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/*------------------------------------------------------------------------- * * generic.h * Implement higher level operations based on some lower level atomic * operations. * * Portions Copyright (c) 1996-2016, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * src/include/port/atomics/generic.h * *------------------------------------------------------------------------- */ /* intentionally no include guards, should only be included by atomics.h */ #ifndef INSIDE_ATOMICS_H # error "should be included via atomics.h" #endif /* * If read or write barriers are undefined, we upgrade them to full memory * barriers. */ #if !defined(pg_read_barrier_impl) # define pg_read_barrier_impl pg_memory_barrier_impl #endif #if !defined(pg_write_barrier_impl) # define pg_write_barrier_impl pg_memory_barrier_impl #endif #ifndef PG_HAVE_SPIN_DELAY #define PG_HAVE_SPIN_DELAY #define pg_spin_delay_impl() ((void)0) #endif /* provide fallback */ #if !defined(PG_HAVE_ATOMIC_FLAG_SUPPORT) && defined(PG_HAVE_ATOMIC_U32_SUPPORT) #define PG_HAVE_ATOMIC_FLAG_SUPPORT typedef pg_atomic_uint32 pg_atomic_flag; #endif #ifndef PG_HAVE_ATOMIC_READ_U32 #define PG_HAVE_ATOMIC_READ_U32 static inline uint32 pg_atomic_read_u32_impl(volatile pg_atomic_uint32 *ptr) { return *(&ptr->value); } #endif #ifndef PG_HAVE_ATOMIC_WRITE_U32 #define PG_HAVE_ATOMIC_WRITE_U32 static inline void pg_atomic_write_u32_impl(volatile pg_atomic_uint32 *ptr, uint32 val) { ptr->value = val; } #endif #ifndef PG_HAVE_ATOMIC_UNLOCKED_WRITE_U32 #define PG_HAVE_ATOMIC_UNLOCKED_WRITE_U32 static inline void pg_atomic_unlocked_write_u32_impl(volatile pg_atomic_uint32 *ptr, uint32 val) { ptr->value = val; } #endif /* * provide fallback for test_and_set using atomic_exchange if available */ #if !defined(PG_HAVE_ATOMIC_TEST_SET_FLAG) && defined(PG_HAVE_ATOMIC_EXCHANGE_U32) #define PG_HAVE_ATOMIC_INIT_FLAG static inline void pg_atomic_init_flag_impl(volatile pg_atomic_flag *ptr) { pg_atomic_write_u32_impl(ptr, 0); } #define PG_HAVE_ATOMIC_TEST_SET_FLAG static inline bool pg_atomic_test_set_flag_impl(volatile pg_atomic_flag *ptr) { return pg_atomic_exchange_u32_impl(ptr, &value, 1) == 0; } #define PG_HAVE_ATOMIC_UNLOCKED_TEST_FLAG static inline bool pg_atomic_unlocked_test_flag_impl(volatile pg_atomic_flag *ptr) { return pg_atomic_read_u32_impl(ptr) == 0; } #define PG_HAVE_ATOMIC_CLEAR_FLAG static inline void pg_atomic_clear_flag_impl(volatile pg_atomic_flag *ptr) { /* XXX: release semantics suffice? */ pg_memory_barrier_impl(); pg_atomic_write_u32_impl(ptr, 0); } /* * provide fallback for test_and_set using atomic_compare_exchange if * available. */ #elif !defined(PG_HAVE_ATOMIC_TEST_SET_FLAG) && defined(PG_HAVE_ATOMIC_COMPARE_EXCHANGE_U32) #define PG_HAVE_ATOMIC_INIT_FLAG static inline void pg_atomic_init_flag_impl(volatile pg_atomic_flag *ptr) { pg_atomic_write_u32_impl(ptr, 0); } #define PG_HAVE_ATOMIC_TEST_SET_FLAG static inline bool pg_atomic_test_set_flag_impl(volatile pg_atomic_flag *ptr) { uint32 value = 0; return pg_atomic_compare_exchange_u32_impl(ptr, &value, 1); } #define PG_HAVE_ATOMIC_UNLOCKED_TEST_FLAG static inline bool pg_atomic_unlocked_test_flag_impl(volatile pg_atomic_flag *ptr) { return pg_atomic_read_u32_impl(ptr) == 0; } #define PG_HAVE_ATOMIC_CLEAR_FLAG static inline void pg_atomic_clear_flag_impl(volatile pg_atomic_flag *ptr) { /* * Use a memory barrier + plain write if we have a native memory * barrier. But don't do so if memory barriers use spinlocks - that'd lead * to circularity if flags are used to implement spinlocks. */ #ifndef PG_HAVE_MEMORY_BARRIER_EMULATION /* XXX: release semantics suffice? */ pg_memory_barrier_impl(); pg_atomic_write_u32_impl(ptr, 0); #else uint32 value = 1; pg_atomic_compare_exchange_u32_impl(ptr, &value, 0); #endif } #elif !defined(PG_HAVE_ATOMIC_TEST_SET_FLAG) # error "No pg_atomic_test_and_set provided" #endif /* !defined(PG_HAVE_ATOMIC_TEST_SET_FLAG) */ #ifndef PG_HAVE_ATOMIC_INIT_U32 #define PG_HAVE_ATOMIC_INIT_U32 static inline void pg_atomic_init_u32_impl(volatile pg_atomic_uint32 *ptr, uint32 val_) { ptr->value = val_; } #endif #if !defined(PG_HAVE_ATOMIC_EXCHANGE_U32) && defined(PG_HAVE_ATOMIC_COMPARE_EXCHANGE_U32) #define PG_HAVE_ATOMIC_EXCHANGE_U32 static inline uint32 pg_atomic_exchange_u32_impl(volatile pg_atomic_uint32 *ptr, uint32 xchg_) { uint32 old; while (true) { old = pg_atomic_read_u32_impl(ptr); if (pg_atomic_compare_exchange_u32_impl(ptr, &old, xchg_)) break; } return old; } #endif #if !defined(PG_HAVE_ATOMIC_FETCH_ADD_U32) && defined(PG_HAVE_ATOMIC_COMPARE_EXCHANGE_U32) #define PG_HAVE_ATOMIC_FETCH_ADD_U32 static inline uint32 pg_atomic_fetch_add_u32_impl(volatile pg_atomic_uint32 *ptr, int32 add_) { uint32 old; while (true) { old = pg_atomic_read_u32_impl(ptr); if (pg_atomic_compare_exchange_u32_impl(ptr, &old, old + add_)) break; } return old; } #endif #if !defined(PG_HAVE_ATOMIC_FETCH_SUB_U32) && defined(PG_HAVE_ATOMIC_COMPARE_EXCHANGE_U32) #define PG_HAVE_ATOMIC_FETCH_SUB_U32 static inline uint32 pg_atomic_fetch_sub_u32_impl(volatile pg_atomic_uint32 *ptr, int32 sub_) { return pg_atomic_fetch_add_u32_impl(ptr, -sub_); } #endif #if !defined(PG_HAVE_ATOMIC_FETCH_AND_U32) && defined(PG_HAVE_ATOMIC_COMPARE_EXCHANGE_U32) #define PG_HAVE_ATOMIC_FETCH_AND_U32 static inline uint32 pg_atomic_fetch_and_u32_impl(volatile pg_atomic_uint32 *ptr, uint32 and_) { uint32 old; while (true) { old = pg_atomic_read_u32_impl(ptr); if (pg_atomic_compare_exchange_u32_impl(ptr, &old, old & and_)) break; } return old; } #endif #if !defined(PG_HAVE_ATOMIC_FETCH_OR_U32) && defined(PG_HAVE_ATOMIC_COMPARE_EXCHANGE_U32) #define PG_HAVE_ATOMIC_FETCH_OR_U32 static inline uint32 pg_atomic_fetch_or_u32_impl(volatile pg_atomic_uint32 *ptr, uint32 or_) { uint32 old; while (true) { old = pg_atomic_read_u32_impl(ptr); if (pg_atomic_compare_exchange_u32_impl(ptr, &old, old | or_)) break; } return old; } #endif #if !defined(PG_HAVE_ATOMIC_ADD_FETCH_U32) && defined(PG_HAVE_ATOMIC_FETCH_ADD_U32) #define PG_HAVE_ATOMIC_ADD_FETCH_U32 static inline uint32 pg_atomic_add_fetch_u32_impl(volatile pg_atomic_uint32 *ptr, int32 add_) { return pg_atomic_fetch_add_u32_impl(ptr, add_) + add_; } #endif #if !defined(PG_HAVE_ATOMIC_SUB_FETCH_U32) && defined(PG_HAVE_ATOMIC_FETCH_SUB_U32) #define PG_HAVE_ATOMIC_SUB_FETCH_U32 static inline uint32 pg_atomic_sub_fetch_u32_impl(volatile pg_atomic_uint32 *ptr, int32 sub_) { return pg_atomic_fetch_sub_u32_impl(ptr, sub_) - sub_; } #endif #ifdef PG_HAVE_ATOMIC_U64_SUPPORT #if !defined(PG_HAVE_ATOMIC_EXCHANGE_U64) && defined(PG_HAVE_ATOMIC_COMPARE_EXCHANGE_U64) #define PG_HAVE_ATOMIC_EXCHANGE_U64 static inline uint64 pg_atomic_exchange_u64_impl(volatile pg_atomic_uint64 *ptr, uint64 xchg_) { uint64 old; while (true) { old = ptr->value; if (pg_atomic_compare_exchange_u64_impl(ptr, &old, xchg_)) break; } return old; } #endif #ifndef PG_HAVE_ATOMIC_WRITE_U64 #define PG_HAVE_ATOMIC_WRITE_U64 static inline void pg_atomic_write_u64_impl(volatile pg_atomic_uint64 *ptr, uint64 val) { /* * 64 bit writes aren't safe on all platforms. In the generic * implementation implement them as an atomic exchange. */ pg_atomic_exchange_u64_impl(ptr, val); } #endif #ifndef PG_HAVE_ATOMIC_READ_U64 #define PG_HAVE_ATOMIC_READ_U64 static inline uint64 pg_atomic_read_u64_impl(volatile pg_atomic_uint64 *ptr) { uint64 old = 0; /* * 64 bit reads aren't safe on all platforms. In the generic * implementation implement them as a compare/exchange with 0. That'll * fail or succeed, but always return the old value. Possible might store * a 0, but only if the prev. value also was a 0 - i.e. harmless. */ pg_atomic_compare_exchange_u64_impl(ptr, &old, 0); return old; } #endif #ifndef PG_HAVE_ATOMIC_INIT_U64 #define PG_HAVE_ATOMIC_INIT_U64 static inline void pg_atomic_init_u64_impl(volatile pg_atomic_uint64 *ptr, uint64 val_) { ptr->value = val_; } #endif #if !defined(PG_HAVE_ATOMIC_FETCH_ADD_U64) && defined(PG_HAVE_ATOMIC_COMPARE_EXCHANGE_U64) #define PG_HAVE_ATOMIC_FETCH_ADD_U64 static inline uint64 pg_atomic_fetch_add_u64_impl(volatile pg_atomic_uint64 *ptr, int64 add_) { uint64 old; while (true) { old = pg_atomic_read_u64_impl(ptr); if (pg_atomic_compare_exchange_u64_impl(ptr, &old, old + add_)) break; } return old; } #endif #if !defined(PG_HAVE_ATOMIC_FETCH_SUB_U64) && defined(PG_HAVE_ATOMIC_COMPARE_EXCHANGE_U64) #define PG_HAVE_ATOMIC_FETCH_SUB_U64 static inline uint64 pg_atomic_fetch_sub_u64_impl(volatile pg_atomic_uint64 *ptr, int64 sub_) { return pg_atomic_fetch_add_u64_impl(ptr, -sub_); } #endif #if !defined(PG_HAVE_ATOMIC_FETCH_AND_U64) && defined(PG_HAVE_ATOMIC_COMPARE_EXCHANGE_U64) #define PG_HAVE_ATOMIC_FETCH_AND_U64 static inline uint64 pg_atomic_fetch_and_u64_impl(volatile pg_atomic_uint64 *ptr, uint64 and_) { uint64 old; while (true) { old = pg_atomic_read_u64_impl(ptr); if (pg_atomic_compare_exchange_u64_impl(ptr, &old, old & and_)) break; } return old; } #endif #if !defined(PG_HAVE_ATOMIC_FETCH_OR_U64) && defined(PG_HAVE_ATOMIC_COMPARE_EXCHANGE_U64) #define PG_HAVE_ATOMIC_FETCH_OR_U64 static inline uint64 pg_atomic_fetch_or_u64_impl(volatile pg_atomic_uint64 *ptr, uint64 or_) { uint64 old; while (true) { old = pg_atomic_read_u64_impl(ptr); if (pg_atomic_compare_exchange_u64_impl(ptr, &old, old | or_)) break; } return old; } #endif #if !defined(PG_HAVE_ATOMIC_ADD_FETCH_U64) && defined(PG_HAVE_ATOMIC_FETCH_ADD_U64) #define PG_HAVE_ATOMIC_ADD_FETCH_U64 static inline uint64 pg_atomic_add_fetch_u64_impl(volatile pg_atomic_uint64 *ptr, int64 add_) { return pg_atomic_fetch_add_u64_impl(ptr, add_) + add_; } #endif #if !defined(PG_HAVE_ATOMIC_SUB_FETCH_U64) && defined(PG_HAVE_ATOMIC_FETCH_SUB_U64) #define PG_HAVE_ATOMIC_SUB_FETCH_U64 static inline uint64 pg_atomic_sub_fetch_u64_impl(volatile pg_atomic_uint64 *ptr, int64 sub_) { return pg_atomic_fetch_sub_u64_impl(ptr, sub_) - sub_; } #endif #endif /* PG_HAVE_ATOMIC_COMPARE_EXCHANGE_U64 */