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// z_Linux_asm.S: - microtasking routines specifically
// written for Intel platforms running Linux* OS
//
////===----------------------------------------------------------------------===//
////
//// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
//// See https://llvm.org/LICENSE.txt for license information.
//// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
////
////===----------------------------------------------------------------------===//
//
// -----------------------------------------------------------------------
// macros
// -----------------------------------------------------------------------
#include "kmp_config.h"
#if KMP_ARCH_X86 || KMP_ARCH_X86_64
# if KMP_MIC
// the 'delay r16/r32/r64' should be used instead of the 'pause'.
// The delay operation has the effect of removing the current thread from
// the round-robin HT mechanism, and therefore speeds up the issue rate of
// the other threads on the same core.
//
// A value of 0 works fine for <= 2 threads per core, but causes the EPCC
// barrier time to increase greatly for 3 or more threads per core.
//
// A value of 100 works pretty well for up to 4 threads per core, but isn't
// quite as fast as 0 for 2 threads per core.
//
// We need to check what happens for oversubscription / > 4 threads per core.
// It is possible that we need to pass the delay value in as a parameter
// that the caller determines based on the total # threads / # cores.
//
//.macro pause_op
// mov $100, %rax
// delay %rax
//.endm
# else
# define pause_op .byte 0xf3,0x90
# endif // KMP_MIC
# if KMP_OS_DARWIN
# define KMP_PREFIX_UNDERSCORE(x) _##x // extra underscore for OS X* symbols
# define KMP_LABEL(x) L_##x // form the name of label
.macro KMP_CFI_DEF_OFFSET
.endmacro
.macro KMP_CFI_OFFSET
.endmacro
.macro KMP_CFI_REGISTER
.endmacro
.macro KMP_CFI_DEF
.endmacro
.macro ALIGN
.align $0
.endmacro
.macro DEBUG_INFO
/* Not sure what .size does in icc, not sure if we need to do something
similar for OS X*.
*/
.endmacro
.macro PROC
ALIGN 4
.globl KMP_PREFIX_UNDERSCORE($0)
KMP_PREFIX_UNDERSCORE($0):
.endmacro
# else // KMP_OS_DARWIN
# define KMP_PREFIX_UNDERSCORE(x) x //no extra underscore for Linux* OS symbols
// Format labels so that they don't override function names in gdb's backtraces
// MIC assembler doesn't accept .L syntax, the L works fine there (as well as
// on OS X*)
# if KMP_MIC
# define KMP_LABEL(x) L_##x // local label
# else
# define KMP_LABEL(x) .L_##x // local label hidden from backtraces
# endif // KMP_MIC
.macro ALIGN size
.align 1<<(\size)
.endm
.macro DEBUG_INFO proc
.cfi_endproc
// Not sure why we need .type and .size for the functions
.align 16
.type \proc,@function
.size \proc,.-\proc
.endm
.macro PROC proc
ALIGN 4
.globl KMP_PREFIX_UNDERSCORE(\proc)
KMP_PREFIX_UNDERSCORE(\proc):
.cfi_startproc
.endm
.macro KMP_CFI_DEF_OFFSET sz
.cfi_def_cfa_offset \sz
.endm
.macro KMP_CFI_OFFSET reg, sz
.cfi_offset \reg,\sz
.endm
.macro KMP_CFI_REGISTER reg
.cfi_def_cfa_register \reg
.endm
.macro KMP_CFI_DEF reg, sz
.cfi_def_cfa \reg,\sz
.endm
# endif // KMP_OS_DARWIN
#endif // KMP_ARCH_X86 || KMP_ARCH_x86_64
#if (KMP_OS_LINUX || KMP_OS_DARWIN) && KMP_ARCH_AARCH64
# if KMP_OS_DARWIN
# define KMP_PREFIX_UNDERSCORE(x) _##x // extra underscore for OS X* symbols
# define KMP_LABEL(x) L_##x // form the name of label
.macro ALIGN
.align $0
.endmacro
.macro DEBUG_INFO
/* Not sure what .size does in icc, not sure if we need to do something
similar for OS X*.
*/
.endmacro
.macro PROC
ALIGN 4
.globl KMP_PREFIX_UNDERSCORE($0)
KMP_PREFIX_UNDERSCORE($0):
.endmacro
# else // KMP_OS_DARWIN
# define KMP_PREFIX_UNDERSCORE(x) x // no extra underscore for Linux* OS symbols
// Format labels so that they don't override function names in gdb's backtraces
# define KMP_LABEL(x) .L_##x // local label hidden from backtraces
.macro ALIGN size
.align 1<<(\size)
.endm
.macro DEBUG_INFO proc
.cfi_endproc
// Not sure why we need .type and .size for the functions
ALIGN 2
.type \proc,@function
.size \proc,.-\proc
.endm
.macro PROC proc
ALIGN 2
.globl KMP_PREFIX_UNDERSCORE(\proc)
KMP_PREFIX_UNDERSCORE(\proc):
.cfi_startproc
.endm
# endif // KMP_OS_DARWIN
#endif // (KMP_OS_LINUX || KMP_OS_DARWIN) && KMP_ARCH_AARCH64
// -----------------------------------------------------------------------
// data
// -----------------------------------------------------------------------
#ifdef KMP_GOMP_COMPAT
// Support for unnamed common blocks.
//
// Because the symbol ".gomp_critical_user_" contains a ".", we have to
// put this stuff in assembly.
# if KMP_ARCH_X86
# if KMP_OS_DARWIN
.data
.comm .gomp_critical_user_,32
.data
.globl ___kmp_unnamed_critical_addr
___kmp_unnamed_critical_addr:
.long .gomp_critical_user_
# else /* Linux* OS */
.data
.comm .gomp_critical_user_,32,8
.data
ALIGN 4
.global __kmp_unnamed_critical_addr
__kmp_unnamed_critical_addr:
.4byte .gomp_critical_user_
.type __kmp_unnamed_critical_addr,@object
.size __kmp_unnamed_critical_addr,4
# endif /* KMP_OS_DARWIN */
# endif /* KMP_ARCH_X86 */
# if KMP_ARCH_X86_64
# if KMP_OS_DARWIN
.data
.comm .gomp_critical_user_,32
.data
.globl ___kmp_unnamed_critical_addr
___kmp_unnamed_critical_addr:
.quad .gomp_critical_user_
# else /* Linux* OS */
.data
.comm .gomp_critical_user_,32,8
.data
ALIGN 8
.global __kmp_unnamed_critical_addr
__kmp_unnamed_critical_addr:
.8byte .gomp_critical_user_
.type __kmp_unnamed_critical_addr,@object
.size __kmp_unnamed_critical_addr,8
# endif /* KMP_OS_DARWIN */
# endif /* KMP_ARCH_X86_64 */
#endif /* KMP_GOMP_COMPAT */
#if KMP_ARCH_X86 && !KMP_ARCH_PPC64
// -----------------------------------------------------------------------
// microtasking routines specifically written for IA-32 architecture
// running Linux* OS
// -----------------------------------------------------------------------
.ident "Intel Corporation"
.data
ALIGN 4
// void
// __kmp_x86_pause( void );
.text
PROC __kmp_x86_pause
pause_op
ret
DEBUG_INFO __kmp_x86_pause
# if !KMP_ASM_INTRINS
//------------------------------------------------------------------------
// kmp_int32
// __kmp_test_then_add32( volatile kmp_int32 *p, kmp_int32 d );
PROC __kmp_test_then_add32
movl 4(%esp), %ecx
movl 8(%esp), %eax
lock
xaddl %eax,(%ecx)
ret
DEBUG_INFO __kmp_test_then_add32
//------------------------------------------------------------------------
// FUNCTION __kmp_xchg_fixed8
//
// kmp_int32
// __kmp_xchg_fixed8( volatile kmp_int8 *p, kmp_int8 d );
//
// parameters:
// p: 4(%esp)
// d: 8(%esp)
//
// return: %al
PROC __kmp_xchg_fixed8
movl 4(%esp), %ecx // "p"
movb 8(%esp), %al // "d"
lock
xchgb %al,(%ecx)
ret
DEBUG_INFO __kmp_xchg_fixed8
//------------------------------------------------------------------------
// FUNCTION __kmp_xchg_fixed16
//
// kmp_int16
// __kmp_xchg_fixed16( volatile kmp_int16 *p, kmp_int16 d );
//
// parameters:
// p: 4(%esp)
// d: 8(%esp)
// return: %ax
PROC __kmp_xchg_fixed16
movl 4(%esp), %ecx // "p"
movw 8(%esp), %ax // "d"
lock
xchgw %ax,(%ecx)
ret
DEBUG_INFO __kmp_xchg_fixed16
//------------------------------------------------------------------------
// FUNCTION __kmp_xchg_fixed32
//
// kmp_int32
// __kmp_xchg_fixed32( volatile kmp_int32 *p, kmp_int32 d );
//
// parameters:
// p: 4(%esp)
// d: 8(%esp)
//
// return: %eax
PROC __kmp_xchg_fixed32
movl 4(%esp), %ecx // "p"
movl 8(%esp), %eax // "d"
lock
xchgl %eax,(%ecx)
ret
DEBUG_INFO __kmp_xchg_fixed32
// kmp_int8
// __kmp_compare_and_store8( volatile kmp_int8 *p, kmp_int8 cv, kmp_int8 sv );
PROC __kmp_compare_and_store8
movl 4(%esp), %ecx
movb 8(%esp), %al
movb 12(%esp), %dl
lock
cmpxchgb %dl,(%ecx)
sete %al // if %al == (%ecx) set %al = 1 else set %al = 0
and $1, %eax // sign extend previous instruction
ret
DEBUG_INFO __kmp_compare_and_store8
// kmp_int16
// __kmp_compare_and_store16(volatile kmp_int16 *p, kmp_int16 cv, kmp_int16 sv);
PROC __kmp_compare_and_store16
movl 4(%esp), %ecx
movw 8(%esp), %ax
movw 12(%esp), %dx
lock
cmpxchgw %dx,(%ecx)
sete %al // if %ax == (%ecx) set %al = 1 else set %al = 0
and $1, %eax // sign extend previous instruction
ret
DEBUG_INFO __kmp_compare_and_store16
// kmp_int32
// __kmp_compare_and_store32(volatile kmp_int32 *p, kmp_int32 cv, kmp_int32 sv);
PROC __kmp_compare_and_store32
movl 4(%esp), %ecx
movl 8(%esp), %eax
movl 12(%esp), %edx
lock
cmpxchgl %edx,(%ecx)
sete %al // if %eax == (%ecx) set %al = 1 else set %al = 0
and $1, %eax // sign extend previous instruction
ret
DEBUG_INFO __kmp_compare_and_store32
// kmp_int32
// __kmp_compare_and_store64(volatile kmp_int64 *p, kmp_int64 cv, kmp_int64 s );
PROC __kmp_compare_and_store64
pushl %ebp
movl %esp, %ebp
pushl %ebx
pushl %edi
movl 8(%ebp), %edi
movl 12(%ebp), %eax // "cv" low order word
movl 16(%ebp), %edx // "cv" high order word
movl 20(%ebp), %ebx // "sv" low order word
movl 24(%ebp), %ecx // "sv" high order word
lock
cmpxchg8b (%edi)
sete %al // if %edx:eax == (%edi) set %al = 1 else set %al = 0
and $1, %eax // sign extend previous instruction
popl %edi
popl %ebx
movl %ebp, %esp
popl %ebp
ret
DEBUG_INFO __kmp_compare_and_store64
// kmp_int8
// __kmp_compare_and_store_ret8(volatile kmp_int8 *p, kmp_int8 cv, kmp_int8 sv);
PROC __kmp_compare_and_store_ret8
movl 4(%esp), %ecx
movb 8(%esp), %al
movb 12(%esp), %dl
lock
cmpxchgb %dl,(%ecx)
ret
DEBUG_INFO __kmp_compare_and_store_ret8
// kmp_int16
// __kmp_compare_and_store_ret16(volatile kmp_int16 *p, kmp_int16 cv,
// kmp_int16 sv);
PROC __kmp_compare_and_store_ret16
movl 4(%esp), %ecx
movw 8(%esp), %ax
movw 12(%esp), %dx
lock
cmpxchgw %dx,(%ecx)
ret
DEBUG_INFO __kmp_compare_and_store_ret16
// kmp_int32
// __kmp_compare_and_store_ret32(volatile kmp_int32 *p, kmp_int32 cv,
// kmp_int32 sv);
PROC __kmp_compare_and_store_ret32
movl 4(%esp), %ecx
movl 8(%esp), %eax
movl 12(%esp), %edx
lock
cmpxchgl %edx,(%ecx)
ret
DEBUG_INFO __kmp_compare_and_store_ret32
// kmp_int64
// __kmp_compare_and_store_ret64(volatile kmp_int64 *p, kmp_int64 cv,
// kmp_int64 sv);
PROC __kmp_compare_and_store_ret64
pushl %ebp
movl %esp, %ebp
pushl %ebx
pushl %edi
movl 8(%ebp), %edi
movl 12(%ebp), %eax // "cv" low order word
movl 16(%ebp), %edx // "cv" high order word
movl 20(%ebp), %ebx // "sv" low order word
movl 24(%ebp), %ecx // "sv" high order word
lock
cmpxchg8b (%edi)
popl %edi
popl %ebx
movl %ebp, %esp
popl %ebp
ret
DEBUG_INFO __kmp_compare_and_store_ret64
//------------------------------------------------------------------------
// FUNCTION __kmp_xchg_real32
//
// kmp_real32
// __kmp_xchg_real32( volatile kmp_real32 *addr, kmp_real32 data );
//
// parameters:
// addr: 4(%esp)
// data: 8(%esp)
//
// return: %eax
PROC __kmp_xchg_real32
pushl %ebp
movl %esp, %ebp
subl $4, %esp
pushl %esi
movl 4(%ebp), %esi
flds (%esi)
// load <addr>
fsts -4(%ebp)
// store old value
movl 8(%ebp), %eax
lock
xchgl %eax, (%esi)
flds -4(%ebp)
// return old value
popl %esi
movl %ebp, %esp
popl %ebp
ret
DEBUG_INFO __kmp_xchg_real32
# endif /* !KMP_ASM_INTRINS */
//------------------------------------------------------------------------
// int
// __kmp_invoke_microtask( void (*pkfn) (int gtid, int tid, ...),
// int gtid, int tid,
// int argc, void *p_argv[]
// #if OMPT_SUPPORT
// ,
// void **exit_frame_ptr
// #endif
// ) {
// #if OMPT_SUPPORT
// *exit_frame_ptr = OMPT_GET_FRAME_ADDRESS(0);
// #endif
//
// (*pkfn)( & gtid, & tid, argv[0], ... );
// return 1;
// }
// -- Begin __kmp_invoke_microtask
// mark_begin;
PROC __kmp_invoke_microtask
pushl %ebp
KMP_CFI_DEF_OFFSET 8
KMP_CFI_OFFSET ebp,-8
movl %esp,%ebp // establish the base pointer for this routine.
KMP_CFI_REGISTER ebp
subl $8,%esp // allocate space for two local variables.
// These varibales are:
// argv: -4(%ebp)
// temp: -8(%ebp)
//
pushl %ebx // save %ebx to use during this routine
//
#if OMPT_SUPPORT
movl 28(%ebp),%ebx // get exit_frame address
movl %ebp,(%ebx) // save exit_frame
#endif
movl 20(%ebp),%ebx // Stack alignment - # args
addl $2,%ebx // #args +2 Always pass at least 2 args (gtid and tid)
shll $2,%ebx // Number of bytes used on stack: (#args+2)*4
movl %esp,%eax //
subl %ebx,%eax // %esp-((#args+2)*4) -> %eax -- without mods, stack ptr would be this
movl %eax,%ebx // Save to %ebx
andl $0xFFFFFF80,%eax // mask off 7 bits
subl %eax,%ebx // Amount to subtract from %esp
subl %ebx,%esp // Prepare the stack ptr --
// now it will be aligned on 128-byte boundary at the call
movl 24(%ebp),%eax // copy from p_argv[]
movl %eax,-4(%ebp) // into the local variable *argv.
movl 20(%ebp),%ebx // argc is 20(%ebp)
shll $2,%ebx
KMP_LABEL(invoke_2):
cmpl $0,%ebx
jg KMP_LABEL(invoke_4)
jmp KMP_LABEL(invoke_3)
ALIGN 2
KMP_LABEL(invoke_4):
movl -4(%ebp),%eax
subl $4,%ebx // decrement argc.
addl %ebx,%eax // index into argv.
movl (%eax),%edx
pushl %edx
jmp KMP_LABEL(invoke_2)
ALIGN 2
KMP_LABEL(invoke_3):
leal 16(%ebp),%eax // push & tid
pushl %eax
leal 12(%ebp),%eax // push & gtid
pushl %eax
movl 8(%ebp),%ebx
call *%ebx // call (*pkfn)();
movl $1,%eax // return 1;
movl -12(%ebp),%ebx // restore %ebx
leave
KMP_CFI_DEF esp,4
ret
DEBUG_INFO __kmp_invoke_microtask
// -- End __kmp_invoke_microtask
// kmp_uint64
// __kmp_hardware_timestamp(void)
PROC __kmp_hardware_timestamp
rdtsc
ret
DEBUG_INFO __kmp_hardware_timestamp
// -- End __kmp_hardware_timestamp
#endif /* KMP_ARCH_X86 */
#if KMP_ARCH_X86_64
// -----------------------------------------------------------------------
// microtasking routines specifically written for IA-32 architecture and
// Intel(R) 64 running Linux* OS
// -----------------------------------------------------------------------
// -- Machine type P
// mark_description "Intel Corporation";
.ident "Intel Corporation"
// -- .file "z_Linux_asm.S"
.data
ALIGN 4
// To prevent getting our code into .data section .text added to every routine
// definition for x86_64.
//------------------------------------------------------------------------
# if !KMP_ASM_INTRINS
//------------------------------------------------------------------------
// FUNCTION __kmp_test_then_add32
//
// kmp_int32
// __kmp_test_then_add32( volatile kmp_int32 *p, kmp_int32 d );
//
// parameters:
// p: %rdi
// d: %esi
//
// return: %eax
.text
PROC __kmp_test_then_add32
movl %esi, %eax // "d"
lock
xaddl %eax,(%rdi)
ret
DEBUG_INFO __kmp_test_then_add32
//------------------------------------------------------------------------
// FUNCTION __kmp_test_then_add64
//
// kmp_int64
// __kmp_test_then_add64( volatile kmp_int64 *p, kmp_int64 d );
//
// parameters:
// p: %rdi
// d: %rsi
// return: %rax
.text
PROC __kmp_test_then_add64
movq %rsi, %rax // "d"
lock
xaddq %rax,(%rdi)
ret
DEBUG_INFO __kmp_test_then_add64
//------------------------------------------------------------------------
// FUNCTION __kmp_xchg_fixed8
//
// kmp_int32
// __kmp_xchg_fixed8( volatile kmp_int8 *p, kmp_int8 d );
//
// parameters:
// p: %rdi
// d: %sil
//
// return: %al
.text
PROC __kmp_xchg_fixed8
movb %sil, %al // "d"
lock
xchgb %al,(%rdi)
ret
DEBUG_INFO __kmp_xchg_fixed8
//------------------------------------------------------------------------
// FUNCTION __kmp_xchg_fixed16
//
// kmp_int16
// __kmp_xchg_fixed16( volatile kmp_int16 *p, kmp_int16 d );
//
// parameters:
// p: %rdi
// d: %si
// return: %ax
.text
PROC __kmp_xchg_fixed16
movw %si, %ax // "d"
lock
xchgw %ax,(%rdi)
ret
DEBUG_INFO __kmp_xchg_fixed16
//------------------------------------------------------------------------
// FUNCTION __kmp_xchg_fixed32
//
// kmp_int32
// __kmp_xchg_fixed32( volatile kmp_int32 *p, kmp_int32 d );
//
// parameters:
// p: %rdi
// d: %esi
//
// return: %eax
.text
PROC __kmp_xchg_fixed32
movl %esi, %eax // "d"
lock
xchgl %eax,(%rdi)
ret
DEBUG_INFO __kmp_xchg_fixed32
//------------------------------------------------------------------------
// FUNCTION __kmp_xchg_fixed64
//
// kmp_int64
// __kmp_xchg_fixed64( volatile kmp_int64 *p, kmp_int64 d );
//
// parameters:
// p: %rdi
// d: %rsi
// return: %rax
.text
PROC __kmp_xchg_fixed64
movq %rsi, %rax // "d"
lock
xchgq %rax,(%rdi)
ret
DEBUG_INFO __kmp_xchg_fixed64
//------------------------------------------------------------------------
// FUNCTION __kmp_compare_and_store8
//
// kmp_int8
// __kmp_compare_and_store8( volatile kmp_int8 *p, kmp_int8 cv, kmp_int8 sv );
//
// parameters:
// p: %rdi
// cv: %esi
// sv: %edx
//
// return: %eax
.text
PROC __kmp_compare_and_store8
movb %sil, %al // "cv"
lock
cmpxchgb %dl,(%rdi)
sete %al // if %al == (%rdi) set %al = 1 else set %al = 0
andq $1, %rax // sign extend previous instruction for return value
ret
DEBUG_INFO __kmp_compare_and_store8
//------------------------------------------------------------------------
// FUNCTION __kmp_compare_and_store16
//
// kmp_int16
// __kmp_compare_and_store16( volatile kmp_int16 *p, kmp_int16 cv, kmp_int16 sv );
//
// parameters:
// p: %rdi
// cv: %si
// sv: %dx
//
// return: %eax
.text
PROC __kmp_compare_and_store16
movw %si, %ax // "cv"
lock
cmpxchgw %dx,(%rdi)
sete %al // if %ax == (%rdi) set %al = 1 else set %al = 0
andq $1, %rax // sign extend previous instruction for return value
ret
DEBUG_INFO __kmp_compare_and_store16
//------------------------------------------------------------------------
// FUNCTION __kmp_compare_and_store32
//
// kmp_int32
// __kmp_compare_and_store32( volatile kmp_int32 *p, kmp_int32 cv, kmp_int32 sv );
//
// parameters:
// p: %rdi
// cv: %esi
// sv: %edx
//
// return: %eax
.text
PROC __kmp_compare_and_store32
movl %esi, %eax // "cv"
lock
cmpxchgl %edx,(%rdi)
sete %al // if %eax == (%rdi) set %al = 1 else set %al = 0
andq $1, %rax // sign extend previous instruction for return value
ret
DEBUG_INFO __kmp_compare_and_store32
//------------------------------------------------------------------------
// FUNCTION __kmp_compare_and_store64
//
// kmp_int32
// __kmp_compare_and_store64( volatile kmp_int64 *p, kmp_int64 cv, kmp_int64 sv );
//
// parameters:
// p: %rdi
// cv: %rsi
// sv: %rdx
// return: %eax
.text
PROC __kmp_compare_and_store64
movq %rsi, %rax // "cv"
lock
cmpxchgq %rdx,(%rdi)
sete %al // if %rax == (%rdi) set %al = 1 else set %al = 0
andq $1, %rax // sign extend previous instruction for return value
ret
DEBUG_INFO __kmp_compare_and_store64
//------------------------------------------------------------------------
// FUNCTION __kmp_compare_and_store_ret8
//
// kmp_int8
// __kmp_compare_and_store_ret8( volatile kmp_int8 *p, kmp_int8 cv, kmp_int8 sv );
//
// parameters:
// p: %rdi
// cv: %esi
// sv: %edx
//
// return: %eax
.text
PROC __kmp_compare_and_store_ret8
movb %sil, %al // "cv"
lock
cmpxchgb %dl,(%rdi)
ret
DEBUG_INFO __kmp_compare_and_store_ret8
//------------------------------------------------------------------------
// FUNCTION __kmp_compare_and_store_ret16
//
// kmp_int16
// __kmp_compare_and_store16_ret( volatile kmp_int16 *p, kmp_int16 cv, kmp_int16 sv );
//
// parameters:
// p: %rdi
// cv: %si
// sv: %dx
//
// return: %eax
.text
PROC __kmp_compare_and_store_ret16
movw %si, %ax // "cv"
lock
cmpxchgw %dx,(%rdi)
ret
DEBUG_INFO __kmp_compare_and_store_ret16
//------------------------------------------------------------------------
// FUNCTION __kmp_compare_and_store_ret32
//
// kmp_int32
// __kmp_compare_and_store_ret32( volatile kmp_int32 *p, kmp_int32 cv, kmp_int32 sv );
//
// parameters:
// p: %rdi
// cv: %esi
// sv: %edx
//
// return: %eax
.text
PROC __kmp_compare_and_store_ret32
movl %esi, %eax // "cv"
lock
cmpxchgl %edx,(%rdi)
ret
DEBUG_INFO __kmp_compare_and_store_ret32
//------------------------------------------------------------------------
// FUNCTION __kmp_compare_and_store_ret64
//
// kmp_int64
// __kmp_compare_and_store_ret64( volatile kmp_int64 *p, kmp_int64 cv, kmp_int64 sv );
//
// parameters:
// p: %rdi
// cv: %rsi
// sv: %rdx
// return: %eax
.text
PROC __kmp_compare_and_store_ret64
movq %rsi, %rax // "cv"
lock
cmpxchgq %rdx,(%rdi)
ret
DEBUG_INFO __kmp_compare_and_store_ret64
# endif /* !KMP_ASM_INTRINS */
# if !KMP_MIC
# if !KMP_ASM_INTRINS
//------------------------------------------------------------------------
// FUNCTION __kmp_xchg_real32
//
// kmp_real32
// __kmp_xchg_real32( volatile kmp_real32 *addr, kmp_real32 data );
//
// parameters:
// addr: %rdi
// data: %xmm0 (lower 4 bytes)
//
// return: %xmm0 (lower 4 bytes)
.text
PROC __kmp_xchg_real32
movd %xmm0, %eax // load "data" to eax
lock
xchgl %eax, (%rdi)
movd %eax, %xmm0 // load old value into return register
ret
DEBUG_INFO __kmp_xchg_real32
//------------------------------------------------------------------------
// FUNCTION __kmp_xchg_real64
//
// kmp_real64
// __kmp_xchg_real64( volatile kmp_real64 *addr, kmp_real64 data );
//
// parameters:
// addr: %rdi
// data: %xmm0 (lower 8 bytes)
// return: %xmm0 (lower 8 bytes)
.text
PROC __kmp_xchg_real64
movd %xmm0, %rax // load "data" to rax
lock
xchgq %rax, (%rdi)
movd %rax, %xmm0 // load old value into return register
ret
DEBUG_INFO __kmp_xchg_real64
# endif /* !KMP_MIC */
# endif /* !KMP_ASM_INTRINS */
//------------------------------------------------------------------------
// int
// __kmp_invoke_microtask( void (*pkfn) (int gtid, int tid, ...),
// int gtid, int tid,
// int argc, void *p_argv[]
// #if OMPT_SUPPORT
// ,
// void **exit_frame_ptr
// #endif
// ) {
// #if OMPT_SUPPORT
// *exit_frame_ptr = OMPT_GET_FRAME_ADDRESS(0);
// #endif
//
// (*pkfn)( & gtid, & tid, argv[0], ... );
// return 1;
// }
//
// note: at call to pkfn must have %rsp 128-byte aligned for compiler
//
// parameters:
// %rdi: pkfn
// %esi: gtid
// %edx: tid
// %ecx: argc
// %r8: p_argv
// %r9: &exit_frame
//
// locals:
// __gtid: gtid parm pushed on stack so can pass &gtid to pkfn
// __tid: tid parm pushed on stack so can pass &tid to pkfn
//
// reg temps:
// %rax: used all over the place
// %rdx: used in stack pointer alignment calculation
// %r11: used to traverse p_argv array
// %rsi: used as temporary for stack parameters
// used as temporary for number of pkfn parms to push
// %rbx: used to hold pkfn address, and zero constant, callee-save
//
// return: %eax (always 1/TRUE)
__gtid = -16
__tid = -24
// -- Begin __kmp_invoke_microtask
// mark_begin;
.text
PROC __kmp_invoke_microtask
pushq %rbp // save base pointer
KMP_CFI_DEF_OFFSET 16
KMP_CFI_OFFSET rbp,-16
movq %rsp,%rbp // establish the base pointer for this routine.
KMP_CFI_REGISTER rbp
#if OMPT_SUPPORT
movq %rbp, (%r9) // save exit_frame
#endif
pushq %rbx // %rbx is callee-saved register
pushq %rsi // Put gtid on stack so can pass &tgid to pkfn
pushq %rdx // Put tid on stack so can pass &tid to pkfn
movq %rcx, %rax // Stack alignment calculation begins; argc -> %rax
movq $0, %rbx // constant for cmovs later
subq $4, %rax // subtract four args passed in registers to pkfn
#if KMP_MIC
js KMP_LABEL(kmp_0) // jump to movq
jmp KMP_LABEL(kmp_0_exit) // jump ahead
KMP_LABEL(kmp_0):
movq %rbx, %rax // zero negative value in %rax <- max(0, argc-4)
KMP_LABEL(kmp_0_exit):
#else
cmovsq %rbx, %rax // zero negative value in %rax <- max(0, argc-4)
#endif // KMP_MIC
movq %rax, %rsi // save max(0, argc-4) -> %rsi for later
shlq $3, %rax // Number of bytes used on stack: max(0, argc-4)*8
movq %rsp, %rdx //
subq %rax, %rdx // %rsp-(max(0,argc-4)*8) -> %rdx --
// without align, stack ptr would be this
movq %rdx, %rax // Save to %rax
andq $0xFFFFFFFFFFFFFF80, %rax // mask off lower 7 bits (128 bytes align)
subq %rax, %rdx // Amount to subtract from %rsp
subq %rdx, %rsp // Prepare the stack ptr --
// now %rsp will align to 128-byte boundary at call site
// setup pkfn parameter reg and stack
movq %rcx, %rax // argc -> %rax
cmpq $0, %rsi
je KMP_LABEL(kmp_invoke_pass_parms) // jump ahead if no parms to push
shlq $3, %rcx // argc*8 -> %rcx
movq %r8, %rdx // p_argv -> %rdx
addq %rcx, %rdx // &p_argv[argc] -> %rdx
movq %rsi, %rcx // max (0, argc-4) -> %rcx
KMP_LABEL(kmp_invoke_push_parms):
// push nth - 7th parms to pkfn on stack
subq $8, %rdx // decrement p_argv pointer to previous parm
movq (%rdx), %rsi // p_argv[%rcx-1] -> %rsi
pushq %rsi // push p_argv[%rcx-1] onto stack (reverse order)
subl $1, %ecx
// C69570: "X86_64_RELOC_BRANCH not supported" error at linking on mac_32e
// if the name of the label that is an operand of this jecxz starts with a dot (".");
// Apple's linker does not support 1-byte length relocation;
// Resolution: replace all .labelX entries with L_labelX.
jecxz KMP_LABEL(kmp_invoke_pass_parms) // stop when four p_argv[] parms left
jmp KMP_LABEL(kmp_invoke_push_parms)
ALIGN 3
KMP_LABEL(kmp_invoke_pass_parms): // put 1st - 6th parms to pkfn in registers.
// order here is important to avoid trashing
// registers used for both input and output parms!
movq %rdi, %rbx // pkfn -> %rbx
leaq __gtid(%rbp), %rdi // &gtid -> %rdi (store 1st parm to pkfn)
leaq __tid(%rbp), %rsi // &tid -> %rsi (store 2nd parm to pkfn)
movq %r8, %r11 // p_argv -> %r11
#if KMP_MIC
cmpq $4, %rax // argc >= 4?
jns KMP_LABEL(kmp_4) // jump to movq
jmp KMP_LABEL(kmp_4_exit) // jump ahead
KMP_LABEL(kmp_4):
movq 24(%r11), %r9 // p_argv[3] -> %r9 (store 6th parm to pkfn)
KMP_LABEL(kmp_4_exit):
cmpq $3, %rax // argc >= 3?
jns KMP_LABEL(kmp_3) // jump to movq
jmp KMP_LABEL(kmp_3_exit) // jump ahead
KMP_LABEL(kmp_3):
movq 16(%r11), %r8 // p_argv[2] -> %r8 (store 5th parm to pkfn)
KMP_LABEL(kmp_3_exit):
cmpq $2, %rax // argc >= 2?
jns KMP_LABEL(kmp_2) // jump to movq
jmp KMP_LABEL(kmp_2_exit) // jump ahead
KMP_LABEL(kmp_2):
movq 8(%r11), %rcx // p_argv[1] -> %rcx (store 4th parm to pkfn)
KMP_LABEL(kmp_2_exit):
cmpq $1, %rax // argc >= 1?
jns KMP_LABEL(kmp_1) // jump to movq
jmp KMP_LABEL(kmp_1_exit) // jump ahead
KMP_LABEL(kmp_1):
movq (%r11), %rdx // p_argv[0] -> %rdx (store 3rd parm to pkfn)
KMP_LABEL(kmp_1_exit):
#else
cmpq $4, %rax // argc >= 4?
cmovnsq 24(%r11), %r9 // p_argv[3] -> %r9 (store 6th parm to pkfn)
cmpq $3, %rax // argc >= 3?
cmovnsq 16(%r11), %r8 // p_argv[2] -> %r8 (store 5th parm to pkfn)
cmpq $2, %rax // argc >= 2?
cmovnsq 8(%r11), %rcx // p_argv[1] -> %rcx (store 4th parm to pkfn)
cmpq $1, %rax // argc >= 1?
cmovnsq (%r11), %rdx // p_argv[0] -> %rdx (store 3rd parm to pkfn)
#endif // KMP_MIC
call *%rbx // call (*pkfn)();
movq $1, %rax // move 1 into return register;
movq -8(%rbp), %rbx // restore %rbx using %rbp since %rsp was modified
movq %rbp, %rsp // restore stack pointer
popq %rbp // restore frame pointer
KMP_CFI_DEF rsp,8
ret
DEBUG_INFO __kmp_invoke_microtask
// -- End __kmp_invoke_microtask
// kmp_uint64
// __kmp_hardware_timestamp(void)
.text
PROC __kmp_hardware_timestamp
rdtsc
shlq $32, %rdx
orq %rdx, %rax
ret
DEBUG_INFO __kmp_hardware_timestamp
// -- End __kmp_hardware_timestamp
//------------------------------------------------------------------------
// FUNCTION __kmp_bsr32
//
// int
// __kmp_bsr32( int );
.text
PROC __kmp_bsr32
bsr %edi,%eax
ret
DEBUG_INFO __kmp_bsr32
// -----------------------------------------------------------------------
#endif /* KMP_ARCH_X86_64 */
// '
#if (KMP_OS_LINUX || KMP_OS_DARWIN) && KMP_ARCH_AARCH64
//------------------------------------------------------------------------
// int
// __kmp_invoke_microtask( void (*pkfn) (int gtid, int tid, ...),
// int gtid, int tid,
// int argc, void *p_argv[]
// #if OMPT_SUPPORT
// ,
// void **exit_frame_ptr
// #endif
// ) {
// #if OMPT_SUPPORT
// *exit_frame_ptr = OMPT_GET_FRAME_ADDRESS(0);
// #endif
//
// (*pkfn)( & gtid, & tid, argv[0], ... );
//
// // FIXME: This is done at call-site and can be removed here.
// #if OMPT_SUPPORT
// *exit_frame_ptr = 0;
// #endif
//
// return 1;
// }
//
// parameters:
// x0: pkfn
// w1: gtid
// w2: tid
// w3: argc
// x4: p_argv
// x5: &exit_frame
//
// locals:
// __gtid: gtid parm pushed on stack so can pass &gtid to pkfn
// __tid: tid parm pushed on stack so can pass &tid to pkfn
//
// reg temps:
// x8: used to hold pkfn address
// w9: used as temporary for number of pkfn parms
// x10: used to traverse p_argv array
// x11: used as temporary for stack placement calculation
// x12: used as temporary for stack parameters
// x19: used to preserve exit_frame_ptr, callee-save
//
// return: w0 (always 1/TRUE)
//
__gtid = 4
__tid = 8
// -- Begin __kmp_invoke_microtask
// mark_begin;
.text
PROC __kmp_invoke_microtask
stp x29, x30, [sp, #-16]!
# if OMPT_SUPPORT
stp x19, x20, [sp, #-16]!
# endif
mov x29, sp
orr w9, wzr, #1
add w9, w9, w3, lsr #1
sub sp, sp, w9, uxtw #4
mov x11, sp
mov x8, x0
str w1, [x29, #-__gtid]
str w2, [x29, #-__tid]
mov w9, w3
mov x10, x4
# if OMPT_SUPPORT
mov x19, x5
str x29, [x19]
# endif
sub x0, x29, #__gtid
sub x1, x29, #__tid
cbz w9, KMP_LABEL(kmp_1)
ldr x2, [x10]
sub w9, w9, #1
cbz w9, KMP_LABEL(kmp_1)
ldr x3, [x10, #8]!
sub w9, w9, #1
cbz w9, KMP_LABEL(kmp_1)
ldr x4, [x10, #8]!
sub w9, w9, #1
cbz w9, KMP_LABEL(kmp_1)
ldr x5, [x10, #8]!
sub w9, w9, #1
cbz w9, KMP_LABEL(kmp_1)
ldr x6, [x10, #8]!
sub w9, w9, #1
cbz w9, KMP_LABEL(kmp_1)
ldr x7, [x10, #8]!
KMP_LABEL(kmp_0):
sub w9, w9, #1
cbz w9, KMP_LABEL(kmp_1)
ldr x12, [x10, #8]!
str x12, [x11], #8
b KMP_LABEL(kmp_0)
KMP_LABEL(kmp_1):
blr x8
orr w0, wzr, #1
mov sp, x29
# if OMPT_SUPPORT
str xzr, [x19]
ldp x19, x20, [sp], #16
# endif
ldp x29, x30, [sp], #16
ret
DEBUG_INFO __kmp_invoke_microtask
// -- End __kmp_invoke_microtask
#endif /* (KMP_OS_LINUX || KMP_OS_DARWIN) && KMP_ARCH_AARCH64 */
#if KMP_ARCH_PPC64
//------------------------------------------------------------------------
// int
// __kmp_invoke_microtask( void (*pkfn) (int gtid, int tid, ...),
// int gtid, int tid,
// int argc, void *p_argv[]
// #if OMPT_SUPPORT
// ,
// void **exit_frame_ptr
// #endif
// ) {
// #if OMPT_SUPPORT
// *exit_frame_ptr = OMPT_GET_FRAME_ADDRESS(0);
// #endif
//
// (*pkfn)( & gtid, & tid, argv[0], ... );
//
// // FIXME: This is done at call-site and can be removed here.
// #if OMPT_SUPPORT
// *exit_frame_ptr = 0;
// #endif
//
// return 1;
// }
//
// parameters:
// r3: pkfn
// r4: gtid
// r5: tid
// r6: argc
// r7: p_argv
// r8: &exit_frame
//
// return: r3 (always 1/TRUE)
//
.text
# if KMP_ARCH_PPC64_ELFv2
.abiversion 2
# endif
.globl __kmp_invoke_microtask
# if KMP_ARCH_PPC64_ELFv2
.p2align 4
# else
.p2align 2
# endif
.type __kmp_invoke_microtask,@function
# if KMP_ARCH_PPC64_ELFv2
__kmp_invoke_microtask:
.Lfunc_begin0:
.Lfunc_gep0:
addis 2, 12, .TOC.-.Lfunc_gep0@ha
addi 2, 2, .TOC.-.Lfunc_gep0@l
.Lfunc_lep0:
.localentry __kmp_invoke_microtask, .Lfunc_lep0-.Lfunc_gep0
# else
.section .opd,"aw",@progbits
__kmp_invoke_microtask:
.p2align 3
.quad .Lfunc_begin0
.quad .TOC.@tocbase
.quad 0
.text
.Lfunc_begin0:
# endif
// -- Begin __kmp_invoke_microtask
// mark_begin;
// We need to allocate a stack frame large enough to hold all of the parameters
// on the stack for the microtask plus what this function needs. That's 48
// bytes under the ELFv1 ABI (32 bytes under ELFv2), plus 8*(2 + argc) for the
// parameters to the microtask, plus 8 bytes to store the values of r4 and r5,
// and 8 bytes to store r31. With OMP-T support, we need an additional 8 bytes
// to save r30 to hold a copy of r8.
.cfi_startproc
mflr 0
std 31, -8(1)
std 0, 16(1)
// This is unusual because normally we'd set r31 equal to r1 after the stack
// frame is established. In this case, however, we need to dynamically compute
// the stack frame size, and so we keep a direct copy of r1 to access our
// register save areas and restore the r1 value before returning.
mr 31, 1
.cfi_def_cfa_register r31
.cfi_offset r31, -8
.cfi_offset lr, 16
// Compute the size necessary for the local stack frame.
# if KMP_ARCH_PPC64_ELFv2
li 12, 72
# else
li 12, 88
# endif
sldi 0, 6, 3
add 12, 0, 12
neg 12, 12
// We need to make sure that the stack frame stays aligned (to 16 bytes).
li 0, -16
and 12, 0, 12
// Establish the local stack frame.
stdux 1, 1, 12
# if OMPT_SUPPORT
.cfi_offset r30, -16
std 30, -16(31)
std 1, 0(8)
mr 30, 8
# endif
// Store gtid and tid to the stack because they're passed by reference to the microtask.
stw 4, -20(31)
stw 5, -24(31)
mr 12, 6
mr 4, 7
cmpwi 0, 12, 1
blt 0, .Lcall
ld 5, 0(4)
cmpwi 0, 12, 2
blt 0, .Lcall
ld 6, 8(4)
cmpwi 0, 12, 3
blt 0, .Lcall
ld 7, 16(4)
cmpwi 0, 12, 4
blt 0, .Lcall
ld 8, 24(4)
cmpwi 0, 12, 5
blt 0, .Lcall
ld 9, 32(4)
cmpwi 0, 12, 6
blt 0, .Lcall
ld 10, 40(4)
cmpwi 0, 12, 7
blt 0, .Lcall
// There are more than 6 microtask parameters, so we need to store the
// remainder to the stack.
addi 12, 12, -6
mtctr 12
// These are set to 8 bytes before the first desired store address (we're using
// pre-increment loads and stores in the loop below). The parameter save area
// for the microtask begins 48 + 8*8 == 112 bytes above r1 for ELFv1 and
// 32 + 8*8 == 96 bytes above r1 for ELFv2.
addi 4, 4, 40
# if KMP_ARCH_PPC64_ELFv2
addi 12, 1, 88
# else
addi 12, 1, 104
# endif
.Lnext:
ldu 0, 8(4)
stdu 0, 8(12)
bdnz .Lnext
.Lcall:
# if KMP_ARCH_PPC64_ELFv2
std 2, 24(1)
mr 12, 3
#else
std 2, 40(1)
// For ELFv1, we need to load the actual function address from the function descriptor.
ld 12, 0(3)
ld 2, 8(3)
ld 11, 16(3)
#endif
addi 3, 31, -20
addi 4, 31, -24
mtctr 12
bctrl
# if KMP_ARCH_PPC64_ELFv2
ld 2, 24(1)
# else
ld 2, 40(1)
# endif
# if OMPT_SUPPORT
li 3, 0
std 3, 0(30)
# endif
li 3, 1
# if OMPT_SUPPORT
ld 30, -16(31)
# endif
mr 1, 31
ld 0, 16(1)
ld 31, -8(1)
mtlr 0
blr
.long 0
.quad 0
.Lfunc_end0:
.size __kmp_invoke_microtask, .Lfunc_end0-.Lfunc_begin0
.cfi_endproc
// -- End __kmp_invoke_microtask
#endif /* KMP_ARCH_PPC64 */
#if KMP_ARCH_RISCV64
//------------------------------------------------------------------------
//
// typedef void (*microtask_t)(int *gtid, int *tid, ...);
//
// int __kmp_invoke_microtask(microtask_t pkfn, int gtid, int tid, int argc,
// void *p_argv[]
// #if OMPT_SUPPORT
// ,
// void **exit_frame_ptr
// #endif
// ) {
// #if OMPT_SUPPORT
// *exit_frame_ptr = OMPT_GET_FRAME_ADDRESS(0);
// #endif
//
// (*pkfn)(&gtid, &tid, argv[0], ...);
//
// return 1;
// }
//
// Parameters:
// a0: pkfn
// a1: gtid
// a2: tid
// a3: argc
// a4: p_argv
// a5: exit_frame_ptr
//
// Locals:
// __gtid: gtid param pushed on stack so can pass &gtid to pkfn
// __tid: tid param pushed on stack so can pass &tid to pkfn
//
// Temp. registers:
//
// t0: used to calculate the dynamic stack size / used to hold pkfn address
// t1: used as temporary for stack placement calculation
// t2: used as temporary for stack arguments
// t3: used as temporary for number of remaining pkfn parms
// t4: used to traverse p_argv array
//
// return: a0 (always 1/TRUE)
//
__gtid = -20
__tid = -24
// -- Begin __kmp_invoke_microtask
// mark_begin;
.text
.globl __kmp_invoke_microtask
.p2align 1
.type __kmp_invoke_microtask,@function
__kmp_invoke_microtask:
.cfi_startproc
// First, save ra and fp
addi sp, sp, -16
sd ra, 8(sp)
sd fp, 0(sp)
addi fp, sp, 16
.cfi_def_cfa fp, 0
.cfi_offset ra, -8
.cfi_offset fp, -16
// Compute the dynamic stack size:
//
// - We need 8 bytes for storing 'gtid' and 'tid', so we can pass them by
// reference
// - We need 8 bytes for each argument that cannot be passed to the 'pkfn'
// function by register. Given that we have 8 of such registers (a[0-7])
// and two + 'argc' arguments (consider &gtid and &tid), we need to
// reserve max(0, argc - 6)*8 extra bytes
//
// The total number of bytes is then max(0, argc - 6)*8 + 8
// Compute max(0, argc - 6) using the following bithack:
// max(0, x) = x - (x & (x >> 31)), where x := argc - 6
// Source: http://graphics.stanford.edu/~seander/bithacks.html#IntegerMinOrMax
addi t0, a3, -6
srai t1, t0, 31
and t1, t0, t1
sub t0, t0, t1
addi t0, t0, 1
slli t0, t0, 3
sub sp, sp, t0
// Align the stack to 16 bytes
andi sp, sp, -16
mv t0, a0
mv t3, a3
mv t4, a4
#if OMPT_SUPPORT
// Save frame pointer into exit_frame
sd fp, 0(a5)
#endif
// Prepare arguments for the pkfn function (first 8 using a0-a7 registers)
sw a1, __gtid(fp)
sw a2, __tid(fp)
addi a0, fp, __gtid
addi a1, fp, __tid
beqz t3, .L_kmp_3
ld a2, 0(t4)
addi t3, t3, -1
beqz t3, .L_kmp_3
ld a3, 8(t4)
addi t3, t3, -1
beqz t3, .L_kmp_3
ld a4, 16(t4)
addi t3, t3, -1
beqz t3, .L_kmp_3
ld a5, 24(t4)
addi t3, t3, -1
beqz t3, .L_kmp_3
ld a6, 32(t4)
addi t3, t3, -1
beqz t3, .L_kmp_3
ld a7, 40(t4)
// Prepare any additional argument passed through the stack
addi t4, t4, 48
mv t1, sp
j .L_kmp_2
.L_kmp_1:
ld t2, 0(t4)
sd t2, 0(t1)
addi t4, t4, 8
addi t1, t1, 8
.L_kmp_2:
addi t3, t3, -1
bnez t3, .L_kmp_1
.L_kmp_3:
// Call pkfn function
jalr t0
// Restore stack and return
addi a0, zero, 1
addi sp, fp, -16
ld fp, 0(sp)
ld ra, 8(sp)
addi sp, sp, 16
ret
.Lfunc_end0:
.size __kmp_invoke_microtask, .Lfunc_end0-__kmp_invoke_microtask
.cfi_endproc
// -- End __kmp_invoke_microtask
#endif /* KMP_ARCH_RISCV64 */
#if KMP_ARCH_ARM || KMP_ARCH_MIPS
.data
.comm .gomp_critical_user_,32,8
.data
.align 4
.global __kmp_unnamed_critical_addr
__kmp_unnamed_critical_addr:
.4byte .gomp_critical_user_
.size __kmp_unnamed_critical_addr,4
#endif /* KMP_ARCH_ARM */
#if KMP_ARCH_PPC64 || KMP_ARCH_AARCH64 || KMP_ARCH_MIPS64 || KMP_ARCH_RISCV64
#ifndef KMP_PREFIX_UNDERSCORE
# define KMP_PREFIX_UNDERSCORE(x) x
#endif
.data
.comm .gomp_critical_user_,32,8
.data
.align 8
.global KMP_PREFIX_UNDERSCORE(__kmp_unnamed_critical_addr)
KMP_PREFIX_UNDERSCORE(__kmp_unnamed_critical_addr):
.8byte .gomp_critical_user_
#ifdef __ELF__
.size KMP_PREFIX_UNDERSCORE(__kmp_unnamed_critical_addr),8
#endif
#endif /* KMP_ARCH_PPC64 || KMP_ARCH_AARCH64 || KMP_ARCH_MIPS64 ||
KMP_ARCH_RISCV64 */
#if KMP_OS_LINUX
# if KMP_ARCH_ARM
.section .note.GNU-stack,"",%progbits
# else
.section .note.GNU-stack,"",@progbits
# endif
#endif