User:HR/SSH over Tor: Difference between revisions

From Gangplank
Jump to navigation Jump to search
mNo edit summary
 
(3 intermediate revisions by the same user not shown)
Line 1: Line 1:
Create a SSH<ref>[[wikipedia:SSH_(Secure_Shell)]]</ref> connection via the Tor<ref>[[wikipedia:Tor_(anonymity_network)]]</ref> network.
Create a SSH <ref>[[wikipedia:SSH_(Secure_Shell)]]</ref> connection via the Tor <ref>[[wikipedia:Tor_(anonymity_network)]]</ref> network.


== Background ==
== Background ==
Line 12: Line 12:
== Implementation ==
== Implementation ==


For our example setup we need:
For our example setup we use:
* Raspberry Pi <ref>[[wikipedia:Raspberry_Pi]]</ref>
* Raspberry Pi <ref>[[wikipedia:Raspberry_Pi]]</ref>
* Your computer
* Your computer
Line 18: Line 18:
=== Raspberry Pi ===
=== Raspberry Pi ===


'''Caveat:''' all commands are entered on the command-line interface <ref>[[wikipedia:Command-line_interface]]</ref>.
'''''Caveat:''' all commands are entered on the command-line interface <ref>[[wikipedia:Command-line_interface]]</ref>.''


==== Install & configure Tor ====
==== Install & configure Tor ====
Line 33: Line 33:
sudo systemctl restart tor.service
sudo systemctl restart tor.service


==== Enable SSH server ====
==== Install & configure SSH server ====


sudo apt install openssh-server
sudo systemctl enable ssh.service
sudo systemctl enable ssh.service


The Raspberry is now ready to receive SSH connections via the Tor network.
The Raspberry is now ready to receive SSH connections via the Tor network.

==== Onion address ====

Later we'll need the Raspberry's .onion address to connect to our onion service. To display it just type:

sudo cat /var/lib/tor/ssh_onion_service/hostname


=== Your Computer ===
=== Your Computer ===
Line 43: Line 50:
==== Linux (Ubuntu) ====
==== Linux (Ubuntu) ====


'''Caveat:''' all commands are entered on the command-line interface.
'''''Caveat:''' all commands are entered on the command-line interface.''


===== Install tor =====
===== Install tor =====
Line 49: Line 56:
sudo apt install tor
sudo apt install tor


===== Install netcat =====
===== Install socat =====


We'll need netcat to connect our SSH session to the Tor network.
We'll need socat to connect our SSH session to the Tor network.


sudo apt install openbsd-netcat
sudo apt install socat


===== Connect to Raspberry =====
===== Connect to Raspberry =====
Line 64: Line 71:
====== Parameters in SSH command ======
====== Parameters in SSH command ======


ssh -o "ProxyCommand nc -X 5 -x 127.0.0.1:9050 %h %p" -o PreferredAuthentications=password -o PubkeyAuthentication=no pi@[onion address]
ssh -o "ProxyCommand socat STDIO SOCKS4A:localhost:%h:%p,socksport=9050" -o PreferredAuthentications=password -o PubkeyAuthentication=no pi@[onion address]

You'll find the onion address on the Raspberry:

sudo cat /var/lib/tor/ssh_onion_service/hostname


====== Parameters in SSH config file ======
====== Parameters in SSH config file ======


Add your config to ~/.ssh/config
Add your config to ''~/.ssh/config'' . Create the file if it doesn't exist.


Host raspberry-tor
Host raspberry-tor
Line 79: Line 82:
PreferredAuthentications password
PreferredAuthentications password
PubkeyAuthentication no
PubkeyAuthentication no
ProxyCommand nc -X 5 -x localhost:9050 %h %p
ProxyCommand socat STDIO SOCKS4A:localhost:%h:%p,socksport=9050


Then, to connect to the Raspberry, you just invoke your SSH session with:
Then, to connect to the Raspberry, you invoke your SSH session with:


ssh raspberry-tor
ssh raspberry-tor
Line 94: Line 97:
=== Forwarding of local ports ===
=== Forwarding of local ports ===


Suppose there is also a LanBox in the remote network. We can connect to the LanBox via our Tor Raspi with our locally installed LCedit+ by forwarding a few ports towards the IP of the LanBox. Given the LanBox has the IP address 10.0.0.3, then the ssh command to forward the necessary ports is:
Suppose there is also a LanBox <ref>[[https://www.lanbox.com]]</ref> in the remote network. We can connect to the LanBox via our Tor-Raspi with our locally installed LCedit+ (LanBox's software suite) by forwarding a few ports towards the IP of the LanBox. Given the LanBox has the IP address 10.0.0.3, then the ssh command to forward the necessary ports is:


ssh -o "ProxyCommand nc -X 5 -x 127.0.0.1:9050 %h %p" -o PreferredAuthentications=password -o PubkeyAuthentication=no -L 4776:10.0.0.3:777 -L 4777:10.0.0.3:4777 -L 6454:10.0.0.3:6454 pi@[onion address]
ssh -o "ProxyCommand socat STDIO SOCKS4A:localhost:%h:%p,socksport=9050" -o PreferredAuthentications=password -o PubkeyAuthentication=no -L 4776:10.0.0.3:777 -L 4777:10.0.0.3:4777 -L 6454:10.0.0.3:6454 pi@[onion address]


Then, when starting LCedit+, connect to ''localhost:4776'' . We're using port 4776 instead of 777 (LanBox default) to avoid invoking ssh with root privileges. Ports below 1024 are so called ''system ports'' and require root privileges.
Then, when starting LCedit+, connect to ''localhost:4776'' . By default the LanBox is using port 777 for the authentication but by using port 4776 instead we avoid invoking ssh with root privileges. Ports below 1024 are so called ''system ports'' and require root privileges to temper with.

'''''Caveat:''' because the Lanbox's authentication channel isn't encrypted, it's a good idea to use at least a SSH port forward if you're connecting to your LanBox via a possibly hostile network, like the Internet. Otherwise your LanBox's password can be scooped in transit and ghosts might enter your machine.''


Or you store the parameters in the SSH config file (~/.ssh/config) for easier invokation:
Or you store the parameters in the SSH config file (~/.ssh/config) for easier invokation:
Line 107: Line 112:
PreferredAuthentications password
PreferredAuthentications password
PubkeyAuthentication no
PubkeyAuthentication no
ProxyCommand nc -X 5 -x localhost:9050 %h %p
ProxyCommand socat STDIO SOCKS4A:localhost:%h:%p,socksport=9050
LocalForward 4776 10.0.0.3:777
LocalForward 4776 10.0.0.3:777
LocalForward 4777 10.0.0.3:4777
LocalForward 4777 10.0.0.3:4777
LocalForward 6454 10.0.0.3:6454
LocalForward 6454 10.0.0.3:6454


Then invoke ssh with:
And invoke ssh with:


ssh raspberry-forward-tor
ssh raspberry-forward-tor

== See also ==

*[[UDP over SSH]] (UDP over SSH over Tor is also possible)


== References ==
== References ==
<div class="references-small"><references /></div>
<div class="references-small"><references /></div>

[[Category:Networking]]

Latest revision as of 11:47, 21 March 2021

Create a SSH [1] connection via the Tor [2] network.

Background

Imagine you want to access a remote computer which is connected to a local network with Internet access. The remote computer has a local IP address which is not accessible from outside the local network unless the access point, where the remote computer is connected to, explicitly forwards the specific port(s) for the incoming connections to the computer.

In the case you're at home and have access to the configuration of your access point that's not so hard to archive. But if the computer is located somewhere else e.g. as part of an installation in some venue, then forwarding the port can become tricky, e.g. because of burocracy. Given you are in such a tricky situation, then putting a little computer (like a Raspberry Pi) with Tor to the mix might be a workaround to consider.

The Tor feature we want to use here is called onion service [3]. Onion services can be any networked service you would run on a regular server, like SSH or HTTP(S), but are accessible via the Tor network. Onion services have the nice property that you can directly connect to the computer running that service, even if the computer is connected to a local network (with Internet access) and has no public IP address and without the necessity to forward any ports from the access point to the computer.

In addition to that we can use this Tor enabled computer to connect to other devices in the remote local network.

Implementation

For our example setup we use:

  • Raspberry Pi [4]
  • Your computer

Raspberry Pi

Caveat: all commands are entered on the command-line interface [5].

Install & configure Tor

sudo apt install tor

Now we configure the SSH onion service by editing /etc/tor/torrc . In the location-hidden services section add:

HiddenServiceDir /var/lib/tor/ssh_onion_service/
HiddenServicePort 22 127.0.0.1:22

Then we restart Tor:

sudo systemctl restart tor.service

Install & configure SSH server

sudo apt install openssh-server
sudo systemctl enable ssh.service

The Raspberry is now ready to receive SSH connections via the Tor network.

Onion address

Later we'll need the Raspberry's .onion address to connect to our onion service. To display it just type:

sudo cat /var/lib/tor/ssh_onion_service/hostname

Your Computer

Linux (Ubuntu)

Caveat: all commands are entered on the command-line interface.

Install tor
sudo apt install tor
Install socat

We'll need socat to connect our SSH session to the Tor network.

sudo apt install socat
Connect to Raspberry

Now we're ready to connect our computer to the Raspberry via the Tor network. When invoking SSH we have basically two options:

  1. write all required parameters in the ssh command, or
  2. have the required parameters stored in a configuration file for easier invokation.
Parameters in SSH command
ssh -o "ProxyCommand socat STDIO SOCKS4A:localhost:%h:%p,socksport=9050" -o PreferredAuthentications=password -o PubkeyAuthentication=no pi@[onion address]
Parameters in SSH config file

Add your config to ~/.ssh/config . Create the file if it doesn't exist.

Host raspberry-tor
    HostName [onion address]
    User pi
    PreferredAuthentications password
    PubkeyAuthentication no
    ProxyCommand socat STDIO SOCKS4A:localhost:%h:%p,socksport=9050

Then, to connect to the Raspberry, you invoke your SSH session with:

ssh raspberry-tor

Mac

Todo

Windows

Todo

Expanding the functionality

Forwarding of local ports

Suppose there is also a LanBox [6] in the remote network. We can connect to the LanBox via our Tor-Raspi with our locally installed LCedit+ (LanBox's software suite) by forwarding a few ports towards the IP of the LanBox. Given the LanBox has the IP address 10.0.0.3, then the ssh command to forward the necessary ports is:

ssh -o "ProxyCommand socat STDIO SOCKS4A:localhost:%h:%p,socksport=9050" -o PreferredAuthentications=password -o PubkeyAuthentication=no -L 4776:10.0.0.3:777 -L 4777:10.0.0.3:4777 -L 6454:10.0.0.3:6454 pi@[onion address]

Then, when starting LCedit+, connect to localhost:4776 . By default the LanBox is using port 777 for the authentication but by using port 4776 instead we avoid invoking ssh with root privileges. Ports below 1024 are so called system ports and require root privileges to temper with.

Caveat: because the Lanbox's authentication channel isn't encrypted, it's a good idea to use at least a SSH port forward if you're connecting to your LanBox via a possibly hostile network, like the Internet. Otherwise your LanBox's password can be scooped in transit and ghosts might enter your machine.

Or you store the parameters in the SSH config file (~/.ssh/config) for easier invokation:

Host raspberry-forward-tor
    HostName [onion address]
    User pi
    PreferredAuthentications password
    PubkeyAuthentication no
    ProxyCommand socat STDIO SOCKS4A:localhost:%h:%p,socksport=9050
    LocalForward 4776 10.0.0.3:777
    LocalForward 4777 10.0.0.3:4777
    LocalForward 6454 10.0.0.3:6454

And invoke ssh with:

ssh raspberry-forward-tor

See also

References