Java documentation says that a
x, that is listening on, say, port
5555 returns a new
y, from its
accept() method such that:
the local port of
yis set to
xcontinues to listen on port
I have verified that the above is indeed the case.
However, this wikipedia entry on Port has this to say:
This process is known as listening and involves the receipt of a request on the well-known port and reestablishing one-to-one server-client communications on another private port, so that other clients may also contact the well-known service port.
To me, the above wikipedia excerpt tends to make more sense... since from what I've read and understood about TCP/IP,
the destination IP address helps deliver the packet to the right host; and
the destination port helps deliver the packet to the right process on the destination host
Thus, the given the documentation and behavior of
accept() in Java, I'm wondering how could packet delivery be possibly achieved in case of a multithreaded client attempting to talk to a multithreaded server (by opening two communication channels, one in each thread)? In such a case, how would Java (or, the underlying TCP/IP stack) know which packet belongs to which channel when all packets would have the same destination IP address and port values set?
EDIT: Please see EJP's response and also Nikolai's comment below. According to them, the above wikipedia claim was wrong. EJP went ahead and fixed the wikipedia entry.