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My program crashes with a segmentation fault when ran normally. So I run it with gdb, but it won't crash when I do that. Does anyone know why this might occur? I know that Valgrind's faq mentions this (not crashing under valgrind), but I couldn't really find anything about this related to gdb in google. If someone could tell me why, or recommend something to look for when this happens I would be very grateful.

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When you figure out what the problem is, would you post a comment with an update? I am very curious to know what the issue is. –  Daniel Trebbien Sep 21 '11 at 22:35
    
posted as an answer –  Sterling Oct 3 '11 at 16:29

8 Answers 8

If bug depends on timing the gdb could prevent it from repeating.

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I've had this happen to me before (you're not alone), but I can't remember what I did to fix things (I think it was a double free).

My suggestion would be to set up your environment to create core dumps, then use GDB to investigate the core dump after the program crashes. In bash, this is done with ulimit -c size, where size can be anything; I personally use 50000 for 25MB max size; the unit is in 512-byte increments.

You can use GDB to investigate a core dump by using gdb program core.

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+1 usefulness. In my case, it turned out to be an uninitialized member pointer. Normally, the pointer would contain garbage, so my if(bob) delete bob; code would crash, but under GDB I lucked out and got 0 for the value so the program ran normally. –  sirbrialliance May 28 '12 at 19:13

Sounds like a Heisenbug you have there :-)

If the platform you're working with is able to produce core files it should be possible to use the core file and gdb to pinpoint the location where the program crashes - short explanation can be found here.

Let it crash a couple of times though, when the crash is caused by stack smashing or variable overwriting the bug may seem to "walk around".

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When you run your code with gdb, it gets moved around. Now the illegal address you tried to reference before -- the one that caused the segfault -- is legal all of a sudden. It's a pain, for sure. But the best way I know of to track down this kind of error is to start putting in printf( )s all over the place, gradually narrowing it down.

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2  
-1. Sorry no code gets "moved around". –  jman Sep 21 '11 at 22:26
    
nonsense about "moved around"! –  the.malkolm Sep 21 '11 at 22:27
    
No code gets "moved around" but data does. If you don't believe me, try printing the result of malloc() in GDB and not in GDB. Inside GDB you consistently get 0x601010 for a 32-byte allocation, but "random" values when run normally. –  Ethereal Sep 21 '11 at 22:29
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It's the other way around: GDB by default disables address randomizaton, so under GDB the data does not move around (which is usually what you want while debugging). This disabling of randomization can in fact make a bug disappear. You can enable randomization under GDB with set disable-address-randomizaiton off –  Employed Russian Sep 22 '11 at 2:42

Try attaching to the running process within gdb, continuing, and then reproducing the crash. In other words, don't start the program within gdb; instead, start the program normally and then attach <pid>.

Sometimes when stepping through lines individually, a race condition that causes the program to crash will not manifest, as the race hazard has been eliminated or made exceedingly improbable by the "lengthy" pauses between steps.

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I'm not sure what you mean by "start the program normally and then attach <pid>." Just add 'attach <pid>' like its a command line arg? –  Sterling Sep 21 '11 at 23:08
    
@Sterling: attach <pid> is a gdb command. Suppose that your program is called my_program. From a shell (or command) prompt, run it with ./my_program. Open another shell prompt, start gdb, determine the PID of the running instance of my_program, and at gdb's prompt, type attach <pid>. gdb will attach to the process and pause it. You can then set breakpoints and/or continue. When my_program segfaults, gdb will let you see exactly where it crashed. –  Daniel Trebbien Sep 22 '11 at 15:40
up vote 2 down vote accepted

Well I tracked it down to a pthread_detach call. I was doing pthread_detach(&thethread). I just took away the reference and changed it to pthread_detach(thethread) and it worked fine. I'm not positive, but maybe it was a double free by detaching the reference then destroying it again when it went out of scope?

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You should not pass pthread_t* to pthread_detach call. Also check for return value of pthread_detach. Particularly check for ESRCH error. man pthread_detach. –  ks1322 Sep 22 '11 at 11:52
    
Well my pthreads are just global variables on the stack, not pthread*. –  Sterling Sep 28 '11 at 15:09
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You should pass your pthreads to pthread_detach as you did in this answer. By passing address of thethread variable, I guess pthread_detach fails with ESRCH error and program crashes somewhere later. You can easily check the return value to confirm this. –  ks1322 Sep 28 '11 at 15:32

Check for return value of pthread_detach call. According to your answer, you are probably passing invalid thread handle to pthread_detach.

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I check the return value and get no errors. (little late on the reply, just forgot about this thread) –  Sterling Oct 5 '11 at 15:42

I also had this happen to me some times.

My solution: clean & rebuild everything.

Not saying that this always solves all problems (and in the OP case the problem was something really wrong), but you can save yourself some trouble and time if you do this first when encountering such really weird "meta" bugs. At least in my experience, such things more often than not come from old object files that should have been rebuilt but were not. In both MinGW and regular GCC.

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