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All atomic bit functions allow (and indeed, require) the caller to specify a memory order. RFC v6: * Have rte_bit_atomic_test() accept const-marked bitsets. RFC v4: * Add atomic bit flip. * Mark macro-generated private functions experimental. RFC v3: * Work around lack of C++ support for _Generic (Tyler Retzlaff). RFC v2: o Add rte_bit_atomic_test_and_assign() (for consistency). o Fix bugs in rte_bit_atomic_test_and_[set|clear](). o Use to support MSVC. Signed-off-by: Mattias Rönnblom Acked-by: Morten Brørup Acked-by: Tyler Retzlaff --- lib/eal/include/rte_bitops.h | 428 +++++++++++++++++++++++++++++++++++ 1 file changed, 428 insertions(+) diff --git a/lib/eal/include/rte_bitops.h b/lib/eal/include/rte_bitops.h index caec4f36bb..9cde982113 100644 --- a/lib/eal/include/rte_bitops.h +++ b/lib/eal/include/rte_bitops.h @@ -21,6 +21,7 @@ #include #include +#include #ifdef __cplusplus extern "C" { @@ -399,6 +400,202 @@ extern "C" { uint32_t *: __rte_bit_once_flip32, \ uint64_t *: __rte_bit_once_flip64)(addr, nr) +/** + * @warning + * @b EXPERIMENTAL: this API may change without prior notice. + * + * Test if a particular bit in a word is set with a particular memory + * order. + * + * Test a bit with the resulting memory load ordered as per the + * specified memory order. + * + * @param addr + * A pointer to the word to query. + * @param nr + * The index of the bit. + * @param memory_order + * The memory order to use. See for details. + * @return + * Returns true if the bit is set, and false otherwise. + */ +#define rte_bit_atomic_test(addr, nr, memory_order) \ + _Generic((addr), \ + uint32_t *: __rte_bit_atomic_test32, \ + const uint32_t *: __rte_bit_atomic_test32, \ + uint64_t *: __rte_bit_atomic_test64, \ + const uint64_t *: __rte_bit_atomic_test64)(addr, nr, \ + memory_order) + +/** + * @warning + * @b EXPERIMENTAL: this API may change without prior notice. + * + * Atomically set bit in word. + * + * Atomically set bit specified by @c nr in the word pointed to by @c + * addr to '1', with the memory ordering as specified by @c + * memory_order. + * + * @param addr + * A pointer to the word to modify. + * @param nr + * The index of the bit. + * @param memory_order + * The memory order to use. See for details. + */ +#define rte_bit_atomic_set(addr, nr, memory_order) \ + _Generic((addr), \ + uint32_t *: __rte_bit_atomic_set32, \ + uint64_t *: __rte_bit_atomic_set64)(addr, nr, memory_order) + +/** + * @warning + * @b EXPERIMENTAL: this API may change without prior notice. + * + * Atomically clear bit in word. + * + * Atomically set bit specified by @c nr in the word pointed to by @c + * addr to '0', with the memory ordering as specified by @c + * memory_order. + * + * @param addr + * A pointer to the word to modify. + * @param nr + * The index of the bit. + * @param memory_order + * The memory order to use. See for details. + */ +#define rte_bit_atomic_clear(addr, nr, memory_order) \ + _Generic((addr), \ + uint32_t *: __rte_bit_atomic_clear32, \ + uint64_t *: __rte_bit_atomic_clear64)(addr, nr, memory_order) + +/** + * @warning + * @b EXPERIMENTAL: this API may change without prior notice. + * + * Atomically assign a value to bit in word. + * + * Atomically set bit specified by @c nr in the word pointed to by @c + * addr to the value indicated by @c value, with the memory ordering + * as specified with @c memory_order. + * + * @param addr + * A pointer to the word to modify. + * @param nr + * The index of the bit. + * @param value + * The new value of the bit - true for '1', or false for '0'. + * @param memory_order + * The memory order to use. See for details. + */ +#define rte_bit_atomic_assign(addr, nr, value, memory_order) \ + _Generic((addr), \ + uint32_t *: __rte_bit_atomic_assign32, \ + uint64_t *: __rte_bit_atomic_assign64)(addr, nr, value, \ + memory_order) + +/** + * @warning + * @b EXPERIMENTAL: this API may change without prior notice. + * + * Atomically flip bit in word. + * + * Atomically negate the value of the bit specified by @c nr in the + * word pointed to by @c addr to the value indicated by @c value, with + * the memory ordering as specified with @c memory_order. + * + * @param addr + * A pointer to the word to modify. + * @param nr + * The index of the bit. + * @param memory_order + * The memory order to use. See for details. + */ +#define rte_bit_atomic_flip(addr, nr, memory_order) \ + _Generic((addr), \ + uint32_t *: __rte_bit_atomic_flip32, \ + uint64_t *: __rte_bit_atomic_flip64)(addr, nr, memory_order) + +/** + * @warning + * @b EXPERIMENTAL: this API may change without prior notice. + * + * Atomically test and set a bit in word. + * + * Atomically test and set bit specified by @c nr in the word pointed + * to by @c addr to '1', with the memory ordering as specified with @c + * memory_order. + * + * @param addr + * A pointer to the word to modify. + * @param nr + * The index of the bit. + * @param memory_order + * The memory order to use. See for details. + * @return + * Returns true if the bit was set, and false otherwise. + */ +#define rte_bit_atomic_test_and_set(addr, nr, memory_order) \ + _Generic((addr), \ + uint32_t *: __rte_bit_atomic_test_and_set32, \ + uint64_t *: __rte_bit_atomic_test_and_set64)(addr, nr, \ + memory_order) + +/** + * @warning + * @b EXPERIMENTAL: this API may change without prior notice. + * + * Atomically test and clear a bit in word. + * + * Atomically test and clear bit specified by @c nr in the word + * pointed to by @c addr to '0', with the memory ordering as specified + * with @c memory_order. + * + * @param addr + * A pointer to the word to modify. + * @param nr + * The index of the bit. + * @param memory_order + * The memory order to use. See for details. + * @return + * Returns true if the bit was set, and false otherwise. + */ +#define rte_bit_atomic_test_and_clear(addr, nr, memory_order) \ + _Generic((addr), \ + uint32_t *: __rte_bit_atomic_test_and_clear32, \ + uint64_t *: __rte_bit_atomic_test_and_clear64)(addr, nr, \ + memory_order) + +/** + * @warning + * @b EXPERIMENTAL: this API may change without prior notice. + * + * Atomically test and assign a bit in word. + * + * Atomically test and assign bit specified by @c nr in the word + * pointed to by @c addr the value specified by @c value, with the + * memory ordering as specified with @c memory_order. + * + * @param addr + * A pointer to the word to modify. + * @param nr + * The index of the bit. + * @param value + * The new value of the bit - true for '1', or false for '0'. + * @param memory_order + * The memory order to use. See for details. + * @return + * Returns true if the bit was set, and false otherwise. + */ +#define rte_bit_atomic_test_and_assign(addr, nr, value, memory_order) \ + _Generic((addr), \ + uint32_t *: __rte_bit_atomic_test_and_assign32, \ + uint64_t *: __rte_bit_atomic_test_and_assign64)(addr, nr, \ + value, \ + memory_order) + #define __RTE_GEN_BIT_TEST(family, fun, qualifier, size) \ __rte_experimental \ static inline bool \ @@ -483,6 +680,162 @@ __RTE_GEN_BIT_CLEAR(once_, clear, volatile, 64) __RTE_GEN_BIT_ASSIGN(once_, assign, volatile, 64) __RTE_GEN_BIT_FLIP(once_, flip, volatile, 64) +#define __RTE_GEN_BIT_ATOMIC_TEST(size) \ + __rte_experimental \ + static inline bool \ + __rte_bit_atomic_test ## size(const uint ## size ## _t *addr, \ + unsigned int nr, int memory_order) \ + { \ + RTE_ASSERT(nr < size); \ + \ + const RTE_ATOMIC(uint ## size ## _t) *a_addr = \ + (const RTE_ATOMIC(uint ## size ## _t) *)addr; \ + uint ## size ## _t mask = (uint ## size ## _t)1 << nr; \ + return rte_atomic_load_explicit(a_addr, memory_order) & mask; \ + } + +#define __RTE_GEN_BIT_ATOMIC_SET(size) \ + __rte_experimental \ + static inline void \ + __rte_bit_atomic_set ## size(uint ## size ## _t *addr, \ + unsigned int nr, int memory_order) \ + { \ + RTE_ASSERT(nr < size); \ + \ + RTE_ATOMIC(uint ## size ## _t) *a_addr = \ + (RTE_ATOMIC(uint ## size ## _t) *)addr; \ + uint ## size ## _t mask = (uint ## size ## _t)1 << nr; \ + rte_atomic_fetch_or_explicit(a_addr, mask, memory_order); \ + } + +#define __RTE_GEN_BIT_ATOMIC_CLEAR(size) \ + __rte_experimental \ + static inline void \ + __rte_bit_atomic_clear ## size(uint ## size ## _t *addr, \ + unsigned int nr, int memory_order) \ + { \ + RTE_ASSERT(nr < size); \ + \ + RTE_ATOMIC(uint ## size ## _t) *a_addr = \ + (RTE_ATOMIC(uint ## size ## _t) *)addr; \ + uint ## size ## _t mask = (uint ## size ## _t)1 << nr; \ + rte_atomic_fetch_and_explicit(a_addr, ~mask, memory_order); \ + } + +#define __RTE_GEN_BIT_ATOMIC_ASSIGN(size) \ + __rte_experimental \ + static inline void \ + __rte_bit_atomic_assign ## size(uint ## size ## _t *addr, \ + unsigned int nr, bool value, \ + int memory_order) \ + { \ + if (value) \ + __rte_bit_atomic_set ## size(addr, nr, memory_order); \ + else \ + __rte_bit_atomic_clear ## size(addr, nr, \ + memory_order); \ + } + +#define __RTE_GEN_BIT_ATOMIC_TEST_AND_ASSIGN(size) \ + __rte_experimental \ + static inline bool \ + __rte_bit_atomic_test_and_assign ## size(uint ## size ## _t *addr, \ + unsigned int nr, \ + bool value, \ + int memory_order) \ + { \ + RTE_ASSERT(nr < size); \ + \ + RTE_ATOMIC(uint ## size ## _t) *a_addr = \ + (RTE_ATOMIC(uint ## size ## _t) *)addr; \ + uint ## size ## _t before; \ + uint ## size ## _t target; \ + \ + before = rte_atomic_load_explicit(a_addr, \ + rte_memory_order_relaxed); \ + \ + do { \ + target = before; \ + __rte_bit_assign ## size(&target, nr, value); \ + } while (!rte_atomic_compare_exchange_weak_explicit( \ + a_addr, &before, target, \ + rte_memory_order_relaxed, \ + memory_order)); \ + return __rte_bit_test ## size(&before, nr); \ + } + +#define __RTE_GEN_BIT_ATOMIC_FLIP(size) \ + __rte_experimental \ + static inline void \ + __rte_bit_atomic_flip ## size(uint ## size ## _t *addr, \ + unsigned int nr, int memory_order) \ + { \ + RTE_ASSERT(nr < size); \ + \ + RTE_ATOMIC(uint ## size ## _t) *a_addr = \ + (RTE_ATOMIC(uint ## size ## _t) *)addr; \ + uint ## size ## _t before; \ + uint ## size ## _t target; \ + \ + before = rte_atomic_load_explicit(a_addr, \ + rte_memory_order_relaxed); \ + \ + do { \ + target = before; \ + __rte_bit_flip ## size(&target, nr); \ + } while (!rte_atomic_compare_exchange_weak_explicit( \ + a_addr, &before, target, \ + rte_memory_order_relaxed, \ + memory_order)); \ + } + +#define __RTE_GEN_BIT_ATOMIC_OPS(size) \ + __RTE_GEN_BIT_ATOMIC_TEST(size) \ + __RTE_GEN_BIT_ATOMIC_SET(size) \ + __RTE_GEN_BIT_ATOMIC_CLEAR(size) \ + __RTE_GEN_BIT_ATOMIC_ASSIGN(size) \ + __RTE_GEN_BIT_ATOMIC_TEST_AND_ASSIGN(size) \ + __RTE_GEN_BIT_ATOMIC_FLIP(size) + +__RTE_GEN_BIT_ATOMIC_OPS(32) +__RTE_GEN_BIT_ATOMIC_OPS(64) + +__rte_experimental +static inline bool +__rte_bit_atomic_test_and_set32(uint32_t *addr, unsigned int nr, + int memory_order) +{ + return __rte_bit_atomic_test_and_assign32(addr, nr, true, + memory_order); +} + +__rte_experimental +static inline bool +__rte_bit_atomic_test_and_clear32(uint32_t *addr, unsigned int nr, + int memory_order) +{ + return __rte_bit_atomic_test_and_assign32(addr, nr, false, + memory_order); +} + +__rte_experimental +static inline bool +__rte_bit_atomic_test_and_set64(uint64_t *addr, unsigned int nr, + int memory_order) +{ + return __rte_bit_atomic_test_and_assign64(addr, nr, true, + memory_order); +} + +__rte_experimental +static inline bool +__rte_bit_atomic_test_and_clear64(uint64_t *addr, unsigned int nr, + int memory_order) +{ + return __rte_bit_atomic_test_and_assign64(addr, nr, false, + memory_order); +} + /*------------------------ 32-bit relaxed operations ------------------------*/ /** @@ -1184,6 +1537,14 @@ rte_log2_u64(uint64_t v) #undef rte_bit_once_assign #undef rte_bit_once_flip +#undef rte_bit_atomic_test +#undef rte_bit_atomic_set +#undef rte_bit_atomic_clear +#undef rte_bit_atomic_assign +#undef rte_bit_atomic_test_and_set +#undef rte_bit_atomic_test_and_clear +#undef rte_bit_atomic_test_and_assign + #define __RTE_BIT_OVERLOAD_SZ_2(fun, qualifier, size, arg1_type, arg1_name) \ static inline void \ rte_bit_ ## fun(qualifier uint ## size ## _t *addr, \ @@ -1227,6 +1588,59 @@ rte_log2_u64(uint64_t v) __RTE_BIT_OVERLOAD_SZ_3(fun, qualifier, 64, arg1_type, arg1_name, \ arg2_type, arg2_name) +#define __RTE_BIT_OVERLOAD_SZ_3R(fun, qualifier, size, ret_type, arg1_type, \ + arg1_name, arg2_type, arg2_name) \ + static inline ret_type \ + rte_bit_ ## fun(uint ## size ## _t *addr, arg1_type arg1_name, \ + arg2_type arg2_name) \ + { \ + return __rte_bit_ ## fun ## size(addr, arg1_name, arg2_name); \ + } + +#define __RTE_BIT_OVERLOAD_3R(fun, qualifier, ret_type, arg1_type, arg1_name, \ + arg2_type, arg2_name) \ + __RTE_BIT_OVERLOAD_SZ_3R(fun, qualifier, 32, ret_type, arg1_type, \ + arg1_name, arg2_type, arg2_name) \ + __RTE_BIT_OVERLOAD_SZ_3R(fun, qualifier, 64, ret_type, arg1_type, \ + arg1_name, arg2_type, arg2_name) + +#define __RTE_BIT_OVERLOAD_SZ_4(fun, qualifier, size, arg1_type, arg1_name, \ + arg2_type, arg2_name, arg3_type, arg3_name) \ + static inline void \ + rte_bit_ ## fun(uint ## size ## _t *addr, arg1_type arg1_name, \ + arg2_type arg2_name, arg3_type arg3_name) \ + { \ + __rte_bit_ ## fun ## size(addr, arg1_name, arg2_name, \ + arg3_name); \ + } + +#define __RTE_BIT_OVERLOAD_4(fun, qualifier, arg1_type, arg1_name, arg2_type, \ + arg2_name, arg3_type, arg3_name) \ + __RTE_BIT_OVERLOAD_SZ_4(fun, qualifier, 32, arg1_type, arg1_name, \ + arg2_type, arg2_name, arg3_type, arg3_name) \ + __RTE_BIT_OVERLOAD_SZ_4(fun, qualifier, 64, arg1_type, arg1_name, \ + arg2_type, arg2_name, arg3_type, arg3_name) + +#define __RTE_BIT_OVERLOAD_SZ_4R(fun, qualifier, size, ret_type, arg1_type, \ + arg1_name, arg2_type, arg2_name, arg3_type, \ + arg3_name) \ + static inline ret_type \ + rte_bit_ ## fun(uint ## size ## _t *addr, arg1_type arg1_name, \ + arg2_type arg2_name, arg3_type arg3_name) \ + { \ + return __rte_bit_ ## fun ## size(addr, arg1_name, arg2_name, \ + arg3_name); \ + } + +#define __RTE_BIT_OVERLOAD_4R(fun, qualifier, ret_type, arg1_type, arg1_name, \ + arg2_type, arg2_name, arg3_type, arg3_name) \ + __RTE_BIT_OVERLOAD_SZ_4R(fun, qualifier, 32, ret_type, arg1_type, \ + arg1_name, arg2_type, arg2_name, arg3_type, \ + arg3_name) \ + __RTE_BIT_OVERLOAD_SZ_4R(fun, qualifier, 64, ret_type, arg1_type, \ + arg1_name, arg2_type, arg2_name, arg3_type, \ + arg3_name) + __RTE_BIT_OVERLOAD_2R(test, const, bool, unsigned int, nr) __RTE_BIT_OVERLOAD_2(set,, unsigned int, nr) __RTE_BIT_OVERLOAD_2(clear,, unsigned int, nr) @@ -1239,6 +1653,20 @@ __RTE_BIT_OVERLOAD_2(once_clear, volatile, unsigned int, nr) __RTE_BIT_OVERLOAD_3(once_assign, volatile, unsigned int, nr, bool, value) __RTE_BIT_OVERLOAD_2(once_flip, volatile, unsigned int, nr) +__RTE_BIT_OVERLOAD_3R(atomic_test, const, bool, unsigned int, nr, + int, memory_order) +__RTE_BIT_OVERLOAD_3(atomic_set,, unsigned int, nr, int, memory_order) +__RTE_BIT_OVERLOAD_3(atomic_clear,, unsigned int, nr, int, memory_order) +__RTE_BIT_OVERLOAD_4(atomic_assign,, unsigned int, nr, bool, value, + int, memory_order) +__RTE_BIT_OVERLOAD_3(atomic_flip,, unsigned int, nr, int, memory_order) +__RTE_BIT_OVERLOAD_3R(atomic_test_and_set,, bool, unsigned int, nr, + int, memory_order) +__RTE_BIT_OVERLOAD_3R(atomic_test_and_clear,, bool, unsigned int, nr, + int, memory_order) +__RTE_BIT_OVERLOAD_4R(atomic_test_and_assign,, bool, unsigned int, nr, + bool, value, int, memory_order) + #endif #endif /* _RTE_BITOPS_H_ */