tifm_core.c source code [linux/drivers/misc/tifm_core.c]

1	// SPDX-License-Identifier: GPL-2.0-only
2	/*
3	* tifm_core.c - TI FlashMedia driver
4	*
5	* Copyright (C) 2006 Alex Dubov <oakad@yahoo.com>
6	*/
7
8	#include <linux/tifm.h>
9	#include <linux/slab.h>
10	#include <linux/init.h>
11	#include <linux/idr.h>
12	#include <linux/module.h>
13
14	#define DRIVER_NAME "tifm_core"
15	#define DRIVER_VERSION "0.8"
16
17	static struct workqueue_struct *workqueue;
18	static DEFINE_IDR(tifm_adapter_idr);
19	static DEFINE_SPINLOCK(tifm_adapter_lock);
20
21	static const char tifm_media_type_name(unsigned* char type, unsigned char nt)
22	{
23	const char *card_type_name[`3`][`3`] = {
24	{ "SmartMedia/xD", "MemoryStick", "MMC/SD" },
25	{ "XD", "MS", "SD"},
26	{ "xd", "ms", "sd"}
27	};
28
29	if (nt > `2` \|\| type < `1` \|\| type > `3`)
30	return NULL;
31	return card_type_name[nt][type - `1`];
32	}
33
34	static int tifm_dev_match(struct tifm_dev sock, struct* tifm_device_id *id)
35	{
36	if (sock->type == id->type)
37	return `1`;
38	return `0`;
39	}
40
41	static int tifm_bus_match(struct device dev, struct* device_driver *drv)
42	{
43	struct tifm_dev sock = container_of(dev, struct* tifm_dev, dev);
44	struct tifm_driver fm_drv = container_of(drv, struct* tifm_driver,
45	driver);
46	struct tifm_device_id *ids = fm_drv->id_table;
47
48	if (ids) {
49	while (ids->type) {
50	if (tifm_dev_match(sock, id: ids))
51	return `1`;
52	++ids;
53	}
54	}
55	return `0`;
56	}
57
58	static int tifm_uevent(const struct device dev, struct* kobj_uevent_env *env)
59	{
60	const struct tifm_dev sock = container_of_const(dev, struct* tifm_dev, dev);
61
62	if (add_uevent_var(env, format: "TIFM_CARD_TYPE=%s", tifm_media_type_name(type: sock->type, nt: `1`)))
63	return -ENOMEM;
64
65	return `0`;
66	}
67
68	static int tifm_device_probe(struct device *dev)
69	{
70	struct tifm_dev sock = container_of(dev, struct* tifm_dev, dev);
71	struct tifm_driver drv = container_of(dev->driver, struct* tifm_driver,
72	driver);
73	int rc = -ENODEV;
74
75	get_device(dev);
76	if (dev->driver && drv->probe) {
77	rc = drv->probe(sock);
78	if (!rc)
79	return `0`;
80	}
81	put_device(dev);
82	return rc;
83	}
84
85	static void tifm_dummy_event(struct tifm_dev *sock)
86	{
87	return;
88	}
89
90	static void tifm_device_remove(struct device *dev)
91	{
92	struct tifm_dev sock = container_of(dev, struct* tifm_dev, dev);
93	struct tifm_driver drv = container_of(dev->driver, struct* tifm_driver,
94	driver);
95
96	if (dev->driver && drv->remove) {
97	sock->card_event = tifm_dummy_event;
98	sock->data_event = tifm_dummy_event;
99	drv->remove(sock);
100	sock->dev.driver = NULL;
101	}
102
103	put_device(dev);
104	}
105
106	#ifdef CONFIG_PM
107
108	static int tifm_device_suspend(struct device *dev, pm_message_t state)
109	{
110	struct tifm_dev sock = container_of(dev, struct* tifm_dev, dev);
111	struct tifm_driver drv = container_of(dev->driver, struct* tifm_driver,
112	driver);
113
114	if (dev->driver && drv->suspend)
115	return drv->suspend(sock, state);
116	return `0`;
117	}
118
119	static int tifm_device_resume(struct device *dev)
120	{
121	struct tifm_dev sock = container_of(dev, struct* tifm_dev, dev);
122	struct tifm_driver drv = container_of(dev->driver, struct* tifm_driver,
123	driver);
124
125	if (dev->driver && drv->resume)
126	return drv->resume(sock);
127	return `0`;
128	}
129
130	#else
131
132	#define tifm_device_suspend NULL
133	#define tifm_device_resume NULL
134
135	#endif /* CONFIG_PM */
136
137	static ssize_t type_show(struct device dev, struct* device_attribute *attr,
138	char *buf)
139	{
140	struct tifm_dev sock = container_of(dev, struct* tifm_dev, dev);
141	return sprintf(buf, fmt: "%x", sock->type);
142	}
143	static DEVICE_ATTR_RO(type);
144
145	static struct attribute *tifm_dev_attrs[] = {
146	&dev_attr_type.attr,
147	NULL,
148	};
149	ATTRIBUTE_GROUPS(tifm_dev);
150
151	static struct bus_type tifm_bus_type = {
152	.name = "tifm",
153	.dev_groups = tifm_dev_groups,
154	.match = tifm_bus_match,
155	.uevent = tifm_uevent,
156	.probe = tifm_device_probe,
157	.remove = tifm_device_remove,
158	.suspend = tifm_device_suspend,
159	.resume = tifm_device_resume
160	};
161
162	static void tifm_free(struct device *dev)
163	{
164	struct tifm_adapter fm = container_of(dev, struct* tifm_adapter, dev);
165
166	kfree(objp: fm);
167	}
168
169	static struct class tifm_adapter_class = {
170	.name = "tifm_adapter",
171	.dev_release = tifm_free
172	};
173
174	struct tifm_adapter tifm_alloc_adapter(unsigned* int num_sockets,
175	struct device *dev)
176	{
177	struct tifm_adapter *fm;
178
179	fm = kzalloc(struct_size(fm, sockets, num_sockets), GFP_KERNEL);
180	if (fm) {
181	fm->dev.class = &tifm_adapter_class;
182	fm->dev.parent = dev;
183	device_initialize(dev: &fm->dev);
184	spin_lock_init(&fm->lock);
185	fm->num_sockets = num_sockets;
186	}
187	return fm;
188	}
189	EXPORT_SYMBOL(tifm_alloc_adapter);
190
191	int tifm_add_adapter(struct tifm_adapter *fm)
192	{
193	int rc;
194
195	idr_preload(GFP_KERNEL);
196	spin_lock(lock: &tifm_adapter_lock);
197	rc = idr_alloc(&tifm_adapter_idr, ptr: fm, start: `0`, end: `0`, GFP_NOWAIT);
198	if (rc >= `0`)
199	fm->id = rc;
200	spin_unlock(lock: &tifm_adapter_lock);
201	idr_preload_end();
202	if (rc < `0`)
203	return rc;
204
205	dev_set_name(dev: &fm->dev, name: "tifm%u", fm->id);
206	rc = device_add(dev: &fm->dev);
207	if (rc) {
208	spin_lock(lock: &tifm_adapter_lock);
209	idr_remove(&tifm_adapter_idr, id: fm->id);
210	spin_unlock(lock: &tifm_adapter_lock);
211	}
212
213	return rc;
214	}
215	EXPORT_SYMBOL(tifm_add_adapter);
216
217	void tifm_remove_adapter(struct tifm_adapter *fm)
218	{
219	unsigned int cnt;
220
221	flush_workqueue(workqueue);
222	for (cnt = `0`; cnt < fm->num_sockets; ++cnt) {
223	if (fm->sockets[cnt])
224	device_unregister(dev: &fm->sockets[cnt]->dev);
225	}
226
227	spin_lock(lock: &tifm_adapter_lock);
228	idr_remove(&tifm_adapter_idr, id: fm->id);
229	spin_unlock(lock: &tifm_adapter_lock);
230	device_del(dev: &fm->dev);
231	}
232	EXPORT_SYMBOL(tifm_remove_adapter);
233
234	void tifm_free_adapter(struct tifm_adapter *fm)
235	{
236	put_device(dev: &fm->dev);
237	}
238	EXPORT_SYMBOL(tifm_free_adapter);
239
240	void tifm_free_device(struct device *dev)
241	{
242	struct tifm_dev sock = container_of(dev, struct* tifm_dev, dev);
243	kfree(objp: sock);
244	}
245	EXPORT_SYMBOL(tifm_free_device);
246
247	struct tifm_dev tifm_alloc_device(struct* tifm_adapter fm, unsigned* int id,
248	unsigned char type)
249	{
250	struct tifm_dev *sock = NULL;
251
252	if (!tifm_media_type_name(type, nt: `0`))
253	return sock;
254
255	sock = kzalloc(size: sizeof(struct tifm_dev), GFP_KERNEL);
256	if (sock) {
257	spin_lock_init(&sock->lock);
258	sock->type = type;
259	sock->socket_id = id;
260	sock->card_event = tifm_dummy_event;
261	sock->data_event = tifm_dummy_event;
262
263	sock->dev.parent = fm->dev.parent;
264	sock->dev.bus = &tifm_bus_type;
265	sock->dev.dma_mask = fm->dev.parent->dma_mask;
266	sock->dev.release = tifm_free_device;
267
268	dev_set_name(dev: &sock->dev, name: "tifm_%s%u:%u",
269	tifm_media_type_name(type, nt: `2`), fm->id, id);
270	printk(KERN_INFO DRIVER_NAME
271	": %s card detected in socket %u:%u\n",
272	tifm_media_type_name(type, `0`), fm->id, id);
273	}
274	return sock;
275	}
276	EXPORT_SYMBOL(tifm_alloc_device);
277
278	void tifm_eject(struct tifm_dev *sock)
279	{
280	struct tifm_adapter *fm = dev_get_drvdata(dev: sock->dev.parent);
281	fm->eject(fm, sock);
282	}
283	EXPORT_SYMBOL(tifm_eject);
284
285	int tifm_has_ms_pif(struct tifm_dev *sock)
286	{
287	struct tifm_adapter *fm = dev_get_drvdata(dev: sock->dev.parent);
288	return fm->has_ms_pif(fm, sock);
289	}
290	EXPORT_SYMBOL(tifm_has_ms_pif);
291
292	int tifm_map_sg(struct tifm_dev sock, struct* scatterlist sg, int* nents,
293	int direction)
294	{
295	return dma_map_sg(&to_pci_dev(sock->dev.parent)->dev, sg, nents,
296	direction);
297	}
298	EXPORT_SYMBOL(tifm_map_sg);
299
300	void tifm_unmap_sg(struct tifm_dev sock, struct* scatterlist sg, int* nents,
301	int direction)
302	{
303	dma_unmap_sg(&to_pci_dev(sock->dev.parent)->dev, sg, nents, direction);
304	}
305	EXPORT_SYMBOL(tifm_unmap_sg);
306
307	void tifm_queue_work(struct work_struct *work)
308	{
309	queue_work(wq: workqueue, work);
310	}
311	EXPORT_SYMBOL(tifm_queue_work);
312
313	int tifm_register_driver(struct tifm_driver *drv)
314	{
315	drv->driver.bus = &tifm_bus_type;
316
317	return driver_register(drv: &drv->driver);
318	}
319	EXPORT_SYMBOL(tifm_register_driver);
320
321	void tifm_unregister_driver(struct tifm_driver *drv)
322	{
323	driver_unregister(drv: &drv->driver);
324	}
325	EXPORT_SYMBOL(tifm_unregister_driver);
326
327	static int __init tifm_init(void)
328	{
329	int rc;
330
331	workqueue = create_freezable_workqueue("tifm");
332	if (!workqueue)
333	return -ENOMEM;
334
335	rc = bus_register(bus: &tifm_bus_type);
336
337	if (rc)
338	goto err_out_wq;
339
340	rc = class_register(class: &tifm_adapter_class);
341	if (!rc)
342	return `0`;
343
344	bus_unregister(bus: &tifm_bus_type);
345
346	err_out_wq:
347	destroy_workqueue(wq: workqueue);
348
349	return rc;
350	}
351
352	static void __exit tifm_exit(void)
353	{
354	class_unregister(class: &tifm_adapter_class);
355	bus_unregister(bus: &tifm_bus_type);
356	destroy_workqueue(wq: workqueue);
357	}
358
359	subsys_initcall(tifm_init);
360	module_exit(tifm_exit);
361
362	MODULE_LICENSE("GPL");
363	MODULE_AUTHOR("Alex Dubov");
364	MODULE_DESCRIPTION("TI FlashMedia core driver");
365	MODULE_LICENSE("GPL");
366	MODULE_VERSION(DRIVER_VERSION);
367

source code of linux/drivers/misc/tifm_core.c