/* * runqueue.c - a simple task queueing/completion tracking helper * * Copyright (C) 2013 Felix Fietkau * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #ifndef __LIBUBOX_RUNQUEUE_H #define __LIBUBOX_RUNQUEUE_H #include "list.h" #include "safe_list.h" #include "uloop.h" struct runqueue; struct runqueue_task; struct runqueue_task_type; struct runqueue { struct safe_list tasks_active; struct safe_list tasks_inactive; struct uloop_timeout timeout; int running_tasks; int max_running_tasks; bool stopped; bool empty; /* called when the runqueue is emptied */ void (*empty_cb)(struct runqueue *q); }; struct runqueue_task_type { const char *name; /* * called when a task is requested to run * * The task is removed from the list before this callback is run. It * can re-arm itself using runqueue_task_add. */ void (*run)(struct runqueue *q, struct runqueue_task *t); /* * called to request cancelling a task * * int type is used as an optional hint for the method to be used when * cancelling the task, e.g. a signal number for processes. The cancel * callback should call runqueue_task_complete when done. */ void (*cancel)(struct runqueue *q, struct runqueue_task *t, int type); /* * called to kill a task. must not make any calls to runqueue_task_complete, * which will be called after this returns. */ void (*kill)(struct runqueue *q, struct runqueue_task *t); }; struct runqueue_task { struct safe_list list; const struct runqueue_task_type *type; struct runqueue *q; void (*complete)(struct runqueue *q, struct runqueue_task *t); struct uloop_timeout timeout; int run_timeout; int cancel_timeout; int cancel_type; bool queued; bool running; bool cancelled; }; struct runqueue_process { struct runqueue_task task; struct uloop_process proc; }; #define RUNQUEUE_INIT(_name, _max_running) { \ .tasks_active = SAFE_LIST_INIT(_name.tasks_active), \ .tasks_inactive = SAFE_LIST_INIT(_name.tasks_inactive), \ .max_running_tasks = _max_running \ } #define RUNQUEUE(_name, _max_running) \ struct runqueue _name = RUNQUEUE_INIT(_name, _max_running) void runqueue_init(struct runqueue *q); void runqueue_cancel(struct runqueue *q); void runqueue_cancel_active(struct runqueue *q); void runqueue_cancel_pending(struct runqueue *q); void runqueue_kill(struct runqueue *q); void runqueue_stop(struct runqueue *q); void runqueue_resume(struct runqueue *q); void runqueue_task_add(struct runqueue *q, struct runqueue_task *t, bool running); void runqueue_task_add_first(struct runqueue *q, struct runqueue_task *t, bool running); void runqueue_task_complete(struct runqueue_task *t); void runqueue_task_cancel(struct runqueue_task *t, int type); void runqueue_task_kill(struct runqueue_task *t); void runqueue_process_add(struct runqueue *q, struct runqueue_process *p, pid_t pid); /* to be used only from runqueue_process callbacks */ void runqueue_process_cancel_cb(struct runqueue *q, struct runqueue_task *t, int type); void runqueue_process_kill_cb(struct runqueue *q, struct runqueue_task *t); #endif