da7280.c 34 KB

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  1. // SPDX-License-Identifier: GPL-2.0+
  2. /*
  3. * DA7280 Haptic device driver
  4. *
  5. * Copyright (c) 2020 Dialog Semiconductor.
  6. * Author: Roy Im <Roy.Im.Opensource@diasemi.com>
  7. */
  8. #include <linux/bitfield.h>
  9. #include <linux/bitops.h>
  10. #include <linux/err.h>
  11. #include <linux/i2c.h>
  12. #include <linux/input.h>
  13. #include <linux/interrupt.h>
  14. #include <linux/module.h>
  15. #include <linux/pwm.h>
  16. #include <linux/regmap.h>
  17. #include <linux/workqueue.h>
  18. #include <linux/uaccess.h>
  19. /* Registers */
  20. #define DA7280_IRQ_EVENT1 0x03
  21. #define DA7280_IRQ_EVENT_WARNING_DIAG 0x04
  22. #define DA7280_IRQ_EVENT_SEQ_DIAG 0x05
  23. #define DA7280_IRQ_STATUS1 0x06
  24. #define DA7280_IRQ_MASK1 0x07
  25. #define DA7280_FRQ_LRA_PER_H 0x0A
  26. #define DA7280_FRQ_LRA_PER_L 0x0B
  27. #define DA7280_ACTUATOR1 0x0C
  28. #define DA7280_ACTUATOR2 0x0D
  29. #define DA7280_ACTUATOR3 0x0E
  30. #define DA7280_CALIB_V2I_H 0x0F
  31. #define DA7280_CALIB_V2I_L 0x10
  32. #define DA7280_TOP_CFG1 0x13
  33. #define DA7280_TOP_CFG2 0x14
  34. #define DA7280_TOP_CFG4 0x16
  35. #define DA7280_TOP_INT_CFG1 0x17
  36. #define DA7280_TOP_CTL1 0x22
  37. #define DA7280_TOP_CTL2 0x23
  38. #define DA7280_SEQ_CTL2 0x28
  39. #define DA7280_GPI_0_CTL 0x29
  40. #define DA7280_GPI_1_CTL 0x2A
  41. #define DA7280_GPI_2_CTL 0x2B
  42. #define DA7280_MEM_CTL1 0x2C
  43. #define DA7280_MEM_CTL2 0x2D
  44. #define DA7280_TOP_CFG5 0x6E
  45. #define DA7280_IRQ_MASK2 0x83
  46. #define DA7280_SNP_MEM_99 0xE7
  47. /* Register field */
  48. /* DA7280_IRQ_EVENT1 (Address 0x03) */
  49. #define DA7280_E_SEQ_CONTINUE_MASK BIT(0)
  50. #define DA7280_E_UVLO_MASK BIT(1)
  51. #define DA7280_E_SEQ_DONE_MASK BIT(2)
  52. #define DA7280_E_OVERTEMP_CRIT_MASK BIT(3)
  53. #define DA7280_E_SEQ_FAULT_MASK BIT(4)
  54. #define DA7280_E_WARNING_MASK BIT(5)
  55. #define DA7280_E_ACTUATOR_FAULT_MASK BIT(6)
  56. #define DA7280_E_OC_FAULT_MASK BIT(7)
  57. /* DA7280_IRQ_EVENT_WARNING_DIAG (Address 0x04) */
  58. #define DA7280_E_OVERTEMP_WARN_MASK BIT(3)
  59. #define DA7280_E_MEM_TYPE_MASK BIT(4)
  60. #define DA7280_E_LIM_DRIVE_ACC_MASK BIT(6)
  61. #define DA7280_E_LIM_DRIVE_MASK BIT(7)
  62. /* DA7280_IRQ_EVENT_PAT_DIAG (Address 0x05) */
  63. #define DA7280_E_PWM_FAULT_MASK BIT(5)
  64. #define DA7280_E_MEM_FAULT_MASK BIT(6)
  65. #define DA7280_E_SEQ_ID_FAULT_MASK BIT(7)
  66. /* DA7280_IRQ_STATUS1 (Address 0x06) */
  67. #define DA7280_STA_SEQ_CONTINUE_MASK BIT(0)
  68. #define DA7280_STA_UVLO_VBAT_OK_MASK BIT(1)
  69. #define DA7280_STA_SEQ_DONE_MASK BIT(2)
  70. #define DA7280_STA_OVERTEMP_CRIT_MASK BIT(3)
  71. #define DA7280_STA_SEQ_FAULT_MASK BIT(4)
  72. #define DA7280_STA_WARNING_MASK BIT(5)
  73. #define DA7280_STA_ACTUATOR_MASK BIT(6)
  74. #define DA7280_STA_OC_MASK BIT(7)
  75. /* DA7280_IRQ_MASK1 (Address 0x07) */
  76. #define DA7280_SEQ_CONTINUE_M_MASK BIT(0)
  77. #define DA7280_E_UVLO_M_MASK BIT(1)
  78. #define DA7280_SEQ_DONE_M_MASK BIT(2)
  79. #define DA7280_OVERTEMP_CRIT_M_MASK BIT(3)
  80. #define DA7280_SEQ_FAULT_M_MASK BIT(4)
  81. #define DA7280_WARNING_M_MASK BIT(5)
  82. #define DA7280_ACTUATOR_M_MASK BIT(6)
  83. #define DA7280_OC_M_MASK BIT(7)
  84. /* DA7280_ACTUATOR3 (Address 0x0e) */
  85. #define DA7280_IMAX_MASK GENMASK(4, 0)
  86. /* DA7280_TOP_CFG1 (Address 0x13) */
  87. #define DA7280_AMP_PID_EN_MASK BIT(0)
  88. #define DA7280_RAPID_STOP_EN_MASK BIT(1)
  89. #define DA7280_ACCELERATION_EN_MASK BIT(2)
  90. #define DA7280_FREQ_TRACK_EN_MASK BIT(3)
  91. #define DA7280_BEMF_SENSE_EN_MASK BIT(4)
  92. #define DA7280_ACTUATOR_TYPE_MASK BIT(5)
  93. /* DA7280_TOP_CFG2 (Address 0x14) */
  94. #define DA7280_FULL_BRAKE_THR_MASK GENMASK(3, 0)
  95. #define DA7280_MEM_DATA_SIGNED_MASK BIT(4)
  96. /* DA7280_TOP_CFG4 (Address 0x16) */
  97. #define DA7280_TST_CALIB_IMPEDANCE_DIS_MASK BIT(6)
  98. #define DA7280_V2I_FACTOR_FREEZE_MASK BIT(7)
  99. /* DA7280_TOP_INT_CFG1 (Address 0x17) */
  100. #define DA7280_BEMF_FAULT_LIM_MASK GENMASK(1, 0)
  101. /* DA7280_TOP_CTL1 (Address 0x22) */
  102. #define DA7280_OPERATION_MODE_MASK GENMASK(2, 0)
  103. #define DA7280_STANDBY_EN_MASK BIT(3)
  104. #define DA7280_SEQ_START_MASK BIT(4)
  105. /* DA7280_SEQ_CTL2 (Address 0x28) */
  106. #define DA7280_PS_SEQ_ID_MASK GENMASK(3, 0)
  107. #define DA7280_PS_SEQ_LOOP_MASK GENMASK(7, 4)
  108. /* DA7280_GPIO_0_CTL (Address 0x29) */
  109. #define DA7280_GPI0_POLARITY_MASK GENMASK(1, 0)
  110. #define DA7280_GPI0_MODE_MASK BIT(2)
  111. #define DA7280_GPI0_SEQUENCE_ID_MASK GENMASK(6, 3)
  112. /* DA7280_GPIO_1_CTL (Address 0x2a) */
  113. #define DA7280_GPI1_POLARITY_MASK GENMASK(1, 0)
  114. #define DA7280_GPI1_MODE_MASK BIT(2)
  115. #define DA7280_GPI1_SEQUENCE_ID_MASK GENMASK(6, 3)
  116. /* DA7280_GPIO_2_CTL (Address 0x2b) */
  117. #define DA7280_GPI2_POLARITY_MASK GENMASK(1, 0)
  118. #define DA7280_GPI2_MODE_MASK BIT(2)
  119. #define DA7280_GPI2_SEQUENCE_ID_MASK GENMASK(6, 3)
  120. /* DA7280_MEM_CTL2 (Address 0x2d) */
  121. #define DA7280_WAV_MEM_LOCK_MASK BIT(7)
  122. /* DA7280_TOP_CFG5 (Address 0x6e) */
  123. #define DA7280_V2I_FACTOR_OFFSET_EN_MASK BIT(0)
  124. /* DA7280_IRQ_MASK2 (Address 0x83) */
  125. #define DA7280_ADC_SAT_M_MASK BIT(7)
  126. /* Controls */
  127. #define DA7280_VOLTAGE_RATE_MAX 6000000
  128. #define DA7280_VOLTAGE_RATE_STEP 23400
  129. #define DA7280_NOMMAX_DFT 0x6B
  130. #define DA7280_ABSMAX_DFT 0x78
  131. #define DA7280_IMPD_MAX 1500000000
  132. #define DA7280_IMPD_DEFAULT 22000000
  133. #define DA7280_IMAX_DEFAULT 0x0E
  134. #define DA7280_IMAX_STEP 7200
  135. #define DA7280_IMAX_LIMIT 252000
  136. #define DA7280_RESONT_FREQH_DFT 0x39
  137. #define DA7280_RESONT_FREQL_DFT 0x32
  138. #define DA7280_MIN_RESONAT_FREQ_HZ 50
  139. #define DA7280_MAX_RESONAT_FREQ_HZ 300
  140. #define DA7280_SEQ_ID_MAX 15
  141. #define DA7280_SEQ_LOOP_MAX 15
  142. #define DA7280_GPI_SEQ_ID_DFT 0
  143. #define DA7280_GPI_SEQ_ID_MAX 2
  144. #define DA7280_SNP_MEM_SIZE 100
  145. #define DA7280_SNP_MEM_MAX DA7280_SNP_MEM_99
  146. #define DA7280_IRQ_NUM 3
  147. #define DA7280_SKIP_INIT 0x100
  148. #define DA7280_FF_EFFECT_COUNT_MAX 15
  149. /* Maximum gain is 0x7fff for PWM mode */
  150. #define DA7280_MAX_MAGNITUDE_SHIFT 15
  151. enum da7280_haptic_dev_t {
  152. DA7280_LRA = 0,
  153. DA7280_ERM_BAR = 1,
  154. DA7280_ERM_COIN = 2,
  155. DA7280_DEV_MAX,
  156. };
  157. enum da7280_op_mode {
  158. DA7280_INACTIVE = 0,
  159. DA7280_DRO_MODE = 1,
  160. DA7280_PWM_MODE = 2,
  161. DA7280_RTWM_MODE = 3,
  162. DA7280_ETWM_MODE = 4,
  163. DA7280_OPMODE_MAX,
  164. };
  165. #define DA7280_FF_CONSTANT_DRO 1
  166. #define DA7280_FF_PERIODIC_PWM 2
  167. #define DA7280_FF_PERIODIC_RTWM 1
  168. #define DA7280_FF_PERIODIC_ETWM 2
  169. #define DA7280_FF_PERIODIC_MODE DA7280_RTWM_MODE
  170. #define DA7280_FF_CONSTANT_MODE DA7280_DRO_MODE
  171. enum da7280_custom_effect_param {
  172. DA7280_CUSTOM_SEQ_ID_IDX = 0,
  173. DA7280_CUSTOM_SEQ_LOOP_IDX = 1,
  174. DA7280_CUSTOM_DATA_LEN = 2,
  175. };
  176. enum da7280_custom_gpi_effect_param {
  177. DA7280_CUSTOM_GPI_SEQ_ID_IDX = 0,
  178. DA7280_CUSTOM_GPI_NUM_IDX = 2,
  179. DA7280_CUSTOM_GP_DATA_LEN = 3,
  180. };
  181. struct da7280_gpi_ctl {
  182. u8 seq_id;
  183. u8 mode;
  184. u8 polarity;
  185. };
  186. struct da7280_haptic {
  187. struct regmap *regmap;
  188. struct input_dev *input_dev;
  189. struct device *dev;
  190. struct i2c_client *client;
  191. struct pwm_device *pwm_dev;
  192. struct work_struct work;
  193. int val;
  194. u16 gain;
  195. s16 level;
  196. u8 dev_type;
  197. u8 op_mode;
  198. u8 const_op_mode;
  199. u8 periodic_op_mode;
  200. u16 nommax;
  201. u16 absmax;
  202. u32 imax;
  203. u32 impd;
  204. u32 resonant_freq_h;
  205. u32 resonant_freq_l;
  206. bool bemf_sense_en;
  207. bool freq_track_en;
  208. bool acc_en;
  209. bool rapid_stop_en;
  210. bool amp_pid_en;
  211. u8 ps_seq_id;
  212. u8 ps_seq_loop;
  213. struct da7280_gpi_ctl gpi_ctl[3];
  214. bool mem_update;
  215. u8 snp_mem[DA7280_SNP_MEM_SIZE];
  216. bool active;
  217. bool suspended;
  218. };
  219. static bool da7280_volatile_register(struct device *dev, unsigned int reg)
  220. {
  221. switch (reg) {
  222. case DA7280_IRQ_EVENT1:
  223. case DA7280_IRQ_EVENT_WARNING_DIAG:
  224. case DA7280_IRQ_EVENT_SEQ_DIAG:
  225. case DA7280_IRQ_STATUS1:
  226. case DA7280_TOP_CTL1:
  227. return true;
  228. default:
  229. return false;
  230. }
  231. }
  232. static const struct regmap_config da7280_haptic_regmap_config = {
  233. .reg_bits = 8,
  234. .val_bits = 8,
  235. .max_register = DA7280_SNP_MEM_MAX,
  236. .volatile_reg = da7280_volatile_register,
  237. };
  238. static int da7280_haptic_mem_update(struct da7280_haptic *haptics)
  239. {
  240. unsigned int val;
  241. int error;
  242. /* The patterns should be updated when haptic is not working */
  243. error = regmap_read(haptics->regmap, DA7280_IRQ_STATUS1, &val);
  244. if (error)
  245. return error;
  246. if (val & DA7280_STA_WARNING_MASK) {
  247. dev_warn(haptics->dev,
  248. "Warning! Please check HAPTIC status.\n");
  249. return -EBUSY;
  250. }
  251. /* Patterns are not updated if the lock bit is enabled */
  252. val = 0;
  253. error = regmap_read(haptics->regmap, DA7280_MEM_CTL2, &val);
  254. if (error)
  255. return error;
  256. if (~val & DA7280_WAV_MEM_LOCK_MASK) {
  257. dev_warn(haptics->dev, "Please unlock the bit first\n");
  258. return -EACCES;
  259. }
  260. /* Set to Inactive mode to make sure safety */
  261. error = regmap_update_bits(haptics->regmap,
  262. DA7280_TOP_CTL1,
  263. DA7280_OPERATION_MODE_MASK,
  264. 0);
  265. if (error)
  266. return error;
  267. error = regmap_read(haptics->regmap, DA7280_MEM_CTL1, &val);
  268. if (error)
  269. return error;
  270. return regmap_bulk_write(haptics->regmap, val, haptics->snp_mem,
  271. DA7280_SNP_MEM_MAX - val + 1);
  272. }
  273. static int da7280_haptic_set_pwm(struct da7280_haptic *haptics, bool enabled)
  274. {
  275. struct pwm_state state;
  276. u64 period_mag_multi;
  277. int error;
  278. if (!haptics->gain && enabled) {
  279. dev_err(haptics->dev, "Unable to enable pwm with 0 gain\n");
  280. return -EINVAL;
  281. }
  282. pwm_get_state(haptics->pwm_dev, &state);
  283. state.enabled = enabled;
  284. if (enabled) {
  285. period_mag_multi = (u64)state.period * haptics->gain;
  286. period_mag_multi >>= DA7280_MAX_MAGNITUDE_SHIFT;
  287. /*
  288. * The interpretation of duty cycle depends on the acc_en,
  289. * it should be between 50% and 100% for acc_en = 0.
  290. * See datasheet 'PWM mode' section.
  291. */
  292. if (!haptics->acc_en) {
  293. period_mag_multi += state.period;
  294. period_mag_multi /= 2;
  295. }
  296. state.duty_cycle = period_mag_multi;
  297. }
  298. error = pwm_apply_might_sleep(haptics->pwm_dev, &state);
  299. if (error)
  300. dev_err(haptics->dev, "Failed to apply pwm state: %d\n", error);
  301. return error;
  302. }
  303. static void da7280_haptic_activate(struct da7280_haptic *haptics)
  304. {
  305. int error;
  306. if (haptics->active)
  307. return;
  308. switch (haptics->op_mode) {
  309. case DA7280_DRO_MODE:
  310. /* the valid range check when acc_en is enabled */
  311. if (haptics->acc_en && haptics->level > 0x7F)
  312. haptics->level = 0x7F;
  313. else if (haptics->level > 0xFF)
  314. haptics->level = 0xFF;
  315. /* Set level as a % of ACTUATOR_NOMMAX (nommax) */
  316. error = regmap_write(haptics->regmap, DA7280_TOP_CTL2,
  317. haptics->level);
  318. if (error) {
  319. dev_err(haptics->dev,
  320. "Failed to set level to %d: %d\n",
  321. haptics->level, error);
  322. return;
  323. }
  324. break;
  325. case DA7280_PWM_MODE:
  326. if (da7280_haptic_set_pwm(haptics, true))
  327. return;
  328. break;
  329. case DA7280_RTWM_MODE:
  330. /*
  331. * The pattern will be played by the PS_SEQ_ID and the
  332. * PS_SEQ_LOOP
  333. */
  334. break;
  335. case DA7280_ETWM_MODE:
  336. /*
  337. * The pattern will be played by the GPI[N] state,
  338. * GPI(N)_SEQUENCE_ID and the PS_SEQ_LOOP. See the
  339. * datasheet for the details.
  340. */
  341. break;
  342. default:
  343. dev_err(haptics->dev, "Invalid op mode %d\n", haptics->op_mode);
  344. return;
  345. }
  346. error = regmap_update_bits(haptics->regmap,
  347. DA7280_TOP_CTL1,
  348. DA7280_OPERATION_MODE_MASK,
  349. haptics->op_mode);
  350. if (error) {
  351. dev_err(haptics->dev,
  352. "Failed to set operation mode: %d", error);
  353. return;
  354. }
  355. if (haptics->op_mode == DA7280_PWM_MODE ||
  356. haptics->op_mode == DA7280_RTWM_MODE) {
  357. error = regmap_update_bits(haptics->regmap,
  358. DA7280_TOP_CTL1,
  359. DA7280_SEQ_START_MASK,
  360. DA7280_SEQ_START_MASK);
  361. if (error) {
  362. dev_err(haptics->dev,
  363. "Failed to start sequence: %d\n", error);
  364. return;
  365. }
  366. }
  367. haptics->active = true;
  368. }
  369. static void da7280_haptic_deactivate(struct da7280_haptic *haptics)
  370. {
  371. int error;
  372. if (!haptics->active)
  373. return;
  374. /* Set to Inactive mode */
  375. error = regmap_update_bits(haptics->regmap,
  376. DA7280_TOP_CTL1,
  377. DA7280_OPERATION_MODE_MASK, 0);
  378. if (error) {
  379. dev_err(haptics->dev,
  380. "Failed to clear operation mode: %d", error);
  381. return;
  382. }
  383. switch (haptics->op_mode) {
  384. case DA7280_DRO_MODE:
  385. error = regmap_write(haptics->regmap,
  386. DA7280_TOP_CTL2, 0);
  387. if (error) {
  388. dev_err(haptics->dev,
  389. "Failed to disable DRO mode: %d\n", error);
  390. return;
  391. }
  392. break;
  393. case DA7280_PWM_MODE:
  394. if (da7280_haptic_set_pwm(haptics, false))
  395. return;
  396. break;
  397. case DA7280_RTWM_MODE:
  398. case DA7280_ETWM_MODE:
  399. error = regmap_update_bits(haptics->regmap,
  400. DA7280_TOP_CTL1,
  401. DA7280_SEQ_START_MASK, 0);
  402. if (error) {
  403. dev_err(haptics->dev,
  404. "Failed to disable RTWM/ETWM mode: %d\n",
  405. error);
  406. return;
  407. }
  408. break;
  409. default:
  410. dev_err(haptics->dev, "Invalid op mode %d\n", haptics->op_mode);
  411. return;
  412. }
  413. haptics->active = false;
  414. }
  415. static void da7280_haptic_work(struct work_struct *work)
  416. {
  417. struct da7280_haptic *haptics =
  418. container_of(work, struct da7280_haptic, work);
  419. int val = haptics->val;
  420. if (val)
  421. da7280_haptic_activate(haptics);
  422. else
  423. da7280_haptic_deactivate(haptics);
  424. }
  425. static int da7280_haptics_upload_effect(struct input_dev *dev,
  426. struct ff_effect *effect,
  427. struct ff_effect *old)
  428. {
  429. struct da7280_haptic *haptics = input_get_drvdata(dev);
  430. s16 data[DA7280_SNP_MEM_SIZE] = { 0 };
  431. unsigned int val;
  432. int tmp, i, num;
  433. int error;
  434. /* The effect should be uploaded when haptic is not working */
  435. if (haptics->active)
  436. return -EBUSY;
  437. switch (effect->type) {
  438. /* DRO/PWM modes support this type */
  439. case FF_CONSTANT:
  440. haptics->op_mode = haptics->const_op_mode;
  441. if (haptics->op_mode == DA7280_DRO_MODE) {
  442. tmp = effect->u.constant.level * 254;
  443. haptics->level = tmp / 0x7FFF;
  444. break;
  445. }
  446. haptics->gain = effect->u.constant.level <= 0 ?
  447. 0 : effect->u.constant.level;
  448. break;
  449. /* RTWM/ETWM modes support this type */
  450. case FF_PERIODIC:
  451. if (effect->u.periodic.waveform != FF_CUSTOM) {
  452. dev_err(haptics->dev,
  453. "Device can only accept FF_CUSTOM waveform\n");
  454. return -EINVAL;
  455. }
  456. /*
  457. * Load the data and check the length.
  458. * the data will be patterns in this case: 4 < X <= 100,
  459. * and will be saved into the waveform memory inside DA728x.
  460. * If X = 2, the data will be PS_SEQ_ID and PS_SEQ_LOOP.
  461. * If X = 3, the 1st data will be GPIX_SEQUENCE_ID .
  462. */
  463. if (effect->u.periodic.custom_len == DA7280_CUSTOM_DATA_LEN)
  464. goto set_seq_id_loop;
  465. if (effect->u.periodic.custom_len == DA7280_CUSTOM_GP_DATA_LEN)
  466. goto set_gpix_seq_id;
  467. if (effect->u.periodic.custom_len < DA7280_CUSTOM_DATA_LEN ||
  468. effect->u.periodic.custom_len > DA7280_SNP_MEM_SIZE) {
  469. dev_err(haptics->dev, "Invalid waveform data size\n");
  470. return -EINVAL;
  471. }
  472. if (copy_from_user(data, effect->u.periodic.custom_data,
  473. sizeof(s16) *
  474. effect->u.periodic.custom_len))
  475. return -EFAULT;
  476. memset(haptics->snp_mem, 0, DA7280_SNP_MEM_SIZE);
  477. for (i = 0; i < effect->u.periodic.custom_len; i++) {
  478. if (data[i] < 0 || data[i] > 0xff) {
  479. dev_err(haptics->dev,
  480. "Invalid waveform data %d at offset %d\n",
  481. data[i], i);
  482. return -EINVAL;
  483. }
  484. haptics->snp_mem[i] = (u8)data[i];
  485. }
  486. error = da7280_haptic_mem_update(haptics);
  487. if (error) {
  488. dev_err(haptics->dev,
  489. "Failed to upload waveform: %d\n", error);
  490. return error;
  491. }
  492. break;
  493. set_seq_id_loop:
  494. if (copy_from_user(data, effect->u.periodic.custom_data,
  495. sizeof(s16) * DA7280_CUSTOM_DATA_LEN))
  496. return -EFAULT;
  497. if (data[DA7280_CUSTOM_SEQ_ID_IDX] < 0 ||
  498. data[DA7280_CUSTOM_SEQ_ID_IDX] > DA7280_SEQ_ID_MAX ||
  499. data[DA7280_CUSTOM_SEQ_LOOP_IDX] < 0 ||
  500. data[DA7280_CUSTOM_SEQ_LOOP_IDX] > DA7280_SEQ_LOOP_MAX) {
  501. dev_err(haptics->dev,
  502. "Invalid custom id (%d) or loop (%d)\n",
  503. data[DA7280_CUSTOM_SEQ_ID_IDX],
  504. data[DA7280_CUSTOM_SEQ_LOOP_IDX]);
  505. return -EINVAL;
  506. }
  507. haptics->ps_seq_id = data[DA7280_CUSTOM_SEQ_ID_IDX] & 0x0f;
  508. haptics->ps_seq_loop = data[DA7280_CUSTOM_SEQ_LOOP_IDX] & 0x0f;
  509. haptics->op_mode = haptics->periodic_op_mode;
  510. val = FIELD_PREP(DA7280_PS_SEQ_ID_MASK, haptics->ps_seq_id) |
  511. FIELD_PREP(DA7280_PS_SEQ_LOOP_MASK,
  512. haptics->ps_seq_loop);
  513. error = regmap_write(haptics->regmap, DA7280_SEQ_CTL2, val);
  514. if (error) {
  515. dev_err(haptics->dev,
  516. "Failed to update PS sequence: %d\n", error);
  517. return error;
  518. }
  519. break;
  520. set_gpix_seq_id:
  521. if (copy_from_user(data, effect->u.periodic.custom_data,
  522. sizeof(s16) * DA7280_CUSTOM_GP_DATA_LEN))
  523. return -EFAULT;
  524. if (data[DA7280_CUSTOM_GPI_SEQ_ID_IDX] < 0 ||
  525. data[DA7280_CUSTOM_GPI_SEQ_ID_IDX] > DA7280_SEQ_ID_MAX ||
  526. data[DA7280_CUSTOM_GPI_NUM_IDX] < 0 ||
  527. data[DA7280_CUSTOM_GPI_NUM_IDX] > DA7280_GPI_SEQ_ID_MAX) {
  528. dev_err(haptics->dev,
  529. "Invalid custom GPI id (%d) or num (%d)\n",
  530. data[DA7280_CUSTOM_GPI_SEQ_ID_IDX],
  531. data[DA7280_CUSTOM_GPI_NUM_IDX]);
  532. return -EINVAL;
  533. }
  534. num = data[DA7280_CUSTOM_GPI_NUM_IDX] & 0x0f;
  535. haptics->gpi_ctl[num].seq_id =
  536. data[DA7280_CUSTOM_GPI_SEQ_ID_IDX] & 0x0f;
  537. haptics->op_mode = haptics->periodic_op_mode;
  538. val = FIELD_PREP(DA7280_GPI0_SEQUENCE_ID_MASK,
  539. haptics->gpi_ctl[num].seq_id);
  540. error = regmap_update_bits(haptics->regmap,
  541. DA7280_GPI_0_CTL + num,
  542. DA7280_GPI0_SEQUENCE_ID_MASK,
  543. val);
  544. if (error) {
  545. dev_err(haptics->dev,
  546. "Failed to update GPI sequence: %d\n", error);
  547. return error;
  548. }
  549. break;
  550. default:
  551. dev_err(haptics->dev, "Unsupported effect type: %d\n",
  552. effect->type);
  553. return -EINVAL;
  554. }
  555. return 0;
  556. }
  557. static int da7280_haptics_playback(struct input_dev *dev,
  558. int effect_id, int val)
  559. {
  560. struct da7280_haptic *haptics = input_get_drvdata(dev);
  561. if (!haptics->op_mode) {
  562. dev_warn(haptics->dev, "No effects have been uploaded\n");
  563. return -EINVAL;
  564. }
  565. if (likely(!haptics->suspended)) {
  566. haptics->val = val;
  567. schedule_work(&haptics->work);
  568. }
  569. return 0;
  570. }
  571. static int da7280_haptic_start(struct da7280_haptic *haptics)
  572. {
  573. int error;
  574. error = regmap_update_bits(haptics->regmap,
  575. DA7280_TOP_CTL1,
  576. DA7280_STANDBY_EN_MASK,
  577. DA7280_STANDBY_EN_MASK);
  578. if (error) {
  579. dev_err(haptics->dev, "Unable to enable device: %d\n", error);
  580. return error;
  581. }
  582. return 0;
  583. }
  584. static void da7280_haptic_stop(struct da7280_haptic *haptics)
  585. {
  586. int error;
  587. cancel_work_sync(&haptics->work);
  588. da7280_haptic_deactivate(haptics);
  589. error = regmap_update_bits(haptics->regmap, DA7280_TOP_CTL1,
  590. DA7280_STANDBY_EN_MASK, 0);
  591. if (error)
  592. dev_err(haptics->dev, "Failed to disable device: %d\n", error);
  593. }
  594. static int da7280_haptic_open(struct input_dev *dev)
  595. {
  596. struct da7280_haptic *haptics = input_get_drvdata(dev);
  597. return da7280_haptic_start(haptics);
  598. }
  599. static void da7280_haptic_close(struct input_dev *dev)
  600. {
  601. struct da7280_haptic *haptics = input_get_drvdata(dev);
  602. da7280_haptic_stop(haptics);
  603. }
  604. static u8 da7280_haptic_of_mode_str(struct device *dev,
  605. const char *str)
  606. {
  607. if (!strcmp(str, "LRA")) {
  608. return DA7280_LRA;
  609. } else if (!strcmp(str, "ERM-bar")) {
  610. return DA7280_ERM_BAR;
  611. } else if (!strcmp(str, "ERM-coin")) {
  612. return DA7280_ERM_COIN;
  613. } else {
  614. dev_warn(dev, "Invalid string - set to LRA\n");
  615. return DA7280_LRA;
  616. }
  617. }
  618. static u8 da7280_haptic_of_gpi_mode_str(struct device *dev,
  619. const char *str)
  620. {
  621. if (!strcmp(str, "Single-pattern")) {
  622. return 0;
  623. } else if (!strcmp(str, "Multi-pattern")) {
  624. return 1;
  625. } else {
  626. dev_warn(dev, "Invalid string - set to Single-pattern\n");
  627. return 0;
  628. }
  629. }
  630. static u8 da7280_haptic_of_gpi_pol_str(struct device *dev,
  631. const char *str)
  632. {
  633. if (!strcmp(str, "Rising-edge")) {
  634. return 0;
  635. } else if (!strcmp(str, "Falling-edge")) {
  636. return 1;
  637. } else if (!strcmp(str, "Both-edge")) {
  638. return 2;
  639. } else {
  640. dev_warn(dev, "Invalid string - set to Rising-edge\n");
  641. return 0;
  642. }
  643. }
  644. static u8 da7280_haptic_of_volt_rating_set(u32 val)
  645. {
  646. u32 voltage = val / DA7280_VOLTAGE_RATE_STEP + 1;
  647. return min_t(u32, voltage, 0xff);
  648. }
  649. static void da7280_parse_properties(struct device *dev,
  650. struct da7280_haptic *haptics)
  651. {
  652. unsigned int i, mem[DA7280_SNP_MEM_SIZE];
  653. char gpi_str1[] = "dlg,gpi0-seq-id";
  654. char gpi_str2[] = "dlg,gpi0-mode";
  655. char gpi_str3[] = "dlg,gpi0-polarity";
  656. const char *str;
  657. u32 val;
  658. int error;
  659. /*
  660. * If there is no property, then use the mode programmed into the chip.
  661. */
  662. haptics->dev_type = DA7280_DEV_MAX;
  663. error = device_property_read_string(dev, "dlg,actuator-type", &str);
  664. if (!error)
  665. haptics->dev_type = da7280_haptic_of_mode_str(dev, str);
  666. haptics->const_op_mode = DA7280_DRO_MODE;
  667. error = device_property_read_u32(dev, "dlg,const-op-mode", &val);
  668. if (!error && val == DA7280_FF_PERIODIC_PWM)
  669. haptics->const_op_mode = DA7280_PWM_MODE;
  670. haptics->periodic_op_mode = DA7280_RTWM_MODE;
  671. error = device_property_read_u32(dev, "dlg,periodic-op-mode", &val);
  672. if (!error && val == DA7280_FF_PERIODIC_ETWM)
  673. haptics->periodic_op_mode = DA7280_ETWM_MODE;
  674. haptics->nommax = DA7280_SKIP_INIT;
  675. error = device_property_read_u32(dev, "dlg,nom-microvolt", &val);
  676. if (!error && val < DA7280_VOLTAGE_RATE_MAX)
  677. haptics->nommax = da7280_haptic_of_volt_rating_set(val);
  678. haptics->absmax = DA7280_SKIP_INIT;
  679. error = device_property_read_u32(dev, "dlg,abs-max-microvolt", &val);
  680. if (!error && val < DA7280_VOLTAGE_RATE_MAX)
  681. haptics->absmax = da7280_haptic_of_volt_rating_set(val);
  682. haptics->imax = DA7280_IMAX_DEFAULT;
  683. error = device_property_read_u32(dev, "dlg,imax-microamp", &val);
  684. if (!error && val < DA7280_IMAX_LIMIT)
  685. haptics->imax = (val - 28600) / DA7280_IMAX_STEP + 1;
  686. haptics->impd = DA7280_IMPD_DEFAULT;
  687. error = device_property_read_u32(dev, "dlg,impd-micro-ohms", &val);
  688. if (!error && val <= DA7280_IMPD_MAX)
  689. haptics->impd = val;
  690. haptics->resonant_freq_h = DA7280_SKIP_INIT;
  691. haptics->resonant_freq_l = DA7280_SKIP_INIT;
  692. error = device_property_read_u32(dev, "dlg,resonant-freq-hz", &val);
  693. if (!error) {
  694. if (val < DA7280_MAX_RESONAT_FREQ_HZ &&
  695. val > DA7280_MIN_RESONAT_FREQ_HZ) {
  696. haptics->resonant_freq_h =
  697. ((1000000000 / (val * 1333)) >> 7) & 0xFF;
  698. haptics->resonant_freq_l =
  699. (1000000000 / (val * 1333)) & 0x7F;
  700. } else {
  701. haptics->resonant_freq_h = DA7280_RESONT_FREQH_DFT;
  702. haptics->resonant_freq_l = DA7280_RESONT_FREQL_DFT;
  703. }
  704. }
  705. /* If no property, set to zero as default is to do nothing. */
  706. haptics->ps_seq_id = 0;
  707. error = device_property_read_u32(dev, "dlg,ps-seq-id", &val);
  708. if (!error && val <= DA7280_SEQ_ID_MAX)
  709. haptics->ps_seq_id = val;
  710. haptics->ps_seq_loop = 0;
  711. error = device_property_read_u32(dev, "dlg,ps-seq-loop", &val);
  712. if (!error && val <= DA7280_SEQ_LOOP_MAX)
  713. haptics->ps_seq_loop = val;
  714. /* GPI0~2 Control */
  715. for (i = 0; i <= DA7280_GPI_SEQ_ID_MAX; i++) {
  716. gpi_str1[7] = '0' + i;
  717. haptics->gpi_ctl[i].seq_id = DA7280_GPI_SEQ_ID_DFT + i;
  718. error = device_property_read_u32 (dev, gpi_str1, &val);
  719. if (!error && val <= DA7280_SEQ_ID_MAX)
  720. haptics->gpi_ctl[i].seq_id = val;
  721. gpi_str2[7] = '0' + i;
  722. haptics->gpi_ctl[i].mode = 0;
  723. error = device_property_read_string(dev, gpi_str2, &str);
  724. if (!error)
  725. haptics->gpi_ctl[i].mode =
  726. da7280_haptic_of_gpi_mode_str(dev, str);
  727. gpi_str3[7] = '0' + i;
  728. haptics->gpi_ctl[i].polarity = 0;
  729. error = device_property_read_string(dev, gpi_str3, &str);
  730. if (!error)
  731. haptics->gpi_ctl[i].polarity =
  732. da7280_haptic_of_gpi_pol_str(dev, str);
  733. }
  734. haptics->bemf_sense_en =
  735. device_property_read_bool(dev, "dlg,bemf-sens-enable");
  736. haptics->freq_track_en =
  737. device_property_read_bool(dev, "dlg,freq-track-enable");
  738. haptics->acc_en =
  739. device_property_read_bool(dev, "dlg,acc-enable");
  740. haptics->rapid_stop_en =
  741. device_property_read_bool(dev, "dlg,rapid-stop-enable");
  742. haptics->amp_pid_en =
  743. device_property_read_bool(dev, "dlg,amp-pid-enable");
  744. haptics->mem_update = false;
  745. error = device_property_read_u32_array(dev, "dlg,mem-array",
  746. &mem[0], DA7280_SNP_MEM_SIZE);
  747. if (!error) {
  748. haptics->mem_update = true;
  749. memset(haptics->snp_mem, 0, DA7280_SNP_MEM_SIZE);
  750. for (i = 0; i < DA7280_SNP_MEM_SIZE; i++) {
  751. if (mem[i] <= 0xff) {
  752. haptics->snp_mem[i] = (u8)mem[i];
  753. } else {
  754. dev_err(haptics->dev,
  755. "Invalid data in mem-array at %d: %x\n",
  756. i, mem[i]);
  757. haptics->mem_update = false;
  758. break;
  759. }
  760. }
  761. }
  762. }
  763. static irqreturn_t da7280_irq_handler(int irq, void *data)
  764. {
  765. struct da7280_haptic *haptics = data;
  766. struct device *dev = haptics->dev;
  767. u8 events[DA7280_IRQ_NUM];
  768. int error;
  769. /* Check what events have happened */
  770. error = regmap_bulk_read(haptics->regmap, DA7280_IRQ_EVENT1,
  771. events, sizeof(events));
  772. if (error) {
  773. dev_err(dev, "failed to read interrupt data: %d\n", error);
  774. goto out;
  775. }
  776. /* Clear events */
  777. error = regmap_write(haptics->regmap, DA7280_IRQ_EVENT1, events[0]);
  778. if (error) {
  779. dev_err(dev, "failed to clear interrupts: %d\n", error);
  780. goto out;
  781. }
  782. if (events[0] & DA7280_E_SEQ_FAULT_MASK) {
  783. /*
  784. * Stop first if haptic is active, otherwise, the fault may
  785. * happen continually even though the bit is cleared.
  786. */
  787. error = regmap_update_bits(haptics->regmap, DA7280_TOP_CTL1,
  788. DA7280_OPERATION_MODE_MASK, 0);
  789. if (error)
  790. dev_err(dev, "failed to clear op mode on fault: %d\n",
  791. error);
  792. }
  793. if (events[0] & DA7280_E_SEQ_DONE_MASK)
  794. haptics->active = false;
  795. if (events[0] & DA7280_E_WARNING_MASK) {
  796. if (events[1] & DA7280_E_LIM_DRIVE_MASK ||
  797. events[1] & DA7280_E_LIM_DRIVE_ACC_MASK)
  798. dev_warn(dev, "Please reduce the driver level\n");
  799. if (events[1] & DA7280_E_MEM_TYPE_MASK)
  800. dev_warn(dev, "Please check the mem data format\n");
  801. if (events[1] & DA7280_E_OVERTEMP_WARN_MASK)
  802. dev_warn(dev, "Over-temperature warning\n");
  803. }
  804. if (events[0] & DA7280_E_SEQ_FAULT_MASK) {
  805. if (events[2] & DA7280_E_SEQ_ID_FAULT_MASK)
  806. dev_info(dev, "Please reload PS_SEQ_ID & mem data\n");
  807. if (events[2] & DA7280_E_MEM_FAULT_MASK)
  808. dev_info(dev, "Please reload the mem data\n");
  809. if (events[2] & DA7280_E_PWM_FAULT_MASK)
  810. dev_info(dev, "Please restart PWM interface\n");
  811. }
  812. out:
  813. return IRQ_HANDLED;
  814. }
  815. static int da7280_init(struct da7280_haptic *haptics)
  816. {
  817. unsigned int val = 0;
  818. u32 v2i_factor;
  819. int error, i;
  820. u8 mask = 0;
  821. /*
  822. * If device type is DA7280_DEV_MAX then simply use currently
  823. * programmed mode.
  824. */
  825. if (haptics->dev_type == DA7280_DEV_MAX) {
  826. error = regmap_read(haptics->regmap, DA7280_TOP_CFG1, &val);
  827. if (error)
  828. goto out_err;
  829. haptics->dev_type = val & DA7280_ACTUATOR_TYPE_MASK ?
  830. DA7280_ERM_COIN : DA7280_LRA;
  831. }
  832. /* Apply user settings */
  833. if (haptics->dev_type == DA7280_LRA &&
  834. haptics->resonant_freq_l != DA7280_SKIP_INIT) {
  835. error = regmap_write(haptics->regmap, DA7280_FRQ_LRA_PER_H,
  836. haptics->resonant_freq_h);
  837. if (error)
  838. goto out_err;
  839. error = regmap_write(haptics->regmap, DA7280_FRQ_LRA_PER_L,
  840. haptics->resonant_freq_l);
  841. if (error)
  842. goto out_err;
  843. } else if (haptics->dev_type == DA7280_ERM_COIN) {
  844. error = regmap_update_bits(haptics->regmap, DA7280_TOP_INT_CFG1,
  845. DA7280_BEMF_FAULT_LIM_MASK, 0);
  846. if (error)
  847. goto out_err;
  848. mask = DA7280_TST_CALIB_IMPEDANCE_DIS_MASK |
  849. DA7280_V2I_FACTOR_FREEZE_MASK;
  850. val = DA7280_TST_CALIB_IMPEDANCE_DIS_MASK |
  851. DA7280_V2I_FACTOR_FREEZE_MASK;
  852. error = regmap_update_bits(haptics->regmap, DA7280_TOP_CFG4,
  853. mask, val);
  854. if (error)
  855. goto out_err;
  856. haptics->acc_en = false;
  857. haptics->rapid_stop_en = false;
  858. haptics->amp_pid_en = false;
  859. }
  860. mask = DA7280_ACTUATOR_TYPE_MASK |
  861. DA7280_BEMF_SENSE_EN_MASK |
  862. DA7280_FREQ_TRACK_EN_MASK |
  863. DA7280_ACCELERATION_EN_MASK |
  864. DA7280_RAPID_STOP_EN_MASK |
  865. DA7280_AMP_PID_EN_MASK;
  866. val = FIELD_PREP(DA7280_ACTUATOR_TYPE_MASK,
  867. (haptics->dev_type ? 1 : 0)) |
  868. FIELD_PREP(DA7280_BEMF_SENSE_EN_MASK,
  869. (haptics->bemf_sense_en ? 1 : 0)) |
  870. FIELD_PREP(DA7280_FREQ_TRACK_EN_MASK,
  871. (haptics->freq_track_en ? 1 : 0)) |
  872. FIELD_PREP(DA7280_ACCELERATION_EN_MASK,
  873. (haptics->acc_en ? 1 : 0)) |
  874. FIELD_PREP(DA7280_RAPID_STOP_EN_MASK,
  875. (haptics->rapid_stop_en ? 1 : 0)) |
  876. FIELD_PREP(DA7280_AMP_PID_EN_MASK,
  877. (haptics->amp_pid_en ? 1 : 0));
  878. error = regmap_update_bits(haptics->regmap, DA7280_TOP_CFG1, mask, val);
  879. if (error)
  880. goto out_err;
  881. error = regmap_update_bits(haptics->regmap, DA7280_TOP_CFG5,
  882. DA7280_V2I_FACTOR_OFFSET_EN_MASK,
  883. haptics->acc_en ?
  884. DA7280_V2I_FACTOR_OFFSET_EN_MASK : 0);
  885. if (error)
  886. goto out_err;
  887. error = regmap_update_bits(haptics->regmap,
  888. DA7280_TOP_CFG2,
  889. DA7280_MEM_DATA_SIGNED_MASK,
  890. haptics->acc_en ?
  891. 0 : DA7280_MEM_DATA_SIGNED_MASK);
  892. if (error)
  893. goto out_err;
  894. if (haptics->nommax != DA7280_SKIP_INIT) {
  895. error = regmap_write(haptics->regmap, DA7280_ACTUATOR1,
  896. haptics->nommax);
  897. if (error)
  898. goto out_err;
  899. }
  900. if (haptics->absmax != DA7280_SKIP_INIT) {
  901. error = regmap_write(haptics->regmap, DA7280_ACTUATOR2,
  902. haptics->absmax);
  903. if (error)
  904. goto out_err;
  905. }
  906. error = regmap_update_bits(haptics->regmap, DA7280_ACTUATOR3,
  907. DA7280_IMAX_MASK, haptics->imax);
  908. if (error)
  909. goto out_err;
  910. v2i_factor = haptics->impd * (haptics->imax + 4) / 1610400;
  911. error = regmap_write(haptics->regmap, DA7280_CALIB_V2I_L,
  912. v2i_factor & 0xff);
  913. if (error)
  914. goto out_err;
  915. error = regmap_write(haptics->regmap, DA7280_CALIB_V2I_H,
  916. v2i_factor >> 8);
  917. if (error)
  918. goto out_err;
  919. error = regmap_update_bits(haptics->regmap,
  920. DA7280_TOP_CTL1,
  921. DA7280_STANDBY_EN_MASK,
  922. DA7280_STANDBY_EN_MASK);
  923. if (error)
  924. goto out_err;
  925. if (haptics->mem_update) {
  926. error = da7280_haptic_mem_update(haptics);
  927. if (error)
  928. goto out_err;
  929. }
  930. /* Set PS_SEQ_ID and PS_SEQ_LOOP */
  931. val = FIELD_PREP(DA7280_PS_SEQ_ID_MASK, haptics->ps_seq_id) |
  932. FIELD_PREP(DA7280_PS_SEQ_LOOP_MASK, haptics->ps_seq_loop);
  933. error = regmap_write(haptics->regmap, DA7280_SEQ_CTL2, val);
  934. if (error)
  935. goto out_err;
  936. /* GPI(N) CTL */
  937. for (i = 0; i < 3; i++) {
  938. val = FIELD_PREP(DA7280_GPI0_SEQUENCE_ID_MASK,
  939. haptics->gpi_ctl[i].seq_id) |
  940. FIELD_PREP(DA7280_GPI0_MODE_MASK,
  941. haptics->gpi_ctl[i].mode) |
  942. FIELD_PREP(DA7280_GPI0_POLARITY_MASK,
  943. haptics->gpi_ctl[i].polarity);
  944. error = regmap_write(haptics->regmap,
  945. DA7280_GPI_0_CTL + i, val);
  946. if (error)
  947. goto out_err;
  948. }
  949. /* Mask ADC_SAT_M bit as default */
  950. error = regmap_update_bits(haptics->regmap,
  951. DA7280_IRQ_MASK2,
  952. DA7280_ADC_SAT_M_MASK,
  953. DA7280_ADC_SAT_M_MASK);
  954. if (error)
  955. goto out_err;
  956. /* Clear Interrupts */
  957. error = regmap_write(haptics->regmap, DA7280_IRQ_EVENT1, 0xff);
  958. if (error)
  959. goto out_err;
  960. error = regmap_update_bits(haptics->regmap,
  961. DA7280_IRQ_MASK1,
  962. DA7280_SEQ_FAULT_M_MASK |
  963. DA7280_SEQ_DONE_M_MASK,
  964. 0);
  965. if (error)
  966. goto out_err;
  967. haptics->active = false;
  968. return 0;
  969. out_err:
  970. dev_err(haptics->dev, "chip initialization error: %d\n", error);
  971. return error;
  972. }
  973. static int da7280_probe(struct i2c_client *client)
  974. {
  975. struct device *dev = &client->dev;
  976. struct da7280_haptic *haptics;
  977. struct input_dev *input_dev;
  978. struct pwm_state state;
  979. struct ff_device *ff;
  980. int error;
  981. if (!client->irq) {
  982. dev_err(dev, "No IRQ configured\n");
  983. return -EINVAL;
  984. }
  985. haptics = devm_kzalloc(dev, sizeof(*haptics), GFP_KERNEL);
  986. if (!haptics)
  987. return -ENOMEM;
  988. haptics->dev = dev;
  989. da7280_parse_properties(dev, haptics);
  990. if (haptics->const_op_mode == DA7280_PWM_MODE) {
  991. haptics->pwm_dev = devm_pwm_get(dev, NULL);
  992. error = PTR_ERR_OR_ZERO(haptics->pwm_dev);
  993. if (error) {
  994. if (error != -EPROBE_DEFER)
  995. dev_err(dev, "Unable to request PWM: %d\n",
  996. error);
  997. return error;
  998. }
  999. /* Sync up PWM state and ensure it is off. */
  1000. pwm_init_state(haptics->pwm_dev, &state);
  1001. state.enabled = false;
  1002. error = pwm_apply_might_sleep(haptics->pwm_dev, &state);
  1003. if (error) {
  1004. dev_err(dev, "Failed to apply PWM state: %d\n", error);
  1005. return error;
  1006. }
  1007. /*
  1008. * Check PWM period, PWM freq = 1000000 / state.period.
  1009. * The valid PWM freq range: 10k ~ 250kHz.
  1010. */
  1011. if (state.period > 100000 || state.period < 4000) {
  1012. dev_err(dev, "Unsupported PWM period: %lld\n",
  1013. state.period);
  1014. return -EINVAL;
  1015. }
  1016. }
  1017. INIT_WORK(&haptics->work, da7280_haptic_work);
  1018. haptics->client = client;
  1019. i2c_set_clientdata(client, haptics);
  1020. haptics->regmap = devm_regmap_init_i2c(client,
  1021. &da7280_haptic_regmap_config);
  1022. error = PTR_ERR_OR_ZERO(haptics->regmap);
  1023. if (error) {
  1024. dev_err(dev, "Failed to allocate register map: %d\n", error);
  1025. return error;
  1026. }
  1027. error = da7280_init(haptics);
  1028. if (error) {
  1029. dev_err(dev, "Failed to initialize device: %d\n", error);
  1030. return error;
  1031. }
  1032. /* Initialize input device for haptic device */
  1033. input_dev = devm_input_allocate_device(dev);
  1034. if (!input_dev) {
  1035. dev_err(dev, "Failed to allocate input device\n");
  1036. return -ENOMEM;
  1037. }
  1038. input_dev->name = "da7280-haptic";
  1039. input_dev->dev.parent = client->dev.parent;
  1040. input_dev->open = da7280_haptic_open;
  1041. input_dev->close = da7280_haptic_close;
  1042. input_set_drvdata(input_dev, haptics);
  1043. haptics->input_dev = input_dev;
  1044. input_set_capability(haptics->input_dev, EV_FF, FF_PERIODIC);
  1045. input_set_capability(haptics->input_dev, EV_FF, FF_CUSTOM);
  1046. input_set_capability(haptics->input_dev, EV_FF, FF_CONSTANT);
  1047. input_set_capability(haptics->input_dev, EV_FF, FF_GAIN);
  1048. error = input_ff_create(haptics->input_dev,
  1049. DA7280_FF_EFFECT_COUNT_MAX);
  1050. if (error) {
  1051. dev_err(dev, "Failed to create FF input device: %d\n", error);
  1052. return error;
  1053. }
  1054. ff = input_dev->ff;
  1055. ff->upload = da7280_haptics_upload_effect;
  1056. ff->playback = da7280_haptics_playback;
  1057. error = input_register_device(input_dev);
  1058. if (error) {
  1059. dev_err(dev, "Failed to register input device: %d\n", error);
  1060. return error;
  1061. }
  1062. error = devm_request_threaded_irq(dev, client->irq,
  1063. NULL, da7280_irq_handler,
  1064. IRQF_ONESHOT,
  1065. "da7280-haptics", haptics);
  1066. if (error) {
  1067. dev_err(dev, "Failed to request IRQ %d: %d\n",
  1068. client->irq, error);
  1069. return error;
  1070. }
  1071. return 0;
  1072. }
  1073. static int da7280_suspend(struct device *dev)
  1074. {
  1075. struct da7280_haptic *haptics = dev_get_drvdata(dev);
  1076. guard(mutex)(&haptics->input_dev->mutex);
  1077. /*
  1078. * Make sure no new requests will be submitted while device is
  1079. * suspended.
  1080. */
  1081. scoped_guard(spinlock_irq, &haptics->input_dev->event_lock) {
  1082. haptics->suspended = true;
  1083. }
  1084. da7280_haptic_stop(haptics);
  1085. return 0;
  1086. }
  1087. static int da7280_resume(struct device *dev)
  1088. {
  1089. struct da7280_haptic *haptics = dev_get_drvdata(dev);
  1090. int error;
  1091. guard(mutex)(&haptics->input_dev->mutex);
  1092. error = da7280_haptic_start(haptics);
  1093. if (error)
  1094. return error;
  1095. scoped_guard(spinlock_irq, &haptics->input_dev->event_lock) {
  1096. haptics->suspended = false;
  1097. }
  1098. return 0;
  1099. }
  1100. #ifdef CONFIG_OF
  1101. static const struct of_device_id da7280_of_match[] = {
  1102. { .compatible = "dlg,da7280", },
  1103. { }
  1104. };
  1105. MODULE_DEVICE_TABLE(of, da7280_of_match);
  1106. #endif
  1107. static const struct i2c_device_id da7280_i2c_id[] = {
  1108. { "da7280", },
  1109. { }
  1110. };
  1111. MODULE_DEVICE_TABLE(i2c, da7280_i2c_id);
  1112. static DEFINE_SIMPLE_DEV_PM_OPS(da7280_pm_ops, da7280_suspend, da7280_resume);
  1113. static struct i2c_driver da7280_driver = {
  1114. .driver = {
  1115. .name = "da7280",
  1116. .of_match_table = of_match_ptr(da7280_of_match),
  1117. .pm = pm_sleep_ptr(&da7280_pm_ops),
  1118. },
  1119. .probe = da7280_probe,
  1120. .id_table = da7280_i2c_id,
  1121. };
  1122. module_i2c_driver(da7280_driver);
  1123. MODULE_DESCRIPTION("DA7280 haptics driver");
  1124. MODULE_AUTHOR("Roy Im <Roy.Im.Opensource@diasemi.com>");
  1125. MODULE_LICENSE("GPL");