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What happens internally when a functions that uses varargs is called? Are the arguments themselves stored on the heap or on the stack like any other arguments. If on the stack, how does that work?

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Short answer: it is implementation dependent. You can usually get an idea of what is going on by reading macros in include files. stdarg.h is the "modern" form of this, varargs.h has the older, deprecated version. Since you specifically said varargs, try reading varargs.h. –  jim mcnamara Dec 26 '11 at 20:29
tenouk.com/Bufferoverflowc/Bufferoverflow3.html refer this site –  Student Arya Dec 26 '11 at 21:50

3 Answers 3

up vote 1 down vote accepted

In C, function arguments are both pushed onto and pulled from the stack by the caller function. The caller function knows how many items were pushed and so it is also able to pull them back after the call. The callee can only infer the number of the arguments from other parameters, like the format string of printf().

In Pascal, for example, the arguments on the stack are pulled by the callee. As the callee is not aware of the number of items pushed, it cannot restore the stack to its previous state either. That's why it's impossible to implement varargs in Pascal.

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"In C, function arguments are both pushed onto and pulled from the stack by the caller function." - This is implementation-dependent. –  Oliver Charlesworth Dec 26 '11 at 20:43
@OliCharlesworth That's true. I assumed C is configured to use cdecl calling convention, which “is used by many C systems for the x86 architecture.” (en.wikipedia.org/wiki/X86_calling_conventions#cdecl) –  Eser Aygün Dec 26 '11 at 20:49
Also, I'd imagine Pascal could have had varargs, if it was smart about it --- you can provide the number of arguments as the first argument, for example (and/or the stack top). You'd have to be careful in the implementation, of course, but it could be doable. –  Tim Čas Jan 15 at 12:12

It's implementation-dependent. But most probably, the args are placed on the stack, one after the other (after default argument promotions have been performed).

va_start, va_arg etc. work by simply walking a pointer through the stack, and reinterpreting the bits as whatever type you ask for.

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Short and sweet. +1 –  cnicutar Dec 26 '11 at 20:25

Like was noted before, it's implementation dependent.

In the C calling convention (known as cdecl), arguments are pushed into the stack in reverse order, so:

void myfunc(int one, int two, int three)

will look like this on the stack after it's called (the stack grows upwards, towards 0):

  .                .                0x00000000
  .                .
  .                .
  | current frame  |
  | return address |
  |----------------|                   ^
  |    one         |                   | stack
  |----------------|                   | growth
  |    two         |                   | direction
  |----------------|                   |
  |    three       |
  | previous frame |
         ...                        0xFFFFFFFF

So, the first argument can be fetched first (because we know it's location, it's just before the return address), and hopefully it contains enough information on how many other arguments are present. For example, in printf(3) and related functions, all information about the other arguments is present in the format string, which is the first argument.

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"Upwards" in your diagram, but "downwards" in numerical terms. –  Oliver Charlesworth Dec 26 '11 at 20:51
Oli, stack can grow in any direction. –  Vovanium Dec 26 '11 at 21:04
Yes, the purpose of the "upwards" comment was to give the stack a direction. Personally, however, I find it easier to think of a stack as a Tower of Hanoi sort of thing. –  cha0site Dec 26 '11 at 22:17

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