#include #include #include #ifdef CONFIG_LITMUS_LOCKING #include #include #include static int create_generic_lock(void** obj_ref, obj_type_t type, void* __user arg); static int open_generic_lock(struct od_table_entry* entry, void* __user arg); static int close_generic_lock(struct od_table_entry* entry); static void destroy_generic_lock(obj_type_t type, void* sem); struct fdso_ops generic_lock_ops = { .create = create_generic_lock, .open = open_generic_lock, .close = close_generic_lock, .destroy = destroy_generic_lock }; static inline bool is_lock(struct od_table_entry* entry) { return entry->class == &generic_lock_ops; } static inline struct litmus_lock* get_lock(struct od_table_entry* entry) { BUG_ON(!is_lock(entry)); return (struct litmus_lock*) entry->obj->obj; } static int create_generic_lock(void** obj_ref, obj_type_t type, void* __user arg) { struct litmus_lock* lock; int err; err = litmus->allocate_lock(&lock, type, arg); if (err == 0) *obj_ref = lock; return err; } static int open_generic_lock(struct od_table_entry* entry, void* __user arg) { struct litmus_lock* lock = get_lock(entry); if (lock->ops->open) return lock->ops->open(lock, arg); else return 0; /* default: any task can open it */ } static int close_generic_lock(struct od_table_entry* entry) { struct litmus_lock* lock = get_lock(entry); if (lock->ops->close) return lock->ops->close(lock); else return 0; /* default: closing succeeds */ } static void destroy_generic_lock(obj_type_t type, void* obj) { struct litmus_lock* lock = (struct litmus_lock*) obj; lock->ops->deallocate(lock); } asmlinkage long sys_litmus_lock(int lock_od) { long err = -EINVAL; struct od_table_entry* entry; struct litmus_lock* l; TS_SYSCALL_IN_START; TS_SYSCALL_IN_END; TS_LOCK_START; entry = get_entry_for_od(lock_od); if (entry && is_lock(entry)) { l = get_lock(entry); TRACE_CUR("attempts to lock 0x%p\n", l); err = l->ops->lock(l); } /* Note: task my have been suspended or preempted in between! Take * this into account when computing overheads. */ TS_LOCK_END; TS_SYSCALL_OUT_START; return err; } asmlinkage long sys_litmus_unlock(int lock_od) { long err = -EINVAL; struct od_table_entry* entry; struct litmus_lock* l; TS_SYSCALL_IN_START; TS_SYSCALL_IN_END; TS_UNLOCK_START; entry = get_entry_for_od(lock_od); if (entry && is_lock(entry)) { l = get_lock(entry); TRACE_CUR("attempts to unlock 0x%p\n", l); err = l->ops->unlock(l); } /* Note: task my have been preempted in between! Take this into * account when computing overheads. */ TS_UNLOCK_END; TS_SYSCALL_OUT_START; return err; } struct task_struct* __waitqueue_remove_first(wait_queue_head_t *wq) { wait_queue_t* q; struct task_struct* t = NULL; if (waitqueue_active(wq)) { q = list_entry(wq->task_list.next, wait_queue_t, task_list); t = (struct task_struct*) q->private; __remove_wait_queue(wq, q); } return(t); } unsigned int __add_wait_queue_prio_exclusive( wait_queue_head_t* head, prio_wait_queue_t *new) { struct list_head *pos; unsigned int passed = 0; new->wq.flags |= WQ_FLAG_EXCLUSIVE; /* find a spot where the new entry is less than the next */ list_for_each(pos, &head->task_list) { prio_wait_queue_t* queued = list_entry(pos, prio_wait_queue_t, wq.task_list); if (unlikely(lt_before(new->priority, queued->priority) || (new->priority == queued->priority && new->tie_breaker < queued->tie_breaker))) { /* pos is not less than new, thus insert here */ __list_add(&new->wq.task_list, pos->prev, pos); goto out; } passed++; } /* if we get to this point either the list is empty or every entry * queued element is less than new. * Let's add new to the end. */ list_add_tail(&new->wq.task_list, &head->task_list); out: return passed; } #else struct fdso_ops generic_lock_ops = {}; asmlinkage long sys_litmus_lock(int sem_od) { return -ENOSYS; } asmlinkage long sys_litmus_unlock(int sem_od) { return -ENOSYS; } #endif