Hey guys I have a question or problem. I am trying to make a p2p connection between two android phones. I have each phone connect to my server and I get their private (192.168.1.1) and public (76.123.288.22) IP and along with the ports that they connect to my server. I send a response when the phone connects to the server to open a server socket with a specific port. I also send the other phone the public IP and port of the open socket, but it does not connect. I have read multiple threads on here that it is not possible to do p2p connection if both phones or computers are behind two different routers. My question is if that is true and if so how does LogMeIn or the other p2p applications work behind different routers? Is it a programming error or the network architecture does not allow it?
But the primary concept to understand here is,
For the last part, i don't program on android so am not really sure if it allows adding rules for incoming connections etc. But i do know that gtalk has a client for android and gtalk uses XMPP which internally can use any of the techniques i pointed out above. So there is no reason to believe why it can't be done for android phone.
Adding some more useful references:
libjingle is an open source library by google which can be used to write p2p applications including text, audio and video.
It seems to have been compiled for android as well here
"My question is if that is true and if so how does LogMeIn or the other p2p applications work behind different routers?"
The difference here is that the connections for both machines keep going thru the central server - they don't connect directly to each other (except for special cases).
What you want to do does not work, by design. If TCP could do that, then anyone could connect to anyone.
You need to make your central server pass the traffic from one phone to the connection the other phone has made with the server.
Or set up a VPN, or use Google Chrome to phone (name may have changed) which is a means to send small messages to phones, regardless of network topology.