A TCP connection is uniquely identified by this tuple
(local address, local port #, foreign address, foreign port #). There is no requirement that
local address and
foreign address, or even that the port numbers be different (though that would be exceedingly strange). But there is at most 1 TCP connection that has the same values for a given tuple.
When a computer connects to itself, it's local address and foreign address are almost always the same. After all, the 'local' side and 'foreign' side are actually the same computer. In fact, when this happens your computer should be showing two connections that have the same 'local' and 'foreign' addresses, but reversed port numbers. For example:
$ ssh localhost
will result in two connections that look something like this:
$ netstat -nA inet | fgrep :22
Active Internet connections (w/o servers)
Proto Recv-Q Send-Q Local Address Foreign Address State
tcp 0 0 127.0.0.1:56039 127.0.0.1:22 ESTABLISHED
tcp 0 0 127.0.0.1:22 127.0.0.1:56039 ESTABLISHED
As you can see, the local address and foreign addresses are the same, but the port numbers are reversed. The unique tuple for this TCP connection is
(127.0.0.1, 56039, 127.0.0.1, 22). There will be no other TCP connection that has these same four fields.
The fact you see two is because your computer is both ends of the connection. Each end has its own view of which one is 'foreign' and which is 'local'.
You can even connect to yourself on the same port, and while this is not a common occurrence, it is not forbidden by the spec. Here is a sample program in Python which will do this:
s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
This code works because one way in which it's possible to open a TCP connection is to have the other side of the connection try to open one with you simultaneously. This is known as simultaneous SYN exchange, and the linked to StackOverflow answer describes what that's about.
I also have a paper on using simultaneous SYN exchange to get through NAT, though in that case the source and foreign would be completely different.