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I am writing a program that grades student programs, and as I am sure you can imagine, they sometimes segmentation fault. The problem I am having is that when the student programs segmentation fault, there is no indication that is what happened.

    proc = subprocess.Popen(student_command, 
                            stdout=subprocess.PIPE, 
                            stderr=subprocess.PIPE)
    self.stdout, self.stderr = proc.communicate()
    self.returncode = proc.returncode

I pick up the stderr, stdout, and the return code from the subprocess, but if the program segmentation faults, stderr is empty, stdout is empty, and the return code is -11. Now I could look for the -11 exit code and assume that if that is the return code there was a segmentation fault, but there is also nothing to prevent a student's code from having -11 as a return code just because the student felt like returning -11.

How do you tell if a subprocess segmentation faults, as opposed to just feeling like returning -11? I don't really care all that much about what is in stderr and stdout, and to that end have seen a number of posts including this that deal with picking up the output, but I don't care all that much about the output, although it would be nice to get the "Segmentation Fault" string out of stderr, but what I really need is a way to definitively tell what happened to the subprocess.

  • Do note that student code can also die in other marvelous ways, like SIGABRT (managing to trigger an assert by e.g. trashing the heap), SIGBUS (misaligned access on some platforms), SIGXCPU (by running out of CPU time, assuming you have the appropriate limiters in place), SIGFPU (divide by zero), and all sorts of other gruesome ways. Be prepared for abuse. – nneonneo Sep 11 '13 at 3:00
  • Also, instead of hard-coding "-11", you should use the symbolic constants in the signal module. – nneonneo Sep 11 '13 at 3:01
8

Well, in fact, on UNIX, a process that attempts to return -11 will usually end up returning a positive integer instead. This is because the return status from the wait series of functions is actually a set of bitfields, with a field for the signal that ended the process and a separate field for the return value. Python decodes the wait return value from these bitfields.

On most systems, these fields are unsigned and 8 bits in size, so you will probably see something like this:

>>> import subprocess
>>> subprocess.Popen(['python','-c','import os; os.kill(os.getpid(),11)']).wait()
-11
>>> subprocess.Popen(['python','-c','exit(-11)']).wait()
245

In the former case, the process "segfaults" (by killing itself with SIGSEGV), and so wait returns -11. In the latter case, the process exits with a return code of -11, and the resulting wait value is 245 (256-11). You can therefore rest assured that any negative return value from wait must represent a fatal signal, as opposed to a normal return. Note, though, that processes may kill themselves to fake a fatal error.

| improve this answer | |
  • So it is possible to differentiate between a program that just returned -11 and a process that died from a segfault by checking the sign of the return value? – zelinka Sep 13 '13 at 16:26
  • Why is it not returning -11 in the latter? – StackOverflowOfficial Nov 8 '19 at 21:58
  • On most UNIXy systems, including Linux, return codes are unsigned and 8 bits in size, so -11 gets transformed to 245 (the unsigned 8-bit twos-complement representation of -11). – nneonneo Nov 8 '19 at 22:20

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