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I've got a multithreaded server (using POSIX threads), with one thread for each persistent connection. In one of the threads the other end of the connection closes, resulting in a SIGPIPE being delivered. Is there a (preferably portable) to determine which thread (and so which connection) this happened for so I can have my signal handler either do the thread/connection cleanup work itself or set a flag so that the main and worker thread respectively see that they need to do it later?

EDIT: I'm wondering if I could perhaps use &errno, store it in a global array and associate it with the server's identifier for the thread, and then search for &errno in the signal handler. Would the thread's specific errno be visible to the signal handler? Is my understanding of how the threadsafe errno works even in the ballpark?

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If a signal was delivered to a particular thread then that thread will handle the signal. That's what delivering a signal to a specific thread means. I don't understand what there is to check? – Charles Bailey Dec 27 '11 at 22:07
Because that doesn't tell me which specific thread it was. – Steely Dan Dec 27 '11 at 22:08
I don't understand, the thread is the thread handling the signal. What information about the current thread do you need to know? – Charles Bailey Dec 27 '11 at 22:15
why do you care about the thread and not the socket itself? – bestsss Dec 27 '11 at 22:18
For one, I need to be able to tell the main thread that it can free its data regarding the connection-handling thread. In order to do that, the main thread needs to know which particular connection (and so index into its array of connection/thread information) is terminating. In order to do this, the signal handler needs to know whether it was called from "Connection thread 28" or "Connection thread 91" so it can tell the main thread "Do your cleanup for #28" or "Do your cleanup for #91." I'm trying to figure out how to get this information from within the signal handler so it can be sent. – Steely Dan Dec 27 '11 at 22:27

3 Answers 3

up vote 12 down vote accepted

I don't think so, no. A better solution for multithreaded servers is to suppress the SIGPIPE signal (by calling signal(SIGPIPE, SIG_IGN) as part of the program's startup routine) and then have the thread deal with the error value (-1/EPIPE) returned by send() instead.

Signals and multithreading don't mix well.

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I had considered that possibility; the problem is that then I won't detect the disconnection until the next time I need to send data down that connection--which potentially might be never. – Steely Dan Dec 27 '11 at 22:01
This could easily be caught by selecting on that fd for error only – Eugen Rieck Dec 27 '11 at 22:03
Mmm, you're right. I'm using epoll, and forgot about EPOLLHUP. – Steely Dan Dec 27 '11 at 22:52
I think you'll find that the "won't detect the disconnection until the next time I need to send data down that connection" issue is a separate problem, and you'll have to deal with it whether you use signals or not. TCP by default won't detect that an idle connection has been severed for a long time (if ever), depending on the settings of the host's TCP keepalive options. On some OS's (e.g. Linux) you can set the keepalive options on a per-socket basis (via setsockopt(fd, SOL_TCP, TCP_KEEPIDLE), while on others (Windows) it's a single global setting. – Jeremy Friesner Dec 27 '11 at 22:58
This is right - all network servers, not just multithreaded ones, should be ignoring SIGPIPE and dealing with EPIPE instead. @SteelyDan: SIGPIPE won't be delivered any more promptly than EPIPE - the signal is only generated at exactly the same time that an EPIPE return would otherwise happen. – caf Dec 28 '11 at 9:41

What about using a global variable (declared thread-local) to store the thread-id, initialise it on thread creation and refer to it in the thread's signal handler.

For GCC details on this please see here: or more general here:

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The thread-local storage functions aren't signal-safe, as I understand it. – Steely Dan Dec 28 '11 at 21:40
@Steely Dan: I was not referring to thread-specific data using functions to access it. Please see the reference I just added to my post, for what I was referring to instead. – alk Dec 29 '11 at 8:08

My approach would be to have the signal handler for SIGPIPE just write its thread ID to a global variable and use some other mechanism to signal this to the thread, that should handle it.

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Well, that still raises the same fundamental question of what portable, signal-safe way I have to find out what particular thread this happened in, since I have to figure out what the thread ID is. – Steely Dan Dec 27 '11 at 22:03
THis is quite easy: e.g. raise an event via whatever event mechanism your system supports (this includes sending something to a pipe) and have a thread listen to these events (which includes selecting on that pipe), read the (lock protected) global variable if necessary, and work on it – Eugen Rieck Dec 27 '11 at 22:09
I think a problem with the global-variable approach is what happens if two signals are raised in quick succession -- the second signal could overwrite the value written by the first signal before the first handler executed. You'd need a lock-protected FIFO queue at least... but then you run into the second problem, which is that you're not allowed to lock a mutex from inside a signal handler. – Jeremy Friesner Dec 27 '11 at 22:18
I'm afraid I'm not sure I understand what you're suggesting. Are you saying the signal handler sends something to the event-management thread, and then by looking at (say) what particular pipe it was received on the event-management thread knows what thread the event notification came from? I had considered an essentially similar architecture for that, but shied away from it because it would require three file descriptors per connection (one for the socket plus two for either end of the pipe), which would run up against the limit rather more quickly than I'd like. (directed at Eugen Rieck) – Steely Dan Dec 27 '11 at 22:19
@SteelyDan depending of what your definition of "portable" is, there might or not be much simpler ways. The most portable one being the pipe, but you do realize, that you don't need to be connected to that all the time - just connect after receiving the signal! – Eugen Rieck Dec 28 '11 at 17:29

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