/* * Copyright (c) 2016 Wind River Systems, Inc. * * SPDX-License-Identifier: Apache-2.0 */ /** * @file @brief mutex kernel services * * This module contains routines for handling mutex locking and unlocking. * * Mutexes implement a priority inheritance algorithm that boosts the priority * level of the owning thread to match the priority level of the highest * priority thread waiting on the mutex. * * Each mutex that contributes to priority inheritance must be released in the * reverse order in which it was acquired. Furthermore each subsequent mutex * that contributes to raising the owning thread's priority level must be * acquired at a point after the most recent "bumping" of the priority level. * * For example, if thread A has two mutexes contributing to the raising of its * priority level, the second mutex M2 must be acquired by thread A after * thread A's priority level was bumped due to owning the first mutex M1. * When releasing the mutex, thread A must release M2 before it releases M1. * Failure to follow this nested model may result in threads running at * unexpected priority levels (too high, or too low). */ #include #include #include #include #include #include #include #include #include #include #include #define RECORD_STATE_CHANGE(mutex) do { } while (false) #define RECORD_CONFLICT(mutex) do { } while (false) extern struct k_mutex _k_mutex_list_start[]; extern struct k_mutex _k_mutex_list_end[]; #ifdef CONFIG_OBJECT_TRACING struct k_mutex *_trace_list_k_mutex; /* * Complete initialization of statically defined mutexes. */ static int init_mutex_module(struct device *dev) { ARG_UNUSED(dev); struct k_mutex *mutex; for (mutex = _k_mutex_list_start; mutex < _k_mutex_list_end; mutex++) { SYS_TRACING_OBJ_INIT(k_mutex, mutex); } return 0; } SYS_INIT(init_mutex_module, PRE_KERNEL_1, CONFIG_KERNEL_INIT_PRIORITY_OBJECTS); #endif /* CONFIG_OBJECT_TRACING */ void _impl_k_mutex_init(struct k_mutex *mutex) { mutex->owner = NULL; mutex->lock_count = 0; sys_trace_void(SYS_TRACE_ID_MUTEX_INIT); /* initialized upon first use */ /* mutex->owner_orig_prio = 0; */ _waitq_init(&mutex->wait_q); SYS_TRACING_OBJ_INIT(k_mutex, mutex); _k_object_init(mutex); sys_trace_end_call(SYS_TRACE_ID_MUTEX_INIT); } #ifdef CONFIG_USERSPACE Z_SYSCALL_HANDLER(k_mutex_init, mutex) { Z_OOPS(Z_SYSCALL_OBJ_INIT(mutex, K_OBJ_MUTEX)); _impl_k_mutex_init((struct k_mutex *)mutex); return 0; } #endif static int new_prio_for_inheritance(int target, int limit) { int new_prio = _is_prio_higher(target, limit) ? target : limit; new_prio = _get_new_prio_with_ceiling(new_prio); return new_prio; } static void adjust_owner_prio(struct k_mutex *mutex, int new_prio) { if (mutex->owner->base.prio != new_prio) { K_DEBUG("%p (ready (y/n): %c) prio changed to %d (was %d)\n", mutex->owner, _is_thread_ready(mutex->owner) ? 'y' : 'n', new_prio, mutex->owner->base.prio); _thread_priority_set(mutex->owner, new_prio); } } int _impl_k_mutex_lock(struct k_mutex *mutex, s32_t timeout) { int new_prio; unsigned int key; sys_trace_void(SYS_TRACE_ID_MUTEX_LOCK); _sched_lock(); if (likely(mutex->lock_count == 0 || mutex->owner == _current)) { RECORD_STATE_CHANGE(); mutex->owner_orig_prio = mutex->lock_count == 0 ? _current->base.prio : mutex->owner_orig_prio; mutex->lock_count++; mutex->owner = _current; K_DEBUG("%p took mutex %p, count: %d, orig prio: %d\n", _current, mutex, mutex->lock_count, mutex->owner_orig_prio); k_sched_unlock(); sys_trace_end_call(SYS_TRACE_ID_MUTEX_LOCK); return 0; } RECORD_CONFLICT(); if (unlikely(timeout == K_NO_WAIT)) { k_sched_unlock(); sys_trace_end_call(SYS_TRACE_ID_MUTEX_LOCK); return -EBUSY; } new_prio = new_prio_for_inheritance(_current->base.prio, mutex->owner->base.prio); key = irq_lock(); K_DEBUG("adjusting prio up on mutex %p\n", mutex); if (_is_prio_higher(new_prio, mutex->owner->base.prio)) { adjust_owner_prio(mutex, new_prio); } int got_mutex = _pend_current_thread(key, &mutex->wait_q, timeout); K_DEBUG("on mutex %p got_mutex value: %d\n", mutex, got_mutex); K_DEBUG("%p got mutex %p (y/n): %c\n", _current, mutex, got_mutex ? 'y' : 'n'); if (got_mutex == 0) { k_sched_unlock(); sys_trace_end_call(SYS_TRACE_ID_MUTEX_LOCK); return 0; } /* timed out */ K_DEBUG("%p timeout on mutex %p\n", _current, mutex); struct k_thread *waiter = _waitq_head(&mutex->wait_q); new_prio = mutex->owner_orig_prio; new_prio = waiter ? new_prio_for_inheritance(waiter->base.prio, new_prio) : new_prio; K_DEBUG("adjusting prio down on mutex %p\n", mutex); key = irq_lock(); adjust_owner_prio(mutex, new_prio); irq_unlock(key); k_sched_unlock(); sys_trace_end_call(SYS_TRACE_ID_MUTEX_LOCK); return -EAGAIN; } #ifdef CONFIG_USERSPACE Z_SYSCALL_HANDLER(k_mutex_lock, mutex, timeout) { Z_OOPS(Z_SYSCALL_OBJ(mutex, K_OBJ_MUTEX)); return _impl_k_mutex_lock((struct k_mutex *)mutex, (s32_t)timeout); } #endif void _impl_k_mutex_unlock(struct k_mutex *mutex) { unsigned int key; __ASSERT(mutex->lock_count > 0, ""); __ASSERT(mutex->owner == _current, ""); sys_trace_void(SYS_TRACE_ID_MUTEX_UNLOCK); _sched_lock(); RECORD_STATE_CHANGE(); mutex->lock_count--; K_DEBUG("mutex %p lock_count: %d\n", mutex, mutex->lock_count); if (mutex->lock_count != 0) { k_sched_unlock(); return; } key = irq_lock(); adjust_owner_prio(mutex, mutex->owner_orig_prio); struct k_thread *new_owner = _unpend_first_thread(&mutex->wait_q); mutex->owner = new_owner; K_DEBUG("new owner of mutex %p: %p (prio: %d)\n", mutex, new_owner, new_owner ? new_owner->base.prio : -1000); if (new_owner != NULL) { _ready_thread(new_owner); irq_unlock(key); _set_thread_return_value(new_owner, 0); /* * new owner is already of higher or equal prio than first * waiter since the wait queue is priority-based: no need to * ajust its priority */ mutex->lock_count++; mutex->owner_orig_prio = new_owner->base.prio; } irq_unlock(key); k_sched_unlock(); } #ifdef CONFIG_USERSPACE Z_SYSCALL_HANDLER(k_mutex_unlock, mutex) { Z_OOPS(Z_SYSCALL_OBJ(mutex, K_OBJ_MUTEX)); Z_OOPS(Z_SYSCALL_VERIFY(((struct k_mutex *)mutex)->lock_count > 0)); Z_OOPS(Z_SYSCALL_VERIFY(((struct k_mutex *)mutex)->owner == _current)); _impl_k_mutex_unlock((struct k_mutex *)mutex); return 0; } #endif