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360 lines
10 KiB
Groff
360 lines
10 KiB
Groff
.\" groff -man -Tascii iodine.8
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.TH IODINE 8 "APR 2012" "User Manuals"
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.SH NAME
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iodine, iodined \- tunnel IPv4 over DNS
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.SH SYNOPSIS
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.B iodine [-v]
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.B iodine [-h]
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.B iodine [-f] [-r] [-u
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.I user
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.B ] [-P
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.I password
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.B ] [-m
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.I fragsize
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.B ] [-t
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.I chrootdir
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.B ] [-d
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.I device
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.B ] [-R
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.I rdomain
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.B ] [-m
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.I fragsize
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.B ] [-M
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.I namelen
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.B ] [-z
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.I context
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.B ] [-F
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.I pidfile
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.B ] [-T
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.I dnstype
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.B ] [-O
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.I downenc
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.B ] [-L
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.I 0|1
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.B ] [-I
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.I interval
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.B ]
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.B [
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.I nameserver
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.B ]
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.I topdomain
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.B iodined [-v]
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.B iodined [-h]
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.B iodined [-c] [-s] [-f] [-D] [-u
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.I user
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.B ] [-t
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.I chrootdir
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.B ] [-d
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.I device
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.B ] [-m
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.I mtu
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.B ] [-l
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.I listen_ip
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.B ] [-p
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.I port
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.B ] [-n
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(
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.B auto
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.I external_ip
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)
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.B ] [-b
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.I dnsport
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.B ] [-P
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.I password
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.B ] [-z
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.I context
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.B ] [-F
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.I pidfile
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.B ] [-i
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.I max_idle_time
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.B ]
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.I tunnel_ip
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.B [
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.I /netmask
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.B ]
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.I topdomain
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.SH DESCRIPTION
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.B iodine
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lets you tunnel IPv4 data through a DNS
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server. This can be useful in situations where Internet access is firewalled,
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but DNS queries are allowed. It needs a TUN/TAP device to operate. The
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bandwidth is asymmetrical,
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with a measured maximum of 680 kbit/s upstream and 2.3 Mbit/s
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downstream in a wired LAN test network.
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Realistic sustained throughput on a Wifi network using a carrier-grade
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DNS cache has been measured at some 50 kbit/s upstream and over 200 kbit/s
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downstream.
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.B iodine
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is the client application,
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.B iodined
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is the server.
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Note: server and client are required to speak the exact same protocol. In most
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cases, this means running the same iodine version. Unfortunately, implementing
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backward and forward protocol compatibility is usually not feasible.
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.SH OPTIONS
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.SS Common Options:
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.TP
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.B -v
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Print version info and exit.
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.TP
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.B -h
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Print usage info and exit.
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.TP
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.B -f
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Keep running in foreground.
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.TP
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.B -u user
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Drop privileges and run as user 'user' after setting up tunnel.
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.TP
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.B -t chrootdir
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Chroot to 'chrootdir' after setting up tunnel.
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.TP
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.B -d device
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Use the TUN device 'device' instead of the normal one, which is dnsX on Linux
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and otherwise tunX.
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.TP
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.B -P password
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Use 'password' to authenticate. If not used,
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.B stdin
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will be used as input. Only the first 32 characters will be used.
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.TP
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.B -z context
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Apply SELinux 'context' after initialization.
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.TP
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.B -F pidfile
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Create 'pidfile' and write process id in it.
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.SS Client Options:
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.TP
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.B -r
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Skip raw UDP mode. If not used, iodine will try getting the public IP address
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of the iodined host and test if it is reachable directly. If it is, traffic
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will be sent to the server instead of the DNS relay.
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.TP
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.B -R rdomain
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Use OpenBSD routing domain 'rdomain' for the DNS connection.
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.TP
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.B -m fragsize
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Force maximum downstream fragment size. Not setting this will cause the
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client to automatically probe the maximum accepted downstream fragment size.
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.TP
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.B -M namelen
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Maximum length of upstream hostnames, default 255.
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Usable range ca. 100 to 255.
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Use this option to scale back upstream bandwidth in favor of downstream
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bandwidth.
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Also useful for DNS servers that perform unreliably when using full-length
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hostnames, noticable when fragment size autoprobe returns very
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different results each time.
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.TP
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.B -T dnstype
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DNS request type override.
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By default, autodetection will probe for working DNS request types, and
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will select the request type that is expected to provide the most bandwidth.
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However, it may turn out that a DNS relay imposes limits that skew the
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picture, which may lead to an "unexpected" DNS request type providing
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more bandwidth.
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In that case, use this option to override the autodetection.
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In (expected) decreasing bandwidth order, the supported DNS request types are:
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.IR NULL ,
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.IR TXT ,
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.IR SRV ,
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.IR MX ,
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.I CNAME
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and
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.I A
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(returning CNAME).
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Note that
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.IR SRV ,
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.I MX
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and
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.I A
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may/will cause additional lookups by "smart" caching
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nameservers to get an actual IP address, which may either slow down or fail
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completely.
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.TP
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.B -O downenc
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Force downstream encoding type for all query type responses except NULL.
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Default is autodetected, but may not spot all problems for the more advanced
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codecs.
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Use this option to override the autodetection.
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.I Base32
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is the lowest-grade codec and should always work; this is used when
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autodetection fails.
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.I Base64
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provides more bandwidth, but may not work on all nameservers.
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.I Base64u
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is equal to Base64 except in using underscore ('_')
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instead of plus sign ('+'), possibly working where
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.I Base64
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does not.
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.I Base128
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uses high byte values (mostly accented letters in iso8859-1),
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which might work with some nameservers.
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For TXT queries,
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.I Raw
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will provide maximum performance, but this will only work if the nameserver
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path is fully 8-bit-clean for responses that are assumed to be "legible text".
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.TP
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.B -L 0|1
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Lazy-mode switch.
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\-L1 (default): Use lazy mode for improved performance and decreased latency.
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A very small minority of DNS relays appears to be unable to handle the
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lazy mode traffic pattern, resulting in no or very little data coming through.
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The iodine client will detect this and try to switch back to legacy mode,
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but this may not always work.
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In these situations use \-L0 to force running in legacy mode
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(implies \-I1).
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.TP
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.B -I interval
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Maximum interval between requests (pings) so that intermediate DNS
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servers will not time out. Default is 4 in lazy mode, which will work
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fine in most cases. When too many SERVFAIL errors occur, iodine
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will automatically reduce this to 1.
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To get absolute minimum DNS traffic,
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increase well above 4, but not so high that SERVFAIL errors start to occur.
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There are some DNS relays with very small timeouts,
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notably dnsadvantage.com (ultradns), that will give
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SERVFAIL errors even with \-I1; data will still get trough,
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and these errors can be ignored.
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Maximum useful value is 59, since iodined will close a client's
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connection after 60 seconds of inactivity.
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.SS Server Options:
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.TP
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.B -c
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Disable checking the client IP address on all incoming requests.
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By default, requests originating from non-matching IP adresses will be
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rejected, however this will cause problems when requests are routed
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via a cluster of DNS servers.
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.TP
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.B -s
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Don't try to configure IP address or MTU.
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This should only be used if you have already configured the device that will be
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used.
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.TP
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.B -D
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Increase debug level. Level 1 prints info about each RX/TX packet.
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Implies the
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.B -f
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option.
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On level 2 (-DD) or higher, DNS queries will be printed literally.
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When using Base128 upstream encoding, this is best viewed as
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ISO Latin-1 text instead of (illegal) UTF-8.
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This is easily done with : "LC_ALL=C luit iodined -DD ..."
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(see luit(1)).
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.TP
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.B -m mtu
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Set 'mtu' as mtu size for the tun device.
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This will be sent to the client on login, and the client will use the same mtu
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for its tun device. Default 1130. Note that the DNS traffic will be
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automatically fragmented when needed.
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.TP
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.B -l listen_ip
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Make the server listen only on 'listen_ip' for incoming requests.
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By default, incoming requests are accepted from all interfaces.
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.TP
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.B -p port
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Make the server listen on 'port' instead of 53 for traffic.
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If 'listen_ip' does not include localhost, this 'port' can be the same
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as 'dnsport'.
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.B Note:
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You must make sure the dns requests are forwarded to this port yourself.
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.TP
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.B -n auto|external_ip
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The IP address to return in NS responses. Default is to return the address used
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as destination in the query.
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If external_ip is 'auto', iodined will use externalip.net web service to
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retrieve the external IP of the host and use that for NS responses.
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.TP
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.B -b dnsport
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If this port is specified, all incoming requests not inside the tunnel domain
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will be forwarded to this port on localhost, to be handled by a real dns.
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If 'listen_ip' does not include localhost, this 'dnsport' can be the
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same as 'port'.
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.B Note:
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The forwarding is not fully transparent, and not advised for use
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in production environments.
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.TP
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.B -i max_idle_time
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Make the server stop itself after max_idle_time seconds if no traffic have been received.
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This should be combined with systemd or upstart on demand activation for being effective.
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.SS Client Arguments:
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.TP
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.B nameserver
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The nameserver to use to relay the dns traffic. This can be any relaying
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nameserver or the server running iodined if reachable. This field can be
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given as an IP address, or as a hostname. This argument is optional, and
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if not specified a nameserver will be read from the
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.I /etc/resolv.conf
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file.
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.TP
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.B topdomain
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The dns traffic will be sent as queries for subdomains under
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\'topdomain'. This is normally a subdomain to a domain you own. Use a short
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domain name to get better throughput. If
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.B nameserver
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is the iodined server, then the topdomain can be chosen freely. This argument
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must be the same on both the client and the server.
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.SS Server Arguments:
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.TP
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.B tunnel_ip[/netmask]
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This is the server's ip address on the tun interface. The client will be
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given the next ip number in the range. It is recommended to use the
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10.0.0.0 or 172.16.0.0 ranges. The default netmask is /27, can be overriden
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by specifying it here. Using a smaller network will limit the number of
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concurrent users.
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.TP
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.B topdomain
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The dns traffic is expected to arrive as queries for
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subdomains under 'topdomain'. This is normally a subdomain to a domain you
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own. Use a short domain name to get better throughput. This argument must be
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the same on both the client and the server. Queries for domains other
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than 'topdomain' will be forwarded when the \-b option is given, otherwise
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they will be dropped.
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.SH EXAMPLES
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See the README file for both a quick test scenario, and a detailed description
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of real-world deployment.
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.SH SECURITY
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Login is a relatively secure challenge-response MD5 hash, with the
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password never passing the wire.
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However, all other data is
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.B NOT
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encrypted in any way. The DNS traffic is also vulnerable to replay,
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injection and man-in-the-middle attacks, especially when iodined is used
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with the \-c option. Use of ssh or vpn tunneling is strongly recommended.
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On both server and client, use
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.IR iptables ,
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.I pf
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or other firewalls to block all traffic coming in from the tun interfaces,
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except to the used ssh or vpn ports.
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.SH ENVIRONMENT
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.SS IODINE_PASS
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If the environment variable
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.B IODINE_PASS
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is set, iodine will use the value it is set to as password instead of asking
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for one. The
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.B -P
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option still has precedence.
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.SS IODINED_PASS
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If the environment variable
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.B IODINED_PASS
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is set, iodined will use the value it is set to as password instead of asking
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for one. The
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.B -P
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option still has precedence.
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.El
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.SH SEE ALSO
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The README file in the source distribution contains some more elaborate
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information.
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.SH BUGS
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File bugs at http://dev.kryo.se/iodine/
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.SH AUTHORS
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Erik Ekman <yarrick@kryo.se> and Bjorn Andersson <flex@kryo.se>. Major
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contributions by Anne Bezemer.
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