Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I am working on a program that needs to be able to handle firewalls eloquently while allowing direct communication between 2 clients.

I am thinking of something similar to Skype where the third party is used to establish the connection between two users, but none of the actual data is sent to the third part once the connection is established.

I understand that pretty much all firewalls block all unsolicited incoming traffic, but it is pretty easy to be able to have a program establish a connection as long as the internal program was the first to communicate out. What I don't understand is how a connection is able to be established between the two clients directly.

How can I implement something like this? Is there any proper terminology for what this technique is called? One client has to be written in Java, but the server and other client can be in pretty much any language I want.

I apologize in advance if this question has already been asked, I tried looking around, but I feel like I may not being using the correct keywords to find it.

share|improve this question
up vote 2 down vote accepted

I think the terminology you're looking for is "NAT traversal". It's less about firewalls, and more about overcoming the difficulty of reaching a particular node on the other (private) side of NAT device (like a cable modem, for example, where the LAN side is usually assigned some non-routeable address range like 192.168.*.*)

One technique that might work for you is UDP hole punching. Each endpoint can establish outgoing connections to a third-party server, and the NAT device at each endpoint will open up ports to allow return traffic through the firewall and route it to the appropriate LAN node on each side. The endpoints exchange port information through the third party server, then re-use the "holes" they just "punched" through the NAT devices to communicate directly with one another from that point onward.

share|improve this answer
UPD traversal is the easiest technique to implement. Does the job, but no frills. – JVerstry Apr 20 '11 at 16:40
However as noted there are several NAT routers and firewalls that only support symmetric NAT, so you really need to have a server out there as a fallback when two clients cannot punch holes through the routers/firewall. In that case they have to communicate through the server. You could also do what Skype does and promote some unlucky client that has a weak NAT router to a supernode, and use it to relay the traffic. Make sure you have small print hidden in your EULA stating you have permission to do that ;) – Jim Morris Apr 21 '11 at 1:24

Exactly like Jim says it's Traversal NAT, or STUN. There is a Java implementation, the project is no longer maintained but you could use it to study.


share|improve this answer
Yep, it is STUN. But beware, the code in the Cornell project is unoperational and needs much rework (info I got from the author himself). You can also read about NAT traversal in the Practical JXTA II available online for reading. – JVerstry Apr 20 '11 at 16:38

It depends in what u want!!

If u want that to work only ~85% of the times you can use STUN server! here is a list of some free ones:


But for 100% you also need to implement a TURN server (relay server) and that is a really expensive!! because all your traffic will pass by your server and be relayed to the clients you can see https://www.twilio.com/stun-turn to see how expensive it is, u also can deploy your own the best for me is https://code.google.com/p/rfc5766-turn-server/

But this is just the tip of the iceberg!!!!!!!!!

now you know how to send exchange data between clients! BUT you to use a signaling server to create the communication session because when i wanna call you, you have to receive a notification saying that, i'm trying to call you.

Then if we accept the call, we still need to exchange the how are we going to talk! why because maybe i can p2p but u cannot so we have to use a relay server. the next step is saying what we are going to send, after all of that we start communicating normally...

read about webrtc to get a better view on the point

i hope it helped

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.