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If I want to strace a multi-threaded process (of all of its threads), how should I do it?

I know that one can do strace -f to follow forked process? But how about attaching to a process which is already multi-threaded when I start stracing? Is a way to tell strace to trace all of system calls of all the threads which belong to this process?

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The same strace -f is sufficient (but I don't know how to prevent tracing child processes when you trace all threads this way). –  Anton Kovalenko Feb 4 '13 at 20:11
    
I can confirm that strace -fp <pid> connects to all existing threads. –  amenthes Jan 13 at 14:09

1 Answer 1

I just did this in a kludgy way, by listing each tid to be traced.

You can find them through ps:

$ pid auxw -T | fgrep program_to_trace
me pid tid1 ...
me pid tid2 ...
me pid tid3 ...
me pid tid4 ...

and then, according to man strace, you can attach to multiple pids at once:

   -p pid      Attach to the process with the process ID pid and begin tracing.  The trace may be terminated at any time by a  keyboard  interrupt
               signal  (CTRL-C).  strace will respond by detaching itself from the traced process(es) leaving it (them) to continue running.  Mul‐
               tiple -p options can be used to attach to up to 32 processes in addition to command (which is optional if at least one -p option is
               given).

It says pid, but iirc on Linux the pid and tid share the same namespace, and this appeared to work:

$ strace -f -p tid1 -p tid2 -p tid3 -p tid4

I think that might be the best you can do for now. But I suppose someone could extend strace with a flag for expanding tids. There would probably still be a race between finding the processes and attaching to them in which a freshly started one would be missed. It'd fit in with the existing caveat about strace -f:

   -f          Trace child processes as they are created by currently traced processes as a result of the fork(2) system call.

               On non-Linux platforms the new process is attached to as soon as its pid is known (through the return value of fork(2) in the  par‐
               ent process). This means that such children may run uncontrolled for a while (especially in the case of a vfork(2)), until the par‐
               ent is scheduled again to complete its (v)fork(2) call.  On Linux the child is traced from its first instruction with no delay.  If
               the  parent  process  decides  to  wait(2)  for  a child that is currently being traced, it is suspended until an appropriate child
               process either terminates or incurs a signal that would cause it to terminate (as determined from the child's current signal dispo‐
               sition).

               On SunOS 4.x the tracing of vforks is accomplished with some dynamic linking trickery.
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