I have a scenario where a thread sometimes freezes for a c++ application on an arm based yocto/poky linux system. It stops somewhere within the clock_nanosleep system call.

I can generate core files using gcore and attach with gdb, but it only shows me the usermode part of the callstack which ends at the software interrupt.

Is there a way to find out where the thread actually is within the kernel, possible from a coredump?

Edit: This is the code of the method call. The variable t is on the stack.

do {
   ret = clock_nanosleep(CLOCK_MONOTONIC, 0,  &t, &t);
} while (ret == EINTR);


  • 2
    Do I understand you correctly that only the application freezes? If that's the case you can probably use strace to see if the system call returns or if that's not enough use something more powerful like systemtap. – Georg Schölly Jan 14 at 20:25
  • 1
    "It stops somewhere within the clock_nanosleep system call." I mean yes, that's the point of that syscall – that other guy Jan 14 at 20:37
  • You might have a deadlock or race condition. You'll need to post the relevant thread code before the sleep. – txtechhelp Jan 14 at 21:30
  • For clarification: It spends more than a full minute in clock_nanosleep. It isn't just there accidentally while I dump. The application doesn't freeze, only one or two threads do and all of them in clock_nanosleep. Yes, I checked that the input times are small ( 5 ms each ). – Desperado17 Jan 14 at 23:40
  • Another guess in the dark: do you initialize all fields in the struct or could it be that some use uninitialized data? Otherwise I fear you'll have to go into kernel debugging, a rather painful process. – Georg Schölly Jan 15 at 7:35

It is not possible to get kernel call stack from user-space. Even if it was possible, it would hardly help you in debugging your problem.

Make sure, that you accidentally don't share the structs passed to clock_nanosleep() between threads, that all the errors returned by the functions are handled and reported, that you are using correct clock source (CLOCK_MONOTONIC probably) and that you are using clock_nanosleep() as described in manual

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