2 * pm.c - Power management interface
4 * Copyright (C) 2000 Andrew Henroid
6 * This program is free software; you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License as published by
8 * the Free Software Foundation; either version 2 of the License, or
9 * (at your option) any later version.
11 * This program is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 * GNU General Public License for more details.
16 * You should have received a copy of the GNU General Public License
17 * along with this program; if not, write to the Free Software
18 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
20 #include <linux/init.h>
21 #include <linux/module.h>
22 #include <linux/spinlock.h>
24 #include <linux/slab.h>
26 #include <linux/pm_legacy.h>
27 #include <linux/interrupt.h>
28 #include <linux/mutex.h>
34 * pm_devs_lock can be a semaphore providing pm ops are not called
35 * from an interrupt handler (already a bad idea so no change here). Each
36 * change must be protected so that an unlink of an entry doesn't clash
37 * with a pm send - which is permitted to sleep in the current architecture
39 * Module unloads clashing with pm events now work out safely, the module
40 * unload path will block until the event has been sent. It may well block
41 * until a resume but that will be fine.
44 static DEFINE_MUTEX(pm_devs_lock);
45 static LIST_HEAD(pm_devs);
48 * pm_register - register a device with power management
51 * @callback: callback function
53 * Add a device to the list of devices that wish to be notified about
54 * power management events. A &pm_dev structure is returned on success,
55 * on failure the return is %NULL.
57 * The callback function will be called in process context and
61 struct pm_dev *pm_register(pm_dev_t type,
65 struct pm_dev *dev = kzalloc(sizeof(struct pm_dev), GFP_KERNEL);
69 dev->callback = callback;
71 mutex_lock(&pm_devs_lock);
72 list_add(&dev->entry, &pm_devs);
73 mutex_unlock(&pm_devs_lock);
79 * pm_unregister - unregister a device with power management
80 * @dev: device to unregister
82 * Remove a device from the power management notification lists. The
83 * dev passed must be a handle previously returned by pm_register.
86 void pm_unregister(struct pm_dev *dev)
89 mutex_lock(&pm_devs_lock);
90 list_del(&dev->entry);
91 mutex_unlock(&pm_devs_lock);
97 static void __pm_unregister(struct pm_dev *dev)
100 list_del(&dev->entry);
106 * pm_unregister_all - unregister all devices with matching callback
107 * @callback: callback function pointer
109 * Unregister every device that would call the callback passed. This
110 * is primarily meant as a helper function for loadable modules. It
111 * enables a module to give up all its managed devices without keeping
112 * its own private list.
115 void pm_unregister_all(pm_callback callback)
117 struct list_head *entry;
122 mutex_lock(&pm_devs_lock);
123 entry = pm_devs.next;
124 while (entry != &pm_devs) {
125 struct pm_dev *dev = list_entry(entry, struct pm_dev, entry);
127 if (dev->callback == callback)
128 __pm_unregister(dev);
130 mutex_unlock(&pm_devs_lock);
134 * pm_send - send request to a single device
135 * @dev: device to send to
136 * @rqst: power management request
137 * @data: data for the callback
139 * Issue a power management request to a given device. The
140 * %PM_SUSPEND and %PM_RESUME events are handled specially. The
141 * data field must hold the intended next state. No call is made
142 * if the state matches.
144 * BUGS: what stops two power management requests occurring in parallel
147 * WARNING: Calling pm_send directly is not generally recommended, in
148 * particular there is no locking against the pm_dev going away. The
149 * caller must maintain all needed locking or have 'inside knowledge'
150 * on the safety. Also remember that this function is not locked against
151 * pm_unregister. This means that you must handle SMP races on callback
152 * execution and unload yourself.
155 static int pm_send(struct pm_dev *dev, pm_request_t rqst, void *data)
158 unsigned long prev_state, next_state;
166 prev_state = dev->state;
167 next_state = (unsigned long) data;
168 if (prev_state != next_state) {
170 status = (*dev->callback)(dev, rqst, data);
172 dev->state = next_state;
173 dev->prev_state = prev_state;
177 dev->prev_state = prev_state;
182 status = (*dev->callback)(dev, rqst, data);
189 * Undo incomplete request
191 static void pm_undo_all(struct pm_dev *last)
193 struct list_head *entry = last->entry.prev;
194 while (entry != &pm_devs) {
195 struct pm_dev *dev = list_entry(entry, struct pm_dev, entry);
196 if (dev->state != dev->prev_state) {
197 /* previous state was zero (running) resume or
198 * previous state was non-zero (suspended) suspend
200 pm_request_t undo = (dev->prev_state
201 ? PM_SUSPEND:PM_RESUME);
202 pm_send(dev, undo, (void*) dev->prev_state);
209 * pm_send_all - send request to all managed devices
210 * @rqst: power management request
211 * @data: data for the callback
213 * Issue a power management request to a all devices. The
214 * %PM_SUSPEND events are handled specially. Any device is
215 * permitted to fail a suspend by returning a non zero (error)
216 * value from its callback function. If any device vetoes a
217 * suspend request then all other devices that have suspended
218 * during the processing of this request are restored to their
221 * WARNING: This function takes the pm_devs_lock. The lock is not dropped until
222 * the callbacks have completed. This prevents races against pm locking
223 * functions, races against module unload pm_unregister code. It does
224 * mean however that you must not issue pm_ functions within the callback
225 * or you will deadlock and users will hate you.
227 * Zero is returned on success. If a suspend fails then the status
228 * from the device that vetoes the suspend is returned.
230 * BUGS: what stops two power management requests occurring in parallel
234 int pm_send_all(pm_request_t rqst, void *data)
236 struct list_head *entry;
238 mutex_lock(&pm_devs_lock);
239 entry = pm_devs.next;
240 while (entry != &pm_devs) {
241 struct pm_dev *dev = list_entry(entry, struct pm_dev, entry);
243 int status = pm_send(dev, rqst, data);
245 /* return devices to previous state on
246 * failed suspend request
248 if (rqst == PM_SUSPEND)
250 mutex_unlock(&pm_devs_lock);
256 mutex_unlock(&pm_devs_lock);
260 EXPORT_SYMBOL(pm_register);
261 EXPORT_SYMBOL(pm_unregister);
262 EXPORT_SYMBOL(pm_unregister_all);
263 EXPORT_SYMBOL(pm_send_all);
264 EXPORT_SYMBOL(pm_active);