Machine is RHEL 5.3 (kernel 2.6.18).

Some times I notice in netstat that my application has connection, established TCP connection when Local Address and Foreign Address are same.

Here same problem reported by someone else too.

The symptoms are same as described in link - client connects to port X port of server running locally. After some time netstat shows that client has connection from to

How it's possible?

Edit 01

Simultaneous open is causing the problem (thanks a lot to Hasturkun). You can see it on classical TCP state diagram in transition from SYN_SENT state to SYNC_RECEIVED

  • The symptoms are same as described in link - client connects to port X port of server running locally. After some time netstat shows that client has connection from to – dimba Feb 9 '11 at 20:12

This may be caused by TCP simultaneous connect (mentioned on this post to LKML, see also here).

It's possible for a program looping on trying to connect to a port within the dynamic local port range (which can be seen in /proc/sys/net/ipv4/ip_local_port_range),to succeed while the server is not listening on that port.

On a large enough number of attempts, the socket being used to connect may be bound to the same port being connected to, which succeeds due to previously mentioned simultaneous connect. You now magically have a client connected to itself

  • +1 looks like this can be my cause of my problem – dimba Feb 9 '11 at 20:45
  • Indeed my client constantly tries to connect to server if server is down. So the question now how I can to prevent such situation? Does it means that server should use ports not in /proc/sys/net/ipv4/ip_local_port_range range? – dimba Feb 9 '11 at 20:50
  • @dimba: yes, having the server listen to a port lower than the low end of that range will prevent this problem altogether – Hasturkun Feb 9 '11 at 20:53
  • honeypots.net/misc/services defines port ranges. Do server should "Registered Port Numbers", while OS will allocate client port from "Dynamic Port Numbers" range (is it range defined by /proc/sys/net/ipv4/ip_local_port_range?)? – dimba Feb 9 '11 at 21:00
  • @dimba: the range in /proc/sys/net/ipv4/ip_local_port_range is user settable, anything under the low value (32768 in my case) will be safe against such an accidental connection. you do not have to use one of the registered port numbers (especially if you aren't running the service registered on that port) – Hasturkun Feb 9 '11 at 21:19

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           ESTABLISHED 
tcp        0      0        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 (, 56039,, 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:

import socket
import time

s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
s.bind(('', 56443))
s.connect(('', 56443))

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.

  • Understood. But how client eventually opens same port of server (see link in post)? The result server can not open it's server port as it already in use. – dimba Feb 9 '11 at 20:23
  • AFAIK, I do not connect intentionally from the same port to same port – dimba Feb 9 '11 at 20:31
  • @dimba - I have code now that shows how to make it happen. Why someone would do such a thing is another question. But it's certainly possible. – Omnifarious Feb 9 '11 at 20:41
  • what is really odd is that one socket represents two ends, which probably requires very special treatment by OS. why do they find it necessary to go out of their way to support this use case? – ZhongYu May 22 '13 at 3:48
  • @ZhongYu - because Linux. ☺️ Seriously, a good developer hears "that can never happen" and assumes it will. Once you realize the case exists there is no choice but to support it. Anything else would be incorrect behavior not conforming to the standard. Supporting this kind of edge case is what all software should do. It's the software engineering equivalent of making sure your bridge doesn't fall down when someone drives off the edge. – Omnifarious Apr 3 '18 at 23:38

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