/* * Copyright (c) 2019 Intel Corporation * * SPDX-License-Identifier: Apache-2.0 */ /** * @file * * @brief public sys_sem APIs. */ #ifndef ZEPHYR_INCLUDE_SYS_SEM_H_ #define ZEPHYR_INCLUDE_SYS_SEM_H_ /* * sys_sem exists in user memory working as counter semaphore for * user mode thread when user mode enabled. When user mode isn't * enabled, sys_sem behaves like k_sem. */ #include #include #include #include #ifdef __cplusplus extern "C" { #endif /** * sys_sem structure */ struct sys_sem { #ifdef CONFIG_USERSPACE struct k_futex futex; int limit; #else struct k_sem kernel_sem; #endif }; /** * @defgroup user_semaphore_apis User mode semaphore APIs * @ingroup kernel_apis * @{ */ /** * @brief Statically define and initialize a sys_sem * * The semaphore can be accessed outside the module where it is defined using: * * @code extern struct sys_sem ; @endcode * * Route this to memory domains using K_APP_DMEM(). * * @param _name Name of the semaphore. * @param _initial_count Initial semaphore count. * @param _count_limit Maximum permitted semaphore count. */ #ifdef CONFIG_USERSPACE #define SYS_SEM_DEFINE(_name, _initial_count, _count_limit) \ struct sys_sem _name = { \ .futex = { _initial_count }, \ .limit = _count_limit \ }; \ BUILD_ASSERT(((_count_limit) != 0) && \ ((_initial_count) <= (_count_limit))) #else /* Stuff this in the section with the rest of the k_sem objects, since they * are identical and can be treated as a k_sem in the boot initialization code */ #define SYS_SEM_DEFINE(_name, _initial_count, _count_limit) \ STRUCT_SECTION_ITERABLE_ALTERNATE(k_sem, sys_sem, _name) = { \ .kernel_sem = Z_SEM_INITIALIZER(_name.kernel_sem, \ _initial_count, _count_limit) \ }; \ BUILD_ASSERT(((_count_limit) != 0) && \ ((_initial_count) <= (_count_limit))) #endif /** * @brief Initialize a semaphore. * * This routine initializes a semaphore instance, prior to its first use. * * @param sem Address of the semaphore. * @param initial_count Initial semaphore count. * @param limit Maximum permitted semaphore count. * * @retval 0 Initial success. * @retval -EINVAL Bad parameters, the value of limit should be located in * (0, INT_MAX] and initial_count shouldn't be greater than limit. */ int sys_sem_init(struct sys_sem *sem, unsigned int initial_count, unsigned int limit); /** * @brief Give a semaphore. * * This routine gives @a sem, unless the semaphore is already at its * maximum permitted count. * * @param sem Address of the semaphore. * * @retval 0 Semaphore given. * @retval -EINVAL Parameter address not recognized. * @retval -EACCES Caller does not have enough access. * @retval -EAGAIN Count reached Maximum permitted count and try again. */ int sys_sem_give(struct sys_sem *sem); /** * @brief Take a sys_sem. * * This routine takes @a sem. * * @param sem Address of the sys_sem. * @param timeout Waiting period to take the sys_sem, * or one of the special values K_NO_WAIT and K_FOREVER. * * @retval 0 sys_sem taken. * @retval -EINVAL Parameter address not recognized. * @retval -ETIMEDOUT Waiting period timed out. * @retval -EACCES Caller does not have enough access. */ int sys_sem_take(struct sys_sem *sem, k_timeout_t timeout); /** * @brief Get sys_sem's value * * This routine returns the current value of @a sem. * * @param sem Address of the sys_sem. * * @return Current value of sys_sem. */ unsigned int sys_sem_count_get(struct sys_sem *sem); /** * @} */ #ifdef __cplusplus } #endif #endif