What is the best way for unit testing code paths involving a failed malloc()? In most instances, it probably doesn't matter because you're doing something like

thingy *my_thingy = malloc(sizeof(thingy));
if (my_thingy == NULL) {
  fprintf(stderr, "We're so screwed!\n");

but in some instances you have choices other than dying, because you've allocated some extra stuff for caching or whatever, and you can reclaim that memory.

However, in those instances where you can try to recover from a failed malloc() that you're doing something tricky and error prone in a code path that's pretty unusual, making testing especially important. How do you actually go about doing this?

  • 2
    You could hijack malloc() and make it return 0 sometimes.
    – Carl Norum
    Commented Nov 10, 2009 at 21:08
  • 2
    Many library functions like printf are may fail when the process is out of memory.
    – ephemient
    Commented Nov 10, 2009 at 21:19
  • @ephemient What's okay, if fprintf() handles that correctly. ;-) Commented Jan 8, 2018 at 15:14

6 Answers 6


I saw a cool solution to this problem which was presented to me by S. Paavolainen. The idea is to override the standard malloc(), which you can do just in the linker, by a custom allocator which

  1. reads the current execution stack of the thread calling malloc()
  2. checks if the stack exists in a database that is stored on hard disk
    1. if the stack does not exist, adds the stack to the database and returns NULL
    2. if the stack did exist already, allocates memory normally and returns

Then you just run your unit test many times: this system automatically enumerates through different control paths to malloc() failure and is much more efficient and reliable than e.g. random testing.

  • Nice answer. Doesn't rely on chance to find issues, and lets you systematically test the consequences of allocation failure.
    – quark
    Commented Nov 12, 2009 at 21:00
  • 2
    +1 for complete coverage over random testing. SQLite does something similar to this sqlite.org/malloc.html#testing. malloc() failures are triggered using a counter instead of checking the stack for uniqueness. Commented Aug 8, 2011 at 19:08
  • The theory on this is solid and I would like to implement this. Your answer didn't really have implementation details and a search for S. Paavolainen malloc didn't bring up anything either. Would it be possible to provide a few implementation details? Commented May 22, 2014 at 2:34
  • I made a shared library that implements this behaviour. It can be used without modifying your executable through LD_PRELOAD, as long as debug symbols are available. github.com/ralight/mallocfail
    – ralight
    Commented Jun 9, 2018 at 18:35
  • This way fully deterministic testing of every stacktrace exactly one might still fail to find errors of memory allocations in error handling if every new malloc always fails. Some errors might need fail-success-fail sequence to trigger. Commented Feb 27 at 13:20

I suggest creating a specific function for your special malloc code that you expect could fail and you could handle gracefully. For example:

void* special_malloc(size_t bytes) {
  void* ptr = malloc(bytes);
  if(ptr == NULL) {
    /* Do something crafty */
  } else {
    return ptr;

Then you could unit-test this crafty business in here by passing in some bad values for bytes. You could put this in a separate library and make a mock-library that does behaves special for your testing of the functions which call this one.


This is a kinda gross, but if you really want unit testing, you could do it with #ifdefs:

thingy *my_thingy = malloc(sizeof(thingy));
my_thingy = NULL;
if (my_thingy == NULL) {
  fprintf(stderr, "We're so screwed!\n");

Unfortunately, you'd have to recompile a lot with this solution.

If you're using linux, you could also consider running your code under memory pressure by using ulimit, but be careful.


write your own library that implements malloc by randomly failing or calling the real malloc (either staticly linked or explicitly dlopened)

then LD_PRELOAD it

  • I ended up going with this method. It takes a few extra compile flags to use with my testing framework, but it's very flexible. Also, in my shared object library instead of having malloc randomly fail, I declared a global value that would make malloc fail when I specified. That variable had to be declared as extern in my test code. Commented May 23, 2014 at 5:46

In FreeBSD I once simply overloaded C library malloc.o module (symbols there were weak) and replaced malloc() implementation with one which had controlled probability to fail. So I linked statically and started to perform testing. srandom() finished the picture with controlled pseudo-random sequence.

Also look here for a set of good tools that you seems to need by my opinion. At least they overload malloc() / free() to track leaks so it seems as usable point to add anything you want.


You could hijack malloc by using some defines and global parameter to control it... It's a bit hackish but seems to work.

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

#define malloc(x) fake_malloc(x)

struct {
  size_t last_request;
  int should_fail;
  void *(*real_malloc)(size_t);
} fake_malloc_params;

void *fake_malloc(size_t size) {
  fake_malloc_params.last_request = size;
  if (fake_malloc_params.should_fail) {
    return NULL;
  return (fake_malloc_params.real_malloc)(size);;

int main(void) {
  fake_malloc_params.real_malloc = malloc;
  void *ptr = NULL;
  ptr = malloc(1);
  printf("last: %d\n", (int) fake_malloc_params.last_request);
  printf("ptr: 0x%p\n", ptr);
  return 0;

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.