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// Copyright 2014 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// This file is an internal atomic implementation, use atomicops.h instead.
//
// This implementation uses C++11 atomics' member functions. The code base is
// currently written assuming atomicity revolves around accesses instead of
// C++11's memory locations. The burden is on the programmer to ensure that all
// memory locations accessed atomically are never accessed non-atomically (tsan
// should help with this).
//
// TODO(jfb) Modify the atomicops.h API and user code to declare atomic
// locations as truly atomic. See the static_assert below.
//
// Of note in this implementation:
// * All NoBarrier variants are implemented as relaxed.
// * All Barrier variants are implemented as sequentially-consistent.
// * Compare exchange's failure ordering is always the same as the success one
// (except for release, which fails as relaxed): using a weaker ordering is
// only valid under certain uses of compare exchange.
// * Atomic increment is expected to return the post-incremented value, whereas
// C11 fetch add returns the previous value. The implementation therefore
// needs to increment twice (which the compiler should be able to detect and
// optimize).
#ifndef BASE_ATOMICOPS_INTERNALS_PORTABLE_H_
#define BASE_ATOMICOPS_INTERNALS_PORTABLE_H_
#include <atomic>
#include "build/build_config.h"
namespace base {
namespace subtle {
// This implementation is transitional and maintains the original API for
// atomicops.h. This requires casting memory locations to the atomic types, and
// assumes that the API and the C++11 implementation are layout-compatible,
// which isn't true for all implementations or hardware platforms. The static
// assertion should detect this issue, were it to fire then this header
// shouldn't be used.
//
// TODO(jfb) If this header manages to stay committed then the API should be
// modified, and all call sites updated.
typedef volatile std::atomic<Atomic32>* AtomicLocation32;
static_assert(sizeof(*(AtomicLocation32) nullptr) == sizeof(Atomic32),
"incompatible 32-bit atomic layout");
inline Atomic32 NoBarrier_CompareAndSwap(volatile Atomic32* ptr,
Atomic32 old_value,
Atomic32 new_value) {
((AtomicLocation32)ptr)
->compare_exchange_strong(old_value,
new_value,
std::memory_order_relaxed,
std::memory_order_relaxed);
return old_value;
}
inline Atomic32 NoBarrier_AtomicExchange(volatile Atomic32* ptr,
Atomic32 new_value) {
return ((AtomicLocation32)ptr)
->exchange(new_value, std::memory_order_relaxed);
}
inline Atomic32 NoBarrier_AtomicIncrement(volatile Atomic32* ptr,
Atomic32 increment) {
return increment +
((AtomicLocation32)ptr)
->fetch_add(increment, std::memory_order_relaxed);
}
inline Atomic32 Barrier_AtomicIncrement(volatile Atomic32* ptr,
Atomic32 increment) {
return increment + ((AtomicLocation32)ptr)->fetch_add(increment);
}
inline Atomic32 Acquire_CompareAndSwap(volatile Atomic32* ptr,
Atomic32 old_value,
Atomic32 new_value) {
((AtomicLocation32)ptr)
->compare_exchange_strong(old_value,
new_value,
std::memory_order_acquire,
std::memory_order_acquire);
return old_value;
}
inline Atomic32 Release_CompareAndSwap(volatile Atomic32* ptr,
Atomic32 old_value,
Atomic32 new_value) {
((AtomicLocation32)ptr)
->compare_exchange_strong(old_value,
new_value,
std::memory_order_release,
std::memory_order_relaxed);
return old_value;
}
inline void NoBarrier_Store(volatile Atomic32* ptr, Atomic32 value) {
((AtomicLocation32)ptr)->store(value, std::memory_order_relaxed);
}
inline void Release_Store(volatile Atomic32* ptr, Atomic32 value) {
((AtomicLocation32)ptr)->store(value, std::memory_order_release);
}
inline Atomic32 NoBarrier_Load(volatile const Atomic32* ptr) {
return ((AtomicLocation32)ptr)->load(std::memory_order_relaxed);
}
inline Atomic32 Acquire_Load(volatile const Atomic32* ptr) {
return ((AtomicLocation32)ptr)->load(std::memory_order_acquire);
}
#if defined(ARCH_CPU_64_BITS)
typedef volatile std::atomic<Atomic64>* AtomicLocation64;
static_assert(sizeof(*(AtomicLocation64) nullptr) == sizeof(Atomic64),
"incompatible 64-bit atomic layout");
inline Atomic64 NoBarrier_CompareAndSwap(volatile Atomic64* ptr,
Atomic64 old_value,
Atomic64 new_value) {
((AtomicLocation64)ptr)
->compare_exchange_strong(old_value,
new_value,
std::memory_order_relaxed,
std::memory_order_relaxed);
return old_value;
}
inline Atomic64 NoBarrier_AtomicExchange(volatile Atomic64* ptr,
Atomic64 new_value) {
return ((AtomicLocation64)ptr)
->exchange(new_value, std::memory_order_relaxed);
}
inline Atomic64 NoBarrier_AtomicIncrement(volatile Atomic64* ptr,
Atomic64 increment) {
return increment +
((AtomicLocation64)ptr)
->fetch_add(increment, std::memory_order_relaxed);
}
inline Atomic64 Barrier_AtomicIncrement(volatile Atomic64* ptr,
Atomic64 increment) {
return increment + ((AtomicLocation64)ptr)->fetch_add(increment);
}
inline Atomic64 Acquire_CompareAndSwap(volatile Atomic64* ptr,
Atomic64 old_value,
Atomic64 new_value) {
((AtomicLocation64)ptr)
->compare_exchange_strong(old_value,
new_value,
std::memory_order_acquire,
std::memory_order_acquire);
return old_value;
}
inline Atomic64 Release_CompareAndSwap(volatile Atomic64* ptr,
Atomic64 old_value,
Atomic64 new_value) {
((AtomicLocation64)ptr)
->compare_exchange_strong(old_value,
new_value,
std::memory_order_release,
std::memory_order_relaxed);
return old_value;
}
inline void NoBarrier_Store(volatile Atomic64* ptr, Atomic64 value) {
((AtomicLocation64)ptr)->store(value, std::memory_order_relaxed);
}
inline void Release_Store(volatile Atomic64* ptr, Atomic64 value) {
((AtomicLocation64)ptr)->store(value, std::memory_order_release);
}
inline Atomic64 NoBarrier_Load(volatile const Atomic64* ptr) {
return ((AtomicLocation64)ptr)->load(std::memory_order_relaxed);
}
inline Atomic64 Acquire_Load(volatile const Atomic64* ptr) {
return ((AtomicLocation64)ptr)->load(std::memory_order_acquire);
}
#endif // defined(ARCH_CPU_64_BITS)
} // namespace subtle
} // namespace base
#endif // BASE_ATOMICOPS_INTERNALS_PORTABLE_H_