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c4a41ada09
* Adds support for tunneling specific port ranges This set of changes implements the ability of specifying a port or port range for an IP or subnet to only tunnel those ports for that subnet. Also supports excluding a port or port range for a given IP or subnet. When, for a given subnet, there are intercepting ranges being added and excluded, the most specific, i.e., smaller range, takes precedence. In case of a tie the exclusion wins. For different subnets, the most specific, i.e., largest swidth, takes precedence independent of any eventual port ranges. Examples: Tunnels all traffic to the 188.0.0.0/8 subnet except those to port 443. ``` sshuttle -r <server> 188.0.0.0/8 -x 188.0.0.0/8:443 ``` Only tunnels traffic to port 80 of the 188.0.0.0/8 subnet. ``` sshuttle -r <server> 188.0.0.0/8:80 ``` Tunnels traffic to the 188.0.0.0/8 subnet and the port range that goes from 80 to 89. ``` sshuttle -r <server> 188.0.0.0/8:80-89 -x 188.0.0.0/8:80-90 ``` * Allow subnets to be specified with domain names Simplifies the implementation of address parsing by using socket.getaddrinfo(), which can handle domain resolution, IPv4 and IPv6 addresses. This was proposed and mostly implemented by @DavidBuchanan314 in #146. Signed-off-by: David Buchanan <DavidBuchanan314@users.noreply.github.com> Signed-off-by: João Vieira <vieira@yubo.be> * Also use getaddrinfo for parsing listen addr:port * Fixes tests for tunneling a port range * Updates documentation to include port/port range Adds some examples with subnet:port and subnet:port-port. Also clarifies the versions of Python supported on the server while maintaining the recommendation for Python 2.7, 3.5 or later. Mentions support for pfSense. * In Py2 only named arguments may follow *expression Fixes issue in Python 2.7 where *expression may only be followed by named arguments. * Use right regex to extract ip4/6, mask and ports * Tests for parse_subnetport
303 lines
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303 lines
11 KiB
ReStructuredText
sshuttle
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========
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Synopsis
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--------
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**sshuttle** [*options*] [**-r** *[username@]sshserver[:port]*] \<*subnets* ...\>
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Description
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-----------
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:program:`sshuttle` allows you to create a VPN connection from your
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machine to any remote server that you can connect to via
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ssh, as long as that server has python 2.3 or higher.
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To work, you must have root access on the local machine,
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but you can have a normal account on the server.
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It's valid to run :program:`sshuttle` more than once simultaneously on
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a single client machine, connecting to a different server
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every time, so you can be on more than one VPN at once.
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If run on a router, :program:`sshuttle` can forward traffic for your
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entire subnet to the VPN.
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Options
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-------
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.. program:: sshuttle
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.. option:: subnets
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A list of subnets to route over the VPN, in the form
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``a.b.c.d[/width][port[-port]]``. Valid examples are 1.2.3.4 (a
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single IP address), 1.2.3.4/32 (equivalent to 1.2.3.4),
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1.2.3.0/24 (a 24-bit subnet, ie. with a 255.255.255.0
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netmask), and 0/0 ('just route everything through the
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VPN'). Any of the previous examples are also valid if you append
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a port or a port range, so 1.2.3.4:8000 will only tunnel traffic
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that has as the destination port 8000 of 1.2.3.4 and
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1.2.3.0/24:8000-9000 will tunnel traffic going to any port between
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8000 and 9000 (inclusive) for all IPs in the 1.2.3.0/24 subnet.
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It is also possible to use a name in which case the first IP it resolves
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to during startup will be routed over the VPN. Valid examples are
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example.com, example.com:8000 and example.com:8000-9000.
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.. option:: --method [auto|nat|tproxy|pf]
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Which firewall method should sshuttle use? For auto, sshuttle attempts to
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guess the appropriate method depending on what it can find in PATH. The
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default value is auto.
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.. option:: -l, --listen=[ip:]port
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Use this ip address and port number as the transparent
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proxy port. By default :program:`sshuttle` finds an available
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port automatically and listens on IP 127.0.0.1
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(localhost), so you don't need to override it, and
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connections are only proxied from the local machine,
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not from outside machines. If you want to accept
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connections from other machines on your network (ie. to
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run :program:`sshuttle` on a router) try enabling IP Forwarding in
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your kernel, then using ``--listen 0.0.0.0:0``.
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You can use any name resolving to an IP address of the machine running
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:program:`sshuttle`, e.g. ``--listen localhost``.
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For the tproxy and pf methods this can be an IPv6 address. Use this option
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twice if required, to provide both IPv4 and IPv6 addresses.
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.. option:: -H, --auto-hosts
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Scan for remote hostnames and update the local /etc/hosts
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file with matching entries for as long as the VPN is
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open. This is nicer than changing your system's DNS
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(/etc/resolv.conf) settings, for several reasons. First,
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hostnames are added without domain names attached, so
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you can ``ssh thatserver`` without worrying if your local
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domain matches the remote one. Second, if you :program:`sshuttle`
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into more than one VPN at a time, it's impossible to
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use more than one DNS server at once anyway, but
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:program:`sshuttle` correctly merges /etc/hosts entries between
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all running copies. Third, if you're only routing a
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few subnets over the VPN, you probably would prefer to
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keep using your local DNS server for everything else.
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.. option:: -N, --auto-nets
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In addition to the subnets provided on the command
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line, ask the server which subnets it thinks we should
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route, and route those automatically. The suggestions
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are taken automatically from the server's routing
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table.
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.. option:: --dns
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Capture local DNS requests and forward to the remote DNS
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server.
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.. option:: --python
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Specify the name/path of the remote python interpreter.
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The default is just ``python``, which means to use the
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default python interpreter on the remote system's PATH.
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.. option:: -r, --remote=[username@]sshserver[:port]
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The remote hostname and optional username and ssh
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port number to use for connecting to the remote server.
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For example, example.com, testuser@example.com,
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testuser@example.com:2222, or example.com:2244.
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.. option:: -x, --exclude=subnet
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Explicitly exclude this subnet from forwarding. The
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format of this option is the same as the ``<subnets>``
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option. To exclude more than one subnet, specify the
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``-x`` option more than once. You can say something like
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``0/0 -x 1.2.3.0/24`` to forward everything except the
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local subnet over the VPN, for example.
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.. option:: -X, --exclude-from=file
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Exclude the subnets specified in a file, one subnet per
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line. Useful when you have lots of subnets to exclude.
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.. option:: -v, --verbose
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Print more information about the session. This option
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can be used more than once for increased verbosity. By
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default, :program:`sshuttle` prints only error messages.
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.. option:: -e, --ssh-cmd
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The command to use to connect to the remote server. The
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default is just ``ssh``. Use this if your ssh client is
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in a non-standard location or you want to provide extra
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options to the ssh command, for example, ``-e 'ssh -v'``.
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.. option:: --seed-hosts
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A comma-separated list of hostnames to use to
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initialize the :option:`--auto-hosts` scan algorithm.
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:option:`--auto-hosts` does things like poll local SMB servers
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for lists of local hostnames, but can speed things up
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if you use this option to give it a few names to start
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from.
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If this option is used *without* :option:`--auto-hosts`,
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then the listed hostnames will be scanned and added, but
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no further hostnames will be added.
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.. option:: --no-latency-control
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Sacrifice latency to improve bandwidth benchmarks. ssh
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uses really big socket buffers, which can overload the
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connection if you start doing large file transfers,
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thus making all your other sessions inside the same
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tunnel go slowly. Normally, :program:`sshuttle` tries to avoid
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this problem using a "fullness check" that allows only
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a certain amount of outstanding data to be buffered at
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a time. But on high-bandwidth links, this can leave a
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lot of your bandwidth underutilized. It also makes
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:program:`sshuttle` seem slow in bandwidth benchmarks (benchmarks
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rarely test ping latency, which is what :program:`sshuttle` is
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trying to control). This option disables the latency
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control feature, maximizing bandwidth usage. Use at
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your own risk.
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.. option:: -D, --daemon
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Automatically fork into the background after connecting
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to the remote server. Implies :option:`--syslog`.
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.. option:: --syslog
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after connecting, send all log messages to the
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:manpage:`syslog(3)` service instead of stderr. This is
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implicit if you use :option:`--daemon`.
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.. option:: --pidfile=pidfilename
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when using :option:`--daemon`, save :program:`sshuttle`'s pid to
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*pidfilename*. The default is ``sshuttle.pid`` in the
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current directory.
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.. option:: --disable-ipv6
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If using tproxy or pf methods, this will disable IPv6 support.
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.. option:: --firewall
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(internal use only) run the firewall manager. This is
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the only part of :program:`sshuttle` that must run as root. If
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you start :program:`sshuttle` as a non-root user, it will
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automatically run ``sudo`` or ``su`` to start the firewall
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manager, but the core of :program:`sshuttle` still runs as a
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normal user.
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.. option:: --hostwatch
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(internal use only) run the hostwatch daemon. This
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process runs on the server side and collects hostnames for
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the :option:`--auto-hosts` option. Using this option by itself
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makes it a lot easier to debug and test the :option:`--auto-hosts`
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feature.
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Examples
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--------
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Test locally by proxying all local connections, without using ssh::
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$ sshuttle -v 0/0
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Starting sshuttle proxy.
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Listening on ('0.0.0.0', 12300).
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[local sudo] Password:
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firewall manager ready.
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c : connecting to server...
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s: available routes:
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s: 192.168.42.0/24
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c : connected.
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firewall manager: starting transproxy.
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c : Accept: 192.168.42.106:50035 -> 192.168.42.121:139.
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c : Accept: 192.168.42.121:47523 -> 77.141.99.22:443.
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...etc...
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^C
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firewall manager: undoing changes.
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KeyboardInterrupt
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c : Keyboard interrupt: exiting.
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c : SW#8:192.168.42.121:47523: deleting
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c : SW#6:192.168.42.106:50035: deleting
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Test connection to a remote server, with automatic hostname
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and subnet guessing::
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$ sshuttle -vNHr example.org
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Starting sshuttle proxy.
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Listening on ('0.0.0.0', 12300).
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firewall manager ready.
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c : connecting to server...
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s: available routes:
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s: 77.141.99.0/24
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c : connected.
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c : seed_hosts: []
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firewall manager: starting transproxy.
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hostwatch: Found: testbox1: 1.2.3.4
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hostwatch: Found: mytest2: 5.6.7.8
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hostwatch: Found: domaincontroller: 99.1.2.3
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c : Accept: 192.168.42.121:60554 -> 77.141.99.22:22.
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^C
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firewall manager: undoing changes.
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c : Keyboard interrupt: exiting.
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c : SW#6:192.168.42.121:60554: deleting
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Discussion
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----------
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When it starts, :program:`sshuttle` creates an ssh session to the
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server specified by the ``-r`` option. If ``-r`` is omitted,
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it will start both its client and server locally, which is
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sometimes useful for testing.
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After connecting to the remote server, :program:`sshuttle` uploads its
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(python) source code to the remote end and executes it
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there. Thus, you don't need to install :program:`sshuttle` on the
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remote server, and there are never :program:`sshuttle` version
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conflicts between client and server.
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Unlike most VPNs, :program:`sshuttle` forwards sessions, not packets.
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That is, it uses kernel transparent proxying (`iptables
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REDIRECT` rules on Linux) to
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capture outgoing TCP sessions, then creates entirely
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separate TCP sessions out to the original destination at
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the other end of the tunnel.
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Packet-level forwarding (eg. using the tun/tap devices on
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Linux) seems elegant at first, but it results in
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several problems, notably the 'tcp over tcp' problem. The
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tcp protocol depends fundamentally on packets being dropped
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in order to implement its congestion control agorithm; if
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you pass tcp packets through a tcp-based tunnel (such as
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ssh), the inner tcp packets will never be dropped, and so
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the inner tcp stream's congestion control will be
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completely broken, and performance will be terrible. Thus,
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packet-based VPNs (such as IPsec and openvpn) cannot use
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tcp-based encrypted streams like ssh or ssl, and have to
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implement their own encryption from scratch, which is very
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complex and error prone.
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:program:`sshuttle`'s simplicity comes from the fact that it can
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safely use the existing ssh encrypted tunnel without
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incurring a performance penalty. It does this by letting
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the client-side kernel manage the incoming tcp stream, and
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the server-side kernel manage the outgoing tcp stream;
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there is no need for congestion control to be shared
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between the two separate streams, so a tcp-based tunnel is
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fine.
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.. seealso::
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:manpage:`ssh(1)`, :manpage:`python(1)`
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