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I was thinking about implementing my own exit() function for educational purpose, only. I know you can manipulate addresses if the OS lets you (for example the OS won't let you manipulate the address 0, it would cause a crash).
So I thought why not sending 0 to that address return 0 returns to.

int main(){
// code...
return 0;

The return 0 returns a 'success' to the OS, right? But which address is it? How do I get it? And is the actual exit() from the C standard library implemented this way?

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closed as unclear what you're asking by sashoalm, Paulpro, Fraser, UncleZeiv, Antti Haapala Aug 7 '13 at 1:02

Please clarify your specific problem or add additional details to highlight exactly what you need. As it's currently written, it’s hard to tell exactly what you're asking. See the How to Ask page for help clarifying this question.If this question can be reworded to fit the rules in the help center, please edit the question.

I think you save some misconceptions about these "adresses the OS lets you manipulate" – Borgleader Aug 6 '13 at 17:44
Your question doesn't really make a lot of sense. You should try clarifying. – Tony The Lion Aug 6 '13 at 17:44
return 0; returns 0 from the main function. The C++ standard doesn't specify what address to jump to when returning from functions, but it's typically stored on the call stack or in a register. Some crt1 implementations use exit(main(argc, argc, envp)), so if you configure the linker correctly you could override the exit function. – rightfold Aug 6 '13 at 17:44
The argument to return is not an address. – Fred Larson Aug 6 '13 at 17:44
There's a lot of stuff going on in between when you run your program and when main gets called, and then when main exits and when the OS gets the return status. I think this is perhaps a larger problem than you think it is. – JoshG79 Aug 6 '13 at 17:44

When you return 0, you do not return to an address. You are returning the value 0. When a process returns the value 0, it is considered to be normal termination. You can return a non-zero value (up to 255) that may be interpreted by the calling process as a message.

Let us look at this with an example command grep foobar fubar. It will return 0 (success) if there is the pattern foobar in the file fubar. It will return 1 if there is no foobar in the file fubar. It will return 2 when there is no file named fubar. The rturn value could be interpreted in the script that makes this command to evaluate the success or reason for failure.

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Well somehow the OS gets the value 0 from the program, right? Where does this value go to? – Davlog Aug 6 '13 at 17:47
@Davlog There is system/implementation specific code that gets executed before and after main is called. – Captain Obvlious Aug 6 '13 at 17:50
It is not an address, the OS initializes the program/thread on a process, when the program closes, the last thing on the program stack is the return value, the OS gets the return from that. If you had an specific address to do so you will have a lot of problems. – demonofnight Aug 6 '13 at 17:52
You do return to an address. Not the address 0, of course, but an address on the stack, that was pushed when the start-up code called main. – James Kanze Aug 6 '13 at 17:55
@Davlog there is no "address" you are returning a value. – Borgleader Aug 6 '13 at 18:00

The exit code is (eventually) stored into the Process Control Block so that the OS can report the result value to other processes.

See http://www.cs.auckland.ac.nz/compsci340s2c/lectures/lecture06.pdf

However, the return statement isn't what does this. Your runtime library is actually calling main more-or-less like a normal function, gets the return value (on Intel, a return value of type int would be stored in the EAX register), and then requests that the kernel write it to the TCB. exit() also invokes the kernel to write this member of the TCB.

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exit and returning from main do a lot more than that. (And of course, they don't write anything directly to the PCB, supposing that the OS has one; they call an OS specific primitive with the return code which takes care of all of this.) – James Kanze Aug 6 '13 at 18:03
@James: Clarified that the actual write is done by the kernel, at the request of the process. – Ben Voigt Aug 6 '13 at 18:04
Yes. The critical part is that at some point, exit will invoke a kernel level primitive to tell it to terminate the process; this kernel level primitive will update the PCB (or whatever the kernel coders decided to call it), with the return code (which is passed as an argument to this kernel primitive), but also with information which will prevent the process from being scheduled; this primitive will also reclaim all of the resources of the process, and possibly record some accounting information. – James Kanze Aug 6 '13 at 18:15
@James: I guess all the resources except the TCB, which exists as a zombie process until wait reaps it. Closing handles is a very important part of exit of course. – Ben Voigt Aug 6 '13 at 18:24
Pretty much. exit flushes and closes the high level file structures, but if anything is forgotten, the system will close the low level file descriptors as part of cleaning up after the process. (I implemented a C runtime, many, many years ago, and exit is anything but trivial.) – James Kanze Aug 6 '13 at 18:29

The return 0; in main works like a return anywhere; it returns to the place from which it was called. When you start a program, the system does not start it at main, but at some start-up address which does a lot of initializations, and then something like:

exit( main(/*...*/) );

In other words, exit does not simulate a return from main; returning from main calls exit. And exit then does a lot of shutting down, before calling some system specific function which tells the system to stop the process (_exit under Unix).

You cannot implement exit yourself, because you have no way of finding the information it needs: the list of functions registered with atexit which need to be called, the list of destructors of objects with static lifetime, etc.

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«You cannot implement exit yourself» — FALSE! If somebody else did it then you can certainly do it yourself, too. After all, you can even intercept call to exit() and supply your own implementation. – user405725 Aug 6 '13 at 18:05
@VladLazarenko You cannot implement exit yourself, for the reasons I enumerated. exit does a lot more than just return to the system; it must clean up. And the lists of things it has to do are not global symbols which you can access, and do not have externally defined structures so that you know what to do about them. exit works with the rest of the C run time library, and to implement exit, you need the sources of the C run time library. – James Kanze Aug 6 '13 at 18:11
I think that's important to outline the fact that atexit it's not related to the standard library but it's implemented in the C++ ABI library of choice, in other words, it's a symbol that is not granted to be there and it's something that is platform specific. – user2485710 Aug 6 '13 at 18:16
Hell I can! Why not? Who do you think implemented an exit() function that you call, the Gods? As for the return statement in main(), see § Program Termination. Since C99, the return value in that case is 0. – user405725 Aug 6 '13 at 18:19
@user2485710 atexit() is defined in § of the C standard, and by reference in §18.5 of the C++ standard. It is not platform specific. (How it is implemented is, of course.) – James Kanze Aug 6 '13 at 18:24

I think the main confusion here is the notion that that main is the first and last thing that happens in C++ program. Whilst it is [1] the first part of YOUR program, there is usually some code in the application that sets up a few things, parses command line arguments, opening/initialization of standard I/O (cin, cout, etc) and other such things, which happen BEFORE main is called. And main is essentially just another function, called by the C++ runtime functionality that does that "fix things up before main".

So, when main returns, it goes back to the code that called it, which then cleans up the things that need cleaning up (closing standard I/O channels, and many other such things), before actually finishing up by calling some OS function to "terminate this process". As part of this "terminate this process" functionality is (in most OS's) a way to signal "success or failure" to the OS, so that some other process monitoring the application can determine "if all is well or not". This is where, eventually, the 0 (or 1 if you use return 1; in main) ends up.

[1] If there are static objects with constructors that are part of the user's code, then these will be performed before any code in main [or at least, before any code in main that belongs to the user's application] is executed.

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Your confusion is because of not understanding what return does. Take this function for example:

int add(int x, int y)
   return (x + y);

The return in above function and the return statement at the end of your main function are exactly the same, from a language standpoint they mean the same. The meaning of that is to return an integer to the caller. What the caller makes out of this value is completely another thing which depends on the caller's intention of calling said function. Say I can call add(7, 9); to add two GPA grades while another programmer might call it to find the sum of all the money in a couple of bank accounts.

Now main is treated as a special function since it is the first function the operating system, or more specifically its loader, calls to being your program. After your program completes, whatever main returns might mean anything based on the OS's semantics. This value has nothing to do with any memory address.

Aside: According to the standard, in C++ (and C99 onawards) the return 0; statement can be omitted to mean a successful termination of the program.

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That depends on which version of C, doesn't it? – Ben Voigt Aug 6 '13 at 18:01
@BenVoigt No.... – James Kanze Aug 6 '13 at 18:05
@BenVoigt: You mean the omission of return 0; at the end of main? – legends2k Aug 6 '13 at 18:05
The standard requires that an implementation recognize 0 as success, as well as EXIT_SUCCESS. On systems such as the old DEC OS's, where odd numbers signaled success, the C run time had to remap 0 to an odd number. – James Kanze Aug 6 '13 at 18:06
@legends2k: Yes, that's the only reference to C in your answer and it is what I was commenting about. I found this rule "reaching the } that terminates the main function returns a value of 0." – Ben Voigt Aug 6 '13 at 18:06

If m understanding is correct, there will be a SIGCHLD signal that would be sent on exit to main shell which contains the return value... This should happen when the PCB is destroyed by the kernel...

But if you want to hook up certain functionality while exiting from the code, you can register a handler at atexit() as per POSIX implementation..

I dont think you can modify how the return valur propagates at user level, since the control of the program reaches the PC in another process ( of which you dont have access to).

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The PCB isn't destroyed by the kernel until it is reaped by wait. – Ben Voigt Aug 6 '13 at 18:08

If your C++ abi library implements the symbol __cxa_atexit you can use atexit

AFAIK the language doesn't really offer other safe ways to do something that is user-defined when a program stops the execution.

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When you have a function, it has a type. It can be int, void, or other. If the function is not void, then it has to return a value. In our case, the return value of main is int, which is usually a return code. The convention is that if it is 0, then there was no error, while other values are error codes.

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