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I run the following line in bash, on a VM running red hat 5:

    for i in {1..100000};
        do telnet 10.10.10.105 41941;
    done

At some point, telnet connects to the port even though there is no one listening on it. It seems o be connecting to its self? The same issue appears when i start the client side of an application, without starting the server - the client successfully connects to the ip:port. The client looks something like this:

    addr.sin_family = AF_INET;
    addr.sin_port = htons(atoi(port));
    addr.sin_addr.s_addr = inet_addr(hostname);

    some_while_loop
    {
        status = ::connect(sock, (sockaddr *)&addr, sizeof(addr));
        if (status == -1)
        {
            shutdown(sock, 2);
            close(sock);
            return false;
        }
   }

I found this article: http://web.deu.edu.tr/doc/soket/ which states in 6.2 that the connection will succeed if you to the same machine you're running on. My question is, why is this happening? Is it a hardware issue or is it a fail-safe red-hat kernel is using, or maby it's because of the port i'm using (for 1025 for example, i don't have this issue)... ?

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1 Answer

It is correlated to the port. When initiiating a TCP connection, for the client, a random unused port in the upper range of the ports (32786+) is picked. Then the usual TCP handshake is done, only with a special case called simultanous initiiation. Here it is assumed that both sides of the connection want to establish a connection at the same time, see below for a figure from the RFC.

You can enforce that behaviour using ncat:

ncat -p 50000 127.0.0.1 50000

This will make ncat connect to 127.0.0.1:50000, while using the source port 50000. You get a valid connection immediately, without having to listen for incoming connections beforehand.


Despite what commenters said, the case happening here is called simultanous initiiation and is well specified in RFC 793, Section 3.4, where it says:

Simultaneous initiation is only slightly more complex, as is shown in figure 8. Each TCP cycles from CLOSED to SYN-SENT to SYN-RECEIVED to ESTABLISHED.

      TCP A                                            TCP B

  1.  CLOSED                                           CLOSED

  2.  SYN-SENT     --> <SEQ=100><CTL=SYN>              ...

  3.  SYN-RECEIVED <-- <SEQ=300><CTL=SYN>              <-- SYN-SENT

  4.               ... <SEQ=100><CTL=SYN>              --> SYN-RECEIVED

  5.  SYN-RECEIVED --> <SEQ=100><ACK=301><CTL=SYN,ACK> ...

  6.  ESTABLISHED  <-- <SEQ=300><ACK=101><CTL=SYN,ACK> <-- SYN-RECEIVED

  7.               ... <SEQ=101><ACK=301><CTL=ACK>     --> ESTABLISHED

                Simultaneous Connection Synchronization

                               Figure 8.

I also corrected the first paragraph to be more clear and precise.

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Well, the reply to a SYN isn't an ACK, it is a SYN+ACK, which in turn has to be ACK'd before the connection is complete. I think the underlying mechanism here is somewhat different. –  EJP Oct 29 '12 at 22:39
    
@EJP please see edited answer and reconsider downvote/deletevote! –  Jonas Wielicki Oct 30 '12 at 18:29
    
@JonasWielicki, simultaneous initiation indeed seems to be the case, because on connection, said address and port aren't actually blocked, so connect() sees them as viable options to link the socket to. As a work around to this i found that you can getsockname(sock, &sock_addr, &addr_size) to check the ports if they are the same, and consequently close the connection. Also using setsockopt to set the above mentioned socket to reuse the address (SO_REUSEADDR), will solve any problems if the server is trying to use the same addres and port. Thanks a lot for your help –  user1783445 Oct 31 '12 at 8:36
    
Exactly. If the ports were blocked, they could not be used to connect initially. It seems a bit paradox at first though. –  Jonas Wielicki Oct 31 '12 at 9:54
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