I am studying the TCP hole punching technique and have got some knowledge from this article: TCP_hole_punching. But I don't understand below part:
Network Drawing Peer A ←→ Gateway A ← .. Network .. → Gateway B ←→ Peer B Types of NAT The availability of the TCP-hole-punching technique depends on the type ofcomputer port allocation used by the NAT. When two peers, A and B, instantiate TCP connections by binding to local ports Pa and Pb, respectively, **they need to know the remote endpoint NAT port in order to make the connection**.
Here are some questions, could somebody help explain? Any help or suggestion will be greatly appreciated!!
Q1. Suppose we have a client app running behind NAT1 and a server app running behind NAT2. They will have messaging and file transfer communication. The pattern will be the server listens and accepts connection from the client. Do they need to use the TCP hole punching to keep the tcp connection work?
Q2. Is the TCP hole punching technique necessary only when it's peer to peer communication and both parties are connecting to each other (e.g., 2x CONNECT(), no LISTEN(), ACCEPT(), etc.)?
Q3. In the above text, what does it mean of "they need to know the remote endpoint NAT port in order to make the connection"? Why do they need to know the remote endpoint NAT port?Don't they only need to know the local port of the other machine?
For example, suppose the pair are (ClientA, publicIPA, LocalPortA), (ClientB, publicIPB, LocalPortB). If the ClientA wants to communicate with ClientB via TCP, it may do something like this:
clientBAddr.port = LocalPortB; clientBAddr.ip = inet_addr(publicIPB); connect(fdA, clientBAddr,...);
why would it need to know information such as NATPortA and NATPortB? Is there any problem if the clientA and clientB don't care about the NATA and NATB?