dnl x86 calling conventions checking.
dnl Copyright 2000, 2003, 2010, 2013 Free Software Foundation,
Inc.
dnl
This file is part of the GNU MP Library test suite.
dnl The GNU MP Library test suite is free software
; you can redistribute it
dnl
and/
or modify it under the terms of the GNU General
Public License as
dnl published by the Free Software Foundation
; either version 3 of the
dnl License,
or (at your
option) any later
version.
dnl The GNU MP Library test suite is distributed in the hope that it will be
dnl useful, but WITHOUT ANY WARRANTY
; without even the implied warranty of
dnl MERCHANTABILITY
or FITNESS
FOR A PARTICULAR PURPOSE. See the GNU General
dnl
Public License
for more details.
dnl You should have received a copy of the GNU General
Public License along
dnl with the GNU MP Library test suite.
If not, see
dnl
https://www.gnu.org/licenses/.
dnl The current
version of the
code attempts to keep the
call/return
dnl prediction
stack valid, but matching calls
and returns.
include(`../config.m4
')
C void x86_fldcw (unsigned
short cw)
;
C
C Execute an fldcw, setting the x87 control
word to cw.
PROLOGUE(x86_fldcw)
fldcw 4(%
esp)
ret
EPILOGUE()
C unsigned
short x86_fstcw (void)
;
C
C Execute an fstcw, returning the current x87 control
word.
PROLOGUE(x86_fstcw)
xor %
eax, %
eax
push %
eax
fstcw (%
esp)
pop %
eax
ret
EPILOGUE()
dnl Instrumented profiling doesn
't come out quite right below, since we don't
dnl do an actual
"ret". There
's only a few instructions here, so there's no
dnl great need to get them separately accounted, just let them get attributed
dnl to the caller. FIXME
this comment might no longer be true.
ifelse(WANT_PROFILING,instrument,
`define(`WANT_PROFILING
',no)')
C
int calling_conventions (...)
;
C
C The global variable
"calling_conventions_function" is the function to
C
call, with the arguments as passed here.
C
C Perhaps the finit should be done only
if the tags
word isn
't clear, but
C nothing uses the rounding mode
or anything at the moment.
define(`WANT_EBX
', eval(4*0)($1))
define(`WANT_EBP
', eval(4*1)($1))
define(`WANT_ESI
', eval(4*2)($1))
define(`WANT_EDI
', eval(4*3)($1))
define(`JUNK_EAX
', eval(4*4)($1))
define(`JUNK_ECX
', eval(4*5)($1))
define(`JUNK_EDX
', eval(4*6)($1))
define(`SAVE_EBX
', eval(4*7)($1))
define(`SAVE_EBP
', eval(4*8)($1))
define(`SAVE_ESI
', eval(4*9)($1))
define(`SAVE_EDI
', eval(4*10)($1))
define(`RETADDR
', eval(4*11)($1))
define(`EBX
', eval(4*12)($1))
define(`
EBP', eval(4*13)($1))
define(`
ESI', eval(4*14)($1))
define(`
EDI', eval(4*15)($1))
define(`
EFLAGS', eval(4*16)($1))
define(G,
m4_assert_numargs(1)
`GSYM_PREFIX`
'$1')
TEXT
ALIGN(8)
PROLOGUE(calling_conventions)
LEA( G(calling_conventions_values), %
ecx)
pop RETADDR(%
ecx)
mov %ebx, SAVE_EBX(%
ecx)
mov %
ebp, SAVE_EBP(%
ecx)
mov %
esi, SAVE_ESI(%
ecx)
mov %
edi, SAVE_EDI(%
ecx)
C Values we expect to see unchanged, as per amd64check.c
mov WANT_EBX(%
ecx), %ebx
mov WANT_EBP(%
ecx), %
ebp
mov WANT_ESI(%
ecx), %
esi
mov WANT_EDI(%
ecx), %
edi
C Try to provoke a problem by starting with junk in the caller-saves
C registers, especially in %
eax and %
edx which will be return values
mov JUNK_EAX(%
ecx), %
eax
mov JUNK_EDX(%
ecx), %
edx
C
mov JUNK_ECX(%
ecx), %
ecx
ifdef(`PIC
',`
LEA( G(calling_conventions_function), %
ecx)
call *(%
ecx)
',`
call *G(calling_conventions_function)
')
LEA( G(calling_conventions_values), %
ecx)
mov %ebx, EBX(%
ecx)
mov %
ebp,
EBP(%
ecx)
mov %
esi,
ESI(%
ecx)
mov %
edi,
EDI(%
ecx)
pushf
pop %ebx
mov %ebx,
EFLAGS(%
ecx)
mov SAVE_EBX(%
ecx), %ebx
mov SAVE_ESI(%
ecx), %
esi
mov SAVE_EDI(%
ecx), %
edi
mov SAVE_EBP(%
ecx), %
ebp
push RETADDR(%
ecx)
ifdef(`PIC
',`
LEA( G(calling_conventions_fenv), %
ecx)
fstenv (%
ecx)
',`
fstenv G(calling_conventions_fenv)
')
finit
ret
EPILOGUE()
ASM_END()
