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I know that there's something fishy about the malloc part, but I'm having trouble seeing what's unsafe about this:

//que structure
typedef struct queue{
         int *que;  // the actual array of queue elements
         int head;   // the head index in que of the queue
         int count;  /// number of elements in queue
         int size; // max number of elements in queue
    } QUEUE;

void qManage(QUEUE **qptr, int flag, int size){
              /* allocate a new queue */
              *qptr = malloc(sizeof(QUEUE));
              (*qptr)->head = (*qptr)->count = 0;
              (*qptr)->que = malloc(size * sizeof(int));
              (*qptr)->size = size;
             /* delete the current queue */
             (void) free((*qptr)->que);
             (void) free(*qptr);
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A flag named "flag" to determine if you're creating or deleting a queue?! Worry about the users of your API first; they'll do enough damage before they have a chance to worry about security. –  Dave Newton Feb 6 '12 at 15:20
I think that the answer may be 'what happens when you pass a negative value for size?', but I'm not completely sure. –  Richard J. Ross III Feb 6 '12 at 15:20
Other then not checking if malloc() fails. –  Fred Feb 6 '12 at 15:21
What happens if someone passes in a QUEUE that is larger than the allowable malloc size? –  Spencer Rathbun Feb 6 '12 at 15:25
This exact piece of code is dissected here: nob.cs.ucdavis.edu/bishop/secprog/robust.html –  NPE Feb 6 '12 at 15:31

1 Answer 1

up vote 2 down vote accepted

I'm pretty sure the problem this: What happens if you pass a negative value for 'size'?

Another possible issue is that you do not check *qptr for NULL after you allocate, however, rarely would that be a problem in actual code, if it would ever happen, you have other errors to worry about.

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It all depends on how much to allocate and where that value comes from. If it comes from a user-supplied input, an attacker could craft that input to cause a huge amount of memory to attempt to allocate, which would fail, exposing you to a variety of memory attacks as you write to that memory even if the allocation fails (so you can write to other in-use data). –  jeffsix Feb 6 '12 at 15:30
@jeffsix correct. I believe that that may be part of the issue there. –  Richard J. Ross III Feb 6 '12 at 15:31

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