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For example:

char * myString = malloc(sizeof(char)*STRING_BUFFER_SIZE);
free(myString);
free(myString);

Are there any adverse side effects of doing this?

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15 Answers 15

up vote 22 down vote accepted

Here's the chapter and verse.

If the argument [to the free function] does not match a pointer earlier returned by the calloc, malloc, or realloc function, or if the space has been deallocated by a call to free or realloc, the behavior is undefined. (ISO 9899:1999 - Programming languages — C, Section 7.20.3.2)

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1  
FYI: When C or C++ say "undefined" they usually mean "crash" or "memory corruption" or something equally terrible. Beware. –  Orion Edwards Mar 2 '09 at 2:43
9  
No, they really do mean "undefined." That just happens to include crashes and memory corruption. –  Chris Conway Mar 2 '09 at 17:23
    
@OrionEdwards The compiler could, for example, decide to launch NetHack. –  kyrias Apr 19 at 12:03

One of nothing, silent memory corruption, or segmentation fault.

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hrm, where did you pull this from? i get double free errors... –  Matt Joiner Oct 23 '09 at 7:38

Yes, you can get a double free error that causes your program to crash. It has to do with malloc's internal data structures to keep track of allocated memory.

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Answer summary:

Yes, bad things can and probably will happen.

To prevent this do:

free(myString);
myString = NULL;

Note that all references to the memory must be set to NULL if others were created.

Also, calling free() with a NULL results in no action. For more info see: man free

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Note that if you have made any copies of the pointer those should be set to NULL as well. –  Michael Carman Sep 25 '08 at 22:55
    
Added an edit to address your comment. –  lillq Sep 26 '08 at 1:17
    
Seems like the community is leaning more towards putting answer summaries in the actual question, not as a question that is still buried... –  PhirePhly Sep 26 '08 at 5:36
    
Bad idea, since it's not applicable to const values. You do use const values where possible, don't you? –  Steve Jessop Nov 30 '08 at 14:47

Not so clever. Google for double free vulnerabilities. Set your pointer to NULL after freeing to avoid such bugs.

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Unfortunately you can't write a wrapper to free that does this for you, the pointer is passed by value not reference. i.e. Free(void **p) {free(*p); *p = NULL;} This is not as easy to retool code with. –  jbleners Sep 25 '08 at 19:40
    
ajbl, use a macro. #define freep(x) (free(x); x = 0;) –  Derek Park Sep 25 '08 at 19:46
    
Bad idea, since it's not applicable to const values. You do use const values where possible, don't you? –  Steve Jessop Nov 30 '08 at 14:47
    
@Steve: I know this is old, but didn't we elsewhere discuss that passing a const-qualified pointer to free is not valid (both conceptually and formally, unless you cast away the qualifier)? :-) –  R.. Sep 6 '11 at 4:05
    
@R..: I'm talking about char *const ptr = malloc(STRING_BUFFER_SIZE); ... ; free(ptr);. I don't think that is either formally or conceptually invalid. After that, ptr = 0; isn't on the cards. So if you define a macro freep as Derek says, then you can't use it on ptr. –  Steve Jessop Sep 6 '11 at 7:22

Depending on which system you run it on, nothing will happen, the program will crash, memory will be corrupted, or any other number of interesting effects.

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Don't do that. If the memory that got freed is re-allocated to something else between the calls to free, then things will get messed up.

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2  
Things will usually be messed up even if the memory is not reallocated between the two calls to free. –  Jonathan Leffler Oct 24 '08 at 6:09

Bad Things (TM)

Really, I think it's undefined so anything at all including playing "Global Thermonuclear War" with NORAD's mainframe

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Always set a pointer to NULL after freeing it. It is safe to attempt to free a null pointer.

It's worth writing your own free wrapper to do this automatically.

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Your free() wrapper must either be a macro or must use a different interface from the standard free() function. –  Jonathan Leffler Oct 24 '08 at 6:11

It may crash your program, corrupt memory, or have other more subtle negative effects. After you delete memory, it is a good idea to set it to NULL (0). Trying to free a null pointer does nothing, and is guaranteed to be safe. The same holds true for delete in c++.

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In short: "Undefined Behavior".

(Now, what that can include and why that is the case the others have already said. I just though it was worth mentioning the term here as it is quite common).

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Google for 'nasal demons' to find out more. –  Jonathan Leffler Oct 24 '08 at 6:13

The admittedly strange macro below is a useful drop-in replacement for wiping out a few classes of security vulnerabilities as well as aid debugging since accesses to free()'d regions are more likely to segfault instead of silently corrupting memory.

#define my_free(x) do { free(x); x = NULL; } while (0)

The do-while loop is to help surrounding code more easily digest the multiple-statements. e.g. if (done) my_free(x);

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Wouldn't "#define my_free(x) { free(x); x = NULL; }" work just as well? –  Graeme Perrow Sep 28 '08 at 3:54
    
No, after expansion there's an illegal semicolon in if (done) {free(x); x=NULL}; else do_more(); Good luck finding the "else without matching if" error in your original source. –  MSalters Oct 3 '08 at 15:46
    
C has the comma operator for a reason. #define my_free(x) (free((x)),(x)=0) –  R.. Feb 26 '11 at 4:26

It depends on the c library. ;-)

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Another interesting situation:

char * myString = malloc(sizeof(char)*STRING_BUFFER_SIZE);
char * yourString = myString;

if (myString)
{
    free(myString);
    myString = NULL;
}
// Now this one is safe, because we keep to the rule for 
// setting pointers to NULL after deletion ...
if (myString)
{
    free(myString);
    myString = NULL;
}

// But what about this one:
if (yourString)
{
    free(yourString);
    yourString = NULL;
}

//?!? :)
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It (potentially) makes demons fly out of your nose.

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