// This header provides cross-platform low-level atomic operations // similar to C11 atomics. // // Operations are sequentially consistent unless they have a suffix indicating // otherwise. If in doubt, prefer the sequentially consistent operations. // // The "_relaxed" suffix for load and store operations indicates the "relaxed" // memory order. They don't provide synchronization, but (roughly speaking) // guarantee somewhat sane behavior for races instead of undefined behavior. // In practice, they correspond to "normal" hardware load and store // instructions, so they are almost as inexpensive as plain loads and stores // in C. // // Note that atomic read-modify-write operations like _Py_atomic_add_* return // the previous value of the atomic variable, not the new value. // // See https://en.cppreference.com/w/c/atomic for more information on C11 // atomics. // See https://www.open-std.org/jtc1/sc22/wg21/docs/papers/2020/p2055r0.pdf // "A Relaxed Guide to memory_order_relaxed" for discussion of and common usage // or relaxed atomics. // // Functions with pseudo Python code: // // def _Py_atomic_load(obj): // return obj # sequential consistency // // def _Py_atomic_load_relaxed(obj): // return obj # relaxed consistency // // def _Py_atomic_store(obj, value): // obj = value # sequential consistency // // def _Py_atomic_store_relaxed(obj, value): // obj = value # relaxed consistency // // def _Py_atomic_exchange(obj, value): // # sequential consistency // old_obj = obj // obj = value // return old_obj // // def _Py_atomic_compare_exchange(obj, expected, desired): // # sequential consistency // if obj == expected: // obj = desired // return True // else: // expected = obj // return False // // def _Py_atomic_add(obj, value): // # sequential consistency // old_obj = obj // obj += value // return old_obj // // def _Py_atomic_and(obj, value): // # sequential consistency // old_obj = obj // obj &= value // return old_obj // // def _Py_atomic_or(obj, value): // # sequential consistency // old_obj = obj // obj |= value // return old_obj // // Other functions: // // def _Py_atomic_load_ptr_acquire(obj): // return obj # acquire // // def _Py_atomic_store_ptr_release(obj): // return obj # release // // def _Py_atomic_fence_seq_cst(): // # sequential consistency // ... // // def _Py_atomic_fence_release(): // # release // ... #ifndef Py_CPYTHON_ATOMIC_H # error "this header file must not be included directly" #endif // --- _Py_atomic_add -------------------------------------------------------- // Atomically adds `value` to `obj` and returns the previous value static inline int _Py_atomic_add_int(int *obj, int value); static inline int8_t _Py_atomic_add_int8(int8_t *obj, int8_t value); static inline int16_t _Py_atomic_add_int16(int16_t *obj, int16_t value); static inline int32_t _Py_atomic_add_int32(int32_t *obj, int32_t value); static inline int64_t _Py_atomic_add_int64(int64_t *obj, int64_t value); static inline intptr_t _Py_atomic_add_intptr(intptr_t *obj, intptr_t value); static inline unsigned int _Py_atomic_add_uint(unsigned int *obj, unsigned int value); static inline uint8_t _Py_atomic_add_uint8(uint8_t *obj, uint8_t value); static inline uint16_t _Py_atomic_add_uint16(uint16_t *obj, uint16_t value); static inline uint32_t _Py_atomic_add_uint32(uint32_t *obj, uint32_t value); static inline uint64_t _Py_atomic_add_uint64(uint64_t *obj, uint64_t value); static inline uintptr_t _Py_atomic_add_uintptr(uintptr_t *obj, uintptr_t value); static inline Py_ssize_t _Py_atomic_add_ssize(Py_ssize_t *obj, Py_ssize_t value); // --- _Py_atomic_compare_exchange ------------------------------------------- // Performs an atomic compare-and-exchange. // // - If `*obj` and `*expected` are equal, store `desired` into `*obj` // and return 1 (success). // - Otherwise, store the `*obj` current value into `*expected` // and return 0 (failure). // // These correspond to the C11 atomic_compare_exchange_strong() function. static inline int _Py_atomic_compare_exchange_int(int *obj, int *expected, int desired); static inline int _Py_atomic_compare_exchange_int8(int8_t *obj, int8_t *expected, int8_t desired); static inline int _Py_atomic_compare_exchange_int16(int16_t *obj, int16_t *expected, int16_t desired); static inline int _Py_atomic_compare_exchange_int32(int32_t *obj, int32_t *expected, int32_t desired); static inline int _Py_atomic_compare_exchange_int64(int64_t *obj, int64_t *expected, int64_t desired); static inline int _Py_atomic_compare_exchange_intptr(intptr_t *obj, intptr_t *expected, intptr_t desired); static inline int _Py_atomic_compare_exchange_uint(unsigned int *obj, unsigned int *expected, unsigned int desired); static inline int _Py_atomic_compare_exchange_uint8(uint8_t *obj, uint8_t *expected, uint8_t desired); static inline int _Py_atomic_compare_exchange_uint16(uint16_t *obj, uint16_t *expected, uint16_t desired); static inline int _Py_atomic_compare_exchange_uint32(uint32_t *obj, uint32_t *expected, uint32_t desired); static inline int _Py_atomic_compare_exchange_uint64(uint64_t *obj, uint64_t *expected, uint64_t desired); static inline int _Py_atomic_compare_exchange_uintptr(uintptr_t *obj, uintptr_t *expected, uintptr_t desired); static inline int _Py_atomic_compare_exchange_ssize(Py_ssize_t *obj, Py_ssize_t *expected, Py_ssize_t desired); // NOTE: `obj` and `expected` are logically `void**` types, but we use `void*` // so that we can pass types like `PyObject**` without a cast. static inline int _Py_atomic_compare_exchange_ptr(void *obj, void *expected, void *value); // --- _Py_atomic_exchange --------------------------------------------------- // Atomically replaces `*obj` with `value` and returns the previous value of `*obj`. static inline int _Py_atomic_exchange_int(int *obj, int value); static inline int8_t _Py_atomic_exchange_int8(int8_t *obj, int8_t value); static inline int16_t _Py_atomic_exchange_int16(int16_t *obj, int16_t value); static inline int32_t _Py_atomic_exchange_int32(int32_t *obj, int32_t value); static inline int64_t _Py_atomic_exchange_int64(int64_t *obj, int64_t value); static inline intptr_t _Py_atomic_exchange_intptr(intptr_t *obj, intptr_t value); static inline unsigned int _Py_atomic_exchange_uint(unsigned int *obj, unsigned int value); static inline uint8_t _Py_atomic_exchange_uint8(uint8_t *obj, uint8_t value); static inline uint16_t _Py_atomic_exchange_uint16(uint16_t *obj, uint16_t value); static inline uint32_t _Py_atomic_exchange_uint32(uint32_t *obj, uint32_t value); static inline uint64_t _Py_atomic_exchange_uint64(uint64_t *obj, uint64_t value); static inline uintptr_t _Py_atomic_exchange_uintptr(uintptr_t *obj, uintptr_t value); static inline Py_ssize_t _Py_atomic_exchange_ssize(Py_ssize_t *obj, Py_ssize_t value); static inline void * _Py_atomic_exchange_ptr(void *obj, void *value); // --- _Py_atomic_and -------------------------------------------------------- // Performs `*obj &= value` atomically and returns the previous value of `*obj`. static inline uint8_t _Py_atomic_and_uint8(uint8_t *obj, uint8_t value); static inline uint16_t _Py_atomic_and_uint16(uint16_t *obj, uint16_t value); static inline uint32_t _Py_atomic_and_uint32(uint32_t *obj, uint32_t value); static inline uint64_t _Py_atomic_and_uint64(uint64_t *obj, uint64_t value); static inline uintptr_t _Py_atomic_and_uintptr(uintptr_t *obj, uintptr_t value); // --- _Py_atomic_or --------------------------------------------------------- // Performs `*obj |= value` atomically and returns the previous value of `*obj`. static inline uint8_t _Py_atomic_or_uint8(uint8_t *obj, uint8_t value); static inline uint16_t _Py_atomic_or_uint16(uint16_t *obj, uint16_t value); static inline uint32_t _Py_atomic_or_uint32(uint32_t *obj, uint32_t value); static inline uint64_t _Py_atomic_or_uint64(uint64_t *obj, uint64_t value); static inline uintptr_t _Py_atomic_or_uintptr(uintptr_t *obj, uintptr_t value); // --- _Py_atomic_load ------------------------------------------------------- // Atomically loads `*obj` (sequential consistency) static inline int _Py_atomic_load_int(const int *obj); static inline int8_t _Py_atomic_load_int8(const int8_t *obj); static inline int16_t _Py_atomic_load_int16(const int16_t *obj); static inline int32_t _Py_atomic_load_int32(const int32_t *obj); static inline int64_t _Py_atomic_load_int64(const int64_t *obj); static inline intptr_t _Py_atomic_load_intptr(const intptr_t *obj); static inline uint8_t _Py_atomic_load_uint8(const uint8_t *obj); static inline uint16_t _Py_atomic_load_uint16(const uint16_t *obj); static inline uint32_t _Py_atomic_load_uint32(const uint32_t *obj); static inline uint64_t _Py_atomic_load_uint64(const uint64_t *obj); static inline uintptr_t _Py_atomic_load_uintptr(const uintptr_t *obj); static inline unsigned int _Py_atomic_load_uint(const unsigned int *obj); static inline Py_ssize_t _Py_atomic_load_ssize(const Py_ssize_t *obj); static inline void * _Py_atomic_load_ptr(const void *obj); // --- _Py_atomic_load_relaxed ----------------------------------------------- // Loads `*obj` (relaxed consistency, i.e., no ordering) static inline int _Py_atomic_load_int_relaxed(const int *obj); static inline int8_t _Py_atomic_load_int8_relaxed(const int8_t *obj); static inline int16_t _Py_atomic_load_int16_relaxed(const int16_t *obj); static inline int32_t _Py_atomic_load_int32_relaxed(const int32_t *obj); static inline int64_t _Py_atomic_load_int64_relaxed(const int64_t *obj); static inline intptr_t _Py_atomic_load_intptr_relaxed(const intptr_t *obj); static inline uint8_t _Py_atomic_load_uint8_relaxed(const uint8_t *obj); static inline uint16_t _Py_atomic_load_uint16_relaxed(const uint16_t *obj); static inline uint32_t _Py_atomic_load_uint32_relaxed(const uint32_t *obj); static inline uint64_t _Py_atomic_load_uint64_relaxed(const uint64_t *obj); static inline uintptr_t _Py_atomic_load_uintptr_relaxed(const uintptr_t *obj); static inline unsigned int _Py_atomic_load_uint_relaxed(const unsigned int *obj); static inline Py_ssize_t _Py_atomic_load_ssize_relaxed(const Py_ssize_t *obj); static inline void * _Py_atomic_load_ptr_relaxed(const void *obj); // --- _Py_atomic_store ------------------------------------------------------ // Atomically performs `*obj = value` (sequential consistency) static inline void _Py_atomic_store_int(int *obj, int value); static inline void _Py_atomic_store_int8(int8_t *obj, int8_t value); static inline void _Py_atomic_store_int16(int16_t *obj, int16_t value); static inline void _Py_atomic_store_int32(int32_t *obj, int32_t value); static inline void _Py_atomic_store_int64(int64_t *obj, int64_t value); static inline void _Py_atomic_store_intptr(intptr_t *obj, intptr_t value); static inline void _Py_atomic_store_uint8(uint8_t *obj, uint8_t value); static inline void _Py_atomic_store_uint16(uint16_t *obj, uint16_t value); static inline void _Py_atomic_store_uint32(uint32_t *obj, uint32_t value); static inline void _Py_atomic_store_uint64(uint64_t *obj, uint64_t value); static inline void _Py_atomic_store_uintptr(uintptr_t *obj, uintptr_t value); static inline void _Py_atomic_store_uint(unsigned int *obj, unsigned int value); static inline void _Py_atomic_store_ptr(void *obj, void *value); static inline void _Py_atomic_store_ssize(Py_ssize_t* obj, Py_ssize_t value); // --- _Py_atomic_store_relaxed ---------------------------------------------- // Stores `*obj = value` (relaxed consistency, i.e., no ordering) static inline void _Py_atomic_store_int_relaxed(int *obj, int value); static inline void _Py_atomic_store_int8_relaxed(int8_t *obj, int8_t value); static inline void _Py_atomic_store_int16_relaxed(int16_t *obj, int16_t value); static inline void _Py_atomic_store_int32_relaxed(int32_t *obj, int32_t value); static inline void _Py_atomic_store_int64_relaxed(int64_t *obj, int64_t value); static inline void _Py_atomic_store_intptr_relaxed(intptr_t *obj, intptr_t value); static inline void _Py_atomic_store_uint8_relaxed(uint8_t* obj, uint8_t value); static inline void _Py_atomic_store_uint16_relaxed(uint16_t *obj, uint16_t value); static inline void _Py_atomic_store_uint32_relaxed(uint32_t *obj, uint32_t value); static inline void _Py_atomic_store_uint64_relaxed(uint64_t *obj, uint64_t value); static inline void _Py_atomic_store_uintptr_relaxed(uintptr_t *obj, uintptr_t value); static inline void _Py_atomic_store_uint_relaxed(unsigned int *obj, unsigned int value); static inline void _Py_atomic_store_ptr_relaxed(void *obj, void *value); static inline void _Py_atomic_store_ssize_relaxed(Py_ssize_t *obj, Py_ssize_t value); // --- _Py_atomic_load_ptr_acquire / _Py_atomic_store_ptr_release ------------ // Loads `*obj` (acquire operation) static inline void * _Py_atomic_load_ptr_acquire(const void *obj); // Stores `*obj = value` (release operation) static inline void _Py_atomic_store_ptr_release(void *obj, void *value); static inline void _Py_atomic_store_int_release(int *obj, int value); static inline int _Py_atomic_load_int_acquire(const int *obj); // --- _Py_atomic_fence ------------------------------------------------------ // Sequential consistency fence. C11 fences have complex semantics. When // possible, use the atomic operations on variables defined above, which // generally do not require explicit use of a fence. // See https://en.cppreference.com/w/cpp/atomic/atomic_thread_fence static inline void _Py_atomic_fence_seq_cst(void); // Release fence static inline void _Py_atomic_fence_release(void); #ifndef _Py_USE_GCC_BUILTIN_ATOMICS # if defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8)) # define _Py_USE_GCC_BUILTIN_ATOMICS 1 # elif defined(__clang__) # if __has_builtin(__atomic_load) # define _Py_USE_GCC_BUILTIN_ATOMICS 1 # endif # endif #endif #if _Py_USE_GCC_BUILTIN_ATOMICS # define Py_ATOMIC_GCC_H # include "cpython/pyatomic_gcc.h" # undef Py_ATOMIC_GCC_H #elif __STDC_VERSION__ >= 201112L && !defined(__STDC_NO_ATOMICS__) # define Py_ATOMIC_STD_H # include "cpython/pyatomic_std.h" # undef Py_ATOMIC_STD_H #elif defined(_MSC_VER) # define Py_ATOMIC_MSC_H # include "cpython/pyatomic_msc.h" # undef Py_ATOMIC_MSC_H #else # error "no available pyatomic implementation for this platform/compiler" #endif // --- aliases --------------------------------------------------------------- #if SIZEOF_LONG == 8 # define _Py_atomic_load_ulong(p) \ _Py_atomic_load_uint64((uint64_t *)p) # define _Py_atomic_load_ulong_relaxed(p) \ _Py_atomic_load_uint64_relaxed((uint64_t *)p) # define _Py_atomic_store_ulong(p, v) \ _Py_atomic_store_uint64((uint64_t *)p, v) # define _Py_atomic_store_ulong_relaxed(p, v) \ _Py_atomic_store_uint64_relaxed((uint64_t *)p, v) #elif SIZEOF_LONG == 4 # define _Py_atomic_load_ulong(p) \ _Py_atomic_load_uint32((uint32_t *)p) # define _Py_atomic_load_ulong_relaxed(p) \ _Py_atomic_load_uint32_relaxed((uint32_t *)p) # define _Py_atomic_store_ulong(p, v) \ _Py_atomic_store_uint32((uint32_t *)p, v) # define _Py_atomic_store_ulong_relaxed(p, v) \ _Py_atomic_store_uint32_relaxed((uint32_t *)p, v) #else # error "long must be 4 or 8 bytes in size" #endif // SIZEOF_LONG