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| author | Chris Cannam |
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| date | Mon, 07 Sep 2015 11:13:41 +0100 |
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/* * Distributed under the Boost Software License, Version 1.0. * (See accompanying file LICENSE_1_0.txt or copy at * http://www.boost.org/LICENSE_1_0.txt) * * Copyright (c) 2009 Helge Bahmann * Copyright (c) 2012 Tim Blechmann * Copyright (c) 2014 Andrey Semashev */ /*! * \file atomic/detail/ops_gcc_x86_dcas.hpp * * This header contains implementation of the double-width CAS primitive for x86. */ #ifndef BOOST_ATOMIC_DETAIL_OPS_GCC_X86_DCAS_HPP_INCLUDED_ #define BOOST_ATOMIC_DETAIL_OPS_GCC_X86_DCAS_HPP_INCLUDED_ #include <boost/cstdint.hpp> #include <boost/memory_order.hpp> #include <boost/atomic/detail/config.hpp> #include <boost/atomic/detail/storage_type.hpp> #include <boost/atomic/capabilities.hpp> #ifdef BOOST_HAS_PRAGMA_ONCE #pragma once #endif namespace boost { namespace atomics { namespace detail { #if defined(BOOST_ATOMIC_DETAIL_X86_HAS_CMPXCHG8B) template< bool Signed > struct gcc_dcas_x86 { typedef typename make_storage_type< 8u, Signed >::type storage_type; static BOOST_FORCEINLINE void store(storage_type volatile& storage, storage_type v, memory_order) BOOST_NOEXCEPT { if ((((uint32_t)&storage) & 0x00000007) == 0) { #if defined(__SSE2__) __asm__ __volatile__ ( #if defined(__AVX__) "vmovq %1, %%xmm4\n\t" "vmovq %%xmm4, %0\n\t" #else "movq %1, %%xmm4\n\t" "movq %%xmm4, %0\n\t" #endif : "=m" (storage) : "m" (v) : "memory", "xmm4" ); #else __asm__ __volatile__ ( "fildll %1\n\t" "fistpll %0\n\t" : "=m" (storage) : "m" (v) : "memory" ); #endif } else { #if defined(__PIC__) uint32_t scratch; __asm__ __volatile__ ( "movl %%ebx, %[scratch]\n\t" "movl %[value_lo], %%ebx\n\t" "movl 0(%[dest]), %%eax\n\t" "movl 4(%[dest]), %%edx\n\t" ".align 16\n\t" "1: lock; cmpxchg8b 0(%[dest])\n\t" "jne 1b\n\t" "movl %[scratch], %%ebx" #if !defined(BOOST_ATOMIC_DETAIL_NO_ASM_CONSTRAINT_ALTERNATIVES) : [scratch] "=m,m" (scratch) : [value_lo] "a,a" ((uint32_t)v), "c,c" ((uint32_t)(v >> 32)), [dest] "D,S" (&storage) #else : [scratch] "=m" (scratch) : [value_lo] "a" ((uint32_t)v), "c" ((uint32_t)(v >> 32)), [dest] "D" (&storage) #endif : BOOST_ATOMIC_DETAIL_ASM_CLOBBER_CC_COMMA "edx", "memory" ); #else __asm__ __volatile__ ( "movl 0(%[dest]), %%eax\n\t" "movl 4(%[dest]), %%edx\n\t" ".align 16\n\t" "1: lock; cmpxchg8b 0(%[dest])\n\t" "jne 1b\n\t" : #if !defined(BOOST_ATOMIC_DETAIL_NO_ASM_CONSTRAINT_ALTERNATIVES) : [value_lo] "b,b" ((uint32_t)v), "c,c" ((uint32_t)(v >> 32)), [dest] "D,S" (&storage) #else : [value_lo] "b" ((uint32_t)v), "c" ((uint32_t)(v >> 32)), [dest] "D" (&storage) #endif : BOOST_ATOMIC_DETAIL_ASM_CLOBBER_CC_COMMA "eax", "edx", "memory" ); #endif } } static BOOST_FORCEINLINE storage_type load(storage_type const volatile& storage, memory_order) BOOST_NOEXCEPT { storage_type value; if ((((uint32_t)&storage) & 0x00000007) == 0) { #if defined(__SSE2__) __asm__ __volatile__ ( #if defined(__AVX__) "vmovq %1, %%xmm4\n\t" "vmovq %%xmm4, %0\n\t" #else "movq %1, %%xmm4\n\t" "movq %%xmm4, %0\n\t" #endif : "=m" (value) : "m" (storage) : "memory", "xmm4" ); #else __asm__ __volatile__ ( "fildll %1\n\t" "fistpll %0\n\t" : "=m" (value) : "m" (storage) : "memory" ); #endif } else { #if defined(__clang__) // Clang cannot allocate eax:edx register pairs but it has sync intrinsics value = __sync_val_compare_and_swap(&storage, (storage_type)0, (storage_type)0); #else // We don't care for comparison result here; the previous value will be stored into value anyway. // Also we don't care for ebx and ecx values, they just have to be equal to eax and edx before cmpxchg8b. __asm__ __volatile__ ( "movl %%ebx, %%eax\n\t" "movl %%ecx, %%edx\n\t" "lock; cmpxchg8b %[storage]" : "=&A" (value) : [storage] "m" (storage) : BOOST_ATOMIC_DETAIL_ASM_CLOBBER_CC_COMMA "memory" ); #endif } return value; } static BOOST_FORCEINLINE bool compare_exchange_strong( storage_type volatile& storage, storage_type& expected, storage_type desired, memory_order, memory_order) BOOST_NOEXCEPT { #if defined(__clang__) // Clang cannot allocate eax:edx register pairs but it has sync intrinsics storage_type old_expected = expected; expected = __sync_val_compare_and_swap(&storage, old_expected, desired); return expected == old_expected; #elif defined(__PIC__) // Make sure ebx is saved and restored properly in case // of position independent code. To make this work // setup register constraints such that ebx can not be // used by accident e.g. as base address for the variable // to be modified. Accessing "scratch" should always be okay, // as it can only be placed on the stack (and therefore // accessed through ebp or esp only). // // In theory, could push/pop ebx onto/off the stack, but movs // to a prepared stack slot turn out to be faster. uint32_t scratch; bool success; __asm__ __volatile__ ( "movl %%ebx, %[scratch]\n\t" "movl %[desired_lo], %%ebx\n\t" "lock; cmpxchg8b %[dest]\n\t" "movl %[scratch], %%ebx\n\t" "sete %[success]" #if !defined(BOOST_ATOMIC_DETAIL_NO_ASM_CONSTRAINT_ALTERNATIVES) : "+A,A,A,A,A,A" (expected), [dest] "+m,m,m,m,m,m" (storage), [scratch] "=m,m,m,m,m,m" (scratch), [success] "=q,m,q,m,q,m" (success) : [desired_lo] "S,S,D,D,m,m" ((uint32_t)desired), "c,c,c,c,c,c" ((uint32_t)(desired >> 32)) #else : "+A" (expected), [dest] "+m" (storage), [scratch] "=m" (scratch), [success] "=q" (success) : [desired_lo] "S" ((uint32_t)desired), "c" ((uint32_t)(desired >> 32)) #endif : BOOST_ATOMIC_DETAIL_ASM_CLOBBER_CC_COMMA "memory" ); return success; #else bool success; __asm__ __volatile__ ( "lock; cmpxchg8b %[dest]\n\t" "sete %[success]" #if !defined(BOOST_ATOMIC_DETAIL_NO_ASM_CONSTRAINT_ALTERNATIVES) : "+A,A" (expected), [dest] "+m,m" (storage), [success] "=q,m" (success) : "b,b" ((uint32_t)desired), "c,c" ((uint32_t)(desired >> 32)) #else : "+A" (expected), [dest] "+m" (storage), [success] "=q" (success) : "b" ((uint32_t)desired), "c" ((uint32_t)(desired >> 32)) #endif : BOOST_ATOMIC_DETAIL_ASM_CLOBBER_CC_COMMA "memory" ); return success; #endif } static BOOST_FORCEINLINE bool compare_exchange_weak( storage_type volatile& storage, storage_type& expected, storage_type desired, memory_order success_order, memory_order failure_order) BOOST_NOEXCEPT { return compare_exchange_strong(storage, expected, desired, success_order, failure_order); } static BOOST_FORCEINLINE bool is_lock_free(storage_type const volatile&) BOOST_NOEXCEPT { return true; } }; #endif // defined(BOOST_ATOMIC_DETAIL_X86_HAS_CMPXCHG8B) #if defined(BOOST_ATOMIC_DETAIL_X86_HAS_CMPXCHG16B) template< bool Signed > struct gcc_dcas_x86_64 { typedef typename make_storage_type< 16u, Signed >::type storage_type; static BOOST_FORCEINLINE void store(storage_type volatile& storage, storage_type v, memory_order) BOOST_NOEXCEPT { uint64_t const* p_value = (uint64_t const*)&v; __asm__ __volatile__ ( "movq 0(%[dest]), %%rax\n\t" "movq 8(%[dest]), %%rdx\n\t" ".align 16\n\t" "1: lock; cmpxchg16b 0(%[dest])\n\t" "jne 1b" : : "b" (p_value[0]), "c" (p_value[1]), [dest] "r" (&storage) : BOOST_ATOMIC_DETAIL_ASM_CLOBBER_CC_COMMA "rax", "rdx", "memory" ); } static BOOST_FORCEINLINE storage_type load(storage_type const volatile& storage, memory_order) BOOST_NOEXCEPT { #if defined(__clang__) // Clang cannot allocate rax:rdx register pairs but it has sync intrinsics storage_type value = storage_type(); return __sync_val_compare_and_swap(&storage, value, value); #else storage_type value; // We don't care for comparison result here; the previous value will be stored into value anyway. // Also we don't care for rbx and rcx values, they just have to be equal to rax and rdx before cmpxchg16b. __asm__ __volatile__ ( "movq %%rbx, %%rax\n\t" "movq %%rcx, %%rdx\n\t" "lock; cmpxchg16b %[storage]" : "=&A" (value) : [storage] "m" (storage) : BOOST_ATOMIC_DETAIL_ASM_CLOBBER_CC_COMMA "memory" ); return value; #endif } static BOOST_FORCEINLINE bool compare_exchange_strong( storage_type volatile& storage, storage_type& expected, storage_type desired, memory_order, memory_order) BOOST_NOEXCEPT { #if defined(__clang__) // Clang cannot allocate rax:rdx register pairs but it has sync intrinsics storage_type old_expected = expected; expected = __sync_val_compare_and_swap(&storage, old_expected, desired); return expected == old_expected; #else uint64_t const* p_desired = (uint64_t const*)&desired; bool success; __asm__ __volatile__ ( "lock; cmpxchg16b %[dest]\n\t" "sete %[success]" #if !defined(BOOST_ATOMIC_DETAIL_NO_ASM_CONSTRAINT_ALTERNATIVES) : "+A,A" (expected), [dest] "+m,m" (storage), [success] "=q,m" (success) : "b,b" (p_desired[0]), "c,c" (p_desired[1]) #else : "+A" (expected), [dest] "+m" (storage), [success] "=q" (success) : "b" (p_desired[0]), "c" (p_desired[1]) #endif : BOOST_ATOMIC_DETAIL_ASM_CLOBBER_CC_COMMA "memory" ); return success; #endif } static BOOST_FORCEINLINE bool compare_exchange_weak( storage_type volatile& storage, storage_type& expected, storage_type desired, memory_order success_order, memory_order failure_order) BOOST_NOEXCEPT { return compare_exchange_strong(storage, expected, desired, success_order, failure_order); } static BOOST_FORCEINLINE bool is_lock_free(storage_type const volatile&) BOOST_NOEXCEPT { return true; } }; #endif // defined(BOOST_ATOMIC_DETAIL_X86_HAS_CMPXCHG16B) } // namespace detail } // namespace atomics } // namespace boost #endif // BOOST_ATOMIC_DETAIL_OPS_GCC_X86_DCAS_HPP_INCLUDED_