dnl dnl Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana dnl University Research and Technology dnl Corporation. All rights reserved. dnl Copyright (c) 2004-2020 The University of Tennessee and The University dnl of Tennessee Research Foundation. All rights dnl reserved. dnl Copyright (c) 2004-2006 High Performance Computing Center Stuttgart, dnl University of Stuttgart. All rights reserved. dnl Copyright (c) 2004-2005 The Regents of the University of California. dnl All rights reserved. dnl Copyright (c) 2008-2021 Cisco Systems, Inc. All rights reserved. dnl Copyright (c) 2010 Oracle and/or its affiliates. All rights reserved. dnl Copyright (c) 2015-2018 Research Organization for Information Science dnl and Technology (RIST). All rights reserved. dnl Copyright (c) 2014-2018 Los Alamos National Security, LLC. All rights dnl reserved. dnl Copyright (c) 2017-2022 Amazon.com, Inc. or its affiliates. All Rights reserved. dnl Copyright (c) 2020 Google, LLC. All rights reserved. dnl Copyright (c) 2020 Intel, Inc. All rights reserved. dnl Copyright (c) 2021 IBM Corporation. All rights reserved. dnl Copyright (c) 2021-2022 Nanook Consulting. All rights reserved. dnl Copyright (c) 2023 Triad National Security, LLC. All rights reserved. dnl $COPYRIGHT$ dnl dnl Additional copyrights may follow dnl dnl $HEADER$ dnl dnl This is a C test to see if 128-bit __atomic_compare_exchange_n() dnl actually works (e.g., it compiles and links successfully on dnl ARM64+clang, but returns incorrect answers as of August 2018). AC_DEFUN([PMIX_ATOMIC_COMPARE_EXCHANGE_N_TEST_SOURCE],[[ #include #include #include typedef union { uint64_t fake@<:@2@:>@; __int128 real; } ompi128; static void test1(void) { // As of Aug 2018, we could not figure out a way to assign 128-bit // constants -- the compilers would not accept it. So use a fake // union to assign 2 uin64_t's to make a single __int128. ompi128 ptr = { .fake = { 0xFFEEDDCCBBAA0099, 0x8877665544332211 }}; ompi128 expected = { .fake = { 0x11EEDDCCBBAA0099, 0x88776655443322FF }}; ompi128 desired = { .fake = { 0x1122DDCCBBAA0099, 0x887766554433EEFF }}; bool r = __atomic_compare_exchange_n(&ptr.real, &expected.real, desired.real, true, __ATOMIC_RELAXED, __ATOMIC_RELAXED); if ( !(r == false && ptr.real == expected.real)) { exit(1); } } static void test2(void) { ompi128 ptr = { .fake = { 0xFFEEDDCCBBAA0099, 0x8877665544332211 }}; ompi128 expected = ptr; ompi128 desired = { .fake = { 0x1122DDCCBBAA0099, 0x887766554433EEFF }}; bool r = __atomic_compare_exchange_n(&ptr.real, &expected.real, desired.real, true, __ATOMIC_RELAXED, __ATOMIC_RELAXED); if (!(r == true && ptr.real == desired.real)) { exit(2); } } int main(int argc, char** argv) { test1(); test2(); return 0; } ]]) dnl ------------------------------------------------------------------ dnl This is a C test to see if 128-bit __sync_bool_compare_and_swap() dnl actually works (e.g., it compiles and links successfully on dnl ARM64+clang, but returns incorrect answers as of August 2018). AC_DEFUN([PMIX_SYNC_BOOL_COMPARE_AND_SWAP_TEST_SOURCE],[[ #include #include #include typedef union { uint64_t fake@<:@2@:>@; __int128 real; } ompi128; static void test1(void) { // As of Aug 2018, we could not figure out a way to assign 128-bit // constants -- the compilers would not accept it. So use a fake // union to assign 2 uin64_t's to make a single __int128. ompi128 ptr = { .fake = { 0xFFEEDDCCBBAA0099, 0x8877665544332211 }}; ompi128 oldval = { .fake = { 0x11EEDDCCBBAA0099, 0x88776655443322FF }}; ompi128 newval = { .fake = { 0x1122DDCCBBAA0099, 0x887766554433EEFF }}; bool r = __sync_bool_compare_and_swap(&ptr.real, oldval.real, newval.real); if (!(r == false && ptr.real != newval.real)) { exit(1); } } static void test2(void) { ompi128 ptr = { .fake = { 0xFFEEDDCCBBAA0099, 0x8877665544332211 }}; ompi128 oldval = ptr; ompi128 newval = { .fake = { 0x1122DDCCBBAA0099, 0x887766554433EEFF }}; bool r = __sync_bool_compare_and_swap(&ptr.real, oldval.real, newval.real); if (!(r == true && ptr.real == newval.real)) { exit(2); } } int main(int argc, char** argv) { test1(); test2(); return 0; } ]]) dnl This is a C test to see if 128-bit __atomic_compare_exchange_n() dnl actually works (e.g., it compiles and links successfully on dnl ARM64+clang, but returns incorrect answers as of August 2018). AC_DEFUN([PMIX_ATOMIC_COMPARE_EXCHANGE_STRONG_TEST_SOURCE],[[ #include #include #include #include typedef union { uint64_t fake@<:@2@:>@; _Atomic __int128 real; __int128 real2; } ompi128; static void test1(void) { // As of Aug 2018, we could not figure out a way to assign 128-bit // constants -- the compilers would not accept it. So use a fake // union to assign 2 uin64_t's to make a single __int128. ompi128 ptr = { .fake = { 0xFFEEDDCCBBAA0099, 0x8877665544332211 }}; ompi128 expected = { .fake = { 0x11EEDDCCBBAA0099, 0x88776655443322FF }}; ompi128 desired = { .fake = { 0x1122DDCCBBAA0099, 0x887766554433EEFF }}; bool r = atomic_compare_exchange_strong (&ptr.real, &expected.real2, desired.real); if ( !(r == false && ptr.real == expected.real)) { exit(1); } } static void test2(void) { ompi128 ptr = { .fake = { 0xFFEEDDCCBBAA0099, 0x8877665544332211 }}; ompi128 expected = ptr; ompi128 desired = { .fake = { 0x1122DDCCBBAA0099, 0x887766554433EEFF }}; bool r = atomic_compare_exchange_strong (&ptr.real, &expected.real2, desired.real); if (!(r == true && ptr.real == desired.real)) { exit(2); } } int main(int argc, char** argv) { test1(); test2(); return 0; } ]]) dnl ------------------------------------------------------------------ dnl dnl Check to see if a specific function is linkable. dnl dnl Check with: dnl 1. No compiler/linker flags. dnl 2. CFLAGS += -mcx16 dnl 3. LIBS += -latomic dnl 4. Finally, if it links ok with any of #1, #2, or #3, actually try dnl to run the test code (if we're not cross-compiling) and verify dnl that it actually gives us the correct result. dnl dnl Note that we unfortunately can't use AC SEARCH_LIBS because its dnl check incorrectly fails (because these functions are special compiler dnl intrinsics -- SEARCH_LIBS tries with "check FUNC()", which the dnl compiler complains doesn't match the internal prototype). So we have dnl to use our own LINK_IFELSE tests. Indeed, since these functions are dnl so special, we actually need a valid source code that calls the dnl functions with correct arguments, etc. It's not enough, for example, dnl to do the usual "try to set a function pointer to the symbol" trick to dnl determine if these functions are available, because the compiler may dnl not implement these as actual symbols. So just try to link a real dnl test code. dnl dnl $1: function name to print dnl $2: program to test dnl $3: action if any of 1, 2, or 3 succeeds dnl #4: action if all of 1, 2, and 3 fail dnl AC_DEFUN([PMIX_ASM_CHECK_ATOMIC_FUNC],[ PMIX_VAR_SCOPE_PUSH([pmix_asm_check_func_happy pmix_asm_check_func_CFLAGS_save pmix_asm_check_func_LIBS_save]) pmix_asm_check_func_CFLAGS_save=$CFLAGS pmix_asm_check_func_LIBS_save=$LIBS dnl Check with no compiler/linker flags AC_MSG_CHECKING([for $1]) AC_LINK_IFELSE([$2], [pmix_asm_check_func_happy=1 AC_MSG_RESULT([yes])], [pmix_asm_check_func_happy=0 AC_MSG_RESULT([no])]) dnl If that didn't work, try again with CFLAGS+=mcx16 AS_IF([test $pmix_asm_check_func_happy -eq 0], [AC_MSG_CHECKING([for $1 with -mcx16]) CFLAGS="$CFLAGS -mcx16" AC_LINK_IFELSE([$2], [pmix_asm_check_func_happy=1 AC_MSG_RESULT([yes])], [pmix_asm_check_func_happy=0 CFLAGS=$pmix_asm_check_func_CFLAGS_save AC_MSG_RESULT([no])]) ]) dnl If that didn't work, try again with LIBS+=-latomic AS_IF([test $pmix_asm_check_func_happy -eq 0], [AC_MSG_CHECKING([for $1 with -latomic]) LIBS="$LIBS -latomic" AC_LINK_IFELSE([$2], [pmix_asm_check_func_happy=1 AC_MSG_RESULT([yes])], [pmix_asm_check_func_happy=0 LIBS=$pmix_asm_check_func_LIBS_save AC_MSG_RESULT([no])]) ]) dnl If we have it, try it and make sure it gives a correct result. dnl As of Aug 2018, we know that it links but does *not* work on clang dnl 6 on ARM64. AS_IF([test $pmix_asm_check_func_happy -eq 1], [AC_MSG_CHECKING([if $1() gives correct results]) AC_RUN_IFELSE([$2], [AC_MSG_RESULT([yes])], [pmix_asm_check_func_happy=0 AC_MSG_RESULT([no])], [AC_MSG_RESULT([cannot test -- assume yes (cross compiling)])]) ]) dnl If we were unsuccessful, restore CFLAGS/LIBS AS_IF([test $pmix_asm_check_func_happy -eq 0], [CFLAGS=$pmix_asm_check_func_CFLAGS_save LIBS=$pmix_asm_check_func_LIBS_save]) dnl Run the user actions AS_IF([test $pmix_asm_check_func_happy -eq 1], [$3], [$4]) PMIX_VAR_SCOPE_POP ]) dnl ------------------------------------------------------------------ AC_DEFUN([PMIX_CHECK_SYNC_BUILTIN_CSWAP_INT128], [ PMIX_VAR_SCOPE_PUSH([sync_bool_compare_and_swap_128_result]) # Do we have __sync_bool_compare_and_swap? # Use a special macro because we need to check with a few different # CFLAGS/LIBS. PMIX_ASM_CHECK_ATOMIC_FUNC([__sync_bool_compare_and_swap], [AC_LANG_SOURCE(PMIX_SYNC_BOOL_COMPARE_AND_SWAP_TEST_SOURCE)], [sync_bool_compare_and_swap_128_result=1], [sync_bool_compare_and_swap_128_result=0]) AC_DEFINE_UNQUOTED([PMIX_HAVE_SYNC_BUILTIN_CSWAP_INT128], [$sync_bool_compare_and_swap_128_result], [Whether the __sync builtin atomic compare and swap supports 128-bit values]) PMIX_VAR_SCOPE_POP ]) AC_DEFUN([PMIX_CHECK_GCC_BUILTIN_CSWAP_INT128], [ PMIX_VAR_SCOPE_PUSH([atomic_compare_exchange_n_128_result atomic_compare_exchange_n_128_CFLAGS_save atomic_compare_exchange_n_128_LIBS_save]) atomic_compare_exchange_n_128_CFLAGS_save=$CFLAGS atomic_compare_exchange_n_128_LIBS_save=$LIBS # Do we have __sync_bool_compare_and_swap? # Use a special macro because we need to check with a few different # CFLAGS/LIBS. PMIX_ASM_CHECK_ATOMIC_FUNC([__atomic_compare_exchange_n], [AC_LANG_SOURCE(PMIX_ATOMIC_COMPARE_EXCHANGE_N_TEST_SOURCE)], [atomic_compare_exchange_n_128_result=1], [atomic_compare_exchange_n_128_result=0]) # If we have it and it works, check to make sure it is always lock # free. AS_IF([test $atomic_compare_exchange_n_128_result -eq 1], [AC_MSG_CHECKING([if __int128 atomic compare-and-swap is always lock-free]) AC_RUN_IFELSE([AC_LANG_PROGRAM([], [if (!__atomic_always_lock_free(16, 0)) { return 1; }])], [AC_MSG_RESULT([yes])], [atomic_compare_exchange_n_128_result=0 # If this test fails, need to reset CFLAGS/LIBS (the # above tests atomically set CFLAGS/LIBS or not; this # test is running after the fact, so we have to undo # the side-effects of setting CFLAGS/LIBS if the above # tests passed). CFLAGS=$atomic_compare_exchange_n_128_CFLAGS_save LIBS=$atomic_compare_exchange_n_128_LIBS_save AC_MSG_RESULT([no])], [AC_MSG_RESULT([cannot test -- assume yes (cross compiling)])]) ]) AC_DEFINE_UNQUOTED([PMIX_HAVE_GCC_BUILTIN_CSWAP_INT128], [$atomic_compare_exchange_n_128_result], [Whether the __atomic builtin atomic compare swap is both supported and lock-free on 128-bit values]) dnl If we could not find decent support for 128-bits __atomic let's dnl try the GCC _sync AS_IF([test $atomic_compare_exchange_n_128_result -eq 0], [PMIX_CHECK_SYNC_BUILTIN_CSWAP_INT128]) PMIX_VAR_SCOPE_POP ]) AC_DEFUN([PMIX_CHECK_GCC_ATOMIC_BUILTINS], [ if test -z "$pmix_cv_have___atomic" ; then AC_MSG_CHECKING([for 32-bit GCC built-in atomics]) AC_LINK_IFELSE([AC_LANG_PROGRAM([ #include uint32_t tmp, old = 0; uint64_t tmp64, old64 = 0;], [ __atomic_thread_fence(__ATOMIC_SEQ_CST); __atomic_compare_exchange_n(&tmp, &old, 1, 0, __ATOMIC_RELAXED, __ATOMIC_RELAXED); __atomic_add_fetch(&tmp, 1, __ATOMIC_RELAXED); __atomic_compare_exchange_n(&tmp64, &old64, 1, 0, __ATOMIC_RELAXED, __ATOMIC_RELAXED); __atomic_add_fetch(&tmp64, 1, __ATOMIC_RELAXED);])], [pmix_cv_have___atomic=yes], [pmix_cv_have___atomic=no]) AC_MSG_RESULT([$pmix_cv_have___atomic]) if test $pmix_cv_have___atomic = "yes" ; then AC_MSG_CHECKING([for 64-bit GCC built-in atomics]) AC_LINK_IFELSE([AC_LANG_PROGRAM([ #include uint64_t tmp64, old64 = 0;], [ __atomic_compare_exchange_n(&tmp64, &old64, 1, 0, __ATOMIC_RELAXED, __ATOMIC_RELAXED); __atomic_add_fetch(&tmp64, 1, __ATOMIC_RELAXED);])], [pmix_cv_have___atomic_64=yes], [pmix_cv_have___atomic_64=no]) AC_MSG_RESULT([$pmix_cv_have___atomic_64]) if test $pmix_cv_have___atomic_64 = "yes" ; then AC_MSG_CHECKING([if 64-bit GCC built-in atomics are lock-free]) AC_RUN_IFELSE([AC_LANG_PROGRAM([], [if (!__atomic_is_lock_free (8, 0)) { return 1; }])], [AC_MSG_RESULT([yes])], [AC_MSG_RESULT([no]) pmix_cv_have___atomic_64=no], [AC_MSG_RESULT([cannot test -- assume yes (cross compiling)])]) fi else pmix_cv_have___atomic_64=no fi # Check for 128-bit support PMIX_CHECK_GCC_BUILTIN_CSWAP_INT128 fi ]) AC_DEFUN([PMIX_CHECK_C11_CSWAP_INT128], [ PMIX_VAR_SCOPE_PUSH([atomic_compare_exchange_result atomic_compare_exchange_CFLAGS_save atomic_compare_exchange_LIBS_save]) atomic_compare_exchange_CFLAGS_save=$CFLAGS atomic_compare_exchange_LIBS_save=$LIBS # Do we have C11 atomics on 128-bit integers? # Use a special macro because we need to check with a few different # CFLAGS/LIBS. PMIX_ASM_CHECK_ATOMIC_FUNC([atomic_compare_exchange_strong_16], [AC_LANG_SOURCE(PMIX_ATOMIC_COMPARE_EXCHANGE_STRONG_TEST_SOURCE)], [atomic_compare_exchange_result=1], [atomic_compare_exchange_result=0]) # If we have it and it works, check to make sure it is always lock # free. AS_IF([test $atomic_compare_exchange_result -eq 1], [AC_MSG_CHECKING([if C11 __int128 atomic compare-and-swap is always lock-free]) AC_RUN_IFELSE([AC_LANG_PROGRAM([#include ], [_Atomic __int128_t x; if (!atomic_is_lock_free(&x)) { return 1; }])], [AC_MSG_RESULT([yes])], [atomic_compare_exchange_result=0 # If this test fails, need to reset CFLAGS/LIBS (the # above tests atomically set CFLAGS/LIBS or not; this # test is running after the fact, so we have to undo # the side-effects of setting CFLAGS/LIBS if the above # tests passed). CFLAGS=$atomic_compare_exchange_CFLAGS_save LIBS=$atomic_compare_exchange_LIBS_save AC_MSG_RESULT([no])], [AC_MSG_RESULT([cannot test -- assume yes (cross compiling)])]) ]) AC_DEFINE_UNQUOTED([PMIX_HAVE_C11_CSWAP_INT128], [$atomic_compare_exchange_result], [Whether C11 atomic compare swap is both supported and lock-free on 128-bit values]) dnl If we could not find decent support for 128-bits atomic let's dnl try the GCC _sync AS_IF([test $atomic_compare_exchange_result -eq 0], [PMIX_CHECK_SYNC_BUILTIN_CSWAP_INT128]) PMIX_VAR_SCOPE_POP ]) dnl ################################################################# dnl dnl PMIX_CHECK_CMPXCHG16B dnl dnl ################################################################# AC_DEFUN([PMIX_CMPXCHG16B_TEST_SOURCE],[[ #include #include union pmix_counted_pointer_t { struct { uint64_t counter; uint64_t item; } data; #if defined(HAVE___INT128) && HAVE___INT128 __int128 value; #elif defined(HAVE_INT128_T) && HAVE_INT128_T int128_t value; #endif }; typedef union pmix_counted_pointer_t pmix_counted_pointer_t; int main(int argc, char* argv) { volatile pmix_counted_pointer_t a; pmix_counted_pointer_t b; a.data.counter = 0; a.data.item = 0x1234567890ABCDEF; b.data.counter = a.data.counter; b.data.item = a.data.item; /* bozo checks */ assert(16 == sizeof(pmix_counted_pointer_t)); assert(a.data.counter == b.data.counter); assert(a.data.item == b.data.item); /* * the following test fails on buggy compilers * so far, with icc -o conftest conftest.c * - intel icc 14.0.0.080 (aka 2013sp1) * - intel icc 14.0.1.106 (aka 2013sp1u1) * older and more recents compilers work fine * buggy compilers work also fine but only with -O0 */ #if (defined(HAVE___INT128) && HAVE___INT128) || (defined(HAVE_INT128_T) && HAVE_INT128_T) return (a.value != b.value); #else return 0; #endif } ]]) AC_DEFUN([PMIX_CHECK_CMPXCHG16B],[ PMIX_VAR_SCOPE_PUSH([cmpxchg16b_result]) PMIX_ASM_CHECK_ATOMIC_FUNC([cmpxchg16b], [AC_LANG_PROGRAM([[unsigned char tmp[16];]], [[__asm__ __volatile__ ("lock cmpxchg16b (%%rsi)" : : "S" (tmp) : "memory", "cc");]])], [cmpxchg16b_result=1], [cmpxchg16b_result=0]) # If we have it, make sure it works. AS_IF([test $cmpxchg16b_result -eq 1], [AC_MSG_CHECKING([if cmpxchg16b_result works]) AC_RUN_IFELSE([AC_LANG_SOURCE(PMIX_CMPXCHG16B_TEST_SOURCE)], [AC_MSG_RESULT([yes])], [cmpxchg16b_result=0 AC_MSG_RESULT([no])], [AC_MSG_RESULT([cannot test -- assume yes (cross compiling)])]) ]) AC_DEFINE_UNQUOTED([PMIX_HAVE_CMPXCHG16B], [$cmpxchg16b_result], [Whether the processor supports the cmpxchg16b instruction]) PMIX_VAR_SCOPE_POP ])dnl dnl ################################################################# dnl dnl PMIX_CHECK_INLINE_GCC([action-if-found], [action-if-not-found]) dnl dnl Check if the compiler is capable of doing GCC-style inline dnl assembly. Some compilers emit a warning and ignore the inline dnl assembly (xlc on OS X) and compile without error. Therefore, dnl the test attempts to run the emitted code to check that the dnl assembly is actually run. dnl dnl For testing ia32 assembly, the assembly instruction xaddl is dnl tested. The xaddl instruction is used by some of the atomic dnl implementations so it makes sense to test for it. In addition, dnl some compilers (i.e. earlier versions of Sun Studio 12) do not dnl necessarily handle xaddl properly, so that needs to be detected dnl during configure time. dnl dnl DEFINE PMIX_C_GCC_INLINE_ASSEMBLY to 0 or 1 depending on GCC dnl support dnl dnl ################################################################# AC_DEFUN([PMIX_CHECK_INLINE_C_GCC],[ AC_CACHE_CHECK([if $CC supports GCC inline assembly], [pmix_cv_asm_gcc_inline_assembly], [PMIX_VAR_SCOPE_PUSH([asm_result pmix_gcc_inline_assign PMIX_C_GCC_INLINE_ASSEMBLY]) asm_result="unknown" pmix_gcc_inline_assign="" case "${host}" in x86_64-*x32|i?86-*|x86_64*|amd64*) pmix_gcc_inline_assign='"xaddl %1,%0" : "=m"(ret), "+r"(negone) : "m"(ret)' ;; aarch64*) pmix_gcc_inline_assign='"mov %0, #0" : "=&r"(ret)' ;; powerpc-*|powerpc64-*|powerpcle-*|powerpc64le-*|rs6000-*|ppc-*) pmix_gcc_inline_assign='"1: li %0,0" : "=&r"(ret)' ;; esac AS_IF([test "$pmix_gcc_inline_assign" != ""], [AC_RUN_IFELSE([AC_LANG_PROGRAM([AC_INCLUDES_DEFAULT],[[ int ret = 1; int negone = -1; __asm__ __volatile__ ($pmix_gcc_inline_assign); return ret; ]])], [asm_result="yes"], [asm_result="no"], [asm_result="unknown"])], [asm_result="no - architecture not supported"]) # if we're cross compiling, just try to compile and figure good enough AS_IF([test "$asm_result" = "unknown"], [AC_LINK_IFELSE([AC_LANG_PROGRAM([AC_INCLUDES_DEFAULT],[[ int ret = 1; int negone = -1; __asm__ __volatile__ ($pmix_gcc_inline_assign); return ret; ]])], [asm_result="yes"], [asm_result="no"])]) pmix_cv_asm_gcc_inline_assembly="$asm_result" PMIX_VAR_SCOPE_POP]) AS_IF([test "$pmix_cv_asm_gcc_inline_assembly" = "yes"], [PMIX_C_GCC_INLINE_ASSEMBLY=1 $1], [PMIX_C_GCC_INLINE_ASSEMBLY=0 $2]) AC_DEFINE_UNQUOTED([PMIX_C_GCC_INLINE_ASSEMBLY], [$PMIX_C_GCC_INLINE_ASSEMBLY], [Whether C compiler supports GCC style inline assembly]) ])dnl dnl ################################################################# dnl dnl PMIX_CONFIG_ASM dnl dnl Configure assembly support. AC_DEFINES the following: dnl - PMIX_C_GCC_INLINE_ASSEMBLY - 1 if C compiler supports dnl GCC-style inline assembly dnl - PMIX_USE_C11_ATOMICS - 1 if atomics implementation should dnl use C11-style atomics dnl - PMIX_USE_GCC_BUILTIN_ATOMICS - 1 if atomics implementation dnl should use GCC built-in style atomics dnl dnl ################################################################# AC_DEFUN([PMIX_CONFIG_ASM],[ AC_REQUIRE([PMIX_SETUP_CC]) PMIX_VAR_SCOPE_PUSH([atomics_found want_c11_atomics want_gcc_builtin_atomics]) # only assembly style we support today is gcc-style inline # assembly, find out if it works. We need this even for C11/GCC # builtin atomics cases, because we use inline assembly for # timers, LLSC, and 16 byte compare and swap routines. PMIX_CHECK_INLINE_C_GCC([gcc_inline=1], [gcc_inline=0]) atomics_found=no want_c11_atomics=0 want_gcc_builtin_atomics=0 AC_ARG_ENABLE([c11-atomics], [AS_HELP_STRING([--enable-c11-atomics], [Enable use of C11 atomics if available. Note: GCC builtin atomics are currently preferred over C11 atomics. (default: use if available)])]) AC_ARG_ENABLE([builtin-atomics], [AS_HELP_STRING([--enable-builtin-atomics], [Enable use of GCC built-in atomics. Currently preferred over C11 atomics. (default: use if available)])]) # Option 1 for atomics: GCC-style Builtin # # We prefer builtin atomics over C11 atomics because our use of C11 atomics # at this point is broken as it either incurs undue overheads or # requires casts to _Atomic where there should be no casts. AS_IF([test "$atomics_found" = "no" -a "$enable_builtin_atomics" != "no"], [PMIX_CHECK_GCC_ATOMIC_BUILTINS AS_IF([test $pmix_cv_have___atomic = "yes"], [AC_MSG_NOTICE([Using GCC built-in style atomics]) atomics_found="GCC built-in style atomics" want_gcc_builtin_atomics=1], [test "$enable_builtin_atomics" = "yes"], [AC_MSG_WARN([GCC built-in atomics requested but not found.]) AC_MSG_ERROR([Cannot continue])])]) # Option 2 for atomics: C11 # # We currently always disable C11 atomics with the Intel compilers. # We know builds older than 20200310 are broken with respect to # C11 atomics, but have not apparently found a build we are happy # with. In the future, this should be changed to a check for a # particular Intel version. AS_IF([test "$atomics_found" = "no" -a "$enable_c11_atomics" != "no" -a "$pmix_cv_c11_supported" = "yes" -a "$pmix_cv_c_compiler_vendor" != "intel"], [AC_MSG_NOTICE([Using C11 atomics]) PMIX_CHECK_C11_CSWAP_INT128 want_c11_atomics=1 atomics_found="C11 atomics"], [test "$enable_c11_atomics" = "yes"], [AC_MSG_WARN([C11 atomics were requested but are not supported]) AC_MSG_ERROR([Cannot continue])]) AS_IF([test "$atomics_found" = "no"], [AC_MSG_ERROR([No usable atomics implementation found. Cannot continue.])]) AC_DEFINE_UNQUOTED([PMIX_USE_C11_ATOMICS], [$want_c11_atomics], [Whether to use C11 atomics for atomics implementation]) AC_DEFINE_UNQUOTED([PMIX_USE_GCC_BUILTIN_ATOMICS], [$want_gcc_builtin_atomics], [Whether to use GCC-style built-in atomics for atomics implementation]) PMIX_SUMMARY_ADD([Miscellaneous], [Atomics], [], [$atomics_found]) PMIX_VAR_SCOPE_POP ])dnl