I have a process in Linux that's getting a segmentation fault. How can I tell it to generate a core dump when it fails?

10 Answers 10

up vote 218 down vote accepted

This depends on what shell you are using. If you are using bash, then the ulimit command controls several settings relating to program execution, such as whether you should dump core. If you type

ulimit -c unlimited

then that will tell bash that its programs can dump cores of any size. You can specify a size such as 52M instead of unlimited if you want, but in practice this shouldn't be necessary since the size of core files will probably never be an issue for you.

In tcsh, you'd type

limit coredumpsize unlimited
  • 17
    @lzprgmr: To clarify: the reason why core dumps are not generated by default is that the limit is not set and/or set to 0, which prevents the core from being dumped. By setting a limit of unlimited, we guarantee that core dumps can always be generated. – Eli Courtwright Aug 9 '11 at 12:30
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    This link goes deeper and gives some more options to enable generation of core dumps in linux. The only drawback is that some commands/settings are left unexplained. – Salsa Aug 31 '11 at 19:45
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    On bash 4.1.2(1)-release limits such as 52M cannot be specified, resulting in a invalid number error message. The man page tells that "Values are in 1024-byte increments". – a1an Sep 11 '12 at 12:02
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    Well I had a "small" OpenGL project, that once did some weird thing, and caused X-server crash. When I logged back, I saw a cute little 17 GB core file (on a 25 GB partition). It's definitely a good idea to keep the core file's size limited :) – IceCool Sep 8 '13 at 15:48
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    @PolarisUser: If you wanted to make sure your partition doesn't get eaten, I recommend setting a limit of something like 1 gig. That should be big enough to handle any reasonable core dump, while not threatening to use up all of your remaining hard drive space. – Eli Courtwright Aug 22 '14 at 16:51

As explained above the real question being asked here is how to enable core dumps on a system where they are not enabled. That question is answered here.

If you've come here hoping to learn how to generate a core dump for a hung process, the answer is

gcore <pid>

if gcore is not available on your system then

kill -ABRT <pid>

Don't use kill -SEGV as that will often invoke a signal handler making it harder to diagnose the stuck process

What I did at the end was attach gdb to the process before it crashed, and then when it got the segfault I executed the generate-core-file command. That forced generation of a core dump.

  • How did you attach gdb to the process ? – Chani May 31 '13 at 4:03
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    To answer to Ritwik G, to attach a process to gdb, simply launch gdb and enter 'attach <pid>' where <pid> is the pid number of the process you want to attach. – Jean-Dominique Frattini Jun 13 '13 at 20:47
  • (abbreviated as ge) – user202729 Jun 24 at 4:24
  • If they have a new question, they should ask a new question instead of asking in a comment. – user202729 Jun 24 at 4:25

Maybe you could do it this way, this program is a demonstration of how to trap a segmentation fault and shells out to a debugger (this is the original code used under AIX) and prints the stack trace up to the point of a segmentation fault. You will need to change the sprintf variable to use gdb in the case of Linux.

#include <stdio.h>
#include <signal.h>
#include <stdlib.h>
#include <stdarg.h>

static void signal_handler(int);
static void dumpstack(void);
static void cleanup(void);
void init_signals(void);
void panic(const char *, ...);

struct sigaction sigact;
char *progname;

int main(int argc, char **argv) {
    char *s;
    progname = *(argv);
    printf("About to seg fault by assigning zero to *s\n");
    *s = 0;
    return 0;

void init_signals(void) {
    sigact.sa_handler = signal_handler;
    sigact.sa_flags = 0;
    sigaction(SIGINT, &sigact, (struct sigaction *)NULL);

    sigaddset(&sigact.sa_mask, SIGSEGV);
    sigaction(SIGSEGV, &sigact, (struct sigaction *)NULL);

    sigaddset(&sigact.sa_mask, SIGBUS);
    sigaction(SIGBUS, &sigact, (struct sigaction *)NULL);

    sigaddset(&sigact.sa_mask, SIGQUIT);
    sigaction(SIGQUIT, &sigact, (struct sigaction *)NULL);

    sigaddset(&sigact.sa_mask, SIGHUP);
    sigaction(SIGHUP, &sigact, (struct sigaction *)NULL);

    sigaddset(&sigact.sa_mask, SIGKILL);
    sigaction(SIGKILL, &sigact, (struct sigaction *)NULL);

static void signal_handler(int sig) {
    if (sig == SIGHUP) panic("FATAL: Program hanged up\n");
    if (sig == SIGSEGV || sig == SIGBUS){
        panic("FATAL: %s Fault. Logged StackTrace\n", (sig == SIGSEGV) ? "Segmentation" : ((sig == SIGBUS) ? "Bus" : "Unknown"));
    if (sig == SIGQUIT) panic("QUIT signal ended program\n");
    if (sig == SIGKILL) panic("KILL signal ended program\n");
    if (sig == SIGINT) ;

void panic(const char *fmt, ...) {
    char buf[50];
    va_list argptr;
    va_start(argptr, fmt);
    vsprintf(buf, fmt, argptr);
    fprintf(stderr, buf);

static void dumpstack(void) {
    /* Got this routine from http://www.whitefang.com/unix/faq_toc.html
    ** Section 6.5. Modified to redirect to file to prevent clutter
    /* This needs to be changed... */
    char dbx[160];

    sprintf(dbx, "echo 'where\ndetach' | dbx -a %d > %s.dump", getpid(), progname);
    /* Change the dbx to gdb */


void cleanup(void) {
    /* Do any cleaning up chores here */

You may have to additionally add a parameter to get gdb to dump the core as shown here in this blog here.

To check where the core dumps are generated, run:

sysctl kernel.core_pattern

where %e is the process name and %t the system time. You can change it in /etc/sysctl.conf and reloading by sysctl -p.

If the core files are not generated (test it by: sleep 10 & and killall -SIGSEGV sleep), check the limits by: ulimit -a.

If your core file size is limited, run:

ulimit -c unlimited

to make it unlimited.

Then test again, if the core dumping is successful, you will see “(core dumped)” after the segmentation fault indication as below:

Segmentation fault: 11 (core dumped)


In Ubuntu usually the dumps are handled by apport in /var/crash/, but in different format, however it's not enabled by default in stable releases. Read more at Ubuntu wiki.

It uses core_pattern to directly pipe the core dump into apport:

$ cat /proc/sys/kernel/core_pattern
|/usr/share/apport/apport %p %s %c

So even core files are disabled by ulimit, apport will still capture the crash (How do I enable or disable Apport?).


For macOS, see: How to generate core dumps in Mac OS X?

  • 2
    For Ubuntu, to quickly revert to normal behavior (dumping a core file in the current directory), simply stop the apport service with "sudo service apport stop". Also note that if you are running within docker, that setting is controlled on the host system and not within the container. – Digicrat Dec 19 '17 at 0:37

There are more things that may influence the generation of a core dump. I encountered these:

  • the directory for the dump must be writable. By default this is the current directory of the process, but that may be changed by setting /proc/sys/kernel/core_pattern.
  • in some conditions, the kernel value in /proc/sys/fs/suid_dumpable may prevent the core to be generated.

There are more situations which may prevent the generation that are described in the man page - try man core.

In order to activate the core dump do the following:

  1. In /etc/profile comment the line:

    # ulimit -S -c 0 > /dev/null 2>&1
  2. In /etc/security/limits.conf comment out the line:

    *               soft    core            0
  3. execute the cmd limit coredumpsize unlimited and check it with cmd limit:

    # limit coredumpsize unlimited
    # limit
    cputime      unlimited
    filesize     unlimited
    datasize     unlimited
    stacksize    10240 kbytes
    coredumpsize unlimited
    memoryuse    unlimited
    vmemoryuse   unlimited
    descriptors  1024
    memorylocked 32 kbytes
    maxproc      528383
  4. to check if the corefile gets written you can kill the relating process with cmd kill -s SEGV <PID> (should not be needed, just in case no core file gets written this can be used as a check):

    # kill -s SEGV <PID>

Once the corefile has been written make sure to deactivate the coredump settings again in the relating files (1./2./3.) !

  • I have a question here, after killing the process using "kill -s SEGV <piD>, if I start the process instead of restarting, and then if I issue same command to kill the process, i am not getting core dump file. How to handle them? – Sasikiran Vaddi Oct 18 '14 at 7:09

For Ubuntu 14.04

  1. Check core dump enabled:

    ulimit -a
  2. One of the lines should be :

    core file size          (blocks, -c) unlimited
  3. If not :

    gedit ~/.bashrc and add ulimit -c unlimited to end of file and save, re-run terminal.

  4. Build your application with debug information :

    In Makefile -O0 -g

  5. Run application that create core dump (core dump file with name ‘core’ should be created near application_name file):

  6. Run under gdb:

    gdb application_name core
  • In Step 3, How to 're-run' the terminal? Do you mean reboot? – Naveen Jun 30 '17 at 14:34
  • @Naveen no, just close terminal and open new one, also seems you can just put ulimit -c unlimited in terminal for temporary solution, because only editing ~/.bashrc require terminal restrart to changes make effect. – mrgloom Jun 30 '17 at 15:59

By default you will get a core file. Check to see that the current directory of the process is writable, or no core file will be created.

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    By "current directory of the process" do you mean the $cwd at the time the process was run? ~/abc> /usr/bin/cat def if cat crashes, is the current directory in question ~/abc or /usr/bin? – Nathan Fellman Apr 30 '09 at 7:52
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    ~/abc. Hmm, comments have to be 15 characters long! – Mark Harrison May 1 '09 at 14:56
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    This would be the current directory at the time of the SEGV. Also, processes running with a different effective user and/or group than the real user/group will not write core files. – Darron Jan 26 '10 at 14:02

Better to turn on core dump programmatically using system call setrlimit.


#include <sys/resource.h>

bool enable_core_dump(){    
    struct rlimit corelim;

    corelim.rlim_cur = RLIM_INFINITY;
    corelim.rlim_max = RLIM_INFINITY;

    return (0 == setrlimit(RLIMIT_CORE, &corelim));
  • why is that better? – Nathan Fellman Aug 26 at 8:22
  • core file generated after crash, no need to ulimit -c unlimited in the command line environment, and then rerun the application. – kgbook Aug 27 at 6:47
  • I don't want a core dump every time it crashes, only when a user contacts me as the developer to look at it. If it crashes 100 times, I don't need 100 core dumps to look at. – Nathan Fellman Aug 27 at 18:23
  • In tha case, better to use ulimit -c unlimited. Also you can compile with marco definition, application will not include enable_core_dump symbol if not define that macro when release, and you will get a core dump replace with debug version. – kgbook Aug 28 at 7:38
  • even if it's qualified by a macro, that still requires me to recompile if I want to generate a core dump, rather than simply executing a command in the shell before rerunning. – Nathan Fellman Aug 28 at 8:57

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