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start merging common and docs #76
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README
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README
@ -94,6 +94,41 @@ should always work. For more bandwidth, try Base64 or Raw (TXT only) via the
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-O option. If Base64/Raw doesn't work, you'll see many failures in the
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fragment size autoprobe.
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Normal operation now is for the server to _not_ answer a DNS request until
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the next DNS request has come in, a.k.a. being "lazy". This way, the server
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will always have a DNS request handy when new downstream data has to be sent.
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This greatly improves (interactive) performance and latency, and allows to
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slow down the quiescent ping requests to 4 second intervals by default.
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In fact, the main purpose of the pings now is to force a reply to the previous
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ping, and prevent DNS server timeouts (usually 5-10 seconds per RFC1035).
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In the unlikely case that you do experience DNS server timeouts (SERVFAIL),
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decrease the -I option to 1. If you are running on a local network without
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any DNS server in-between, try -I 50 (iodine and iodined time out after 60
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seconds). The only time you'll notice a slowdown, is when DNS reply packets
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go missing; the iodined server then has to wait for a new ping to re-send the
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data. You can speed this up by generating some upstream traffic (keypress,
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ping). If this happens often, check your network for bottlenecks and/or run
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with -I1 .
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Some DNS servers appear to be quite impatient and start retrying DNS requests
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(with _different_ DNS ids!) when an answer does not appear within a few
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milliseconds. Usually they scale back retries when iodined's lazy mode
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repeatedly takes several seconds to answer; and they scale up retries again
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when iodined answers fast during heavy data transfer. Some commercial DNS
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servers advertise this as "carrier-grade adaptive retransmission techniques".
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The effect will only be visible in the network traffic at the iodined server,
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and will not affect the client's connection. Iodined has rather elaborate
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logic to deal with (i.e., ignore) these unwanted duplicates.
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Other DNS servers, notably the opendns.com network, seem to regard iodined's
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lazyness as incompetency, and will start shuffling requests around, possibly
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in an attempt to reduce iodined's workload. The resulting out-of-sequence DNS
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traffic works quite badly for lazy mode. The iodine client will detect this,
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and switch back to legacy mode ("immediate ping-pong") automatically. In these
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cases, start the iodine client with -L0 to prevent it from operating in lazy
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mode altogether. Note that this will negatively affect interactive performance
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and latency, especially in the downstream direction.
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If you have problems, try inspecting the traffic with network monitoring tools
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and make sure that the relaying DNS server has not cached the response. A
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cached error message could mean that you started the client before the server.
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@ -109,12 +144,103 @@ iptables -t nat -A PREROUTING -i eth0 -p udp --dport 53 -j DNAT --to :5353
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(Sent in by Tom Schouten)
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Iodined will reject data from clients that have not been active (data/pings)
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for more than 60 seconds. In case of a long network outage or similar, just
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stop iodine and restart (re-login), possibly multiple times until you get
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for more than 60 seconds. Similarly, iodine will exit when no downstream
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data has been received for 60 seconds. In case of a long network outage or
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similar, just restart iodine (re-login), possibly multiple times until you get
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your old IP address back. Once that's done, just wait a while, and you'll
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eventually see the tunneled TCP traffic continue to flow from where it left
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off before the outage.
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With the introduction of the downstream packet queue in the server, its memory
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usage has increased with several megabytes in the default configuration.
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For use in low-memory environments (e.g. running on your DSL router), you can
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decrease USERS and undefine OUTPACKETQ_LEN in user.h without any ill conse-
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quence, assuming at most one client will be connected at any time. A small
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DNSCACHE_LEN is still advised, preferably 2 or higher, however you can also
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undefine it to save a few more kilobytes.
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PERFORMANCE:
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This section tabulates some performance measurements. To view properly, use
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a fixed-width font like Courier.
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Measurements were done in protocol 00000500 with lazy mode unless indicated
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otherwise. Upstream encoding always Base64.
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Upstream/downstream throughput was measured by scp'ing a file previously
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read from /dev/urandom (i.e. incompressible), and measuring size with
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"ls -l ; sleep 30 ; ls -l" on a separate non-tunneled connection. Given the
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large scp block size of 16 kB, this gives a resolution of 4.3 kbit/s, which
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explains why many values are exactly equal.
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Ping round-trip times measured with "ping -c100", presented are average rtt
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and mean deviation (indicating spread around the average), in milliseconds.
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Situation 1:
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Laptop -> Wifi AP -> Home server -> DSL provider -> Datacenter
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iodine DNS "relay" bind9 DNS cache iodined
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downstr. upstream downstr. ping-up ping-down
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fragsize kbit/s kbit/s avg +/-mdev avg +/-mdev
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------------------------------------------------------------------------------
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iodine -> Wifi AP :53
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-Tnull (= -Oraw) 982 39.3 148.5 26.7 3.1 26.6 3.0
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iodine -> Home server :53
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-Tnull (= -Oraw) 1174 43.6 174.7 25.2 4.0 25.5 3.4
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iodine -> DSL provider :53
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-Tnull (= -Oraw) 1174 52.4 200.9 20.3 3.2 20.3 2.7
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-Ttxt -Obase32 730 52.4 192.2*
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-Ttxt -Obase64 874 52.4 192.2
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-Ttxt -Oraw 1162 52.4 192.2
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-Tcname -Obase32 148 52.4 48.0
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-Tcname -Obase64 181 52.4 61.1
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iodine -> DSL provider :53
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wired (no Wifi) -Tnull 1174 65.5 244.6 17.7 1.9 17.8 1.6
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[192.2* : nice, because still 2frag/packet]
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Situation 2:
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Laptop -> (wire) -> (Home server) -> (DSL) -> opendns.com -> Datacenter
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iodine DNS cache iodined
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downstr. upstream downstr. ping-up ping-down
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fragsize kbit/s kbit/s avg +/-mdev avg +/-mdev
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------------------------------------------------------------------------------
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iodine -> opendns.com :53
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-Tnull -L1 (lazy mode) 230 - - 404.4 196.2 663.8 679.6
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(20% lost) (2% lost)
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-Tnull -L0 (legacy mode) 230 5.6 7.4 197.3 4.7 610.8 323.5
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[Note: Throughput measured over 300 seconds to get better resolution]
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Situation 3:
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Laptop -> Wifi+vpn / wired -> Home server
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iodine iodined
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downstr. upstream downstr. ping-up ping-down
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fragsize kbit/s kbit/s avg +/-mdev avg +/-mdev
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------------------------------------------------------------------------------
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wifi + openvpn -Tnull 1186 183.5 611.6 5.7 1.4 7.0 2.7
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wired -Tnull 1186 685.9 2350.5 1.3 0.1 1.4 0.4
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Performance is strongly coupled to low ping times, as iodine requires
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confirmation for every data fragment before moving on to the next. Allowing
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multiple fragments in-flight like TCP could possibly increase performance,
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but it would likely cause serious overload for the intermediary DNS servers.
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The current protocol scales performance with DNS responsivity, since the
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DNS servers are on average handling at most one DNS request per client.
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PORTABILITY:
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@ -83,6 +83,12 @@ Server sends:
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Server may disregard this option; client must always use the downstream
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encoding type indicated in every downstream DNS packet.
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l or L: Lazy mode, server will keep one request unanswered until the
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next one comes in. Applies only to data transfer; handshake is always
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answered immediately.
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i or I: Immediate (non-lazy) mode, server will answer all requests
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(nearly) immediately.
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Probe downstream fragment size:
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Client sends:
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First byte r or R
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@ -162,6 +168,39 @@ If server has something to send, it will send a downstream data packet,
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prefixed with 2 bytes header as shown above.
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"Lazy-mode" operation
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=====================
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Client-server DNS traffic sequence has been reordered to provide increased
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(interactive) performance and greatly reduced latency.
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Idea taken from Lucas Nussbaum's slides (24th IFIP International Security
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Conference, 2009) at http://www.loria.fr/~lnussbau/tuns.html. Current
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implementation is original to iodine, no code or documentation from any other
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project was consulted during development.
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Server:
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Upstream data is acked immediately*, to keep the slow upstream data flowing
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as fast as possible (client waits for ack to send next frag).
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Upstream pings are answered _only_ when 1) downstream data arrives from tun,
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OR 2) new upstream ping/data arrives from client.
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In most cases, this means we answer the previous DNS query instead of the
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current one. The current query is kept in queue and used as soon as
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downstream data has to be sent.
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*: upstream data ack is usually done as reply on the previous ping packet,
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and the upstream-data packet itself is kept in queue.
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Client:
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Downstream data is acked immediately, to keep it flowing fast (includes a
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ping after last downstream frag).
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Also, after all available upstream data is sent & acked by the server (which
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in some cases uses up the last query), send an additional ping to prime the
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server for the next downstream data.
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======================================================
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2. Raw UDP protocol
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======================================================
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15
src/common.c
15
src/common.c
@ -333,3 +333,18 @@ errx(int eval, const char *fmt, ...)
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}
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#endif
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int recent_seqno(int ourseqno, int gotseqno)
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/* Return 1 if we've seen gotseqno recently (current or up to 3 back).
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Return 0 if gotseqno is new (or very old).
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*/
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{
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int i;
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for (i = 0; i < 4; i++, ourseqno--) {
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if (ourseqno < 0)
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ourseqno = 7;
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if (gotseqno == ourseqno)
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return 1;
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}
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return 0;
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}
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@ -88,6 +88,7 @@ struct query {
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char name[QUERY_NAME_SIZE];
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unsigned short type;
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unsigned short id;
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unsigned short iddupe; /* only used for dupe checking */
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struct in_addr destination;
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struct sockaddr from;
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int fromlen;
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@ -121,4 +122,6 @@ void errx(int eval, const char *fmt, ...);
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void warnx(const char *fmt, ...);
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#endif
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int recent_seqno(int , int);
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#endif
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