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Given that all the primitive data types and objects have memory allocated, it is intuitively easy to imagine the pointers to these types.

But where exactly do function pointers point to? Given that instructions are converted into machine code and reside in memory, should we consider they point to the memory location corresponding to the start of the functions instructions?

We face many errors in pointers due to illegal memory access. Is it the case that errors occur when function pointers point to data memory instead of instruction memory?

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Are you seeing the illegal memory accesses on your function pointers or on other pointers? –  Steve Rowe Feb 28 '09 at 1:23
    
What does "we face many errors in pointers due to illegal memory access" mean? How do these errors happen? What are these errors? –  S.Lott Feb 28 '09 at 1:23
    
@Steve No @S.Lott I was referring to the errors we get when we initialize int * to some garbage which is protected memory address. –  user59988 Feb 28 '09 at 1:29
    
Whatever upvotes say, @KeithThompson's answer is by far the most complete/accurate. –  vonbrand Mar 7 '14 at 16:32

5 Answers 5

up vote 29 down vote accepted

Function pointer also point into memory, the only difference is that there is executable code at that memory location instead of data.

On many platforms if you try to execute data (e.g. regular memory) you'll crash or cause an exception. This is known as Data Execution Prevention - a security measure to prevent applications inadvertently running dodgy code that may be placed there by malware.

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It's a code pointer. It points to the function's address. It is essentially as you described. And yes, if you have pointers that don't point to what you expect, you will have problems.

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Function pointers point to the address of the function in memory.

Based on the way function pointers are usually assigned, I would be surprised if you had them pointing to a data location. They are not typically cast and so unlikely to point anywhere other than to a valid function. If you are casting them a lot, then this could be a problem. More likely though is that the data you are passing to the function is wrong.

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A function pointer contains the address of a function -- whatever that means for a given system. You can use it to call the function indirectly, you can assign and compare function pointer values. You can also convert a function pointer to another pointer-to-function type, and so forth.

The most straightforward way for a compiler to implement a function pointer is as the memory address of the function, and most compilers do it that way, but the language standard doesn't specify that. Some systems (I think IBM's AS/400 is an example) store additional information in function pointers. A compiler could implement function pointers as integer indices into a table of descriptors, as long as the required semantics are implemented properly.

It's not possible to dereference a function pointer. A function call requires a pointer, not a function name, as its prefix expression; if you use a function name, that name is implicitly converted to a pointer (as far as the language is concerned; the generated machine code might be different). So there's no portable way for a program to detect whether function pointers actually contain memory addresses or not.

Non-portably, given a function func, you can do something like:

printf("Address of func is %p\n", (void*)func);

and you'll probably see something that looks like a human-readable representation of a memory address. But strictly speaking, the behavior of the conversion of the function pointer to void* is not defined by the language, and it might not work on some systems.

You might even be able to convert a function pointer to unsigned char* and examine the function's machine code, but goes far beyond anything defined by the C standard.

It's best to treat function pointers as opaque values that refer to particular functions in some unspecified manner.

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Well I'm not sure but considering that functions are instructions(ADD, SUB, JMP) and that each of them have hexadecimal values, I believe that you would not be altering the function but only the JMP instruction()...

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If you are altering the JMP instruction, you have self-modifying code, which is usually considered black magic. Functions pointers are just like other pointers - an address stored in RAM; the JMP the gets it's target from the variable instead of data compiled into the program. –  Justin Love Feb 28 '09 at 1:36
    
I think that there some CPUs that do all pointers in this way, by having the "pointer" be a value in the code, very simple PICs and DSPs for example. –  Zan Lynx Feb 28 '09 at 2:31
    
I don't get it, where is the flaw in my line of thought? –  Diones Feb 28 '09 at 12:36
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Diones, the flaw is that function pointers are not normally implemented by rewriting a JMP instruction. That is only done on very very small CPUs. Normally the CPU uses some form of indirect branch instruction. –  Zan Lynx Mar 1 '09 at 1:04
    
a compiler will not necessarily create self modifying code to implement function pointers, although there are some cases where it might. On Windows/IA-32 for instance you can allocate memory with VirtualAlloc and the PAGE_EXECUTE_READWRITE flag and and write byte code to that address and call it... –  jheriko Mar 5 '09 at 21:22

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