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This could probably be the strangest question every asked here. I'll try to explain it the best I can.

I need to rapidly develop a network application in Java, integrating a bunch of old network applications (I already have the code for them) and making everything work together. Each old application will become a sub-function of the new one; the new one is fundamentally a "wrapper".

Obviously, each of these applications (which have been developed by different people in different times) work in different way, with different protocols, with radically different syntax for the messages (i.e. some protocols use binary messages, some other use HTTP like messages, some other use XML) and different message order strategies (pipelining, stop and wait, etc...).

Fortunately, they are all TCP.

The wrapper application should work opening something like 6-7 different sockets at different ports, and this is not good for our network administrators. They only want one socket on one port. So all the protocols have to crush on the same pipe.

Is there any pure Java, out-of-the-box solution to multiplex and demultiplex many independent full-duplex streams on the very same TCP socket, in a transparent and hassle-free manner?

Or is there a simpler solution I'm forgetting about?

EDIT: the sub-streams are independent, i.e. there's no deadlock possibility caused by one sub-stream waiting for some stuff coming from another.

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Uhm... what IS that? pwet.fr/man/linux/commandes/encapsulate –  gd1 Aug 26 '11 at 15:50
What's the main issue, multiple ports or multiple connections (or both)? –  NPE Aug 26 '11 at 16:07

1 Answer 1

up vote 2 down vote accepted

You can't do it in a transparent manner over TCP.

Consider for example what will happen if your application sends a request over one of the "channels" that depends on data it needs to get on another "channel". If a network conditions drops enough packets of one of the "channels" to cause your TCP connection to stall (due to TCP window) waiting for response you would in effect be stalling all the other "channels" in the same TCP connection since they share the same window and you can get into a deadlock

This would not have happen before with each channel in the same window.

This may or may not affect your specific application - but it might, so this technique is not transparent. You can try using SCTP to overcome this, if possible

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Fortunately, the channels are independent. For 'transparency' I meant something like a MultiplexedSocket with getInputSream(int channelNo) and getOutputStream(int channelNo) methods, all managed under the hood (with some FIFO technique and complex pre-headers for messages in order to identify the substream). But I'm dreaming :D I'll dig into SCTP –  gd1 Aug 26 '11 at 15:45
gd1, can´t u implement this class? I mean the MultiplexedSocket and those methods, its not that hard I think... –  fredcrs Aug 26 '11 at 16:34
Sure but I don't want to re-invent the wheel, if such wheel exists :). It's not so hard, yeah, but it needs proper testing, and I have little time. Thanks however :) –  gd1 Aug 26 '11 at 16:37

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