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1 // SPDX-License-Identifier: GPL-2.0-or-later
2 /*
3  * Copyright (c) 2004 Evgeniy Polyakov <zbr@ioremap.net>
4  */
5 
6 #include <linux/delay.h>
7 #include <linux/kernel.h>
8 #include <linux/module.h>
9 #include <linux/moduleparam.h>
10 #include <linux/list.h>
11 #include <linux/interrupt.h>
12 #include <linux/spinlock.h>
13 #include <linux/timer.h>
14 #include <linux/device.h>
15 #include <linux/slab.h>
16 #include <linux/sched.h>
17 #include <linux/kthread.h>
18 #include <linux/freezer.h>
19 #include <linux/hwmon.h>
20 #include <linux/of.h>
21 
22 #include <linux/atomic.h>
23 
24 #include "w1_internal.h"
25 #include "w1_netlink.h"
26 
27 #define W1_FAMILY_DEFAULT	0
28 #define W1_FAMILY_DS28E04       0x1C /* for crc quirk */
29 
30 
31 static int w1_timeout = 10;
32 module_param_named(timeout, w1_timeout, int, 0);
33 MODULE_PARM_DESC(timeout, "time in seconds between automatic slave searches");
34 
35 static int w1_timeout_us;
36 module_param_named(timeout_us, w1_timeout_us, int, 0);
37 MODULE_PARM_DESC(timeout_us,
38 		 "time in microseconds between automatic slave searches");
39 
40 /* A search stops when w1_max_slave_count devices have been found in that
41  * search.  The next search will start over and detect the same set of devices
42  * on a static 1-wire bus.  Memory is not allocated based on this number, just
43  * on the number of devices known to the kernel.  Having a high number does not
44  * consume additional resources.  As a special case, if there is only one
45  * device on the network and w1_max_slave_count is set to 1, the device id can
46  * be read directly skipping the normal slower search process.
47  */
48 int w1_max_slave_count = 64;
49 module_param_named(max_slave_count, w1_max_slave_count, int, 0);
50 MODULE_PARM_DESC(max_slave_count,
51 	"maximum number of slaves detected in a search");
52 
53 int w1_max_slave_ttl = 10;
54 module_param_named(slave_ttl, w1_max_slave_ttl, int, 0);
55 MODULE_PARM_DESC(slave_ttl,
56 	"Number of searches not seeing a slave before it will be removed");
57 
58 DEFINE_MUTEX(w1_mlock);
59 LIST_HEAD(w1_masters);
60 
w1_master_probe(struct device * dev)61 static int w1_master_probe(struct device *dev)
62 {
63 	return -ENODEV;
64 }
65 
w1_master_release(struct device * dev)66 static void w1_master_release(struct device *dev)
67 {
68 	struct w1_master *md = dev_to_w1_master(dev);
69 
70 	dev_dbg(dev, "%s: Releasing %s.\n", __func__, md->name);
71 	memset(md, 0, sizeof(struct w1_master) + sizeof(struct w1_bus_master));
72 	kfree(md);
73 }
74 
w1_slave_release(struct device * dev)75 static void w1_slave_release(struct device *dev)
76 {
77 	struct w1_slave *sl = dev_to_w1_slave(dev);
78 
79 	dev_dbg(dev, "%s: Releasing %s [%p]\n", __func__, sl->name, sl);
80 
81 	w1_family_put(sl->family);
82 	sl->master->slave_count--;
83 }
84 
name_show(struct device * dev,struct device_attribute * attr,char * buf)85 static ssize_t name_show(struct device *dev, struct device_attribute *attr, char *buf)
86 {
87 	struct w1_slave *sl = dev_to_w1_slave(dev);
88 
89 	return sprintf(buf, "%s\n", sl->name);
90 }
91 static DEVICE_ATTR_RO(name);
92 
id_show(struct device * dev,struct device_attribute * attr,char * buf)93 static ssize_t id_show(struct device *dev,
94 	struct device_attribute *attr, char *buf)
95 {
96 	struct w1_slave *sl = dev_to_w1_slave(dev);
97 	ssize_t count = sizeof(sl->reg_num);
98 
99 	memcpy(buf, (u8 *)&sl->reg_num, count);
100 	return count;
101 }
102 static DEVICE_ATTR_RO(id);
103 
104 static struct attribute *w1_slave_attrs[] = {
105 	&dev_attr_name.attr,
106 	&dev_attr_id.attr,
107 	NULL,
108 };
109 ATTRIBUTE_GROUPS(w1_slave);
110 
111 /* Default family */
112 
rw_write(struct file * filp,struct kobject * kobj,struct bin_attribute * bin_attr,char * buf,loff_t off,size_t count)113 static ssize_t rw_write(struct file *filp, struct kobject *kobj,
114 			struct bin_attribute *bin_attr, char *buf, loff_t off,
115 			size_t count)
116 {
117 	struct w1_slave *sl = kobj_to_w1_slave(kobj);
118 
119 	mutex_lock(&sl->master->mutex);
120 	if (w1_reset_select_slave(sl)) {
121 		count = 0;
122 		goto out_up;
123 	}
124 
125 	w1_write_block(sl->master, buf, count);
126 
127 out_up:
128 	mutex_unlock(&sl->master->mutex);
129 	return count;
130 }
131 
rw_read(struct file * filp,struct kobject * kobj,struct bin_attribute * bin_attr,char * buf,loff_t off,size_t count)132 static ssize_t rw_read(struct file *filp, struct kobject *kobj,
133 		       struct bin_attribute *bin_attr, char *buf, loff_t off,
134 		       size_t count)
135 {
136 	struct w1_slave *sl = kobj_to_w1_slave(kobj);
137 
138 	mutex_lock(&sl->master->mutex);
139 	w1_read_block(sl->master, buf, count);
140 	mutex_unlock(&sl->master->mutex);
141 	return count;
142 }
143 
144 static BIN_ATTR_RW(rw, PAGE_SIZE);
145 
146 static struct bin_attribute *w1_slave_bin_attrs[] = {
147 	&bin_attr_rw,
148 	NULL,
149 };
150 
151 static const struct attribute_group w1_slave_default_group = {
152 	.bin_attrs = w1_slave_bin_attrs,
153 };
154 
155 static const struct attribute_group *w1_slave_default_groups[] = {
156 	&w1_slave_default_group,
157 	NULL,
158 };
159 
160 static const struct w1_family_ops w1_default_fops = {
161 	.groups		= w1_slave_default_groups,
162 };
163 
164 static struct w1_family w1_default_family = {
165 	.fops = &w1_default_fops,
166 };
167 
168 static int w1_uevent(const struct device *dev, struct kobj_uevent_env *env);
169 
170 static struct bus_type w1_bus_type = {
171 	.name = "w1",
172 	.uevent = w1_uevent,
173 };
174 
175 struct device_driver w1_master_driver = {
176 	.name = "w1_master_driver",
177 	.bus = &w1_bus_type,
178 	.probe = w1_master_probe,
179 };
180 
181 struct device w1_master_device = {
182 	.parent = NULL,
183 	.bus = &w1_bus_type,
184 	.init_name = "w1 bus master",
185 	.driver = &w1_master_driver,
186 	.release = &w1_master_release
187 };
188 
189 static struct device_driver w1_slave_driver = {
190 	.name = "w1_slave_driver",
191 	.bus = &w1_bus_type,
192 };
193 
194 #if 0
195 struct device w1_slave_device = {
196 	.parent = NULL,
197 	.bus = &w1_bus_type,
198 	.init_name = "w1 bus slave",
199 	.driver = &w1_slave_driver,
200 	.release = &w1_slave_release
201 };
202 #endif  /*  0  */
203 
w1_master_attribute_show_name(struct device * dev,struct device_attribute * attr,char * buf)204 static ssize_t w1_master_attribute_show_name(struct device *dev, struct device_attribute *attr, char *buf)
205 {
206 	struct w1_master *md = dev_to_w1_master(dev);
207 	ssize_t count;
208 
209 	mutex_lock(&md->mutex);
210 	count = sprintf(buf, "%s\n", md->name);
211 	mutex_unlock(&md->mutex);
212 
213 	return count;
214 }
215 
w1_master_attribute_store_search(struct device * dev,struct device_attribute * attr,const char * buf,size_t count)216 static ssize_t w1_master_attribute_store_search(struct device * dev,
217 						struct device_attribute *attr,
218 						const char * buf, size_t count)
219 {
220 	long tmp;
221 	struct w1_master *md = dev_to_w1_master(dev);
222 	int ret;
223 
224 	ret = kstrtol(buf, 0, &tmp);
225 	if (ret)
226 		return ret;
227 
228 	mutex_lock(&md->mutex);
229 	md->search_count = tmp;
230 	mutex_unlock(&md->mutex);
231 	/* Only wake if it is going to be searching. */
232 	if (tmp)
233 		wake_up_process(md->thread);
234 
235 	return count;
236 }
237 
w1_master_attribute_show_search(struct device * dev,struct device_attribute * attr,char * buf)238 static ssize_t w1_master_attribute_show_search(struct device *dev,
239 					       struct device_attribute *attr,
240 					       char *buf)
241 {
242 	struct w1_master *md = dev_to_w1_master(dev);
243 	ssize_t count;
244 
245 	mutex_lock(&md->mutex);
246 	count = sprintf(buf, "%d\n", md->search_count);
247 	mutex_unlock(&md->mutex);
248 
249 	return count;
250 }
251 
w1_master_attribute_store_pullup(struct device * dev,struct device_attribute * attr,const char * buf,size_t count)252 static ssize_t w1_master_attribute_store_pullup(struct device *dev,
253 						struct device_attribute *attr,
254 						const char *buf, size_t count)
255 {
256 	long tmp;
257 	struct w1_master *md = dev_to_w1_master(dev);
258 	int ret;
259 
260 	ret = kstrtol(buf, 0, &tmp);
261 	if (ret)
262 		return ret;
263 
264 	mutex_lock(&md->mutex);
265 	md->enable_pullup = tmp;
266 	mutex_unlock(&md->mutex);
267 
268 	return count;
269 }
270 
w1_master_attribute_show_pullup(struct device * dev,struct device_attribute * attr,char * buf)271 static ssize_t w1_master_attribute_show_pullup(struct device *dev,
272 					       struct device_attribute *attr,
273 					       char *buf)
274 {
275 	struct w1_master *md = dev_to_w1_master(dev);
276 	ssize_t count;
277 
278 	mutex_lock(&md->mutex);
279 	count = sprintf(buf, "%d\n", md->enable_pullup);
280 	mutex_unlock(&md->mutex);
281 
282 	return count;
283 }
284 
w1_master_attribute_show_pointer(struct device * dev,struct device_attribute * attr,char * buf)285 static ssize_t w1_master_attribute_show_pointer(struct device *dev, struct device_attribute *attr, char *buf)
286 {
287 	struct w1_master *md = dev_to_w1_master(dev);
288 	ssize_t count;
289 
290 	mutex_lock(&md->mutex);
291 	count = sprintf(buf, "0x%p\n", md->bus_master);
292 	mutex_unlock(&md->mutex);
293 	return count;
294 }
295 
w1_master_attribute_show_timeout(struct device * dev,struct device_attribute * attr,char * buf)296 static ssize_t w1_master_attribute_show_timeout(struct device *dev, struct device_attribute *attr, char *buf)
297 {
298 	return sprintf(buf, "%d\n", w1_timeout);
299 }
300 
w1_master_attribute_show_timeout_us(struct device * dev,struct device_attribute * attr,char * buf)301 static ssize_t w1_master_attribute_show_timeout_us(struct device *dev,
302 	struct device_attribute *attr, char *buf)
303 {
304 	return sprintf(buf, "%d\n", w1_timeout_us);
305 }
306 
w1_master_attribute_store_max_slave_count(struct device * dev,struct device_attribute * attr,const char * buf,size_t count)307 static ssize_t w1_master_attribute_store_max_slave_count(struct device *dev,
308 	struct device_attribute *attr, const char *buf, size_t count)
309 {
310 	int tmp;
311 	struct w1_master *md = dev_to_w1_master(dev);
312 
313 	if (kstrtoint(buf, 0, &tmp) || tmp < 1)
314 		return -EINVAL;
315 
316 	mutex_lock(&md->mutex);
317 	md->max_slave_count = tmp;
318 	/* allow each time the max_slave_count is updated */
319 	clear_bit(W1_WARN_MAX_COUNT, &md->flags);
320 	mutex_unlock(&md->mutex);
321 
322 	return count;
323 }
324 
w1_master_attribute_show_max_slave_count(struct device * dev,struct device_attribute * attr,char * buf)325 static ssize_t w1_master_attribute_show_max_slave_count(struct device *dev, struct device_attribute *attr, char *buf)
326 {
327 	struct w1_master *md = dev_to_w1_master(dev);
328 	ssize_t count;
329 
330 	mutex_lock(&md->mutex);
331 	count = sprintf(buf, "%d\n", md->max_slave_count);
332 	mutex_unlock(&md->mutex);
333 	return count;
334 }
335 
w1_master_attribute_show_attempts(struct device * dev,struct device_attribute * attr,char * buf)336 static ssize_t w1_master_attribute_show_attempts(struct device *dev, struct device_attribute *attr, char *buf)
337 {
338 	struct w1_master *md = dev_to_w1_master(dev);
339 	ssize_t count;
340 
341 	mutex_lock(&md->mutex);
342 	count = sprintf(buf, "%lu\n", md->attempts);
343 	mutex_unlock(&md->mutex);
344 	return count;
345 }
346 
w1_master_attribute_show_slave_count(struct device * dev,struct device_attribute * attr,char * buf)347 static ssize_t w1_master_attribute_show_slave_count(struct device *dev, struct device_attribute *attr, char *buf)
348 {
349 	struct w1_master *md = dev_to_w1_master(dev);
350 	ssize_t count;
351 
352 	mutex_lock(&md->mutex);
353 	count = sprintf(buf, "%d\n", md->slave_count);
354 	mutex_unlock(&md->mutex);
355 	return count;
356 }
357 
w1_master_attribute_show_slaves(struct device * dev,struct device_attribute * attr,char * buf)358 static ssize_t w1_master_attribute_show_slaves(struct device *dev,
359 	struct device_attribute *attr, char *buf)
360 {
361 	struct w1_master *md = dev_to_w1_master(dev);
362 	int c = PAGE_SIZE;
363 	struct list_head *ent, *n;
364 	struct w1_slave *sl = NULL;
365 
366 	mutex_lock(&md->list_mutex);
367 
368 	list_for_each_safe(ent, n, &md->slist) {
369 		sl = list_entry(ent, struct w1_slave, w1_slave_entry);
370 
371 		c -= snprintf(buf + PAGE_SIZE - c, c, "%s\n", sl->name);
372 	}
373 	if (!sl)
374 		c -= snprintf(buf + PAGE_SIZE - c, c, "not found.\n");
375 
376 	mutex_unlock(&md->list_mutex);
377 
378 	return PAGE_SIZE - c;
379 }
380 
w1_master_attribute_show_add(struct device * dev,struct device_attribute * attr,char * buf)381 static ssize_t w1_master_attribute_show_add(struct device *dev,
382 	struct device_attribute *attr, char *buf)
383 {
384 	int c = PAGE_SIZE;
385 	c -= snprintf(buf+PAGE_SIZE - c, c,
386 		"write device id xx-xxxxxxxxxxxx to add slave\n");
387 	return PAGE_SIZE - c;
388 }
389 
w1_atoreg_num(struct device * dev,const char * buf,size_t count,struct w1_reg_num * rn)390 static int w1_atoreg_num(struct device *dev, const char *buf, size_t count,
391 	struct w1_reg_num *rn)
392 {
393 	unsigned int family;
394 	unsigned long long id;
395 	int i;
396 	u64 rn64_le;
397 
398 	/* The CRC value isn't read from the user because the sysfs directory
399 	 * doesn't include it and most messages from the bus search don't
400 	 * print it either.  It would be unreasonable for the user to then
401 	 * provide it.
402 	 */
403 	const char *error_msg = "bad slave string format, expecting "
404 		"ff-dddddddddddd\n";
405 
406 	if (buf[2] != '-') {
407 		dev_err(dev, "%s", error_msg);
408 		return -EINVAL;
409 	}
410 	i = sscanf(buf, "%02x-%012llx", &family, &id);
411 	if (i != 2) {
412 		dev_err(dev, "%s", error_msg);
413 		return -EINVAL;
414 	}
415 	rn->family = family;
416 	rn->id = id;
417 
418 	rn64_le = cpu_to_le64(*(u64 *)rn);
419 	rn->crc = w1_calc_crc8((u8 *)&rn64_le, 7);
420 
421 #if 0
422 	dev_info(dev, "With CRC device is %02x.%012llx.%02x.\n",
423 		  rn->family, (unsigned long long)rn->id, rn->crc);
424 #endif
425 
426 	return 0;
427 }
428 
429 /* Searches the slaves in the w1_master and returns a pointer or NULL.
430  * Note: must not hold list_mutex
431  */
w1_slave_search_device(struct w1_master * dev,struct w1_reg_num * rn)432 struct w1_slave *w1_slave_search_device(struct w1_master *dev,
433 	struct w1_reg_num *rn)
434 {
435 	struct w1_slave *sl;
436 	mutex_lock(&dev->list_mutex);
437 	list_for_each_entry(sl, &dev->slist, w1_slave_entry) {
438 		if (sl->reg_num.family == rn->family &&
439 				sl->reg_num.id == rn->id &&
440 				sl->reg_num.crc == rn->crc) {
441 			mutex_unlock(&dev->list_mutex);
442 			return sl;
443 		}
444 	}
445 	mutex_unlock(&dev->list_mutex);
446 	return NULL;
447 }
448 
w1_master_attribute_store_add(struct device * dev,struct device_attribute * attr,const char * buf,size_t count)449 static ssize_t w1_master_attribute_store_add(struct device *dev,
450 						struct device_attribute *attr,
451 						const char *buf, size_t count)
452 {
453 	struct w1_master *md = dev_to_w1_master(dev);
454 	struct w1_reg_num rn;
455 	struct w1_slave *sl;
456 	ssize_t result = count;
457 
458 	if (w1_atoreg_num(dev, buf, count, &rn))
459 		return -EINVAL;
460 
461 	mutex_lock(&md->mutex);
462 	sl = w1_slave_search_device(md, &rn);
463 	/* It would be nice to do a targeted search one the one-wire bus
464 	 * for the new device to see if it is out there or not.  But the
465 	 * current search doesn't support that.
466 	 */
467 	if (sl) {
468 		dev_info(dev, "Device %s already exists\n", sl->name);
469 		result = -EINVAL;
470 	} else {
471 		w1_attach_slave_device(md, &rn);
472 	}
473 	mutex_unlock(&md->mutex);
474 
475 	return result;
476 }
477 
w1_master_attribute_show_remove(struct device * dev,struct device_attribute * attr,char * buf)478 static ssize_t w1_master_attribute_show_remove(struct device *dev,
479 	struct device_attribute *attr, char *buf)
480 {
481 	int c = PAGE_SIZE;
482 	c -= snprintf(buf+PAGE_SIZE - c, c,
483 		"write device id xx-xxxxxxxxxxxx to remove slave\n");
484 	return PAGE_SIZE - c;
485 }
486 
w1_master_attribute_store_remove(struct device * dev,struct device_attribute * attr,const char * buf,size_t count)487 static ssize_t w1_master_attribute_store_remove(struct device *dev,
488 						struct device_attribute *attr,
489 						const char *buf, size_t count)
490 {
491 	struct w1_master *md = dev_to_w1_master(dev);
492 	struct w1_reg_num rn;
493 	struct w1_slave *sl;
494 	ssize_t result;
495 
496 	if (w1_atoreg_num(dev, buf, count, &rn))
497 		return -EINVAL;
498 
499 	mutex_lock(&md->mutex);
500 	sl = w1_slave_search_device(md, &rn);
501 	if (sl) {
502 		result = w1_slave_detach(sl);
503 		/* refcnt 0 means it was detached in the call */
504 		if (result == 0)
505 			result = count;
506 	} else {
507 		dev_info(dev, "Device %02x-%012llx doesn't exists\n", rn.family,
508 			(unsigned long long)rn.id);
509 		result = -EINVAL;
510 	}
511 	mutex_unlock(&md->mutex);
512 
513 	return result;
514 }
515 
516 #define W1_MASTER_ATTR_RO(_name, _mode)				\
517 	struct device_attribute w1_master_attribute_##_name =	\
518 		__ATTR(w1_master_##_name, _mode,		\
519 		       w1_master_attribute_show_##_name, NULL)
520 
521 #define W1_MASTER_ATTR_RW(_name, _mode)				\
522 	struct device_attribute w1_master_attribute_##_name =	\
523 		__ATTR(w1_master_##_name, _mode,		\
524 		       w1_master_attribute_show_##_name,	\
525 		       w1_master_attribute_store_##_name)
526 
527 static W1_MASTER_ATTR_RO(name, S_IRUGO);
528 static W1_MASTER_ATTR_RO(slaves, S_IRUGO);
529 static W1_MASTER_ATTR_RO(slave_count, S_IRUGO);
530 static W1_MASTER_ATTR_RW(max_slave_count, S_IRUGO | S_IWUSR | S_IWGRP);
531 static W1_MASTER_ATTR_RO(attempts, S_IRUGO);
532 static W1_MASTER_ATTR_RO(timeout, S_IRUGO);
533 static W1_MASTER_ATTR_RO(timeout_us, S_IRUGO);
534 static W1_MASTER_ATTR_RO(pointer, S_IRUGO);
535 static W1_MASTER_ATTR_RW(search, S_IRUGO | S_IWUSR | S_IWGRP);
536 static W1_MASTER_ATTR_RW(pullup, S_IRUGO | S_IWUSR | S_IWGRP);
537 static W1_MASTER_ATTR_RW(add, S_IRUGO | S_IWUSR | S_IWGRP);
538 static W1_MASTER_ATTR_RW(remove, S_IRUGO | S_IWUSR | S_IWGRP);
539 
540 static struct attribute *w1_master_default_attrs[] = {
541 	&w1_master_attribute_name.attr,
542 	&w1_master_attribute_slaves.attr,
543 	&w1_master_attribute_slave_count.attr,
544 	&w1_master_attribute_max_slave_count.attr,
545 	&w1_master_attribute_attempts.attr,
546 	&w1_master_attribute_timeout.attr,
547 	&w1_master_attribute_timeout_us.attr,
548 	&w1_master_attribute_pointer.attr,
549 	&w1_master_attribute_search.attr,
550 	&w1_master_attribute_pullup.attr,
551 	&w1_master_attribute_add.attr,
552 	&w1_master_attribute_remove.attr,
553 	NULL
554 };
555 
556 static const struct attribute_group w1_master_defattr_group = {
557 	.attrs = w1_master_default_attrs,
558 };
559 
w1_create_master_attributes(struct w1_master * master)560 int w1_create_master_attributes(struct w1_master *master)
561 {
562 	return sysfs_create_group(&master->dev.kobj, &w1_master_defattr_group);
563 }
564 
w1_destroy_master_attributes(struct w1_master * master)565 void w1_destroy_master_attributes(struct w1_master *master)
566 {
567 	sysfs_remove_group(&master->dev.kobj, &w1_master_defattr_group);
568 }
569 
w1_uevent(const struct device * dev,struct kobj_uevent_env * env)570 static int w1_uevent(const struct device *dev, struct kobj_uevent_env *env)
571 {
572 	const struct w1_master *md = NULL;
573 	const struct w1_slave *sl = NULL;
574 	const char *event_owner, *name;
575 	int err = 0;
576 
577 	if (dev->driver == &w1_master_driver) {
578 		md = container_of(dev, struct w1_master, dev);
579 		event_owner = "master";
580 		name = md->name;
581 	} else if (dev->driver == &w1_slave_driver) {
582 		sl = container_of(dev, struct w1_slave, dev);
583 		event_owner = "slave";
584 		name = sl->name;
585 	} else {
586 		dev_dbg(dev, "Unknown event.\n");
587 		return -EINVAL;
588 	}
589 
590 	dev_dbg(dev, "Hotplug event for %s %s, bus_id=%s.\n",
591 			event_owner, name, dev_name(dev));
592 
593 	if (dev->driver != &w1_slave_driver || !sl)
594 		goto end;
595 
596 	err = add_uevent_var(env, "W1_FID=%02X", sl->reg_num.family);
597 	if (err)
598 		goto end;
599 
600 	err = add_uevent_var(env, "W1_SLAVE_ID=%024LX",
601 			     (unsigned long long)sl->reg_num.id);
602 end:
603 	return err;
604 }
605 
w1_family_notify(unsigned long action,struct w1_slave * sl)606 static int w1_family_notify(unsigned long action, struct w1_slave *sl)
607 {
608 	const struct w1_family_ops *fops;
609 	int err;
610 
611 	fops = sl->family->fops;
612 
613 	if (!fops)
614 		return 0;
615 
616 	switch (action) {
617 	case BUS_NOTIFY_ADD_DEVICE:
618 		/* if the family driver needs to initialize something... */
619 		if (fops->add_slave) {
620 			err = fops->add_slave(sl);
621 			if (err < 0) {
622 				dev_err(&sl->dev,
623 					"add_slave() call failed. err=%d\n",
624 					err);
625 				return err;
626 			}
627 		}
628 		if (fops->groups) {
629 			err = sysfs_create_groups(&sl->dev.kobj, fops->groups);
630 			if (err) {
631 				dev_err(&sl->dev,
632 					"sysfs group creation failed. err=%d\n",
633 					err);
634 				return err;
635 			}
636 		}
637 		if (IS_REACHABLE(CONFIG_HWMON) && fops->chip_info) {
638 			struct device *hwmon
639 				= hwmon_device_register_with_info(&sl->dev,
640 						"w1_slave_temp", sl,
641 						fops->chip_info,
642 						NULL);
643 			if (IS_ERR(hwmon)) {
644 				dev_warn(&sl->dev,
645 					 "could not create hwmon device\n");
646 			} else {
647 				sl->hwmon = hwmon;
648 			}
649 		}
650 		break;
651 	case BUS_NOTIFY_DEL_DEVICE:
652 		if (IS_REACHABLE(CONFIG_HWMON) && fops->chip_info &&
653 			    sl->hwmon)
654 			hwmon_device_unregister(sl->hwmon);
655 		if (fops->remove_slave)
656 			sl->family->fops->remove_slave(sl);
657 		if (fops->groups)
658 			sysfs_remove_groups(&sl->dev.kobj, fops->groups);
659 		break;
660 	}
661 	return 0;
662 }
663 
__w1_attach_slave_device(struct w1_slave * sl)664 static int __w1_attach_slave_device(struct w1_slave *sl)
665 {
666 	int err;
667 
668 	sl->dev.parent = &sl->master->dev;
669 	sl->dev.driver = &w1_slave_driver;
670 	sl->dev.bus = &w1_bus_type;
671 	sl->dev.release = &w1_slave_release;
672 	sl->dev.groups = w1_slave_groups;
673 	sl->dev.of_node = of_find_matching_node(sl->master->dev.of_node,
674 						sl->family->of_match_table);
675 
676 	dev_set_name(&sl->dev, "%02x-%012llx",
677 		 (unsigned int) sl->reg_num.family,
678 		 (unsigned long long) sl->reg_num.id);
679 	snprintf(&sl->name[0], sizeof(sl->name),
680 		 "%02x-%012llx",
681 		 (unsigned int) sl->reg_num.family,
682 		 (unsigned long long) sl->reg_num.id);
683 
684 	dev_dbg(&sl->dev, "%s: registering %s as %p.\n", __func__,
685 		dev_name(&sl->dev), sl);
686 
687 	/* suppress for w1_family_notify before sending KOBJ_ADD */
688 	dev_set_uevent_suppress(&sl->dev, true);
689 
690 	err = device_register(&sl->dev);
691 	if (err < 0) {
692 		dev_err(&sl->dev,
693 			"Device registration [%s] failed. err=%d\n",
694 			dev_name(&sl->dev), err);
695 		of_node_put(sl->dev.of_node);
696 		put_device(&sl->dev);
697 		return err;
698 	}
699 	w1_family_notify(BUS_NOTIFY_ADD_DEVICE, sl);
700 
701 	dev_set_uevent_suppress(&sl->dev, false);
702 	kobject_uevent(&sl->dev.kobj, KOBJ_ADD);
703 
704 	mutex_lock(&sl->master->list_mutex);
705 	list_add_tail(&sl->w1_slave_entry, &sl->master->slist);
706 	mutex_unlock(&sl->master->list_mutex);
707 
708 	return 0;
709 }
710 
w1_attach_slave_device(struct w1_master * dev,struct w1_reg_num * rn)711 int w1_attach_slave_device(struct w1_master *dev, struct w1_reg_num *rn)
712 {
713 	struct w1_slave *sl;
714 	struct w1_family *f;
715 	int err;
716 	struct w1_netlink_msg msg;
717 
718 	sl = kzalloc(sizeof(struct w1_slave), GFP_KERNEL);
719 	if (!sl) {
720 		dev_err(&dev->dev,
721 			 "%s: failed to allocate new slave device.\n",
722 			 __func__);
723 		return -ENOMEM;
724 	}
725 
726 
727 	sl->owner = THIS_MODULE;
728 	sl->master = dev;
729 	set_bit(W1_SLAVE_ACTIVE, &sl->flags);
730 
731 	memset(&msg, 0, sizeof(msg));
732 	memcpy(&sl->reg_num, rn, sizeof(sl->reg_num));
733 	atomic_set(&sl->refcnt, 1);
734 	atomic_inc(&sl->master->refcnt);
735 	dev->slave_count++;
736 	dev_info(&dev->dev, "Attaching one wire slave %02x.%012llx crc %02x\n",
737 		  rn->family, (unsigned long long)rn->id, rn->crc);
738 
739 	/* slave modules need to be loaded in a context with unlocked mutex */
740 	mutex_unlock(&dev->mutex);
741 	request_module("w1-family-0x%02X", rn->family);
742 	mutex_lock(&dev->mutex);
743 
744 	spin_lock(&w1_flock);
745 	f = w1_family_registered(rn->family);
746 	if (!f) {
747 		f= &w1_default_family;
748 		dev_info(&dev->dev, "Family %x for %02x.%012llx.%02x is not registered.\n",
749 			  rn->family, rn->family,
750 			  (unsigned long long)rn->id, rn->crc);
751 	}
752 	__w1_family_get(f);
753 	spin_unlock(&w1_flock);
754 
755 	sl->family = f;
756 
757 	err = __w1_attach_slave_device(sl);
758 	if (err < 0) {
759 		dev_err(&dev->dev, "%s: Attaching %s failed.\n", __func__,
760 			 sl->name);
761 		dev->slave_count--;
762 		w1_family_put(sl->family);
763 		atomic_dec(&sl->master->refcnt);
764 		kfree(sl);
765 		return err;
766 	}
767 
768 	sl->ttl = dev->slave_ttl;
769 
770 	memcpy(msg.id.id, rn, sizeof(msg.id));
771 	msg.type = W1_SLAVE_ADD;
772 	w1_netlink_send(dev, &msg);
773 
774 	return 0;
775 }
776 
w1_unref_slave(struct w1_slave * sl)777 int w1_unref_slave(struct w1_slave *sl)
778 {
779 	struct w1_master *dev = sl->master;
780 	int refcnt;
781 	mutex_lock(&dev->list_mutex);
782 	refcnt = atomic_sub_return(1, &sl->refcnt);
783 	if (refcnt == 0) {
784 		struct w1_netlink_msg msg;
785 
786 		dev_dbg(&sl->dev, "%s: detaching %s [%p].\n", __func__,
787 			sl->name, sl);
788 
789 		list_del(&sl->w1_slave_entry);
790 
791 		memset(&msg, 0, sizeof(msg));
792 		memcpy(msg.id.id, &sl->reg_num, sizeof(msg.id));
793 		msg.type = W1_SLAVE_REMOVE;
794 		w1_netlink_send(sl->master, &msg);
795 
796 		w1_family_notify(BUS_NOTIFY_DEL_DEVICE, sl);
797 		device_unregister(&sl->dev);
798 		#ifdef DEBUG
799 		memset(sl, 0, sizeof(*sl));
800 		#endif
801 		kfree(sl);
802 	}
803 	atomic_dec(&dev->refcnt);
804 	mutex_unlock(&dev->list_mutex);
805 	return refcnt;
806 }
807 
w1_slave_detach(struct w1_slave * sl)808 int w1_slave_detach(struct w1_slave *sl)
809 {
810 	/* Only detach a slave once as it decreases the refcnt each time. */
811 	int destroy_now;
812 	mutex_lock(&sl->master->list_mutex);
813 	destroy_now = !test_bit(W1_SLAVE_DETACH, &sl->flags);
814 	set_bit(W1_SLAVE_DETACH, &sl->flags);
815 	mutex_unlock(&sl->master->list_mutex);
816 
817 	if (destroy_now)
818 		destroy_now = !w1_unref_slave(sl);
819 	return destroy_now ? 0 : -EBUSY;
820 }
821 
w1_search_master_id(u32 id)822 struct w1_master *w1_search_master_id(u32 id)
823 {
824 	struct w1_master *dev = NULL, *iter;
825 
826 	mutex_lock(&w1_mlock);
827 	list_for_each_entry(iter, &w1_masters, w1_master_entry) {
828 		if (iter->id == id) {
829 			dev = iter;
830 			atomic_inc(&iter->refcnt);
831 			break;
832 		}
833 	}
834 	mutex_unlock(&w1_mlock);
835 
836 	return dev;
837 }
838 
w1_search_slave(struct w1_reg_num * id)839 struct w1_slave *w1_search_slave(struct w1_reg_num *id)
840 {
841 	struct w1_master *dev;
842 	struct w1_slave *sl = NULL, *iter;
843 
844 	mutex_lock(&w1_mlock);
845 	list_for_each_entry(dev, &w1_masters, w1_master_entry) {
846 		mutex_lock(&dev->list_mutex);
847 		list_for_each_entry(iter, &dev->slist, w1_slave_entry) {
848 			if (iter->reg_num.family == id->family &&
849 			    iter->reg_num.id == id->id &&
850 			    iter->reg_num.crc == id->crc) {
851 				sl = iter;
852 				atomic_inc(&dev->refcnt);
853 				atomic_inc(&iter->refcnt);
854 				break;
855 			}
856 		}
857 		mutex_unlock(&dev->list_mutex);
858 
859 		if (sl)
860 			break;
861 	}
862 	mutex_unlock(&w1_mlock);
863 
864 	return sl;
865 }
866 
w1_reconnect_slaves(struct w1_family * f,int attach)867 void w1_reconnect_slaves(struct w1_family *f, int attach)
868 {
869 	struct w1_slave *sl, *sln;
870 	struct w1_master *dev;
871 
872 	mutex_lock(&w1_mlock);
873 	list_for_each_entry(dev, &w1_masters, w1_master_entry) {
874 		dev_dbg(&dev->dev, "Reconnecting slaves in device %s "
875 			"for family %02x.\n", dev->name, f->fid);
876 		mutex_lock(&dev->mutex);
877 		mutex_lock(&dev->list_mutex);
878 		list_for_each_entry_safe(sl, sln, &dev->slist, w1_slave_entry) {
879 			/* If it is a new family, slaves with the default
880 			 * family driver and are that family will be
881 			 * connected.  If the family is going away, devices
882 			 * matching that family are reconneced.
883 			 */
884 			if ((attach && sl->family->fid == W1_FAMILY_DEFAULT
885 				&& sl->reg_num.family == f->fid) ||
886 				(!attach && sl->family->fid == f->fid)) {
887 				struct w1_reg_num rn;
888 
889 				mutex_unlock(&dev->list_mutex);
890 				memcpy(&rn, &sl->reg_num, sizeof(rn));
891 				/* If it was already in use let the automatic
892 				 * scan pick it up again later.
893 				 */
894 				if (!w1_slave_detach(sl))
895 					w1_attach_slave_device(dev, &rn);
896 				mutex_lock(&dev->list_mutex);
897 			}
898 		}
899 		dev_dbg(&dev->dev, "Reconnecting slaves in device %s "
900 			"has been finished.\n", dev->name);
901 		mutex_unlock(&dev->list_mutex);
902 		mutex_unlock(&dev->mutex);
903 	}
904 	mutex_unlock(&w1_mlock);
905 }
906 
w1_addr_crc_is_valid(struct w1_master * dev,u64 rn)907 static int w1_addr_crc_is_valid(struct w1_master *dev, u64 rn)
908 {
909 	u64 rn_le = cpu_to_le64(rn);
910 	struct w1_reg_num *tmp = (struct w1_reg_num *)&rn;
911 	u8 crc;
912 
913 	crc = w1_calc_crc8((u8 *)&rn_le, 7);
914 
915 	/* quirk:
916 	 *   DS28E04 (1w eeprom) has strapping pins to change
917 	 *   address, but will not update the crc. So normal rules
918 	 *   for consistent w1 addresses are violated. We test
919 	 *   with the 7 LSBs of the address forced high.
920 	 *
921 	 *   (char*)&rn_le = { family, addr_lsb, ..., addr_msb, crc }.
922 	 */
923 	if (crc != tmp->crc && tmp->family == W1_FAMILY_DS28E04) {
924 		u64 corr_le = rn_le;
925 
926 		((u8 *)&corr_le)[1] |= 0x7f;
927 		crc = w1_calc_crc8((u8 *)&corr_le, 7);
928 
929 		dev_info(&dev->dev, "DS28E04 crc workaround on %02x.%012llx.%02x\n",
930 			tmp->family, (unsigned long long)tmp->id, tmp->crc);
931 	}
932 
933 	if (crc != tmp->crc) {
934 		dev_dbg(&dev->dev, "w1 addr crc mismatch: %02x.%012llx.%02x != 0x%02x.\n",
935 			tmp->family, (unsigned long long)tmp->id, tmp->crc, crc);
936 		return 0;
937 	}
938 	return 1;
939 }
940 
w1_slave_found(struct w1_master * dev,u64 rn)941 void w1_slave_found(struct w1_master *dev, u64 rn)
942 {
943 	struct w1_slave *sl;
944 	struct w1_reg_num *tmp;
945 
946 	atomic_inc(&dev->refcnt);
947 
948 	tmp = (struct w1_reg_num *) &rn;
949 
950 	sl = w1_slave_search_device(dev, tmp);
951 	if (sl) {
952 		set_bit(W1_SLAVE_ACTIVE, &sl->flags);
953 	} else {
954 		if (rn && w1_addr_crc_is_valid(dev, rn))
955 			w1_attach_slave_device(dev, tmp);
956 	}
957 
958 	atomic_dec(&dev->refcnt);
959 }
960 
961 /**
962  * w1_search() - Performs a ROM Search & registers any devices found.
963  * @dev: The master device to search
964  * @search_type: W1_SEARCH to search all devices, or W1_ALARM_SEARCH
965  * to return only devices in the alarmed state
966  * @cb: Function to call when a device is found
967  *
968  * The 1-wire search is a simple binary tree search.
969  * For each bit of the address, we read two bits and write one bit.
970  * The bit written will put to sleep all devies that don't match that bit.
971  * When the two reads differ, the direction choice is obvious.
972  * When both bits are 0, we must choose a path to take.
973  * When we can scan all 64 bits without having to choose a path, we are done.
974  *
975  * See "Application note 187 1-wire search algorithm" at www.maxim-ic.com
976  *
977  */
w1_search(struct w1_master * dev,u8 search_type,w1_slave_found_callback cb)978 void w1_search(struct w1_master *dev, u8 search_type, w1_slave_found_callback cb)
979 {
980 	u64 last_rn, rn, tmp64;
981 	int i, slave_count = 0;
982 	int last_zero, last_device;
983 	int search_bit, desc_bit;
984 	u8  triplet_ret = 0;
985 
986 	search_bit = 0;
987 	rn = dev->search_id;
988 	last_rn = 0;
989 	last_device = 0;
990 	last_zero = -1;
991 
992 	desc_bit = 64;
993 
994 	while ( !last_device && (slave_count++ < dev->max_slave_count) ) {
995 		last_rn = rn;
996 		rn = 0;
997 
998 		/*
999 		 * Reset bus and all 1-wire device state machines
1000 		 * so they can respond to our requests.
1001 		 *
1002 		 * Return 0 - device(s) present, 1 - no devices present.
1003 		 */
1004 		mutex_lock(&dev->bus_mutex);
1005 		if (w1_reset_bus(dev)) {
1006 			mutex_unlock(&dev->bus_mutex);
1007 			dev_dbg(&dev->dev, "No devices present on the wire.\n");
1008 			break;
1009 		}
1010 
1011 		/* Do fast search on single slave bus */
1012 		if (dev->max_slave_count == 1) {
1013 			int rv;
1014 			w1_write_8(dev, W1_READ_ROM);
1015 			rv = w1_read_block(dev, (u8 *)&rn, 8);
1016 			mutex_unlock(&dev->bus_mutex);
1017 
1018 			if (rv == 8 && rn)
1019 				cb(dev, rn);
1020 
1021 			break;
1022 		}
1023 
1024 		/* Start the search */
1025 		w1_write_8(dev, search_type);
1026 		for (i = 0; i < 64; ++i) {
1027 			/* Determine the direction/search bit */
1028 			if (i == desc_bit)
1029 				search_bit = 1;	  /* took the 0 path last time, so take the 1 path */
1030 			else if (i > desc_bit)
1031 				search_bit = 0;	  /* take the 0 path on the next branch */
1032 			else
1033 				search_bit = ((last_rn >> i) & 0x1);
1034 
1035 			/* Read two bits and write one bit */
1036 			triplet_ret = w1_triplet(dev, search_bit);
1037 
1038 			/* quit if no device responded */
1039 			if ( (triplet_ret & 0x03) == 0x03 )
1040 				break;
1041 
1042 			/* If both directions were valid, and we took the 0 path... */
1043 			if (triplet_ret == 0)
1044 				last_zero = i;
1045 
1046 			/* extract the direction taken & update the device number */
1047 			tmp64 = (triplet_ret >> 2);
1048 			rn |= (tmp64 << i);
1049 
1050 			if (test_bit(W1_ABORT_SEARCH, &dev->flags)) {
1051 				mutex_unlock(&dev->bus_mutex);
1052 				dev_dbg(&dev->dev, "Abort w1_search\n");
1053 				return;
1054 			}
1055 		}
1056 		mutex_unlock(&dev->bus_mutex);
1057 
1058 		if ( (triplet_ret & 0x03) != 0x03 ) {
1059 			if ((desc_bit == last_zero) || (last_zero < 0)) {
1060 				last_device = 1;
1061 				dev->search_id = 0;
1062 			} else {
1063 				dev->search_id = rn;
1064 			}
1065 			desc_bit = last_zero;
1066 			cb(dev, rn);
1067 		}
1068 
1069 		if (!last_device && slave_count == dev->max_slave_count &&
1070 			!test_bit(W1_WARN_MAX_COUNT, &dev->flags)) {
1071 			/* Only max_slave_count will be scanned in a search,
1072 			 * but it will start where it left off next search
1073 			 * until all ids are identified and then it will start
1074 			 * over.  A continued search will report the previous
1075 			 * last id as the first id (provided it is still on the
1076 			 * bus).
1077 			 */
1078 			dev_info(&dev->dev, "%s: max_slave_count %d reached, "
1079 				"will continue next search.\n", __func__,
1080 				dev->max_slave_count);
1081 			set_bit(W1_WARN_MAX_COUNT, &dev->flags);
1082 		}
1083 	}
1084 }
1085 
w1_search_process_cb(struct w1_master * dev,u8 search_type,w1_slave_found_callback cb)1086 void w1_search_process_cb(struct w1_master *dev, u8 search_type,
1087 	w1_slave_found_callback cb)
1088 {
1089 	struct w1_slave *sl, *sln;
1090 
1091 	mutex_lock(&dev->list_mutex);
1092 	list_for_each_entry(sl, &dev->slist, w1_slave_entry)
1093 		clear_bit(W1_SLAVE_ACTIVE, &sl->flags);
1094 	mutex_unlock(&dev->list_mutex);
1095 
1096 	w1_search_devices(dev, search_type, cb);
1097 
1098 	mutex_lock(&dev->list_mutex);
1099 	list_for_each_entry_safe(sl, sln, &dev->slist, w1_slave_entry) {
1100 		if (!test_bit(W1_SLAVE_ACTIVE, &sl->flags) && !--sl->ttl) {
1101 			mutex_unlock(&dev->list_mutex);
1102 			w1_slave_detach(sl);
1103 			mutex_lock(&dev->list_mutex);
1104 		}
1105 		else if (test_bit(W1_SLAVE_ACTIVE, &sl->flags))
1106 			sl->ttl = dev->slave_ttl;
1107 	}
1108 	mutex_unlock(&dev->list_mutex);
1109 
1110 	if (dev->search_count > 0)
1111 		dev->search_count--;
1112 }
1113 
w1_search_process(struct w1_master * dev,u8 search_type)1114 static void w1_search_process(struct w1_master *dev, u8 search_type)
1115 {
1116 	w1_search_process_cb(dev, search_type, w1_slave_found);
1117 }
1118 
1119 /**
1120  * w1_process_callbacks() - execute each dev->async_list callback entry
1121  * @dev: w1_master device
1122  *
1123  * The w1 master list_mutex must be held.
1124  *
1125  * Return: 1 if there were commands to executed 0 otherwise
1126  */
w1_process_callbacks(struct w1_master * dev)1127 int w1_process_callbacks(struct w1_master *dev)
1128 {
1129 	int ret = 0;
1130 	struct w1_async_cmd *async_cmd, *async_n;
1131 
1132 	/* The list can be added to in another thread, loop until it is empty */
1133 	while (!list_empty(&dev->async_list)) {
1134 		list_for_each_entry_safe(async_cmd, async_n, &dev->async_list,
1135 			async_entry) {
1136 			/* drop the lock, if it is a search it can take a long
1137 			 * time */
1138 			mutex_unlock(&dev->list_mutex);
1139 			async_cmd->cb(dev, async_cmd);
1140 			ret = 1;
1141 			mutex_lock(&dev->list_mutex);
1142 		}
1143 	}
1144 	return ret;
1145 }
1146 
w1_process(void * data)1147 int w1_process(void *data)
1148 {
1149 	struct w1_master *dev = (struct w1_master *) data;
1150 	/* As long as w1_timeout is only set by a module parameter the sleep
1151 	 * time can be calculated in jiffies once.
1152 	 */
1153 	const unsigned long jtime =
1154 	  usecs_to_jiffies(w1_timeout * 1000000 + w1_timeout_us);
1155 	/* remainder if it woke up early */
1156 	unsigned long jremain = 0;
1157 
1158 	atomic_inc(&dev->refcnt);
1159 
1160 	for (;;) {
1161 
1162 		if (!jremain && dev->search_count) {
1163 			mutex_lock(&dev->mutex);
1164 			w1_search_process(dev, W1_SEARCH);
1165 			mutex_unlock(&dev->mutex);
1166 		}
1167 
1168 		mutex_lock(&dev->list_mutex);
1169 		/* Note, w1_process_callback drops the lock while processing,
1170 		 * but locks it again before returning.
1171 		 */
1172 		if (!w1_process_callbacks(dev) && jremain) {
1173 			/* a wake up is either to stop the thread, process
1174 			 * callbacks, or search, it isn't process callbacks, so
1175 			 * schedule a search.
1176 			 */
1177 			jremain = 1;
1178 		}
1179 
1180 		__set_current_state(TASK_INTERRUPTIBLE);
1181 
1182 		/* hold list_mutex until after interruptible to prevent loosing
1183 		 * the wakeup signal when async_cmd is added.
1184 		 */
1185 		mutex_unlock(&dev->list_mutex);
1186 
1187 		if (kthread_should_stop()) {
1188 			__set_current_state(TASK_RUNNING);
1189 			break;
1190 		}
1191 
1192 		/* Only sleep when the search is active. */
1193 		if (dev->search_count) {
1194 			if (!jremain)
1195 				jremain = jtime;
1196 			jremain = schedule_timeout(jremain);
1197 		}
1198 		else
1199 			schedule();
1200 	}
1201 
1202 	atomic_dec(&dev->refcnt);
1203 
1204 	return 0;
1205 }
1206 
w1_init(void)1207 static int __init w1_init(void)
1208 {
1209 	int retval;
1210 
1211 	pr_info("Driver for 1-wire Dallas network protocol.\n");
1212 
1213 	w1_init_netlink();
1214 
1215 	retval = bus_register(&w1_bus_type);
1216 	if (retval) {
1217 		pr_err("Failed to register bus. err=%d.\n", retval);
1218 		goto err_out_exit_init;
1219 	}
1220 
1221 	retval = driver_register(&w1_master_driver);
1222 	if (retval) {
1223 		pr_err("Failed to register master driver. err=%d.\n",
1224 			retval);
1225 		goto err_out_bus_unregister;
1226 	}
1227 
1228 	retval = driver_register(&w1_slave_driver);
1229 	if (retval) {
1230 		pr_err("Failed to register slave driver. err=%d.\n",
1231 			retval);
1232 		goto err_out_master_unregister;
1233 	}
1234 
1235 	return 0;
1236 
1237 #if 0
1238 /* For undoing the slave register if there was a step after it. */
1239 err_out_slave_unregister:
1240 	driver_unregister(&w1_slave_driver);
1241 #endif
1242 
1243 err_out_master_unregister:
1244 	driver_unregister(&w1_master_driver);
1245 
1246 err_out_bus_unregister:
1247 	bus_unregister(&w1_bus_type);
1248 
1249 err_out_exit_init:
1250 	return retval;
1251 }
1252 
w1_fini(void)1253 static void __exit w1_fini(void)
1254 {
1255 	struct w1_master *dev, *n;
1256 
1257 	/* Set netlink removal messages and some cleanup */
1258 	list_for_each_entry_safe(dev, n, &w1_masters, w1_master_entry)
1259 		__w1_remove_master_device(dev);
1260 
1261 	w1_fini_netlink();
1262 
1263 	driver_unregister(&w1_slave_driver);
1264 	driver_unregister(&w1_master_driver);
1265 	bus_unregister(&w1_bus_type);
1266 }
1267 
1268 module_init(w1_init);
1269 module_exit(w1_fini);
1270 
1271 MODULE_AUTHOR("Evgeniy Polyakov <zbr@ioremap.net>");
1272 MODULE_DESCRIPTION("Driver for 1-wire Dallas network protocol.");
1273 MODULE_LICENSE("GPL");
1274