What is the root cause of the segmentation fault (SIGSEGV), and how to handle it?


7 Answers 7


Wikipedia has the answer, along with a number of other sources.

A segfault basically means you did something bad with pointers. This is probably a segfault:

char *c = NULL;
*c; // dereferencing a NULL pointer

Or this:

char *c = "Hello";
c[10] = 'z'; // out of bounds, or in this case, writing into read-only memory

Or maybe this:

char *c = new char[10];
delete [] c;
c[2] = 'z'; // accessing freed memory

Same basic principle in each case - you're doing something with memory that isn't yours.


There are various causes of segmentation faults, but fundamentally, you are accessing memory incorrectly. This could be caused by dereferencing a null pointer, or by trying to modify readonly memory, or by using a pointer to somewhere that is not mapped into the memory space of your process (that probably means you are trying to use a number as a pointer, or you incremented a pointer too far). On some machines, it is possible for a misaligned access via a pointer to cause the problem too - if you have an odd address and try to read an even number of bytes from it, for example (that can generate SIGBUS, instead).

  • The different error signals here are poorly defined - here on OS X, char *c = NULL; *c; actually generates a SIGBUS rather than a SIGSEGV.
    – Chris Lutz
    Oct 14, 2009 at 5:29
  • 1
    Yes - both SIGBUS and SIGSEGV are somewhat system and/or processor specific. Both mean you are abusing memory. Neither is healthy. Oct 14, 2009 at 6:17

SigSegV means a signal for memory access violation, trying to read or write from/to a memory area that your process does not have access to. These are not C or C++ exceptions and you can’t catch signals. It’s possible indeed to write a signal handler that ignores the problem and allows continued execution of your unstable program in undefined state, but it should be obvious that this is a very bad idea.

Most of the time this is because of a bug in the program. The memory address given can help debug what’s the problem (if it’s close to zero then it’s likely a null pointer dereference, if the address is something like 0xadcedfe then it’s intentional safeguard or a debug check, etc.)

One way of “catching” the signal is to run your stuff in a separate child process that can then abruptly terminate without taking your main process down with it. Finding the root cause and fixing it is obviously preferred over workarounds like this.

  • Yes, it is possible to translate signals into C++ exceptions. It's just not the default compiler and runtime behavior. Feb 27 at 11:17

using an invalid/null pointer? Overrunning the bounds of an array? Kindof hard to be specific without any sample code.

Essentially, you are attempting to access memory that doesn't belong to your program, so the OS kills it.


Here is an example of SIGSEGV.

root@pierr-desktop:/opt/playGround# cat test.c
int main()
     int * p ;
     * p = 0x1234;
     return 0 ;
root@pierr-desktop:/opt/playGround# g++ -o test test.c  
root@pierr-desktop:/opt/playGround# ./test 
Segmentation fault

And here is the detail.

How to handle it?

  1. Avoid it as much as possible in the first place.

    Program defensively: use assert(), check for NULL pointer , check for buffer overflow.

    Use static analysis tools to examine your code.

    compile your code with -Werror -Wall.

    Has somebody review your code.

  2. When that actually happened.

    Examine you code carefully.

    Check what you have changed since the last time you code run successfully without crash.

    Hopefully, gdb will give you a call stack so that you know where the crash happened.

EDIT : sorry for a rush. It should be *p = 0x1234; instead of p = 0x1234;

  • Why would assigning an invalid value to a pointer and not dereferencing that pointer SIGSEGV?
    – sharptooth
    Oct 14, 2009 at 5:25
  • 2
    This program will not compile with any C++ compiler. If you add the necessary cast, it will then not crash, as it doesn't actually have any invalid memory access. Oct 14, 2009 at 5:27
  • Strictly speaking, forcing an arbitrary value into a pointer object can cause a C/C++ program to crash right away, without a dereference attempt (read up on "trap representations"), but that's not something most of us are likey to encounter in practice. And, of course, this is not a good example to illustrate SIGSEGV :) Oct 14, 2009 at 5:30
  • Whenever I get segfaults, I just debug with the classic printf() method of slowly honing in on where the problem is. (Actually, puts() is possibly the best function for this purpose, since it automatically appends a newline, and thus autoflushes the output. But occasionally I need to print out variable values too.)
    – Chris Lutz
    Oct 14, 2009 at 17:42
  • @ChrisLutz A debugger will tell you right away where the crash occurs! Feb 27 at 11:19

The initial source cause can also be an out of memory.

  • I'm trying to find more info on this without much success. My guess is that if the process has already allocated some large block of memory and overcommit is on, once you start writing, the kernel will look for physical memory and if this fails, you get segmentation fault. Is this the case? Jun 28, 2021 at 9:58
  • I think simply trying to allocate memory you physically don't have, or over the limit of the sandbox, will else cause a crash somewhere in the program or provoke a SIGSEGV.
    – Makusensu
    Jun 29, 2021 at 16:36

Segmentation fault arrives when you access memory which is not declared by the program. You can do this through pointers i.e through memory addresses. Or this may also be due to stackoverflow for example:

void rec_func() {int q = 5; rec_func();}

int main() {rec_func();}

This call will keep on consuming stack memory until it's completely filled and thus finally stackoverflow happens. Note: it might not be visible in some competitive questions as it leads to timeouterror first but for those in which timeout doesn't happens its a hard time figuring out SIGSEGV.

  • This is throwing the exception Exception of type 'System.StackOverflowException' was thrown., but not SIGSEGV.
    – Matt
    Mar 15, 2023 at 15:28
  • @Matt You have edited the answer to rewrite from C to C# so now you're running the code through a VM for CLR/.NET-based languages, which has totally specific handling of such situation since it's not native execution anymore. Feb 27 at 11:03
  • Please stop rewriting every C code into some other language for no reason. In this case, this only adds confusion. Feb 27 at 11:07
  • Sorry, it's a while ago and I don't remember the reason. Keep the original version please.
    – Matt
    Feb 27 at 15:47

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