2018-03-24 17:00:37 +03:00
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iodine - <https://code.kryo.se/iodine>
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2014-08-03 23:42:36 +04:00
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=====================================
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2006-06-23 12:54:47 +04:00
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This is a piece of software that lets you tunnel IPv4 data through a DNS
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server. This can be usable in different situations where internet access is
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firewalled, but DNS queries are allowed.
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2014-08-03 23:42:36 +04:00
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COMPILING
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---------
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2014-04-08 23:59:09 +04:00
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Iodine has no configure script. There are two optional features for Linux
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(SELinux and systemd support) that will be enabled automatically if the
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relevant header files are found in `/usr/include`.
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(See script at `./src/osflags`)
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Run `make` to compile the server and client binaries.
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Run `make install` to copy binaries and manpage to the destination directory.
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Run `make test` to compile and run the unit tests. (Requires the `check` library)
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QUICKSTART
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----------
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2006-08-13 23:18:35 +04:00
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Try it out within your own LAN! Follow these simple steps:
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- On your server, run: `./iodined -f 10.0.0.1 test.com`.
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If you already use the `10.0.0.0` network, use another internal net like
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`172.16.0.0`.
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- Enter a password.
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- On the client, run: `./iodine -f -r 192.168.0.1 test.com`.
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Replace `192.168.0.1` with your server's ip address.
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- Enter the same password.
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- Now the client has the tunnel ip `10.0.0.2` and the server has `10.0.0.1`.
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- Try pinging each other through the tunnel.
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- Done! :)
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2006-08-13 23:18:35 +04:00
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To actually use it through a relaying nameserver, see below.
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HOW TO USE
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----------
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2006-06-23 12:54:47 +04:00
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2009-12-29 23:00:57 +03:00
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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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2014-08-03 23:42:36 +04:00
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### Server side
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To use this tunnel, you need control over a real domain (like `mydomain.com`),
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and a server with a public IP address to run `iodined` on. If this server
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already runs a DNS program, change its listening port and then use `iodined`'s
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`-b` option to let `iodined` forward the DNS requests. (Note that this procedure
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is not advised in production environments, because `iodined`'s DNS forwarding
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is not completely transparent.)
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Then, delegate a subdomain (say, `t1.mydomain.com`) to the iodined server.
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If you use BIND for your domain, add two lines like these to the zone file:
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t1 IN NS t1ns.mydomain.com. ; note the dot!
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t1ns IN A 10.15.213.99
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The `NS` line is all that's needed to route queries for the `t1` subdomain
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to the `t1ns` server. We use a short name for the subdomain, to keep as much
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space as possible available for the data traffic. At the end of the `NS` line
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is the name of your `iodined` server. This can be any name, pointing anywhere,
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but in this case it's easily kept in the same zone file. It must be a name
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(not an IP address), and that name itself must have an `A` record
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(not a `CNAME`).
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If your `iodined` server has a dynamic IP, use a dynamic DNS provider. Simply
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point the `NS` line to it, and leave the `A` line out:
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t1 IN NS myname.mydyndnsprovider.com. ; note the dot!
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Then reload or restart your nameserver program. Now any DNS queries for
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domains ending in `t1.mydomain.com` will be sent to your `iodined` server.
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Finally start `iodined` on your server. The first argument is the IP address
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inside the tunnel, which can be from any range that you don't use yet (for
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example `192.168.99.1`), and the second argument is the assigned domain (in this
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case `t1.mydomain.com`). Using the `-f` option will keep iodined running in the
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foreground, which helps when testing. iodined will open a virtual interface
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("tun device"), and will also start listening for DNS queries on UDP port 53.
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Either enter a password on the commandline (`-P pass`) or after the server has
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started. Now everything is ready for the client.
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If there is a chance you'll be using an iodine tunnel from unexpected
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environments, start `iodined` with a `-c` option.
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Resulting commandline in this example situation:
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./iodined -f -c -P secretpassword 192.168.99.1 t1.mydomain.com
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### Client side
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All the setup is done, just start `iodine`. It takes one or two arguments, the
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2009-01-04 13:58:52 +03:00
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first is the local relaying DNS server (optional) and the second is the domain
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you used (`t1.mydomain.com`). If you don't specify the first argument, the
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system's current DNS setting will be consulted.
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If DNS queries are allowed to any computer, you can directly give the `iodined`
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server's address as first argument (in the example: `t1ns.mydomain.com` or
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`10.15.213.99`). In that case, it may also happen that _any_ traffic is allowed
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to the DNS port (53 UDP) of any computer. Iodine will detect this, and switch
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to raw UDP tunneling if possible. To force DNS tunneling in any case, use the
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`-r` option (especially useful when testing within your own network).
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The client's tunnel interface will get an IP close to the server's (in this
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case `192.168.99.2` or `.3` etc.) and a suitable MTU. Enter the same password as
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on the server either as commandline option or after the client has started.
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Using the `-f` option will keep the iodine client running in the foreground.
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Resulting commandline in this example situation, adding -r forces DNS tunneling
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even if raw UDP tunneling would be possible:
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./iodine -f -P secretpassword t1.mydomain.com
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From either side, you should now be able to ping the IP address on the other
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end of the tunnel. In this case, `ping 192.168.99.1` from the iodine client, and
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`192.168.99.2` from the iodine server.
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### MISC. INFO
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#### IPv6
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The data inside the tunnel is IPv4 only.
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2015-06-30 22:32:21 +03:00
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The server listens to both IPv4 and IPv6 for incoming requests by default.
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Use options `-4` or `-6` to only listen on one protocol. Raw mode will be
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attempted on the same protocol as used for the login.
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2014-02-11 01:50:58 +04:00
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The client can use IPv4 or IPv6 nameservers to connect to iodined. The relay
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nameservers will translate between protocols automatically if needed. Use
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options `-4` or `-6` to force the client to use a specific IP version for its DNS
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queries.
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#### Routing
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It is possible to route all traffic through the DNS tunnel. To do this, first
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add a host route to the nameserver used by iodine over the wired/wireless
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interface with the default gateway as gateway. Then replace the default
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gateway with the iodined server's IP address inside the DNS tunnel, and
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configure the server to do NAT.
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However, note that the tunneled data traffic is not encrypted at all, and can
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be read and changed by external parties relatively easily. For maximum
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security, run a VPN through the DNS tunnel (=double tunneling), or use secure
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shell (SSH) access, possibly with port forwarding. The latter can also be used
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for web browsing, when you run a web proxy (for example Privoxy) on your
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server.
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#### Testing
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The `iodined` server replies to `NS` requests sent for subdomains of the tunnel
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domain. If your iodined subdomain is `t1.mydomain.com`, send a `NS` request for
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`foo123.t1.mydomain.com` to see if the delegation works.
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`dig` is a good tool for this:
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% dig -t NS foo123.t1.mydomain.com
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ns.io.citronna.de.
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Also, the iodined server will answer requests starting with 'z' for any of the
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supported request types, for example:
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dig -t TXT z456.t1.mydomain.com
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dig -t SRV z456.t1.mydomain.com
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dig -t CNAME z456.t1.mydomain.com
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The reply should look like garbled text in all these cases.
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2015-04-08 09:59:26 +03:00
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#### Mac OS X
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On Mac OS X 10.6 and later, iodine supports the native utun devices built into
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the OS - use `-d utunX`.
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Operational info
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----------------
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2009-09-20 19:11:10 +04:00
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The DNS-response fragment size is normally autoprobed to get maximum bandwidth.
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To force a specific value (and speed things up), use the `-m` option.
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2009-07-16 13:12:20 +04:00
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2009-12-29 23:00:57 +03:00
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The DNS hostnames are normally used up to their maximum length, 255 characters.
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Some DNS relays have been found that answer full-length queries rather
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unreliably, giving widely varying (and mostly very bad) results of the
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fragment size autoprobe on repeated tries. In these cases, use the `-M` switch
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to reduce the DNS hostname length to, for example 200 characters, which makes
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these DNS relays much more stable. This is also useful on some “de-optimizing”
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DNS relays that stuff the response with two full copies of the query, leaving
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very little space for downstream data (also not capable of EDNS0). The `-M`
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switch can trade some upstream bandwidth for downstream bandwidth. Note that
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the minimum `-M` value is about 100, since the protocol can split packets (1200
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bytes max) in only 16 fragments, requiring at least 75 real data bytes per
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fragment.
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The upstream data is sent gzipped encoded with Base32; or Base64 if the relay
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server supports mixed case and `+` in domain names; or Base64u if `_` is
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supported instead; or Base128 if high-byte-value characters are supported.
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This upstream encoding is autodetected. The DNS protocol allows one query per
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packet, and one query can be max 256 chars. Each domain name part can be max
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63 chars. So your domain name and subdomain should be as short as possible to
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allow maximum upstream throughput.
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Several DNS request types are supported, with the `NULL` and `PRIVATE` types
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expected to provide the largest downstream bandwidth. The `PRIVATE` type uses
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value 65399 in the private-use range. Other available types are `TXT`, `SRV`,
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`MX`, `CNAME` and `A` (returning `CNAME`), in decreasing bandwidth order.
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Normally the “best” request type is autodetected and used. However, DNS relays
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may impose limits on for example NULL and TXT, making SRV or MX actually the best
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choice. This is not autodetected, but can be forced using the `-T` option.
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It is advisable to try various alternatives especially when the autodetected
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request type provides a downstream fragment size of less than 200 bytes.
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Note that `SRV`, `MX` and `A` (returning `CNAME`) queries may/will cause
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additional lookups by "smart" caching nameservers to get an actual IP address,
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which may either slow down or fail completely.
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DNS responses for non-`NULL/PRIVATE` queries can be encoded with the same set of
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2014-06-09 22:05:29 +04:00
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codecs as upstream data. This is normally also autodetected, but no fully
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exhaustive tests are done, so some problems may not be noticed when selecting
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more advanced codecs. In that case, you'll see failures/corruption in the
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fragment size autoprobe. In particular, several DNS relays have been found that
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change replies returning hostnames (`SRV`, `MX`, `CNAME`, `A`) to lowercase only
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when that hostname exceeds ca. 180 characters. In these and similar cases, use
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the `-O` option to try other downstream codecs; Base32 should always work.
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2009-09-20 19:11:10 +04:00
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2009-09-21 01:10:38 +04:00
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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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2009-09-21 01:10:38 +04:00
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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, and
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possibly much slower. In fact, the main purpose of the pings now is to force
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a reply to the previous ping, and prevent DNS server timeouts (usually at
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least 5-10 seconds per RFC1035). Some DNS servers are more impatient and will
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give SERVFAIL errors (timeouts) in periods without tunneled data traffic. All
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data should still get through in these cases, but `iodine` will reduce the ping
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interval to 1 second anyway (-I1) to reduce the number of error messages. This
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may not help for very impatient DNS relays like `dnsadvantage.com` (ultradns),
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which time out in 1 second or even less. Yet data will still get trough, and
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you can ignore the `SERVFAIL` errors.
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If you are running on a local network without any DNS server in-between, try
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`-I 50` (iodine and iodined close the connection after 60 seconds of silence).
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The only time you'll notice a slowdown, is when DNS reply packets go missing;
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the `iodined` server then has to wait for a new ping to re-send the data. You can
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speed this up by generating some upstream traffic (keypress, ping). If this
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happens often, check your network for bottlenecks and/or run with `-I1`.
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The delayed answering in lazy mode will cause some “carrier grade” commercial
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DNS relays to repeatedly re-send the same DNS query to the iodined server.
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If the DNS relay is actually implemented as a pool of parallel servers,
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|
|
duplicate requests may even arrive from multiple sources. This effect will
|
2014-08-03 23:42:36 +04:00
|
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|
only be visible in the network traffic at the `iodined` server, and will not
|
2009-12-29 23:00:57 +03:00
|
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|
affect the client's connection. Iodined will notice these duplicates, and send
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the same answer (when its time has come) to both the original query and the
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latest duplicate. After that, the full answer is cached for a short while.
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Delayed duplicates that arrive at the server even later, get a reply that the
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iodine client will ignore (if it ever arrives there).
|
2009-09-21 01:10:38 +04:00
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|
2009-09-20 19:11:10 +04:00
|
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|
If you have problems, try inspecting the traffic with network monitoring tools
|
2009-12-29 23:00:57 +03:00
|
|
|
like tcpdump or ethereal/wireshark, and make sure that the relaying DNS server
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|
|
has not cached the response. A cached error message could mean that you
|
2014-08-03 23:42:36 +04:00
|
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started the client before the server. The `-D` (and `-DD`) option on the server
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2009-12-29 23:00:57 +03:00
|
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|
can also show received and sent queries.
|
2009-09-20 19:11:10 +04:00
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|
2006-06-23 15:38:20 +04:00
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|
2014-08-03 23:42:36 +04:00
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|
TIPS & TRICKS
|
|
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|
-------------
|
2006-11-05 16:18:57 +03:00
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|
2017-03-11 10:35:31 +03:00
|
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|
If your port 53 is taken on a specific interface by an application that does
|
2014-08-03 23:42:36 +04:00
|
|
|
not use it, use `-p` on iodined to specify an alternate port (like `-p 5353`)
|
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|
|
and use for instance iptables (on Linux) to forward the traffic:
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|
iptables -t nat -A PREROUTING -i eth0 -p udp --dport 53 -j DNAT --to :5353
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|
2006-11-05 16:18:57 +03:00
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|
(Sent in by Tom Schouten)
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|
2009-09-20 19:11:10 +04:00
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Iodined will reject data from clients that have not been active (data/pings)
|
2009-09-21 01:10:38 +04:00
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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
|
2009-09-20 19:11:10 +04:00
|
|
|
your old IP address back. Once that's done, just wait a while, and you'll
|
|
|
|
eventually see the tunneled TCP traffic continue to flow from where it left
|
|
|
|
off before the outage.
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|
|
2009-09-21 01:10:38 +04:00
|
|
|
With the introduction of the downstream packet queue in the server, its memory
|
|
|
|
usage has increased with several megabytes in the default configuration.
|
|
|
|
For use in low-memory environments (e.g. running on your DSL router), you can
|
|
|
|
decrease USERS and undefine OUTPACKETQ_LEN in user.h without any ill conse-
|
|
|
|
quence, assuming at most one client will be connected at any time. A small
|
|
|
|
DNSCACHE_LEN is still advised, preferably 2 or higher, however you can also
|
|
|
|
undefine it to save a few more kilobytes.
|
|
|
|
|
|
|
|
|
2014-08-03 23:42:36 +04:00
|
|
|
PERFORMANCE
|
|
|
|
-----------
|
2009-09-21 01:10:38 +04:00
|
|
|
|
|
|
|
This section tabulates some performance measurements. To view properly, use
|
|
|
|
a fixed-width font like Courier.
|
|
|
|
|
2009-12-29 23:00:57 +03:00
|
|
|
Measurements were done in protocol 00000502 in lazy mode; upstream encoding
|
2014-08-03 23:42:36 +04:00
|
|
|
always Base128; `iodine -M255`; `iodined -m1130`. Network conditions were not
|
2009-12-29 23:00:57 +03:00
|
|
|
extremely favorable; results are not benchmarks but a realistic indication of
|
|
|
|
real-world performance that can be expected in similar situations.
|
|
|
|
|
2014-08-03 23:42:36 +04:00
|
|
|
Upstream/downstream throughput was measured by `scp`'ing a file previously
|
|
|
|
read from `/dev/urandom` (i.e. incompressible), and measuring size with
|
|
|
|
`ls -l ; sleep 30 ; ls -l` on a separate non-tunneled connection. Given the
|
|
|
|
large `scp` block size of 16 kB, this gives a resolution of 4.3 kbit/s, which
|
2009-12-29 23:00:57 +03:00
|
|
|
explains why some values are exactly equal.
|
2014-08-03 23:42:36 +04:00
|
|
|
Ping round-trip times measured with `ping -c100`, presented are average rtt
|
2009-09-21 01:10:38 +04:00
|
|
|
and mean deviation (indicating spread around the average), in milliseconds.
|
|
|
|
|
|
|
|
|
2014-08-03 23:42:36 +04:00
|
|
|
### Situation 1: `Laptop -> Wifi AP -> Home server -> DSL provider -> Datacenter`
|
|
|
|
|
|
|
|
iodine DNS "relay" bind9 DNS cache iodined
|
2017-03-11 10:35:31 +03:00
|
|
|
|
2014-08-03 23:42:36 +04:00
|
|
|
downstr. upstream downstr. ping-up ping-down
|
|
|
|
fragsize kbit/s kbit/s avg +/-mdev avg +/-mdev
|
|
|
|
-----------------------------------------------------------------------------
|
2017-03-11 10:35:31 +03:00
|
|
|
|
2014-08-03 23:42:36 +04:00
|
|
|
iodine -> Wifi AP :53
|
|
|
|
-Tnull (= -Oraw) 982 43.6 131.0 28.0 4.6 26.8 3.4
|
2017-03-11 10:35:31 +03:00
|
|
|
|
2014-08-03 23:42:36 +04:00
|
|
|
iodine -> Home server :53
|
|
|
|
-Tnull (= -Oraw) 1174 48.0 305.8 26.6 5.0 26.9 8.4
|
2017-03-11 10:35:31 +03:00
|
|
|
|
|
|
|
iodine -> DSL provider :53
|
2014-08-03 23:42:36 +04:00
|
|
|
-Tnull (= -Oraw) 1174 56.7 367.0 20.6 3.1 21.2 4.4
|
|
|
|
-Ttxt -Obase32 730 56.7 174.7*
|
|
|
|
-Ttxt -Obase64 874 56.7 174.7
|
|
|
|
-Ttxt -Obase128 1018 56.7 174.7
|
|
|
|
-Ttxt -Oraw 1162 56.7 358.2
|
|
|
|
-Tsrv -Obase128 910 56.7 174.7
|
|
|
|
-Tcname -Obase32 151 56.7 43.6
|
|
|
|
-Tcname -Obase128 212 56.7 52.4
|
2017-03-11 10:35:31 +03:00
|
|
|
|
|
|
|
iodine -> DSL provider :53
|
2014-08-03 23:42:36 +04:00
|
|
|
wired (no Wifi) -Tnull 1174 74.2 585.4 20.2 5.6 19.6 3.4
|
2017-03-11 10:35:31 +03:00
|
|
|
|
2014-08-03 23:42:36 +04:00
|
|
|
[174.7* : these all have 2frag/packet]
|
|
|
|
|
|
|
|
|
|
|
|
### Situation 2: `Laptop -> Wifi+vpn / wired -> Home server`
|
|
|
|
|
|
|
|
iodine iodined
|
2017-03-11 10:35:31 +03:00
|
|
|
|
2014-08-03 23:42:36 +04:00
|
|
|
downstr. upstream downstr. ping-up ping-down
|
|
|
|
fragsize kbit/s kbit/s avg +/-mdev avg +/-mdev
|
|
|
|
-----------------------------------------------------------------------------
|
2017-03-11 10:35:31 +03:00
|
|
|
|
2014-08-03 23:42:36 +04:00
|
|
|
wifi + openvpn -Tnull 1186 166.0 1022.3 6.3 1.3 6.6 1.6
|
2017-03-11 10:35:31 +03:00
|
|
|
|
2014-08-03 23:42:36 +04:00
|
|
|
wired -Tnull 1186 677.2 2464.1 1.3 0.2 1.3 0.1
|
|
|
|
|
|
|
|
|
|
|
|
### Notes
|
2009-09-21 01:10:38 +04:00
|
|
|
|
|
|
|
Performance is strongly coupled to low ping times, as iodine requires
|
|
|
|
confirmation for every data fragment before moving on to the next. Allowing
|
|
|
|
multiple fragments in-flight like TCP could possibly increase performance,
|
|
|
|
but it would likely cause serious overload for the intermediary DNS servers.
|
|
|
|
The current protocol scales performance with DNS responsivity, since the
|
|
|
|
DNS servers are on average handling at most one DNS request per client.
|
|
|
|
|
2006-11-05 16:18:57 +03:00
|
|
|
|
2014-08-03 23:42:36 +04:00
|
|
|
PORTABILITY
|
|
|
|
-----------
|
2006-06-23 12:54:47 +04:00
|
|
|
|
2009-01-06 22:58:29 +03:00
|
|
|
iodine has been tested on Linux (arm, ia64, x86, AMD64 and SPARC64), FreeBSD
|
2009-03-21 16:21:51 +03:00
|
|
|
(ia64, x86), OpenBSD (x86), NetBSD (x86), MacOS X (ppc and x86, with
|
2014-08-03 23:42:36 +04:00
|
|
|
<http://tuntaposx.sourceforge.net/>). and Windows (with OpenVPN TAP32 driver, see
|
2009-03-21 16:21:51 +03:00
|
|
|
win32 readme file). It should be easy to port to other unix-like systems that
|
2014-08-03 23:42:36 +04:00
|
|
|
have TUN/TAP tunneling support. Let us know if you get it to run on other
|
|
|
|
platforms.
|
2006-06-23 12:54:47 +04:00
|
|
|
|
|
|
|
|
2014-08-03 23:42:36 +04:00
|
|
|
THE NAME
|
|
|
|
--------
|
2006-06-23 12:54:47 +04:00
|
|
|
|
|
|
|
The name iodine was chosen since it starts with IOD (IP Over DNS) and since
|
2006-06-23 15:38:20 +04:00
|
|
|
iodine has atomic number 53, which happens to be the DNS port number.
|
2006-06-23 12:54:47 +04:00
|
|
|
|
|
|
|
|
2014-08-03 23:42:36 +04:00
|
|
|
THANKS
|
|
|
|
------
|
2006-08-13 23:18:35 +04:00
|
|
|
|
|
|
|
- To kuxien for FreeBSD and OS X testing
|
2006-11-02 09:38:16 +03:00
|
|
|
- To poplix for code audit
|
2006-08-13 23:18:35 +04:00
|
|
|
|
|
|
|
|
2014-08-03 23:42:36 +04:00
|
|
|
AUTHORS & LICENSE
|
|
|
|
-----------------
|
2006-06-23 12:54:47 +04:00
|
|
|
|
2014-06-01 10:46:42 +04:00
|
|
|
Copyright (c) 2006-2014 Erik Ekman <yarrick@kryo.se>, 2006-2009 Bjorn
|
|
|
|
Andersson <flex@kryo.se>. Also major contributions by Anne Bezemer.
|
2006-06-23 12:54:47 +04:00
|
|
|
|
2014-08-07 23:14:10 +04:00
|
|
|
Permission to use, copy, modify, and/or distribute this software for any purpose
|
2006-06-23 15:38:20 +04:00
|
|
|
with or without fee is hereby granted, provided that the above copyright notice
|
|
|
|
and this permission notice appear in all copies.
|
|
|
|
|
|
|
|
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH
|
|
|
|
REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND
|
|
|
|
FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,
|
|
|
|
INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM
|
|
|
|
LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR
|
|
|
|
OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
|
|
|
|
PERFORMANCE OF THIS SOFTWARE.
|
2006-11-18 19:08:47 +03:00
|
|
|
|
|
|
|
|
2014-08-03 23:42:36 +04:00
|
|
|
MD5 implementation by L. Peter Deutsch (license and source in `src/md5.[ch]`)
|
2006-11-18 19:08:47 +03:00
|
|
|
Copyright (C) 1999, 2000, 2002 Aladdin Enterprises. All rights reserved.
|