1 // SPDX-License-Identifier: GPL-2.0-or-later
2 /*
3  * ntc_thermistor.c - NTC Thermistors
4  *
5  *  Copyright (C) 2010 Samsung Electronics
6  *  MyungJoo Ham <myungjoo.ham@samsung.com>
7  */
8 
9 #include <linux/slab.h>
10 #include <linux/module.h>
11 #include <linux/math64.h>
12 #include <linux/mod_devicetable.h>
13 #include <linux/platform_device.h>
14 #include <linux/property.h>
15 #include <linux/err.h>
16 #include <linux/fixp-arith.h>
17 #include <linux/iio/consumer.h>
18 #include <linux/hwmon.h>
19 
20 enum ntc_thermistor_type {
21 	TYPE_B57330V2103,
22 	TYPE_B57891S0103,
23 	TYPE_NCPXXWB473,
24 	TYPE_NCPXXWF104,
25 	TYPE_NCPXXWL333,
26 	TYPE_NCPXXXH103,
27 };
28 
29 struct ntc_compensation {
30 	int		temp_c;
31 	unsigned int	ohm;
32 };
33 
34 /*
35  * Used as index in a zero-terminated array, holes not allowed so
36  * that NTC_LAST is the first empty array entry.
37  */
38 enum {
39 	NTC_B57330V2103,
40 	NTC_B57891S0103,
41 	NTC_NCP03WB473,
42 	NTC_NCP03WF104,
43 	NTC_NCP15WB473,
44 	NTC_NCP15WL333,
45 	NTC_NCP15XH103,
46 	NTC_NCP18WB473,
47 	NTC_NCP21WB473,
48 	NTC_SSG1404001221,
49 	NTC_LAST,
50 };
51 
52 static const struct platform_device_id ntc_thermistor_id[] = {
53 	[NTC_B57330V2103]     = { "b57330v2103",     TYPE_B57330V2103 },
54 	[NTC_B57891S0103]     = { "b57891s0103",     TYPE_B57891S0103 },
55 	[NTC_NCP03WB473]      = { "ncp03wb473",      TYPE_NCPXXWB473 },
56 	[NTC_NCP03WF104]      = { "ncp03wf104",      TYPE_NCPXXWF104 },
57 	[NTC_NCP15WB473]      = { "ncp15wb473",      TYPE_NCPXXWB473 },
58 	[NTC_NCP15WL333]      = { "ncp15wl333",      TYPE_NCPXXWL333 },
59 	[NTC_NCP15XH103]      = { "ncp15xh103",      TYPE_NCPXXXH103 },
60 	[NTC_NCP18WB473]      = { "ncp18wb473",      TYPE_NCPXXWB473 },
61 	[NTC_NCP21WB473]      = { "ncp21wb473",      TYPE_NCPXXWB473 },
62 	[NTC_SSG1404001221]   = { "ssg1404_001221",  TYPE_NCPXXWB473 },
63 	[NTC_LAST]            = { },
64 };
65 MODULE_DEVICE_TABLE(platform, ntc_thermistor_id);
66 
67 /*
68  * A compensation table should be sorted by the values of .ohm
69  * in descending order.
70  * The following compensation tables are from the specification of Murata NTC
71  * Thermistors Datasheet
72  */
73 static const struct ntc_compensation ncpXXwb473[] = {
74 	{ .temp_c	= -40, .ohm	= 1747920 },
75 	{ .temp_c	= -35, .ohm	= 1245428 },
76 	{ .temp_c	= -30, .ohm	= 898485 },
77 	{ .temp_c	= -25, .ohm	= 655802 },
78 	{ .temp_c	= -20, .ohm	= 483954 },
79 	{ .temp_c	= -15, .ohm	= 360850 },
80 	{ .temp_c	= -10, .ohm	= 271697 },
81 	{ .temp_c	= -5, .ohm	= 206463 },
82 	{ .temp_c	= 0, .ohm	= 158214 },
83 	{ .temp_c	= 5, .ohm	= 122259 },
84 	{ .temp_c	= 10, .ohm	= 95227 },
85 	{ .temp_c	= 15, .ohm	= 74730 },
86 	{ .temp_c	= 20, .ohm	= 59065 },
87 	{ .temp_c	= 25, .ohm	= 47000 },
88 	{ .temp_c	= 30, .ohm	= 37643 },
89 	{ .temp_c	= 35, .ohm	= 30334 },
90 	{ .temp_c	= 40, .ohm	= 24591 },
91 	{ .temp_c	= 45, .ohm	= 20048 },
92 	{ .temp_c	= 50, .ohm	= 16433 },
93 	{ .temp_c	= 55, .ohm	= 13539 },
94 	{ .temp_c	= 60, .ohm	= 11209 },
95 	{ .temp_c	= 65, .ohm	= 9328 },
96 	{ .temp_c	= 70, .ohm	= 7798 },
97 	{ .temp_c	= 75, .ohm	= 6544 },
98 	{ .temp_c	= 80, .ohm	= 5518 },
99 	{ .temp_c	= 85, .ohm	= 4674 },
100 	{ .temp_c	= 90, .ohm	= 3972 },
101 	{ .temp_c	= 95, .ohm	= 3388 },
102 	{ .temp_c	= 100, .ohm	= 2902 },
103 	{ .temp_c	= 105, .ohm	= 2494 },
104 	{ .temp_c	= 110, .ohm	= 2150 },
105 	{ .temp_c	= 115, .ohm	= 1860 },
106 	{ .temp_c	= 120, .ohm	= 1615 },
107 	{ .temp_c	= 125, .ohm	= 1406 },
108 };
109 static const struct ntc_compensation ncpXXwl333[] = {
110 	{ .temp_c	= -40, .ohm	= 1610154 },
111 	{ .temp_c	= -35, .ohm	= 1130850 },
112 	{ .temp_c	= -30, .ohm	= 802609 },
113 	{ .temp_c	= -25, .ohm	= 575385 },
114 	{ .temp_c	= -20, .ohm	= 416464 },
115 	{ .temp_c	= -15, .ohm	= 304219 },
116 	{ .temp_c	= -10, .ohm	= 224193 },
117 	{ .temp_c	= -5, .ohm	= 166623 },
118 	{ .temp_c	= 0, .ohm	= 124850 },
119 	{ .temp_c	= 5, .ohm	= 94287 },
120 	{ .temp_c	= 10, .ohm	= 71747 },
121 	{ .temp_c	= 15, .ohm	= 54996 },
122 	{ .temp_c	= 20, .ohm	= 42455 },
123 	{ .temp_c	= 25, .ohm	= 33000 },
124 	{ .temp_c	= 30, .ohm	= 25822 },
125 	{ .temp_c	= 35, .ohm	= 20335 },
126 	{ .temp_c	= 40, .ohm	= 16115 },
127 	{ .temp_c	= 45, .ohm	= 12849 },
128 	{ .temp_c	= 50, .ohm	= 10306 },
129 	{ .temp_c	= 55, .ohm	= 8314 },
130 	{ .temp_c	= 60, .ohm	= 6746 },
131 	{ .temp_c	= 65, .ohm	= 5503 },
132 	{ .temp_c	= 70, .ohm	= 4513 },
133 	{ .temp_c	= 75, .ohm	= 3721 },
134 	{ .temp_c	= 80, .ohm	= 3084 },
135 	{ .temp_c	= 85, .ohm	= 2569 },
136 	{ .temp_c	= 90, .ohm	= 2151 },
137 	{ .temp_c	= 95, .ohm	= 1809 },
138 	{ .temp_c	= 100, .ohm	= 1529 },
139 	{ .temp_c	= 105, .ohm	= 1299 },
140 	{ .temp_c	= 110, .ohm	= 1108 },
141 	{ .temp_c	= 115, .ohm	= 949 },
142 	{ .temp_c	= 120, .ohm	= 817 },
143 	{ .temp_c	= 125, .ohm	= 707 },
144 };
145 
146 static const struct ntc_compensation ncpXXwf104[] = {
147 	{ .temp_c	= -40, .ohm	= 4397119 },
148 	{ .temp_c	= -35, .ohm	= 3088599 },
149 	{ .temp_c	= -30, .ohm	= 2197225 },
150 	{ .temp_c	= -25, .ohm	= 1581881 },
151 	{ .temp_c	= -20, .ohm	= 1151037 },
152 	{ .temp_c	= -15, .ohm	= 846579 },
153 	{ .temp_c	= -10, .ohm	= 628988 },
154 	{ .temp_c	= -5, .ohm	= 471632 },
155 	{ .temp_c	= 0, .ohm	= 357012 },
156 	{ .temp_c	= 5, .ohm	= 272500 },
157 	{ .temp_c	= 10, .ohm	= 209710 },
158 	{ .temp_c	= 15, .ohm	= 162651 },
159 	{ .temp_c	= 20, .ohm	= 127080 },
160 	{ .temp_c	= 25, .ohm	= 100000 },
161 	{ .temp_c	= 30, .ohm	= 79222 },
162 	{ .temp_c	= 35, .ohm	= 63167 },
163 	{ .temp_c	= 40, .ohm	= 50677 },
164 	{ .temp_c	= 45, .ohm	= 40904 },
165 	{ .temp_c	= 50, .ohm	= 33195 },
166 	{ .temp_c	= 55, .ohm	= 27091 },
167 	{ .temp_c	= 60, .ohm	= 22224 },
168 	{ .temp_c	= 65, .ohm	= 18323 },
169 	{ .temp_c	= 70, .ohm	= 15184 },
170 	{ .temp_c	= 75, .ohm	= 12635 },
171 	{ .temp_c	= 80, .ohm	= 10566 },
172 	{ .temp_c	= 85, .ohm	= 8873 },
173 	{ .temp_c	= 90, .ohm	= 7481 },
174 	{ .temp_c	= 95, .ohm	= 6337 },
175 	{ .temp_c	= 100, .ohm	= 5384 },
176 	{ .temp_c	= 105, .ohm	= 4594 },
177 	{ .temp_c	= 110, .ohm	= 3934 },
178 	{ .temp_c	= 115, .ohm	= 3380 },
179 	{ .temp_c	= 120, .ohm	= 2916 },
180 	{ .temp_c	= 125, .ohm	= 2522 },
181 };
182 
183 static const struct ntc_compensation ncpXXxh103[] = {
184 	{ .temp_c	= -40, .ohm	= 247565 },
185 	{ .temp_c	= -35, .ohm	= 181742 },
186 	{ .temp_c	= -30, .ohm	= 135128 },
187 	{ .temp_c	= -25, .ohm	= 101678 },
188 	{ .temp_c	= -20, .ohm	= 77373 },
189 	{ .temp_c	= -15, .ohm	= 59504 },
190 	{ .temp_c	= -10, .ohm	= 46222 },
191 	{ .temp_c	= -5, .ohm	= 36244 },
192 	{ .temp_c	= 0, .ohm	= 28674 },
193 	{ .temp_c	= 5, .ohm	= 22878 },
194 	{ .temp_c	= 10, .ohm	= 18399 },
195 	{ .temp_c	= 15, .ohm	= 14910 },
196 	{ .temp_c	= 20, .ohm	= 12169 },
197 	{ .temp_c	= 25, .ohm	= 10000 },
198 	{ .temp_c	= 30, .ohm	= 8271 },
199 	{ .temp_c	= 35, .ohm	= 6883 },
200 	{ .temp_c	= 40, .ohm	= 5762 },
201 	{ .temp_c	= 45, .ohm	= 4851 },
202 	{ .temp_c	= 50, .ohm	= 4105 },
203 	{ .temp_c	= 55, .ohm	= 3492 },
204 	{ .temp_c	= 60, .ohm	= 2985 },
205 	{ .temp_c	= 65, .ohm	= 2563 },
206 	{ .temp_c	= 70, .ohm	= 2211 },
207 	{ .temp_c	= 75, .ohm	= 1915 },
208 	{ .temp_c	= 80, .ohm	= 1666 },
209 	{ .temp_c	= 85, .ohm	= 1454 },
210 	{ .temp_c	= 90, .ohm	= 1275 },
211 	{ .temp_c	= 95, .ohm	= 1121 },
212 	{ .temp_c	= 100, .ohm	= 990 },
213 	{ .temp_c	= 105, .ohm	= 876 },
214 	{ .temp_c	= 110, .ohm	= 779 },
215 	{ .temp_c	= 115, .ohm	= 694 },
216 	{ .temp_c	= 120, .ohm	= 620 },
217 	{ .temp_c	= 125, .ohm	= 556 },
218 };
219 
220 /*
221  * The following compensation tables are from the specifications in EPCOS NTC
222  * Thermistors Datasheets
223  */
224 static const struct ntc_compensation b57330v2103[] = {
225 	{ .temp_c	= -40, .ohm	= 190030 },
226 	{ .temp_c	= -35, .ohm	= 145360 },
227 	{ .temp_c	= -30, .ohm	= 112060 },
228 	{ .temp_c	= -25, .ohm	= 87041 },
229 	{ .temp_c	= -20, .ohm	= 68104 },
230 	{ .temp_c	= -15, .ohm	= 53665 },
231 	{ .temp_c	= -10, .ohm	= 42576 },
232 	{ .temp_c	= -5, .ohm	= 34001 },
233 	{ .temp_c	= 0, .ohm	= 27326 },
234 	{ .temp_c	= 5, .ohm	= 22096 },
235 	{ .temp_c	= 10, .ohm	= 17973 },
236 	{ .temp_c	= 15, .ohm	= 14703 },
237 	{ .temp_c	= 20, .ohm	= 12090 },
238 	{ .temp_c	= 25, .ohm	= 10000 },
239 	{ .temp_c	= 30, .ohm	= 8311 },
240 	{ .temp_c	= 35, .ohm	= 6941 },
241 	{ .temp_c	= 40, .ohm	= 5825 },
242 	{ .temp_c	= 45, .ohm	= 4911 },
243 	{ .temp_c	= 50, .ohm	= 4158 },
244 	{ .temp_c	= 55, .ohm	= 3536 },
245 	{ .temp_c	= 60, .ohm	= 3019 },
246 	{ .temp_c	= 65, .ohm	= 2588 },
247 	{ .temp_c	= 70, .ohm	= 2227 },
248 	{ .temp_c	= 75, .ohm	= 1924 },
249 	{ .temp_c	= 80, .ohm	= 1668 },
250 	{ .temp_c	= 85, .ohm	= 1451 },
251 	{ .temp_c	= 90, .ohm	= 1266 },
252 	{ .temp_c	= 95, .ohm	= 1108 },
253 	{ .temp_c	= 100, .ohm	= 973 },
254 	{ .temp_c	= 105, .ohm	= 857 },
255 	{ .temp_c	= 110, .ohm	= 757 },
256 	{ .temp_c	= 115, .ohm	= 671 },
257 	{ .temp_c	= 120, .ohm	= 596 },
258 	{ .temp_c	= 125, .ohm	= 531 },
259 };
260 
261 static const struct ntc_compensation b57891s0103[] = {
262 	{ .temp_c	= -55.0, .ohm	= 878900 },
263 	{ .temp_c	= -50.0, .ohm	= 617590 },
264 	{ .temp_c	= -45.0, .ohm	= 439340 },
265 	{ .temp_c	= -40.0, .ohm	= 316180 },
266 	{ .temp_c	= -35.0, .ohm	= 230060 },
267 	{ .temp_c	= -30.0, .ohm	= 169150 },
268 	{ .temp_c	= -25.0, .ohm	= 125550 },
269 	{ .temp_c	= -20.0, .ohm	= 94143 },
270 	{ .temp_c	= -15.0, .ohm	= 71172 },
271 	{ .temp_c	= -10.0, .ohm	= 54308 },
272 	{ .temp_c	= -5.0, .ohm	= 41505 },
273 	{ .temp_c	= 0.0, .ohm	= 32014 },
274 	{ .temp_c	= 5.0, .ohm	= 25011 },
275 	{ .temp_c	= 10.0, .ohm	= 19691 },
276 	{ .temp_c	= 15.0, .ohm	= 15618 },
277 	{ .temp_c	= 20.0, .ohm	= 12474 },
278 	{ .temp_c	= 25.0, .ohm	= 10000 },
279 	{ .temp_c	= 30.0, .ohm	= 8080 },
280 	{ .temp_c	= 35.0, .ohm	= 6569 },
281 	{ .temp_c	= 40.0, .ohm	= 5372 },
282 	{ .temp_c	= 45.0, .ohm	= 4424 },
283 	{ .temp_c	= 50.0, .ohm	= 3661 },
284 	{ .temp_c	= 55.0, .ohm	= 3039 },
285 	{ .temp_c	= 60.0, .ohm	= 2536 },
286 	{ .temp_c	= 65.0, .ohm	= 2128 },
287 	{ .temp_c	= 70.0, .ohm	= 1794 },
288 	{ .temp_c	= 75.0, .ohm	= 1518 },
289 	{ .temp_c	= 80.0, .ohm	= 1290 },
290 	{ .temp_c	= 85.0, .ohm	= 1100 },
291 	{ .temp_c	= 90.0, .ohm	= 942 },
292 	{ .temp_c	= 95.0, .ohm	= 809 },
293 	{ .temp_c	= 100.0, .ohm	= 697 },
294 	{ .temp_c	= 105.0, .ohm	= 604 },
295 	{ .temp_c	= 110.0, .ohm	= 525 },
296 	{ .temp_c	= 115.0, .ohm	= 457 },
297 	{ .temp_c	= 120.0, .ohm	= 400 },
298 	{ .temp_c	= 125.0, .ohm	= 351 },
299 	{ .temp_c	= 130.0, .ohm	= 308 },
300 	{ .temp_c	= 135.0, .ohm	= 272 },
301 	{ .temp_c	= 140.0, .ohm	= 240 },
302 	{ .temp_c	= 145.0, .ohm	= 213 },
303 	{ .temp_c	= 150.0, .ohm	= 189 },
304 	{ .temp_c	= 155.0, .ohm	= 168 },
305 };
306 
307 struct ntc_type {
308 	const struct ntc_compensation *comp;
309 	int n_comp;
310 };
311 
312 #define NTC_TYPE(ntc, compensation) \
313 [(ntc)] = { .comp = (compensation), .n_comp = ARRAY_SIZE(compensation) }
314 
315 static const struct ntc_type ntc_type[] = {
316 	NTC_TYPE(TYPE_B57330V2103, b57330v2103),
317 	NTC_TYPE(TYPE_B57891S0103, b57891s0103),
318 	NTC_TYPE(TYPE_NCPXXWB473,  ncpXXwb473),
319 	NTC_TYPE(TYPE_NCPXXWF104,  ncpXXwf104),
320 	NTC_TYPE(TYPE_NCPXXWL333,  ncpXXwl333),
321 	NTC_TYPE(TYPE_NCPXXXH103,  ncpXXxh103),
322 };
323 
324 /*
325  * pullup_uV, pullup_ohm, pulldown_ohm, and connect are required.
326  *
327  * How to setup pullup_ohm, pulldown_ohm, and connect is
328  * described at Documentation/hwmon/ntc_thermistor.rst
329  *
330  * pullup/down_ohm: 0 for infinite / not-connected
331  *
332  * chan: iio_channel pointer to communicate with the ADC which the
333  * thermistor is using for conversion of the analog values.
334  */
335 struct ntc_data {
336 	const struct ntc_compensation *comp;
337 	int n_comp;
338 	unsigned int pullup_uv;
339 	unsigned int pullup_ohm;
340 	unsigned int pulldown_ohm;
341 	enum { NTC_CONNECTED_POSITIVE, NTC_CONNECTED_GROUND } connect;
342 	struct iio_channel *chan;
343 };
344 
ntc_adc_iio_read(struct ntc_data * data)345 static int ntc_adc_iio_read(struct ntc_data *data)
346 {
347 	struct iio_channel *channel = data->chan;
348 	int uv, ret;
349 
350 	ret = iio_read_channel_processed_scale(channel, &uv, 1000);
351 	if (ret < 0) {
352 		int raw;
353 
354 		/*
355 		 * This fallback uses a raw read and then
356 		 * assumes the ADC is 12 bits, scaling with
357 		 * a factor 1000 to get to microvolts.
358 		 */
359 		ret = iio_read_channel_raw(channel, &raw);
360 		if (ret < 0) {
361 			pr_err("read channel() error: %d\n", ret);
362 			return ret;
363 		}
364 		ret = iio_convert_raw_to_processed(channel, raw, &uv, 1000);
365 		if (ret < 0) {
366 			/* Assume 12 bit ADC with vref at pullup_uv */
367 			uv = (data->pullup_uv * (s64)raw) >> 12;
368 		}
369 	}
370 
371 	return uv;
372 }
373 
div64_u64_safe(u64 dividend,u64 divisor)374 static inline u64 div64_u64_safe(u64 dividend, u64 divisor)
375 {
376 	if (divisor == 0 && dividend == 0)
377 		return 0;
378 	if (divisor == 0)
379 		return UINT_MAX;
380 	return div64_u64(dividend, divisor);
381 }
382 
get_ohm_of_thermistor(struct ntc_data * data,unsigned int uv)383 static int get_ohm_of_thermistor(struct ntc_data *data, unsigned int uv)
384 {
385 	u32 puv = data->pullup_uv;
386 	u64 n, puo, pdo;
387 	puo = data->pullup_ohm;
388 	pdo = data->pulldown_ohm;
389 
390 	if (uv == 0)
391 		return (data->connect == NTC_CONNECTED_POSITIVE) ?
392 			INT_MAX : 0;
393 	if (uv >= puv)
394 		return (data->connect == NTC_CONNECTED_POSITIVE) ?
395 			0 : INT_MAX;
396 
397 	if (data->connect == NTC_CONNECTED_POSITIVE && puo == 0)
398 		n = div_u64(pdo * (puv - uv), uv);
399 	else if (data->connect == NTC_CONNECTED_GROUND && pdo == 0)
400 		n = div_u64(puo * uv, puv - uv);
401 	else if (data->connect == NTC_CONNECTED_POSITIVE)
402 		n = div64_u64_safe(pdo * puo * (puv - uv),
403 				puo * uv - pdo * (puv - uv));
404 	else
405 		n = div64_u64_safe(pdo * puo * uv, pdo * (puv - uv) - puo * uv);
406 
407 	if (n > INT_MAX)
408 		n = INT_MAX;
409 	return n;
410 }
411 
lookup_comp(struct ntc_data * data,unsigned int ohm,int * i_low,int * i_high)412 static void lookup_comp(struct ntc_data *data, unsigned int ohm,
413 			int *i_low, int *i_high)
414 {
415 	int start, end, mid;
416 
417 	/*
418 	 * Handle special cases: Resistance is higher than or equal to
419 	 * resistance in first table entry, or resistance is lower or equal
420 	 * to resistance in last table entry.
421 	 * In these cases, return i_low == i_high, either pointing to the
422 	 * beginning or to the end of the table depending on the condition.
423 	 */
424 	if (ohm >= data->comp[0].ohm) {
425 		*i_low = 0;
426 		*i_high = 0;
427 		return;
428 	}
429 	if (ohm <= data->comp[data->n_comp - 1].ohm) {
430 		*i_low = data->n_comp - 1;
431 		*i_high = data->n_comp - 1;
432 		return;
433 	}
434 
435 	/* Do a binary search on compensation table */
436 	start = 0;
437 	end = data->n_comp;
438 	while (start < end) {
439 		mid = start + (end - start) / 2;
440 		/*
441 		 * start <= mid < end
442 		 * data->comp[start].ohm > ohm >= data->comp[end].ohm
443 		 *
444 		 * We could check for "ohm == data->comp[mid].ohm" here, but
445 		 * that is a quite unlikely condition, and we would have to
446 		 * check again after updating start. Check it at the end instead
447 		 * for simplicity.
448 		 */
449 		if (ohm >= data->comp[mid].ohm) {
450 			end = mid;
451 		} else {
452 			start = mid + 1;
453 			/*
454 			 * ohm >= data->comp[start].ohm might be true here,
455 			 * since we set start to mid + 1. In that case, we are
456 			 * done. We could keep going, but the condition is quite
457 			 * likely to occur, so it is worth checking for it.
458 			 */
459 			if (ohm >= data->comp[start].ohm)
460 				end = start;
461 		}
462 		/*
463 		 * start <= end
464 		 * data->comp[start].ohm >= ohm >= data->comp[end].ohm
465 		 */
466 	}
467 	/*
468 	 * start == end
469 	 * ohm >= data->comp[end].ohm
470 	 */
471 	*i_low = end;
472 	if (ohm == data->comp[end].ohm)
473 		*i_high = end;
474 	else
475 		*i_high = end - 1;
476 }
477 
get_temp_mc(struct ntc_data * data,unsigned int ohm)478 static int get_temp_mc(struct ntc_data *data, unsigned int ohm)
479 {
480 	int low, high;
481 	int temp;
482 
483 	lookup_comp(data, ohm, &low, &high);
484 	/*
485 	 * First multiplying the table temperatures with 1000 to get to
486 	 * millicentigrades (which is what we want) and then interpolating
487 	 * will give the best precision.
488 	 */
489 	temp = fixp_linear_interpolate(data->comp[low].ohm,
490 				       data->comp[low].temp_c * 1000,
491 				       data->comp[high].ohm,
492 				       data->comp[high].temp_c * 1000,
493 				       ohm);
494 	return temp;
495 }
496 
ntc_thermistor_get_ohm(struct ntc_data * data)497 static int ntc_thermistor_get_ohm(struct ntc_data *data)
498 {
499 	int read_uv;
500 
501 	read_uv = ntc_adc_iio_read(data);
502 	if (read_uv < 0)
503 		return read_uv;
504 	return get_ohm_of_thermistor(data, read_uv);
505 }
506 
ntc_read(struct device * dev,enum hwmon_sensor_types type,u32 attr,int channel,long * val)507 static int ntc_read(struct device *dev, enum hwmon_sensor_types type,
508 		    u32 attr, int channel, long *val)
509 {
510 	struct ntc_data *data = dev_get_drvdata(dev);
511 	int ohm;
512 
513 	switch (type) {
514 	case hwmon_temp:
515 		switch (attr) {
516 		case hwmon_temp_input:
517 			ohm = ntc_thermistor_get_ohm(data);
518 			if (ohm < 0)
519 				return ohm;
520 			*val = get_temp_mc(data, ohm);
521 			return 0;
522 		case hwmon_temp_type:
523 			*val = 4;
524 			return 0;
525 		default:
526 			break;
527 		}
528 		break;
529 	default:
530 		break;
531 	}
532 	return -EINVAL;
533 }
534 
ntc_is_visible(const void * data,enum hwmon_sensor_types type,u32 attr,int channel)535 static umode_t ntc_is_visible(const void *data, enum hwmon_sensor_types type,
536 			      u32 attr, int channel)
537 {
538 	if (type == hwmon_temp) {
539 		switch (attr) {
540 		case hwmon_temp_input:
541 		case hwmon_temp_type:
542 			return 0444;
543 		default:
544 			break;
545 		}
546 	}
547 	return 0;
548 }
549 
550 static const struct hwmon_channel_info * const ntc_info[] = {
551 	HWMON_CHANNEL_INFO(chip, HWMON_C_REGISTER_TZ),
552 	HWMON_CHANNEL_INFO(temp, HWMON_T_INPUT | HWMON_T_TYPE),
553 	NULL
554 };
555 
556 static const struct hwmon_ops ntc_hwmon_ops = {
557 	.is_visible = ntc_is_visible,
558 	.read = ntc_read,
559 };
560 
561 static const struct hwmon_chip_info ntc_chip_info = {
562 	.ops = &ntc_hwmon_ops,
563 	.info = ntc_info,
564 };
565 
ntc_thermistor_parse_props(struct device * dev,struct ntc_data * data)566 static int ntc_thermistor_parse_props(struct device *dev,
567 				      struct ntc_data *data)
568 {
569 	struct iio_channel *chan;
570 	enum iio_chan_type type;
571 	int ret;
572 
573 	chan = devm_iio_channel_get(dev, NULL);
574 	if (IS_ERR(chan))
575 		return PTR_ERR(chan);
576 
577 	ret = iio_get_channel_type(chan, &type);
578 	if (ret < 0)
579 		return ret;
580 
581 	if (type != IIO_VOLTAGE)
582 		return -EINVAL;
583 
584 	ret = device_property_read_u32(dev, "pullup-uv", &data->pullup_uv);
585 	if (ret)
586 		return dev_err_probe(dev,  ret, "pullup-uv not specified\n");
587 
588 	ret = device_property_read_u32(dev, "pullup-ohm", &data->pullup_ohm);
589 	if (ret)
590 		return dev_err_probe(dev,  ret, "pullup-ohm not specified\n");
591 
592 	ret = device_property_read_u32(dev, "pulldown-ohm", &data->pulldown_ohm);
593 	if (ret)
594 		return dev_err_probe(dev,  ret, "pulldown-ohm not specified\n");
595 
596 	if (device_property_read_bool(dev, "connected-positive"))
597 		data->connect = NTC_CONNECTED_POSITIVE;
598 	else /* status change should be possible if not always on. */
599 		data->connect = NTC_CONNECTED_GROUND;
600 
601 	data->chan = chan;
602 
603 	return 0;
604 }
605 
ntc_thermistor_probe(struct platform_device * pdev)606 static int ntc_thermistor_probe(struct platform_device *pdev)
607 {
608 	struct device *dev = &pdev->dev;
609 	const struct platform_device_id *pdev_id;
610 	struct device *hwmon_dev;
611 	struct ntc_data *data;
612 	int ret;
613 
614 	data = devm_kzalloc(dev, sizeof(*data), GFP_KERNEL);
615 	if (!data)
616 		return -ENOMEM;
617 
618 	ret = ntc_thermistor_parse_props(dev, data);
619 	if (ret)
620 		return ret;
621 
622 	if (data->pullup_uv == 0 ||
623 	    (data->pullup_ohm == 0 && data->connect ==
624 	     NTC_CONNECTED_GROUND) ||
625 	    (data->pulldown_ohm == 0 && data->connect ==
626 	     NTC_CONNECTED_POSITIVE) ||
627 	    (data->connect != NTC_CONNECTED_POSITIVE &&
628 	     data->connect != NTC_CONNECTED_GROUND)) {
629 		dev_err(dev, "Required data to use NTC driver not supplied.\n");
630 		return -EINVAL;
631 	}
632 
633 	pdev_id = device_get_match_data(dev);
634 
635 	if (pdev_id->driver_data >= ARRAY_SIZE(ntc_type)) {
636 		dev_err(dev, "Unknown device type: %lu(%s)\n",
637 				pdev_id->driver_data, pdev_id->name);
638 		return -EINVAL;
639 	}
640 
641 	data->comp   = ntc_type[pdev_id->driver_data].comp;
642 	data->n_comp = ntc_type[pdev_id->driver_data].n_comp;
643 
644 	hwmon_dev = devm_hwmon_device_register_with_info(dev, pdev_id->name,
645 							 data, &ntc_chip_info,
646 							 NULL);
647 	if (IS_ERR(hwmon_dev)) {
648 		dev_err(dev, "unable to register as hwmon device.\n");
649 		return PTR_ERR(hwmon_dev);
650 	}
651 
652 	dev_info(dev, "Thermistor type: %s successfully probed.\n",
653 		 pdev_id->name);
654 
655 	return 0;
656 }
657 
658 static const struct of_device_id ntc_match[] = {
659 	{ .compatible = "epcos,b57330v2103",
660 		.data = &ntc_thermistor_id[NTC_B57330V2103]},
661 	{ .compatible = "epcos,b57891s0103",
662 		.data = &ntc_thermistor_id[NTC_B57891S0103] },
663 	{ .compatible = "murata,ncp03wb473",
664 		.data = &ntc_thermistor_id[NTC_NCP03WB473] },
665 	{ .compatible = "murata,ncp03wf104",
666 		.data = &ntc_thermistor_id[NTC_NCP03WF104] },
667 	{ .compatible = "murata,ncp15wb473",
668 		.data = &ntc_thermistor_id[NTC_NCP15WB473] },
669 	{ .compatible = "murata,ncp15wl333",
670 		.data = &ntc_thermistor_id[NTC_NCP15WL333] },
671 	{ .compatible = "murata,ncp15xh103",
672 		.data = &ntc_thermistor_id[NTC_NCP15XH103] },
673 	{ .compatible = "murata,ncp18wb473",
674 		.data = &ntc_thermistor_id[NTC_NCP18WB473] },
675 	{ .compatible = "murata,ncp21wb473",
676 		.data = &ntc_thermistor_id[NTC_NCP21WB473] },
677 	{ .compatible = "samsung,1404-001221",
678 		.data = &ntc_thermistor_id[NTC_SSG1404001221] },
679 
680 	/* Usage of vendor name "ntc" is deprecated */
681 	{ .compatible = "ntc,ncp03wb473",
682 		.data = &ntc_thermistor_id[NTC_NCP03WB473] },
683 	{ .compatible = "ntc,ncp15wb473",
684 		.data = &ntc_thermistor_id[NTC_NCP15WB473] },
685 	{ .compatible = "ntc,ncp15wl333",
686 		.data = &ntc_thermistor_id[NTC_NCP15WL333] },
687 	{ .compatible = "ntc,ncp18wb473",
688 		.data = &ntc_thermistor_id[NTC_NCP18WB473] },
689 	{ .compatible = "ntc,ncp21wb473",
690 		.data = &ntc_thermistor_id[NTC_NCP21WB473] },
691 	{ },
692 };
693 MODULE_DEVICE_TABLE(of, ntc_match);
694 
695 static struct platform_driver ntc_thermistor_driver = {
696 	.driver = {
697 		.name = "ntc-thermistor",
698 		.of_match_table = ntc_match,
699 	},
700 	.probe = ntc_thermistor_probe,
701 	.id_table = ntc_thermistor_id,
702 };
703 
704 module_platform_driver(ntc_thermistor_driver);
705 
706 MODULE_DESCRIPTION("NTC Thermistor Driver");
707 MODULE_AUTHOR("MyungJoo Ham <myungjoo.ham@samsung.com>");
708 MODULE_LICENSE("GPL");
709 MODULE_ALIAS("platform:ntc-thermistor");
710