4

I ran cppcheck over some code to look for possible runtime errors. And it is reporting a possible null pointer dereference with the following situation:

Foo* x = ... //defined somewhere

...

Foo* y(x); //possible null pointer dereference.

Edit: Better example

for( int i = 0; i < N; i++ )
{
    Foo* x( ArrayOfObjsContainingFooPtr[i].FooPtr ); // line 3
    if( !x )                                         // line 4
        continue;
}

Error message from cppcheck:

[C:\file.cpp:3]: (error) Possible null pointer dereference: x - otherwise it is redundant to check if x is null at line 4

But I don't see how this is possible.

3
  • 3
    Can you post a more complete example? I suspect there is a code path that leads to this situation. Note that static code analysis tools are not perfect and this might be a false positive. Dec 17, 2010 at 20:08
  • Neither of those examples dereference x. Dec 17, 2010 at 22:17
  • your examples are still not complete. Can you post minimal compilable code? The code above CAN cause null pointer dereferencing. Dec 17, 2010 at 22:54

3 Answers 3

3

I am really surprised that you got that warning. For me, it works exactly the opposite. Using cppcheck 1.46.1 compiled from sources in Linux. This is fine:

struct Foo {
  int x;
};

struct Obj {
  Foo *FooPtr;
};

#define N 10

static Obj ArrayOfObjsContainingFooPtr[N];

int main() {
  for( int i = 0; i < N; i++ ) {
    Foo* x( ArrayOfObjsContainingFooPtr[i].FooPtr ); // line 3
    if( !x )                                         // line 4
      continue;
  }
}

Now, with this loop body it is also "fine" according to cppcheck although it segfaults if I actually try to run it, obviously:

Foo* x( ArrayOfObjsContainingFooPtr[i].FooPtr ); // line 3
if (x->x == 0)
  break;
if( !x )                                         // line 4
  continue;

Even this is "fine":

int main() {
  Foo *p = 0;
  if (p->x == 0)
    return 1;

And this finally generates "possible" null pointer dereference. Possible, right:

int main() {
  Foo *p = 0;
  p->x = 0;

The funny thing is that this, while being completely equivalent to an earlier example, gives definite (not "possible") null pointer dereference:

int main() {
  Foo *p = 0;
  if ((*p).x == 0)
    return 1;

The conclusion: cppcheck is a really buggy tool.

1
  • +1: for demonstrating the numerous faults in this tool that are highly relevant to the question and apparently not very hard to find.
    – rubenvb
    Dec 18, 2010 at 12:08
1

Take the following:

Foo* x = ptr_foo; //ptr_foo is defined earlier in the code.

But what if ptr_foo was written to at another point in the program, in another file? For example, let's say that in someotherfile.c you find:

ptr_null = 0;

Then it is entirely possible that Foo* x = ptr_foo; could cause bad mojo, when y(x) is called, if y dereferences x.

From my experience, static analysis tools tend to report a large number of false positives, because they do not have any state information about the program.

If you really want to make sure you won't run into a null pointer reference, you could try something like:

Foo* x = 0;
if(ptr_foo != 0){
    x = ptr_foo;
}else{
    x = //something else
}
4
  • Alternate (IMHO cleaner) version of your code sample: Foo* x = ptr_foo ? ptr_foo : /* something else */;
    – Chris Lutz
    Dec 17, 2010 at 20:18
  • No, there is never any possibility that "Foo* x = ptr_foo; could be bad mojo". It's a pointer copy, not a dereference.
    – nobody
    Dec 17, 2010 at 20:21
  • This is what I was thinking Andrew
    – Glaeken
    Dec 17, 2010 at 20:26
  • @Andrew: if "Foo* x = ptr_foo; //where ptr_foo = 0", then calling "y(x) //assuming y dereferences x" will definitely be bad mojo. I see that I did not communicate that in my answer, so I updated my answer. Dec 17, 2010 at 21:48
0

Just a wrap up to the post from Sergey Tachenov:

 Foo* x( ArrayOfObjsContainingFooPtr[i].FooPtr ); // line 3
if (x->x == 0)
 break;
if( !x )                                         // line 4
 continue;

This one is now correctly detected by cppcheck:

 $ cppcheck --enable=all nullptrderef9.cpp 
 Checking nullptrderef9.cpp...
 [nullptrderef9.cpp:20] -> [nullptrderef9.cpp:22]: (warning) Possible null pointer dereference: x - otherwise it is redundant to check it against null.

Also the next example is detected correctly:

int main() {
  Foo *p = 0;
  if (p->x == 0)
  return 1;
}

Here is the output from cppcheck:

 $ cppcheck --enable=all nullptrderef10.cpp 
 Checking nullptrderef10.cpp...
 [nullptrderef10.cpp:19]: (error) Possible null pointer dereference: p

Even the next example demonstrates that Cppcheck works as expected:

 int main()
 {
    Foo *p = 0;
    if ((*p).x == 0)
       return 1;
 }

Here is the output:

$ cppcheck --enable=all nullptrderef11.cpp
  Checking nullptrderef11.cpp...
  [nullptrderef11.cpp:18]: (error) Possible null pointer dereference: p
  [nullptrderef11.cpp:18]: (error) Null pointer dereference

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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