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I have a TCP client program and which needs to communicate with servers embedded in devices. There can be 1000's of devices which need to be controlled through the single client program. Since the number of these devices (i.e. tcp servers) is large, so they have to be behind different routers

so the scenerio is like

client ----- "router1"----server1, server 2, server3...server_255

   ----- "router2" ---server1, server 2...server_255

enter image description here

Since client and server programs are in different networks, so which is the most easiest way to establish communication between client and the servers?

Though it seems simple client-server programming, but the issue is with the NAT , networking translation here. The servers are behind a different private networks So I am looking forward for resolving the NAT problem here. (e.g. like port forwarding, but not sure)

Note: My client and devices are still in my network, so security is not a main concern.

Many Thanks in advance.

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What exactly is the difficulty. Just open TCP connections to your clients. – kmkaplan Jan 15 '13 at 17:08
I wanted to refer to the NAT'ing issue updated the question again. – Rohit Jan 16 '13 at 5:03
If this is your network, why are using NAT at all? Change your NATs to routers and problem solved -- full end to end connectivity. – Maris B. Jan 24 '13 at 17:12
@kmkaplan -- NATs assign address (usually in the 10.... range to devices inside the network) when such a device connects to the world outside the router it maps the 10. address to a "real" ip address. Unless there is hard coded configuration they do not do the reverse mapping. So while a device inside the NATs network can happly establish connections, device outside the NATs network cannot (easily) establish a connection with a device inside. – James Anderson Jan 25 '13 at 9:42

3 Answers 3

up vote 2 down vote accepted

Your illustration shows multiple endpoints behind each NAT-based router. If you're using a port-forwarding approach, then you'll need to register a different port number for each endpoint in your various routers. It would be a pain to track and configure, but would allow your central management server instant access to each of your endpoints.

If you control the software on your endpoints, you can have them poll a central server for instructions. No configuration would be needed in the routers because the requests originate from the private side. The amount of traffic would be trivial, assuming the typical message from the server is something like "OK". The downside is that delivery of an instruction by the central server wouldn't be instantaneous. The client won't know a message is available until its next polling interval.

Somewhere between the two extremes, but at an added cost, is a distributed management approach. If you already have a server behind each NAT router, you can have it relay instructions to each of the endpoints. Your central management server can control a small handful of local management servers, one behind each NAT firewall, and each of those servers will have direct access to the endpoints within its same LAN.

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what is the difference between the second and third approach? Also for third approach i suppose there would be NATing issue.Can you please elaborate? – Rohit Jan 24 '13 at 8:32
On the third approach, you'd still have to configure your router to port forward from your central management server to your local management server, but it's just a single entry per router which is relatively easy to maintain. – phatfingers Jan 25 '13 at 17:04
The key differentiator between the second and third approaches is who gets to initiate the communication. With a management server behind the NAT router, you can instantly push instructions to each endpoint. With the second option, you can't. Effectively, you can leave a message on the central server for clients to pick up when they're ready, so you configure them to periodically check for that message (which can be a useful monitor that they're alive so it's not too wasteful). – phatfingers Jan 25 '13 at 17:13

The most straightforward design would be to have a dedicated daemon process, usually called a controller, listen on a well-known port, and all the devices act instead as clients, connecting to it. The controller would watch devices come up and down, tracking their locations and states.

The thing you now call the "client" would then become just a user interface part. It would query the controller and display results, and issue commands to the controller that would in turn relay them to device(s).

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Have all of your "servers" (i.e. the devices) maintain a connection to your "client" (i.e. the central server). Going the other way, as you describe, won't work with the router in the way.

If a fulltime connection is not needed then you may need to either establish a connection schedule or use a broadcast/multicast message to tell clients to connect. Note that broadcast/multicast will require router configuration changes to make sure the messages go out.

I'm assuming here that by router you mean something with NAT in it. NAT is the problem here.

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Yes,i wanted to know about NAT resolution here. – Rohit Jan 16 '13 at 7:08

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