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Comparing gvpe/src/vpn_dns.C (file contents):
Revision 1.27 by pcg, Sat Mar 12 18:10:40 2005 UTC vs.
Revision 1.48 by pcg, Tue Jul 28 00:42:14 2009 UTC

1/* 1/*
2 vpn_dns.C -- handle the dns tunnel part of the protocol. 2 vpn_dns.C -- handle the dns tunnel part of the protocol.
3 Copyright (C) 2003-2005 Marc Lehmann <gvpe@schmorp.de> 3 Copyright (C) 2003-2008 Marc Lehmann <gvpe@schmorp.de>
4 4
5 This file is part of GVPE. 5 This file is part of GVPE.
6 6
7 GVPE is free software; you can redistribute it and/or modify 7 GVPE is free software; you can redistribute it and/or modify it
8 it under the terms of the GNU General Public License as published by 8 under the terms of the GNU General Public License as published by the
9 the Free Software Foundation; either version 2 of the License, or 9 Free Software Foundation; either version 3 of the License, or (at your
10 (at your option) any later version. 10 option) any later version.
11 11
12 This program is distributed in the hope that it will be useful, 12 This program is distributed in the hope that it will be useful, but
13 but WITHOUT ANY WARRANTY; without even the implied warranty of 13 WITHOUT ANY WARRANTY; without even the implied warranty of
14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General
15 GNU General Public License for more details. 15 Public License for more details.
16 16
17 You should have received a copy of the GNU General Public License 17 You should have received a copy of the GNU General Public License along
18 along with gvpe; if not, write to the Free Software 18 with this program; if not, see <http://www.gnu.org/licenses/>.
19 Foundation, Inc. 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA 19
20 Additional permission under GNU GPL version 3 section 7
21
22 If you modify this Program, or any covered work, by linking or
23 combining it with the OpenSSL project's OpenSSL library (or a modified
24 version of that library), containing parts covered by the terms of the
25 OpenSSL or SSLeay licenses, the licensors of this Program grant you
26 additional permission to convey the resulting work. Corresponding
27 Source for a non-source form of such a combination shall include the
28 source code for the parts of OpenSSL used as well as that of the
29 covered work.
20*/ 30*/
31
32// TODO: EDNS0 option to increase dns mtu?
33// TODO: re-write dns packet parsing/creation using a safe mem-buffer
34// to ensure no buffer overflows or similar problems.
21 35
22#include "config.h" 36#include "config.h"
23 37
24#if ENABLE_DNS 38#if ENABLE_DNS
25 39
38#include <unistd.h> 52#include <unistd.h>
39#include <fcntl.h> 53#include <fcntl.h>
40 54
41#include <map> 55#include <map>
42 56
57#include <cstdio> /* bug in libgmp: gmp.h relies on cstdio being included */
43#include <gmp.h> 58#include <gmp.h>
44 59
45#include "netcompat.h" 60#include "netcompat.h"
46 61
47#include "vpn.h" 62#include "vpn.h"
48 63
49#define MIN_POLL_INTERVAL .02 // how often to poll minimally when the server has data
50#define MAX_POLL_INTERVAL 6. // how often to poll minimally when the server has no data 64#define MAX_POLL_INTERVAL 5. // how often to poll minimally when the server has no data
51#define ACTIVITY_INTERVAL 5. 65#define ACTIVITY_INTERVAL 5.
52 66
53#define INITIAL_TIMEOUT 0.1 // retry timeouts 67#define INITIAL_TIMEOUT 0.1 // retry timeouts
54#define INITIAL_SYN_TIMEOUT 10. // retry timeout for initial syn 68#define INITIAL_SYN_TIMEOUT 2. // retry timeout for initial syn
55 69
56#define MIN_SEND_INTERVAL 0.01 // wait at least this time between sending requests
57#define MAX_SEND_INTERVAL 2. // optimistic? 70#define MAX_SEND_INTERVAL 2. // optimistic?
58 71
59#define LATENCY_FACTOR 0.5 // RTT * LATENCY_FACTOR == sending rate
60#define MAX_OUTSTANDING 40 // max. outstanding requests
61#define MAX_WINDOW 1000 // max. for MAX_OUTSTANDING, and backlog 72#define MAX_WINDOW 1000 // max. for MAX_OUTSTANDING, and backlog
62#define MAX_BACKLOG (100*1024) // size of gvpe protocol backlog (bytes), must be > MAXSIZE 73#define MAX_BACKLOG (64*1024) // size of gvpe protocol backlog (bytes), must be > MAXSIZE
63 74
64#define MAX_DOMAIN_SIZE 200 // 255 is legal limit, but bind doesn't compress well 75#define MAX_DOMAIN_SIZE 240 // 255 is legal limit, but bind doesn't compress well
65// 240 leaves about 4 bytes of server reply data 76// 240 leaves about 4 bytes of server reply data
66// every two request bytes less give room for one reply byte 77// every request byte less give room for two reply bytes
67 78
68#define SEQNO_MASK 0x3fff 79#define SEQNO_MASK 0x3fff
69#define SEQNO_EQ(a,b) ( 0 == ( ((a) ^ (b)) & SEQNO_MASK) ) 80#define SEQNO_EQ(a,b) ( 0 == ( ((a) ^ (b)) & SEQNO_MASK) )
70 81
71#define MAX_LBL_SIZE 63 82#define MAX_LBL_SIZE 63
72#define MAX_PKT_SIZE 512 83#define MAX_PKT_SIZE 512
73 84
74#define RR_TYPE_A 1 85#define RR_TYPE_A 1
75#define RR_TYPE_NULL 10 86#define RR_TYPE_NULL 10
76#define RR_TYPE_TXT 16 87#define RR_TYPE_TXT 16
88#define RR_TYPE_AAAA 28
77#define RR_TYPE_ANY 255 89#define RR_TYPE_ANY 255
78 90
79#define RR_CLASS_IN 1 91#define RR_CLASS_IN 1
80 92
81#define CMD_IP_1 207 93#define CMD_IP_1 207
424 u16 max_size; 436 u16 max_size;
425 u8 seq_cdc; 437 u8 seq_cdc;
426 u8 req_cdc; 438 u8 req_cdc;
427 439
428 u8 rep_cdc; 440 u8 rep_cdc;
441 u8 delay; // time in 0.01s units that the server may delay replying packets
429 u8 r2, r3, r4; 442 u8 r3, r4;
430 443
431 u8 r5, r6, r7, r8; 444 u8 r5, r6, r7, r8;
432 445
433 void reset (int clientid); 446 void reset (int clientid);
434 bool valid (); 447 bool valid ();
452 req_cdc = 62; 465 req_cdc = 62;
453 rep_cdc = 0; 466 rep_cdc = 0;
454 max_size = htons (MAX_PKT_SIZE); 467 max_size = htons (MAX_PKT_SIZE);
455 client = htons (clientid); 468 client = htons (clientid);
456 uid = next_uid++; 469 uid = next_uid++;
470 delay = 0;
457 471
458 r2 = r3 = r4 = 0; 472 r3 = r4 = 0;
459 r4 = r5 = r6 = r7 = 0; 473 r4 = r5 = r6 = r7 = 0;
460} 474}
461 475
462bool dns_cfg::valid () 476bool dns_cfg::valid ()
463{ 477{
478 // although the protocol itself allows for some configurability,
479 // only the following encoding/decoding settings are implemented.
464 return id1 == 'G' 480 return id1 == 'G'
465 && id2 == 'V' 481 && id2 == 'V'
466 && id3 == 'P' 482 && id3 == 'P'
467 && id4 == 'E' 483 && id4 == 'E'
468 && seq_cdc == 26 484 && seq_cdc == 26
552 double min_latency; 568 double min_latency;
553 double poll_interval, send_interval; 569 double poll_interval, send_interval;
554 570
555 vector<dns_rcv *> rcvpq; 571 vector<dns_rcv *> rcvpq;
556 572
557 byte_stream rcvdq; int rcvseq; 573 byte_stream rcvdq; int rcvseq; int repseq;
558 byte_stream snddq; int sndseq; 574 byte_stream snddq; int sndseq;
559 575
560 void time_cb (time_watcher &w); time_watcher tw; 576 inline void time_cb (ev::timer &w, int revents); ev::timer tw;
561 void receive_rep (dns_rcv *r); 577 void receive_rep (dns_rcv *r);
562 578
563 dns_connection (connection *c); 579 dns_connection (connection *c);
564 ~dns_connection (); 580 ~dns_connection ();
565}; 581};
584: dns (dns) 600: dns (dns)
585{ 601{
586 timeout = 0; 602 timeout = 0;
587 retry = 0; 603 retry = 0;
588 seqno = 0; 604 seqno = 0;
589 sent = NOW; 605 sent = ev_now ();
590 stdhdr = false; 606 stdhdr = false;
591 607
592 pkt = new dns_packet; 608 pkt = new dns_packet;
593 609
594 pkt->id = next_id (); 610 pkt->id = next_id ();
625void dns_snd::gen_stream_req (int seqno, byte_stream &stream) 641void dns_snd::gen_stream_req (int seqno, byte_stream &stream)
626{ 642{
627 stdhdr = true; 643 stdhdr = true;
628 this->seqno = seqno; 644 this->seqno = seqno;
629 645
630 timeout = NOW + INITIAL_TIMEOUT; 646 timeout = ev_now () + INITIAL_TIMEOUT;
631 647
632 pkt->flags = htons (DEFAULT_CLIENT_FLAGS); 648 pkt->flags = htons (DEFAULT_CLIENT_FLAGS);
633 pkt->qdcount = htons (1); 649 pkt->qdcount = htons (1);
634 650
635 int offs = 6*2; 651 int offs = 6*2;
670 pkt->len = offs; 686 pkt->len = offs;
671} 687}
672 688
673void dns_snd::gen_syn_req () 689void dns_snd::gen_syn_req ()
674{ 690{
675 timeout = NOW + INITIAL_SYN_TIMEOUT; 691 timeout = ev_now () + INITIAL_SYN_TIMEOUT;
676 692
677 pkt->flags = htons (DEFAULT_CLIENT_FLAGS); 693 pkt->flags = htons (DEFAULT_CLIENT_FLAGS);
678 pkt->qdcount = htons (1); 694 pkt->qdcount = htons (1);
679 695
680 int offs = 6 * 2; 696 int offs = 6 * 2;
719///////////////////////////////////////////////////////////////////////////// 735/////////////////////////////////////////////////////////////////////////////
720 736
721dns_connection::dns_connection (connection *c) 737dns_connection::dns_connection (connection *c)
722: c (c) 738: c (c)
723, rcvdq (MAX_BACKLOG * 2) 739, rcvdq (MAX_BACKLOG * 2)
724, snddq (MAX_BACKLOG * 2) 740, snddq (MAX_BACKLOG)
725, tw (this, &dns_connection::time_cb)
726{ 741{
742 tw.set<dns_connection, &dns_connection::time_cb> (this);
743
727 vpn = c->vpn; 744 vpn = c->vpn;
728 745
729 established = false; 746 established = false;
730 747
731 rcvseq = sndseq = 0; 748 rcvseq = repseq = sndseq = 0;
732 749
733 last_sent = last_received = 0; 750 last_sent = last_received = 0;
734 poll_interval = MIN_POLL_INTERVAL; 751 poll_interval = 0.5; // starting here
735 send_interval = 0.5; // starting rate 752 send_interval = 0.5; // starting rate
736 min_latency = INITIAL_TIMEOUT; 753 min_latency = INITIAL_TIMEOUT;
737} 754}
738 755
739dns_connection::~dns_connection () 756dns_connection::~dns_connection ()
746 763
747void dns_connection::receive_rep (dns_rcv *r) 764void dns_connection::receive_rep (dns_rcv *r)
748{ 765{
749 if (r->datalen) 766 if (r->datalen)
750 { 767 {
751 last_received = NOW; 768 last_received = ev_now ();
752 tw.trigger (); 769 tw ();
753 770
754 poll_interval = send_interval; 771 poll_interval = send_interval;
755 } 772 }
756 else 773 else
757 { 774 {
767 784
768 // find next packet 785 // find next packet
769 for (vector<dns_rcv *>::iterator i = rcvpq.end (); i-- != rcvpq.begin (); ) 786 for (vector<dns_rcv *>::iterator i = rcvpq.end (); i-- != rcvpq.begin (); )
770 if (SEQNO_EQ (rcvseq, (*i)->seqno)) 787 if (SEQNO_EQ (rcvseq, (*i)->seqno))
771 { 788 {
789 //printf ("seqno eq %x %x\n", rcvseq, (*i)->seqno);//D
772 // enter the packet into our input stream 790 // enter the packet into our input stream
773 r = *i; 791 r = *i;
774 792
775 // remove the oldest packet, look forward, as it's oldest first 793 // remove the oldest packet, look forward, as it's oldest first
776 for (vector<dns_rcv *>::iterator j = rcvpq.begin (); j != rcvpq.end (); ++j) 794 for (vector<dns_rcv *>::iterator j = rcvpq.begin (); j != rcvpq.end (); ++j)
777 if (SEQNO_EQ ((*j)->seqno, rcvseq - MAX_WINDOW)) 795 if (SEQNO_EQ ((*j)->seqno, rcvseq - MAX_WINDOW))
778 { 796 {
797 //printf ("seqno RR %x %x\n", (*j)->seqno, rcvseq - MAX_WINDOW);//D
779 delete *j; 798 delete *j;
780 rcvpq.erase (j); 799 rcvpq.erase (j);
781 break; 800 break;
782 } 801 }
783 802
790 } 809 }
791 810
792 while (vpn_packet *pkt = rcvdq.get ()) 811 while (vpn_packet *pkt = rcvdq.get ())
793 { 812 {
794 sockinfo si; 813 sockinfo si;
795 si.host = 0x01010101; si.port = htons (c->conf->id); si.prot = PROT_DNSv4; 814 si.host = htonl (c->conf->id); si.port = 0; si.prot = PROT_DNSv4;
796 815
797 vpn->recv_vpn_packet (pkt, si); 816 vpn->recv_vpn_packet (pkt, si);
798 817
799 delete pkt; 818 delete pkt;
800 } 819 }
854 if (0 < client && client <= conns.size ()) 873 if (0 < client && client <= conns.size ())
855 { 874 {
856 connection *c = conns [client - 1]; 875 connection *c = conns [client - 1];
857 dns_connection *dns = c->dns; 876 dns_connection *dns = c->dns;
858 dns_rcv *rcv; 877 dns_rcv *rcv;
859 bool in_seq;
860 878
861 if (dns) 879 if (dns)
862 { 880 {
863 for (vector<dns_rcv *>::iterator i = dns->rcvpq.end (); i-- != dns->rcvpq.begin (); ) 881 for (vector<dns_rcv *>::iterator i = dns->rcvpq.end (); i-- != dns->rcvpq.begin (); )
864 if (SEQNO_EQ ((*i)->seqno, seqno)) 882 if (SEQNO_EQ ((*i)->seqno, seqno))
875 memcpy (pkt.at (0), r->pkt->at (0), offs = r->pkt->len); 893 memcpy (pkt.at (0), r->pkt->at (0), offs = r->pkt->len);
876 894
877 goto duplicate_request; 895 goto duplicate_request;
878 } 896 }
879 897
880 in_seq = dns->rcvseq == seqno;
881
882 // new packet, queue 898 // new packet, queue
883 rcv = new dns_rcv (seqno, data, datalen); 899 rcv = new dns_rcv (seqno, data, datalen);
884 dns->receive_rep (rcv); 900 dns->receive_rep (rcv);
885 } 901 }
886 902
903 dlen -= qlen; 919 dlen -= qlen;
904 920
905 // only put data into in-order sequence packets, if 921 // only put data into in-order sequence packets, if
906 // we receive out-of-order packets we generate empty 922 // we receive out-of-order packets we generate empty
907 // replies 923 // replies
908 while (dlen > 1 && !dns->snddq.empty () && in_seq) 924 //printf ("%d - %d & %x (=%d) < %d\n", seqno, dns->repseq, SEQNO_MASK, (seqno - dns->repseq) & SEQNO_MASK, MAX_WINDOW);//D
925 if (((seqno - dns->repseq) & SEQNO_MASK) <= MAX_WINDOW)
909 { 926 {
927 dns->repseq = seqno;
928
929 while (dlen > 1 && !dns->snddq.empty ())
930 {
910 int txtlen = dlen <= 255 ? dlen - 1 : 255; 931 int txtlen = dlen <= 255 ? dlen - 1 : 255;
911 932
912 if (txtlen > dns->snddq.size ()) 933 if (txtlen > dns->snddq.size ())
913 txtlen = dns->snddq.size (); 934 txtlen = dns->snddq.size ();
914 935
915 pkt[offs++] = txtlen; 936 pkt[offs++] = txtlen;
916 memcpy (pkt.at (offs), dns->snddq.begin (), txtlen); 937 memcpy (pkt.at (offs), dns->snddq.begin (), txtlen);
917 offs += txtlen; 938 offs += txtlen;
918 dns->snddq.remove (txtlen); 939 dns->snddq.remove (txtlen);
919 940
920 dlen -= txtlen + 1; 941 dlen -= txtlen + 1;
942 }
921 } 943 }
922 944
923 // avoid empty TXT rdata 945 // avoid completely empty TXT rdata
924 if (offs == rdlen_offs) 946 if (offs == rdlen_offs)
925 pkt[offs++] = 0; 947 pkt[offs++] = 0;
926 948
927 slog (L_NOISE, "DNS: snddq %d", dns->snddq.size ()); 949 slog (L_NOISE, "DNS: snddq %d", dns->snddq.size ());
928 } 950 }
1008 { 1030 {
1009 dns_connection *dns = (*i)->dns; 1031 dns_connection *dns = (*i)->dns;
1010 connection *c = dns->c; 1032 connection *c = dns->c;
1011 int seqno = (*i)->seqno; 1033 int seqno = (*i)->seqno;
1012 u8 data[MAXSIZE], *datap = data; 1034 u8 data[MAXSIZE], *datap = data;
1035 //printf ("rcv pkt %x\n", seqno);//D
1013 1036
1014 if ((*i)->retry) 1037 if ((*i)->retry)
1015 { 1038 {
1016 dns->send_interval *= 1.01; 1039 dns->send_interval *= 1.01;
1017 if (dns->send_interval > MAX_SEND_INTERVAL) 1040 if (dns->send_interval > MAX_SEND_INTERVAL)
1022#if 0 1045#if 0
1023 dns->send_interval *= 0.999; 1046 dns->send_interval *= 0.999;
1024#endif 1047#endif
1025 // the latency surely puts an upper bound on 1048 // the latency surely puts an upper bound on
1026 // the minimum send interval 1049 // the minimum send interval
1027 double latency = NOW - (*i)->sent; 1050 double latency = ev_now () - (*i)->sent;
1028 1051
1029 if (latency < dns->min_latency) 1052 if (latency < dns->min_latency)
1030 dns->min_latency = latency; 1053 dns->min_latency = latency;
1031 1054
1032 if (dns->send_interval > dns->min_latency * LATENCY_FACTOR) 1055 if (dns->send_interval > dns->min_latency * conf.dns_overlap_factor)
1033 dns->send_interval = dns->min_latency * LATENCY_FACTOR; 1056 dns->send_interval = dns->min_latency * conf.dns_overlap_factor;
1034 1057
1035 if (dns->send_interval < MIN_SEND_INTERVAL) 1058 if (dns->send_interval < conf.dns_send_interval)
1036 dns->send_interval = MIN_SEND_INTERVAL; 1059 dns->send_interval = conf.dns_send_interval;
1037 } 1060 }
1038 1061
1039 delete *i; 1062 delete *i;
1040 dns_sndpq.erase (i); 1063 dns_sndpq.erase (i);
1041 1064
1146 break; 1169 break;
1147 } 1170 }
1148} 1171}
1149 1172
1150void 1173void
1151vpn::dnsv4_ev (io_watcher &w, short revents) 1174vpn::dnsv4_ev (ev::io &w, int revents)
1152{ 1175{
1153 if (revents & EVENT_READ) 1176 if (revents & EV_READ)
1154 { 1177 {
1155 dns_packet *pkt = new dns_packet; 1178 dns_packet *pkt = new dns_packet;
1156 struct sockaddr_in sa; 1179 struct sockaddr_in sa;
1157 socklen_t sa_len = sizeof (sa); 1180 socklen_t sa_len = sizeof (sa);
1158 1181
1174} 1197}
1175 1198
1176bool 1199bool
1177vpn::send_dnsv4_packet (vpn_packet *pkt, const sockinfo &si, int tos) 1200vpn::send_dnsv4_packet (vpn_packet *pkt, const sockinfo &si, int tos)
1178{ 1201{
1179 int client = ntohs (si.port); 1202 int client = ntohl (si.host);
1180 1203
1181 assert (0 < client && client <= conns.size ()); 1204 assert (0 < client && client <= conns.size ());
1182 1205
1183 connection *c = conns [client - 1]; 1206 connection *c = conns [client - 1];
1184 1207
1185 if (!c->dns) 1208 if (!c->dns)
1186 c->dns = new dns_connection (c); 1209 c->dns = new dns_connection (c);
1187 1210
1188 if (!c->dns->snddq.put (pkt)) 1211 if (c->dns->snddq.put (pkt))
1189 return false;
1190
1191 c->dns->tw.trigger (); 1212 c->dns->tw ();
1192 1213
1214 // always return true even if the buffer overflows
1193 return true; 1215 return true;
1194} 1216}
1195 1217
1196void 1218void
1197connection::dnsv4_reset_connection () 1219connection::dnsv4_reset_connection ()
1200} 1222}
1201 1223
1202#define NEXT(w) do { if (next > (w)) next = w; } while (0) 1224#define NEXT(w) do { if (next > (w)) next = w; } while (0)
1203 1225
1204void 1226void
1205dns_connection::time_cb (time_watcher &w) 1227dns_connection::time_cb (ev::timer &w, int revents)
1206{ 1228{
1207 // servers have to be polled 1229 // servers have to be polled
1208 if (THISNODE->dns_port) 1230 if (THISNODE->dns_port)
1209 return; 1231 return;
1210 1232
1211 // check for timeouts and (re)transmit 1233 // check for timeouts and (re)transmit
1212 tstamp next = NOW + poll_interval; 1234 tstamp next = ev::now () + poll_interval;
1213 dns_snd *send = 0; 1235 dns_snd *send = 0;
1214 1236
1215 for (vector<dns_snd *>::iterator i = vpn->dns_sndpq.begin (); 1237 for (vector<dns_snd *>::iterator i = vpn->dns_sndpq.begin ();
1216 i != vpn->dns_sndpq.end (); 1238 i != vpn->dns_sndpq.end ();
1217 ++i) 1239 ++i)
1218 { 1240 {
1219 dns_snd *r = *i; 1241 dns_snd *r = *i;
1220 1242
1221 if (r->timeout <= NOW) 1243 if (r->timeout <= ev_now ())
1222 { 1244 {
1223 if (!send) 1245 if (!send)
1224 { 1246 {
1225 send = r; 1247 send = r;
1226 1248
1227 r->retry++; 1249 r->retry++;
1228 r->timeout = NOW + (r->retry * min_latency * 8.); 1250 r->timeout = ev_now () + (r->retry * min_latency * conf.dns_timeout_factor);
1251 //printf ("RETRY %x (%d, %f)\n", r->seqno, r->retry, r->timeout - ev_now ());//D
1229 1252
1230 // the following code changes the query section a bit, forcing 1253 // the following code changes the query section a bit, forcing
1231 // the forwarder to generate a new request 1254 // the forwarder to generate a new request
1232 if (r->stdhdr) 1255 if (r->stdhdr)
1233 {
1234 //printf ("reencoded header for ID %d retry %d:%d:%d (%p)\n", htons (r->pkt->id), THISNODE->id, r->seqno, r->retry);
1235 //encode_header ((char *)r->pkt->at (6 * 2 + 1), THISNODE->id, r->seqno, r->retry); 1256 encode_header ((char *)r->pkt->at (6 * 2 + 1), THISNODE->id, r->seqno, r->retry);
1236 }
1237 } 1257 }
1238 } 1258 }
1239 else 1259 else
1240 NEXT (r->timeout); 1260 NEXT (r->timeout);
1241 } 1261 }
1242 1262
1243 if (send || (last_sent + send_interval <= NOW))
1244 {
1245 if (!send) 1263 if (!send)
1264 {
1265 // generate a new packet, if wise
1266
1267 if (!established)
1246 { 1268 {
1247 // generate a new packet, if wise 1269 if (vpn->dns_sndpq.empty ())
1248
1249 if (!established)
1250 { 1270 {
1251 if (vpn->dns_sndpq.empty ())
1252 {
1253 send = new dns_snd (this); 1271 send = new dns_snd (this);
1254 1272
1255 cfg.reset (THISNODE->id); 1273 cfg.reset (THISNODE->id);
1256 send->gen_syn_req (); 1274 send->gen_syn_req ();
1257 }
1258 } 1275 }
1259 else if (vpn->dns_sndpq.size () < MAX_OUTSTANDING 1276 }
1277 else if (vpn->dns_sndpq.size () < conf.dns_max_outstanding
1260 && !SEQNO_EQ (rcvseq, sndseq - (MAX_WINDOW - 1))) 1278 && !SEQNO_EQ (rcvseq, sndseq - (MAX_WINDOW - 1)))
1279 {
1280 if (last_sent + send_interval <= ev_now ())
1261 { 1281 {
1262 //printf ("sending data request etc.\n"); //D 1282 //printf ("sending data request etc.\n"); //D
1263 if (!snddq.empty () || last_received + 1. > NOW) 1283 if (!snddq.empty () || last_received + 1. > ev_now ())
1264 { 1284 {
1265 poll_interval = send_interval; 1285 poll_interval = send_interval;
1266 NEXT (NOW + send_interval); 1286 NEXT (ev_now () + send_interval);
1267 } 1287 }
1268 1288
1269 send = new dns_snd (this); 1289 send = new dns_snd (this);
1270 send->gen_stream_req (sndseq, snddq); 1290 send->gen_stream_req (sndseq, snddq);
1271 send->timeout = NOW + min_latency * 8.; 1291 send->timeout = ev_now () + min_latency * conf.dns_timeout_factor;
1292 //printf ("SEND %x (%f)\n", send->seqno, send->timeout - ev_now (), min_latency, conf.dns_timeout_factor);//D
1272 1293
1273 sndseq = (sndseq + 1) & SEQNO_MASK; 1294 sndseq = (sndseq + 1) & SEQNO_MASK;
1274 } 1295 }
1275 1296 else
1276 if (send && !send->retry) 1297 NEXT (last_sent + send_interval);
1277 vpn->dns_sndpq.push_back (send);
1278 } 1298 }
1279 1299
1280 if (send) 1300 if (send)
1281 { 1301 vpn->dns_sndpq.push_back (send);
1282 last_sent = NOW; 1302 }
1303
1304 if (send)
1305 {
1306 last_sent = ev_now ();
1283 sendto (vpn->dnsv4_fd, 1307 sendto (vpn->dnsv4_fd,
1284 send->pkt->at (0), send->pkt->len, 0, 1308 send->pkt->at (0), send->pkt->len, 0,
1285 vpn->dns_forwarder.sav4 (), vpn->dns_forwarder.salenv4 ()); 1309 vpn->dns_forwarder.sav4 (), vpn->dns_forwarder.salenv4 ());
1286 }
1287 } 1310 }
1288 else
1289 NEXT (last_sent + send_interval);
1290 1311
1291 slog (L_NOISE, "DNS: pi %f si %f N %f (%d:%d %d)", 1312 slog (L_NOISE, "DNS: pi %f si %f N %f (%d:%d %d)",
1292 poll_interval, send_interval, next - NOW, 1313 poll_interval, send_interval, next - ev_now (),
1293 vpn->dns_sndpq.size (), snddq.size (), 1314 vpn->dns_sndpq.size (), snddq.size (),
1294 rcvpq.size ()); 1315 rcvpq.size ());
1295 1316
1296 // TODO: no idea when this happens, but when next < NOW, we have a problem 1317 // TODO: no idea when this happens, but when next < ev_now (), we have a problem
1318 // doesn't seem to happen anymore
1297 if (next < NOW + 0.0001) 1319 if (next < ev_now () + 0.001)
1298 next = NOW + 0.1; 1320 next = ev_now () + 0.1;
1299 1321
1300 w.start (next); 1322 w.start (next - ev_now ());
1301} 1323}
1302 1324
1303#endif 1325#endif
1304 1326

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