Hack 75. Forward Ports over SSH

Keep network traffic to arbitrary ports secure with SSH port forwarding.

In addition to providing remote shell access and command execution, OpenSSH can forward arbitrary TCP ports to the other end of your connection. This can be very handy for protecting email, web, or any other traffic you need to keep private (at least, all the way to the other end of the tunnel).

Ssh accomplishes local forwarding by binding to a local port, performing encryption, sending the encrypted data to the remote end of the ssh connection, then decrypting it and sending it to the remote host and port you specify. Start an ssh tunnel with the -L switch (short for Local):

root@laptop:~# ssh -f -N -L110:mailhost:110 -l user mailhost

Naturally, substitute user with your username, and mailhost with your mail server's name or IP address. Note that you will have to be root on laptop for this example, since you'll be binding to a privileged port (110, the POP port). You should also disable any locally running POP daemon (look in /etc/inetd.conf) or it will get in the way.

Now to encrypt all of your POP traffic, configure your mail client to connect to localhost port 110. It will happily talk to mailhost as if it were connected directly, except that the entire conversation will be encrypted.

The -f forks ssh into the background, and -N tells it not to actually run a command on the remote end (just do the forwarding). If your ssh server supports it, try the -C switch to turn on compressionthis can significantly improve the time it takes to download your email.

You can specify as many -L lines as you like when establishing the connection. To also forward outbound email traffic, try this:

root@laptop:~# ssh -f -N -L110:
mailhost
:110 -L25:
mailhost
:25
-l user mailhost

Set your outbound email host to localhost, and your email traffic will be encrypted as far as mailhost. This generally is only useful if the email is bound for an internal host, or if you can't trust your local network connection (as is the case with most wireless networks). Obviously, once your email leaves mailhost, it will be transmitted in the clear, unless you've encrypted the message with a tool such as pgp or gpg.

If you're already logged into a remote host and need to forward a port quickly, try this:

Hit Enter
Type ~C
You should be at an ssh> prompt; enter the -L line as you would from the command line.

For example:

rob@catlin:~$ 
rob@catlin:~$ ~, then C (it doesn't echo)
ssh> -L8080:localhost:80
Forwarding port.

Your current shell will then forward local port 8000 to catlin's port 80, as if you had entered it in the first place.

You can also allow other (remote) clients to connect to your forwarded port, with the -g switch. If you're logged in to a remote gateway that serves as a NAT for a private network, then a command like this:

rob@gateway:~$ ssh -f -g -N -L8000:localhost:80 10.42.4.6

will forward all connections from gateway's port 8000 to internal host 10.42.4.6's port 80. If the gateway has a live Internet address, this will allow anyone from the Net to connect to the web server on 10.42.4.6 as if it were running on port 8000 of the gateway.

One last point worth mentioning: the forwarded host doesn't have to be localhost; it can be any host that the machine you're connecting to can access directly. For example, to forward local port 5150 to a web server somewhere on an internal network, try this:

rob@remote:~$ ssh -f -N -L5150:
intranet.insider.nocat
:80 
gateway.nocat.net

Assuming that you're running a TLD of .nocat, and that gateway.nocat.net also has a connection to the private .nocat network, all traffic to 5150 of remote will be obligingly forwarded to intranet.insider.nocat:80. The address intranet.insider.nocat doesn't have to resolve in DNS to remote; it isn't looked up until the connection is made to gateway.nocat.net, then it's gateway that does the lookup. To securely browse that site from remote, try connecting to http://localhost:5150/.

Although ssh also has functionality for acting as a Socks 4 proxy (with the -D switch), it just isn't well suited for routing all network traffic to the other end of a tunnel. See the documentation for the -D switch; it's a pretty neat feature. (What, did you think we'd do all of the work for you? ;)

Ssh is an incredibly flexible tool, with much more functionality than I can cover here. See the references below for more fun things you can do with ssh.

9.7.1. See also:

Ssh manpage
SSH, The Secure Shell: The Definitive Guide (O'Reilly)

Rob Flickenger