sockaddrfree(&n->address);
- cipher_close(&n->cipher);
- digest_close(&n->digest);
+ cipher_close(&n->incipher);
+ digest_close(&n->indigest);
+ cipher_close(&n->outcipher);
+ digest_close(&n->outdigest);
event_del(&n->mtuevent);
}
splay_delete(node_tree, n);
+ splay_delete(node_udp_tree, n);
}
node_t *lookup_node(char *name) {
return splay_search(node_udp_tree, &n);
}
+void update_node_udp(node_t *n, const sockaddr_t *sa)
+{
+ splay_delete(node_udp_tree, n);
+
+ if(n->hostname)
+ free(n->hostname);
+
+ if(sa) {
+ n->address = *sa;
+ n->hostname = sockaddr2hostname(&n->address);
+ splay_delete(node_udp_tree, n);
+ splay_insert(node_udp_tree, n);
+ logger(LOG_DEBUG, "UDP address of %s set to %s", n->name, n->hostname);
+ } else {
+ memset(&n->address, 0, sizeof n->address);
+ logger(LOG_DEBUG, "UDP address of %s cleared", n->name);
+ }
+}
+
int dump_nodes(struct evbuffer *out) {
splay_node_t *node;
node_t *n;
for(node = node_tree->head; node; node = node->next) {
n = node->data;
if(evbuffer_add_printf(out, _(" %s at %s cipher %d digest %d maclength %d compression %d options %lx status %04x nexthop %s via %s distance %d pmtu %d (min %d max %d)\n"),
- n->name, n->hostname, cipher_get_nid(&n->cipher),
- digest_get_nid(&n->digest), n->maclength, n->compression,
+ n->name, n->hostname, cipher_get_nid(&n->outcipher),
+ digest_get_nid(&n->outdigest), n->outmaclength, n->outcompression,
n->options, *(uint32_t *)&n->status, n->nexthop ? n->nexthop->name : "-",
n->via ? n->via->name : "-", n->distance, n->mtu, n->minmtu, n->maxmtu) == -1)
return errno;