/* SPDX-License-Identifier: BSD-3-Clause * Copyright(c) 2010-2014 Intel Corporation */ #ifndef _RTE_RWLOCK_H_ #define _RTE_RWLOCK_H_ /** * @file * * RTE Read-Write Locks * * This file defines an API for read-write locks. The lock is used to * protect data that allows multiple readers in parallel, but only * one writer. All readers are blocked until the writer is finished * writing. * */ #ifdef __cplusplus extern "C" { #endif #include #include #include /** * The rte_rwlock_t type. * * cnt is -1 when write lock is held, and > 0 when read locks are held. */ typedef struct { volatile int32_t cnt; /**< -1 when W lock held, > 0 when R locks held. */ } rte_rwlock_t; /** * A static rwlock initializer. */ #define RTE_RWLOCK_INITIALIZER { 0 } /** * Initialize the rwlock to an unlocked state. * * @param rwl * A pointer to the rwlock structure. */ static inline void rte_rwlock_init(rte_rwlock_t *rwl) { rwl->cnt = 0; } /** * Take a read lock. Loop until the lock is held. * * @param rwl * A pointer to a rwlock structure. */ static inline void rte_rwlock_read_lock(rte_rwlock_t *rwl) { int32_t x; int success = 0; while (success == 0) { x = __atomic_load_n(&rwl->cnt, __ATOMIC_RELAXED); /* write lock is held */ if (x < 0) { rte_pause(); continue; } success = __atomic_compare_exchange_n(&rwl->cnt, &x, x + 1, 1, __ATOMIC_ACQUIRE, __ATOMIC_RELAXED); } } /** * Release a read lock. * * @param rwl * A pointer to the rwlock structure. */ static inline void rte_rwlock_read_unlock(rte_rwlock_t *rwl) { __atomic_fetch_sub(&rwl->cnt, 1, __ATOMIC_RELEASE); } /** * Take a write lock. Loop until the lock is held. * * @param rwl * A pointer to a rwlock structure. */ static inline void rte_rwlock_write_lock(rte_rwlock_t *rwl) { int32_t x; int success = 0; while (success == 0) { x = __atomic_load_n(&rwl->cnt, __ATOMIC_RELAXED); /* a lock is held */ if (x != 0) { rte_pause(); continue; } success = __atomic_compare_exchange_n(&rwl->cnt, &x, -1, 1, __ATOMIC_ACQUIRE, __ATOMIC_RELAXED); } } /** * Release a write lock. * * @param rwl * A pointer to a rwlock structure. */ static inline void rte_rwlock_write_unlock(rte_rwlock_t *rwl) { __atomic_store_n(&rwl->cnt, 0, __ATOMIC_RELEASE); } /** * Try to execute critical section in a hardware memory transaction, if it * fails or not available take a read lock * * NOTE: An attempt to perform a HW I/O operation inside a hardware memory * transaction always aborts the transaction since the CPU is not able to * roll-back should the transaction fail. Therefore, hardware transactional * locks are not advised to be used around rte_eth_rx_burst() and * rte_eth_tx_burst() calls. * * @param rwl * A pointer to a rwlock structure. */ static inline void rte_rwlock_read_lock_tm(rte_rwlock_t *rwl); /** * Commit hardware memory transaction or release the read lock if the lock is used as a fall-back * * @param rwl * A pointer to the rwlock structure. */ static inline void rte_rwlock_read_unlock_tm(rte_rwlock_t *rwl); /** * Try to execute critical section in a hardware memory transaction, if it * fails or not available take a write lock * * NOTE: An attempt to perform a HW I/O operation inside a hardware memory * transaction always aborts the transaction since the CPU is not able to * roll-back should the transaction fail. Therefore, hardware transactional * locks are not advised to be used around rte_eth_rx_burst() and * rte_eth_tx_burst() calls. * * @param rwl * A pointer to a rwlock structure. */ static inline void rte_rwlock_write_lock_tm(rte_rwlock_t *rwl); /** * Commit hardware memory transaction or release the write lock if the lock is used as a fall-back * * @param rwl * A pointer to a rwlock structure. */ static inline void rte_rwlock_write_unlock_tm(rte_rwlock_t *rwl); #ifdef __cplusplus } #endif #endif /* _RTE_RWLOCK_H_ */