As the title suggests I am new to C and have a mid-term coming up shortly. I am revising from past papers currently and a recurring theme is the double free problem. I understand that it is the process of calling free() on the same memory location twice, but I have a couple of questions that I'm not 100% sure how to answer:

Question 1: What is the result of a double free in C, and why is it such a problem?

This will cause a double free:

char* ptr = malloc(sizeof(char));

*ptr = 'a';

My response to this would be that it would return a 0x0 memory address and cause a system instability/crash. Also if I remember correctly, a double free can actually call malloc twice which results in a buffer overflow thus leaving the system vulnerable.

What would be the best way to briefly sum up this question?

Question 2: Describe a situation in which it is particularly easy to introduce a double free in C?

I was thinking when passing pointers around you may accidentally free it in one function, and also free it again without realising?

Again, what is the "best" way to sum this up?


4 Answers 4


A double free in C, technically speaking, leads to undefined behavior. This means that the program can behave completely arbitrarily and all bets are off about what happens. That's certainly a bad thing to have happen! In practice, double-freeing a block of memory will corrupt the state of the memory manager, which might cause existing blocks of memory to get corrupted or for future allocations to fail in bizarre ways (for example, the same memory getting handed out on two different successive calls of malloc).

Double frees can happen in all sorts of cases. A fairly common one is when multiple different objects all have pointers to one another and start getting cleaned up by calls to free. When this happens, if you aren't careful, you might free the same pointer multiple times when cleaning up the objects. There are lots of other cases as well, though.

Hope this helps!

  • I am finding a bunch of undefined behaviours in C so I expected something along those lines. I was going to suggest the possibility of a single/doubly linked list being very susceptible to the double free for that reason, thanks for your response. Jan 11, 2014 at 1:57
  • 1
    What does free() do under the hood. To me it seems like the memory manager should say that pointer does not exist if you try to free it again and the CPU causes an interrupt. And the same thing with use after free vulnerabilities but that is not what happens.
    – Deoxal
    Sep 19, 2022 at 17:53
  • 1
    @Deoxal Most memory managers work by periodically getting a huge block of memory from the OS and subdividing it in some way that allows small pieces of the large block to be given out when malloc is called. As a result, memory managers generally don’t return memory back to the OS when free is called, because other allocated memory might exist in the same page that the deallocated block comes from. Sep 21, 2022 at 16:38
  • I see, that makes sense but does the memory manager returna pointer's data if I ask for it immediately after freeing it?
    – Deoxal
    Sep 22, 2022 at 2:57
  • @Deoxal It depends on the memory manager implementation. Some MMs will overwrite freed blocks with other data needed for internal bookkeeping. Others will clear things out for safety. Others do neither. Sep 22, 2022 at 4:51

Because free() will consolidate adjacent regions by managing the information stored in the tags before each region. It is something like managing the double linked list. So it would be dangerous if the buffer where ptr is pointing has been overwritten by an attack string, in which fake tags can be injected.


This question has been well answered, but I add a late answer due to a "duplicate question" link, which asked "how to avoid it?"

One line is added to the example code posted.

char* ptr = malloc(sizeof(char));

*ptr = 'a';
ptr = NULL;         // add this

Function free does nothing with a NULL pointer.

  • 12
    This is useful only in the trivial case where there is only one pointer to a piece of memory. In the more common situation where there are multiple pointers to the same memory it is much more complicated.
    – Sled
    Jan 24, 2019 at 18:28

As per published C11 standard, calling free on already free memory location leads to undefined behaviour. It can lead to bizarre situations such as memory not getting allocated even when it's available, heap getting corrupt, same memory location getting allocated to different mallocs etc. Basically, it is undefined and can be anything.

ANSI C11 std can be found here. https://www.iso.org/obp/ui/#iso:std:iso-iec:9899:ed-3:v1:en

EDIT: changed NULL to already freed, based on comments. also, link now points to ISO/IEC 9899:2011(en)

  • 3
    Where did you find this information? ("Calling free on NULL pointer leads to undefined behavior.") This is incorrect.
    – Filip J.
    Feb 24, 2016 at 8:09
  • 3
    "Double free" and "free on NULL" are two separate issues. The former is undefined behavior but the latter is a harmless no-op.
    – jbm
    Apr 27, 2016 at 12:09
  • 1
    Are you sure this is correct? The draft ISO standard I have explicitly says that calling free on a null pointer has no effect. May 4, 2016 at 1:14
  • i am sorry. my bad. meant doubly free'd. introduced few edits to the original answer. also @templatetypedef username checks out. Feb 24, 2017 at 7:40

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.