/* -----------------------------------------------------------------------
   win32.S - Copyright (c) 1996, 1998, 2001, 2002  Red Hat, Inc.
	     Copyright (c) 2001  John Beniton
	     Copyright (c) 2002  Ranjit Mathew
			
 
   X86 Foreign Function Interface
 
   Permission is hereby granted, free of charge, to any person obtaining
   a copy of this software and associated documentation files (the
   ``Software''), to deal in the Software without restriction, including
   without limitation the rights to use, copy, modify, merge, publish,
   distribute, sublicense, and/or sell copies of the Software, and to
   permit persons to whom the Software is furnished to do so, subject to
   the following conditions:
 
   The above copyright notice and this permission notice shall be included
   in all copies or substantial portions of the Software.
 
   THE SOFTWARE IS PROVIDED ``AS IS'', WITHOUT WARRANTY OF ANY KIND, EXPRESS
   OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
   MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
   IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR
	ANY CLAIM, DAMAGES OR
   OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
   ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
   OTHER DEALINGS IN THE SOFTWARE.
   ----------------------------------------------------------------------- */
 
#define LIBFFI_ASM
#include <fficonfig.h>
#include <ffi.h>
 
.text
 
.globl ffi_prep_args
 
        # This assumes we are using gas.
        .balign 16
.globl _ffi_call_SYSV
 
_ffi_call_SYSV:
        pushl %ebp
        movl  %esp,%ebp
 
        # Make room for all of the new args.
        movl  16(%ebp),%ecx                                                     
        subl  %ecx,%esp
 
        movl  %esp,%eax
 
        # Place all of the ffi_prep_args in position
        pushl 12(%ebp)
        pushl %eax
        call  *8(%ebp)
 
        # Return stack to previous state and call the function
        addl  $8,%esp
 
        # FIXME: Align the stack to a 128-bit boundary to avoid
        # potential performance hits.

	call  *28(%ebp)
 
        # Remove the space we pushed for the args
        movl  16(%ebp),%ecx
        addl  %ecx,%esp
 
        # Load %ecx with the return type code
        movl  20(%ebp),%ecx
 
        # If the return value pointer is NULL, assume no return value.
        cmpl  $0,24(%ebp)
        jne   retint
 
        # Even if there is no space for the return value, we are
        # obliged to handle floating-point values.
        cmpl  $FFI_TYPE_FLOAT,%ecx
        jne   noretval
        fstp  %st(0)
 
        jmp   epilogue
 
retint:
        cmpl  $FFI_TYPE_INT,%ecx
        jne   retfloat
        # Load %ecx with the pointer to storage for the return value
        movl  24(%ebp),%ecx
        movl  %eax,0(%ecx)
        jmp   epilogue
 
retfloat:
        cmpl  $FFI_TYPE_FLOAT,%ecx
        jne   retdouble   
         # Load %ecx with the pointer to storage for the return value
        movl  24(%ebp),%ecx
        fstps (%ecx)
        jmp   epilogue
 
retdouble:
        cmpl  $FFI_TYPE_DOUBLE,%ecx
        jne   retlongdouble
        # Load %ecx with the pointer to storage for the return value
        movl  24(%ebp),%ecx
        fstpl (%ecx)
        jmp   epilogue
 
retlongdouble:
        cmpl  $FFI_TYPE_LONGDOUBLE,%ecx
        jne   retint64
        # Load %ecx with the pointer to storage for the return value
        movl  24(%ebp),%ecx
        fstpt (%ecx)
        jmp   epilogue
 
retint64:
        cmpl  $FFI_TYPE_SINT64,%ecx
        jne   retstruct1b
        # Load %ecx with the pointer to storage for the return value
        movl  24(%ebp),%ecx
        movl  %eax,0(%ecx)
        movl  %edx,4(%ecx)
 
retstruct1b:
        cmpl  $FFI_TYPE_SINT8,%ecx
        jne   retstruct2b
        # Load %ecx with the pointer to storage for the return value
        movl  24(%ebp),%ecx
        movb  %al,0(%ecx)
        jmp   epilogue
 
retstruct2b:
        cmpl  $FFI_TYPE_SINT16,%ecx
        jne   retstruct
        # Load %ecx with the pointer to storage for the return value
        movl  24(%ebp),%ecx
        movw  %ax,0(%ecx)
        jmp   epilogue
 
retstruct:
        # Nothing to do!
 
noretval:
epilogue:
        movl %ebp,%esp
        popl %ebp
        ret
 
.ffi_call_SYSV_end:

        # This assumes we are using gas.
        .balign 16
.globl _ffi_call_STDCALL

_ffi_call_STDCALL:
        pushl %ebp
        movl  %esp,%ebp

        # Make room for all of the new args.
        movl  16(%ebp),%ecx 
        subl  %ecx,%esp

        movl  %esp,%eax

        # Place all of the ffi_prep_args in position
        pushl 12(%ebp)
        pushl %eax
        call  *8(%ebp)

        # Return stack to previous state and call the function
        addl  $8,%esp

        # FIXME: Align the stack to a 128-bit boundary to avoid
        # potential performance hits.

        call  *28(%ebp)

        # stdcall functions pop arguments off the stack themselves

        # Load %ecx with the return type code
        movl  20(%ebp),%ecx

        # If the return value pointer is NULL, assume no return value.
        cmpl  $0,24(%ebp)
        jne   sc_retint

        # Even if there is no space for the return value, we are
        # obliged to handle floating-point values.
        cmpl  $FFI_TYPE_FLOAT,%ecx
        jne   sc_noretval
        fstp  %st(0)

        jmp   sc_epilogue

sc_retint:
        cmpl  $FFI_TYPE_INT,%ecx
        jne   sc_retfloat
        # Load %ecx with the pointer to storage for the return value
        movl  24(%ebp),%ecx
        movl  %eax,0(%ecx)
        jmp   sc_epilogue

sc_retfloat:
        cmpl  $FFI_TYPE_FLOAT,%ecx
        jne   sc_retdouble
         # Load %ecx with the pointer to storage for the return value
        movl  24(%ebp),%ecx
        fstps (%ecx)
        jmp   sc_epilogue

sc_retdouble:
        cmpl  $FFI_TYPE_DOUBLE,%ecx
        jne   sc_retlongdouble
        # Load %ecx with the pointer to storage for the return value
        movl  24(%ebp),%ecx
        fstpl (%ecx)
        jmp   sc_epilogue

sc_retlongdouble:
        cmpl  $FFI_TYPE_LONGDOUBLE,%ecx
        jne   sc_retint64
        # Load %ecx with the pointer to storage for the return value
        movl  24(%ebp),%ecx
        fstpt (%ecx)
        jmp   sc_epilogue

sc_retint64:
        cmpl  $FFI_TYPE_SINT64,%ecx
        jne   sc_retstruct1b
        # Load %ecx with the pointer to storage for the return value
        movl  24(%ebp),%ecx
        movl  %eax,0(%ecx)
        movl  %edx,4(%ecx)

sc_retstruct1b:
        cmpl  $FFI_TYPE_SINT8,%ecx
        jne   sc_retstruct2b
        # Load %ecx with the pointer to storage for the return value
        movl  24(%ebp),%ecx
        movb  %al,0(%ecx)
        jmp   sc_epilogue

sc_retstruct2b:
        cmpl  $FFI_TYPE_SINT16,%ecx
        jne   sc_retstruct
        # Load %ecx with the pointer to storage for the return value
        movl  24(%ebp),%ecx
        movw  %ax,0(%ecx)
        jmp   sc_epilogue

sc_retstruct:
        # Nothing to do!

sc_noretval:
sc_epilogue:
        movl %ebp,%esp
        popl %ebp
        ret

.ffi_call_STDCALL_end:

	.globl _ffi_closure_STDCALL
_ffi_closure_STDCALL:
	pushl	%ebp
	movl	%esp, %ebp
	subl	$40, %esp
	leal	-24(%ebp), %edx
	movl	%edx, -12(%ebp)	/* resp */
	leal	12(%ebp), %edx  /* account for stub return address on stack */
	movl	%edx, 4(%esp)	/* args */
	leal	-12(%ebp), %edx
	movl	%edx, (%esp)	/* &resp */
	call	_ffi_closure_SYSV_inner
	movl	-12(%ebp), %ecx
	jmp     .Lcls_return_result
.ffi_closure_STDCALL_end:

	.globl _ffi_closure_SYSV
_ffi_closure_SYSV:
	pushl	%ebp
	movl	%esp, %ebp
	subl	$40, %esp
	leal	-24(%ebp), %edx
	movl	%edx, -12(%ebp)	/* resp */
	leal	8(%ebp), %edx
	movl	%edx, 4(%esp)	/* args = __builtin_dwarf_cfa () */
	leal	-12(%ebp), %edx
	movl	%edx, (%esp)	/* &resp */
	call	_ffi_closure_SYSV_inner
	movl	-12(%ebp), %ecx
.Lcls_return_result:
	cmpl	$FFI_TYPE_INT, %eax
	je	.Lcls_retint
	cmpl	$FFI_TYPE_FLOAT, %eax
	je	.Lcls_retfloat
	cmpl	$FFI_TYPE_DOUBLE, %eax
	je	.Lcls_retdouble
	cmpl	$FFI_TYPE_LONGDOUBLE, %eax
	je	.Lcls_retldouble
	cmpl	$FFI_TYPE_SINT64, %eax
	je	.Lcls_retllong
	cmpl	$FFI_TYPE_SINT8, %eax	/* 1-byte struct */
	je	.Lcls_retstruct1
	cmpl	$FFI_TYPE_SINT16, %eax	/* 2-bytes struct */
	je	.Lcls_retstruct2
.Lcls_epilogue:
	movl	%ebp, %esp
	popl	%ebp
	ret
.Lcls_retint:
	movl	(%ecx), %eax
	jmp	.Lcls_epilogue
.Lcls_retfloat:
	flds	(%ecx)
	jmp	.Lcls_epilogue
.Lcls_retdouble:
	fldl	(%ecx)
	jmp	.Lcls_epilogue
.Lcls_retldouble:
	fldt	(%ecx)
	jmp	.Lcls_epilogue
.Lcls_retllong:
	movl	(%ecx), %eax
	movl	4(%ecx), %edx
	jmp	.Lcls_epilogue
.Lcls_retstruct1:
	movsbl	(%ecx), %eax
	jmp	.Lcls_epilogue
.Lcls_retstruct2:
	movswl	(%ecx), %eax
	jmp	.Lcls_epilogue
.ffi_closure_SYSV_end:

#if !FFI_NO_RAW_API

#define RAW_CLOSURE_CIF_OFFSET ((FFI_TRAMPOLINE_SIZE + 3) & ~3)
#define RAW_CLOSURE_FUN_OFFSET (RAW_CLOSURE_CIF_OFFSET + 4)
#define RAW_CLOSURE_USER_DATA_OFFSET (RAW_CLOSURE_FUN_OFFSET + 4)
#define CIF_FLAGS_OFFSET 20

	.balign	16
	.globl _ffi_closure_raw_SYSV
_ffi_closure_raw_SYSV:
	pushl	%ebp
	movl	%esp, %ebp
	pushl	%esi
	subl	$36, %esp
	movl	RAW_CLOSURE_CIF_OFFSET(%eax), %esi	 /* closure->cif */
	movl	RAW_CLOSURE_USER_DATA_OFFSET(%eax), %edx /* closure->user_data */
	movl	%edx, 12(%esp)	/* user_data */
	leal	8(%ebp), %edx	/* __builtin_dwarf_cfa () */
	movl	%edx, 8(%esp)	/* raw_args */
	leal	-24(%ebp), %edx
	movl	%edx, 4(%esp)	/* &res */
	movl	%esi, (%esp)	/* cif */
	call	*RAW_CLOSURE_FUN_OFFSET(%eax)		 /* closure->fun */
	movl	CIF_FLAGS_OFFSET(%esi), %eax		 /* rtype */
	cmpl	$FFI_TYPE_INT, %eax
	je	.Lrcls_retint
	cmpl	$FFI_TYPE_FLOAT, %eax
	je	.Lrcls_retfloat
	cmpl	$FFI_TYPE_DOUBLE, %eax
	je	.Lrcls_retdouble
	cmpl	$FFI_TYPE_LONGDOUBLE, %eax
	je	.Lrcls_retldouble
	cmpl	$FFI_TYPE_SINT64, %eax
	je	.Lrcls_retllong
.Lrcls_epilogue:
	addl	$36, %esp
	popl	%esi
	popl	%ebp
	ret
.Lrcls_retint:
	movl	-24(%ebp), %eax
	jmp	.Lrcls_epilogue
.Lrcls_retfloat:
	flds	-24(%ebp)
	jmp	.Lrcls_epilogue
.Lrcls_retdouble:
	fldl	-24(%ebp)
	jmp	.Lrcls_epilogue
.Lrcls_retldouble:
	fldt	-24(%ebp)
	jmp	.Lrcls_epilogue
.Lrcls_retllong:
	movl	-24(%ebp), %eax
	movl	-20(%ebp), %edx
	jmp	.Lrcls_epilogue
.ffi_closure_raw_SYSV_end:

#endif