Monday, June 4, 2012

Tunnel over HTTPS


At my workplace, the traffic blocker/firewall has been getting progressively worse. I can't connect to my home machine on port 22, and lack of ssh access makes me sad. I was previously able to use SSH by moving it to port 5050, but I think some recent filters now treat this traffic as IM and redirect it through another proxy, maybe. That's my best guess; in any case, my ssh connections now terminate before I get to log in.



These days I've been using Ajaxterm over HTTPS, as port 443 is still unmolested, but this is far from ideal. (Sucky terminal emulation, lack of port forwarding, my browser leaks memory at an amazing rate...) I tried setting up mod_proxy_connect on top of mod_ssl , with the idea that I could send a CONNECT localhost:22 HTTP/1.1 request through HTTPS, and then I'd be all set. Sadly, this seems to not work; the HTTPS connection works, up until I finish sending my request; then SSL craps out. It appears as though mod_proxy_connect takes over the whole connection instead of continuing to pipe through mod_ssl , confusing the heck out of the HTTPS client.



Is there a way to get this to work? I don't want to do this over plain HTTP, for several reasons:



  • Leaving a big fat open proxy like that just stinks

  • A big fat open proxy is not good over HTTPS either, but with authentication required it feels fine to me

  • HTTP goes through a proxy -- I'm not too concerned about my traffic being sniffed, as it's ssh that'll be going "plaintext" through the tunnel -- but it's a lot more likely to be mangled than HTTPS, which fundamentally cannot be proxied



Requirements:



  • Must work over port 443, without disturbing other HTTPS traffic (i.e. I can't just put the ssh server on port 443, because I would no longer be able to serve pages over HTTPS)

  • I have or can write a simple port forwarder client that runs under Windows (or Cygwin)



Edit



DAG: Tunnelling SSH over HTTP(S) has been pointed out to me, but it doesn't help: at the end of the article, they mention Bug 29744 - CONNECT does not work over existing SSL connection preventing tunnelling over HTTPS, exactly the problem I was running into. At this point, I am probably looking at some CGI script, but I don't want to list that as a requirement if there's better solutions available.


Source: Tips4all

13 comments:

  1. Find out why the company has such a restrictive policy. It might be for a good reason.

    If you still find that you want to bypass the policy, you could write a small proxy that will listen on your server on port 443 and then, depending on the request, will forward the traffic either to your web server or to the SSH daemon. There are two catches though.


    To determine whether it's an HTTPS request or an SSH request, you need to try to read some data with a (small) timeout, this is because TLS/SSL handshakes start with the client sending some data, whereas the SSH handshake starts with the server sending some data. The timeout has to be big enough to delays in delivering the initial data from the client in the TLS/SSL handshake, so it'll make establishing SSH connections slower.
    If the HTTP proxy in your company is smart, it'll actually eavesdrop on the expected TLS/SSL "handshake" when you CONNECT to port 443, and, when it detects that it's not an TLS/SSL handshake, it might terminate the SSH connection attempt. To address that, you could wrap the SSH daemon into an TLS/SSL tunnel (e.g., stunnel), but they you'll need to differentiate requests based on the TLS/SSL version in your client request to determine whether to route the TLS/SSL connection to the web server or to the TLS/SSL-tunneled SSH daemon.

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  2. You should be able to use iptables to forward ssh traffic from your work machines to ssh while all other machines attaching to your home server on port 443 get the Apache server.

    Try a rule like this:

    iptables -t nat -A PREROUTING -p tcp -s 111.111.111.111 --dport 433 -j REDIRECT --to-port 22

    Where 111.111.111.111 is your office computer's ip address.

    That all assumes you're running Linux >= 2.4, which you should be by now. It's been out for almost a decade.

    Documentation for iptables is at http://www.netfilter.org.

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  3. Set up OpenVPN 2.1 server at home, use port 443 (if you set up your home any HTTPS service at port 443, trigger OpenVPN's port-share option to handle both OpenVPN and HTTPS transactions at port 443; this feature is only available to non-Windows OS)

    Then, set up your OpenVPN client on your laptop in road-warrior mode to access the OpenVPN server at home. You will be able to call home or anywhere you like within a secure VPN network you've created with OpenVPN. It is no longer required to use SSH for this purpose.

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  4. I use a set-up like Dag's that I got from here:

    http://www.saulchristie.com/bypass-firewalls

    It mentions that the Apache bug has now been fixed but my install still had the problem. Luckily the article also mentioned you could work around this by just using stunnel to provide your SSL wrapping...

    So if you still have the Apache problem but want HTTPS wrapping, follow the info in the link above, then also install stunnel, create certs etc. and have it set to listen on port 443 and pass the unencrypted data out to port 80. Works perfectly for me.

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  5. I'm really sorry for being the Devil's advocate here, but if they are blocking ports at your work, its likely because they don't want people breaching security.

    Now if you get permission to open a tunnel from your boss, that's fine, but IF something happens, ANYTHING, and they figure out you have a tunnel, I can almost assure you, you'll become the scapegoat. So if I were you I'd not be opening tunnels at work if they are setting up firewalls against it.

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  6. How about using 2 IP adresses on your machine?

    Bind apache/https on one IP_1:443 and your sshd on the other IP_2:443?

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  7. I think you'll have to find a port that you're not using currently that you can get out on, and listen on that. 443 is the obvious candidate, but you say that's not possible. What about mail (25, 110, 143), telnet (23), ftp (21), DNS (53), or even whois (43)?

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  8. Proxy tunnel may be your answer

    http://proxytunnel.sourceforge.net/

    lets say my ssh server is host.domain.tld and my works proxy server is 10.2.4.37

    I would add this to my local ssh config

    Host host.domain.tld
    ProxyCommand /usr/local/bin/proxytunnel -q -p 10.2.4.37:3128 -d %h:%p
    ProtocolKeepAlives 30

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  9. See:

    SSH Through or Over Proxy

    http://daniel.haxx.se/docs/sshproxy.html

    http://www.agroman.net/corkscrew/

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  10. Since apache has no problem whatsoever with CONNECT when no SSL is involved, I turn off SSL features and I use stunnel to serve an https version of my site. This does not require any recompilation, and allows your site to serve https normally. So far, the cleanest workaround I know.

    See http://chm.duquesne.free.fr/blog/?p=281 for details.

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  11. Must work over port 443, without disturbing other HTTPS traffic (i.e. I can't just put the ssh server on port 443, because I would no longer be able to serve pages over HTTPS)


    Is it possible to bind your HTTPS server to a different port? Depending on what it's used for, you may even be able to get around the problem of not being able to directly access it from work by just SSHing home and then using lynx from there.

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  12. So, then, give proxifier a try (- it supports HTTP Proxy Server)!

    http://www.proxifier.com/documentation/intro.htm

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  13. Could you set up a middle man?

    Run a small/free/cheap instance in the cloud listening on 443 for SSH, then though that cloud instance tunnel to your home box on your favorite port - 22 or whatever.

    It'll add some latency I'm sure, but it solves the problem of leaving the original home setup intact.

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