/* * Copyright (c) 2006-2021, RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2021/01/02 bernard the first version * 2022/12/18 bernard fix the _m_lock to tid in user land. */ #include #include #ifdef ARCH_MM_MMU #include #endif #include #define PMUTEX_NORMAL 0 /* Unable to recursion */ #define PMUTEX_RECURSIVE 1 /* Can be recursion */ #define PMUTEX_ERRORCHECK 2 /* This type of mutex provides error checking */ struct rt_pmutex { union { rt_mutex_t kmutex; rt_sem_t ksem; /* use sem to emulate the mutex without recursive */ } lock; struct lwp_avl_struct node; struct rt_object *custom_obj; rt_uint8_t type; /* pmutex type */ }; /* * userspace mutex definitions in musl */ struct rt_umutex { union { int __i[6]; volatile int __vi[6]; volatile void *volatile __p[6]; } __u; }; #define _m_type __u.__i[0] #define _m_lock __u.__vi[1] #define _m_waiters __u.__vi[2] #define _m_prev __u.__p[3] #define _m_next __u.__p[4] #define _m_count __u.__i[5] static struct rt_mutex _pmutex_lock; static int pmutex_system_init(void) { rt_mutex_init(&_pmutex_lock, "pmtxLock", RT_IPC_FLAG_FIFO); return 0; } INIT_PREV_EXPORT(pmutex_system_init); static rt_err_t pmutex_destory(void *data) { rt_err_t ret = -1; rt_base_t level = 0; struct rt_pmutex *pmutex = (struct rt_pmutex *)data; if (pmutex) { level = rt_hw_interrupt_disable(); /* remove pmutex from pmutext avl */ lwp_avl_remove(&pmutex->node, (struct lwp_avl_struct **)pmutex->node.data); rt_hw_interrupt_enable(level); if (pmutex->type == PMUTEX_NORMAL) { rt_sem_delete(pmutex->lock.ksem); } else { rt_mutex_delete(pmutex->lock.kmutex); } /* release object */ rt_free(pmutex); ret = 0; } return ret; } static struct rt_pmutex* pmutex_create(void *umutex, struct rt_lwp *lwp) { struct rt_pmutex *pmutex = RT_NULL; struct rt_object *obj = RT_NULL; rt_ubase_t type; if (!lwp) { return RT_NULL; } long *p = (long *)umutex; /* umutex[0] bit[0-1] saved mutex type */ type = *p & 3; if (type != PMUTEX_NORMAL && type != PMUTEX_RECURSIVE && type != PMUTEX_ERRORCHECK) { return RT_NULL; } pmutex = (struct rt_pmutex *)rt_malloc(sizeof(struct rt_pmutex)); if (!pmutex) { return RT_NULL; } if (type == PMUTEX_NORMAL) { pmutex->lock.ksem = rt_sem_create("pmutex", 1, RT_IPC_FLAG_PRIO); if (!pmutex->lock.ksem) { rt_free(pmutex); return RT_NULL; } } else { pmutex->lock.kmutex = rt_mutex_create("pmutex", RT_IPC_FLAG_PRIO); if (!pmutex->lock.kmutex) { rt_free(pmutex); return RT_NULL; } } obj = rt_custom_object_create("pmutex", (void *)pmutex, pmutex_destory); if (!obj) { if (pmutex->type == PMUTEX_NORMAL) { rt_sem_delete(pmutex->lock.ksem); } else { rt_mutex_delete(pmutex->lock.kmutex); } rt_free(pmutex); return RT_NULL; } pmutex->node.avl_key = (avl_key_t)umutex; pmutex->node.data = &lwp->address_search_head; pmutex->custom_obj = obj; pmutex->type = type; /* insert into pmutex head */ lwp_avl_insert(&pmutex->node, &lwp->address_search_head); return pmutex; } static struct rt_pmutex* pmutex_get(void *umutex, struct rt_lwp *lwp) { struct rt_pmutex *pmutex = RT_NULL; struct lwp_avl_struct *node = RT_NULL; node = lwp_avl_find((avl_key_t)umutex, lwp->address_search_head); if (!node) { return RT_NULL; } pmutex = rt_container_of(node, struct rt_pmutex, node); return pmutex; } static int _pthread_mutex_init(void *umutex) { struct rt_lwp *lwp = RT_NULL; struct rt_pmutex *pmutex = RT_NULL; rt_err_t lock_ret = 0; /* umutex union is 6 x (void *) */ if (!lwp_user_accessable(umutex, sizeof(void *) * 6)) { rt_set_errno(EINVAL); return -EINVAL; } lock_ret = rt_mutex_take_interruptible(&_pmutex_lock, RT_WAITING_FOREVER); if (lock_ret != RT_EOK) { rt_set_errno(EAGAIN); return -EAGAIN; } lwp = lwp_self(); pmutex = pmutex_get(umutex, lwp); if (pmutex == RT_NULL) { /* create a pmutex according to this umutex */ pmutex = pmutex_create(umutex, lwp); if (pmutex == RT_NULL) { rt_mutex_release(&_pmutex_lock); rt_set_errno(ENOMEM); return -ENOMEM; } if (lwp_user_object_add(lwp, pmutex->custom_obj) != 0) { rt_custom_object_destroy(pmutex->custom_obj); rt_set_errno(ENOMEM); return -ENOMEM; } } else { rt_base_t level = rt_hw_interrupt_disable(); if (pmutex->type == PMUTEX_NORMAL) { pmutex->lock.ksem->value = 1; } else { pmutex->lock.kmutex->owner = RT_NULL; pmutex->lock.kmutex->priority = 0xFF; pmutex->lock.kmutex->hold = 0; pmutex->lock.kmutex->ceiling_priority = 0xFF; } rt_hw_interrupt_enable(level); } rt_mutex_release(&_pmutex_lock); return 0; } static int _pthread_mutex_lock_timeout(void *umutex, struct timespec *timeout) { struct rt_lwp *lwp = RT_NULL; struct rt_pmutex *pmutex = RT_NULL; struct rt_umutex *umutex_p = (struct rt_umutex*)umutex; rt_err_t lock_ret = 0; rt_int32_t time = RT_WAITING_FOREVER; register rt_base_t temp; if (!lwp_user_accessable((void *)umutex, sizeof(struct rt_umutex))) { rt_set_errno(EINVAL); return -EINVAL; } if (timeout) { if (!lwp_user_accessable((void *)timeout, sizeof(struct timespec))) { rt_set_errno(EINVAL); return -EINVAL; } time = rt_timespec_to_tick(timeout); } lock_ret = rt_mutex_take_interruptible(&_pmutex_lock, RT_WAITING_FOREVER); if (lock_ret != RT_EOK) { rt_set_errno(EINTR); return -EINTR; } lwp = lwp_self(); pmutex = pmutex_get(umutex, lwp); if (pmutex == RT_NULL) { rt_mutex_release(&_pmutex_lock); rt_set_errno(EINVAL); return -ENOMEM; /* umutex not recored in kernel */ } rt_mutex_release(&_pmutex_lock); switch (pmutex->type) { case PMUTEX_NORMAL: lock_ret = rt_sem_take_interruptible(pmutex->lock.ksem, time); break; case PMUTEX_RECURSIVE: lock_ret = rt_mutex_take_interruptible(pmutex->lock.kmutex, time); if (lock_ret == RT_EOK) { umutex_p->_m_lock = rt_thread_self()->tid; } break; case PMUTEX_ERRORCHECK: temp = rt_hw_interrupt_disable(); if (pmutex->lock.kmutex->owner == rt_thread_self()) { /* enable interrupt */ rt_hw_interrupt_enable(temp); return -EDEADLK; } lock_ret = rt_mutex_take_interruptible(pmutex->lock.kmutex, time); if (lock_ret == RT_EOK) { umutex_p->_m_lock = rt_thread_self()->tid; } rt_hw_interrupt_enable(temp); break; default: /* unknown type */ return -EINVAL; } if (lock_ret != RT_EOK) { if (lock_ret == -RT_ETIMEOUT) { if (time == 0) /* timeout is 0, means try lock failed */ { rt_set_errno(EBUSY); return -EBUSY; } else { rt_set_errno(ETIMEDOUT); return -ETIMEDOUT; } } else if (lock_ret == -RT_EINTR) { rt_set_errno(EINTR); return -EINTR; } else { rt_set_errno(EAGAIN); return -EAGAIN; } } return 0; } static int _pthread_mutex_unlock(void *umutex) { rt_err_t lock_ret = 0; struct rt_lwp *lwp = RT_NULL; struct rt_pmutex *pmutex = RT_NULL; struct rt_umutex *umutex_p = (struct rt_umutex*)umutex; lock_ret = rt_mutex_take_interruptible(&_pmutex_lock, RT_WAITING_FOREVER); if (lock_ret != RT_EOK) { rt_set_errno(EAGAIN); return -EAGAIN; } lwp = lwp_self(); pmutex = pmutex_get(umutex, lwp); if (pmutex == RT_NULL) { rt_mutex_release(&_pmutex_lock); rt_set_errno(EPERM); return -EPERM;//unlock static mutex of unlock state } rt_mutex_release(&_pmutex_lock); switch (pmutex->type) { case PMUTEX_NORMAL: if(pmutex->lock.ksem->value >=1) { rt_set_errno(EPERM); return -EPERM;//unlock dynamic mutex of unlock state } else { lock_ret = rt_sem_release(pmutex->lock.ksem); } break; case PMUTEX_RECURSIVE: case PMUTEX_ERRORCHECK: lock_ret = rt_mutex_release(pmutex->lock.kmutex); if ((lock_ret == RT_EOK) && pmutex->lock.kmutex->owner == NULL) { umutex_p->_m_lock = 0; } break; default: /* unknown type */ return -EINVAL; } if (lock_ret != RT_EOK) { rt_set_errno(EPERM); return -EPERM; } return 0; } static int _pthread_mutex_destroy(void *umutex) { struct rt_lwp *lwp = RT_NULL; struct rt_pmutex *pmutex = RT_NULL; rt_err_t lock_ret = 0; lock_ret = rt_mutex_take_interruptible(&_pmutex_lock, RT_WAITING_FOREVER); if (lock_ret != RT_EOK) { rt_set_errno(EAGAIN); return -EAGAIN; } lwp = lwp_self(); pmutex = pmutex_get(umutex, lwp); if (pmutex == RT_NULL) { rt_mutex_release(&_pmutex_lock); rt_set_errno(EINVAL); return -EINVAL; } lwp_user_object_delete(lwp, pmutex->custom_obj); rt_mutex_release(&_pmutex_lock); return 0; } #include sysret_t sys_pmutex(void *umutex, int op, void *arg) { int ret = -EINVAL; switch (op) { case PMUTEX_INIT: ret = _pthread_mutex_init(umutex); break; case PMUTEX_LOCK: ret = _pthread_mutex_lock_timeout(umutex, (struct timespec*)arg); if (ret == -ENOMEM) { /* lock not init, try init it and lock again. */ ret = _pthread_mutex_init(umutex); if (ret == 0) { ret = _pthread_mutex_lock_timeout(umutex, (struct timespec*)arg); } } break; case PMUTEX_UNLOCK: ret = _pthread_mutex_unlock(umutex); break; case PMUTEX_DESTROY: ret = _pthread_mutex_destroy(umutex); break; default: rt_set_errno(EINVAL); break; } return ret; }