I'm working on a Python tunneling project using TUNTAP. The data received on a TUNTAP interface contains the original IP packet including all headers. I can do one of two things.
On the incoming side I am listening with Twisted. On the outgoing side I will have a raw socket which dumps the IP packet. Before dumping the packet the program swaps the source address with that of the server. It also recomputes the TCP and UDP checksums. It also swaps the ports using one of the following methods. This information is tracked in the NAT table
1) Use a single port per user such as
US.ER.01.IP:10000 ----> SE.RV.ER.IP:3000 ----> facebook.com:80 US.ER.01.IP:10001 ----> SE.RV.ER.IP:3000 ----> facebook.com:80 US.ER.02.IP:3000 ----> SE.RV.ER.IP:3001 ----> facebook.com:80
Could this cause issues if the second with user's 1s simultaneous requests for facebook? How would the system know how to route facebook's reply. It is incoming on port 3000 so it belongs to user1 but does it get mapped back to 10000 or 10001?
2) Use a unique port for each connection such as
US.ER.01.IP:10000 ----> SE.RV.ER.IP:3000 ----> facebook.com:80 US.ER.01.IP:10001 ----> SE.RV.ER.IP:3001 ----> facebook.com:80 US.ER.02.IP:3000 ----> SE.RV.ER.IP:3002 ----> remoteHost.com:22
How would I know when to remove entries from the NAT table? I could see the NAT table filling up very quickly using this method. The solutions to this are:
I could wit for FIN packets from the server. This will not work with UDP though. I could age the NAT entry on each hit. I could then run garbage collection every N seconds. I see this being an issue if garbage collection runs and how would a server's delayed response get to the proper host if it gets deleted from the table.
There is also the issue of reading from a raw socket. I know how to send on one but would it be possible to receive individual IP packets. Could the raw socket receive one packet per sock.recieve(65535) call possibly receive more than one IP packet?
Which implementation is best? Any other tips or things I should be watching out for?
Ok so I have N many clients. If you misunderstood me the enitre /30 is used between the client and itself. It is just an abstraction to make the tunnel possible. I also didn't think it mattered but the websocket actaully goes through a "proxy" on the LAN (the IPdata is simply repackaged into a new websocket, the mappings are unique however). I did not want to make the explanation so confusing. I do not see how this changes anything.
Client PC CLIENT PC Client PC----->LAN INTERNET Client 1: 10.1.1.2 ----> 10.1.1.1 ----> Websocket(IPdata) ----> Browser ---> newWebSocket(IPData) ----> SE.RV.ER.IP Client 2: 10.1.1.4 ----> 10.1.1.3 ----> Websocket(IPdata) ----> Browser ---> newWebSocket(IPData) ----> SE.RV.ER.IP Client 3: 10.1.1.6 ----> 10.1.1.5 ----> Websocket(IPdata) ----> Browser ---> newWebSocket(IPData) ----> SE.RV.ER.IP
Each client set it's default route to be the tunnel endpoint (10.1.1.1 for example). The client gets the IP datagram, puts it into a websocket, sends the websocket to a browser on the LAN, which then sends it to the server (or perhaps another proxy). The inside of the websocket contains the original IP datagram (with the source of 10.1.1.2 or some other internal IP).
It is important to note that the server recieves a websocket message from the internet CONTAINING the goodes (with the private source address). How would the python server use this? Create a new tunnel with itself then dump the packet raw into the tunnel and route appropriately?
Or perhaps I could use a mapping?
How would I be able to "map" a tunnel abstraction over this chain of websockets? The client does not have a route to the internet but can reach the "Browser" which can get to the internet. This seems to be the same case with VPN tunnels. The abstraction would be as follows:
Client 1: 10.1.1.2 ----> 10.1.1.1 ----> Websocket(IPdata) ----> Browser ---> newWebSocket(IPData) ----> SE.RV.ER.IP -> Internet 10.1.2.2------------------------------------------------------------------------------------> 10.1.2.1 ----> Internet
If you know any resources to get me on the right track that would be great!