}
if(n->mtuprobes == 31) {
+ if(!n->minmtu && n->status.want_udp) {
+ /* Send a dummy ANS_KEY to try to update the reflexive UDP address */
+ send_request(mesh, n->nexthop->connection, NULL, "%d %s %s . -1 -1 -1 0", ANS_KEY, mesh->self->name, n->name);
+ n->status.want_udp = false;
+ }
+
timeout = mesh->dev_class_traits[n->devclass].pinginterval;
goto end;
} else if(n->mtuprobes == 32) {
n->status.broadcast = false;
end:
- timeout_set(&mesh->loop, &n->mtutimeout, &(struct timeval) {
+ timeout_set(&mesh->loop, &n->mtutimeout, &(struct timespec) {
timeout, prng(mesh, TIMER_FUDGE)
});
}
void send_mtu_probe(meshlink_handle_t *mesh, node_t *n) {
- timeout_add(&mesh->loop, &n->mtutimeout, send_mtu_probe_handler, n, &(struct timeval) {
+ timeout_add(&mesh->loop, &n->mtutimeout, send_mtu_probe_handler, n, &(struct timespec) {
1, 0
});
send_mtu_probe_handler(&mesh->loop, n);
is possible using the address and socket that the reply
packet used. */
- n->status.udp_confirmed = true;
+ if(!n->status.udp_confirmed) {
+ char *address, *port;
+ sockaddr2str(&n->address, &address, &port);
+ send_request(mesh, n->nexthop->connection, NULL, "%d %s %s . -1 -1 -1 0 %s %s", ANS_KEY, n->name, n->name, address, port);
+ free(address);
+ free(port);
+ n->status.udp_confirmed = true;
+ }
/* If we haven't established the PMTU yet, restart the discovery process. */
return;
}
- sptps_receive_data(&n->sptps, inpkt->data, inpkt->len);
+ if(!sptps_receive_data(&n->sptps, inpkt->data, inpkt->len)) {
+ logger(mesh, MESHLINK_ERROR, "Could not process SPTPS data from %s: %s", n->name, strerror(errno));
+ }
}
static void send_sptps_packet(meshlink_handle_t *mesh, node_t *n, vpn_packet_t *origpkt) {
return;
}
+ /* If we have learned an address via Catta, try this once every batch */
+ if(mesh->udp_choice == 1 && n->catta_address.sa.sa_family != AF_UNSPEC) {
+ *sa = &n->catta_address;
+ goto check_socket;
+ }
+
/* Otherwise, address are found in edges to this node.
So we pick a random edge and a random socket. */
*sock = prng(mesh, mesh->listen_sockets);
}
+check_socket:
+
/* Make sure we have a suitable socket for the chosen address */
if(mesh->listen_socket[*sock].sa.sa.sa_family != (*sa)->sa.sa_family) {
for(int i = 0; i < mesh->listen_sockets; i++) {
/* Send it via TCP if it is a handshake packet, TCPOnly is in use, or this packet is larger than the MTU. */
- if(type >= SPTPS_HANDSHAKE || (type != PKT_PROBE && len > to->minmtu)) {
+ if(type >= SPTPS_HANDSHAKE || (type != PKT_PROBE && (len - 21) > to->minmtu)) {
char buf[len * 4 / 3 + 5];
b64encode(data, buf, len);
return true;
}
- if(len > MTU) {
- logger(mesh, MESHLINK_ERROR, "Packet from %s larger than maximum supported size (%d > %d)", from->name, len, MTU);
+ if(len > MAXSIZE) {
+ logger(mesh, MESHLINK_ERROR, "Packet from %s larger than maximum supported size (%d > %d)", from->name, len, MAXSIZE);
return false;
}
n->out_packets++;
n->out_bytes += packet->len;
+ n->status.want_udp = true;
send_sptps_packet(mesh, n, packet);
return;
if(n) {
update_node_udp(mesh, n, &from);
- } else if(mesh->log_level >= MESHLINK_WARNING) {
+ } else if(mesh->log_level <= MESHLINK_WARNING) {
hostname = sockaddr2hostname(&from);
logger(mesh, MESHLINK_WARNING, "Received UDP packet from unknown source %s", hostname);
free(hostname);