include/haproxy/compiler.h - haproxy - Gitiles

 /*
  * include/haproxy/compiler.h
  * This files contains some compiler-specific settings.
  *
  * Copyright (C) 2000-2020 Willy Tarreau - w@1wt.eu
  *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Lesser General Public
  * License as published by the Free Software Foundation, version 2.1
  * exclusively.
  *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Lesser General Public License for more details.
  *
  * You should have received a copy of the GNU Lesser General Public
  * License along with this library; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
  */

 #ifndef _HAPROXY_COMPILER_H
 #define _HAPROXY_COMPILER_H

 #ifdef DEBUG_USE_ABORT
 #include <stdlib.h>
 #endif

 /*
  * Gcc before 3.0 needs [0] to declare a variable-size array
  */
 #ifndef VAR_ARRAY
 #if defined(__GNUC__) && (__GNUC__ < 3)
 #define VAR_ARRAY	0
 #else
 #define VAR_ARRAY
 #endif
 #endif

 #if !defined(__GNUC__)
 /* Some versions of glibc irresponsibly redefine __attribute__() to empty for
  * non-gcc compilers, and as such, silently break all constructors with other
  * other compilers. Let's make sure such incompatibilities are detected if any,
  * or that the attribute is properly enforced.
  */
 #undef __attribute__
 #define __attribute__(x) __attribute__(x)
 #endif

 /* By default, gcc does not inline large chunks of code, but we want it to
  * respect our choices.
  */
 #if !defined(forceinline)
 #if !defined(__GNUC__) || (__GNUC__ < 3)
 #define forceinline inline
 #else
 #define forceinline inline __attribute__((always_inline))
 #endif
 #endif

 #ifndef __maybe_unused
 /* silence the "unused" warnings without having to place painful #ifdefs.
  * For use with variables or functions.
  */
 #define __maybe_unused __attribute__((unused))
 #endif

 /* These macros are used to declare a section name for a variable.
  * WARNING: keep section names short, as MacOS limits them to 16 characters.
  * The _START and _STOP attributes have to be placed after the start and stop
  * weak symbol declarations, and are only used by MacOS.
  */
 #if !defined(USE_OBSOLETE_LINKER)

 #ifdef __APPLE__
 #define HA_SECTION(s)           __attribute__((__section__("__DATA, " s)))
 #define HA_SECTION_START(s)     __asm("section$start$__DATA$" s)
 #define HA_SECTION_STOP(s)      __asm("section$end$__DATA$" s)
 #else
 #define HA_SECTION(s)           __attribute__((__section__(s)))
 #define HA_SECTION_START(s)
 #define HA_SECTION_STOP(s)
 #endif

 #else // obsolete linker below, let's just not force any section

 #define HA_SECTION(s)
 #define HA_SECTION_START(s)
 #define HA_SECTION_STOP(s)

 #endif // USE_OBSOLETE_LINKER

 /* Declare a symbol as weak if possible, otherwise global. Since we don't want to
  * error on multiple definitions, the symbol is declared weak. On MacOS ".weak"
  * does not exist and we must continue to use ".globl" instead. Note that
  * ".global" is to be avoided on other platforms as llvm complains about it
  * being used for symbols declared as weak elsewhere in the code. It may or may
  * not work depending on linkers and assemblers, this is only for advanced use
  * anyway (and most likely it will only work with !USE_OBSOLETE_LINKER).
  */
 #if defined(__APPLE__)
 #  define __HA_WEAK(sym)   __asm__(".globl " #sym)
 #else
 #  define __HA_WEAK(sym)   __asm__(".weak " #sym)
 #endif
 #define HA_WEAK(sym)    __HA_WEAK(sym)

 /* declare a symbol as global */
 #define __HA_GLOBL(sym)   __asm__(".globl " #sym)
 #define HA_GLOBL(sym)     __HA_GLOBL(sym)

 /* use this attribute on a variable to move it to the read_mostly section */
 #if !defined(__read_mostly)
 #define __read_mostly           HA_SECTION("read_mostly")
 #endif

 /* This allows gcc to know that some locations are never reached, for example
  * after a longjmp() in the Lua code, hence that some errors caught by such
  * methods cannot propagate further. This is important with gcc versions 6 and
  * above which can more aggressively detect null dereferences. The builtin
  * below was introduced in gcc 4.5, and before it we didn't care.
  */
 #ifdef DEBUG_USE_ABORT
 #define my_unreachable() abort()
 #else
 #if defined(__GNUC__) && (__GNUC__ >= 5 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 5))
 #define my_unreachable() __builtin_unreachable()
 #else
 #define my_unreachable() do { } while (1)
 #endif
 #endif

 /* This macro may be used to block constant propagation that lets the compiler
  * detect a possible NULL dereference on a variable resulting from an explicit
  * assignment in an impossible check. Sometimes a function is called which does
  * safety checks and returns NULL if safe conditions are not met. The place
  * where it's called cannot hit this condition and dereferencing the pointer
  * without first checking it will make the compiler emit a warning about a
  * "potential null pointer dereference" which is hard to work around. This
  * macro "washes" the pointer and prevents the compiler from emitting tests
  * branching to undefined instructions. It may only be used when the developer
  * is absolutely certain that the conditions are guaranteed and that the
  * pointer passed in argument cannot be NULL by design.
  */
 #define ALREADY_CHECKED(p) do { asm("" : "=rm"(p) : "0"(p)); } while (0)

 /* same as above but to be used to pass the input value to the output but
  * without letting the compiler know about its initial properties.
  */
 #define DISGUISE(v) ({ typeof(v) __v = (v); ALREADY_CHECKED(__v); __v; })

 /* Implements a static event counter where it's used. This is typically made to
  * report some warnings only once, either during boot or at runtime. It only
  * returns true on the very first call, and zero later. It's thread-safe and
  * uses a single byte of memory per call place. It relies on the atomic xchg
  * defined in atomic.h which is also part of the common API.
  */
 #define ONLY_ONCE() ({ static char __cnt; !_HA_ATOMIC_XCHG(&__cnt, 1); })

 /*
  * Gcc >= 3 provides the ability for the program to give hints to the
  * compiler about what branch of an if is most likely to be taken. This
  * helps the compiler produce the most compact critical paths, which is
  * generally better for the cache and to reduce the number of jumps.
  */
 #if !defined(likely)
 #if !defined(__GNUC__) || (__GNUC__ < 3)
 #define __builtin_expect(x,y) (x)
 #define likely(x) (x)
 #define unlikely(x) (x)
 #else
 #define likely(x) (__builtin_expect((x) != 0, 1))
 #define unlikely(x) (__builtin_expect((x) != 0, 0))
 #endif
 #endif

 #ifndef __GNUC_PREREQ__
 #if defined(__GNUC__) && !defined(__INTEL_COMPILER)
 #define __GNUC_PREREQ__(ma, mi) \
         (__GNUC__ > (ma) || __GNUC__ == (ma) && __GNUC_MINOR__ >= (mi))
 #else
 #define __GNUC_PREREQ__(ma, mi) 0
 #endif
 #endif

 #ifndef offsetof
 #if __GNUC_PREREQ__(4, 1)
 #define offsetof(type, field)  __builtin_offsetof(type, field)
 #else
 #define offsetof(type, field) \
         ((size_t)(uintptr_t)((const volatile void *)&((type *)0)->field))
 #endif
 #endif

 /* Some architectures have a double-word CAS, sometimes even dual-8 bytes.
  * Some architectures support unaligned accesses, others are fine with them
  * but only for non-atomic operations. Also mention those supporting unaligned
  * accesses and being little endian, and those where unaligned accesses are
  * known to be fast (almost as fast as aligned ones).
  */
 #if defined(__x86_64__)
 #define HA_UNALIGNED
 #define HA_UNALIGNED_LE
 #define HA_UNALIGNED_LE64
 #define HA_UNALIGNED_FAST
 #define HA_UNALIGNED_ATOMIC
 #define HA_HAVE_CAS_DW
 #define HA_CAS_IS_8B
 #elif defined(__i386__) || defined(__i486__) || defined(__i586__) || defined(__i686__)
 #define HA_UNALIGNED
 #define HA_UNALIGNED_LE
 #define HA_UNALIGNED_ATOMIC
 #elif defined (__aarch64__) || defined(__ARM_ARCH_8A)
 #define HA_UNALIGNED
 #define HA_UNALIGNED_LE
 #define HA_UNALIGNED_LE64
 #define HA_UNALIGNED_FAST
 #define HA_HAVE_CAS_DW
 #define HA_CAS_IS_8B
 #elif defined(__arm__) && (defined(__ARM_ARCH_7__) || defined(__ARM_ARCH_7A__))
 #define HA_UNALIGNED
 #define HA_UNALIGNED_LE
 #define HA_UNALIGNED_FAST
 #define HA_HAVE_CAS_DW
 #endif

 /*********************** IMPORTANT NOTE ABOUT ALIGNMENT **********************\
  * Alignment works fine for variables. It also works on types and struct     *
  * members by propagating the alignment to the container struct itself,      *
  * but this requires that variables of the affected type are properly        *
  * aligned themselves. While regular variables will always abide, those      *
  * allocated using malloc() will not! Most platforms provide posix_memalign()*
  * for this, but it's not available everywhere. As such one ought not to use *
  * these alignment declarations inside structures that are dynamically       *
  * allocated. If the purpose is only to avoid false sharing of cache lines   *
  * for multi_threading, see THREAD_PAD() below.                              *
 \*****************************************************************************/

 /* sets alignment for current field or variable */
 #ifndef ALIGNED
 #define ALIGNED(x) __attribute__((aligned(x)))
 #endif

 /* sets alignment only on architectures preventing unaligned atomic accesses */
 #ifndef MAYBE_ALIGNED
 #ifndef HA_UNALIGNED
 #define MAYBE_ALIGNED(x)  ALIGNED(x)
 #else
 #define MAYBE_ALIGNED(x)
 #endif
 #endif

 /* sets alignment only on architectures preventing unaligned atomic accesses */
 #ifndef ATOMIC_ALIGNED
 #ifndef HA_UNALIGNED_ATOMIC
 #define ATOMIC_ALIGNED(x)  ALIGNED(x)
 #else
 #define ATOMIC_ALIGNED(x)
 #endif
 #endif

 /* sets alignment for current field or variable only when threads are enabled.
  * Typically used to respect cache line alignment to avoid false sharing.
  */
 #ifndef THREAD_ALIGNED
 #ifdef USE_THREAD
 #define THREAD_ALIGNED(x) __attribute__((aligned(x)))
 #else
 #define THREAD_ALIGNED(x)
 #endif
 #endif

 /* add a mandatory alignment for next fields in a structure */
 #ifndef ALWAYS_ALIGN
 #define ALWAYS_ALIGN(x)  union { } ALIGNED(x)
 #endif

 /* add an optional alignment for next fields in a structure, only for archs
  * which do not support unaligned accesses.
  */
 #ifndef MAYBE_ALIGN
 #ifndef HA_UNALIGNED
 #define MAYBE_ALIGN(x)  union { } ALIGNED(x)
 #else
 #define MAYBE_ALIGN(x)
 #endif
 #endif

 /* add an optional alignment for next fields in a structure, only for archs
  * which do not support unaligned accesses for atomic operations.
  */
 #ifndef ATOMIC_ALIGN
 #ifndef HA_UNALIGNED_ATOMIC
 #define ATOMIC_ALIGN(x)  union { } ALIGNED(x)
 #else
 #define ATOMIC_ALIGN(x)
 #endif
 #endif

 /* add an optional alignment for next fields in a structure, only when threads
  * are enabled. Typically used to respect cache line alignment to avoid false
  * sharing.
  */
 #ifndef THREAD_ALIGN
 #ifdef USE_THREAD
 #define THREAD_ALIGN(x) union { } ALIGNED(x)
 #else
 #define THREAD_ALIGN(x)
 #endif
 #endif

 /* add optional padding of the specified size between fields in a structure,
  * only when threads are enabled. This is used to avoid false sharing of cache
  * lines for dynamically allocated structures which cannot guarantee alignment.
  */
 #ifndef THREAD_PAD
 # ifdef USE_THREAD
 #  define __THREAD_PAD(x,l)  char __pad_##l[x]
 #  define _THREAD_PAD(x,l)   __THREAD_PAD(x, l)
 #  define THREAD_PAD(x)      _THREAD_PAD(x, __LINE__)
 # else
 #  define THREAD_PAD(x)
 # endif
 #endif

 /* The THREAD_LOCAL type attribute defines thread-local storage and is defined
  * to __thread when threads are enabled or empty when disabled.
  */
 #ifdef USE_THREAD
 #define THREAD_LOCAL __thread
 #else
 #define THREAD_LOCAL
 #endif

 /* The __decl_thread() statement is shows the argument when threads are enabled
  * or hides it when disabled. The purpose is to condition the presence of some
  * variables or struct members to the fact that threads are enabled, without
  * having to enclose them inside a #ifdef USE_THREAD/#endif clause.
  */
 #ifdef USE_THREAD
 #define __decl_thread(decl) decl
 #else
 #define __decl_thread(decl)
 #endif

 /* clang has a __has_feature() macro which reports true/false on a number of
  * internally supported features. Let's make sure this macro is always defined
  * and returns zero when not supported.
  */
 #ifndef __has_feature
 #define __has_feature(x) 0
 #endif

 #endif /* _HAPROXY_COMPILER_H */
	/*
	* include/haproxy/compiler.h
	* This files contains some compiler-specific settings.
	*
	* Copyright (C) 2000-2020 Willy Tarreau - w@1wt.eu
	*
	* This library is free software; you can redistribute it and/or
	* modify it under the terms of the GNU Lesser General Public
	* License as published by the Free Software Foundation, version 2.1
	* exclusively.
	*
	* This library is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	* Lesser General Public License for more details.
	*
	* You should have received a copy of the GNU Lesser General Public
	* License along with this library; if not, write to the Free Software
	* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
	*/

	#ifndef _HAPROXY_COMPILER_H
	#define _HAPROXY_COMPILER_H

	#ifdef DEBUG_USE_ABORT
	#include <stdlib.h>
	#endif

	/*
	* Gcc before 3.0 needs [0] to declare a variable-size array
	*/
	#ifndef VAR_ARRAY
	#if defined(__GNUC__) && (__GNUC__ < 3)
	#define VAR_ARRAY 0
	#else
	#define VAR_ARRAY
	#endif
	#endif

	#if !defined(__GNUC__)
	/* Some versions of glibc irresponsibly redefine __attribute__() to empty for
	* non-gcc compilers, and as such, silently break all constructors with other
	* other compilers. Let's make sure such incompatibilities are detected if any,
	* or that the attribute is properly enforced.
	*/
	#undef __attribute__
	#define __attribute__(x) __attribute__(x)
	#endif

	/* By default, gcc does not inline large chunks of code, but we want it to
	* respect our choices.
	*/
	#if !defined(forceinline)
	#if !defined(__GNUC__) \|\| (__GNUC__ < 3)
	#define forceinline inline
	#else
	#define forceinline inline __attribute__((always_inline))
	#endif
	#endif

	#ifndef __maybe_unused
	/* silence the "unused" warnings without having to place painful #ifdefs.
	* For use with variables or functions.
	*/
	#define __maybe_unused __attribute__((unused))
	#endif

	/* These macros are used to declare a section name for a variable.
	* WARNING: keep section names short, as MacOS limits them to 16 characters.
	* The _START and _STOP attributes have to be placed after the start and stop
	* weak symbol declarations, and are only used by MacOS.
	*/
	#if !defined(USE_OBSOLETE_LINKER)

	#ifdef __APPLE__
	#define HA_SECTION(s) __attribute__((__section__("__DATA, " s)))
	#define HA_SECTION_START(s) __asm("section$start$__DATA$" s)
	#define HA_SECTION_STOP(s) __asm("section$end$__DATA$" s)
	#else
	#define HA_SECTION(s) __attribute__((__section__(s)))
	#define HA_SECTION_START(s)
	#define HA_SECTION_STOP(s)
	#endif

	#else // obsolete linker below, let's just not force any section

	#define HA_SECTION(s)
	#define HA_SECTION_START(s)
	#define HA_SECTION_STOP(s)

	#endif // USE_OBSOLETE_LINKER

	/* Declare a symbol as weak if possible, otherwise global. Since we don't want to
	* error on multiple definitions, the symbol is declared weak. On MacOS ".weak"
	* does not exist and we must continue to use ".globl" instead. Note that
	* ".global" is to be avoided on other platforms as llvm complains about it
	* being used for symbols declared as weak elsewhere in the code. It may or may
	* not work depending on linkers and assemblers, this is only for advanced use
	* anyway (and most likely it will only work with !USE_OBSOLETE_LINKER).
	*/
	#if defined(__APPLE__)
	# define __HA_WEAK(sym) __asm__(".globl " #sym)
	#else
	# define __HA_WEAK(sym) __asm__(".weak " #sym)
	#endif
	#define HA_WEAK(sym) __HA_WEAK(sym)

	/* declare a symbol as global */
	#define __HA_GLOBL(sym) __asm__(".globl " #sym)
	#define HA_GLOBL(sym) __HA_GLOBL(sym)

	/* use this attribute on a variable to move it to the read_mostly section */
	#if !defined(__read_mostly)
	#define __read_mostly HA_SECTION("read_mostly")
	#endif

	/* This allows gcc to know that some locations are never reached, for example
	* after a longjmp() in the Lua code, hence that some errors caught by such
	* methods cannot propagate further. This is important with gcc versions 6 and
	* above which can more aggressively detect null dereferences. The builtin
	* below was introduced in gcc 4.5, and before it we didn't care.
	*/
	#ifdef DEBUG_USE_ABORT
	#define my_unreachable() abort()
	#else
	#if defined(__GNUC__) && (__GNUC__ >= 5 \|\| (__GNUC__ == 4 && __GNUC_MINOR__ >= 5))
	#define my_unreachable() __builtin_unreachable()
	#else
	#define my_unreachable() do { } while (1)
	#endif
	#endif

	/* This macro may be used to block constant propagation that lets the compiler
	* detect a possible NULL dereference on a variable resulting from an explicit
	* assignment in an impossible check. Sometimes a function is called which does
	* safety checks and returns NULL if safe conditions are not met. The place
	* where it's called cannot hit this condition and dereferencing the pointer
	* without first checking it will make the compiler emit a warning about a
	* "potential null pointer dereference" which is hard to work around. This
	* macro "washes" the pointer and prevents the compiler from emitting tests
	* branching to undefined instructions. It may only be used when the developer
	* is absolutely certain that the conditions are guaranteed and that the
	* pointer passed in argument cannot be NULL by design.
	*/
	#define ALREADY_CHECKED(p) do { asm("" : "=rm"(p) : "0"(p)); } while (0)

	/* same as above but to be used to pass the input value to the output but
	* without letting the compiler know about its initial properties.
	*/
	#define DISGUISE(v) ({ typeof(v) __v = (v); ALREADY_CHECKED(__v); __v; })

	/* Implements a static event counter where it's used. This is typically made to
	* report some warnings only once, either during boot or at runtime. It only
	* returns true on the very first call, and zero later. It's thread-safe and
	* uses a single byte of memory per call place. It relies on the atomic xchg
	* defined in atomic.h which is also part of the common API.
	*/
	#define ONLY_ONCE() ({ static char __cnt; !_HA_ATOMIC_XCHG(&__cnt, 1); })

	/*
	* Gcc >= 3 provides the ability for the program to give hints to the
	* compiler about what branch of an if is most likely to be taken. This
	* helps the compiler produce the most compact critical paths, which is
	* generally better for the cache and to reduce the number of jumps.
	*/
	#if !defined(likely)
	#if !defined(__GNUC__) \|\| (__GNUC__ < 3)
	#define __builtin_expect(x,y) (x)
	#define likely(x) (x)
	#define unlikely(x) (x)
	#else
	#define likely(x) (__builtin_expect((x) != 0, 1))
	#define unlikely(x) (__builtin_expect((x) != 0, 0))
	#endif
	#endif

	#ifndef __GNUC_PREREQ__
	#if defined(__GNUC__) && !defined(__INTEL_COMPILER)
	#define __GNUC_PREREQ__(ma, mi) \
	(__GNUC__ > (ma) \|\| __GNUC__ == (ma) && __GNUC_MINOR__ >= (mi))
	#else
	#define __GNUC_PREREQ__(ma, mi) 0
	#endif
	#endif

	#ifndef offsetof
	#if __GNUC_PREREQ__(4, 1)
	#define offsetof(type, field) __builtin_offsetof(type, field)
	#else
	#define offsetof(type, field) \
	((size_t)(uintptr_t)((const volatile void )&((type )0)->field))
	#endif
	#endif

	/* Some architectures have a double-word CAS, sometimes even dual-8 bytes.
	* Some architectures support unaligned accesses, others are fine with them
	* but only for non-atomic operations. Also mention those supporting unaligned
	* accesses and being little endian, and those where unaligned accesses are
	* known to be fast (almost as fast as aligned ones).
	*/
	#if defined(__x86_64__)
	#define HA_UNALIGNED
	#define HA_UNALIGNED_LE
	#define HA_UNALIGNED_LE64
	#define HA_UNALIGNED_FAST
	#define HA_UNALIGNED_ATOMIC
	#define HA_HAVE_CAS_DW
	#define HA_CAS_IS_8B
	#elif defined(__i386__) \|\| defined(__i486__) \|\| defined(__i586__) \|\| defined(__i686__)
	#define HA_UNALIGNED
	#define HA_UNALIGNED_LE
	#define HA_UNALIGNED_ATOMIC
	#elif defined (__aarch64__) \|\| defined(__ARM_ARCH_8A)
	#define HA_UNALIGNED
	#define HA_UNALIGNED_LE
	#define HA_UNALIGNED_LE64
	#define HA_UNALIGNED_FAST
	#define HA_HAVE_CAS_DW
	#define HA_CAS_IS_8B
	#elif defined(__arm__) && (defined(__ARM_ARCH_7__) \|\| defined(__ARM_ARCH_7A__))
	#define HA_UNALIGNED
	#define HA_UNALIGNED_LE
	#define HA_UNALIGNED_FAST
	#define HA_HAVE_CAS_DW
	#endif

	/********************* IMPORTANT NOTE ABOUT ALIGNMENT ********************\
	* Alignment works fine for variables. It also works on types and struct *
	* members by propagating the alignment to the container struct itself, *
	* but this requires that variables of the affected type are properly *
	* aligned themselves. While regular variables will always abide, those *
	* allocated using malloc() will not! Most platforms provide posix_memalign()*
	* for this, but it's not available everywhere. As such one ought not to use *
	* these alignment declarations inside structures that are dynamically *
	* allocated. If the purpose is only to avoid false sharing of cache lines *
	* for multi_threading, see THREAD_PAD() below. *
	\*****************************************************************************/

	/* sets alignment for current field or variable */
	#ifndef ALIGNED
	#define ALIGNED(x) __attribute__((aligned(x)))
	#endif

	/* sets alignment only on architectures preventing unaligned atomic accesses */
	#ifndef MAYBE_ALIGNED
	#ifndef HA_UNALIGNED
	#define MAYBE_ALIGNED(x) ALIGNED(x)
	#else
	#define MAYBE_ALIGNED(x)
	#endif
	#endif

	/* sets alignment only on architectures preventing unaligned atomic accesses */
	#ifndef ATOMIC_ALIGNED
	#ifndef HA_UNALIGNED_ATOMIC
	#define ATOMIC_ALIGNED(x) ALIGNED(x)
	#else
	#define ATOMIC_ALIGNED(x)
	#endif
	#endif

	/* sets alignment for current field or variable only when threads are enabled.
	* Typically used to respect cache line alignment to avoid false sharing.
	*/
	#ifndef THREAD_ALIGNED
	#ifdef USE_THREAD
	#define THREAD_ALIGNED(x) __attribute__((aligned(x)))
	#else
	#define THREAD_ALIGNED(x)
	#endif
	#endif

	/* add a mandatory alignment for next fields in a structure */
	#ifndef ALWAYS_ALIGN
	#define ALWAYS_ALIGN(x) union { } ALIGNED(x)
	#endif

	/* add an optional alignment for next fields in a structure, only for archs
	* which do not support unaligned accesses.
	*/
	#ifndef MAYBE_ALIGN
	#ifndef HA_UNALIGNED
	#define MAYBE_ALIGN(x) union { } ALIGNED(x)
	#else
	#define MAYBE_ALIGN(x)
	#endif
	#endif

	/* add an optional alignment for next fields in a structure, only for archs
	* which do not support unaligned accesses for atomic operations.
	*/
	#ifndef ATOMIC_ALIGN
	#ifndef HA_UNALIGNED_ATOMIC
	#define ATOMIC_ALIGN(x) union { } ALIGNED(x)
	#else
	#define ATOMIC_ALIGN(x)
	#endif
	#endif

	/* add an optional alignment for next fields in a structure, only when threads
	* are enabled. Typically used to respect cache line alignment to avoid false
	* sharing.
	*/
	#ifndef THREAD_ALIGN
	#ifdef USE_THREAD
	#define THREAD_ALIGN(x) union { } ALIGNED(x)
	#else
	#define THREAD_ALIGN(x)
	#endif
	#endif

	/* add optional padding of the specified size between fields in a structure,
	* only when threads are enabled. This is used to avoid false sharing of cache
	* lines for dynamically allocated structures which cannot guarantee alignment.
	*/
	#ifndef THREAD_PAD
	# ifdef USE_THREAD
	# define __THREAD_PAD(x,l) char __pad_##l[x]
	# define _THREAD_PAD(x,l) __THREAD_PAD(x, l)
	# define THREAD_PAD(x) _THREAD_PAD(x, __LINE__)
	# else
	# define THREAD_PAD(x)
	# endif
	#endif

	/* The THREAD_LOCAL type attribute defines thread-local storage and is defined
	* to __thread when threads are enabled or empty when disabled.
	*/
	#ifdef USE_THREAD
	#define THREAD_LOCAL __thread
	#else
	#define THREAD_LOCAL
	#endif

	/* The __decl_thread() statement is shows the argument when threads are enabled
	* or hides it when disabled. The purpose is to condition the presence of some
	* variables or struct members to the fact that threads are enabled, without
	* having to enclose them inside a #ifdef USE_THREAD/#endif clause.
	*/
	#ifdef USE_THREAD
	#define __decl_thread(decl) decl
	#else
	#define __decl_thread(decl)
	#endif

	/* clang has a __has_feature() macro which reports true/false on a number of
	* internally supported features. Let's make sure this macro is always defined
	* and returns zero when not supported.
	*/
	#ifndef __has_feature
	#define __has_feature(x) 0
	#endif

	#endif /* _HAPROXY_COMPILER_H */