2 net_packet.c -- Handles in- and outgoing VPN packets
3 Copyright (C) 1998-2005 Ivo Timmermans,
4 2000-2016 Guus Sliepen <guus@tinc-vpn.org>
5 2010 Timothy Redaelli <timothy@redaelli.eu>
6 2010 Brandon Black <blblack@gmail.com>
8 This program is free software; you can redistribute it and/or modify
9 it under the terms of the GNU General Public License as published by
10 the Free Software Foundation; either version 2 of the License, or
11 (at your option) any later version.
13 This program is distributed in the hope that it will be useful,
14 but WITHOUT ANY WARRANTY; without even the implied warranty of
15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 GNU General Public License for more details.
18 You should have received a copy of the GNU General Public License along
19 with this program; if not, write to the Free Software Foundation, Inc.,
20 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
35 #include "connection.h"
52 #define MAX(a, b) ((a) > (b) ? (a) : (b))
55 /* The minimum size of a probe is 14 bytes, but since we normally use CBC mode
56 encryption, we can add a few extra random bytes without increasing the
57 resulting packet size. */
58 #define MIN_PROBE_SIZE 18
62 static char lzo_wrkmem[LZO1X_999_MEM_COMPRESS > LZO1X_1_MEM_COMPRESS ? LZO1X_999_MEM_COMPRESS : LZO1X_1_MEM_COMPRESS];
65 static void send_udppacket(node_t *, vpn_packet_t *);
67 unsigned replaywin = 32;
68 bool localdiscovery = true;
69 bool udp_discovery = true;
70 int udp_discovery_keepalive_interval = 10;
71 int udp_discovery_interval = 2;
72 int udp_discovery_timeout = 30;
74 #define MAX_SEQNO 1073741824
76 static void try_fix_mtu(node_t *n) {
80 if(n->mtuprobes == 20 || n->minmtu >= n->maxmtu) {
81 if(n->minmtu > n->maxmtu)
82 n->minmtu = n->maxmtu;
84 n->maxmtu = n->minmtu;
86 logger(DEBUG_TRAFFIC, LOG_INFO, "Fixing MTU of %s (%s) to %d after %d probes", n->name, n->hostname, n->mtu, n->mtuprobes);
91 static void udp_probe_timeout_handler(void *data) {
93 if(!n->status.udp_confirmed)
96 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);
97 n->status.udp_confirmed = false;
104 static void send_udp_probe_reply(node_t *n, vpn_packet_t *packet, length_t len) {
105 if(!n->status.sptps && !n->status.validkey) {
106 logger(DEBUG_TRAFFIC, LOG_INFO, "Trying to send UDP probe reply to %s (%s) but we don't have his key yet", n->name, n->hostname);
110 /* Type 2 probe replies were introduced in protocol 17.3 */
111 if ((n->options >> 24) >= 3) {
113 uint16_t len16 = htons(len);
114 memcpy(DATA(packet) + 1, &len16, 2);
115 packet->len = MIN_PROBE_SIZE;
116 logger(DEBUG_TRAFFIC, LOG_INFO, "Sending type 2 probe reply length %u to %s (%s)", len, n->name, n->hostname);
119 /* Legacy protocol: n won't understand type 2 probe replies. */
121 logger(DEBUG_TRAFFIC, LOG_INFO, "Sending type 1 probe reply length %u to %s (%s)", len, n->name, n->hostname);
124 /* Temporarily set udp_confirmed, so that the reply is sent
125 back exactly the way it came in. */
127 bool udp_confirmed = n->status.udp_confirmed;
128 n->status.udp_confirmed = true;
129 send_udppacket(n, packet);
130 n->status.udp_confirmed = udp_confirmed;
133 static void udp_probe_h(node_t *n, vpn_packet_t *packet, length_t len) {
134 if(!DATA(packet)[0]) {
135 logger(DEBUG_TRAFFIC, LOG_INFO, "Got UDP probe request %d from %s (%s)", packet->len, n->name, n->hostname);
136 return send_udp_probe_reply(n, packet, len);
139 if (DATA(packet)[0] == 2) {
140 // It's a type 2 probe reply, use the length field inside the packet
142 memcpy(&len16, DATA(packet) + 1, 2);
146 logger(DEBUG_TRAFFIC, LOG_INFO, "Got type %d UDP probe reply %d from %s (%s)", DATA(packet)[0], len, n->name, n->hostname);
148 /* It's a valid reply: now we know bidirectional communication
149 is possible using the address and socket that the reply
151 n->status.udp_confirmed = true;
153 // Reset the UDP ping timer.
154 n->udp_ping_sent = now;
157 timeout_del(&n->udp_ping_timeout);
158 timeout_add(&n->udp_ping_timeout, &udp_probe_timeout_handler, n, &(struct timeval){udp_discovery_timeout, 0});
161 if(len > n->maxmtu) {
162 logger(DEBUG_TRAFFIC, LOG_INFO, "Increase in PMTU to %s (%s) detected, restarting PMTU discovery", n->name, n->hostname);
165 /* Set mtuprobes to 1 so that try_mtu() doesn't reset maxmtu */
168 } else if(n->mtuprobes < 0 && len == n->maxmtu) {
169 /* We got a maxmtu sized packet, confirming the PMTU is still valid. */
171 n->mtu_ping_sent = now;
174 /* If applicable, raise the minimum supported MTU */
176 if(n->minmtu < len) {
182 static length_t compress_packet(uint8_t *dest, const uint8_t *source, length_t len, int level) {
184 memcpy(dest, source, len);
186 } else if(level == 10) {
188 lzo_uint lzolen = MAXSIZE;
189 lzo1x_1_compress(source, len, dest, &lzolen, lzo_wrkmem);
194 } else if(level < 10) {
196 unsigned long destlen = MAXSIZE;
197 if(compress2(dest, &destlen, source, len, level) == Z_OK)
204 lzo_uint lzolen = MAXSIZE;
205 lzo1x_999_compress(source, len, dest, &lzolen, lzo_wrkmem);
215 static length_t uncompress_packet(uint8_t *dest, const uint8_t *source, length_t len, int level) {
217 memcpy(dest, source, len);
219 } else if(level > 9) {
221 lzo_uint lzolen = MAXSIZE;
222 if(lzo1x_decompress_safe(source, len, dest, &lzolen, NULL) == LZO_E_OK)
230 unsigned long destlen = MAXSIZE;
231 if(uncompress(dest, &destlen, source, len) == Z_OK)
243 static void receive_packet(node_t *n, vpn_packet_t *packet) {
244 logger(DEBUG_TRAFFIC, LOG_DEBUG, "Received packet of %d bytes from %s (%s)",
245 packet->len, n->name, n->hostname);
248 n->in_bytes += packet->len;
253 static bool try_mac(node_t *n, const vpn_packet_t *inpkt) {
255 return sptps_verify_datagram(&n->sptps, DATA(inpkt), inpkt->len);
257 #ifdef DISABLE_LEGACY
260 if(!n->status.validkey_in || !digest_active(n->indigest) || inpkt->len < sizeof(seqno_t) + digest_length(n->indigest))
263 return digest_verify(n->indigest, inpkt->data, inpkt->len - digest_length(n->indigest), inpkt->data + inpkt->len - digest_length(n->indigest));
267 static bool receive_udppacket(node_t *n, vpn_packet_t *inpkt) {
268 vpn_packet_t pkt1, pkt2;
269 vpn_packet_t *pkt[] = { &pkt1, &pkt2, &pkt1, &pkt2 };
272 pkt1.offset = DEFAULT_PACKET_OFFSET;
273 pkt2.offset = DEFAULT_PACKET_OFFSET;
275 if(n->status.sptps) {
276 if(!n->sptps.state) {
277 if(!n->status.waitingforkey) {
278 logger(DEBUG_TRAFFIC, LOG_DEBUG, "Got packet from %s (%s) but we haven't exchanged keys yet", n->name, n->hostname);
281 logger(DEBUG_TRAFFIC, LOG_DEBUG, "Got packet from %s (%s) but he hasn't got our key yet", n->name, n->hostname);
285 n->status.udppacket = true;
286 bool result = sptps_receive_data(&n->sptps, DATA(inpkt), inpkt->len);
287 n->status.udppacket = false;
290 /* Uh-oh. It might be that the tunnel is stuck in some corrupted state,
291 so let's restart SPTPS in case that helps. But don't do that too often
292 to prevent storms, and because that would make life a little too easy
293 for external attackers trying to DoS us. */
294 if(n->last_req_key < now.tv_sec - 10) {
295 logger(DEBUG_PROTOCOL, LOG_ERR, "Failed to decode raw TCP packet from %s (%s), restarting SPTPS", n->name, n->hostname);
303 #ifdef DISABLE_LEGACY
306 if(!n->status.validkey_in) {
307 logger(DEBUG_TRAFFIC, LOG_DEBUG, "Got packet from %s (%s) but he hasn't got our key yet", n->name, n->hostname);
311 /* Check packet length */
313 if(inpkt->len < sizeof(seqno_t) + digest_length(n->indigest)) {
314 logger(DEBUG_TRAFFIC, LOG_DEBUG, "Got too short packet from %s (%s)",
315 n->name, n->hostname);
319 /* It's a legacy UDP packet, the data starts after the seqno */
321 inpkt->offset += sizeof(seqno_t);
323 /* Check the message authentication code */
325 if(digest_active(n->indigest)) {
326 inpkt->len -= digest_length(n->indigest);
327 if(!digest_verify(n->indigest, SEQNO(inpkt), inpkt->len, SEQNO(inpkt) + inpkt->len)) {
328 logger(DEBUG_TRAFFIC, LOG_DEBUG, "Got unauthenticated packet from %s (%s)", n->name, n->hostname);
332 /* Decrypt the packet */
334 if(cipher_active(n->incipher)) {
335 vpn_packet_t *outpkt = pkt[nextpkt++];
338 if(!cipher_decrypt(n->incipher, SEQNO(inpkt), inpkt->len, SEQNO(outpkt), &outlen, true)) {
339 logger(DEBUG_TRAFFIC, LOG_DEBUG, "Error decrypting packet from %s (%s)", n->name, n->hostname);
343 outpkt->len = outlen;
347 /* Check the sequence number */
350 memcpy(&seqno, SEQNO(inpkt), sizeof seqno);
351 seqno = ntohl(seqno);
352 inpkt->len -= sizeof seqno;
355 if(seqno != n->received_seqno + 1) {
356 if(seqno >= n->received_seqno + replaywin * 8) {
357 if(n->farfuture++ < replaywin >> 2) {
358 logger(DEBUG_TRAFFIC, LOG_WARNING, "Packet from %s (%s) is %d seqs in the future, dropped (%u)",
359 n->name, n->hostname, seqno - n->received_seqno - 1, n->farfuture);
362 logger(DEBUG_TRAFFIC, LOG_WARNING, "Lost %d packets from %s (%s)",
363 seqno - n->received_seqno - 1, n->name, n->hostname);
364 memset(n->late, 0, replaywin);
365 } else if (seqno <= n->received_seqno) {
366 if((n->received_seqno >= replaywin * 8 && seqno <= n->received_seqno - replaywin * 8) || !(n->late[(seqno / 8) % replaywin] & (1 << seqno % 8))) {
367 logger(DEBUG_TRAFFIC, LOG_WARNING, "Got late or replayed packet from %s (%s), seqno %d, last received %d",
368 n->name, n->hostname, seqno, n->received_seqno);
372 for(int i = n->received_seqno + 1; i < seqno; i++)
373 n->late[(i / 8) % replaywin] |= 1 << i % 8;
378 n->late[(seqno / 8) % replaywin] &= ~(1 << seqno % 8);
381 if(seqno > n->received_seqno)
382 n->received_seqno = seqno;
386 if(n->received_seqno > MAX_SEQNO)
389 /* Decompress the packet */
391 length_t origlen = inpkt->len;
393 if(n->incompression) {
394 vpn_packet_t *outpkt = pkt[nextpkt++];
396 if((outpkt->len = uncompress_packet(DATA(outpkt), DATA(inpkt), inpkt->len, n->incompression)) < 0) {
397 logger(DEBUG_TRAFFIC, LOG_ERR, "Error while uncompressing packet from %s (%s)",
398 n->name, n->hostname);
404 origlen -= MTU/64 + 20;
407 if(inpkt->len > n->maxrecentlen)
408 n->maxrecentlen = inpkt->len;
412 if(!DATA(inpkt)[12] && !DATA(inpkt)[13])
413 udp_probe_h(n, inpkt, origlen);
415 receive_packet(n, inpkt);
420 void receive_tcppacket(connection_t *c, const char *buffer, int len) {
422 outpkt.offset = DEFAULT_PACKET_OFFSET;
424 if(len > sizeof outpkt.data - outpkt.offset)
428 if(c->options & OPTION_TCPONLY)
431 outpkt.priority = -1;
432 memcpy(DATA(&outpkt), buffer, len);
434 receive_packet(c->node, &outpkt);
437 bool receive_tcppacket_sptps(connection_t *c, const char *data, int len) {
438 if (len < sizeof(node_id_t) + sizeof(node_id_t)) {
439 logger(DEBUG_PROTOCOL, LOG_ERR, "Got too short TCP SPTPS packet from %s (%s)", c->name, c->hostname);
443 node_t *to = lookup_node_id((node_id_t *)data);
444 data += sizeof(node_id_t); len -= sizeof(node_id_t);
446 logger(DEBUG_PROTOCOL, LOG_ERR, "Got TCP SPTPS packet from %s (%s) with unknown destination ID", c->name, c->hostname);
450 node_t *from = lookup_node_id((node_id_t *)data);
451 data += sizeof(node_id_t); len -= sizeof(node_id_t);
453 logger(DEBUG_PROTOCOL, LOG_ERR, "Got TCP SPTPS packet from %s (%s) with unknown source ID", c->name, c->hostname);
457 if(!to->status.reachable) {
458 /* This can happen in the form of a race condition
459 if the node just became unreachable. */
460 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);
464 /* Help the sender reach us over UDP.
465 Note that we only do this if we're the destination or the static relay;
466 otherwise every hop would initiate its own UDP info message, resulting in elevated chatter. */
467 if(to->via == myself)
468 send_udp_info(myself, from);
470 /* If we're not the final recipient, relay the packet. */
473 send_sptps_data(to, from, 0, data, len);
478 /* The packet is for us */
480 if(!sptps_receive_data(&from->sptps, data, len)) {
481 /* Uh-oh. It might be that the tunnel is stuck in some corrupted state,
482 so let's restart SPTPS in case that helps. But don't do that too often
483 to prevent storms. */
484 if(from->last_req_key < now.tv_sec - 10) {
485 logger(DEBUG_PROTOCOL, LOG_ERR, "Failed to decode raw TCP packet from %s (%s), restarting SPTPS", from->name, from->hostname);
491 send_mtu_info(myself, from, MTU);
495 static void send_sptps_packet(node_t *n, vpn_packet_t *origpkt) {
496 if(!n->status.validkey && !n->connection)
502 if((!(DATA(origpkt)[12] | DATA(origpkt)[13])) && (n->sptps.outstate)) {
503 sptps_send_record(&n->sptps, PKT_PROBE, (char *)DATA(origpkt), origpkt->len);
507 if(routing_mode == RMODE_ROUTER)
512 if(origpkt->len < offset)
517 if(n->outcompression) {
519 int len = compress_packet(DATA(&outpkt) + offset, DATA(origpkt) + offset, origpkt->len - offset, n->outcompression);
521 logger(DEBUG_TRAFFIC, LOG_ERR, "Error while compressing packet to %s (%s)", n->name, n->hostname);
522 } else if(len < origpkt->len - offset) {
523 outpkt.len = len + offset;
525 type |= PKT_COMPRESSED;
529 /* If we have a direct metaconnection to n, and we can't use UDP, then
530 don't bother with SPTPS and just use a "plaintext" PACKET message.
531 We don't really care about end-to-end security since we're not
532 sending the message through any intermediate nodes. */
533 if(n->connection && origpkt->len > n->minmtu)
534 send_tcppacket(n->connection, origpkt);
536 sptps_send_record(&n->sptps, type, DATA(origpkt) + offset, origpkt->len - offset);
540 static void adapt_socket(const sockaddr_t *sa, int *sock) {
541 /* Make sure we have a suitable socket for the chosen address */
542 if(listen_socket[*sock].sa.sa.sa_family != sa->sa.sa_family) {
543 for(int i = 0; i < listen_sockets; i++) {
544 if(listen_socket[i].sa.sa.sa_family == sa->sa.sa_family) {
552 static void choose_udp_address(const node_t *n, const sockaddr_t **sa, int *sock) {
557 /* If the UDP address is confirmed, use it. */
558 if(n->status.udp_confirmed)
561 /* Send every third packet to n->address; that could be set
562 to the node's reflexive UDP address discovered during key
571 /* Otherwise, address are found in edges to this node.
572 So we pick a random edge and a random socket. */
575 int j = rand() % n->edge_tree->count;
576 edge_t *candidate = NULL;
578 for splay_each(edge_t, e, n->edge_tree) {
580 candidate = e->reverse;
586 *sa = &candidate->address;
587 *sock = rand() % listen_sockets;
590 adapt_socket(*sa, sock);
593 static void choose_local_address(const node_t *n, const sockaddr_t **sa, int *sock) {
596 /* Pick one of the edges from this node at random, then use its local address. */
599 int j = rand() % n->edge_tree->count;
600 edge_t *candidate = NULL;
602 for splay_each(edge_t, e, n->edge_tree) {
609 if (candidate && candidate->local_address.sa.sa_family) {
610 *sa = &candidate->local_address;
611 *sock = rand() % listen_sockets;
612 adapt_socket(*sa, sock);
616 static void send_udppacket(node_t *n, vpn_packet_t *origpkt) {
617 vpn_packet_t pkt1, pkt2;
618 vpn_packet_t *pkt[] = { &pkt1, &pkt2, &pkt1, &pkt2 };
619 vpn_packet_t *inpkt = origpkt;
621 vpn_packet_t *outpkt;
622 int origlen = origpkt->len;
624 int origpriority = origpkt->priority;
626 pkt1.offset = DEFAULT_PACKET_OFFSET;
627 pkt2.offset = DEFAULT_PACKET_OFFSET;
629 if(!n->status.reachable) {
630 logger(DEBUG_TRAFFIC, LOG_INFO, "Trying to send UDP packet to unreachable node %s (%s)", n->name, n->hostname);
635 return send_sptps_packet(n, origpkt);
637 #ifdef DISABLE_LEGACY
640 /* Make sure we have a valid key */
642 if(!n->status.validkey) {
643 logger(DEBUG_TRAFFIC, LOG_INFO,
644 "No valid key known yet for %s (%s), forwarding via TCP",
645 n->name, n->hostname);
646 send_tcppacket(n->nexthop->connection, origpkt);
650 if(n->options & OPTION_PMTU_DISCOVERY && inpkt->len > n->minmtu && (DATA(inpkt)[12] | DATA(inpkt)[13])) {
651 logger(DEBUG_TRAFFIC, LOG_INFO,
652 "Packet for %s (%s) larger than minimum MTU, forwarding via %s",
653 n->name, n->hostname, n != n->nexthop ? n->nexthop->name : "TCP");
656 send_packet(n->nexthop, origpkt);
658 send_tcppacket(n->nexthop->connection, origpkt);
663 /* Compress the packet */
665 if(n->outcompression) {
666 outpkt = pkt[nextpkt++];
668 if((outpkt->len = compress_packet(DATA(outpkt), DATA(inpkt), inpkt->len, n->outcompression)) < 0) {
669 logger(DEBUG_TRAFFIC, LOG_ERR, "Error while compressing packet to %s (%s)",
670 n->name, n->hostname);
677 /* Add sequence number */
679 seqno_t seqno = htonl(++(n->sent_seqno));
680 memcpy(SEQNO(inpkt), &seqno, sizeof seqno);
681 inpkt->len += sizeof seqno;
683 /* Encrypt the packet */
685 if(cipher_active(n->outcipher)) {
686 outpkt = pkt[nextpkt++];
689 if(!cipher_encrypt(n->outcipher, SEQNO(inpkt), inpkt->len, SEQNO(outpkt), &outlen, true)) {
690 logger(DEBUG_TRAFFIC, LOG_ERR, "Error while encrypting packet to %s (%s)", n->name, n->hostname);
694 outpkt->len = outlen;
698 /* Add the message authentication code */
700 if(digest_active(n->outdigest)) {
701 if(!digest_create(n->outdigest, SEQNO(inpkt), inpkt->len, SEQNO(inpkt) + inpkt->len)) {
702 logger(DEBUG_TRAFFIC, LOG_ERR, "Error while encrypting packet to %s (%s)", n->name, n->hostname);
706 inpkt->len += digest_length(n->outdigest);
709 /* Send the packet */
711 const sockaddr_t *sa = NULL;
714 if(n->status.send_locally)
715 choose_local_address(n, &sa, &sock);
717 choose_udp_address(n, &sa, &sock);
719 if(priorityinheritance && origpriority != listen_socket[sock].priority) {
720 listen_socket[sock].priority = origpriority;
721 switch(sa->sa.sa_family) {
722 #if defined(IPPROTO_IP) && defined(IP_TOS)
724 logger(DEBUG_TRAFFIC, LOG_DEBUG, "Setting IPv4 outgoing packet priority to %d", origpriority);
725 if(setsockopt(listen_socket[sock].udp.fd, IPPROTO_IP, IP_TOS, (void *)&origpriority, sizeof origpriority)) /* SO_PRIORITY doesn't seem to work */
726 logger(DEBUG_ALWAYS, LOG_ERR, "System call `%s' failed: %s", "setsockopt", sockstrerror(sockerrno));
729 #if defined(IPPROTO_IPV6) & defined(IPV6_TCLASS)
731 logger(DEBUG_TRAFFIC, LOG_DEBUG, "Setting IPv6 outgoing packet priority to %d", origpriority);
732 if(setsockopt(listen_socket[sock].udp.fd, IPPROTO_IPV6, IPV6_TCLASS, (void *)&origpriority, sizeof origpriority)) /* SO_PRIORITY doesn't seem to work */
733 logger(DEBUG_ALWAYS, LOG_ERR, "System call `%s' failed: %s", "setsockopt", sockstrerror(sockerrno));
741 if(sendto(listen_socket[sock].udp.fd, (void *)SEQNO(inpkt), inpkt->len, 0, &sa->sa, SALEN(sa->sa)) < 0 && !sockwouldblock(sockerrno)) {
742 if(sockmsgsize(sockerrno)) {
743 if(n->maxmtu >= origlen)
744 n->maxmtu = origlen - 1;
745 if(n->mtu >= origlen)
746 n->mtu = origlen - 1;
749 logger(DEBUG_TRAFFIC, LOG_WARNING, "Error sending packet to %s (%s): %s", n->name, n->hostname, sockstrerror(sockerrno));
753 origpkt->len = origlen;
757 bool send_sptps_data(node_t *to, node_t *from, int type, const void *data, size_t len) {
758 node_t *relay = (to->via != myself && (type == PKT_PROBE || (len - SPTPS_DATAGRAM_OVERHEAD) <= to->via->minmtu)) ? to->via : to->nexthop;
759 bool direct = from == myself && to == relay;
760 bool relay_supported = (relay->options >> 24) >= 4;
761 bool tcponly = (myself->options | relay->options) & OPTION_TCPONLY;
763 /* Send it via TCP if it is a handshake packet, TCPOnly is in use, this is a relay packet that the other node cannot understand, or this packet is larger than the MTU. */
765 if(type == SPTPS_HANDSHAKE || tcponly || (!direct && !relay_supported) || (type != PKT_PROBE && (len - SPTPS_DATAGRAM_OVERHEAD) > relay->minmtu)) {
766 if(type != SPTPS_HANDSHAKE && (to->nexthop->connection->options >> 24) >= 7) {
767 char buf[len + sizeof to->id + sizeof from->id]; char* buf_ptr = buf;
768 memcpy(buf_ptr, &to->id, sizeof to->id); buf_ptr += sizeof to->id;
769 memcpy(buf_ptr, &from->id, sizeof from->id); buf_ptr += sizeof from->id;
770 memcpy(buf_ptr, data, len);
771 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);
772 return send_sptps_tcppacket(to->nexthop->connection, buf, sizeof buf);
775 char buf[len * 4 / 3 + 5];
776 b64encode(data, buf, len);
777 /* If this is a handshake packet, use ANS_KEY instead of REQ_KEY, for two reasons:
778 - We don't want intermediate nodes to switch to UDP to relay these packets;
779 - ANS_KEY allows us to learn the reflexive UDP address. */
780 if(type == SPTPS_HANDSHAKE) {
781 to->incompression = myself->incompression;
782 return send_request(to->nexthop->connection, "%d %s %s %s -1 -1 -1 %d", ANS_KEY, from->name, to->name, buf, to->incompression);
784 return send_request(to->nexthop->connection, "%d %s %s %d %s", REQ_KEY, from->name, to->name, SPTPS_PACKET, buf);
789 if(relay_supported) overhead += sizeof to->id + sizeof from->id;
790 char buf[len + overhead]; char* buf_ptr = buf;
791 if(relay_supported) {
793 /* Inform the recipient that this packet was sent directly. */
794 node_id_t nullid = {};
795 memcpy(buf_ptr, &nullid, sizeof nullid); buf_ptr += sizeof nullid;
797 memcpy(buf_ptr, &to->id, sizeof to->id); buf_ptr += sizeof to->id;
799 memcpy(buf_ptr, &from->id, sizeof from->id); buf_ptr += sizeof from->id;
802 /* 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 */
803 memcpy(buf_ptr, data, len); buf_ptr += len;
805 const sockaddr_t *sa = NULL;
807 if(relay->status.send_locally)
808 choose_local_address(relay, &sa, &sock);
810 choose_udp_address(relay, &sa, &sock);
811 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);
812 if(sendto(listen_socket[sock].udp.fd, buf, buf_ptr - buf, 0, &sa->sa, SALEN(sa->sa)) < 0 && !sockwouldblock(sockerrno)) {
813 if(sockmsgsize(sockerrno)) {
814 // Compensate for SPTPS overhead
815 len -= SPTPS_DATAGRAM_OVERHEAD;
816 if(relay->maxmtu >= len)
817 relay->maxmtu = len - 1;
818 if(relay->mtu >= len)
819 relay->mtu = len - 1;
822 logger(DEBUG_TRAFFIC, LOG_WARNING, "Error sending UDP SPTPS packet to %s (%s): %s", relay->name, relay->hostname, sockstrerror(sockerrno));
830 bool receive_sptps_record(void *handle, uint8_t type, const void *data, uint16_t len) {
831 node_t *from = handle;
833 if(type == SPTPS_HANDSHAKE) {
834 if(!from->status.validkey) {
835 from->status.validkey = true;
836 from->status.waitingforkey = false;
837 logger(DEBUG_META, LOG_INFO, "SPTPS key exchange with %s (%s) succesful", from->name, from->hostname);
843 logger(DEBUG_ALWAYS, LOG_ERR, "Packet from %s (%s) larger than maximum supported size (%d > %d)", from->name, from->hostname, len, MTU);
848 inpkt.offset = DEFAULT_PACKET_OFFSET;
850 if(type == PKT_PROBE) {
851 if(!from->status.udppacket) {
852 logger(DEBUG_ALWAYS, LOG_ERR, "Got SPTPS PROBE packet from %s (%s) via TCP", from->name, from->hostname);
856 memcpy(DATA(&inpkt), data, len);
857 if(inpkt.len > from->maxrecentlen)
858 from->maxrecentlen = inpkt.len;
859 udp_probe_h(from, &inpkt, len);
863 if(type & ~(PKT_COMPRESSED | PKT_MAC)) {
864 logger(DEBUG_ALWAYS, LOG_ERR, "Unexpected SPTPS record type %d len %d from %s (%s)", type, len, from->name, from->hostname);
868 /* Check if we have the headers we need */
869 if(routing_mode != RMODE_ROUTER && !(type & PKT_MAC)) {
870 logger(DEBUG_TRAFFIC, LOG_ERR, "Received packet from %s (%s) without MAC header (maybe Mode is not set correctly)", from->name, from->hostname);
872 } else if(routing_mode == RMODE_ROUTER && (type & PKT_MAC)) {
873 logger(DEBUG_TRAFFIC, LOG_WARNING, "Received packet from %s (%s) with MAC header (maybe Mode is not set correctly)", from->name, from->hostname);
876 int offset = (type & PKT_MAC) ? 0 : 14;
877 if(type & PKT_COMPRESSED) {
878 length_t ulen = uncompress_packet(DATA(&inpkt) + offset, (const uint8_t *)data, len, from->incompression);
882 inpkt.len = ulen + offset;
884 if(inpkt.len > MAXSIZE)
887 memcpy(DATA(&inpkt) + offset, data, len);
888 inpkt.len = len + offset;
891 /* Generate the Ethernet packet type if necessary */
893 switch(DATA(&inpkt)[14] >> 4) {
895 DATA(&inpkt)[12] = 0x08;
896 DATA(&inpkt)[13] = 0x00;
899 DATA(&inpkt)[12] = 0x86;
900 DATA(&inpkt)[13] = 0xDD;
903 logger(DEBUG_TRAFFIC, LOG_ERR,
904 "Unknown IP version %d while reading packet from %s (%s)",
905 DATA(&inpkt)[14] >> 4, from->name, from->hostname);
910 if(from->status.udppacket && inpkt.len > from->maxrecentlen)
911 from->maxrecentlen = inpkt.len;
913 receive_packet(from, &inpkt);
917 // This function tries to get SPTPS keys, if they aren't already known.
918 // 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.
919 static void try_sptps(node_t *n) {
920 if(n->status.validkey)
923 logger(DEBUG_TRAFFIC, LOG_INFO, "No valid key known yet for %s (%s)", n->name, n->hostname);
925 if(!n->status.waitingforkey)
927 else if(n->last_req_key + 10 < now.tv_sec) {
928 logger(DEBUG_ALWAYS, LOG_DEBUG, "No key from %s after 10 seconds, restarting SPTPS", n->name);
929 sptps_stop(&n->sptps);
930 n->status.waitingforkey = false;
937 static void send_udp_probe_packet(node_t *n, int len) {
939 packet.offset = DEFAULT_PACKET_OFFSET;
940 memset(DATA(&packet), 0, 14);
941 randomize(DATA(&packet) + 14, len - 14);
945 logger(DEBUG_TRAFFIC, LOG_INFO, "Sending UDP probe length %d to %s (%s)", len, n->name, n->hostname);
947 send_udppacket(n, &packet);
950 // This function tries to establish a UDP tunnel to a node so that packets can be sent.
951 // If a tunnel is already established, it makes sure it stays up.
952 // This function makes no guarantees - it is up to the caller to check the node's state to figure out if UDP is usable.
953 static void try_udp(node_t* n) {
957 /* Send gratuitous probe replies to 1.1 nodes. */
959 if((n->options >> 24) >= 3 && n->status.udp_confirmed) {
960 struct timeval ping_tx_elapsed;
961 timersub(&now, &n->udp_reply_sent, &ping_tx_elapsed);
963 if(ping_tx_elapsed.tv_sec >= udp_discovery_keepalive_interval - 1) {
964 n->udp_reply_sent = now;
965 if(n->maxrecentlen) {
967 pkt.len = n->maxrecentlen;
968 pkt.offset = DEFAULT_PACKET_OFFSET;
969 memset(DATA(&pkt), 0, 14);
970 randomize(DATA(&pkt) + 14, MIN_PROBE_SIZE - 14);
971 send_udp_probe_reply(n, &pkt, pkt.len);
979 struct timeval ping_tx_elapsed;
980 timersub(&now, &n->udp_ping_sent, &ping_tx_elapsed);
982 int interval = n->status.udp_confirmed ? udp_discovery_keepalive_interval : udp_discovery_interval;
984 if(ping_tx_elapsed.tv_sec >= interval) {
985 send_udp_probe_packet(n, MIN_PROBE_SIZE);
986 n->udp_ping_sent = now;
988 if(localdiscovery && !n->status.udp_confirmed && n->prevedge) {
989 n->status.send_locally = true;
990 send_udp_probe_packet(n, MIN_PROBE_SIZE);
991 n->status.send_locally = false;
996 static length_t choose_initial_maxmtu(node_t *n) {
1001 const sockaddr_t *sa = NULL;
1003 choose_udp_address(n, &sa, &sockindex);
1007 sock = socket(sa->sa.sa_family, SOCK_DGRAM, IPPROTO_UDP);
1009 logger(DEBUG_TRAFFIC, LOG_ERR, "Creating MTU assessment socket for %s (%s) failed: %s", n->name, n->hostname, sockstrerror(sockerrno));
1013 if(connect(sock, &sa->sa, SALEN(sa->sa))) {
1014 logger(DEBUG_TRAFFIC, LOG_ERR, "Connecting MTU assessment socket for %s (%s) failed: %s", n->name, n->hostname, sockstrerror(sockerrno));
1020 socklen_t ip_mtu_len = sizeof ip_mtu;
1021 if(getsockopt(sock, IPPROTO_IP, IP_MTU, &ip_mtu, &ip_mtu_len)) {
1022 logger(DEBUG_TRAFFIC, LOG_ERR, "getsockopt(IP_MTU) on %s (%s) failed: %s", n->name, n->hostname, sockstrerror(sockerrno));
1029 /* getsockopt(IP_MTU) returns the MTU of the physical interface.
1030 We need to remove various overheads to get to the tinc MTU. */
1031 length_t mtu = ip_mtu;
1032 mtu -= (sa->sa.sa_family == AF_INET6) ? sizeof(struct ip6_hdr) : sizeof(struct ip);
1034 if(n->status.sptps) {
1035 mtu -= SPTPS_DATAGRAM_OVERHEAD;
1036 if((n->options >> 24) >= 4)
1037 mtu -= sizeof(node_id_t) + sizeof(node_id_t);
1038 #ifndef DISABLE_LEGACY
1040 mtu -= digest_length(n->outdigest);
1042 /* Now it's tricky. We use CBC mode, so the length of the
1043 encrypted payload must be a multiple of the blocksize. The
1044 sequence number is also part of the encrypted payload, so we
1045 must account for it after correcting for the blocksize.
1046 Furthermore, the padding in the last block must be at least
1049 length_t blocksize = cipher_blocksize(n->outcipher);
1062 logger(DEBUG_TRAFFIC, LOG_ERR, "getsockopt(IP_MTU) on %s (%s) returned absurdly small value: %d", n->name, n->hostname, ip_mtu);
1068 logger(DEBUG_TRAFFIC, LOG_INFO, "Using system-provided maximum tinc MTU for %s (%s): %hd", n->name, n->hostname, mtu);
1078 /* This function tries to determines the MTU of a node.
1079 By calling this function repeatedly, n->minmtu will be progressively
1080 increased, and at some point, n->mtu will be fixed to n->minmtu. If the MTU
1081 is already fixed, this function checks if it can be increased.
1084 static void try_mtu(node_t *n) {
1085 if(!(n->options & OPTION_PMTU_DISCOVERY))
1088 if(udp_discovery && !n->status.udp_confirmed) {
1089 n->maxrecentlen = 0;
1096 /* mtuprobes == 0..19: initial discovery, send bursts with 1 second interval, mtuprobes++
1097 mtuprobes == 20: fix MTU, and go to -1
1098 mtuprobes == -1: send one maxmtu and one maxmtu+1 probe every pinginterval
1099 mtuprobes ==-2..-3: send one maxmtu probe every second
1100 mtuprobes == -4: maxmtu no longer valid, reset minmtu and maxmtu and go to 0 */
1102 struct timeval elapsed;
1103 timersub(&now, &n->mtu_ping_sent, &elapsed);
1104 if(n->mtuprobes >= 0) {
1105 if(n->mtuprobes != 0 && elapsed.tv_sec == 0 && elapsed.tv_usec < 333333)
1108 if(n->mtuprobes < -1) {
1109 if(elapsed.tv_sec < 1)
1112 if(elapsed.tv_sec < pinginterval)
1117 n->mtu_ping_sent = now;
1121 if(n->mtuprobes < -3) {
1122 /* We lost three MTU probes, restart discovery */
1123 logger(DEBUG_TRAFFIC, LOG_INFO, "Decrease in PMTU to %s (%s) detected, restarting PMTU discovery", n->name, n->hostname);
1128 if(n->mtuprobes < 0) {
1129 /* After the initial discovery, we only send one maxmtu and one
1130 maxmtu+1 probe to detect PMTU increases. */
1131 send_udp_probe_packet(n, n->maxmtu);
1132 if(n->mtuprobes == -1 && n->maxmtu + 1 < MTU)
1133 send_udp_probe_packet(n, n->maxmtu + 1);
1136 /* Before initial discovery begins, set maxmtu to the most likely value.
1137 If it's underestimated, we will correct it after initial discovery. */
1138 if(n->mtuprobes == 0)
1139 n->maxmtu = choose_initial_maxmtu(n);
1142 /* Decreasing the number of probes per cycle might make the algorithm react faster to lost packets,
1143 but it will typically increase convergence time in the no-loss case. */
1144 const length_t probes_per_cycle = 8;
1146 /* This magic value was determined using math simulations.
1147 It will result in a 1329-byte first probe, followed (if there was a reply) by a 1407-byte probe.
1148 Since 1407 is just below the range of tinc MTUs over typical networks,
1149 this fine-tuning allows tinc to cover a lot of ground very quickly.
1150 This fine-tuning is only valid for maxmtu = MTU; if maxmtu is smaller,
1151 then it's better to use a multiplier of 1. Indeed, this leads to an interesting scenario
1152 if choose_initial_maxmtu() returns the actual MTU value - it will get confirmed with one single probe. */
1153 const float multiplier = (n->maxmtu == MTU) ? 0.97 : 1;
1155 const float cycle_position = probes_per_cycle - (n->mtuprobes % probes_per_cycle) - 1;
1156 const length_t minmtu = MAX(n->minmtu, 512);
1157 const float interval = n->maxmtu - minmtu;
1159 /* The core of the discovery algorithm is this exponential.
1160 It produces very large probes early in the cycle, and then it very quickly decreases the probe size.
1161 This reflects the fact that in the most difficult cases, we don't get any feedback for probes that
1162 are too large, and therefore we need to concentrate on small offsets so that we can quickly converge
1163 on the precise MTU as we are approaching it.
1164 The last probe of the cycle is always 1 byte in size - this is to make sure we'll get at least one
1165 reply per cycle so that we can make progress. */
1166 const length_t offset = powf(interval, multiplier * cycle_position / (probes_per_cycle - 1));
1168 length_t maxmtu = n->maxmtu;
1169 send_udp_probe_packet(n, minmtu + offset);
1170 /* If maxmtu changed, it means the probe was rejected by the system because it was too large.
1171 In that case, we recalculate with the new maxmtu and try again. */
1172 if(n->mtuprobes < 0 || maxmtu == n->maxmtu)
1176 if(n->mtuprobes >= 0)
1181 /* These functions try to establish a tunnel to a node (or its relay) so that
1182 packets can be sent (e.g. exchange keys).
1183 If a tunnel is already established, it tries to improve it (e.g. by trying
1184 to establish a UDP tunnel instead of TCP). This function makes no
1185 guarantees - it is up to the caller to check the node's state to figure out
1186 if TCP and/or UDP is usable. By calling this function repeatedly, the
1187 tunnel is gradually improved until we hit the wall imposed by the underlying
1188 network environment. It is recommended to call this function every time a
1189 packet is sent (or intended to be sent) to a node, so that the tunnel keeps
1190 improving as packets flow, and then gracefully downgrades itself as it goes
1194 static void try_tx_sptps(node_t *n, bool mtu) {
1195 /* If n is a TCP-only neighbor, we'll only use "cleartext" PACKET
1196 messages anyway, so there's no need for SPTPS at all. */
1198 if(n->connection && ((myself->options | n->options) & OPTION_TCPONLY))
1201 /* Otherwise, try to do SPTPS authentication with n if necessary. */
1205 /* Do we need to statically relay packets? */
1207 node_t *via = (n->via == myself) ? n->nexthop : n->via;
1209 /* If we do have a static relay, try everything with that one instead, if it supports relaying. */
1212 if((via->options >> 24) < 4)
1214 return try_tx(via, mtu);
1217 /* Otherwise, try to establish UDP connectivity. */
1223 /* If we don't have UDP connectivity (yet), we need to use a dynamic relay (nexthop)
1224 while we try to establish direct connectivity. */
1226 if(!n->status.udp_confirmed && n != n->nexthop && (n->nexthop->options >> 24) >= 4)
1227 try_tx(n->nexthop, mtu);
1230 static void try_tx_legacy(node_t *n, bool mtu) {
1231 /* Does he have our key? If not, send one. */
1233 if(!n->status.validkey_in)
1236 /* Check if we already have a key, or request one. */
1238 if(!n->status.validkey) {
1239 if(n->last_req_key + 10 <= now.tv_sec) {
1241 n->last_req_key = now.tv_sec;
1251 void try_tx(node_t *n, bool mtu) {
1252 if(!n->status.reachable)
1255 try_tx_sptps(n, mtu);
1257 try_tx_legacy(n, mtu);
1260 void send_packet(node_t *n, vpn_packet_t *packet) {
1261 // If it's for myself, write it to the tun/tap device.
1265 memcpy(DATA(packet), mymac.x, ETH_ALEN);
1266 // Use an arbitrary fake source address.
1267 memcpy(DATA(packet) + ETH_ALEN, DATA(packet), ETH_ALEN);
1268 DATA(packet)[ETH_ALEN * 2 - 1] ^= 0xFF;
1271 n->out_bytes += packet->len;
1272 devops.write(packet);
1276 logger(DEBUG_TRAFFIC, LOG_ERR, "Sending packet of %d bytes to %s (%s)", packet->len, n->name, n->hostname);
1278 // If the node is not reachable, drop it.
1280 if(!n->status.reachable) {
1281 logger(DEBUG_TRAFFIC, LOG_INFO, "Node %s (%s) is not reachable", n->name, n->hostname);
1285 // Keep track of packet statistics.
1288 n->out_bytes += packet->len;
1290 // Check if it should be sent as an SPTPS packet.
1292 if(n->status.sptps) {
1293 send_sptps_packet(n, packet);
1298 // Determine which node to actually send it to.
1300 node_t *via = (packet->priority == -1 || n->via == myself) ? n->nexthop : n->via;
1303 logger(DEBUG_TRAFFIC, LOG_INFO, "Sending packet to %s via %s (%s)", n->name, via->name, n->via->hostname);
1305 // Try to send via UDP, unless TCP is forced.
1307 if(packet->priority == -1 || ((myself->options | via->options) & OPTION_TCPONLY)) {
1308 if(!send_tcppacket(via->connection, packet))
1309 terminate_connection(via->connection, true);
1313 send_udppacket(via, packet);
1317 void broadcast_packet(const node_t *from, vpn_packet_t *packet) {
1318 // Always give ourself a copy of the packet.
1320 send_packet(myself, packet);
1322 // In TunnelServer mode, do not forward broadcast packets.
1323 // The MST might not be valid and create loops.
1324 if(tunnelserver || broadcast_mode == BMODE_NONE)
1327 logger(DEBUG_TRAFFIC, LOG_INFO, "Broadcasting packet of %d bytes from %s (%s)",
1328 packet->len, from->name, from->hostname);
1330 switch(broadcast_mode) {
1331 // In MST mode, broadcast packets travel via the Minimum Spanning Tree.
1332 // This guarantees all nodes receive the broadcast packet, and
1333 // usually distributes the sending of broadcast packets over all nodes.
1335 for list_each(connection_t, c, connection_list)
1336 if(c->edge && c->status.mst && c != from->nexthop->connection)
1337 send_packet(c->node, packet);
1340 // In direct mode, we send copies to each node we know of.
1341 // However, this only reaches nodes that can be reached in a single hop.
1342 // We don't have enough information to forward broadcast packets in this case.
1347 for splay_each(node_t, n, node_tree)
1348 if(n->status.reachable && n != myself && ((n->via == myself && n->nexthop == n) || n->via == n))
1349 send_packet(n, packet);
1357 /* We got a packet from some IP address, but we don't know who sent it. Try to
1358 verify the message authentication code against all active session keys.
1359 Since this is actually an expensive operation, we only do a full check once
1360 a minute, the rest of the time we only check against nodes for which we know
1361 an IP address that matches the one from the packet. */
1363 static node_t *try_harder(const sockaddr_t *from, const vpn_packet_t *pkt) {
1364 node_t *match = NULL;
1366 static time_t last_hard_try = 0;
1368 for splay_each(node_t, n, node_tree) {
1369 if(!n->status.reachable || n == myself)
1372 if(!n->status.validkey_in && !(n->status.sptps && n->sptps.instate))
1377 for splay_each(edge_t, e, n->edge_tree) {
1380 if(!sockaddrcmp_noport(from, &e->reverse->address)) {
1387 if(last_hard_try == now.tv_sec)
1392 if(!try_mac(n, pkt))
1400 last_hard_try = now.tv_sec;
1405 static void handle_incoming_vpn_packet(listen_socket_t *ls, vpn_packet_t *pkt, sockaddr_t *addr) {
1407 node_id_t nullid = {};
1409 bool direct = false;
1411 sockaddrunmap(addr); /* Some braindead IPv6 implementations do stupid things. */
1413 // Try to figure out who sent this packet.
1415 node_t *n = lookup_node_udp(addr);
1417 if(n && !n->status.udp_confirmed)
1418 n = NULL; // Don't believe it if we don't have confirmation yet.
1421 // It might be from a 1.1 node, which might have a source ID in the packet.
1422 pkt->offset = 2 * sizeof(node_id_t);
1423 from = lookup_node_id(SRCID(pkt));
1424 if(from && !memcmp(DSTID(pkt), &nullid, sizeof nullid) && from->status.sptps) {
1425 if(sptps_verify_datagram(&from->sptps, DATA(pkt), pkt->len - 2 * sizeof(node_id_t)))
1434 n = try_harder(addr, pkt);
1439 if(debug_level >= DEBUG_PROTOCOL) {
1440 hostname = sockaddr2hostname(addr);
1441 logger(DEBUG_PROTOCOL, LOG_WARNING, "Received UDP packet from unknown source %s", hostname);
1449 if(n->status.sptps) {
1450 bool relay_enabled = (n->options >> 24) >= 4;
1451 if (relay_enabled) {
1452 pkt->offset = 2 * sizeof(node_id_t);
1453 pkt->len -= pkt->offset;
1456 if(!memcmp(DSTID(pkt), &nullid, sizeof nullid) || !relay_enabled) {
1461 from = lookup_node_id(SRCID(pkt));
1462 to = lookup_node_id(DSTID(pkt));
1465 logger(DEBUG_PROTOCOL, LOG_WARNING, "Received UDP packet from %s (%s) with unknown source and/or destination ID", n->name, n->hostname);
1469 if(!to->status.reachable) {
1470 /* This can happen in the form of a race condition
1471 if the node just became unreachable. */
1472 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);
1476 /* The packet is supposed to come from the originator or its static relay
1477 (i.e. with no dynamic relays in between).
1478 If it did not, "help" the static relay by sending it UDP info.
1479 Note that we only do this if we're the destination or the static relay;
1480 otherwise every hop would initiate its own UDP info message, resulting in elevated chatter. */
1482 if(n != from->via && to->via == myself)
1483 send_udp_info(myself, from);
1485 /* If we're not the final recipient, relay the packet. */
1488 send_sptps_data(to, from, 0, DATA(pkt), pkt->len);
1497 if(!receive_udppacket(from, pkt))
1500 n->sock = ls - listen_socket;
1501 if(direct && sockaddrcmp(addr, &n->address))
1502 update_node_udp(n, addr);
1504 /* If the packet went through a relay, help the sender find the appropriate MTU
1505 through the relay path. */
1508 send_mtu_info(myself, n, MTU);
1511 void handle_incoming_vpn_data(void *data, int flags) {
1512 listen_socket_t *ls = data;
1514 #ifdef HAVE_RECVMMSG
1516 static int num = MAX_MSG;
1517 static vpn_packet_t pkt[MAX_MSG];
1518 static sockaddr_t addr[MAX_MSG];
1519 static struct mmsghdr msg[MAX_MSG];
1520 static struct iovec iov[MAX_MSG];
1522 for(int i = 0; i < num; i++) {
1525 iov[i] = (struct iovec){
1526 .iov_base = DATA(&pkt[i]),
1530 msg[i].msg_hdr = (struct msghdr){
1531 .msg_name = &addr[i].sa,
1532 .msg_namelen = sizeof addr[i],
1538 num = recvmmsg(ls->udp.fd, msg, MAX_MSG, MSG_DONTWAIT, NULL);
1541 if(!sockwouldblock(sockerrno))
1542 logger(DEBUG_ALWAYS, LOG_ERR, "Receiving packet failed: %s", sockstrerror(sockerrno));
1546 for(int i = 0; i < num; i++) {
1547 pkt[i].len = msg[i].msg_len;
1548 if(pkt[i].len <= 0 || pkt[i].len > MAXSIZE)
1550 handle_incoming_vpn_packet(ls, &pkt[i], &addr[i]);
1554 sockaddr_t addr = {};
1555 socklen_t addrlen = sizeof addr;
1558 int len = recvfrom(ls->udp.fd, (void *)DATA(&pkt), MAXSIZE, 0, &addr.sa, &addrlen);
1560 if(len <= 0 || len > MAXSIZE) {
1561 if(!sockwouldblock(sockerrno))
1562 logger(DEBUG_ALWAYS, LOG_ERR, "Receiving packet failed: %s", sockstrerror(sockerrno));
1568 handle_incoming_vpn_packet(ls, &pkt, &addr);
1572 void handle_device_data(void *data, int flags) {
1573 vpn_packet_t packet;
1574 packet.offset = DEFAULT_PACKET_OFFSET;
1575 packet.priority = 0;
1577 if(devops.read(&packet)) {
1578 myself->in_packets++;
1579 myself->in_bytes += packet.len;
1580 route(myself, &packet);