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I am developing a MPI program on a Linux machine where I do not have sudo/su access. As my program currently segfaults, I would like to examine the core dumps via gdb. Unfortunately, as the program is multi-threaded, all the threads write to one core dump. So I would like to be able to append the PID to each separate core dump for every process.

I know there is a way to do it via /proc/sys/kernel/core_pattern, however I do not have access to write to this.

Thanks for any help.

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Multithreading has nothing to do with your problem (GDB can handle core files containing multiple threads just fine). Your problem is that you have multi-process program. What I don't understand is why a single 'core' is not enough for you -- presumably your other processes crash the same way. Even if they don't, you should fix the first problem (found in the first core) before proceeding to fix the next. –  Employed Russian Sep 14 '10 at 4:51
    
MPI programs aren't, in themselves, multithreaded. In my experience, when an MPI program dumps a core I get one core for each process. Also, from my experience, you'd be better off with a parallel debugger (eg Totalview) than examining core dumps. –  High Performance Mark Sep 14 '10 at 15:18
    
@Employed Russian: One process hitting a segfault does not imply that any other process would also segfault. –  Stan Graves Sep 16 '10 at 15:49
    
@semiuseless That is true, but even if they don't, you should fix the first problem you see anyway. So one core dump is enough for you to have something to fix! –  Employed Russian Sep 17 '10 at 5:23

1 Answer 1

It can be a pain to debug MPI apps on systems that are configured this way when you do not have root access. One option for working around this is to use Valgrind to get stack traces for your segfault(s). This will only be useful provided that your application will fail in a reasonable period of time when slowed down via Valgrind, and that it still segfaults at all in this case.

I usually run MPI apps under Valgrind like this:

% mpiexec -n 5 valgrind -q /path/to/my_app

That will send all of the Valgrind output to standard error. But if I want the output separated into different files, then you can get a bit fancier:

% mpiexec -n 5 valgrind -q --log-file='vg_out.%q{PMI_RANK}' /path/to/my_app

That's the setup for MPICH2. I think that for Open MPI you'll need to replace PMI_RANK with OMPI_MCA_ns_nds_vpid, but if that doesn't work for you then you'll need to check with the Open MPI developers on their discussion list. In either case, this will yield N files, where N is the size of MPI_COMM_WORLD, each named vg_out.0, vg_out.1, ..., to vg_out.$(($N-1)), each corresponding to a rank in MPI_COMM_WORLD.

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