You are overthinking the question of pointers. The function
fread() needs to know the address at which to store the data it reads, so it is passed a pointer. That does not mean that the buffer used by
fread should be a pointer, just that
fread needs a pointer to that buffer.
So your first error is writing
int *data; where you really just mean
int data;. You say the data element to be read is an
int, so you would just declare an
int to hold it.
You correctly called
fread to read the data by passing a pointer to actual allocated and valid memory (i.e.
&data), avoiding a different beginner pitfall of passing the uninitialized pointer to integer you declared earlier.
Your actual error is caused by writing
*data in the call to
* operator takes a pointer and dereferences it. In other words, it assumes that the pointer points to something, and retrieves that value. However, when the pointer being dereferenced does not point to any valid something, you have a problem.
And here is where you were lucky. The value you read from the file was then treated by the
* operator as an address in memory, but happened to be an address that was not part of the memory accessible to your process, which caused the system to take notice and halt the process with a segmentation fault. As a result, you learned immediately that there was an error in your code.
If you were not lucky, the integer you read from the file when treated as an address of memory could have been the address of something already present in your process. You would not have caused a segmentation fault, and you would by puzzled by why
printf produced a strange answer.
Now imagine if you read a value from an untrusted source and treated it as an arbitrary address. An attacker could use that error to learn something about your program. Worse, if you had written to the memory referenced by that pointer, the attacker could conceivably change the behavior of your program.
As a final point, note that reading and writing
int (or any other data type) is safe and acceptable as long as that file will never be transferred to a different system. Not all systems agree on even the simplest definitions like the number of bytes occupied by an int (which you did handle correctly by using
sizeof(int), but not in a way that would allow exchanging the file with a system with a different integer size), or even the order of those bytes in memory. Correctly addressing these issues is a large subject.