If you pass a value or a pointer on the stack the memory required to hold that value is allocated on the stack...
The way the stack works you can keep "allocating" more memory but it has to be "freed" in reverse order.
void f(int *ptr, int v)
// Do something
When you call f() the value of ptr and v are "pushed" on the stack, that is enough memory is magically created to hold those values. When the function returns the stack is adjusted the other way, in a sense they are "popped" from the stack.
This pushing and popping has no effect on the original pointer or value. So:
Will not effect the value of the pointer held by the calling function.
If you dereference, *ptr, the pointer you are accessing the same data that is visible from outside the function. If you free() the pointer this impacts what is seen from outside the function. So when you pass a pointer there are no copies made of the original data the pointer is pointing to but there is a copy made of the actual pointer. The pointer is passed by value.