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I want to write a piece of code that changes itself continuously, even if the change is insignificant.

For example maybe something like

for i in 1 to  100, do 
begin
   x := 200
   for j in 200 downto 1, do
    begin
       do something
    end
end

Suppose I want that my code should after first iteration change the line x := 200 to some other line x := 199 and then after next iteration change it to x := 198 and so on.

Is writing such a code possible ? Would I need to use inline assembly for that ?

EDIT : Here is why I want to do it in C:

This program will be run on an experimental operating system and I can't / don't know how to use programs compiled from other languages. The real reason I need such a code is because this code is being run on a guest operating system on a virtual machine. The hypervisor is a binary translator that is translating chunks of code. The translator does some optimizations. It only translates the chunks of code once. The next time the same chunk is used in the guest, the translator will use the previously translated result. Now, if the code gets modified on the fly, then the translator notices that, and marks its previous translation as stale. Thus forcing a re-translation of the same code. This is what I want to achieve, to force the translator to do many translations. Typically these chunks are instructions between to branch instructions (such as jump instructions). I just think that self modifying code would be fantastic way to achieve this.

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just use another variable... x = value--; –  Gregory Pakosz Sep 16 '11 at 15:34
1  
@Greg The purpose is not to achieve this effect. It is to write a self modifying code. –  AnkurVj Sep 16 '11 at 15:37
2  
1  
@AnkurVj, that is a fascinating project. stacker's link above will be useful to you. –  Jonathan M Sep 16 '11 at 15:53
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6 Answers 6

It is possible, but it's most probably not portably possible and you may have to contend with read-only memory segments for the running code and other obstacles put in place by your OS.

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Sounds like they're developing an OS, so portability isn't a concern. –  Jonathan M Sep 16 '11 at 16:04
3  
mprotect(2) on Linux can be used to allow writes. mprotect(..., PROT_WRITE | PROT_EXEC) The non-portable answer that you're getting at - rewriting the functions themselves - is most certainly possible on many real-world systems, but it's not based on functionality present in C. –  Daniel Papasian May 7 '13 at 3:33
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You might want to consider writing a virtual machine in C, where you can build your own self-modifying code.

If you wish to write self-modifying executables, much depends on the operating system you are targeting. You might approach your desired solution by modifying the in-memory program image. To do so, you would obtain the in-memory address of your program's code bytes. Then, you might manipulate the operating system protection on this memory range, allowing you to modify the bytes without encountering an Access Violation or '''SIG_SEGV'''. Finally, you would use pointers (perhaps '''unsigned char *''' pointers, possibly '''unsigned long *''' as on RISC machines) to modify the opcodes of the compiled program.

A key point is that you will be modifying machine code of the target architecture. There is no canonical format for C code while it is running -- C is a specification of a textual input file to a compiler.

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This would be a good start. Essentially Lisp functionality in C:

http://nakkaya.com/2010/08/24/a-micro-manual-for-lisp-implemented-in-c/

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Depending on how much freedom you need, you may be able to accomplish what you want by using function pointers. Using your pseudocode as a jumping-off point, consider the case where we want to modify that variable x in different ways as the loop index i changes. We could do something like this:

#include <stdio.h>

void multiply_x (int * x, int multiplier)
{
    *x *= multiplier;
}

void add_to_x (int * x, int increment)
{
    *x += increment;
}

int main (void)
{
    int x = 0;
    int i;

    void (*fp)(int *, int);

    for (i = 1; i < 6; ++i) {
            fp = (i % 2) ? add_to_x : multiply_x;

            fp(&x, i);

            printf("%d\n", x);
    }

    return 0;
}

The output, when we compile and run the program, is:

1
2
5
20
25

Obviously, this will only work if you have finite number of things you want to do with x on each run through. In order to make the changes persistent (which is part of what you want from "self-modification"), you would want to make the function-pointer variable either global or static. I'm not sure I really can recommend this approach, because there are often simpler and clearer ways of accomplishing this sort of thing.

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Will this code example really do self modification ? Shouldn't modifying code require writing to the memory locations that contain the code ? I mean this code will be compiled to something where the call is made to either of the two conditions by evaluating a condition. But that is static code after all ? Isn't it ? –  AnkurVj Sep 16 '11 at 16:14
    
No, you're right, it's static code, and won't serve your particular purpose (which sounds really interesting, BTW). –  Pillsy Sep 16 '11 at 16:22
    
Of course, you don't need to set the function pointer in each loop iteration. You can initialize it to some function before, and change it whenever you want. You don't need to stick with one, either.. you could call a list of them sequentially. There's a lot that can be done with this if the idea is extended further.. don't give up on it too quickly.. –  Dmitri Sep 16 '11 at 17:12
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A self-interpreting language (not hard-compiled and linked like C) might be better for that. Perl, javascript, PHP have the evil eval() function that might be suited to your purpose. By it, you could have a string of code that you constantly modify and then execute via eval().

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Okay. But I really need to do it in a C code. Could it be possible using assembly instructions that can be written in C using inline assembly ? –  AnkurVj Sep 16 '11 at 15:36
    
Well, C is a compiled language, which means you'll have to compile after each change, link (if necessary) and then execute the new executable file. C really isn't designed for on-the-fly code changes. –  Jonathan M Sep 16 '11 at 15:39
1  
In the your original post, you might tell a bit about why it needs to be in C, if it really, really does. –  Jonathan M Sep 16 '11 at 15:40
    
@AnkurVj If you have to ask this kind of question, you are probably not capable of doing it. –  Alan Sep 16 '11 at 15:47
5  
@Alan, on the contrary, asking such questions is how we become able to do such things. –  Jonathan M Sep 16 '11 at 15:48
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The suggestion about implementing LISP in C and then using that is solid, due to portability concerns. But if you really wanted to, this could also be implemented in the other direction on many systems, by loading your program's bytecode into memory and then returning to it.

There's a couple of ways you could attempt to do that. One way is via a buffer overflow exploit. Another would be to use mprotect() to make the code section writable, and then modify compiler-created functions.

Techniques like this are fun for programming challenges and obfuscated competitions, but given how unreadable your code would be combined with the fact you're exploiting what C considers undefined behavior, they're best avoided in production environments.

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