The "normal" approach is to have the environment produce a core file and get hold of those. If this isn't an option, you might want to try installing a signal handler for
SIGSEGV which obtains, at least, a stack trace dumped somewhere. Of course, this immediately leads to the question "how to get a stack trace" but this is answered elsewhere.
The easiest approach is probably to get hold of a core file. Assuming you have a similar machine where the core file can be read, you can use
gdb program corefile to debug the program
program which produced the core file
corefile: You should be able to look at the different threads, their data (to some extend), etc. If you don't have a suitable machine it may be necessary to cross-compile
gdb matching the hardware of the machine where it was run.
I'm a bit confused about the statement that the core files are empty: You can set the limits for core files using
ulimit on the shell. If the size for cores is set to zero it shouldn't produce any core file. Producing an empty one seems odd. However, if you cannot change the limits on your program you are probably down to installing a signal handler and dumping out a stack trace from the offending thread.
Thinking of it, you may be able to put the program to sleep in the signal handler and attach to it using a debugger, assuming you can run a debugger on the corresponding machine. You would determine the process ID (using, e.g.,
ps -elf | grep program) and then attach to it using
gdb program pid
I'm not sure how to put a program to sleep from within the program, though (possibly installing the handler for
That said, I assume you tried running your program on your local machine...? Some problems are more fundamental than needing a distributed system of many threads running on each node. This is, obviously, not a replacement for the approach above.