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tinc/src/node.c
Guus Sliepen 153abaa4d9 Use datagram SPTPS for packet exchange between nodes. 
When two nodes which support SPTPS want to send packets to each other, they now
always use SPTPS. The node initiating the SPTPS session send the first SPTPS
packet via an extended REQ_KEY messages. All other handshake messages are sent
using ANS_KEY messages. This ensures that intermediate nodes using an older
version of tinc can still help with NAT traversal. After the authentication
phase is over, SPTPS packets are sent via UDP, or are encapsulated in extended
REQ_KEY messages instead of PACKET messages.
2012-07-30 18:36:59 +02:00

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/*
node.c -- node tree management
Copyright (C) 2001-2011 Guus Sliepen <guus@tinc-vpn.org>,
2001-2005 Ivo Timmermans
This program 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 of the License, or
(at your option) any later version.
This program 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 this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include "system.h"
#include "control_common.h"
#include "splay_tree.h"
#include "logger.h"
#include "net.h"
#include "netutl.h"
#include "node.h"
#include "utils.h"
#include "xalloc.h"
splay_tree_t *node_tree; /* Known nodes, sorted by name */
splay_tree_t *node_udp_tree; /* Known nodes, sorted by address and port */
node_t *myself;
static int node_compare(const node_t *a, const node_t *b) {
return strcmp(a->name, b->name);
}
static int node_udp_compare(const node_t *a, const node_t *b) {
int result;
result = sockaddrcmp(&a->address, &b->address);
if(result)
return result;
return (a->name && b->name) ? strcmp(a->name, b->name) : 0;
}
void init_nodes(void) {
node_tree = splay_alloc_tree((splay_compare_t) node_compare, (splay_action_t) free_node);
node_udp_tree = splay_alloc_tree((splay_compare_t) node_udp_compare, NULL);
}
void exit_nodes(void) {
splay_delete_tree(node_udp_tree);
splay_delete_tree(node_tree);
}
node_t *new_node(void) {
node_t *n = xmalloc_and_zero(sizeof *n);
if(replaywin) n->late = xmalloc_and_zero(replaywin);
n->subnet_tree = new_subnet_tree();
n->edge_tree = new_edge_tree();
n->mtu = MTU;
n->maxmtu = MTU;
return n;
}
void free_node(node_t *n) {
if(n->subnet_tree)
free_subnet_tree(n->subnet_tree);
if(n->edge_tree)
free_edge_tree(n->edge_tree);
sockaddrfree(&n->address);
cipher_close(&n->incipher);
digest_close(&n->indigest);
cipher_close(&n->outcipher);
digest_close(&n->outdigest);
ecdsa_free(&n->ecdsa);
sptps_stop(&n->sptps);
if(timeout_initialized(&n->mtuevent))
event_del(&n->mtuevent);
if(n->hostname)
free(n->hostname);
if(n->name)
free(n->name);
if(n->late)
free(n->late);
free(n);
}
void node_add(node_t *n) {
splay_insert(node_tree, n);
}
void node_del(node_t *n) {
splay_node_t *node, *next;
edge_t *e;
subnet_t *s;
for(node = n->subnet_tree->head; node; node = next) {
next = node->next;
s = node->data;
subnet_del(n, s);
}
for(node = n->edge_tree->head; node; node = next) {
next = node->next;
e = node->data;
edge_del(e);
}
splay_delete(node_udp_tree, n);
splay_delete(node_tree, n);
}
node_t *lookup_node(char *name) {
node_t n = {NULL};
n.name = name;
return splay_search(node_tree, &n);
}
node_t *lookup_node_udp(const sockaddr_t *sa) {
node_t n = {NULL};
n.address = *sa;
n.name = NULL;
return splay_search(node_udp_tree, &n);
}
void update_node_udp(node_t *n, const sockaddr_t *sa) {
if(n == myself) {
logger(DEBUG_ALWAYS, LOG_WARNING, "Trying to update UDP address of myself!");
return;
}
splay_delete(node_udp_tree, n);
if(n->hostname)
free(n->hostname);
if(sa) {
n->address = *sa;
n->hostname = sockaddr2hostname(&n->address);
splay_insert(node_udp_tree, n);
logger(DEBUG_PROTOCOL, LOG_DEBUG, "UDP address of %s set to %s", n->name, n->hostname);
} else {
memset(&n->address, 0, sizeof n->address);
n->hostname = NULL;
logger(DEBUG_PROTOCOL, LOG_DEBUG, "UDP address of %s cleared", n->name);
}
}
bool dump_nodes(connection_t *c) {
splay_node_t *node;
node_t *n;
for(node = node_tree->head; node; node = node->next) {
n = node->data;
send_request(c, "%d %d %s at %s cipher %d digest %d maclength %d compression %d options %x status %04x nexthop %s via %s distance %d pmtu %hd (min %hd max %hd)", CONTROL, REQ_DUMP_NODES,
n->name, n->hostname, cipher_get_nid(&n->outcipher),
digest_get_nid(&n->outdigest), (int)digest_length(&n->outdigest), n->outcompression,
n->options, bitfield_to_int(&n->status, sizeof n->status), n->nexthop ? n->nexthop->name : "-",
n->via ? n->via->name ?: "-" : "-", n->distance, n->mtu, n->minmtu, n->maxmtu);
}
return send_request(c, "%d %d", CONTROL, REQ_DUMP_NODES);
}
bool dump_traffic(connection_t *c) {
splay_node_t *node;
node_t *n;
for(node = node_tree->head; node; node = node->next) {
n = node->data;
send_request(c, "%d %d %s %"PRIu64" %"PRIu64" %"PRIu64" %"PRIu64, CONTROL, REQ_DUMP_TRAFFIC,
n->name, n->in_packets, n->in_bytes, n->out_packets, n->out_bytes);
}
return send_request(c, "%d %d", CONTROL, REQ_DUMP_TRAFFIC);
}
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