): Stop");
}
const char *ospf_path_type_str[] =
{
"unknown-type",
"intra-area",
"inter-area",
"type1-external",
"type2-external"
};
void
ospf_route_table_dump (struct route_table *rt)
{
struct route_node *rn;
struct ospf_route *or;
char buf1[BUFSIZ];
char buf2[BUFSIZ];
struct listnode *pnode;
struct ospf_path *path;
#if 0
zlog_debug ("Type Dest Area Path Type Cost Next Adv.");
zlog_debug (" Hop(s) Router(s)");
#endif /* 0 */
zlog_debug ("========== OSPF routing table ==========");
for (rn = route_top (rt); rn; rn = route_next (rn))
if ((or = rn->info) != NULL)
{
if (or->type == OSPF_DESTINATION_NETWORK)
{
zlog_debug ("N %s/%d\t%s\t%s\t%d",
inet_ntop (AF_INET, &rn->p.u.prefix4, buf1, BUFSIZ),
rn->p.prefixlen,
inet_ntop (AF_INET, &or->u.std.area_id, buf2,
BUFSIZ),
ospf_path_type_str[or->path_type],
or->cost);
for (ALL_LIST_ELEMENTS_RO (or->paths, pnode, path))
zlog_debug (" -> %s", inet_ntoa (path->nexthop));
}
else
zlog_debug ("R %s\t%s\t%s\t%d",
inet_ntop (AF_INET, &rn->p.u.prefix4, buf1, BUFSIZ),
inet_ntop (AF_INET, &or->u.std.area_id, buf2,
BUFSIZ),
ospf_path_type_str[or->path_type],
or->cost);
}
zlog_debug ("========================================");
}
void
ospf_terminate ()
{
struct ospf *ospf;
struct listnode *node, *nnode;
for (ALL_LIST_ELEMENTS (om->ospf, node, nnode, ospf))
{
if (ospf->new_table)
ospf_route_delete (ospf->new_table);
if (ospf->old_external_route)
ospf_route_delete (ospf->old_external_route);
}
}
/* This is 16.4.1 implementation.
o Intra-area paths using non-backbone areas are always the most preferred.
o The other paths, intra-area backbone paths and inter-area paths,
are of equal preference. */
static int
ospf_asbr_route_cmp (struct ospf *ospf, struct ospf_route *r1,
struct ospf_route *r2)
{
u_char r1_type, r2_type;
r1_type = r1->path_type;
r2_type = r2->path_type;
/* If RFC1583Compat flag is on -- all paths are equal. */
if (CHECK_FLAG (ospf->config, OSPF_RFC1583_COMPATIBLE))
return 0;
/* r1/r2 itself is backbone, and it's Inter-area path. */
if (OSPF_IS_AREA_ID_BACKBONE (r1->u.std.area_id))
r1_type = OSPF_PATH_INTER_AREA;
if (OSPF_IS_AREA_ID_BACKBONE (r2->u.std.area_id))
r2_type = OSPF_PATH_INTER_AREA;
return (r1_type - r2_type);
}
/* Compare two routes.
ret < 0 -- r1 is better.
ret == 0 -- r1 and r2 are the same.
ret > 0 -- r2 is better. */
int
ospf_route_cmp (struct ospf *ospf, struct ospf_route *r1,
struct ospf_route *r2)
{
int ret = 0;
/* Path types of r1 and r2 are not the same. */
if ((ret = (r1->path_type - r2->path_type)))
return ret;
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("Route[Compare]: Path types are the same.");
/* Path types are the same, compare any cost. */
switch (r1->path_type)
{
case OSPF_PATH_INTRA_AREA:
case OSPF_PATH_INTER_AREA:
break;
case OSPF_PATH_TYPE1_EXTERNAL:
if (!CHECK_FLAG (ospf->config, OSPF_RFC1583_COMPATIBLE))
{
ret = ospf_asbr_route_cmp (ospf, r1->u.ext.asbr, r2->u.ext.asbr);
if (ret != 0)
return ret;
}
break;
case OSPF_PATH_TYPE2_EXTERNAL:
if ((ret = (r1->u.ext.type2_cost - r2->u.ext.type2_cost)))
return ret;
if (!CHECK_FLAG (ospf->config, OSPF_RFC1583_COMPATIBLE))
{
ret = ospf_asbr_route_cmp (ospf, r1->u.ext.asbr, r2->u.ext.asbr);
if (ret != 0)
return ret;
}
break;
}
/* Anyway, compare the costs. */
return (r1->cost - r2->cost);
}
static int
ospf_path_exist (struct list *plist, struct in_addr nexthop,
struct ospf_interface *oi)
{
struct listnode *node, *nnode;
struct ospf_path *path;
for (ALL_LIST_ELEMENTS (plist, node, nnode, path))
if (IPV4_ADDR_SAME (&path->nexthop, &nexthop) && path->oi == oi)
return 1;
return 0;
}
void
ospf_route_copy_nexthops_from_vertex (struct ospf_route *to,
struct vertex *v)
{
struct listnode *node;
struct ospf_path *path;
struct vertex_nexthop *nexthop;
struct vertex_parent *vp;
assert (to->paths);
for (ALL_LIST_ELEMENTS_RO (v->parents, node, vp))
{
nexthop = vp->nexthop;
if (nexthop->oi != NULL)
{
if (! ospf_path_exist (to->paths, nexthop->router, nexthop->oi))
{
path = ospf_path_new ();
path->nexthop = nexthop->router;
path->oi = nexthop->oi;
listnode_add (to->paths, path);
}
}
}
}
struct ospf_path *
ospf_path_lookup (struct list *plist, struct ospf_path *path)
{
struct listnode *node;
struct ospf_path *op;
for (ALL_LIST_ELEMENTS_RO (plist, node, op))
if (IPV4_ADDR_SAME (&op->nexthop, &path->nexthop) &&
IPV4_ADDR_SAME (&op->adv_router, &path->adv_router))
return op;
return NULL;
}
void
ospf_route_copy_nexthops (struct ospf_route *to, struct list *from)
{
struct listnode *node, *nnode;
struct ospf_path *path;
assert (to->paths);
for (ALL_LIST_ELEMENTS (from, node, nnode, path))
/* The same routes are just discarded. */
if (!ospf_path_lookup (to->paths, path))
listnode_add (to->paths, ospf_path_dup (path));
}
void
ospf_route_subst_nexthops (struct ospf_route *to, struct list *from)
{
list_delete_all_node (to->paths);
ospf_route_copy_nexthops (to, from);
}
void
ospf_route_subst (struct route_node *rn, struct ospf_route *new_or,
struct ospf_route *over)
{
route_lock_node (rn);
ospf_route_free (rn->info);
ospf_route_copy_nexthops (new_or, over->paths);
rn->info = new_or;
route_unlock_node (rn);
}
void
ospf_route_add (struct route_table *rt, struct prefix_ipv4 *p,
struct ospf_route *new_or, struct ospf_route *over)
{
struct route_node *rn;
rn = route_node_get (rt, (struct prefix *) p);
ospf_route_copy_nexthops (new_or, over->paths);
if (rn->info)
{
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("ospf_route_add(): something's wrong !");
route_unlock_node (rn);
return;
}
rn->info = new_or;
}
void
ospf_prune_unreachable_networks (struct route_table *rt)
{
struct route_node *rn, *next;
struct ospf_route *or;
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("Pruning unreachable networks");
for (rn = route_top (rt); rn; rn = next)
{
next = route_next (rn);
if (rn->info != NULL)
{
or = rn->info;
if (listcount (or->paths) == 0)
{
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("Pruning route to %s/%d",
inet_ntoa (rn->p.u.prefix4), rn->p.prefixlen);
ospf_route_free (or);
rn->info = NULL;
route_unlock_node (rn);
}
}
}
}
void
ospf_prune_unreachable_routers (struct route_table *rtrs)
{
struct route_node *rn, *next;
struct ospf_route *or;
struct listnode *node, *nnode;
struct list *paths;
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("Pruning unreachable routers");
for (rn = route_top (rtrs); rn; rn = next)
{
next = route_next (rn);
if ((paths = rn->info) == NULL)
continue;
for (ALL_LIST_ELEMENTS (paths, node, nnode, or))
{
if (listcount (or->paths) == 0)
{
if (IS_DEBUG_OSPF_EVENT)
{
zlog_debug ("Pruning route to rtr %s",
inet_ntoa (rn->p.u.prefix4));
zlog_debug (" via area %s",
inet_ntoa (or->u.std.area_id));
}
listnode_delete (paths, or);
ospf_route_free (or);
}
}
if (listcount (paths) == 0)
{
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("Pruning router node %s", inet_ntoa (rn->p.u.prefix4));
list_delete (paths);
rn->info = NULL;
route_unlock_node (rn);
}
}
}
int
ospf_add_discard_route (struct route_table *rt, struct ospf_area *area,
struct prefix_ipv4 *p)
{
struct route_node *rn;
struct ospf_route *or, *new_or;
rn = route_node_get (rt, (struct prefix *) p);
if (rn == NULL)
{
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("ospf_add_discard_route(): router installation error");
return 0;
}
if (rn->info) /* If the route to the same destination is found */
{
route_unlock_node (rn);
or = rn->info;
if (or->path_type == OSPF_PATH_INTRA_AREA)
{
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("ospf_add_discard_route(): "
"an intra-area route exists");
return 0;
}
if (or->type == OSPF_DESTINATION_DISCARD)
{
if (IS_DEBUG_OSPF_EVENT)
zlog_debug ("ospf_add_discard_route(): "
"discard entry already installed");
return 0;
}
ospf_route_free (rn->info);
}
new_or = ospf_route_new ();
new_or->type = OSPF_DESTINATION_DISCARD;
new_or->id.s_addr = 0;
new_or->cost = 0;
new_or->u.std.area_id = area->area_id;
new_or->u.std.external_routing = area->external_routing;
new_or->path_type = OSPF_PATH_INTER_AREA;
rn->info = new_or;
ospf_zebra_add_discard (p);
return 1;
}
void
ospf_delete_discard_route (struct prefix_ipv4 *p)
{
ospf_zebra_delete_discard(p);
}
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