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#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 */