1 files changed, 460 insertions, 0 deletions

diff --git a/js/src/ctypes/libffi/src/x86/win64.S b/js/src/ctypes/libffi/src/x86/win64.S
new file mode 100644
index 0000000..6e91818
--- /dev/null
+++ b/js/src/ctypes/libffi/src/x86/win64.S
@@ -0,0 +1,460 @@
+#define LIBFFI_ASM
+#include <fficonfig.h>
+#include <ffi.h>
+	
+/* Constants for ffi_call_win64 */	
+#define STACK 0
+#define PREP_ARGS_FN 32
+#define ECIF 40
+#define CIF_BYTES 48
+#define CIF_FLAGS 56
+#define RVALUE 64
+#define FN 72
+
+/* ffi_call_win64 (void (*prep_args_fn)(char *, extended_cif *),
+                   extended_cif *ecif, unsigned bytes, unsigned flags,
+                   unsigned *rvalue, void (*fn)());
+ */
+
+#ifdef _MSC_VER
+PUBLIC	ffi_call_win64
+
+EXTRN	__chkstk:NEAR
+EXTRN	ffi_closure_win64_inner:NEAR
+
+_TEXT	SEGMENT
+
+;;; ffi_closure_win64 will be called with these registers set:
+;;;    rax points to 'closure'
+;;;    r11 contains a bit mask that specifies which of the
+;;;    first four parameters are float or double
+;;;
+;;; It must move the parameters passed in registers to their stack location,
+;;; call ffi_closure_win64_inner for the actual work, then return the result.
+;;; 
+ffi_closure_win64 PROC FRAME
+	;; copy register arguments onto stack
+	test	r11, 1
+	jne	first_is_float	
+	mov	QWORD PTR [rsp+8], rcx
+	jmp	second
+first_is_float:
+	movlpd	QWORD PTR [rsp+8], xmm0
+
+second:
+	test	r11, 2
+	jne	second_is_float	
+	mov	QWORD PTR [rsp+16], rdx
+	jmp	third
+second_is_float:
+	movlpd	QWORD PTR [rsp+16], xmm1
+
+third:
+	test	r11, 4
+	jne	third_is_float	
+	mov	QWORD PTR [rsp+24], r8
+	jmp	fourth
+third_is_float:
+	movlpd	QWORD PTR [rsp+24], xmm2
+
+fourth:
+	test	r11, 8
+	jne	fourth_is_float	
+	mov	QWORD PTR [rsp+32], r9
+	jmp	done
+fourth_is_float:
+	movlpd	QWORD PTR [rsp+32], xmm3
+
+done:
+        .ALLOCSTACK 40
+	sub	rsp, 40
+        .ENDPROLOG
+	mov	rcx, rax	; context is first parameter
+	mov	rdx, rsp	; stack is second parameter
+	add	rdx, 48		; point to start of arguments
+	mov	rax, ffi_closure_win64_inner
+	call	rax		; call the real closure function
+	add	rsp, 40
+	movd	xmm0, rax	; If the closure returned a float,
+                                ; ffi_closure_win64_inner wrote it to rax
+	ret	0
+ffi_closure_win64 ENDP
+
+ffi_call_win64 PROC FRAME
+        ;; copy registers onto stack
+	mov	QWORD PTR [rsp+32], r9
+	mov	QWORD PTR [rsp+24], r8
+	mov	QWORD PTR [rsp+16], rdx
+	mov	QWORD PTR [rsp+8], rcx
+        .PUSHREG rbp
+	push	rbp
+        .ALLOCSTACK 48
+	sub	rsp, 48					; 00000030H
+        .SETFRAME rbp, 32
+	lea	rbp, QWORD PTR [rsp+32]
+        .ENDPROLOG
+
+	mov	eax, DWORD PTR CIF_BYTES[rbp]
+	add	rax, 15
+	and	rax, -16
+	call	__chkstk
+	sub	rsp, rax
+	lea	rax, QWORD PTR [rsp+32]
+	mov	QWORD PTR STACK[rbp], rax
+
+	mov	rdx, QWORD PTR ECIF[rbp]
+	mov	rcx, QWORD PTR STACK[rbp]
+	call	QWORD PTR PREP_ARGS_FN[rbp]
+
+	mov	rsp, QWORD PTR STACK[rbp]
+
+	movlpd	xmm3, QWORD PTR [rsp+24]
+	movd	r9, xmm3
+
+	movlpd	xmm2, QWORD PTR [rsp+16]
+	movd	r8, xmm2
+
+	movlpd	xmm1, QWORD PTR [rsp+8]
+	movd	rdx, xmm1
+
+	movlpd	xmm0, QWORD PTR [rsp]
+	movd	rcx, xmm0
+
+	call	QWORD PTR FN[rbp]
+ret_struct4b$:
+ 	cmp	DWORD PTR CIF_FLAGS[rbp], FFI_TYPE_SMALL_STRUCT_4B
+ 	jne	ret_struct2b$
+
+	mov	rcx, QWORD PTR RVALUE[rbp]
+	mov	DWORD PTR [rcx], eax
+	jmp	ret_void$
+
+ret_struct2b$:
+ 	cmp	DWORD PTR CIF_FLAGS[rbp], FFI_TYPE_SMALL_STRUCT_2B
+ 	jne	ret_struct1b$
+
+	mov	rcx, QWORD PTR RVALUE[rbp]
+	mov	WORD PTR [rcx], ax
+	jmp	ret_void$
+
+ret_struct1b$:
+ 	cmp	DWORD PTR CIF_FLAGS[rbp], FFI_TYPE_SMALL_STRUCT_1B
+ 	jne	ret_uint8$
+
+	mov	rcx, QWORD PTR RVALUE[rbp]
+	mov	BYTE PTR [rcx], al
+	jmp	ret_void$
+
+ret_uint8$:
+ 	cmp	DWORD PTR CIF_FLAGS[rbp], FFI_TYPE_UINT8
+ 	jne	ret_sint8$
+
+	mov	rcx, QWORD PTR RVALUE[rbp]
+	movzx   rax, al
+	mov	QWORD PTR [rcx], rax
+	jmp	ret_void$
+
+ret_sint8$:
+ 	cmp	DWORD PTR CIF_FLAGS[rbp], FFI_TYPE_SINT8
+ 	jne	ret_uint16$
+
+	mov	rcx, QWORD PTR RVALUE[rbp]
+	movsx   rax, al
+	mov	QWORD PTR [rcx], rax
+	jmp	ret_void$
+
+ret_uint16$:
+ 	cmp	DWORD PTR CIF_FLAGS[rbp], FFI_TYPE_UINT16
+ 	jne	ret_sint16$
+
+	mov	rcx, QWORD PTR RVALUE[rbp]
+	movzx   rax, ax
+	mov	QWORD PTR [rcx], rax
+	jmp	SHORT ret_void$
+
+ret_sint16$:
+ 	cmp	DWORD PTR CIF_FLAGS[rbp], FFI_TYPE_SINT16
+ 	jne	ret_uint32$
+
+	mov	rcx, QWORD PTR RVALUE[rbp]
+	movsx   rax, ax
+	mov	QWORD PTR [rcx], rax
+	jmp	SHORT ret_void$
+
+ret_uint32$:
+ 	cmp	DWORD PTR CIF_FLAGS[rbp], FFI_TYPE_UINT32
+ 	jne	ret_sint32$
+
+	mov	rcx, QWORD PTR RVALUE[rbp]
+	mov     eax, eax
+	mov	QWORD PTR [rcx], rax
+	jmp	SHORT ret_void$
+
+ret_sint32$:
+ 	cmp	DWORD PTR CIF_FLAGS[rbp], FFI_TYPE_SINT32
+ 	jne	ret_float$
+
+	mov	rcx, QWORD PTR RVALUE[rbp]
+	cdqe
+	mov	QWORD PTR [rcx], rax
+	jmp	SHORT ret_void$
+
+ret_float$:
+ 	cmp	DWORD PTR CIF_FLAGS[rbp], FFI_TYPE_FLOAT
+ 	jne	SHORT ret_double$
+
+ 	mov	rax, QWORD PTR RVALUE[rbp]
+ 	movss	DWORD PTR [rax], xmm0
+ 	jmp	SHORT ret_void$
+
+ret_double$:
+ 	cmp	DWORD PTR CIF_FLAGS[rbp], FFI_TYPE_DOUBLE
+ 	jne	SHORT ret_sint64$
+
+ 	mov	rax, QWORD PTR RVALUE[rbp]
+ 	movlpd	QWORD PTR [rax], xmm0
+ 	jmp	SHORT ret_void$
+
+ret_sint64$:
+  	cmp	DWORD PTR CIF_FLAGS[rbp], FFI_TYPE_SINT64
+  	jne	ret_void$
+
+ 	mov	rcx, QWORD PTR RVALUE[rbp]
+ 	mov	QWORD PTR [rcx], rax
+ 	jmp	SHORT ret_void$
+	
+ret_void$:
+	xor	rax, rax
+
+	lea	rsp, QWORD PTR [rbp+16]
+	pop	rbp
+	ret	0
+ffi_call_win64 ENDP
+_TEXT	ENDS
+END
+#else        
+.text
+
+.extern _ffi_closure_win64_inner
+
+# ffi_closure_win64 will be called with these registers set:
+#    rax points to 'closure'
+#    r11 contains a bit mask that specifies which of the
+#    first four parameters are float or double
+#
+# It must move the parameters passed in registers to their stack location,
+# call ffi_closure_win64_inner for the actual work, then return the result.
+# 
+	.balign 16
+        .globl _ffi_closure_win64	
+_ffi_closure_win64:     
+	# copy register arguments onto stack
+	test	$1,%r11
+	jne	.Lfirst_is_float	
+	mov	%rcx, 8(%rsp)
+	jmp	.Lsecond
+.Lfirst_is_float:
+	movlpd	%xmm0, 8(%rsp)
+
+.Lsecond:
+	test	$2, %r11
+	jne	.Lsecond_is_float	
+	mov	%rdx, 16(%rsp)
+	jmp	.Lthird
+.Lsecond_is_float:
+	movlpd	%xmm1, 16(%rsp)
+
+.Lthird:
+	test	$4, %r11
+	jne	.Lthird_is_float	
+	mov	%r8,24(%rsp)
+	jmp	.Lfourth
+.Lthird_is_float:
+	movlpd	%xmm2, 24(%rsp)
+
+.Lfourth:
+	test	$8, %r11
+	jne	.Lfourth_is_float	
+	mov	%r9, 32(%rsp)
+	jmp	.Ldone
+.Lfourth_is_float:
+	movlpd	%xmm3, 32(%rsp)
+
+.Ldone:
+#.ALLOCSTACK 40
+	sub	$40, %rsp
+#.ENDPROLOG
+	mov	%rax, %rcx	# context is first parameter
+	mov	%rsp, %rdx	# stack is second parameter
+	add	$48, %rdx	# point to start of arguments
+	mov	$_ffi_closure_win64_inner, %rax
+	callq	*%rax		# call the real closure function
+	add	$40, %rsp
+	movq	%rax, %xmm0	# If the closure returned a float,
+                                # ffi_closure_win64_inner wrote it to rax
+	retq
+.ffi_closure_win64_end:
+
+	.balign 16
+        .globl	_ffi_call_win64
+_ffi_call_win64:        
+        # copy registers onto stack
+	mov	%r9,32(%rsp)
+	mov	%r8,24(%rsp)
+	mov	%rdx,16(%rsp)
+	mov	%rcx,8(%rsp)
+        #.PUSHREG rbp
+	push	%rbp
+        #.ALLOCSTACK 48
+	sub	$48,%rsp
+        #.SETFRAME rbp, 32
+	lea	32(%rsp),%rbp
+        #.ENDPROLOG
+
+	mov	CIF_BYTES(%rbp),%eax
+	add	$15, %rax
+	and	$-16, %rax
+	cmpq	$0x1000, %rax
+	jb	Lch_done
+Lch_probe:
+	subq	$0x1000,%rsp
+	orl	$0x0, (%rsp)
+	subq	$0x1000,%rax
+	cmpq	$0x1000,%rax
+	ja	Lch_probe
+Lch_done:
+	subq	%rax, %rsp
+	orl	$0x0, (%rsp)
+	lea	32(%rsp), %rax
+	mov	%rax, STACK(%rbp)
+
+	mov	ECIF(%rbp), %rdx
+	mov	STACK(%rbp), %rcx
+	callq	*PREP_ARGS_FN(%rbp)
+
+	mov	STACK(%rbp), %rsp
+
+	movlpd	24(%rsp), %xmm3
+	movd	%xmm3, %r9
+
+	movlpd	16(%rsp), %xmm2
+	movd	%xmm2, %r8
+
+	movlpd	8(%rsp), %xmm1
+	movd	%xmm1, %rdx
+
+	movlpd	(%rsp), %xmm0
+	movd	%xmm0, %rcx
+
+	callq	*FN(%rbp)
+.Lret_struct4b:
+ 	cmpl	$FFI_TYPE_SMALL_STRUCT_4B, CIF_FLAGS(%rbp)
+ 	jne .Lret_struct2b
+
+	mov	RVALUE(%rbp), %rcx
+	mov	%eax, (%rcx)
+	jmp	.Lret_void
+
+.Lret_struct2b:
+	cmpl	$FFI_TYPE_SMALL_STRUCT_2B, CIF_FLAGS(%rbp)
+	jne .Lret_struct1b
+	
+	mov	RVALUE(%rbp), %rcx
+	mov	%ax, (%rcx)
+	jmp .Lret_void
+	
+.Lret_struct1b:
+	cmpl	$FFI_TYPE_SMALL_STRUCT_1B, CIF_FLAGS(%rbp)
+	jne .Lret_uint8
+	
+	mov	RVALUE(%rbp), %rcx
+	mov	%al, (%rcx)
+	jmp .Lret_void
+
+.Lret_uint8:
+	cmpl	$FFI_TYPE_UINT8, CIF_FLAGS(%rbp)
+	jne .Lret_sint8
+	
+        mov     RVALUE(%rbp), %rcx
+        movzbq  %al, %rax
+	movq    %rax, (%rcx)
+	jmp .Lret_void
+
+.Lret_sint8:
+	cmpl	$FFI_TYPE_SINT8, CIF_FLAGS(%rbp)
+	jne .Lret_uint16
+	
+        mov     RVALUE(%rbp), %rcx
+        movsbq  %al, %rax
+	movq    %rax, (%rcx)
+	jmp .Lret_void
+
+.Lret_uint16:
+	cmpl	$FFI_TYPE_UINT16, CIF_FLAGS(%rbp)
+	jne .Lret_sint16
+	
+        mov     RVALUE(%rbp), %rcx
+        movzwq  %ax, %rax
+	movq    %rax, (%rcx)
+	jmp .Lret_void
+
+.Lret_sint16:
+	cmpl	$FFI_TYPE_SINT16, CIF_FLAGS(%rbp)
+	jne .Lret_uint32
+	
+        mov     RVALUE(%rbp), %rcx
+        movswq  %ax, %rax
+	movq    %rax, (%rcx)
+	jmp .Lret_void
+
+.Lret_uint32:
+	cmpl	$FFI_TYPE_UINT32, CIF_FLAGS(%rbp)
+	jne .Lret_sint32
+	
+        mov     RVALUE(%rbp), %rcx
+        movl    %eax, %eax
+	movq    %rax, (%rcx)
+	jmp .Lret_void
+
+.Lret_sint32:
+ 	cmpl	$FFI_TYPE_SINT32, CIF_FLAGS(%rbp)
+ 	jne	.Lret_float
+
+	mov	RVALUE(%rbp), %rcx
+	cltq
+	movq	%rax, (%rcx)
+	jmp	.Lret_void
+
+.Lret_float:
+ 	cmpl	$FFI_TYPE_FLOAT, CIF_FLAGS(%rbp)
+ 	jne	.Lret_double
+
+ 	mov	RVALUE(%rbp), %rax
+ 	movss	%xmm0, (%rax)
+ 	jmp	.Lret_void
+
+.Lret_double:
+ 	cmpl	$FFI_TYPE_DOUBLE, CIF_FLAGS(%rbp)
+ 	jne	.Lret_sint64
+
+ 	mov	RVALUE(%rbp), %rax
+ 	movlpd	%xmm0, (%rax)
+ 	jmp	.Lret_void
+
+.Lret_sint64:
+  	cmpl	$FFI_TYPE_SINT64, CIF_FLAGS(%rbp)
+  	jne	.Lret_void
+
+ 	mov	RVALUE(%rbp), %rcx
+ 	mov	%rax, (%rcx)
+ 	jmp	.Lret_void
+	
+.Lret_void:
+	xor	%rax, %rax
+
+	lea	16(%rbp), %rsp
+	pop	%rbp
+	retq
+.ffi_call_win64_end:
+#endif /* !_MSC_VER */
+