blob: fd7fc779819f93d519be76ca3167bd24938cdae2 [file] [log] [blame]
/*
* Copyright (C) 1999 Yasuhiro Ohara
*
* 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.
*/
/* Shortest Path First calculation for OSPFv3 */
#include "ospf6d.h"
#include "linklist.h"
#include "prefix.h"
#include "table.h"
#include "ospf6_proto.h"
#include "ospf6_lsa.h"
#include "ospf6_lsdb.h"
#include "ospf6_route.h"
#include "ospf6_spf.h"
#include "ospf6_neighbor.h"
#include "ospf6_interface.h"
#include "ospf6_area.h"
#include "ospf6_bintree.h"
#include "ospf6_linklist.h"
struct bintree *_candidate_list;
struct linklist *nexthop_list;
struct ospf6_spf_candidate_node
{
u_int32_t cost;
struct linklist *list;
};
int
ospf6_spf_candidate_node_cmp (void *a, void *b)
{
struct ospf6_spf_candidate_node *ca = a;
struct ospf6_spf_candidate_node *cb = b;
return ca->cost - cb->cost;
}
int
ospf6_spf_vertex_cmp (void *a, void *b)
{
return 1;
}
void
ospf6_spf_candidate_node_print (int indent_num, void *node)
{
struct ospf6_spf_candidate_node *cn = node;
char format[256];
snprintf (format, sizeof (format), "%%%ds %%d (num: %%d)",
indent_num * 2 + 1);
zlog_info (format, " ", cn->cost, cn->list->count);
}
void
ospf6_spf_candidate_init ()
{
_candidate_list = bintree_create ();
_candidate_list->cmp = ospf6_spf_candidate_node_cmp;
}
u_int32_t
ospf6_spf_candidate_count ()
{
u_int32_t count = 0;
struct bintree_node node;
struct ospf6_spf_candidate_node *cnode;
for (bintree_head (_candidate_list, &node); ! bintree_end (&node);
bintree_next (&node))
{
cnode = node.data;
count += cnode->list->count;
}
return count;
}
void
ospf6_spf_candidate_print ()
{
zlog_info ("---------------------------");
bintree_print (ospf6_spf_candidate_node_print, _candidate_list);
zlog_info ("---------------------------");
}
void
ospf6_spf_candidate_enqueue (struct ospf6_vertex *v)
{
struct ospf6_spf_candidate_node req, *node;
memset (&req, 0, sizeof (req));
req.cost = v->distance;
node = bintree_lookup (&req, _candidate_list);
if (node == NULL)
{
node = malloc (sizeof (struct ospf6_spf_candidate_node));
node->cost = v->distance;
node->list = linklist_create ();
node->list->cmp = ospf6_spf_vertex_cmp;
bintree_add (node, _candidate_list);
}
linklist_add (v, node->list);
#if 0
if (IS_OSPF6_DUMP_SPF)
ospf6_spf_candidate_print ();
#endif
}
struct ospf6_vertex *
ospf6_spf_candidate_dequeue ()
{
struct ospf6_spf_candidate_node *node;
struct linklist_node lnode;
struct ospf6_vertex *ret;
node = bintree_lookup_min (_candidate_list);
if (node == NULL)
return NULL;
linklist_head (node->list, &lnode);
ret = lnode.data;
linklist_remove (ret, node->list);
if (node->list->count == 0)
{
linklist_delete (node->list);
bintree_remove (node, _candidate_list);
}
#if 0
if (IS_OSPF6_DUMP_SPF)
ospf6_spf_candidate_print ();
#endif
return ret;
}
void
ospf6_spf_candidate_remove (struct ospf6_vertex *v)
{
struct bintree_node node;
struct ospf6_spf_candidate_node *cnode = NULL;
for (bintree_head (_candidate_list, &node); ! bintree_end (&node);
bintree_next (&node))
{
cnode = node.data;
if (linklist_lookup (v, cnode->list))
{
linklist_remove (v, cnode->list);
break;
}
}
if (cnode->list->count == 0)
{
linklist_delete (cnode->list);
bintree_remove (cnode, _candidate_list);
}
}
#define TIMER_SEC_MICRO 1000000
/* timeval calculation */
static void
ospf6_timeval_add (const struct timeval *t1, const struct timeval *t2,
struct timeval *result)
{
long moveup = 0;
result->tv_usec = t1->tv_usec + t2->tv_usec;
while (result->tv_usec > TIMER_SEC_MICRO)
{
result->tv_usec -= TIMER_SEC_MICRO;
moveup ++;
}
result->tv_sec = t1->tv_sec + t2->tv_sec + moveup;
}
static void
ospf6_timeval_add_equal (const struct timeval *t, struct timeval *result)
{
struct timeval tmp;
ospf6_timeval_add (t, result, &tmp);
result->tv_sec = tmp.tv_sec;
result->tv_usec = tmp.tv_usec;
}
/* Compare timeval a and b. It returns an integer less than, equal
to, or great than zero if a is found, respectively, to be less
than, to match, or be greater than b. */
static int
ospf6_timeval_cmp (const struct timeval t1, const struct timeval t2)
{
return (t1.tv_sec == t2.tv_sec
? t1.tv_usec - t2.tv_usec : t1.tv_sec - t2.tv_sec);
}
static int
ospf6_spf_lsd_num (struct ospf6_vertex *V, struct ospf6_area *o6a)
{
u_int16_t type;
u_int32_t id, adv_router;
struct ospf6_lsa *lsa;
if (V->vertex_id.id.s_addr)
type = htons (OSPF6_LSA_TYPE_NETWORK);
else
type = htons (OSPF6_LSA_TYPE_ROUTER);
id = V->vertex_id.id.s_addr;
adv_router = V->vertex_id.adv_router.s_addr;
lsa = ospf6_lsdb_lookup_lsdb (type, id, adv_router, o6a->lsdb);
if (! lsa)
{
zlog_err ("SPF: Can't find associated LSA for %s", V->string);
return 0;
}
return ospf6_lsa_lsd_num ((struct ospf6_lsa_header *) lsa->header);
}
/* RFC2328 section 16.1.1:
Check if there is at least one router in the path
from the root to this vertex. */
static int
ospf6_spf_is_router_to_root (struct ospf6_vertex *c,
struct ospf6_spftree *spf_tree)
{
listnode node;
struct ospf6_vertex *p;
if (spf_tree->root == c)
return 0;
for (node = listhead (c->parent_list); node; nextnode (node))
{
p = (struct ospf6_vertex *) getdata (node);
if (p == spf_tree->root)
return 0;
if (p->vertex_id.id.s_addr == 0) /* this is router */
continue;
else if (ospf6_spf_is_router_to_root (p, spf_tree))
continue;
return 0;
}
return 1;
}
static struct in6_addr *
ospf6_spf_get_ipaddr (u_int32_t id, u_int32_t adv_router, u_int32_t ifindex)
{
char buf[64], nhbuf[64];
struct ospf6_interface *o6i;
struct ospf6_neighbor *o6n;
struct ospf6_lsa *lsa;
struct ospf6_lsdb_node node;
o6i = ospf6_interface_lookup_by_index (ifindex);
if (! o6i)
{
zlog_err ("SPF: Can't find interface: index %d", ifindex);
return (struct in6_addr *) NULL;
}
/* Find Link-LSA of the vertex in question */
lsa = NULL;
for (ospf6_lsdb_type_router (&node, htons (OSPF6_LSA_TYPE_LINK),
adv_router, o6i->lsdb);
! ospf6_lsdb_is_end (&node);
ospf6_lsdb_next (&node))
lsa = node.lsa;
/* return Linklocal Address field if the Link-LSA exists */
if (lsa && lsa->header->adv_router == adv_router)
{
struct ospf6_link_lsa *link_lsa;
link_lsa = (struct ospf6_link_lsa *) (lsa->header + 1);
return &link_lsa->llsa_linklocal;
}
zlog_warn ("SPF: Can't find Link-LSA for %s",
inet_ntop (AF_INET, &adv_router, buf, sizeof (buf)));
o6n = ospf6_neighbor_lookup (adv_router, o6i);
if (! o6n)
{
inet_ntop (AF_INET, &adv_router, buf, sizeof (buf));
zlog_err ("SPF: Can't find neighbor %s in %s, "
"unable to find his linklocal address",
buf, o6i->interface->name);
return (struct in6_addr *) NULL;
}
zlog_warn ("SPF: use packet's source address for %s's nexthop: %s",
inet_ntop (AF_INET, &adv_router, buf, sizeof (buf)),
inet_ntop (AF_INET6, &o6n->hisaddr, nhbuf, sizeof (nhbuf)));
return &o6n->hisaddr;
}
static int
ospf6_spf_nexthop_calculation (struct ospf6_vertex *W,
u_int32_t ifindex,
struct ospf6_vertex *V,
struct ospf6_spftree *spf_tree)
{
struct ospf6_nexthop *nexthop, *n;
u_int32_t adv_router, id;
struct in6_addr nexthop_ipaddr, *ipaddr;
unsigned int nexthop_ifindex;
struct linklist_node node;
/* until this, nexthop_list should be untouched */
assert (list_isempty (W->nexthop_list));
/* If ther is at least one intervening router from root to W */
if (ospf6_spf_is_router_to_root (W, spf_tree))
{
/* Create no new nexthop, Inherit from the intervening router */
for (linklist_head (V->nexthop_list, &node); ! linklist_end (&node);
linklist_next (&node))
linklist_add (node.data, W->nexthop_list);
return 0;
}
/* Create new nexthop */
adv_router = W->vertex_id.adv_router.s_addr;
id = W->vertex_id.id.s_addr;
nexthop_ifindex = 0;
memset (&nexthop_ipaddr, 0, sizeof (struct in6_addr));
if (spf_tree->root && V == spf_tree->root)
{
nexthop_ifindex = ifindex;
if (! id) /* xxx, if V is router */
{
ipaddr = ospf6_spf_get_ipaddr (id, adv_router, ifindex);
if (! ipaddr)
{
/* xxx, should trigger error and quit SPF calculation... */
memset (&nexthop_ipaddr, 0xff, sizeof (struct in6_addr));
return -1;
}
else
memcpy (&nexthop_ipaddr, ipaddr, sizeof (struct in6_addr));
}
}
else
{
/* V is broadcast network, W is router */
assert (V->vertex_id.id.s_addr != 0);
assert (W->vertex_id.id.s_addr == 0);
linklist_head (V->nexthop_list, &node);
n = (struct ospf6_nexthop *) node.data;
nexthop_ifindex = n->ifindex;
ipaddr = ospf6_spf_get_ipaddr (id, adv_router, n->ifindex);
if (! ipaddr)
{
/* xxx, should trigger error and quit SPF calculation... */
memset (&nexthop_ipaddr, 0xff, sizeof (struct in6_addr));
return -1;
}
else
memcpy (&nexthop_ipaddr, ipaddr, sizeof (struct in6_addr));
}
nexthop = XCALLOC (MTYPE_OSPF6_VERTEX, sizeof (struct ospf6_nexthop));
nexthop->ifindex = nexthop_ifindex;
memcpy (&nexthop->address, &nexthop_ipaddr, sizeof (nexthop->address));
linklist_add (nexthop, W->nexthop_list);
/* to hold malloced memory */
linklist_add (nexthop, nexthop_list);
return 0;
}
static struct ospf6_vertex *
ospf6_spf_vertex_create (int index, struct ospf6_vertex *V,
struct ospf6_area *o6a)
{
struct ospf6_lsa *lsa;
struct ospf6_router_lsa *router_lsa;
struct ospf6_router_lsd *router_lsd;
struct ospf6_network_lsa *network_lsa;
struct ospf6_network_lsd *network_lsd;
u_int32_t id, adv_router;
u_int16_t type;
void *lsd;
struct ospf6_vertex *W;
u_int16_t distance;
u_int32_t ifindex;
int backreference, lsdnum, i;
char buf_router[16], buf_id[16];
type = id = adv_router = 0;
/* Get Linkstate description */
lsd = ospf6_lsa_lsd_get (index, (struct ospf6_lsa_header *) V->lsa->header);
if (! lsd)
{
zlog_err ("SPF: Can't find %dth Link description from %s",
index, V->lsa->str);
return (struct ospf6_vertex *) NULL;
}
/* Check Link state description */
distance = 0;
ifindex = 0;
if (V->lsa->header->type == htons (OSPF6_LSA_TYPE_ROUTER))
{
router_lsd = lsd;
if (router_lsd->type == OSPF6_ROUTER_LSD_TYPE_POINTTOPOINT)
{
type = htons (OSPF6_LSA_TYPE_ROUTER);
id = htonl (0);
}
else if (router_lsd->type == OSPF6_ROUTER_LSD_TYPE_TRANSIT_NETWORK)
{
type = htons (OSPF6_LSA_TYPE_NETWORK);
id = router_lsd->neighbor_interface_id;
}
adv_router = router_lsd->neighbor_router_id;
distance = ntohs (router_lsd->metric);
ifindex = ntohl (router_lsd->interface_id);
}
else if (V->lsa->header->type == htons (OSPF6_LSA_TYPE_NETWORK))
{
network_lsd = lsd;
type = htons (OSPF6_LSA_TYPE_ROUTER);
id = htonl (0);
adv_router = network_lsd->adv_router;
}
/* Avoid creating candidate of myself */
if (adv_router == o6a->ospf6->router_id &&
type == htons (OSPF6_LSA_TYPE_ROUTER))
{
return (struct ospf6_vertex *) NULL;
}
/* Find Associated LSA for W */
lsa = ospf6_lsdb_lookup_lsdb (type, id, adv_router, o6a->lsdb);
if (! lsa)
{
inet_ntop (AF_INET, &adv_router, buf_router, sizeof (buf_router));
inet_ntop (AF_INET, &id, buf_id, sizeof (buf_id));
if (IS_OSPF6_DUMP_SPF)
{
if (type == htons (OSPF6_LSA_TYPE_ROUTER))
zlog_info ("SPF: Can't find LSA for W (%s *): not found",
buf_router);
else
zlog_info ("SPF: Can't find LSA for W (%s %s): not found",
buf_router, buf_id);
}
return (struct ospf6_vertex *) NULL;
}
if (IS_LSA_MAXAGE (lsa))
{
if (IS_OSPF6_DUMP_SPF)
zlog_info ("SPF: Associated LSA for W is MaxAge: %s", lsa->str);
return (struct ospf6_vertex *) NULL;
}
/* Check back reference from W's lsa to V's lsa */
backreference = 0;
lsdnum = ospf6_lsa_lsd_num ((struct ospf6_lsa_header *) lsa->header);
for (i = 0; i < lsdnum; i++)
{
if (ospf6_lsa_lsd_is_refer_ok (i, (struct ospf6_lsa_header *) lsa->header,
index, (struct ospf6_lsa_header *) V->lsa->header))
backreference++;
}
if (! backreference)
{
if (IS_OSPF6_DUMP_SPF)
zlog_info ("SPF: Back reference failed: V: %s, W: %s",
V->lsa->str, lsa->str);
return (struct ospf6_vertex *) NULL;
}
/* Allocate new ospf6_vertex for W */
W = (struct ospf6_vertex *) XMALLOC (MTYPE_OSPF6_VERTEX,
sizeof (struct ospf6_vertex));
if (! W)
{
zlog_err ("SPF: Can't allocate memory for Vertex");
return (struct ospf6_vertex *) NULL;
}
memset (W, 0, sizeof (struct ospf6_vertex));
/* Initialize */
W->vertex_id.family = AF_UNSPEC;
W->vertex_id.prefixlen = 64; /* xxx */
W->lsa = lsa;
if (type == htons (OSPF6_LSA_TYPE_ROUTER))
W->vertex_id.id.s_addr = htonl (0); /* XXX */
else
W->vertex_id.id.s_addr = W->lsa->header->id;
W->vertex_id.adv_router.s_addr = W->lsa->header->adv_router;
W->nexthop_list = linklist_create ();
W->path_list = list_new ();
W->parent_list = list_new ();
W->distance = V->distance + distance;
W->depth = V->depth + 1;
inet_ntop (AF_INET, &W->vertex_id.adv_router.s_addr,
buf_router, sizeof (buf_router));
inet_ntop (AF_INET, &W->vertex_id.id.s_addr, buf_id, sizeof (buf_id));
snprintf (W->string, sizeof (W->string), "[%s-%s (%d)]",
buf_router, buf_id, W->distance);
/* capability bits and optional capabilities */
if (W->vertex_id.id.s_addr == 0)
{
router_lsa = (struct ospf6_router_lsa *) (W->lsa->header + 1);
W->capability_bits = router_lsa->bits;
memcpy (W->opt_capability, router_lsa->options,
sizeof (W->opt_capability));
}
else
{
network_lsa = (struct ospf6_network_lsa *) (W->lsa->header + 1);
W->capability_bits = network_lsa->reserved;
memcpy (W->opt_capability, network_lsa->options,
sizeof (W->opt_capability));
}
/* Link to Parent node */
listnode_add (W->parent_list, V);
/* Nexthop Calculation */
if (ospf6_spf_nexthop_calculation (W, ifindex, V, o6a->spf_tree) < 0)
return NULL;
return W;
}
static void
ospf6_spf_vertex_delete (struct ospf6_vertex *v)
{
linklist_delete (v->nexthop_list);
list_delete (v->path_list);
list_delete (v->parent_list);
XFREE (MTYPE_OSPF6_VERTEX, v);
}
static void
ospf6_spf_vertex_merge (struct ospf6_vertex *w, struct ospf6_vertex *x)
{
listnode node;
struct linklist_node lnode;
/* merge should be done on two nodes which are
almost the same */
/* these w and x should be both candidate.
candidate should not have any children */
assert (list_isempty (w->path_list));
assert (list_isempty (x->path_list));
/* merge parent list */
for (node = listhead (w->parent_list); node; nextnode (node))
{
if (listnode_lookup (x->parent_list, getdata (node)))
continue;
listnode_add (x->parent_list, getdata (node));
}
/* merge nexthop list */
for (linklist_head (w->nexthop_list, &lnode); ! linklist_end (&lnode);
linklist_next (&lnode))
linklist_add (lnode.data, x->nexthop_list);
}
static void
ospf6_spf_initialize (list candidate_list, struct ospf6_area *o6a)
{
listnode node;
struct ospf6_vertex *v;
struct ospf6_lsa *lsa;
u_int16_t type;
u_int32_t id, adv_router;
struct linklist_node lnode;
struct ospf6_nexthop *nexthop;
struct interface *ifp;
char buf_router[64], buf_id[64];
/* delete topology routing table for this area */
ospf6_route_remove_all (o6a->table_topology);
/* Delete previous spf tree */
for (node = listhead (o6a->spf_tree->list); node; nextnode (node))
{
v = (struct ospf6_vertex *) getdata (node);
ospf6_spf_vertex_delete (v);
}
list_delete_all_node (o6a->spf_tree->list);
for (linklist_head (nexthop_list, &lnode); ! linklist_end (&lnode);
linklist_next (&lnode))
XFREE (MTYPE_OSPF6_VERTEX, lnode.data);
linklist_remove_all (nexthop_list);
/* Find self originated Router-LSA */
type = htons (OSPF6_LSA_TYPE_ROUTER);
id = htonl (0);
adv_router = ospf6->router_id;
lsa = ospf6_lsdb_lookup_lsdb (type, id, adv_router, o6a->lsdb);
if (! lsa)
{
if (IS_OSPF6_DUMP_SPF)
zlog_info ("SPF: Can't find self originated Router-LSA");
return;
}
if (IS_LSA_MAXAGE (lsa))
{
zlog_err ("SPF: MaxAge self originated Router-LSA");
return;
}
/* Create root vertex */
v = (struct ospf6_vertex *) XMALLOC (MTYPE_OSPF6_VERTEX,
sizeof (struct ospf6_vertex));
if (! v)
{
zlog_err ("SPF: Can't allocate memory for root vertex");
return;
}
memset (v, 0, sizeof (struct ospf6_vertex));
v->vertex_id.family = AF_UNSPEC; /* XXX */
v->vertex_id.prefixlen = 64; /* XXX */
v->vertex_id.id.s_addr = htonl (0);
v->vertex_id.adv_router.s_addr = ospf6->router_id;
if (ospf6_is_asbr (ospf6))
OSPF6_OPT_SET (v->opt_capability, OSPF6_OPT_E);
OSPF6_OPT_SET (v->opt_capability, OSPF6_OPT_V6);
OSPF6_OPT_SET (v->opt_capability, OSPF6_OPT_R);
v->nexthop_list = linklist_create ();
v->path_list = list_new ();
v->parent_list = list_new ();
v->distance = 0;
v->depth = 0;
v->lsa = lsa;
inet_ntop (AF_INET, &v->vertex_id.adv_router.s_addr,
buf_router, sizeof (buf_router));
inet_ntop (AF_INET, &v->vertex_id.id.s_addr, buf_id, sizeof (buf_id));
snprintf (v->string, sizeof (v->string), "[%s-%s (%d)]",
buf_router, buf_id, v->distance);
nexthop = XCALLOC (MTYPE_OSPF6_VERTEX, sizeof (struct ospf6_nexthop));
ifp = if_lookup_by_name ("lo0");
if (ifp)
nexthop->ifindex = ifp->ifindex;
inet_pton (AF_INET6, "::1", &nexthop->address);
linklist_add (nexthop, v->nexthop_list);
linklist_add (nexthop, nexthop_list);
o6a->spf_tree->root = v;
listnode_add (candidate_list, v);
ospf6_spf_candidate_enqueue (v);
}
static struct ospf6_vertex *
ospf6_spf_get_closest_candidate (list candidate_list)
{
listnode node;
struct ospf6_vertex *candidate, *closest;
closest = (struct ospf6_vertex *) NULL;
for (node = listhead (candidate_list); node; nextnode (node))
{
candidate = (struct ospf6_vertex *) getdata (node);
if (closest && candidate->distance > closest->distance)
continue;
/* always choose network vertices if those're the same cost */
if (closest && candidate->distance == closest->distance
&& closest->vertex_id.id.s_addr != 0)
continue;
closest = candidate;
}
return closest;
}
static struct ospf6_vertex *
ospf6_spf_get_same_candidate (struct ospf6_vertex *w, list candidate_list)
{
listnode node;
struct ospf6_vertex *c, *same;
same = (struct ospf6_vertex *) NULL;
for (node = listhead (candidate_list); node; nextnode (node))
{
c = (struct ospf6_vertex *) getdata (node);
if (w->vertex_id.adv_router.s_addr != c->vertex_id.adv_router.s_addr)
continue;
if (w->vertex_id.id.s_addr != c->vertex_id.id.s_addr)
continue;
if (same)
zlog_warn ("SPF: duplicate candidates in candidate_list");
same = c;
}
return same;
}
static void
ospf6_spf_install (struct ospf6_vertex *vertex, struct ospf6_area *o6a)
{
listnode node;
struct ospf6_vertex *parent;
struct ospf6_nexthop *nexthop;
struct ospf6_route_req request;
struct linklist_node lnode;
struct ospf6_router_lsa *router_lsa;
struct ospf6_network_lsa *network_lsa;
router_lsa = OSPF6_LSA_HEADER_END (vertex->lsa->header);
network_lsa = OSPF6_LSA_HEADER_END (vertex->lsa->header);
if (IS_OSPF6_DUMP_SPF)
{
zlog_info ("SPF: Install: %s", vertex->string);
}
listnode_add (o6a->spf_tree->list, vertex);
for (node = listhead (vertex->parent_list); node; nextnode (node))
{
parent = (struct ospf6_vertex *) getdata (node);
listnode_add (parent->path_list, vertex);
vertex->depth = parent->depth + 1;
}
#if 0
if (vertex == o6a->spf_tree->root)
return;
#endif /*0*/
/* install route to topology table */
memset (&request, 0, sizeof (request));
if (vertex->vertex_id.id.s_addr) /* xxx */
request.route.type = OSPF6_DEST_TYPE_NETWORK;
else
request.route.type = OSPF6_DEST_TYPE_ROUTER;
memcpy (&request.route.prefix, &vertex->vertex_id,
sizeof (struct prefix));
request.path.area_id = o6a->area_id;
request.path.type = OSPF6_PATH_TYPE_INTRA;
request.path.cost = vertex->distance;
request.path.cost_e2 = 0;
request.path.origin.type = vertex->lsa->header->type;
request.path.origin.id = vertex->lsa->header->id;
request.path.origin.adv_router = vertex->lsa->header->adv_router;
if (vertex->lsa->header->type == htons (OSPF6_LSA_TYPE_ROUTER))
request.path.router_bits = router_lsa->bits;
memcpy (&request.path.capability, vertex->opt_capability,
sizeof (request.path.capability));
#if 0
if (IS_OSPF6_DUMP_SPF)
zlog_info ("SPF: install %d nexthops for %s",
listcount (vertex->nexthop_list), vertex->string);
#endif
for (linklist_head (vertex->nexthop_list, &lnode); ! linklist_end (&lnode);
linklist_next (&lnode))
{
nexthop = lnode.data;
request.nexthop.ifindex = nexthop->ifindex;
memcpy (&request.nexthop.address, &nexthop->address,
sizeof (request.nexthop.address));
ospf6_route_add (&request, o6a->table_topology);
}
}
struct ospf6_vertex *
ospf6_spf_lookup (struct ospf6_vertex *w, struct ospf6_area *o6a)
{
listnode node;
struct ospf6_vertex *v;
for (node = listhead (o6a->spf_tree->list); node; nextnode (node))
{
v = (struct ospf6_vertex *) getdata (node);
if (w->vertex_id.adv_router.s_addr != v->vertex_id.adv_router.s_addr)
continue;
if (w->vertex_id.id.s_addr != v->vertex_id.id.s_addr)
continue;
return v;
}
return (struct ospf6_vertex *) NULL;
}
u_int32_t stat_node = 0;
u_int32_t stat_candidate = 0;
u_int32_t stat_candidate_max = 0;
u_int32_t stat_spf = 0;
/* RFC2328 section 16.1 , RFC2740 section 3.8.1 */
static int
ospf6_spf_calculation (struct ospf6_area *o6a)
{
list candidate_list;
struct ospf6_vertex *V, *W, *X;
int ldnum, i;
if (! o6a || ! o6a->spf_tree)
{
zlog_err ("SPF: Can't calculate SPF tree: malformed area");
return -1;
}
stat_spf ++;
stat_node = 0;
stat_candidate = 0;
stat_candidate_max = 0;
if (IS_OSPF6_DUMP_SPF)
zlog_info ("SPF: Calculation for area %s", o6a->str);
ospf6_route_table_freeze (o6a->table_topology);
ospf6_route_remove_all (o6a->table_topology);
/* (1): Initialize the algorithm's data structures */
candidate_list = list_new ();
ospf6_spf_initialize (candidate_list, o6a);
stat_candidate ++;
/* (3): Install closest from candidate list; if empty, break */
while (listcount (candidate_list))
{
V = ospf6_spf_get_closest_candidate (candidate_list);
listnode_delete (candidate_list, V);
{
struct ospf6_vertex *V_;
if (stat_candidate_max < ospf6_spf_candidate_count ())
stat_candidate_max = ospf6_spf_candidate_count ();
V_ = ospf6_spf_candidate_dequeue ();
#if 0
if (IS_OSPF6_DUMP_SPF)
{
zlog_info ("Candidate list count: %lu",
(u_long)ospf6_spf_candidate_count ());
zlog_info ("*** Candidate %s: %p <-> %p",
(V == V_ ? "same" : "*** differ ***"), V, V_);
zlog_info (" %p: %s", V, V->string);
zlog_info (" %p: %s", V_, V_->string);
}
#endif
}
stat_node++;
ospf6_spf_install (V, o6a);
/* (2): Examin LSA of just added vertex */
ldnum = ospf6_spf_lsd_num (V, o6a);
for (i = 0; i < ldnum; i++)
{
/* (b): If no LSA, or MaxAge, or LinkBack fail, examin next */
W = ospf6_spf_vertex_create (i, V, o6a);
if (! W)
continue;
stat_candidate ++;
/* (c) */
if (ospf6_spf_lookup (W, o6a))
{
if (IS_OSPF6_DUMP_SPF)
zlog_info ("SPF: %s: Already in SPF tree", W->string);
ospf6_spf_vertex_delete (W);
continue;
}
/* (d) */
X = ospf6_spf_get_same_candidate (W, candidate_list);
if (X && X->distance < W->distance)
{
if (IS_OSPF6_DUMP_SPF)
zlog_info ("SPF: %s: More closer found", W->string);
ospf6_spf_vertex_delete (W);
continue;
}
if (X && X->distance == W->distance)
{
if (IS_OSPF6_DUMP_SPF)
zlog_info ("SPF: %s: new ECMP candidate", W->string);
ospf6_spf_vertex_merge (W, X);
ospf6_spf_vertex_delete (W);
continue;
}
if (X)
{
if (IS_OSPF6_DUMP_SPF)
zlog_info ("SPF: %s: Swap with old candidate", W->string);
listnode_delete (candidate_list, X);
ospf6_spf_candidate_remove (X);
ospf6_spf_vertex_delete (X);
}
else
{
if (IS_OSPF6_DUMP_SPF)
zlog_info ("SPF: %s: New Candidate", W->string);
}
if (stat_candidate_max < ospf6_spf_candidate_count ())
stat_candidate_max = ospf6_spf_candidate_count ();
listnode_add (candidate_list, W);
ospf6_spf_candidate_enqueue (W);
}
}
assert (listcount (candidate_list) == 0);
list_free (candidate_list);
assert (ospf6_spf_candidate_count () == 0);
/* Clear thread timer */
o6a->spf_tree->t_spf_calculation = (struct thread *) NULL;
if (IS_OSPF6_DUMP_SPF)
{
zlog_info ("SPF: Calculation for area %s done", o6a->str);
zlog_info ("SPF: Statistics: %luth", (u_long)stat_spf);
zlog_info ("SPF: Node Number: %lu", (u_long)stat_node);
zlog_info ("SPF: Candidate Number: %lu Max: %lu",
(u_long) stat_candidate, (u_long) stat_candidate_max);
}
ospf6_route_table_thaw (o6a->table_topology);
return 0;
}
int
ospf6_spf_calculation_thread (struct thread *t)
{
struct ospf6_area *o6a;
struct timeval start, end, runtime, interval;
o6a = (struct ospf6_area *) THREAD_ARG (t);
if (! o6a)
{
zlog_err ("SPF: Thread error");
return -1;
}
if (! o6a->spf_tree)
{
zlog_err ("SPF: Can't find SPF Tree for area: %s", o6a->str);
return -1;
}
/* execute SPF calculation */
gettimeofday (&start, (struct timezone *) NULL);
ospf6_spf_calculation (o6a);
gettimeofday (&end, (struct timezone *) NULL);
/* update statistics */
o6a->spf_tree->timerun ++;
ospf6_timeval_sub (&end, &start, &runtime);
ospf6_timeval_add_equal (&runtime, &o6a->spf_tree->runtime_total);
if (o6a->spf_tree->timerun == 1)
{
o6a->spf_tree->runtime_min.tv_sec = runtime.tv_sec;
o6a->spf_tree->runtime_min.tv_usec = runtime.tv_usec;
o6a->spf_tree->runtime_max.tv_sec = runtime.tv_sec;
o6a->spf_tree->runtime_max.tv_usec = runtime.tv_usec;
}
if (ospf6_timeval_cmp (o6a->spf_tree->runtime_min, runtime) > 0)
{
o6a->spf_tree->runtime_min.tv_sec = runtime.tv_sec;
o6a->spf_tree->runtime_min.tv_usec = runtime.tv_usec;
}
if (ospf6_timeval_cmp (runtime, o6a->spf_tree->runtime_max) > 0)
{
o6a->spf_tree->runtime_max.tv_sec = runtime.tv_sec;
o6a->spf_tree->runtime_max.tv_usec = runtime.tv_usec;
}
if (o6a->spf_tree->timerun == 1)
{
ospf6_timeval_sub (&start, &ospf6->starttime, &interval);
ospf6_timeval_add_equal (&interval, &o6a->spf_tree->interval_total);
o6a->spf_tree->interval_min.tv_sec = interval.tv_sec;
o6a->spf_tree->interval_min.tv_usec = interval.tv_usec;
o6a->spf_tree->interval_max.tv_sec = interval.tv_sec;
o6a->spf_tree->interval_max.tv_usec = interval.tv_usec;
}
else
{
ospf6_timeval_sub (&start, &o6a->spf_tree->updated_time, &interval);
ospf6_timeval_add_equal (&interval, &o6a->spf_tree->interval_total);
if (ospf6_timeval_cmp (o6a->spf_tree->interval_min, interval) > 0)
{
o6a->spf_tree->interval_min.tv_sec = interval.tv_sec;
o6a->spf_tree->interval_min.tv_usec = interval.tv_usec;
}
if (ospf6_timeval_cmp (interval, o6a->spf_tree->interval_max) > 0)
{
o6a->spf_tree->interval_max.tv_sec = interval.tv_sec;
o6a->spf_tree->interval_max.tv_usec = interval.tv_usec;
}
}
o6a->spf_tree->updated_time.tv_sec = end.tv_sec;
o6a->spf_tree->updated_time.tv_usec = end.tv_usec;
/* clear thread */
o6a->spf_tree->t_spf_calculation = (struct thread *) NULL;
return 0;
}
void
ospf6_spf_database_hook (struct ospf6_lsa *old, struct ospf6_lsa *new)
{
struct ospf6_area *o6a = NULL;
struct ospf6_interface *o6i = NULL;
if (new->header->type == htons (OSPF6_LSA_TYPE_ROUTER) ||
new->header->type == htons (OSPF6_LSA_TYPE_NETWORK))
o6a = new->scope;
else if (new->header->type == htons (OSPF6_LSA_TYPE_LINK))
{
o6i = new->scope;
o6a = o6i->area;
}
if (o6a)
ospf6_spf_calculation_schedule (o6a->area_id);
}
void
ospf6_spf_calculation_schedule (u_int32_t area_id)
{
struct ospf6_area *o6a;
char buf[64];
o6a = ospf6_area_lookup (area_id, ospf6);
if (! o6a)
{
inet_ntop (AF_INET, &area_id, buf, sizeof (buf));
zlog_err ("SPF: Can't find area: %s", buf);
return;
}
if (! o6a->spf_tree)
{
zlog_err ("SPF: Can't find SPF Tree for area: %s", o6a->str);
return;
}
if (o6a->spf_tree->t_spf_calculation)
return;
o6a->spf_tree->t_spf_calculation =
thread_add_event (master, ospf6_spf_calculation_thread, o6a, 0);
}
struct ospf6_spftree *
ospf6_spftree_create ()
{
struct ospf6_spftree *spf_tree;
spf_tree = (struct ospf6_spftree *) XMALLOC (MTYPE_OSPF6_SPFTREE,
sizeof (struct ospf6_spftree));
if (! spf_tree)
{
zlog_err ("SPF: Can't allocate memory for SPF tree");
return (struct ospf6_spftree *) NULL;
}
memset (spf_tree, 0, sizeof (spf_tree));
spf_tree->list = list_new ();
return spf_tree;
}
void
ospf6_spftree_delete (struct ospf6_spftree *spf_tree)
{
listnode node;
struct ospf6_vertex *v;
/* Delete spf tree */
for (node = listhead (spf_tree->list); node; nextnode (node))
{
v = (struct ospf6_vertex *) getdata (node);
ospf6_spf_vertex_delete (v);
}
list_delete_all_node (spf_tree->list);
XFREE (MTYPE_OSPF6_SPFTREE, spf_tree);
}
void
ospf6_nexthop_show (struct vty *vty, struct ospf6_nexthop *nexthop)
{
char buf[128], *ifname;
struct ospf6_interface *o6i;
ifname = NULL;
o6i = ospf6_interface_lookup_by_index (nexthop->ifindex);
if (! o6i)
{
zlog_err ("Spf: invalid ifindex %d in nexthop", nexthop->ifindex);
}
else
ifname = o6i->interface->name;
inet_ntop (AF_INET6, &nexthop->address, buf, sizeof (buf));
vty_out (vty, " %s%%%s(%d)%s", buf, ifname,
nexthop->ifindex, VTY_NEWLINE);
}
void
ospf6_vertex_show (struct vty *vty, struct ospf6_vertex *vertex)
{
listnode node;
struct ospf6_vertex *v;
struct linklist_node lnode;
vty_out (vty, "SPF node %s%s", vertex->string, VTY_NEWLINE);
vty_out (vty, " cost to this node: %d%s", vertex->distance, VTY_NEWLINE);
vty_out (vty, " hops to this node: %d%s", vertex->depth, VTY_NEWLINE);
vty_out (vty, " nexthops reachable to this node:%s", VTY_NEWLINE);
for (linklist_head (vertex->nexthop_list, &lnode);
! linklist_end (&lnode);
linklist_next (&lnode))
ospf6_nexthop_show (vty, (struct ospf6_nexthop *) lnode.data);
vty_out (vty, " parent nodes to this node:%s", VTY_NEWLINE);
if (! list_isempty (vertex->parent_list))
vty_out (vty, " ");
for (node = listhead (vertex->parent_list); node; nextnode (node))
{
v = (struct ospf6_vertex *) getdata (node);
vty_out (vty, "%s ", v->string);
}
if (! list_isempty (vertex->parent_list))
vty_out (vty, "%s", VTY_NEWLINE);
vty_out (vty, " child nodes to this node:%s", VTY_NEWLINE);
if (! list_isempty (vertex->path_list))
vty_out (vty, " ");
for (node = listhead (vertex->path_list); node; nextnode (node))
{
v = (struct ospf6_vertex *) getdata (node);
vty_out (vty, "%s ", v->string);
}
if (! list_isempty (vertex->path_list))
vty_out (vty, "%s", VTY_NEWLINE);
vty_out (vty, "%s", VTY_NEWLINE);
}
void
ospf6_spf_statistics_show (struct vty *vty, struct ospf6_spftree *spf_tree)
{
listnode node;
struct ospf6_vertex *vertex;
u_int router_count, network_count, maxdepth;
struct timeval runtime_avg, interval_avg, last_updated, now;
char rmin[64], rmax[64], ravg[64];
char imin[64], imax[64], iavg[64];
char last_updated_string[64];
maxdepth = router_count = network_count = 0;
for (node = listhead (spf_tree->list); node; nextnode (node))
{
vertex = (struct ospf6_vertex *) getdata (node);
if (vertex->vertex_id.id.s_addr)
network_count++;
else
router_count++;
if (maxdepth < vertex->depth)
maxdepth = vertex->depth;
}
ospf6_timeval_div (&spf_tree->runtime_total, spf_tree->timerun,
&runtime_avg);
ospf6_timeval_string (&spf_tree->runtime_min, rmin, sizeof (rmin));
ospf6_timeval_string (&spf_tree->runtime_max, rmax, sizeof (rmax));
ospf6_timeval_string (&runtime_avg, ravg, sizeof (ravg));
ospf6_timeval_div (&spf_tree->interval_total, spf_tree->timerun,
&interval_avg);
ospf6_timeval_string (&spf_tree->interval_min, imin, sizeof (imin));
ospf6_timeval_string (&spf_tree->interval_max, imax, sizeof (imax));
ospf6_timeval_string (&interval_avg, iavg, sizeof (iavg));
gettimeofday (&now, (struct timezone *) NULL);
ospf6_timeval_sub (&now, &spf_tree->updated_time, &last_updated);
ospf6_timeval_string (&last_updated, last_updated_string,
sizeof (last_updated_string));
vty_out (vty, " SPF algorithm executed %d times%s",
spf_tree->timerun, VTY_NEWLINE);
vty_out (vty, " Average time to run SPF: %s%s",
ravg, VTY_NEWLINE);
vty_out (vty, " Maximum time to run SPF: %s%s",
rmax, VTY_NEWLINE);
vty_out (vty, " Average interval of SPF: %s%s",
iavg, VTY_NEWLINE);
vty_out (vty, " SPF last updated: %s ago%s",
last_updated_string, VTY_NEWLINE);
vty_out (vty, " Current SPF node count: %d%s",
listcount (spf_tree->list), VTY_NEWLINE);
vty_out (vty, " Router: %d Network: %d%s",
router_count, network_count, VTY_NEWLINE);
vty_out (vty, " Maximum of Hop count to nodes: %d%s",
maxdepth, VTY_NEWLINE);
}
DEFUN (show_ipv6_ospf6_area_spf_node,
show_ipv6_ospf6_area_spf_node_cmd,
"show ipv6 ospf6 area A.B.C.D spf node",
SHOW_STR
IP6_STR
OSPF6_STR
OSPF6_AREA_STR
OSPF6_AREA_ID_STR
"Shortest Path First caculation\n"
"vertex infomation\n"
)
{
listnode i;
u_int32_t area_id;
struct ospf6_area *o6a;
struct ospf6_vertex *vertex;
OSPF6_CMD_CHECK_RUNNING ();
inet_pton (AF_INET, argv[0], &area_id);
o6a = ospf6_area_lookup (area_id, ospf6);
if (! o6a)
return CMD_SUCCESS;
for (i = listhead (o6a->spf_tree->list); i; nextnode (i))
{
vertex = (struct ospf6_vertex *) getdata (i);
ospf6_vertex_show (vty, vertex);
}
return CMD_SUCCESS;
}
static void
ospf6_spftree_show (struct vty *vty, char *prefix, int current_rest,
struct ospf6_vertex *v)
{
char *p;
int psize;
int restnum;
listnode node;
vty_out (vty, "%s+-%s%s", prefix, v->string, VTY_NEWLINE);
if (listcount (v->path_list) == 0)
return;
psize = strlen (prefix) + 3;
p = malloc (psize);
if (!p)
{
vty_out (vty, "depth too long ...%s", VTY_NEWLINE);
return;
}
restnum = listcount (v->path_list);
for (node = listhead (v->path_list); node; nextnode (node))
{
--restnum;
snprintf (p, psize, "%s%s", prefix, (current_rest ? "| " : " "));
ospf6_spftree_show (vty, p, restnum,
(struct ospf6_vertex *) getdata (node));
}
free (p);
}
DEFUN (show_ipv6_ospf6_area_spf_tree,
show_ipv6_ospf6_area_spf_tree_cmd,
"show ipv6 ospf6 area A.B.C.D spf tree",
SHOW_STR
IP6_STR
OSPF6_STR
OSPF6_AREA_STR
OSPF6_AREA_ID_STR
"Shortest Path First caculation\n"
"Displays spf tree\n")
{
u_int32_t area_id;
struct ospf6_area *o6a;
OSPF6_CMD_CHECK_RUNNING ();
inet_pton (AF_INET, argv[0], &area_id);
o6a = ospf6_area_lookup (area_id, ospf6);
if (! o6a)
return CMD_SUCCESS;
vty_out (vty, "%s SPF tree for Area %s%s%s",
VTY_NEWLINE, o6a->str, VTY_NEWLINE, VTY_NEWLINE);
if (! o6a->spf_tree->root)
return CMD_SUCCESS;
ospf6_spftree_show (vty, "", 0, o6a->spf_tree->root);
return CMD_SUCCESS;
}
DEFUN (show_ipv6_ospf6_area_topology,
show_ipv6_ospf6_area_topology_cmd,
"show ipv6 ospf6 area A.B.C.D topology",
SHOW_STR
IP6_STR
OSPF6_STR
OSPF6_AREA_STR
OSPF6_AREA_ID_STR
OSPF6_SPF_STR
"Displays SPF topology table\n")
{
struct ospf6_area *o6a;
u_int32_t area_id;
OSPF6_CMD_CHECK_RUNNING ();
inet_pton (AF_INET, argv[0], &area_id);
o6a = ospf6_area_lookup (area_id, ospf6);
if (! o6a)
return CMD_SUCCESS;
argc -= 1;
argv += 1;
return ospf6_route_table_show (vty, argc, argv, o6a->table_topology);
}
ALIAS (show_ipv6_ospf6_area_topology,
show_ipv6_ospf6_area_topology_router_cmd,
"show ipv6 ospf6 area A.B.C.D topology (A.B.C.D|<0-4294967295>|detail)",
SHOW_STR
IP6_STR
OSPF6_STR
OSPF6_AREA_STR
OSPF6_AREA_ID_STR
OSPF6_SPF_STR
"Displays SPF topology table\n"
OSPF6_ROUTER_ID_STR
OSPF6_ROUTER_ID_STR
)
ALIAS (show_ipv6_ospf6_area_topology,
show_ipv6_ospf6_area_topology_router_lsid_cmd,
"show ipv6 ospf6 area A.B.C.D topology (A.B.C.D|<0-4294967295>) (A.B.C.D|<0-4294967295>)",
SHOW_STR
IP6_STR
OSPF6_STR
OSPF6_AREA_STR
OSPF6_AREA_ID_STR
OSPF6_SPF_STR
"Displays SPF topology table\n"
OSPF6_ROUTER_ID_STR
OSPF6_ROUTER_ID_STR
OSPF6_LS_ID_STR
OSPF6_LS_ID_STR
)
void
ospf6_spf_init ()
{
nexthop_list = linklist_create ();
ospf6_spf_candidate_init ();
install_element (VIEW_NODE, &show_ipv6_ospf6_area_spf_node_cmd);
install_element (VIEW_NODE, &show_ipv6_ospf6_area_spf_tree_cmd);
install_element (VIEW_NODE, &show_ipv6_ospf6_area_topology_cmd);
install_element (VIEW_NODE, &show_ipv6_ospf6_area_topology_router_cmd);
install_element (VIEW_NODE, &show_ipv6_ospf6_area_topology_router_lsid_cmd);
install_element (ENABLE_NODE, &show_ipv6_ospf6_area_spf_node_cmd);
install_element (ENABLE_NODE, &show_ipv6_ospf6_area_spf_tree_cmd);
install_element (ENABLE_NODE, &show_ipv6_ospf6_area_topology_cmd);
install_element (ENABLE_NODE, &show_ipv6_ospf6_area_topology_router_cmd);
install_element (ENABLE_NODE, &show_ipv6_ospf6_area_topology_router_lsid_cmd);
}