9

I am using a loop to read message out from a c Berkeley socket but I am not able to detect when the socket is disconnected so I would accept a new connection. please help

while(true) {
            bzero(buffer,256);
            n = read(newsockfd,buffer,255);
            printf("%s\n",buffer);        
}
16

The only way you can detect that a socket is connected is by writing to it.

Getting a error on read()/recv() will indicate that the connection is broken, but not getting an error when reading doesn't mean that the connection is up.

You may be interested in reading this: http://lkml.indiana.edu/hypermail/linux/kernel/0106.1/1154.html

In addition, using TCP Keep Alive may help distinguish between inactive and broken connections (by sending something at regular intervals even if there's no data to be sent by the application).

(EDIT: Removed incorrect sentence as pointed out by @Damon, thanks.)

  • 11
    Slight correction: "Reading 0 bytes may also simply mean that the remote party didn't have anything to send, without it being a problem necessarily" -- receiving 0 bytes means that the other end performed a clean shutdown of the connection. If the other end did not have anything to send, you get EAGAIN or EWOULDBLOCK if the socket is non-blocking, or it blocks until data arrives. One way of detecting that the connection is down would be registering EPOLLHUP and EPOLLRDHUP on an epoll. This is not 100% reliable, but will report orderly shutdowns, half-shutdowns, and missing keepalives. – Damon Jun 19 '11 at 18:18
  • 2
    @Pacerier, there's no difference between not getting anything because nothing was sent and not getting anything because the link is broken. (It's a general principle in fact. If you don't get any letter in the morning, either no one sent you anything or the postal system doesn't work: you can only find out which is the cause by trying to send something by post, more or less.) This is why you need to handle timeouts when using TCP connections. A connection that's closed abruptly will simply not send you anything to tell you its closing, because it can't. – Bruno Jul 16 '12 at 19:08
  • 1
    @jean, sure there may be a delay, but that's the only way to detect a disconnection, still. Flush the buffer if you need to know as soon as possible. (If you're waiting for read error, you can wait for a really long time... and that wouldn't be reliable.) – Bruno Jul 3 '14 at 10:10
  • 1
    @jean "If it is a abrupt disconnection, using write also helpless, right?" No, it's not helpless, it should fail, hence you can detect a disconnection. Your idea of expecting to receive a heartbeat every 15 sec is different, there might be a longer delay without the connection being close. You're then making an arbitrary decision regarding what delay you find acceptable, that's it (and this is often the right thing to do practically), but that doesn't actually tell you whether the socket was disconnected, it just means you give up and assume it has. – Bruno Jul 4 '14 at 9:45
  • 1
    @jean, yes, abrupt in that sense (complete packet loss without warning). When nothing is meant to be sent, you can't know whether you're meant to receive something (hence the idea of hearbeat in the protocol as you suggested, for protocols that support that). The only way to find out whether it's disconnected is to try to write. Trying to read something whether you don't know whether it's meant to have sent anything won't tell you anything either way. Your case is different since you're using an async write. I don't know boost.asio very well, but try to flush the buffer immediately if you can. – Bruno Jul 4 '14 at 14:57
0

Your problem is that you are completely ignoring the result returned by read(). Your code after read() should look at least like this:

if (n == 0) // peer disconnected
    break;
else if (n == -1) // error
{
    perror("read");
    break;
}
else // received 'n' bytes
{
    printf("%.*s", n, buffer);
}

And accepting a new connection should be done in a separate thread, not dependent on end of stream on this connection.

The bzero() call is pointless, just a workaround for prior errors.

-1

That's because you didn't use keepalive timeout. In receiving side, keepalive socket option is the best solution for detecting dead connection.

But, in case of your application continue to write to socket, there is something to think more. Even though you already set keepalive option to your application socket, you can't detect in time the dead connection state of the socket, in case of your app keeps writing on the socket. That's because of tcp retransmission by the kernel tcp stack. tcp_retries1 and tcp_retries2 are kernel parameters for configuring tcp retransmission timeout. It's hard to predict precise time of retransmission timeout because it's calculated by RTT mechanism. You can see this computation in rfc793. (3.7. Data Communication)

https://www.rfc-editor.org/rfc/rfc793.txt

Each platforms have kernel configurations for tcp retransmission.

Linux : tcp_retries1, tcp_retries2 : (exist in /proc/sys/net/ipv4)

http://linux.die.net/man/7/tcp

HPUX : tcp_ip_notify_interval, tcp_ip_abort_interval

http://www.hpuxtips.es/?q=node/53

AIX : rto_low, rto_high, rto_length, rto_limit

http://www-903.ibm.com/kr/event/download/200804_324_swma/socket.pdf

You should set lower value for tcp_retries2 (default 15) if you want to early detect dead connection, but it's not precise time as I already said. In addition, currently you can't set those values only for single socket. Those are global kernel parameters. There was some trial to apply tcp retransmission socket option for single socket(http://patchwork.ozlabs.org/patch/55236/), but I don't think it was applied into kernel mainline. I can't find those options definition in system header files.

For reference, you can monitor your keepalive socket option through 'netstat --timers' like below. https://stackoverflow.com/questions/34914278

netstat -c --timer | grep "192.0.0.1:43245             192.0.68.1:49742"

tcp        0      0 192.0.0.1:43245             192.0.68.1:49742            ESTABLISHED keepalive (1.92/0/0)
tcp        0      0 192.0.0.1:43245             192.0.68.1:49742            ESTABLISHED keepalive (0.71/0/0)
tcp        0      0 192.0.0.1:43245             192.0.68.1:49742            ESTABLISHED keepalive (9.46/0/1)
tcp        0      0 192.0.0.1:43245             192.0.68.1:49742            ESTABLISHED keepalive (8.30/0/1)
tcp        0      0 192.0.0.1:43245             192.0.68.1:49742            ESTABLISHED keepalive (7.14/0/1)
tcp        0      0 192.0.0.1:43245             192.0.68.1:49742            ESTABLISHED keepalive (5.98/0/1)
tcp        0      0 192.0.0.1:43245             192.0.68.1:49742            ESTABLISHED keepalive (4.82/0/1)

In addition, when keepalive timeout ocurrs, you can meet different return events depending on platforms you use, so you must not decide dead connection status only by return events. For example, HP returns POLLERR event and AIX returns just POLLIN event when keepalive timeout occurs. You will meet ETIMEDOUT error in recv() call at that time.

In recent kernel version(since 2.6.37), you can use TCP_USER_TIMEOUT option will work well. This option can be used for single socket.

  • No it isn't. It is because he fails to check for either an error or even end of stream. He is totally ignoring the result returned by reD(). – user207421 Feb 21 '17 at 8:55

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.