aspeed-pwm-tacho.c 29 KB

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  1. // SPDX-License-Identifier: GPL-2.0-or-later
  2. /*
  3. * Copyright (c) 2016 Google, Inc
  4. */
  5. #include <linux/clk.h>
  6. #include <linux/delay.h>
  7. #include <linux/errno.h>
  8. #include <linux/gpio/consumer.h>
  9. #include <linux/hwmon.h>
  10. #include <linux/hwmon-sysfs.h>
  11. #include <linux/io.h>
  12. #include <linux/kernel.h>
  13. #include <linux/module.h>
  14. #include <linux/of.h>
  15. #include <linux/platform_device.h>
  16. #include <linux/regmap.h>
  17. #include <linux/reset.h>
  18. #include <linux/sysfs.h>
  19. #include <linux/thermal.h>
  20. /* ASPEED PWM & FAN Tach Register Definition */
  21. #define ASPEED_PTCR_CTRL 0x00
  22. #define ASPEED_PTCR_CLK_CTRL 0x04
  23. #define ASPEED_PTCR_DUTY0_CTRL 0x08
  24. #define ASPEED_PTCR_DUTY1_CTRL 0x0c
  25. #define ASPEED_PTCR_TYPEM_CTRL 0x10
  26. #define ASPEED_PTCR_TYPEM_CTRL1 0x14
  27. #define ASPEED_PTCR_TYPEN_CTRL 0x18
  28. #define ASPEED_PTCR_TYPEN_CTRL1 0x1c
  29. #define ASPEED_PTCR_TACH_SOURCE 0x20
  30. #define ASPEED_PTCR_TRIGGER 0x28
  31. #define ASPEED_PTCR_RESULT 0x2c
  32. #define ASPEED_PTCR_INTR_CTRL 0x30
  33. #define ASPEED_PTCR_INTR_STS 0x34
  34. #define ASPEED_PTCR_TYPEM_LIMIT 0x38
  35. #define ASPEED_PTCR_TYPEN_LIMIT 0x3C
  36. #define ASPEED_PTCR_CTRL_EXT 0x40
  37. #define ASPEED_PTCR_CLK_CTRL_EXT 0x44
  38. #define ASPEED_PTCR_DUTY2_CTRL 0x48
  39. #define ASPEED_PTCR_DUTY3_CTRL 0x4c
  40. #define ASPEED_PTCR_TYPEO_CTRL 0x50
  41. #define ASPEED_PTCR_TYPEO_CTRL1 0x54
  42. #define ASPEED_PTCR_TACH_SOURCE_EXT 0x60
  43. #define ASPEED_PTCR_TYPEO_LIMIT 0x78
  44. /* ASPEED_PTCR_CTRL : 0x00 - General Control Register */
  45. #define ASPEED_PTCR_CTRL_SET_PWMD_TYPE_PART1 15
  46. #define ASPEED_PTCR_CTRL_SET_PWMD_TYPE_PART2 6
  47. #define ASPEED_PTCR_CTRL_SET_PWMD_TYPE_MASK (BIT(7) | BIT(15))
  48. #define ASPEED_PTCR_CTRL_SET_PWMC_TYPE_PART1 14
  49. #define ASPEED_PTCR_CTRL_SET_PWMC_TYPE_PART2 5
  50. #define ASPEED_PTCR_CTRL_SET_PWMC_TYPE_MASK (BIT(6) | BIT(14))
  51. #define ASPEED_PTCR_CTRL_SET_PWMB_TYPE_PART1 13
  52. #define ASPEED_PTCR_CTRL_SET_PWMB_TYPE_PART2 4
  53. #define ASPEED_PTCR_CTRL_SET_PWMB_TYPE_MASK (BIT(5) | BIT(13))
  54. #define ASPEED_PTCR_CTRL_SET_PWMA_TYPE_PART1 12
  55. #define ASPEED_PTCR_CTRL_SET_PWMA_TYPE_PART2 3
  56. #define ASPEED_PTCR_CTRL_SET_PWMA_TYPE_MASK (BIT(4) | BIT(12))
  57. #define ASPEED_PTCR_CTRL_FAN_NUM_EN(x) BIT(16 + (x))
  58. #define ASPEED_PTCR_CTRL_PWMD_EN BIT(11)
  59. #define ASPEED_PTCR_CTRL_PWMC_EN BIT(10)
  60. #define ASPEED_PTCR_CTRL_PWMB_EN BIT(9)
  61. #define ASPEED_PTCR_CTRL_PWMA_EN BIT(8)
  62. #define ASPEED_PTCR_CTRL_CLK_SRC BIT(1)
  63. #define ASPEED_PTCR_CTRL_CLK_EN BIT(0)
  64. /* ASPEED_PTCR_CLK_CTRL : 0x04 - Clock Control Register */
  65. /* TYPE N */
  66. #define ASPEED_PTCR_CLK_CTRL_TYPEN_MASK GENMASK(31, 16)
  67. #define ASPEED_PTCR_CLK_CTRL_TYPEN_UNIT 24
  68. #define ASPEED_PTCR_CLK_CTRL_TYPEN_H 20
  69. #define ASPEED_PTCR_CLK_CTRL_TYPEN_L 16
  70. /* TYPE M */
  71. #define ASPEED_PTCR_CLK_CTRL_TYPEM_MASK GENMASK(15, 0)
  72. #define ASPEED_PTCR_CLK_CTRL_TYPEM_UNIT 8
  73. #define ASPEED_PTCR_CLK_CTRL_TYPEM_H 4
  74. #define ASPEED_PTCR_CLK_CTRL_TYPEM_L 0
  75. /*
  76. * ASPEED_PTCR_DUTY_CTRL/1/2/3 : 0x08/0x0C/0x48/0x4C - PWM-FAN duty control
  77. * 0/1/2/3 register
  78. */
  79. #define DUTY_CTRL_PWM2_FALL_POINT 24
  80. #define DUTY_CTRL_PWM2_RISE_POINT 16
  81. #define DUTY_CTRL_PWM2_RISE_FALL_MASK GENMASK(31, 16)
  82. #define DUTY_CTRL_PWM1_FALL_POINT 8
  83. #define DUTY_CTRL_PWM1_RISE_POINT 0
  84. #define DUTY_CTRL_PWM1_RISE_FALL_MASK GENMASK(15, 0)
  85. /* ASPEED_PTCR_TYPEM_CTRL : 0x10/0x18/0x50 - Type M/N/O Ctrl 0 Register */
  86. #define TYPE_CTRL_FAN_MASK (GENMASK(5, 1) | GENMASK(31, 16))
  87. #define TYPE_CTRL_FAN1_MASK GENMASK(31, 0)
  88. #define TYPE_CTRL_FAN_PERIOD 16
  89. #define TYPE_CTRL_FAN_MODE 4
  90. #define TYPE_CTRL_FAN_DIVISION 1
  91. #define TYPE_CTRL_FAN_TYPE_EN 1
  92. /* ASPEED_PTCR_TACH_SOURCE : 0x20/0x60 - Tach Source Register */
  93. /* bit [0,1] at 0x20, bit [2] at 0x60 */
  94. #define TACH_PWM_SOURCE_BIT01(x) ((x) * 2)
  95. #define TACH_PWM_SOURCE_BIT2(x) ((x) * 2)
  96. #define TACH_PWM_SOURCE_MASK_BIT01(x) (0x3 << ((x) * 2))
  97. #define TACH_PWM_SOURCE_MASK_BIT2(x) BIT((x) * 2)
  98. /* ASPEED_PTCR_RESULT : 0x2c - Result Register */
  99. #define RESULT_STATUS_MASK BIT(31)
  100. #define RESULT_VALUE_MASK 0xfffff
  101. /* ASPEED_PTCR_CTRL_EXT : 0x40 - General Control Extension #1 Register */
  102. #define ASPEED_PTCR_CTRL_SET_PWMH_TYPE_PART1 15
  103. #define ASPEED_PTCR_CTRL_SET_PWMH_TYPE_PART2 6
  104. #define ASPEED_PTCR_CTRL_SET_PWMH_TYPE_MASK (BIT(7) | BIT(15))
  105. #define ASPEED_PTCR_CTRL_SET_PWMG_TYPE_PART1 14
  106. #define ASPEED_PTCR_CTRL_SET_PWMG_TYPE_PART2 5
  107. #define ASPEED_PTCR_CTRL_SET_PWMG_TYPE_MASK (BIT(6) | BIT(14))
  108. #define ASPEED_PTCR_CTRL_SET_PWMF_TYPE_PART1 13
  109. #define ASPEED_PTCR_CTRL_SET_PWMF_TYPE_PART2 4
  110. #define ASPEED_PTCR_CTRL_SET_PWMF_TYPE_MASK (BIT(5) | BIT(13))
  111. #define ASPEED_PTCR_CTRL_SET_PWME_TYPE_PART1 12
  112. #define ASPEED_PTCR_CTRL_SET_PWME_TYPE_PART2 3
  113. #define ASPEED_PTCR_CTRL_SET_PWME_TYPE_MASK (BIT(4) | BIT(12))
  114. #define ASPEED_PTCR_CTRL_PWMH_EN BIT(11)
  115. #define ASPEED_PTCR_CTRL_PWMG_EN BIT(10)
  116. #define ASPEED_PTCR_CTRL_PWMF_EN BIT(9)
  117. #define ASPEED_PTCR_CTRL_PWME_EN BIT(8)
  118. /* ASPEED_PTCR_CLK_EXT_CTRL : 0x44 - Clock Control Extension #1 Register */
  119. /* TYPE O */
  120. #define ASPEED_PTCR_CLK_CTRL_TYPEO_MASK GENMASK(15, 0)
  121. #define ASPEED_PTCR_CLK_CTRL_TYPEO_UNIT 8
  122. #define ASPEED_PTCR_CLK_CTRL_TYPEO_H 4
  123. #define ASPEED_PTCR_CLK_CTRL_TYPEO_L 0
  124. #define PWM_MAX 255
  125. #define BOTH_EDGES 0x02 /* 10b */
  126. #define M_PWM_DIV_H 0x00
  127. #define M_PWM_DIV_L 0x05
  128. #define M_PWM_PERIOD 0x5F
  129. #define M_TACH_CLK_DIV 0x00
  130. /*
  131. * 5:4 Type N fan tach mode selection bit:
  132. * 00: falling
  133. * 01: rising
  134. * 10: both
  135. * 11: reserved.
  136. */
  137. #define M_TACH_MODE 0x02 /* 10b */
  138. #define M_TACH_UNIT 0x0420
  139. #define INIT_FAN_CTRL 0xFF
  140. /* How long we sleep in us while waiting for an RPM result. */
  141. #define ASPEED_RPM_STATUS_SLEEP_USEC 500
  142. #define MAX_CDEV_NAME_LEN 16
  143. #define MAX_ASPEED_FAN_TACH_CHANNELS 16
  144. struct aspeed_cooling_device {
  145. char name[16];
  146. struct aspeed_pwm_tacho_data *priv;
  147. struct thermal_cooling_device *tcdev;
  148. int pwm_port;
  149. u8 *cooling_levels;
  150. u8 max_state;
  151. u8 cur_state;
  152. };
  153. struct aspeed_pwm_tacho_data {
  154. struct regmap *regmap;
  155. struct reset_control *rst;
  156. unsigned long clk_freq;
  157. bool pwm_present[8];
  158. bool fan_tach_present[MAX_ASPEED_FAN_TACH_CHANNELS];
  159. u8 type_pwm_clock_unit[3];
  160. u8 type_pwm_clock_division_h[3];
  161. u8 type_pwm_clock_division_l[3];
  162. u8 type_fan_tach_clock_division[3];
  163. u8 type_fan_tach_mode[3];
  164. u16 type_fan_tach_unit[3];
  165. u8 pwm_port_type[8];
  166. u8 pwm_port_fan_ctrl[8];
  167. u8 fan_tach_ch_source[MAX_ASPEED_FAN_TACH_CHANNELS];
  168. struct aspeed_cooling_device *cdev[8];
  169. const struct attribute_group *groups[3];
  170. /* protects access to shared ASPEED_PTCR_RESULT */
  171. struct mutex tach_lock;
  172. };
  173. enum type { TYPEM, TYPEN, TYPEO };
  174. struct type_params {
  175. u32 l_value;
  176. u32 h_value;
  177. u32 unit_value;
  178. u32 clk_ctrl_mask;
  179. u32 clk_ctrl_reg;
  180. u32 ctrl_reg;
  181. u32 ctrl_reg1;
  182. };
  183. static const struct type_params type_params[] = {
  184. [TYPEM] = {
  185. .l_value = ASPEED_PTCR_CLK_CTRL_TYPEM_L,
  186. .h_value = ASPEED_PTCR_CLK_CTRL_TYPEM_H,
  187. .unit_value = ASPEED_PTCR_CLK_CTRL_TYPEM_UNIT,
  188. .clk_ctrl_mask = ASPEED_PTCR_CLK_CTRL_TYPEM_MASK,
  189. .clk_ctrl_reg = ASPEED_PTCR_CLK_CTRL,
  190. .ctrl_reg = ASPEED_PTCR_TYPEM_CTRL,
  191. .ctrl_reg1 = ASPEED_PTCR_TYPEM_CTRL1,
  192. },
  193. [TYPEN] = {
  194. .l_value = ASPEED_PTCR_CLK_CTRL_TYPEN_L,
  195. .h_value = ASPEED_PTCR_CLK_CTRL_TYPEN_H,
  196. .unit_value = ASPEED_PTCR_CLK_CTRL_TYPEN_UNIT,
  197. .clk_ctrl_mask = ASPEED_PTCR_CLK_CTRL_TYPEN_MASK,
  198. .clk_ctrl_reg = ASPEED_PTCR_CLK_CTRL,
  199. .ctrl_reg = ASPEED_PTCR_TYPEN_CTRL,
  200. .ctrl_reg1 = ASPEED_PTCR_TYPEN_CTRL1,
  201. },
  202. [TYPEO] = {
  203. .l_value = ASPEED_PTCR_CLK_CTRL_TYPEO_L,
  204. .h_value = ASPEED_PTCR_CLK_CTRL_TYPEO_H,
  205. .unit_value = ASPEED_PTCR_CLK_CTRL_TYPEO_UNIT,
  206. .clk_ctrl_mask = ASPEED_PTCR_CLK_CTRL_TYPEO_MASK,
  207. .clk_ctrl_reg = ASPEED_PTCR_CLK_CTRL_EXT,
  208. .ctrl_reg = ASPEED_PTCR_TYPEO_CTRL,
  209. .ctrl_reg1 = ASPEED_PTCR_TYPEO_CTRL1,
  210. }
  211. };
  212. enum pwm_port { PWMA, PWMB, PWMC, PWMD, PWME, PWMF, PWMG, PWMH };
  213. struct pwm_port_params {
  214. u32 pwm_en;
  215. u32 ctrl_reg;
  216. u32 type_part1;
  217. u32 type_part2;
  218. u32 type_mask;
  219. u32 duty_ctrl_rise_point;
  220. u32 duty_ctrl_fall_point;
  221. u32 duty_ctrl_reg;
  222. u32 duty_ctrl_rise_fall_mask;
  223. };
  224. static const struct pwm_port_params pwm_port_params[] = {
  225. [PWMA] = {
  226. .pwm_en = ASPEED_PTCR_CTRL_PWMA_EN,
  227. .ctrl_reg = ASPEED_PTCR_CTRL,
  228. .type_part1 = ASPEED_PTCR_CTRL_SET_PWMA_TYPE_PART1,
  229. .type_part2 = ASPEED_PTCR_CTRL_SET_PWMA_TYPE_PART2,
  230. .type_mask = ASPEED_PTCR_CTRL_SET_PWMA_TYPE_MASK,
  231. .duty_ctrl_rise_point = DUTY_CTRL_PWM1_RISE_POINT,
  232. .duty_ctrl_fall_point = DUTY_CTRL_PWM1_FALL_POINT,
  233. .duty_ctrl_reg = ASPEED_PTCR_DUTY0_CTRL,
  234. .duty_ctrl_rise_fall_mask = DUTY_CTRL_PWM1_RISE_FALL_MASK,
  235. },
  236. [PWMB] = {
  237. .pwm_en = ASPEED_PTCR_CTRL_PWMB_EN,
  238. .ctrl_reg = ASPEED_PTCR_CTRL,
  239. .type_part1 = ASPEED_PTCR_CTRL_SET_PWMB_TYPE_PART1,
  240. .type_part2 = ASPEED_PTCR_CTRL_SET_PWMB_TYPE_PART2,
  241. .type_mask = ASPEED_PTCR_CTRL_SET_PWMB_TYPE_MASK,
  242. .duty_ctrl_rise_point = DUTY_CTRL_PWM2_RISE_POINT,
  243. .duty_ctrl_fall_point = DUTY_CTRL_PWM2_FALL_POINT,
  244. .duty_ctrl_reg = ASPEED_PTCR_DUTY0_CTRL,
  245. .duty_ctrl_rise_fall_mask = DUTY_CTRL_PWM2_RISE_FALL_MASK,
  246. },
  247. [PWMC] = {
  248. .pwm_en = ASPEED_PTCR_CTRL_PWMC_EN,
  249. .ctrl_reg = ASPEED_PTCR_CTRL,
  250. .type_part1 = ASPEED_PTCR_CTRL_SET_PWMC_TYPE_PART1,
  251. .type_part2 = ASPEED_PTCR_CTRL_SET_PWMC_TYPE_PART2,
  252. .type_mask = ASPEED_PTCR_CTRL_SET_PWMC_TYPE_MASK,
  253. .duty_ctrl_rise_point = DUTY_CTRL_PWM1_RISE_POINT,
  254. .duty_ctrl_fall_point = DUTY_CTRL_PWM1_FALL_POINT,
  255. .duty_ctrl_reg = ASPEED_PTCR_DUTY1_CTRL,
  256. .duty_ctrl_rise_fall_mask = DUTY_CTRL_PWM1_RISE_FALL_MASK,
  257. },
  258. [PWMD] = {
  259. .pwm_en = ASPEED_PTCR_CTRL_PWMD_EN,
  260. .ctrl_reg = ASPEED_PTCR_CTRL,
  261. .type_part1 = ASPEED_PTCR_CTRL_SET_PWMD_TYPE_PART1,
  262. .type_part2 = ASPEED_PTCR_CTRL_SET_PWMD_TYPE_PART2,
  263. .type_mask = ASPEED_PTCR_CTRL_SET_PWMD_TYPE_MASK,
  264. .duty_ctrl_rise_point = DUTY_CTRL_PWM2_RISE_POINT,
  265. .duty_ctrl_fall_point = DUTY_CTRL_PWM2_FALL_POINT,
  266. .duty_ctrl_reg = ASPEED_PTCR_DUTY1_CTRL,
  267. .duty_ctrl_rise_fall_mask = DUTY_CTRL_PWM2_RISE_FALL_MASK,
  268. },
  269. [PWME] = {
  270. .pwm_en = ASPEED_PTCR_CTRL_PWME_EN,
  271. .ctrl_reg = ASPEED_PTCR_CTRL_EXT,
  272. .type_part1 = ASPEED_PTCR_CTRL_SET_PWME_TYPE_PART1,
  273. .type_part2 = ASPEED_PTCR_CTRL_SET_PWME_TYPE_PART2,
  274. .type_mask = ASPEED_PTCR_CTRL_SET_PWME_TYPE_MASK,
  275. .duty_ctrl_rise_point = DUTY_CTRL_PWM1_RISE_POINT,
  276. .duty_ctrl_fall_point = DUTY_CTRL_PWM1_FALL_POINT,
  277. .duty_ctrl_reg = ASPEED_PTCR_DUTY2_CTRL,
  278. .duty_ctrl_rise_fall_mask = DUTY_CTRL_PWM1_RISE_FALL_MASK,
  279. },
  280. [PWMF] = {
  281. .pwm_en = ASPEED_PTCR_CTRL_PWMF_EN,
  282. .ctrl_reg = ASPEED_PTCR_CTRL_EXT,
  283. .type_part1 = ASPEED_PTCR_CTRL_SET_PWMF_TYPE_PART1,
  284. .type_part2 = ASPEED_PTCR_CTRL_SET_PWMF_TYPE_PART2,
  285. .type_mask = ASPEED_PTCR_CTRL_SET_PWMF_TYPE_MASK,
  286. .duty_ctrl_rise_point = DUTY_CTRL_PWM2_RISE_POINT,
  287. .duty_ctrl_fall_point = DUTY_CTRL_PWM2_FALL_POINT,
  288. .duty_ctrl_reg = ASPEED_PTCR_DUTY2_CTRL,
  289. .duty_ctrl_rise_fall_mask = DUTY_CTRL_PWM2_RISE_FALL_MASK,
  290. },
  291. [PWMG] = {
  292. .pwm_en = ASPEED_PTCR_CTRL_PWMG_EN,
  293. .ctrl_reg = ASPEED_PTCR_CTRL_EXT,
  294. .type_part1 = ASPEED_PTCR_CTRL_SET_PWMG_TYPE_PART1,
  295. .type_part2 = ASPEED_PTCR_CTRL_SET_PWMG_TYPE_PART2,
  296. .type_mask = ASPEED_PTCR_CTRL_SET_PWMG_TYPE_MASK,
  297. .duty_ctrl_rise_point = DUTY_CTRL_PWM1_RISE_POINT,
  298. .duty_ctrl_fall_point = DUTY_CTRL_PWM1_FALL_POINT,
  299. .duty_ctrl_reg = ASPEED_PTCR_DUTY3_CTRL,
  300. .duty_ctrl_rise_fall_mask = DUTY_CTRL_PWM1_RISE_FALL_MASK,
  301. },
  302. [PWMH] = {
  303. .pwm_en = ASPEED_PTCR_CTRL_PWMH_EN,
  304. .ctrl_reg = ASPEED_PTCR_CTRL_EXT,
  305. .type_part1 = ASPEED_PTCR_CTRL_SET_PWMH_TYPE_PART1,
  306. .type_part2 = ASPEED_PTCR_CTRL_SET_PWMH_TYPE_PART2,
  307. .type_mask = ASPEED_PTCR_CTRL_SET_PWMH_TYPE_MASK,
  308. .duty_ctrl_rise_point = DUTY_CTRL_PWM2_RISE_POINT,
  309. .duty_ctrl_fall_point = DUTY_CTRL_PWM2_FALL_POINT,
  310. .duty_ctrl_reg = ASPEED_PTCR_DUTY3_CTRL,
  311. .duty_ctrl_rise_fall_mask = DUTY_CTRL_PWM2_RISE_FALL_MASK,
  312. }
  313. };
  314. static int regmap_aspeed_pwm_tacho_reg_write(void *context, unsigned int reg,
  315. unsigned int val)
  316. {
  317. void __iomem *regs = (void __iomem *)context;
  318. writel(val, regs + reg);
  319. return 0;
  320. }
  321. static int regmap_aspeed_pwm_tacho_reg_read(void *context, unsigned int reg,
  322. unsigned int *val)
  323. {
  324. void __iomem *regs = (void __iomem *)context;
  325. *val = readl(regs + reg);
  326. return 0;
  327. }
  328. static const struct regmap_config aspeed_pwm_tacho_regmap_config = {
  329. .reg_bits = 32,
  330. .val_bits = 32,
  331. .reg_stride = 4,
  332. .max_register = ASPEED_PTCR_TYPEO_LIMIT,
  333. .reg_write = regmap_aspeed_pwm_tacho_reg_write,
  334. .reg_read = regmap_aspeed_pwm_tacho_reg_read,
  335. .fast_io = true,
  336. };
  337. static void aspeed_set_clock_enable(struct regmap *regmap, bool val)
  338. {
  339. regmap_update_bits(regmap, ASPEED_PTCR_CTRL,
  340. ASPEED_PTCR_CTRL_CLK_EN,
  341. val ? ASPEED_PTCR_CTRL_CLK_EN : 0);
  342. }
  343. static void aspeed_set_clock_source(struct regmap *regmap, int val)
  344. {
  345. regmap_update_bits(regmap, ASPEED_PTCR_CTRL,
  346. ASPEED_PTCR_CTRL_CLK_SRC,
  347. val ? ASPEED_PTCR_CTRL_CLK_SRC : 0);
  348. }
  349. static void aspeed_set_pwm_clock_values(struct regmap *regmap, u8 type,
  350. u8 div_high, u8 div_low, u8 unit)
  351. {
  352. u32 reg_value = ((div_high << type_params[type].h_value) |
  353. (div_low << type_params[type].l_value) |
  354. (unit << type_params[type].unit_value));
  355. regmap_update_bits(regmap, type_params[type].clk_ctrl_reg,
  356. type_params[type].clk_ctrl_mask, reg_value);
  357. }
  358. static void aspeed_set_pwm_port_enable(struct regmap *regmap, u8 pwm_port,
  359. bool enable)
  360. {
  361. regmap_update_bits(regmap, pwm_port_params[pwm_port].ctrl_reg,
  362. pwm_port_params[pwm_port].pwm_en,
  363. enable ? pwm_port_params[pwm_port].pwm_en : 0);
  364. }
  365. static void aspeed_set_pwm_port_type(struct regmap *regmap,
  366. u8 pwm_port, u8 type)
  367. {
  368. u32 reg_value = (type & 0x1) << pwm_port_params[pwm_port].type_part1;
  369. reg_value |= (type & 0x2) << pwm_port_params[pwm_port].type_part2;
  370. regmap_update_bits(regmap, pwm_port_params[pwm_port].ctrl_reg,
  371. pwm_port_params[pwm_port].type_mask, reg_value);
  372. }
  373. static void aspeed_set_pwm_port_duty_rising_falling(struct regmap *regmap,
  374. u8 pwm_port, u8 rising,
  375. u8 falling)
  376. {
  377. u32 reg_value = (rising <<
  378. pwm_port_params[pwm_port].duty_ctrl_rise_point);
  379. reg_value |= (falling <<
  380. pwm_port_params[pwm_port].duty_ctrl_fall_point);
  381. regmap_update_bits(regmap, pwm_port_params[pwm_port].duty_ctrl_reg,
  382. pwm_port_params[pwm_port].duty_ctrl_rise_fall_mask,
  383. reg_value);
  384. }
  385. static void aspeed_set_tacho_type_enable(struct regmap *regmap, u8 type,
  386. bool enable)
  387. {
  388. regmap_update_bits(regmap, type_params[type].ctrl_reg,
  389. TYPE_CTRL_FAN_TYPE_EN,
  390. enable ? TYPE_CTRL_FAN_TYPE_EN : 0);
  391. }
  392. static void aspeed_set_tacho_type_values(struct regmap *regmap, u8 type,
  393. u8 mode, u16 unit, u8 division)
  394. {
  395. u32 reg_value = ((mode << TYPE_CTRL_FAN_MODE) |
  396. (unit << TYPE_CTRL_FAN_PERIOD) |
  397. (division << TYPE_CTRL_FAN_DIVISION));
  398. regmap_update_bits(regmap, type_params[type].ctrl_reg,
  399. TYPE_CTRL_FAN_MASK, reg_value);
  400. regmap_update_bits(regmap, type_params[type].ctrl_reg1,
  401. TYPE_CTRL_FAN1_MASK, unit << 16);
  402. }
  403. static void aspeed_set_fan_tach_ch_enable(struct regmap *regmap, u8 fan_tach_ch,
  404. bool enable)
  405. {
  406. regmap_update_bits(regmap, ASPEED_PTCR_CTRL,
  407. ASPEED_PTCR_CTRL_FAN_NUM_EN(fan_tach_ch),
  408. enable ?
  409. ASPEED_PTCR_CTRL_FAN_NUM_EN(fan_tach_ch) : 0);
  410. }
  411. static void aspeed_set_fan_tach_ch_source(struct regmap *regmap, u8 fan_tach_ch,
  412. u8 fan_tach_ch_source)
  413. {
  414. u32 reg_value1 = ((fan_tach_ch_source & 0x3) <<
  415. TACH_PWM_SOURCE_BIT01(fan_tach_ch));
  416. u32 reg_value2 = (((fan_tach_ch_source & 0x4) >> 2) <<
  417. TACH_PWM_SOURCE_BIT2(fan_tach_ch));
  418. regmap_update_bits(regmap, ASPEED_PTCR_TACH_SOURCE,
  419. TACH_PWM_SOURCE_MASK_BIT01(fan_tach_ch),
  420. reg_value1);
  421. regmap_update_bits(regmap, ASPEED_PTCR_TACH_SOURCE_EXT,
  422. TACH_PWM_SOURCE_MASK_BIT2(fan_tach_ch),
  423. reg_value2);
  424. }
  425. static void aspeed_set_pwm_port_fan_ctrl(struct aspeed_pwm_tacho_data *priv,
  426. u8 index, u8 fan_ctrl)
  427. {
  428. u16 period, dc_time_on;
  429. period = priv->type_pwm_clock_unit[priv->pwm_port_type[index]];
  430. period += 1;
  431. dc_time_on = (fan_ctrl * period) / PWM_MAX;
  432. if (dc_time_on == 0) {
  433. aspeed_set_pwm_port_enable(priv->regmap, index, false);
  434. } else {
  435. if (dc_time_on == period)
  436. dc_time_on = 0;
  437. aspeed_set_pwm_port_duty_rising_falling(priv->regmap, index, 0,
  438. dc_time_on);
  439. aspeed_set_pwm_port_enable(priv->regmap, index, true);
  440. }
  441. }
  442. static u32 aspeed_get_fan_tach_ch_measure_period(struct aspeed_pwm_tacho_data
  443. *priv, u8 type)
  444. {
  445. u32 clk;
  446. u16 tacho_unit;
  447. u8 clk_unit, div_h, div_l, tacho_div;
  448. clk = priv->clk_freq;
  449. clk_unit = priv->type_pwm_clock_unit[type];
  450. div_h = priv->type_pwm_clock_division_h[type];
  451. div_h = 0x1 << div_h;
  452. div_l = priv->type_pwm_clock_division_l[type];
  453. if (div_l == 0)
  454. div_l = 1;
  455. else
  456. div_l = div_l * 2;
  457. tacho_unit = priv->type_fan_tach_unit[type];
  458. tacho_div = priv->type_fan_tach_clock_division[type];
  459. tacho_div = 0x4 << (tacho_div * 2);
  460. return clk / (clk_unit * div_h * div_l * tacho_div * tacho_unit);
  461. }
  462. static int aspeed_get_fan_tach_ch_rpm(struct aspeed_pwm_tacho_data *priv,
  463. u8 fan_tach_ch)
  464. {
  465. u32 raw_data, tach_div, clk_source, msec, usec, val;
  466. u8 fan_tach_ch_source, type, mode, both;
  467. int ret;
  468. mutex_lock(&priv->tach_lock);
  469. regmap_write(priv->regmap, ASPEED_PTCR_TRIGGER, 0);
  470. regmap_write(priv->regmap, ASPEED_PTCR_TRIGGER, 0x1 << fan_tach_ch);
  471. fan_tach_ch_source = priv->fan_tach_ch_source[fan_tach_ch];
  472. type = priv->pwm_port_type[fan_tach_ch_source];
  473. msec = (1000 / aspeed_get_fan_tach_ch_measure_period(priv, type));
  474. usec = msec * 1000;
  475. ret = regmap_read_poll_timeout(
  476. priv->regmap,
  477. ASPEED_PTCR_RESULT,
  478. val,
  479. (val & RESULT_STATUS_MASK),
  480. ASPEED_RPM_STATUS_SLEEP_USEC,
  481. usec);
  482. mutex_unlock(&priv->tach_lock);
  483. /* return -ETIMEDOUT if we didn't get an answer. */
  484. if (ret)
  485. return ret;
  486. raw_data = val & RESULT_VALUE_MASK;
  487. tach_div = priv->type_fan_tach_clock_division[type];
  488. /*
  489. * We need the mode to determine if the raw_data is double (from
  490. * counting both edges).
  491. */
  492. mode = priv->type_fan_tach_mode[type];
  493. both = (mode & BOTH_EDGES) ? 1 : 0;
  494. tach_div = (0x4 << both) << (tach_div * 2);
  495. clk_source = priv->clk_freq;
  496. if (raw_data == 0)
  497. return 0;
  498. return (clk_source * 60) / (2 * raw_data * tach_div);
  499. }
  500. static ssize_t pwm_store(struct device *dev, struct device_attribute *attr,
  501. const char *buf, size_t count)
  502. {
  503. struct sensor_device_attribute *sensor_attr = to_sensor_dev_attr(attr);
  504. int index = sensor_attr->index;
  505. int ret;
  506. struct aspeed_pwm_tacho_data *priv = dev_get_drvdata(dev);
  507. long fan_ctrl;
  508. ret = kstrtol(buf, 10, &fan_ctrl);
  509. if (ret != 0)
  510. return ret;
  511. if (fan_ctrl < 0 || fan_ctrl > PWM_MAX)
  512. return -EINVAL;
  513. if (priv->pwm_port_fan_ctrl[index] == fan_ctrl)
  514. return count;
  515. priv->pwm_port_fan_ctrl[index] = fan_ctrl;
  516. aspeed_set_pwm_port_fan_ctrl(priv, index, fan_ctrl);
  517. return count;
  518. }
  519. static ssize_t pwm_show(struct device *dev, struct device_attribute *attr,
  520. char *buf)
  521. {
  522. struct sensor_device_attribute *sensor_attr = to_sensor_dev_attr(attr);
  523. int index = sensor_attr->index;
  524. struct aspeed_pwm_tacho_data *priv = dev_get_drvdata(dev);
  525. return sprintf(buf, "%u\n", priv->pwm_port_fan_ctrl[index]);
  526. }
  527. static ssize_t rpm_show(struct device *dev, struct device_attribute *attr,
  528. char *buf)
  529. {
  530. struct sensor_device_attribute *sensor_attr = to_sensor_dev_attr(attr);
  531. int index = sensor_attr->index;
  532. int rpm;
  533. struct aspeed_pwm_tacho_data *priv = dev_get_drvdata(dev);
  534. rpm = aspeed_get_fan_tach_ch_rpm(priv, index);
  535. if (rpm < 0)
  536. return rpm;
  537. return sprintf(buf, "%d\n", rpm);
  538. }
  539. static umode_t pwm_is_visible(struct kobject *kobj,
  540. struct attribute *a, int index)
  541. {
  542. struct device *dev = kobj_to_dev(kobj);
  543. struct aspeed_pwm_tacho_data *priv = dev_get_drvdata(dev);
  544. if (!priv->pwm_present[index])
  545. return 0;
  546. return a->mode;
  547. }
  548. static umode_t fan_dev_is_visible(struct kobject *kobj,
  549. struct attribute *a, int index)
  550. {
  551. struct device *dev = kobj_to_dev(kobj);
  552. struct aspeed_pwm_tacho_data *priv = dev_get_drvdata(dev);
  553. if (!priv->fan_tach_present[index])
  554. return 0;
  555. return a->mode;
  556. }
  557. static SENSOR_DEVICE_ATTR_RW(pwm1, pwm, 0);
  558. static SENSOR_DEVICE_ATTR_RW(pwm2, pwm, 1);
  559. static SENSOR_DEVICE_ATTR_RW(pwm3, pwm, 2);
  560. static SENSOR_DEVICE_ATTR_RW(pwm4, pwm, 3);
  561. static SENSOR_DEVICE_ATTR_RW(pwm5, pwm, 4);
  562. static SENSOR_DEVICE_ATTR_RW(pwm6, pwm, 5);
  563. static SENSOR_DEVICE_ATTR_RW(pwm7, pwm, 6);
  564. static SENSOR_DEVICE_ATTR_RW(pwm8, pwm, 7);
  565. static struct attribute *pwm_dev_attrs[] = {
  566. &sensor_dev_attr_pwm1.dev_attr.attr,
  567. &sensor_dev_attr_pwm2.dev_attr.attr,
  568. &sensor_dev_attr_pwm3.dev_attr.attr,
  569. &sensor_dev_attr_pwm4.dev_attr.attr,
  570. &sensor_dev_attr_pwm5.dev_attr.attr,
  571. &sensor_dev_attr_pwm6.dev_attr.attr,
  572. &sensor_dev_attr_pwm7.dev_attr.attr,
  573. &sensor_dev_attr_pwm8.dev_attr.attr,
  574. NULL,
  575. };
  576. static const struct attribute_group pwm_dev_group = {
  577. .attrs = pwm_dev_attrs,
  578. .is_visible = pwm_is_visible,
  579. };
  580. static SENSOR_DEVICE_ATTR_RO(fan1_input, rpm, 0);
  581. static SENSOR_DEVICE_ATTR_RO(fan2_input, rpm, 1);
  582. static SENSOR_DEVICE_ATTR_RO(fan3_input, rpm, 2);
  583. static SENSOR_DEVICE_ATTR_RO(fan4_input, rpm, 3);
  584. static SENSOR_DEVICE_ATTR_RO(fan5_input, rpm, 4);
  585. static SENSOR_DEVICE_ATTR_RO(fan6_input, rpm, 5);
  586. static SENSOR_DEVICE_ATTR_RO(fan7_input, rpm, 6);
  587. static SENSOR_DEVICE_ATTR_RO(fan8_input, rpm, 7);
  588. static SENSOR_DEVICE_ATTR_RO(fan9_input, rpm, 8);
  589. static SENSOR_DEVICE_ATTR_RO(fan10_input, rpm, 9);
  590. static SENSOR_DEVICE_ATTR_RO(fan11_input, rpm, 10);
  591. static SENSOR_DEVICE_ATTR_RO(fan12_input, rpm, 11);
  592. static SENSOR_DEVICE_ATTR_RO(fan13_input, rpm, 12);
  593. static SENSOR_DEVICE_ATTR_RO(fan14_input, rpm, 13);
  594. static SENSOR_DEVICE_ATTR_RO(fan15_input, rpm, 14);
  595. static SENSOR_DEVICE_ATTR_RO(fan16_input, rpm, 15);
  596. static struct attribute *fan_dev_attrs[] = {
  597. &sensor_dev_attr_fan1_input.dev_attr.attr,
  598. &sensor_dev_attr_fan2_input.dev_attr.attr,
  599. &sensor_dev_attr_fan3_input.dev_attr.attr,
  600. &sensor_dev_attr_fan4_input.dev_attr.attr,
  601. &sensor_dev_attr_fan5_input.dev_attr.attr,
  602. &sensor_dev_attr_fan6_input.dev_attr.attr,
  603. &sensor_dev_attr_fan7_input.dev_attr.attr,
  604. &sensor_dev_attr_fan8_input.dev_attr.attr,
  605. &sensor_dev_attr_fan9_input.dev_attr.attr,
  606. &sensor_dev_attr_fan10_input.dev_attr.attr,
  607. &sensor_dev_attr_fan11_input.dev_attr.attr,
  608. &sensor_dev_attr_fan12_input.dev_attr.attr,
  609. &sensor_dev_attr_fan13_input.dev_attr.attr,
  610. &sensor_dev_attr_fan14_input.dev_attr.attr,
  611. &sensor_dev_attr_fan15_input.dev_attr.attr,
  612. &sensor_dev_attr_fan16_input.dev_attr.attr,
  613. NULL
  614. };
  615. static const struct attribute_group fan_dev_group = {
  616. .attrs = fan_dev_attrs,
  617. .is_visible = fan_dev_is_visible,
  618. };
  619. /*
  620. * The clock type is type M :
  621. * The PWM frequency = 24MHz / (type M clock division L bit *
  622. * type M clock division H bit * (type M PWM period bit + 1))
  623. */
  624. static void aspeed_create_type(struct aspeed_pwm_tacho_data *priv)
  625. {
  626. priv->type_pwm_clock_division_h[TYPEM] = M_PWM_DIV_H;
  627. priv->type_pwm_clock_division_l[TYPEM] = M_PWM_DIV_L;
  628. priv->type_pwm_clock_unit[TYPEM] = M_PWM_PERIOD;
  629. aspeed_set_pwm_clock_values(priv->regmap, TYPEM, M_PWM_DIV_H,
  630. M_PWM_DIV_L, M_PWM_PERIOD);
  631. aspeed_set_tacho_type_enable(priv->regmap, TYPEM, true);
  632. priv->type_fan_tach_clock_division[TYPEM] = M_TACH_CLK_DIV;
  633. priv->type_fan_tach_unit[TYPEM] = M_TACH_UNIT;
  634. priv->type_fan_tach_mode[TYPEM] = M_TACH_MODE;
  635. aspeed_set_tacho_type_values(priv->regmap, TYPEM, M_TACH_MODE,
  636. M_TACH_UNIT, M_TACH_CLK_DIV);
  637. }
  638. static void aspeed_create_pwm_port(struct aspeed_pwm_tacho_data *priv,
  639. u8 pwm_port)
  640. {
  641. aspeed_set_pwm_port_enable(priv->regmap, pwm_port, true);
  642. priv->pwm_present[pwm_port] = true;
  643. priv->pwm_port_type[pwm_port] = TYPEM;
  644. aspeed_set_pwm_port_type(priv->regmap, pwm_port, TYPEM);
  645. priv->pwm_port_fan_ctrl[pwm_port] = INIT_FAN_CTRL;
  646. aspeed_set_pwm_port_fan_ctrl(priv, pwm_port, INIT_FAN_CTRL);
  647. }
  648. static int aspeed_create_fan_tach_channel(struct device *dev,
  649. struct aspeed_pwm_tacho_data *priv,
  650. u8 *fan_tach_ch,
  651. int count,
  652. u8 pwm_source)
  653. {
  654. u8 val, index;
  655. for (val = 0; val < count; val++) {
  656. index = fan_tach_ch[val];
  657. if (index >= MAX_ASPEED_FAN_TACH_CHANNELS) {
  658. dev_err(dev, "Invalid Fan Tach input channel %u\n.", index);
  659. return -EINVAL;
  660. }
  661. aspeed_set_fan_tach_ch_enable(priv->regmap, index, true);
  662. priv->fan_tach_present[index] = true;
  663. priv->fan_tach_ch_source[index] = pwm_source;
  664. aspeed_set_fan_tach_ch_source(priv->regmap, index, pwm_source);
  665. }
  666. return 0;
  667. }
  668. static int
  669. aspeed_pwm_cz_get_max_state(struct thermal_cooling_device *tcdev,
  670. unsigned long *state)
  671. {
  672. struct aspeed_cooling_device *cdev = tcdev->devdata;
  673. *state = cdev->max_state;
  674. return 0;
  675. }
  676. static int
  677. aspeed_pwm_cz_get_cur_state(struct thermal_cooling_device *tcdev,
  678. unsigned long *state)
  679. {
  680. struct aspeed_cooling_device *cdev = tcdev->devdata;
  681. *state = cdev->cur_state;
  682. return 0;
  683. }
  684. static int
  685. aspeed_pwm_cz_set_cur_state(struct thermal_cooling_device *tcdev,
  686. unsigned long state)
  687. {
  688. struct aspeed_cooling_device *cdev = tcdev->devdata;
  689. if (state > cdev->max_state)
  690. return -EINVAL;
  691. cdev->cur_state = state;
  692. cdev->priv->pwm_port_fan_ctrl[cdev->pwm_port] =
  693. cdev->cooling_levels[cdev->cur_state];
  694. aspeed_set_pwm_port_fan_ctrl(cdev->priv, cdev->pwm_port,
  695. cdev->cooling_levels[cdev->cur_state]);
  696. return 0;
  697. }
  698. static const struct thermal_cooling_device_ops aspeed_pwm_cool_ops = {
  699. .get_max_state = aspeed_pwm_cz_get_max_state,
  700. .get_cur_state = aspeed_pwm_cz_get_cur_state,
  701. .set_cur_state = aspeed_pwm_cz_set_cur_state,
  702. };
  703. static int aspeed_create_pwm_cooling(struct device *dev,
  704. struct device_node *child,
  705. struct aspeed_pwm_tacho_data *priv,
  706. u32 pwm_port, u8 num_levels)
  707. {
  708. int ret;
  709. struct aspeed_cooling_device *cdev;
  710. cdev = devm_kzalloc(dev, sizeof(*cdev), GFP_KERNEL);
  711. if (!cdev)
  712. return -ENOMEM;
  713. cdev->cooling_levels = devm_kzalloc(dev, num_levels, GFP_KERNEL);
  714. if (!cdev->cooling_levels)
  715. return -ENOMEM;
  716. cdev->max_state = num_levels - 1;
  717. ret = of_property_read_u8_array(child, "cooling-levels",
  718. cdev->cooling_levels,
  719. num_levels);
  720. if (ret) {
  721. dev_err(dev, "Property 'cooling-levels' cannot be read.\n");
  722. return ret;
  723. }
  724. snprintf(cdev->name, MAX_CDEV_NAME_LEN, "%pOFn%d", child, pwm_port);
  725. cdev->tcdev = devm_thermal_of_cooling_device_register(dev, child,
  726. cdev->name, cdev, &aspeed_pwm_cool_ops);
  727. if (IS_ERR(cdev->tcdev))
  728. return PTR_ERR(cdev->tcdev);
  729. cdev->priv = priv;
  730. cdev->pwm_port = pwm_port;
  731. priv->cdev[pwm_port] = cdev;
  732. return 0;
  733. }
  734. static int aspeed_create_fan(struct device *dev,
  735. struct device_node *child,
  736. struct aspeed_pwm_tacho_data *priv)
  737. {
  738. u8 *fan_tach_ch;
  739. u32 pwm_port;
  740. int ret, count;
  741. ret = of_property_read_u32(child, "reg", &pwm_port);
  742. if (ret)
  743. return ret;
  744. if (pwm_port >= ARRAY_SIZE(pwm_port_params))
  745. return -EINVAL;
  746. aspeed_create_pwm_port(priv, (u8)pwm_port);
  747. ret = of_property_count_u8_elems(child, "cooling-levels");
  748. if (ret > 0) {
  749. ret = aspeed_create_pwm_cooling(dev, child, priv, pwm_port,
  750. ret);
  751. if (ret)
  752. return ret;
  753. }
  754. count = of_property_count_u8_elems(child, "aspeed,fan-tach-ch");
  755. if (count < 1)
  756. return -EINVAL;
  757. fan_tach_ch = devm_kcalloc(dev, count, sizeof(*fan_tach_ch),
  758. GFP_KERNEL);
  759. if (!fan_tach_ch)
  760. return -ENOMEM;
  761. ret = of_property_read_u8_array(child, "aspeed,fan-tach-ch",
  762. fan_tach_ch, count);
  763. if (ret)
  764. return ret;
  765. ret = aspeed_create_fan_tach_channel(dev, priv, fan_tach_ch, count, pwm_port);
  766. if (ret)
  767. return ret;
  768. return 0;
  769. }
  770. static void aspeed_pwm_tacho_remove(void *data)
  771. {
  772. struct aspeed_pwm_tacho_data *priv = data;
  773. reset_control_assert(priv->rst);
  774. }
  775. static int aspeed_pwm_tacho_probe(struct platform_device *pdev)
  776. {
  777. struct device *dev = &pdev->dev;
  778. struct device_node *np;
  779. struct aspeed_pwm_tacho_data *priv;
  780. void __iomem *regs;
  781. struct device *hwmon;
  782. struct clk *clk;
  783. int ret;
  784. np = dev->of_node;
  785. regs = devm_platform_ioremap_resource(pdev, 0);
  786. if (IS_ERR(regs))
  787. return PTR_ERR(regs);
  788. priv = devm_kzalloc(dev, sizeof(*priv), GFP_KERNEL);
  789. if (!priv)
  790. return -ENOMEM;
  791. mutex_init(&priv->tach_lock);
  792. priv->regmap = devm_regmap_init(dev, NULL, (__force void *)regs,
  793. &aspeed_pwm_tacho_regmap_config);
  794. if (IS_ERR(priv->regmap))
  795. return PTR_ERR(priv->regmap);
  796. priv->rst = devm_reset_control_get_exclusive(dev, NULL);
  797. if (IS_ERR(priv->rst)) {
  798. dev_err(dev,
  799. "missing or invalid reset controller device tree entry");
  800. return PTR_ERR(priv->rst);
  801. }
  802. reset_control_deassert(priv->rst);
  803. ret = devm_add_action_or_reset(dev, aspeed_pwm_tacho_remove, priv);
  804. if (ret)
  805. return ret;
  806. regmap_write(priv->regmap, ASPEED_PTCR_TACH_SOURCE, 0);
  807. regmap_write(priv->regmap, ASPEED_PTCR_TACH_SOURCE_EXT, 0);
  808. clk = devm_clk_get(dev, NULL);
  809. if (IS_ERR(clk))
  810. return -ENODEV;
  811. priv->clk_freq = clk_get_rate(clk);
  812. aspeed_set_clock_enable(priv->regmap, true);
  813. aspeed_set_clock_source(priv->regmap, 0);
  814. aspeed_create_type(priv);
  815. for_each_child_of_node_scoped(np, child) {
  816. ret = aspeed_create_fan(dev, child, priv);
  817. if (ret)
  818. return ret;
  819. }
  820. priv->groups[0] = &pwm_dev_group;
  821. priv->groups[1] = &fan_dev_group;
  822. priv->groups[2] = NULL;
  823. hwmon = devm_hwmon_device_register_with_groups(dev,
  824. "aspeed_pwm_tacho",
  825. priv, priv->groups);
  826. return PTR_ERR_OR_ZERO(hwmon);
  827. }
  828. static const struct of_device_id of_pwm_tacho_match_table[] = {
  829. { .compatible = "aspeed,ast2400-pwm-tacho", },
  830. { .compatible = "aspeed,ast2500-pwm-tacho", },
  831. {},
  832. };
  833. MODULE_DEVICE_TABLE(of, of_pwm_tacho_match_table);
  834. static struct platform_driver aspeed_pwm_tacho_driver = {
  835. .probe = aspeed_pwm_tacho_probe,
  836. .driver = {
  837. .name = "aspeed_pwm_tacho",
  838. .of_match_table = of_pwm_tacho_match_table,
  839. },
  840. };
  841. module_platform_driver(aspeed_pwm_tacho_driver);
  842. MODULE_AUTHOR("Jaghathiswari Rankappagounder Natarajan <jaghu@google.com>");
  843. MODULE_DESCRIPTION("ASPEED PWM and Fan Tacho device driver");
  844. MODULE_LICENSE("GPL");