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...


I made my comment into an answer.

This may help. It's a reference, albeit lightweight (EDIT: original link dead; replaced Wayback Machine-preserved link).

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).

  • 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
  • @DaveAbrahams x86_64 has 16 general and SSE registers. – doug65536 Apr 3 at 2:44

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)

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);

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.

  • 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.. GitHub STOP HELPING ICE Feb 10 '11 at 23:21
  • 4
    @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.. GitHub STOP HELPING ICE Feb 11 '11 at 4:54
  • 1
    @Christoph: Looking back, I see what you were saying, but I don't think it's an issue. The obvious intended usage of va_copy is to use it on a va_list you obtained as an argument. If you had obtained it with va_start, you could just call va_start again to get a copy and there would be no need for va_copy. – R.. GitHub STOP HELPING ICE Aug 2 '13 at 18:08
  • 1
    @polynomial_donut: The blog post you linked to is bogus, as noted in the update at the top of it. It's always fine to pass a va_list you received as an argument to another function taking a va_list (as long as you don't use it after that except to va_end). It's also fine to pass a pointer to a va_list.... – R.. GitHub STOP HELPING ICE Jul 25 '18 at 2:01
  • 1
    ... The issue is that, while declaring an object va_list ap; gives you an object of type va_list so that &ap has type pointer-to-va_list, receiving an argument declared va_list ap does not necessarily mean ap has type va_list. If va_list is an array type, the array decay rules for function arguments apply, and then ap has type pointer-to-pointer-to-__typeof__(*ap), which is neither type-compatible nor the right value to pass to a function expecting pointer-to-va_list (it's an extra level of indirection). va_copy to temp is the only way to fix this. – R.. GitHub STOP HELPING ICE Jul 25 '18 at 2:02

In i386 architecture, the va_list is a pointer type. However, in AMD64 architecture, it is an array type. What is the difference? Actually, if you apply an & operation to a pointer type, you will get the address of this pointer variable. But no matter how many times you apply & operation to an array type, the value is the same, and is equal to the address of this array.

So, what should you do in AMD64? The easiest way to pass variable of va_list in a function is just passing it with no * or & operator.

For example:

void foo(const char *fmt, ...) {
    va_list ap;
    int cnt;
    va_start(ap, fmt);
    bar(fmt, ap);
    return cnt;
void bar(const char *fmt, va_list ap) {
    va_arg(ap, int);
    //do something
void test(va_list ap) {
    va_arg(ap, int);
    //do something

It just works! And you don't need to worry about how many arguments you have got.


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