/*
net_packet.c -- Handles in- and outgoing VPN packets
Copyright (C) 1998-2005 Ivo Timmermans,
- 2000-2014 Guus Sliepen <guus@tinc-vpn.org>
+ 2000-2017 Guus Sliepen <guus@tinc-vpn.org>
2010 Timothy Redaelli <timothy@redaelli.eu>
2010 Brandon Black <blblack@gmail.com>
#define MAX_SEQNO 1073741824
static void try_fix_mtu(node_t *n) {
- if(n->mtuprobes < 0)
+ if(n->mtuprobes < 0) {
return;
+ }
if(n->mtuprobes == 20 || n->minmtu >= n->maxmtu) {
- if(n->minmtu > n->maxmtu)
+ if(n->minmtu > n->maxmtu) {
n->minmtu = n->maxmtu;
- else
+ } else {
n->maxmtu = n->minmtu;
+ }
+
n->mtu = n->minmtu;
logger(DEBUG_TRAFFIC, LOG_INFO, "Fixing MTU of %s (%s) to %d after %d probes", n->name, n->hostname, n->mtu, n->mtuprobes);
n->mtuprobes = -1;
static void udp_probe_timeout_handler(void *data) {
node_t *n = data;
- if(!n->status.udp_confirmed)
+
+ if(!n->status.udp_confirmed) {
return;
+ }
logger(DEBUG_TRAFFIC, LOG_INFO, "Too much time has elapsed since last UDP ping response from %s (%s), stopping UDP communication", n->name, n->hostname);
n->status.udp_confirmed = false;
}
/* Type 2 probe replies were introduced in protocol 17.3 */
- if ((n->options >> 24) >= 3) {
+ if((n->options >> 24) >= 3) {
DATA(packet)[0] = 2;
uint16_t len16 = htons(len);
memcpy(DATA(packet) + 1, &len16, 2);
return send_udp_probe_reply(n, packet, len);
}
- if (DATA(packet)[0] == 2) {
+ if(DATA(packet)[0] == 2) {
// It's a type 2 probe reply, use the length field inside the packet
uint16_t len16;
memcpy(&len16, DATA(packet) + 1, 2);
if(udp_discovery) {
timeout_del(&n->udp_ping_timeout);
- timeout_add(&n->udp_ping_timeout, &udp_probe_timeout_handler, n, &(struct timeval){udp_discovery_timeout, 0});
+ timeout_add(&n->udp_ping_timeout, &udp_probe_timeout_handler, n, &(struct timeval) {
+ udp_discovery_timeout, 0
+ });
}
if(len > n->maxmtu) {
} else if(level < 10) {
#ifdef HAVE_ZLIB
unsigned long destlen = MAXSIZE;
- if(compress2(dest, &destlen, source, len, level) == Z_OK)
+
+ if(compress2(dest, &destlen, source, len, level) == Z_OK) {
return destlen;
- else
+ } else
#endif
return -1;
} else {
} else if(level > 9) {
#ifdef HAVE_LZO
lzo_uint lzolen = MAXSIZE;
- if(lzo1x_decompress_safe(source, len, dest, &lzolen, NULL) == LZO_E_OK)
+
+ if(lzo1x_decompress_safe(source, len, dest, &lzolen, NULL) == LZO_E_OK) {
return lzolen;
- else
+ } else
#endif
return -1;
}
+
#ifdef HAVE_ZLIB
else {
unsigned long destlen = MAXSIZE;
- if(uncompress(dest, &destlen, source, len) == Z_OK)
+
+ if(uncompress(dest, &destlen, source, len) == Z_OK) {
return destlen;
- else
+ } else {
return -1;
+ }
}
+
#endif
return -1;
static void receive_packet(node_t *n, vpn_packet_t *packet) {
logger(DEBUG_TRAFFIC, LOG_DEBUG, "Received packet of %d bytes from %s (%s)",
- packet->len, n->name, n->hostname);
+ packet->len, n->name, n->hostname);
n->in_packets++;
n->in_bytes += packet->len;
}
static bool try_mac(node_t *n, const vpn_packet_t *inpkt) {
- if(n->status.sptps)
+ if(n->status.sptps) {
return sptps_verify_datagram(&n->sptps, DATA(inpkt), inpkt->len);
+ }
#ifdef DISABLE_LEGACY
return false;
#else
- if(!n->status.validkey_in || !digest_active(n->indigest) || inpkt->len < sizeof(seqno_t) + digest_length(n->indigest))
+
+ if(!n->status.validkey_in || !digest_active(n->indigest) || inpkt->len < sizeof(seqno_t) + digest_length(n->indigest)) {
return false;
+ }
return digest_verify(n->indigest, inpkt->data, inpkt->len - digest_length(n->indigest), inpkt->data + inpkt->len - digest_length(n->indigest));
#endif
} else {
logger(DEBUG_TRAFFIC, LOG_DEBUG, "Got packet from %s (%s) but he hasn't got our key yet", n->name, n->hostname);
}
+
return false;
}
- inpkt->offset += 2 * sizeof(node_id_t);
+
n->status.udppacket = true;
- bool result = sptps_receive_data(&n->sptps, DATA(inpkt), inpkt->len - 2 * sizeof(node_id_t));
+ bool result = sptps_receive_data(&n->sptps, DATA(inpkt), inpkt->len);
n->status.udppacket = false;
if(!result) {
logger(DEBUG_PROTOCOL, LOG_ERR, "Failed to decode raw TCP packet from %s (%s), restarting SPTPS", n->name, n->hostname);
send_req_key(n);
}
+
return false;
}
+
return true;
}
#ifdef DISABLE_LEGACY
return false;
#else
+
if(!n->status.validkey_in) {
logger(DEBUG_TRAFFIC, LOG_DEBUG, "Got packet from %s (%s) but he hasn't got our key yet", n->name, n->hostname);
return false;
if(inpkt->len < sizeof(seqno_t) + digest_length(n->indigest)) {
logger(DEBUG_TRAFFIC, LOG_DEBUG, "Got too short packet from %s (%s)",
- n->name, n->hostname);
+ n->name, n->hostname);
return false;
}
if(digest_active(n->indigest)) {
inpkt->len -= digest_length(n->indigest);
+
if(!digest_verify(n->indigest, SEQNO(inpkt), inpkt->len, SEQNO(inpkt) + inpkt->len)) {
logger(DEBUG_TRAFFIC, LOG_DEBUG, "Got unauthenticated packet from %s (%s)", n->name, n->hostname);
return false;
}
}
+
/* Decrypt the packet */
if(cipher_active(n->incipher)) {
/* Check the sequence number */
seqno_t seqno;
- memcpy(&seqno, SEQNO(inpkt), sizeof seqno);
+ memcpy(&seqno, SEQNO(inpkt), sizeof(seqno));
seqno = ntohl(seqno);
- inpkt->len -= sizeof seqno;
+ inpkt->len -= sizeof(seqno);
if(replaywin) {
if(seqno != n->received_seqno + 1) {
if(seqno >= n->received_seqno + replaywin * 8) {
if(n->farfuture++ < replaywin >> 2) {
- logger(DEBUG_ALWAYS, LOG_WARNING, "Packet from %s (%s) is %d seqs in the future, dropped (%u)",
- n->name, n->hostname, seqno - n->received_seqno - 1, n->farfuture);
+ logger(DEBUG_TRAFFIC, LOG_WARNING, "Packet from %s (%s) is %d seqs in the future, dropped (%u)",
+ n->name, n->hostname, seqno - n->received_seqno - 1, n->farfuture);
return false;
}
- logger(DEBUG_ALWAYS, LOG_WARNING, "Lost %d packets from %s (%s)",
- seqno - n->received_seqno - 1, n->name, n->hostname);
+
+ logger(DEBUG_TRAFFIC, LOG_WARNING, "Lost %d packets from %s (%s)",
+ seqno - n->received_seqno - 1, n->name, n->hostname);
memset(n->late, 0, replaywin);
- } else if (seqno <= n->received_seqno) {
+ } else if(seqno <= n->received_seqno) {
if((n->received_seqno >= replaywin * 8 && seqno <= n->received_seqno - replaywin * 8) || !(n->late[(seqno / 8) % replaywin] & (1 << seqno % 8))) {
- logger(DEBUG_ALWAYS, LOG_WARNING, "Got late or replayed packet from %s (%s), seqno %d, last received %d",
- n->name, n->hostname, seqno, n->received_seqno);
+ logger(DEBUG_TRAFFIC, LOG_WARNING, "Got late or replayed packet from %s (%s), seqno %d, last received %d",
+ n->name, n->hostname, seqno, n->received_seqno);
return false;
}
} else {
- for(int i = n->received_seqno + 1; i < seqno; i++)
+ for(int i = n->received_seqno + 1; i < seqno; i++) {
n->late[(i / 8) % replaywin] |= 1 << i % 8;
+ }
}
}
n->late[(seqno / 8) % replaywin] &= ~(1 << seqno % 8);
}
- if(seqno > n->received_seqno)
+ if(seqno > n->received_seqno) {
n->received_seqno = seqno;
+ }
n->received++;
- if(n->received_seqno > MAX_SEQNO)
+ if(n->received_seqno > MAX_SEQNO) {
regenerate_key();
+ }
/* Decompress the packet */
if((outpkt->len = uncompress_packet(DATA(outpkt), DATA(inpkt), inpkt->len, n->incompression)) < 0) {
logger(DEBUG_TRAFFIC, LOG_ERR, "Error while uncompressing packet from %s (%s)",
- n->name, n->hostname);
+ n->name, n->hostname);
return false;
}
inpkt = outpkt;
- origlen -= MTU/64 + 20;
+ origlen -= MTU / 64 + 20;
}
- if(inpkt->len > n->maxrecentlen)
+ if(inpkt->len > n->maxrecentlen) {
n->maxrecentlen = inpkt->len;
+ }
inpkt->priority = 0;
- if(!DATA(inpkt)[12] && !DATA(inpkt)[13])
+ if(!DATA(inpkt)[12] && !DATA(inpkt)[13]) {
udp_probe_h(n, inpkt, origlen);
- else
+ } else {
receive_packet(n, inpkt);
+ }
+
return true;
#endif
}
vpn_packet_t outpkt;
outpkt.offset = DEFAULT_PACKET_OFFSET;
- if(len > sizeof outpkt.data - outpkt.offset)
+ if(len > sizeof(outpkt.data) - outpkt.offset) {
return;
+ }
outpkt.len = len;
- if(c->options & OPTION_TCPONLY)
+
+ if(c->options & OPTION_TCPONLY) {
outpkt.priority = 0;
- else
+ } else {
outpkt.priority = -1;
+ }
+
memcpy(DATA(&outpkt), buffer, len);
receive_packet(c->node, &outpkt);
}
bool receive_tcppacket_sptps(connection_t *c, const char *data, int len) {
- if (len < sizeof(node_id_t) + sizeof(node_id_t)) {
- logger(DEBUG_ALWAYS, LOG_ERR, "Got too short TCP SPTPS packet from %s (%s)", c->name, c->hostname);
+ if(len < sizeof(node_id_t) + sizeof(node_id_t)) {
+ logger(DEBUG_PROTOCOL, LOG_ERR, "Got too short TCP SPTPS packet from %s (%s)", c->name, c->hostname);
return false;
}
node_t *to = lookup_node_id((node_id_t *)data);
- data += sizeof(node_id_t); len -= sizeof(node_id_t);
+ data += sizeof(node_id_t);
+ len -= sizeof(node_id_t);
+
if(!to) {
logger(DEBUG_PROTOCOL, LOG_ERR, "Got TCP SPTPS packet from %s (%s) with unknown destination ID", c->name, c->hostname);
return true;
}
node_t *from = lookup_node_id((node_id_t *)data);
- data += sizeof(node_id_t); len -= sizeof(node_id_t);
+ data += sizeof(node_id_t);
+ len -= sizeof(node_id_t);
+
if(!from) {
logger(DEBUG_PROTOCOL, LOG_ERR, "Got TCP SPTPS packet from %s (%s) with unknown source ID", c->name, c->hostname);
return true;
}
+ if(!to->status.reachable) {
+ /* This can happen in the form of a race condition
+ if the node just became unreachable. */
+ logger(DEBUG_TRAFFIC, LOG_WARNING, "Cannot relay TCP packet from %s (%s) because the destination, %s (%s), is unreachable", from->name, from->hostname, to->name, to->hostname);
+ return true;
+ }
+
/* Help the sender reach us over UDP.
Note that we only do this if we're the destination or the static relay;
otherwise every hop would initiate its own UDP info message, resulting in elevated chatter. */
- if(to->via == myself)
+ if(to->via == myself) {
send_udp_info(myself, from);
+ }
/* If we're not the final recipient, relay the packet. */
logger(DEBUG_PROTOCOL, LOG_ERR, "Failed to decode raw TCP packet from %s (%s), restarting SPTPS", from->name, from->hostname);
send_req_key(from);
}
+
return true;
}
}
static void send_sptps_packet(node_t *n, vpn_packet_t *origpkt) {
- if(!n->status.validkey && !n->connection)
+ if(!n->status.validkey && !n->connection) {
return;
+ }
uint8_t type = 0;
int offset = 0;
- if(!(DATA(origpkt)[12] | DATA(origpkt)[13])) {
+ if((!(DATA(origpkt)[12] | DATA(origpkt)[13])) && (n->sptps.outstate)) {
sptps_send_record(&n->sptps, PKT_PROBE, (char *)DATA(origpkt), origpkt->len);
return;
}
- if(routing_mode == RMODE_ROUTER)
+ if(routing_mode == RMODE_ROUTER) {
offset = 14;
- else
+ } else {
type = PKT_MAC;
+ }
- if(origpkt->len < offset)
+ if(origpkt->len < offset) {
return;
+ }
vpn_packet_t outpkt;
if(n->outcompression) {
outpkt.offset = 0;
int len = compress_packet(DATA(&outpkt) + offset, DATA(origpkt) + offset, origpkt->len - offset, n->outcompression);
+
if(len < 0) {
logger(DEBUG_TRAFFIC, LOG_ERR, "Error while compressing packet to %s (%s)", n->name, n->hostname);
} else if(len < origpkt->len - offset) {
don't bother with SPTPS and just use a "plaintext" PACKET message.
We don't really care about end-to-end security since we're not
sending the message through any intermediate nodes. */
- if(n->connection && origpkt->len > n->minmtu)
+ if(n->connection && origpkt->len > n->minmtu) {
send_tcppacket(n->connection, origpkt);
- else
+ } else {
sptps_send_record(&n->sptps, type, DATA(origpkt) + offset, origpkt->len - offset);
+ }
+
return;
}
*sock = n->sock;
/* If the UDP address is confirmed, use it. */
- if(n->status.udp_confirmed)
+ if(n->status.udp_confirmed) {
return;
+ }
/* Send every third packet to n->address; that could be set
to the node's reflexive UDP address discovered during key
exchange. */
static int x = 0;
+
if(++x >= 3) {
x = 0;
return;
}
}
- if (candidate && candidate->local_address.sa.sa_family) {
+ if(candidate && candidate->local_address.sa.sa_family) {
*sa = &candidate->local_address;
*sock = rand() % listen_sockets;
adapt_socket(*sa, sock);
vpn_packet_t *outpkt;
int origlen = origpkt->len;
size_t outlen;
-#if defined(SOL_IP) && defined(IP_TOS)
- static int priority = 0;
int origpriority = origpkt->priority;
-#endif
pkt1.offset = DEFAULT_PACKET_OFFSET;
pkt2.offset = DEFAULT_PACKET_OFFSET;
return;
}
- if(n->status.sptps)
+ if(n->status.sptps) {
return send_sptps_packet(n, origpkt);
+ }
#ifdef DISABLE_LEGACY
return;
if(!n->status.validkey) {
logger(DEBUG_TRAFFIC, LOG_INFO,
- "No valid key known yet for %s (%s), forwarding via TCP",
- n->name, n->hostname);
+ "No valid key known yet for %s (%s), forwarding via TCP",
+ n->name, n->hostname);
send_tcppacket(n->nexthop->connection, origpkt);
return;
}
if(n->options & OPTION_PMTU_DISCOVERY && inpkt->len > n->minmtu && (DATA(inpkt)[12] | DATA(inpkt)[13])) {
logger(DEBUG_TRAFFIC, LOG_INFO,
- "Packet for %s (%s) larger than minimum MTU, forwarding via %s",
- n->name, n->hostname, n != n->nexthop ? n->nexthop->name : "TCP");
+ "Packet for %s (%s) larger than minimum MTU, forwarding via %s",
+ n->name, n->hostname, n != n->nexthop ? n->nexthop->name : "TCP");
- if(n != n->nexthop)
+ if(n != n->nexthop) {
send_packet(n->nexthop, origpkt);
- else
+ } else {
send_tcppacket(n->nexthop->connection, origpkt);
+ }
return;
}
if((outpkt->len = compress_packet(DATA(outpkt), DATA(inpkt), inpkt->len, n->outcompression)) < 0) {
logger(DEBUG_TRAFFIC, LOG_ERR, "Error while compressing packet to %s (%s)",
- n->name, n->hostname);
+ n->name, n->hostname);
return;
}
/* Add sequence number */
seqno_t seqno = htonl(++(n->sent_seqno));
- memcpy(SEQNO(inpkt), &seqno, sizeof seqno);
- inpkt->len += sizeof seqno;
+ memcpy(SEQNO(inpkt), &seqno, sizeof(seqno));
+ inpkt->len += sizeof(seqno);
/* Encrypt the packet */
const sockaddr_t *sa = NULL;
int sock;
- if(n->status.send_locally)
+ if(n->status.send_locally) {
choose_local_address(n, &sa, &sock);
- if(!sa)
- choose_udp_address(n, &sa, &sock);
+ }
-#if defined(SOL_IP) && defined(IP_TOS)
- if(priorityinheritance && origpriority != priority
- && listen_socket[n->sock].sa.sa.sa_family == AF_INET) {
- priority = origpriority;
- logger(DEBUG_TRAFFIC, LOG_DEBUG, "Setting outgoing packet priority to %d", priority);
- if(setsockopt(listen_socket[n->sock].udp.fd, SOL_IP, IP_TOS, &priority, sizeof(priority))) /* SO_PRIORITY doesn't seem to work */
- logger(DEBUG_ALWAYS, LOG_ERR, "System call `%s' failed: %s", "setsockopt", sockstrerror(sockerrno));
+ if(!sa) {
+ choose_udp_address(n, &sa, &sock);
}
+
+ if(priorityinheritance && origpriority != listen_socket[sock].priority) {
+ listen_socket[sock].priority = origpriority;
+
+ switch(sa->sa.sa_family) {
+#if defined(IP_TOS)
+
+ case AF_INET:
+ logger(DEBUG_TRAFFIC, LOG_DEBUG, "Setting IPv4 outgoing packet priority to %d", origpriority);
+
+ if(setsockopt(listen_socket[sock].udp.fd, IPPROTO_IP, IP_TOS, (void *)&origpriority, sizeof(origpriority))) { /* SO_PRIORITY doesn't seem to work */
+ logger(DEBUG_ALWAYS, LOG_ERR, "System call `%s' failed: %s", "setsockopt", sockstrerror(sockerrno));
+ }
+
+ break;
+#endif
+#if defined(IPV6_TCLASS)
+
+ case AF_INET6:
+ logger(DEBUG_TRAFFIC, LOG_DEBUG, "Setting IPv6 outgoing packet priority to %d", origpriority);
+
+ if(setsockopt(listen_socket[sock].udp.fd, IPPROTO_IPV6, IPV6_TCLASS, (void *)&origpriority, sizeof(origpriority))) { /* SO_PRIORITY doesn't seem to work */
+ logger(DEBUG_ALWAYS, LOG_ERR, "System call `%s' failed: %s", "setsockopt", sockstrerror(sockerrno));
+ }
+
+ break;
#endif
- if(sendto(listen_socket[sock].udp.fd, SEQNO(inpkt), inpkt->len, 0, &sa->sa, SALEN(sa->sa)) < 0 && !sockwouldblock(sockerrno)) {
+ default:
+ break;
+ }
+ }
+
+ if(sendto(listen_socket[sock].udp.fd, (void *)SEQNO(inpkt), inpkt->len, 0, &sa->sa, SALEN(sa->sa)) < 0 && !sockwouldblock(sockerrno)) {
if(sockmsgsize(sockerrno)) {
- if(n->maxmtu >= origlen)
+ if(n->maxmtu >= origlen) {
n->maxmtu = origlen - 1;
- if(n->mtu >= origlen)
+ }
+
+ if(n->mtu >= origlen) {
n->mtu = origlen - 1;
+ }
+
try_fix_mtu(n);
- } else
+ } else {
logger(DEBUG_TRAFFIC, LOG_WARNING, "Error sending packet to %s (%s): %s", n->name, n->hostname, sockstrerror(sockerrno));
+ }
}
end:
if(type == SPTPS_HANDSHAKE || tcponly || (!direct && !relay_supported) || (type != PKT_PROBE && (len - SPTPS_DATAGRAM_OVERHEAD) > relay->minmtu)) {
if(type != SPTPS_HANDSHAKE && (to->nexthop->connection->options >> 24) >= 7) {
- char buf[len + sizeof to->id + sizeof from->id]; char* buf_ptr = buf;
- memcpy(buf_ptr, &to->id, sizeof to->id); buf_ptr += sizeof to->id;
- memcpy(buf_ptr, &from->id, sizeof from->id); buf_ptr += sizeof from->id;
- memcpy(buf_ptr, data, len); buf_ptr += len;
+ char buf[len + sizeof(to->id) + sizeof(from->id)];
+ char *buf_ptr = buf;
+ memcpy(buf_ptr, &to->id, sizeof(to->id));
+ buf_ptr += sizeof(to->id);
+ memcpy(buf_ptr, &from->id, sizeof(from->id));
+ buf_ptr += sizeof(from->id);
+ memcpy(buf_ptr, data, len);
logger(DEBUG_TRAFFIC, LOG_INFO, "Sending packet from %s (%s) to %s (%s) via %s (%s) (TCP)", from->name, from->hostname, to->name, to->hostname, to->nexthop->name, to->nexthop->hostname);
- return send_sptps_tcppacket(to->nexthop->connection, buf, sizeof buf);
+ return send_sptps_tcppacket(to->nexthop->connection, buf, sizeof(buf));
}
char buf[len * 4 / 3 + 5];
b64encode(data, buf, len);
+
/* If this is a handshake packet, use ANS_KEY instead of REQ_KEY, for two reasons:
- We don't want intermediate nodes to switch to UDP to relay these packets;
- ANS_KEY allows us to learn the reflexive UDP address. */
}
size_t overhead = 0;
- if(relay_supported) overhead += sizeof to->id + sizeof from->id;
- char buf[len + overhead]; char* buf_ptr = buf;
+
+ if(relay_supported) {
+ overhead += sizeof(to->id) + sizeof(from->id);
+ }
+
+ char buf[len + overhead];
+ char *buf_ptr = buf;
+
if(relay_supported) {
if(direct) {
/* Inform the recipient that this packet was sent directly. */
node_id_t nullid = {};
- memcpy(buf_ptr, &nullid, sizeof nullid); buf_ptr += sizeof nullid;
+ memcpy(buf_ptr, &nullid, sizeof(nullid));
+ buf_ptr += sizeof(nullid);
} else {
- memcpy(buf_ptr, &to->id, sizeof to->id); buf_ptr += sizeof to->id;
+ memcpy(buf_ptr, &to->id, sizeof(to->id));
+ buf_ptr += sizeof(to->id);
}
- memcpy(buf_ptr, &from->id, sizeof from->id); buf_ptr += sizeof from->id;
+
+ memcpy(buf_ptr, &from->id, sizeof(from->id));
+ buf_ptr += sizeof(from->id);
}
+
/* TODO: if this copy turns out to be a performance concern, change sptps_send_record() to add some "pre-padding" to the buffer and use that instead */
- memcpy(buf_ptr, data, len); buf_ptr += len;
+ memcpy(buf_ptr, data, len);
+ buf_ptr += len;
const sockaddr_t *sa = NULL;
int sock;
- if(relay->status.send_locally)
+
+ if(relay->status.send_locally) {
choose_local_address(relay, &sa, &sock);
- if(!sa)
+ }
+
+ if(!sa) {
choose_udp_address(relay, &sa, &sock);
+ }
+
logger(DEBUG_TRAFFIC, LOG_INFO, "Sending packet from %s (%s) to %s (%s) via %s (%s) (UDP)", from->name, from->hostname, to->name, to->hostname, relay->name, relay->hostname);
+
if(sendto(listen_socket[sock].udp.fd, buf, buf_ptr - buf, 0, &sa->sa, SALEN(sa->sa)) < 0 && !sockwouldblock(sockerrno)) {
if(sockmsgsize(sockerrno)) {
// Compensate for SPTPS overhead
len -= SPTPS_DATAGRAM_OVERHEAD;
- if(relay->maxmtu >= len)
+
+ if(relay->maxmtu >= len) {
relay->maxmtu = len - 1;
- if(relay->mtu >= len)
+ }
+
+ if(relay->mtu >= len) {
relay->mtu = len - 1;
+ }
+
try_fix_mtu(relay);
} else {
logger(DEBUG_TRAFFIC, LOG_WARNING, "Error sending UDP SPTPS packet to %s (%s): %s", relay->name, relay->hostname, sockstrerror(sockerrno));
from->status.waitingforkey = false;
logger(DEBUG_META, LOG_INFO, "SPTPS key exchange with %s (%s) succesful", from->name, from->hostname);
}
+
return true;
}
vpn_packet_t inpkt;
inpkt.offset = DEFAULT_PACKET_OFFSET;
+ inpkt.priority = 0;
if(type == PKT_PROBE) {
if(!from->status.udppacket) {
logger(DEBUG_ALWAYS, LOG_ERR, "Got SPTPS PROBE packet from %s (%s) via TCP", from->name, from->hostname);
return false;
}
+
inpkt.len = len;
memcpy(DATA(&inpkt), data, len);
- if(inpkt.len > from->maxrecentlen)
+
+ if(inpkt.len > from->maxrecentlen) {
from->maxrecentlen = inpkt.len;
+ }
+
udp_probe_h(from, &inpkt, len);
return true;
}
}
int offset = (type & PKT_MAC) ? 0 : 14;
+
if(type & PKT_COMPRESSED) {
length_t ulen = uncompress_packet(DATA(&inpkt) + offset, (const uint8_t *)data, len, from->incompression);
+
if(ulen < 0) {
return false;
} else {
inpkt.len = ulen + offset;
}
- if(inpkt.len > MAXSIZE)
+
+ if(inpkt.len > MAXSIZE) {
abort();
+ }
} else {
memcpy(DATA(&inpkt) + offset, data, len);
inpkt.len = len + offset;
/* Generate the Ethernet packet type if necessary */
if(offset) {
switch(DATA(&inpkt)[14] >> 4) {
- case 4:
- DATA(&inpkt)[12] = 0x08;
- DATA(&inpkt)[13] = 0x00;
- break;
- case 6:
- DATA(&inpkt)[12] = 0x86;
- DATA(&inpkt)[13] = 0xDD;
- break;
- default:
- logger(DEBUG_TRAFFIC, LOG_ERR,
- "Unknown IP version %d while reading packet from %s (%s)",
- DATA(&inpkt)[14] >> 4, from->name, from->hostname);
- return false;
+ case 4:
+ DATA(&inpkt)[12] = 0x08;
+ DATA(&inpkt)[13] = 0x00;
+ break;
+
+ case 6:
+ DATA(&inpkt)[12] = 0x86;
+ DATA(&inpkt)[13] = 0xDD;
+ break;
+
+ default:
+ logger(DEBUG_TRAFFIC, LOG_ERR,
+ "Unknown IP version %d while reading packet from %s (%s)",
+ DATA(&inpkt)[14] >> 4, from->name, from->hostname);
+ return false;
}
}
- if(from->status.udppacket && inpkt.len > from->maxrecentlen)
+ if(from->status.udppacket && inpkt.len > from->maxrecentlen) {
from->maxrecentlen = inpkt.len;
+ }
receive_packet(from, &inpkt);
return true;
// This function tries to get SPTPS keys, if they aren't already known.
// This function makes no guarantees - it is up to the caller to check the node's state to figure out if the keys are available.
static void try_sptps(node_t *n) {
- if(n->status.validkey)
+ if(n->status.validkey) {
return;
+ }
logger(DEBUG_TRAFFIC, LOG_INFO, "No valid key known yet for %s (%s)", n->name, n->hostname);
- if(!n->status.waitingforkey)
+ if(!n->status.waitingforkey) {
send_req_key(n);
- else if(n->last_req_key + 10 < now.tv_sec) {
+ } else if(n->last_req_key + 10 < now.tv_sec) {
logger(DEBUG_ALWAYS, LOG_DEBUG, "No key from %s after 10 seconds, restarting SPTPS", n->name);
sptps_stop(&n->sptps);
n->status.waitingforkey = false;
// This function tries to establish a UDP tunnel to a node so that packets can be sent.
// If a tunnel is already established, it makes sure it stays up.
// This function makes no guarantees - it is up to the caller to check the node's state to figure out if UDP is usable.
-static void try_udp(node_t* n) {
- if(!udp_discovery)
+static void try_udp(node_t *n) {
+ if(!udp_discovery) {
return;
+ }
/* Send gratuitous probe replies to 1.1 nodes. */
if(ping_tx_elapsed.tv_sec >= udp_discovery_keepalive_interval - 1) {
n->udp_reply_sent = now;
+
if(n->maxrecentlen) {
vpn_packet_t pkt;
pkt.len = n->maxrecentlen;
const sockaddr_t *sa = NULL;
int sockindex;
choose_udp_address(n, &sa, &sockindex);
- if(!sa)
+
+ if(!sa) {
return MTU;
+ }
sock = socket(sa->sa.sa_family, SOCK_DGRAM, IPPROTO_UDP);
+
if(sock < 0) {
logger(DEBUG_TRAFFIC, LOG_ERR, "Creating MTU assessment socket for %s (%s) failed: %s", n->name, n->hostname, sockstrerror(sockerrno));
return MTU;
}
int ip_mtu;
- socklen_t ip_mtu_len = sizeof ip_mtu;
+ socklen_t ip_mtu_len = sizeof(ip_mtu);
+
if(getsockopt(sock, IPPROTO_IP, IP_MTU, &ip_mtu, &ip_mtu_len)) {
logger(DEBUG_TRAFFIC, LOG_ERR, "getsockopt(IP_MTU) on %s (%s) failed: %s", n->name, n->hostname, sockstrerror(sockerrno));
close(sock);
length_t mtu = ip_mtu;
mtu -= (sa->sa.sa_family == AF_INET6) ? sizeof(struct ip6_hdr) : sizeof(struct ip);
mtu -= 8; /* UDP */
+
if(n->status.sptps) {
mtu -= SPTPS_DATAGRAM_OVERHEAD;
- if((n->options >> 24) >= 4)
+
+ if((n->options >> 24) >= 4) {
mtu -= sizeof(node_id_t) + sizeof(node_id_t);
+ }
+
#ifndef DISABLE_LEGACY
} else {
mtu -= digest_length(n->outdigest);
#endif
}
- if (mtu < 512) {
+ if(mtu < 512) {
logger(DEBUG_TRAFFIC, LOG_ERR, "getsockopt(IP_MTU) on %s (%s) returned absurdly small value: %d", n->name, n->hostname, ip_mtu);
return MTU;
}
- if (mtu > MTU)
+
+ if(mtu > MTU) {
return MTU;
+ }
logger(DEBUG_TRAFFIC, LOG_INFO, "Using system-provided maximum tinc MTU for %s (%s): %hd", n->name, n->hostname, mtu);
return mtu;
*/
static void try_mtu(node_t *n) {
- if(!(n->options & OPTION_PMTU_DISCOVERY))
+ if(!(n->options & OPTION_PMTU_DISCOVERY)) {
return;
+ }
if(udp_discovery && !n->status.udp_confirmed) {
n->maxrecentlen = 0;
struct timeval elapsed;
timersub(&now, &n->mtu_ping_sent, &elapsed);
+
if(n->mtuprobes >= 0) {
- if(n->mtuprobes != 0 && elapsed.tv_sec == 0 && elapsed.tv_usec < 333333)
+ if(n->mtuprobes != 0 && elapsed.tv_sec == 0 && elapsed.tv_usec < 333333) {
return;
+ }
} else {
if(n->mtuprobes < -1) {
- if(elapsed.tv_sec < 1)
+ if(elapsed.tv_sec < 1) {
return;
+ }
} else {
- if(elapsed.tv_sec < pinginterval)
+ if(elapsed.tv_sec < pinginterval) {
return;
+ }
}
}
/* After the initial discovery, we only send one maxmtu and one
maxmtu+1 probe to detect PMTU increases. */
send_udp_probe_packet(n, n->maxmtu);
- if(n->mtuprobes == -1 && n->maxmtu + 1 < MTU)
+
+ if(n->mtuprobes == -1 && n->maxmtu + 1 < MTU) {
send_udp_probe_packet(n, n->maxmtu + 1);
+ }
+
n->mtuprobes--;
} else {
/* Before initial discovery begins, set maxmtu to the most likely value.
If it's underestimated, we will correct it after initial discovery. */
- if(n->mtuprobes == 0)
+ if(n->mtuprobes == 0) {
n->maxmtu = choose_initial_maxmtu(n);
+ }
- for (;;) {
+ for(;;) {
/* Decreasing the number of probes per cycle might make the algorithm react faster to lost packets,
but it will typically increase convergence time in the no-loss case. */
const length_t probes_per_cycle = 8;
length_t maxmtu = n->maxmtu;
send_udp_probe_packet(n, minmtu + offset);
+
/* If maxmtu changed, it means the probe was rejected by the system because it was too large.
In that case, we recalculate with the new maxmtu and try again. */
- if(n->mtuprobes < 0 || maxmtu == n->maxmtu)
+ if(n->mtuprobes < 0 || maxmtu == n->maxmtu) {
break;
+ }
}
- if(n->mtuprobes >= 0)
+ if(n->mtuprobes >= 0) {
n->mtuprobes++;
+ }
}
}
/* If n is a TCP-only neighbor, we'll only use "cleartext" PACKET
messages anyway, so there's no need for SPTPS at all. */
- if(n->connection && ((myself->options | n->options) & OPTION_TCPONLY))
+ if(n->connection && ((myself->options | n->options) & OPTION_TCPONLY)) {
return;
+ }
/* Otherwise, try to do SPTPS authentication with n if necessary. */
node_t *via = (n->via == myself) ? n->nexthop : n->via;
- /* If the static relay doesn't support SPTPS, everything goes via TCP anyway. */
-
- if((via->options >> 24) < 4)
- return;
+ /* If we do have a static relay, try everything with that one instead, if it supports relaying. */
- /* If we do have a static relay, try everything with that one instead. */
+ if(via != n) {
+ if((via->options >> 24) < 4) {
+ return;
+ }
- if(via != n)
- return try_tx_sptps(via, mtu);
+ return try_tx(via, mtu);
+ }
/* Otherwise, try to establish UDP connectivity. */
try_udp(n);
- if(mtu)
+
+ if(mtu) {
try_mtu(n);
+ }
/* If we don't have UDP connectivity (yet), we need to use a dynamic relay (nexthop)
while we try to establish direct connectivity. */
- if(!n->status.udp_confirmed && n != n->nexthop && (n->nexthop->options >> 24) >= 4)
- try_tx_sptps(n->nexthop, mtu);
+ if(!n->status.udp_confirmed && n != n->nexthop && (n->nexthop->options >> 24) >= 4) {
+ try_tx(n->nexthop, mtu);
+ }
}
static void try_tx_legacy(node_t *n, bool mtu) {
/* Does he have our key? If not, send one. */
- if(!n->status.validkey_in)
+ if(!n->status.validkey_in) {
send_ans_key(n);
+ }
/* Check if we already have a key, or request one. */
send_req_key(n);
n->last_req_key = now.tv_sec;
}
+
return;
}
try_udp(n);
- if(mtu)
+
+ if(mtu) {
try_mtu(n);
+ }
}
void try_tx(node_t *n, bool mtu) {
- if(n->status.sptps)
+ if(!n->status.reachable) {
+ return;
+ }
+
+ if(n->status.sptps) {
try_tx_sptps(n, mtu);
- else
+ } else {
try_tx_legacy(n, mtu);
+ }
}
void send_packet(node_t *n, vpn_packet_t *packet) {
// If it's for myself, write it to the tun/tap device.
if(n == myself) {
- if(overwrite_mac)
- memcpy(DATA(packet), mymac.x, ETH_ALEN);
+ if(overwrite_mac) {
+ memcpy(DATA(packet), mymac.x, ETH_ALEN);
+ // Use an arbitrary fake source address.
+ memcpy(DATA(packet) + ETH_ALEN, DATA(packet), ETH_ALEN);
+ DATA(packet)[ETH_ALEN * 2 - 1] ^= 0xFF;
+ }
+
n->out_packets++;
n->out_bytes += packet->len;
devops.write(packet);
if(n->status.sptps) {
send_sptps_packet(n, packet);
- try_tx_sptps(n, true);
+ try_tx(n, true);
return;
}
node_t *via = (packet->priority == -1 || n->via == myself) ? n->nexthop : n->via;
- if(via != n)
+ if(via != n) {
logger(DEBUG_TRAFFIC, LOG_INFO, "Sending packet to %s via %s (%s)", n->name, via->name, n->via->hostname);
+ }
// Try to send via UDP, unless TCP is forced.
if(packet->priority == -1 || ((myself->options | via->options) & OPTION_TCPONLY)) {
- if(!send_tcppacket(via->connection, packet))
+ if(!send_tcppacket(via->connection, packet)) {
terminate_connection(via->connection, true);
+ }
+
return;
}
send_udppacket(via, packet);
- try_tx_legacy(via, true);
+ try_tx(via, true);
}
void broadcast_packet(const node_t *from, vpn_packet_t *packet) {
// Always give ourself a copy of the packet.
- if(from != myself)
+ if(from != myself) {
send_packet(myself, packet);
+ }
// In TunnelServer mode, do not forward broadcast packets.
// The MST might not be valid and create loops.
- if(tunnelserver || broadcast_mode == BMODE_NONE)
+ if(tunnelserver || broadcast_mode == BMODE_NONE) {
return;
+ }
logger(DEBUG_TRAFFIC, LOG_INFO, "Broadcasting packet of %d bytes from %s (%s)",
- packet->len, from->name, from->hostname);
+ packet->len, from->name, from->hostname);
switch(broadcast_mode) {
- // In MST mode, broadcast packets travel via the Minimum Spanning Tree.
- // This guarantees all nodes receive the broadcast packet, and
- // usually distributes the sending of broadcast packets over all nodes.
- case BMODE_MST:
- for list_each(connection_t, c, connection_list)
- if(c->edge && c->status.mst && c != from->nexthop->connection)
- send_packet(c->node, packet);
- break;
+ // In MST mode, broadcast packets travel via the Minimum Spanning Tree.
+ // This guarantees all nodes receive the broadcast packet, and
+ // usually distributes the sending of broadcast packets over all nodes.
+ case BMODE_MST:
+ for list_each(connection_t, c, connection_list)
+ if(c->edge && c->status.mst && c != from->nexthop->connection) {
+ send_packet(c->node, packet);
+ }
- // In direct mode, we send copies to each node we know of.
- // However, this only reaches nodes that can be reached in a single hop.
- // We don't have enough information to forward broadcast packets in this case.
- case BMODE_DIRECT:
- if(from != myself)
- break;
+ break;
- for splay_each(node_t, n, node_tree)
- if(n->status.reachable && n != myself && ((n->via == myself && n->nexthop == n) || n->via == n))
- send_packet(n, packet);
+ // In direct mode, we send copies to each node we know of.
+ // However, this only reaches nodes that can be reached in a single hop.
+ // We don't have enough information to forward broadcast packets in this case.
+ case BMODE_DIRECT:
+ if(from != myself) {
break;
+ }
- default:
- break;
+ for splay_each(node_t, n, node_tree)
+ if(n->status.reachable && n != myself && ((n->via == myself && n->nexthop == n) || n->via == n)) {
+ send_packet(n, packet);
+ }
+
+ break;
+
+ default:
+ break;
}
}
static time_t last_hard_try = 0;
for splay_each(node_t, n, node_tree) {
- if(!n->status.reachable || n == myself)
+ if(!n->status.reachable || n == myself) {
continue;
+ }
- if(!n->status.validkey_in && !(n->status.sptps && n->sptps.instate))
+ if(!n->status.validkey_in && !(n->status.sptps && n->sptps.instate)) {
continue;
+ }
bool soft = false;
for splay_each(edge_t, e, n->edge_tree) {
- if(!e->reverse)
+ if(!e->reverse) {
continue;
+ }
+
if(!sockaddrcmp_noport(from, &e->reverse->address)) {
soft = true;
break;
}
if(!soft) {
- if(last_hard_try == now.tv_sec)
+ if(last_hard_try == now.tv_sec) {
continue;
+ }
+
hard = true;
}
- if(!try_mac(n, pkt))
+ if(!try_mac(n, pkt)) {
continue;
+ }
match = n;
break;
}
- if(hard)
+ if(hard) {
last_hard_try = now.tv_sec;
+ }
return match;
}
-void handle_incoming_vpn_data(void *data, int flags) {
- listen_socket_t *ls = data;
- vpn_packet_t pkt;
+static void handle_incoming_vpn_packet(listen_socket_t *ls, vpn_packet_t *pkt, sockaddr_t *addr) {
char *hostname;
node_id_t nullid = {};
- sockaddr_t addr = {};
- socklen_t addrlen = sizeof addr;
node_t *from, *to;
bool direct = false;
- pkt.offset = 0;
- int len = recvfrom(ls->udp.fd, DATA(&pkt), MAXSIZE, 0, &addr.sa, &addrlen);
-
- if(len <= 0 || len > MAXSIZE) {
- if(!sockwouldblock(sockerrno))
- logger(DEBUG_ALWAYS, LOG_ERR, "Receiving packet failed: %s", sockstrerror(sockerrno));
- return;
- }
-
- pkt.len = len;
-
- sockaddrunmap(&addr); /* Some braindead IPv6 implementations do stupid things. */
+ sockaddrunmap(addr); /* Some braindead IPv6 implementations do stupid things. */
// Try to figure out who sent this packet.
- node_t *n = lookup_node_udp(&addr);
+ node_t *n = lookup_node_udp(addr);
- if(n && !n->status.udp_confirmed)
- n = NULL; // Don't believe it if we don't have confirmation yet.
+ if(n && !n->status.udp_confirmed) {
+ n = NULL; // Don't believe it if we don't have confirmation yet.
+ }
if(!n) {
// It might be from a 1.1 node, which might have a source ID in the packet.
- pkt.offset = 2 * sizeof(node_id_t);
- from = lookup_node_id(SRCID(&pkt));
- if(from && !memcmp(DSTID(&pkt), &nullid, sizeof nullid) && from->status.sptps) {
- if(sptps_verify_datagram(&from->sptps, DATA(&pkt), pkt.len - 2 * sizeof(node_id_t)))
+ pkt->offset = 2 * sizeof(node_id_t);
+ from = lookup_node_id(SRCID(pkt));
+
+ if(from && !memcmp(DSTID(pkt), &nullid, sizeof(nullid)) && from->status.sptps) {
+ if(sptps_verify_datagram(&from->sptps, DATA(pkt), pkt->len - 2 * sizeof(node_id_t))) {
n = from;
- else
+ } else {
goto skip_harder;
+ }
}
}
if(!n) {
- pkt.offset = 0;
- n = try_harder(&addr, &pkt);
+ pkt->offset = 0;
+ n = try_harder(addr, pkt);
}
skip_harder:
+
if(!n) {
if(debug_level >= DEBUG_PROTOCOL) {
- hostname = sockaddr2hostname(&addr);
+ hostname = sockaddr2hostname(addr);
logger(DEBUG_PROTOCOL, LOG_WARNING, "Received UDP packet from unknown source %s", hostname);
free(hostname);
}
+
return;
}
+ pkt->offset = 0;
+
if(n->status.sptps) {
- pkt.offset = 2 * sizeof(node_id_t);
+ bool relay_enabled = (n->options >> 24) >= 4;
+
+ if(relay_enabled) {
+ pkt->offset = 2 * sizeof(node_id_t);
+ pkt->len -= pkt->offset;
+ }
- if(!memcmp(DSTID(&pkt), &nullid, sizeof nullid)) {
+ if(!memcmp(DSTID(pkt), &nullid, sizeof(nullid)) || !relay_enabled) {
direct = true;
from = n;
to = myself;
} else {
- from = lookup_node_id(SRCID(&pkt));
- to = lookup_node_id(DSTID(&pkt));
+ from = lookup_node_id(SRCID(pkt));
+ to = lookup_node_id(DSTID(pkt));
}
+
if(!from || !to) {
logger(DEBUG_PROTOCOL, LOG_WARNING, "Received UDP packet from %s (%s) with unknown source and/or destination ID", n->name, n->hostname);
return;
}
+ if(!to->status.reachable) {
+ /* This can happen in the form of a race condition
+ if the node just became unreachable. */
+ logger(DEBUG_TRAFFIC, LOG_WARNING, "Cannot relay packet from %s (%s) because the destination, %s (%s), is unreachable", from->name, from->hostname, to->name, to->hostname);
+ return;
+ }
+
/* The packet is supposed to come from the originator or its static relay
(i.e. with no dynamic relays in between).
If it did not, "help" the static relay by sending it UDP info.
Note that we only do this if we're the destination or the static relay;
otherwise every hop would initiate its own UDP info message, resulting in elevated chatter. */
- if(n != from->via && to->via == myself)
+ if(n != from->via && to->via == myself) {
send_udp_info(myself, from);
+ }
/* If we're not the final recipient, relay the packet. */
if(to != myself) {
- send_sptps_data(to, from, 0, DATA(&pkt), pkt.len - 2 * sizeof(node_id_t));
- try_tx_sptps(to, true);
+ send_sptps_data(to, from, 0, DATA(pkt), pkt->len);
+ try_tx(to, true);
return;
}
} else {
from = n;
}
- pkt.offset = 0;
- if(!receive_udppacket(from, &pkt))
+ if(!receive_udppacket(from, pkt)) {
return;
+ }
n->sock = ls - listen_socket;
- if(direct && sockaddrcmp(&addr, &n->address))
- update_node_udp(n, &addr);
+
+ if(direct && sockaddrcmp(addr, &n->address)) {
+ update_node_udp(n, addr);
+ }
/* If the packet went through a relay, help the sender find the appropriate MTU
through the relay path. */
- if(!direct)
+ if(!direct) {
send_mtu_info(myself, n, MTU);
+ }
+}
+
+void handle_incoming_vpn_data(void *data, int flags) {
+ listen_socket_t *ls = data;
+
+#ifdef HAVE_RECVMMSG
+#define MAX_MSG 64
+ static int num = MAX_MSG;
+ static vpn_packet_t pkt[MAX_MSG];
+ static sockaddr_t addr[MAX_MSG];
+ static struct mmsghdr msg[MAX_MSG];
+ static struct iovec iov[MAX_MSG];
+
+ for(int i = 0; i < num; i++) {
+ pkt[i].offset = 0;
+
+ iov[i] = (struct iovec) {
+ .iov_base = DATA(&pkt[i]),
+ .iov_len = MAXSIZE,
+ };
+
+ msg[i].msg_hdr = (struct msghdr) {
+ .msg_name = &addr[i].sa,
+ .msg_namelen = sizeof(addr)[i],
+ .msg_iov = &iov[i],
+ .msg_iovlen = 1,
+ };
+ }
+
+ num = recvmmsg(ls->udp.fd, msg, MAX_MSG, MSG_DONTWAIT, NULL);
+
+ if(num < 0) {
+ if(!sockwouldblock(sockerrno)) {
+ logger(DEBUG_ALWAYS, LOG_ERR, "Receiving packet failed: %s", sockstrerror(sockerrno));
+ }
+
+ return;
+ }
+
+ for(int i = 0; i < num; i++) {
+ pkt[i].len = msg[i].msg_len;
+
+ if(pkt[i].len <= 0 || pkt[i].len > MAXSIZE) {
+ continue;
+ }
+
+ handle_incoming_vpn_packet(ls, &pkt[i], &addr[i]);
+ }
+
+#else
+ vpn_packet_t pkt;
+ sockaddr_t addr = {};
+ socklen_t addrlen = sizeof(addr);
+
+ pkt.offset = 0;
+ int len = recvfrom(ls->udp.fd, (void *)DATA(&pkt), MAXSIZE, 0, &addr.sa, &addrlen);
+
+ if(len <= 0 || len > MAXSIZE) {
+ if(!sockwouldblock(sockerrno)) {
+ logger(DEBUG_ALWAYS, LOG_ERR, "Receiving packet failed: %s", sockstrerror(sockerrno));
+ }
+
+ return;
+ }
+
+ pkt.len = len;
+
+ handle_incoming_vpn_packet(ls, &pkt, &addr);
+#endif
}
void handle_device_data(void *data, int flags) {
vpn_packet_t packet;
packet.offset = DEFAULT_PACKET_OFFSET;
packet.priority = 0;
+ static int errors = 0;
if(devops.read(&packet)) {
+ errors = 0;
myself->in_packets++;
myself->in_bytes += packet.len;
route(myself, &packet);
+ } else {
+ usleep(errors * 50000);
+ errors++;
+
+ if(errors > 10) {
+ logger(DEBUG_ALWAYS, LOG_ERR, "Too many errors from %s, exiting!", device);
+ event_exit();
+ }
}
}