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A question regarding the linked lists in C. Suppose, we have the following structures, that define the nodes in a linked list and a badly written free_list function, that (in my opinion) should cause an error:

typedef struct node *nodeT;

typedef struct node
{
    int* elem;
    nodeT next;
} *nodeT;

void free_list(nodeT list)
{
    nodeT node;

    for (node = list; node; node = node->next)
    {
        free(node->elem);
        free(node);
    }
}

As you see above, we have defined node as nodeT and a function to free the list free_list. For me, the obvious error is that inside free_list function inside for we do not have a temporary pointer to store the node value.

However, when I compile the code (on Linux), in which I create a linked list with few elements, the program doesn't crash, it seems that everything works fine.

My question is: Is there a simple way to prove that this function (free_list) is badly written? By simple I mean setting up some compiler flags (-Wall doesn't show any errors) or using such tools as Valgrind (used it with memcheck, that didn't help much)?

Update: Test case as requested:

int main()
{
    nodeT myType;
    nodeT tmpPtr;

    myType = malloc(sizeof(nodeT));
    myType->item = malloc(sizeof(int));
    *(myType->item) = 0;
    myType->next = malloc(sizeof(nodeT));
    tmpPtr = myType->next;

    tmpPtr->item = malloc(sizeof(int));
    *(tmpPtr->item) = 1;
    tmpPtr->next = malloc(sizeof(nodeT));
    tmpPtr = tmpPtr->next;

    tmpPtr->item = malloc(sizeof(int));
    *(tmpPtr->item) = 2;
    tmpPtr->next = malloc(sizeof(nodeT));
    tmpPtr = tmpPtr->next;

    tmpPtr->item = malloc(sizeof(int));
    *(tmpPtr->item) = 3;
    tmpPtr->next = NULL;

    free_list(myType);

    return 0;
}

and here is the Valgrind output:

valgrind --tool=memcheck ./a.out
...
==4318== Invalid read of size 8
==4318==    at 0x400579: free_list (in /home/melon/a.out)
==4318==    by 0x40069E: main (in /home/melon/a.out)
==4318==  Address 0x51f1048 is 0 bytes after a block of size 8 free'd
==4318==    at 0x4C2A82E: free (in /usr/lib/valgrind/vgpreload_memcheck-amd64-linux.so)
==4318==    by 0x400574: free_list (in /home/melon/a.out)
==4318==    by 0x40069E: main (in /home/melon/a.out)
...
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Did you ran Valgrind against this? What did it say? –  alk Feb 2 '13 at 11:18
6  
I am surprised to hear that valgrind doesn't catch the error. Could you include the entire test case, so that we can experiment with it? –  NPE Feb 2 '13 at 11:18
    
Fill the list with several elements and invoke free_list to see what happens. It's good to do this through valgrind –  Kiril Kirov Feb 2 '13 at 11:19
1  
You have already "proved" that it's badly written, by static analysis. –  user529758 Feb 2 '13 at 11:20
    
I must have omitted the last output of Valgrind. Everything was there. Thanks for help and suggestions! –  Melon Feb 2 '13 at 11:40

3 Answers 3

up vote 4 down vote accepted

I'm not sure how you did the test with valgrind, but with default parameters it detects this issue just fine:

==4464== Invalid read of size 8
==4464==    at 0x400571: free_list (list.c:15)
==4464==    by 0x4005DF: main (list.c:30)
==4464==  Address 0x51e0048 is 8 bytes inside a block of size 16 free'd
==4464==    at 0x4C2AD3C: free (in /usr/lib/valgrind/vgpreload_memcheck-amd64-linux.so)
==4464==    by 0x40056C: free_list (list.c:18)
==4464==    by 0x4005DF: main (list.c:30)

I just added this to the program to make it testable:

int main() {
    nodeT head = malloc(sizeof(struct node));
    nodeT node1 = malloc(sizeof(struct node));
    head->next = node1;
    head->elem = NULL;
    node1->next = NULL;
    node1->elem = NULL;

    free_list(head);

    return 0;
}
share|improve this answer
    
Yup, I must have missed that last part. Mine error is a bit different. Thank you very much for help. –  Melon Feb 2 '13 at 11:38
    
(compile with -g to add the line numbers) –  viraptor Feb 2 '13 at 14:37

You can memset the node to zero before freeing the memory. Then it'll crash for sure.

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You don't need any proof other than fact that the code dereferences a pointer to memory that was freed. That's undefined behavior. Invoking undefined behavior is bad.

So there's your proof.

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