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Anyone have a reference for the representation of va_list in the x86_64 ABI (the one used on Linux)? I'm trying to debug some code where the stack or arguments seem corrupt and it would really help to understand what I'm supposed to be seeing...

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10  
To the close-monger: what are you thinking? It is not off-topic; it is about programming on Linux! –  Jonathan Leffler Feb 10 '11 at 14:37
    
The comment by @gon1332 is affiliate spam. Please don't follow the link. While there not necessarily anything wrong with the book linked, it's irrelevant to the question. –  R.. Jul 15 '14 at 10:43
    
@R.. Should I remove the link? What do you mean by "affiliate spam"? Sorry if I've done anything wrong. –  gon1332 Jul 15 '14 at 11:01
    
@gon1332: Maybe I misread it but given that the book (about the standard) seems irrelevant to the question (about a particular ABI), I assumed the Amazon link was attempting to get affiliate credit for people who buy the book through it. Apologies if that's incorrect. –  R.. Jul 15 '14 at 11:04
    
@R.. If I could, I would remove the link and leave only the name. I mentioned the book because I think it's the only one someone should follow if they want to understand and write libc. I linked amazon because almost everyone in SO links it when mention a book. I did not want to link to a free pdf because it is illegal. –  gon1332 Jul 15 '14 at 11:20

2 Answers 2

up vote 10 down vote accepted

I made my comment into an answer.

This may help. It's a reference, albeit lightweight.

The Variable Argument List reference starts on page 50, then it goes on, page 52-53 documents va_list:

The va_list Type

The va_list type is an array containing a single element of one structure containing the necessary information to implement the va_arg macro. The C definition of va_list type is given in figure 3.34

// Figure 3.34
typedef struct {
   unsigned int gp_offset;
   unsigned int fp_offset;
   void *overflow_arg_area;
   void *reg_save_area;
} va_list[1];

The va_start Macro

The va_start macro initializes the structure as follows:

reg_save_area The element points to the start of the register save area.

overflow_arg_area This pointer is used to fetch arguments passed on the stack. It is initialized with the address of the first argument passed on the stack, if any, and then always updated to point to the start of the next argument on the stack.

gp_offset The element holds the offset in bytes from reg_save_area to the place where the next available general purpose argument register is saved. In case all argument registers have been exhausted, it is set to the value 48 (6 ∗ 8).

fp_offset The element holds the offset in bytes from reg_save_area to the place where the next available floating point argument register is saved. In case all argument registers have been exhausted, it is set to the value 304 (6 ∗ 8 + 16 ∗ 16).

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Thanks. I'm accepting this and also putting an explanation of the problem and how I solved it as another answer. –  R.. Feb 10 '11 at 15:35
    
@R..: Glad to help. –  Skurmedel Feb 10 '11 at 15:38
    
I’m pretty sure these “floating point” registers are actually SSE registers, and that there are only 8 of them. –  Dave Abrahams Dec 20 '13 at 1:53

It turns out the problem was gcc's making va_list an array type. My function was of the signature:

void foo(va_list ap);

and I wanted to pass a pointer to ap to another function, so I did:

void foo(va_list ap)
{
    bar(&ap);
}

Unfortunately, array types decay to pointer types in function argument lists, so rather than passing a pointer to the original structure, I was passing a pointer to a pointer.

To work around the problem, I changed the code to:

void foo(va_list ap)
{
    va_list ap2;
    va_copy(ap2, ap);
    bar(&ap2);
    va_end(ap2);
}

This is the only portable solution I could come up with, that accounts for both the possibility that va_list is an array type and the possibility that it's not.

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Couldn't you have just made foo take an argument of type va_list *? –  caf Feb 10 '11 at 22:32
1  
@caf: foo has a fixed signature I can't change. And even if not, v* functions always take a va_list argument, not a va_list * argument. This is standard convention and it would be annoying to users of the function to violate it. –  R.. Feb 10 '11 at 23:21
    
Why did you need to pass a pointer to ap2 in the call to bar() ? –  ydroneaud Feb 11 '11 at 4:10
    
This code is of course stripped down, but the point is that bar uses additional information to determine the type of the next argument and "pops" it off the argument list. If you passed ap by value instead of passing a pointer to it, any further use of ap after bar returns, except va_end, would result in undefined behavior. –  R.. Feb 11 '11 at 4:10
3  
@bdonlan: bar is called more than once by foo, and each call to bar must see the effects of the previous one. This is explicitly UB (per ISO C) if you pass the va_list; you're required to pass a pointer to va_list for this usage. –  R.. Feb 11 '11 at 4:54

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