3 * Cypress TrueTouch(TM) Standard Product V4 Core driver module.
4 * For use with Cypress Txx4xx parts.
5 * Supported parts include:
9 * Copyright (C) 2012 Cypress Semiconductor
11 * This program is free software; you can redistribute it and/or
12 * modify it under the terms of the GNU General Public License
13 * version 2, and only version 2, as published by the
14 * Free Software Foundation.
16 * This program is distributed in the hope that it will be useful,
17 * but WITHOUT ANY WARRANTY; without even the implied warranty of
18 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
19 * GNU General Public License for more details.
21 * Contact Cypress Semiconductor at www.cypress.com <ttdrivers@cypress.com>
25 #include "cyttsp4_core.h"
26 #include <linux/delay.h>
27 #include <linux/gpio.h>
28 #include <linux/input/mt.h>
29 #include <linux/interrupt.h>
30 #include <linux/pm_runtime.h>
31 #include <linux/sched.h>
32 #include <linux/slab.h>
35 #define CY_CORE_REQUEST_EXCLUSIVE_TIMEOUT 500
36 #define CY_CORE_SLEEP_REQUEST_EXCLUSIVE_TIMEOUT 5000
37 #define CY_CORE_MODE_CHANGE_TIMEOUT 1000
38 #define CY_CORE_RESET_AND_WAIT_TIMEOUT 500
39 #define CY_CORE_WAKEUP_TIMEOUT 500
41 #define CY_CORE_STARTUP_RETRY_COUNT 3
43 static const u8 ldr_exit[] = {
44 0xFF, 0x01, 0x3B, 0x00, 0x00, 0x4F, 0x6D, 0x17
47 static const u8 ldr_err_app[] = {
48 0x01, 0x02, 0x00, 0x00, 0x55, 0xDD, 0x17
51 static inline size_t merge_bytes(u8 high, u8 low)
53 return (high << 8) + low;
57 static void cyttsp4_pr_buf(struct device *dev, u8 *pr_buf, u8 *dptr, int size,
58 const char *data_name)
61 const char fmt[] = "%02X ";
67 max = (CY_MAX_PRBUF_SIZE - 1) - sizeof(CY_PR_TRUNCATED);
70 for (i = k = 0; i < size && k < max; i++, k += 3)
71 scnprintf(pr_buf + k, CY_MAX_PRBUF_SIZE, fmt, dptr[i]);
73 dev_vdbg(dev, "%s: %s[0..%d]=%s%s\n", __func__, data_name, size - 1,
74 pr_buf, size <= max ? "" : CY_PR_TRUNCATED);
77 #define cyttsp4_pr_buf(dev, pr_buf, dptr, size, data_name) do { } while (0)
80 static int cyttsp4_load_status_regs(struct cyttsp4 *cd)
82 struct cyttsp4_sysinfo *si = &cd->sysinfo;
83 struct device *dev = cd->dev;
86 rc = cyttsp4_adap_read(cd, CY_REG_BASE, si->si_ofs.mode_size,
89 dev_err(dev, "%s: fail read mode regs r=%d\n",
92 cyttsp4_pr_buf(dev, cd->pr_buf, si->xy_mode,
93 si->si_ofs.mode_size, "xy_mode");
98 static int cyttsp4_handshake(struct cyttsp4 *cd, u8 mode)
100 u8 cmd = mode ^ CY_HST_TOGGLE;
104 * Mode change issued, handshaking now will cause endless mode change
105 * requests, for sync mode modechange will do same with handshake
107 if (mode & CY_HST_MODE_CHANGE)
110 rc = cyttsp4_adap_write(cd, CY_REG_BASE, sizeof(cmd), &cmd);
112 dev_err(cd->dev, "%s: bus write fail on handshake (ret=%d)\n",
118 static int cyttsp4_hw_soft_reset(struct cyttsp4 *cd)
120 u8 cmd = CY_HST_RESET;
121 int rc = cyttsp4_adap_write(cd, CY_REG_BASE, sizeof(cmd), &cmd);
123 dev_err(cd->dev, "%s: FAILED to execute SOFT reset\n",
130 static int cyttsp4_hw_hard_reset(struct cyttsp4 *cd)
132 if (cd->cpdata->xres) {
133 cd->cpdata->xres(cd->cpdata, cd->dev);
134 dev_dbg(cd->dev, "%s: execute HARD reset\n", __func__);
137 dev_err(cd->dev, "%s: FAILED to execute HARD reset\n", __func__);
141 static int cyttsp4_hw_reset(struct cyttsp4 *cd)
143 int rc = cyttsp4_hw_hard_reset(cd);
145 rc = cyttsp4_hw_soft_reset(cd);
150 * Gets number of bits for a touch filed as parameter,
151 * sets maximum value for field which is used as bit mask
152 * and returns number of bytes required for that field
154 static int cyttsp4_bits_2_bytes(unsigned int nbits, size_t *max)
157 return (nbits + 7) / 8;
160 static int cyttsp4_si_data_offsets(struct cyttsp4 *cd)
162 struct cyttsp4_sysinfo *si = &cd->sysinfo;
163 int rc = cyttsp4_adap_read(cd, CY_REG_BASE, sizeof(si->si_data),
166 dev_err(cd->dev, "%s: fail read sysinfo data offsets r=%d\n",
171 /* Print sysinfo data offsets */
172 cyttsp4_pr_buf(cd->dev, cd->pr_buf, (u8 *)&si->si_data,
173 sizeof(si->si_data), "sysinfo_data_offsets");
175 /* convert sysinfo data offset bytes into integers */
177 si->si_ofs.map_sz = merge_bytes(si->si_data.map_szh,
178 si->si_data.map_szl);
179 si->si_ofs.map_sz = merge_bytes(si->si_data.map_szh,
180 si->si_data.map_szl);
181 si->si_ofs.cydata_ofs = merge_bytes(si->si_data.cydata_ofsh,
182 si->si_data.cydata_ofsl);
183 si->si_ofs.test_ofs = merge_bytes(si->si_data.test_ofsh,
184 si->si_data.test_ofsl);
185 si->si_ofs.pcfg_ofs = merge_bytes(si->si_data.pcfg_ofsh,
186 si->si_data.pcfg_ofsl);
187 si->si_ofs.opcfg_ofs = merge_bytes(si->si_data.opcfg_ofsh,
188 si->si_data.opcfg_ofsl);
189 si->si_ofs.ddata_ofs = merge_bytes(si->si_data.ddata_ofsh,
190 si->si_data.ddata_ofsl);
191 si->si_ofs.mdata_ofs = merge_bytes(si->si_data.mdata_ofsh,
192 si->si_data.mdata_ofsl);
196 static int cyttsp4_si_get_cydata(struct cyttsp4 *cd)
198 struct cyttsp4_sysinfo *si = &cd->sysinfo;
200 int mfgid_sz, calc_mfgid_sz;
204 si->si_ofs.cydata_size = si->si_ofs.test_ofs - si->si_ofs.cydata_ofs;
205 dev_dbg(cd->dev, "%s: cydata size: %Zd\n", __func__,
206 si->si_ofs.cydata_size);
208 p = krealloc(si->si_ptrs.cydata, si->si_ofs.cydata_size, GFP_KERNEL);
210 dev_err(cd->dev, "%s: fail alloc cydata memory\n", __func__);
213 si->si_ptrs.cydata = p;
215 read_offset = si->si_ofs.cydata_ofs;
217 /* Read the CYDA registers up to MFGID field */
218 rc = cyttsp4_adap_read(cd, read_offset,
219 offsetof(struct cyttsp4_cydata, mfgid_sz)
220 + sizeof(si->si_ptrs.cydata->mfgid_sz),
223 dev_err(cd->dev, "%s: fail read cydata r=%d\n",
228 /* Check MFGID size */
229 mfgid_sz = si->si_ptrs.cydata->mfgid_sz;
230 calc_mfgid_sz = si->si_ofs.cydata_size - sizeof(struct cyttsp4_cydata);
231 if (mfgid_sz != calc_mfgid_sz) {
232 dev_err(cd->dev, "%s: mismatch in MFGID size, reported:%d calculated:%d\n",
233 __func__, mfgid_sz, calc_mfgid_sz);
237 read_offset += offsetof(struct cyttsp4_cydata, mfgid_sz)
238 + sizeof(si->si_ptrs.cydata->mfgid_sz);
240 /* Read the CYDA registers for MFGID field */
241 rc = cyttsp4_adap_read(cd, read_offset, si->si_ptrs.cydata->mfgid_sz,
242 si->si_ptrs.cydata->mfg_id);
244 dev_err(cd->dev, "%s: fail read cydata r=%d\n",
249 read_offset += si->si_ptrs.cydata->mfgid_sz;
251 /* Read the rest of the CYDA registers */
252 rc = cyttsp4_adap_read(cd, read_offset,
253 sizeof(struct cyttsp4_cydata)
254 - offsetof(struct cyttsp4_cydata, cyito_idh),
255 &si->si_ptrs.cydata->cyito_idh);
257 dev_err(cd->dev, "%s: fail read cydata r=%d\n",
262 cyttsp4_pr_buf(cd->dev, cd->pr_buf, (u8 *)si->si_ptrs.cydata,
263 si->si_ofs.cydata_size, "sysinfo_cydata");
267 static int cyttsp4_si_get_test_data(struct cyttsp4 *cd)
269 struct cyttsp4_sysinfo *si = &cd->sysinfo;
273 si->si_ofs.test_size = si->si_ofs.pcfg_ofs - si->si_ofs.test_ofs;
275 p = krealloc(si->si_ptrs.test, si->si_ofs.test_size, GFP_KERNEL);
277 dev_err(cd->dev, "%s: fail alloc test memory\n", __func__);
280 si->si_ptrs.test = p;
282 rc = cyttsp4_adap_read(cd, si->si_ofs.test_ofs, si->si_ofs.test_size,
285 dev_err(cd->dev, "%s: fail read test data r=%d\n",
290 cyttsp4_pr_buf(cd->dev, cd->pr_buf,
291 (u8 *)si->si_ptrs.test, si->si_ofs.test_size,
292 "sysinfo_test_data");
293 if (si->si_ptrs.test->post_codel &
294 CY_POST_CODEL_WDG_RST)
295 dev_info(cd->dev, "%s: %s codel=%02X\n",
296 __func__, "Reset was a WATCHDOG RESET",
297 si->si_ptrs.test->post_codel);
299 if (!(si->si_ptrs.test->post_codel &
300 CY_POST_CODEL_CFG_DATA_CRC_FAIL))
301 dev_info(cd->dev, "%s: %s codel=%02X\n", __func__,
302 "Config Data CRC FAIL",
303 si->si_ptrs.test->post_codel);
305 if (!(si->si_ptrs.test->post_codel &
306 CY_POST_CODEL_PANEL_TEST_FAIL))
307 dev_info(cd->dev, "%s: %s codel=%02X\n",
308 __func__, "PANEL TEST FAIL",
309 si->si_ptrs.test->post_codel);
311 dev_info(cd->dev, "%s: SCANNING is %s codel=%02X\n",
312 __func__, si->si_ptrs.test->post_codel & 0x08 ?
313 "ENABLED" : "DISABLED",
314 si->si_ptrs.test->post_codel);
318 static int cyttsp4_si_get_pcfg_data(struct cyttsp4 *cd)
320 struct cyttsp4_sysinfo *si = &cd->sysinfo;
324 si->si_ofs.pcfg_size = si->si_ofs.opcfg_ofs - si->si_ofs.pcfg_ofs;
326 p = krealloc(si->si_ptrs.pcfg, si->si_ofs.pcfg_size, GFP_KERNEL);
329 dev_err(cd->dev, "%s: fail alloc pcfg memory r=%d\n",
333 si->si_ptrs.pcfg = p;
335 rc = cyttsp4_adap_read(cd, si->si_ofs.pcfg_ofs, si->si_ofs.pcfg_size,
338 dev_err(cd->dev, "%s: fail read pcfg data r=%d\n",
343 si->si_ofs.max_x = merge_bytes((si->si_ptrs.pcfg->res_xh
344 & CY_PCFG_RESOLUTION_X_MASK), si->si_ptrs.pcfg->res_xl);
345 si->si_ofs.x_origin = !!(si->si_ptrs.pcfg->res_xh
346 & CY_PCFG_ORIGIN_X_MASK);
347 si->si_ofs.max_y = merge_bytes((si->si_ptrs.pcfg->res_yh
348 & CY_PCFG_RESOLUTION_Y_MASK), si->si_ptrs.pcfg->res_yl);
349 si->si_ofs.y_origin = !!(si->si_ptrs.pcfg->res_yh
350 & CY_PCFG_ORIGIN_Y_MASK);
351 si->si_ofs.max_p = merge_bytes(si->si_ptrs.pcfg->max_zh,
352 si->si_ptrs.pcfg->max_zl);
354 cyttsp4_pr_buf(cd->dev, cd->pr_buf,
355 (u8 *)si->si_ptrs.pcfg,
356 si->si_ofs.pcfg_size, "sysinfo_pcfg_data");
360 static int cyttsp4_si_get_opcfg_data(struct cyttsp4 *cd)
362 struct cyttsp4_sysinfo *si = &cd->sysinfo;
363 struct cyttsp4_tch_abs_params *tch;
364 struct cyttsp4_tch_rec_params *tch_old, *tch_new;
365 enum cyttsp4_tch_abs abs;
370 si->si_ofs.opcfg_size = si->si_ofs.ddata_ofs - si->si_ofs.opcfg_ofs;
372 p = krealloc(si->si_ptrs.opcfg, si->si_ofs.opcfg_size, GFP_KERNEL);
374 dev_err(cd->dev, "%s: fail alloc opcfg memory\n", __func__);
376 goto cyttsp4_si_get_opcfg_data_exit;
378 si->si_ptrs.opcfg = p;
380 rc = cyttsp4_adap_read(cd, si->si_ofs.opcfg_ofs, si->si_ofs.opcfg_size,
383 dev_err(cd->dev, "%s: fail read opcfg data r=%d\n",
385 goto cyttsp4_si_get_opcfg_data_exit;
387 si->si_ofs.cmd_ofs = si->si_ptrs.opcfg->cmd_ofs;
388 si->si_ofs.rep_ofs = si->si_ptrs.opcfg->rep_ofs;
389 si->si_ofs.rep_sz = (si->si_ptrs.opcfg->rep_szh * 256) +
390 si->si_ptrs.opcfg->rep_szl;
391 si->si_ofs.num_btns = si->si_ptrs.opcfg->num_btns;
392 si->si_ofs.num_btn_regs = (si->si_ofs.num_btns +
393 CY_NUM_BTN_PER_REG - 1) / CY_NUM_BTN_PER_REG;
394 si->si_ofs.tt_stat_ofs = si->si_ptrs.opcfg->tt_stat_ofs;
395 si->si_ofs.obj_cfg0 = si->si_ptrs.opcfg->obj_cfg0;
396 si->si_ofs.max_tchs = si->si_ptrs.opcfg->max_tchs &
398 si->si_ofs.tch_rec_size = si->si_ptrs.opcfg->tch_rec_size &
401 /* Get the old touch fields */
402 for (abs = CY_TCH_X; abs < CY_NUM_TCH_FIELDS; abs++) {
403 tch = &si->si_ofs.tch_abs[abs];
404 tch_old = &si->si_ptrs.opcfg->tch_rec_old[abs];
406 tch->ofs = tch_old->loc & CY_BYTE_OFS_MASK;
407 tch->size = cyttsp4_bits_2_bytes(tch_old->size,
409 tch->bofs = (tch_old->loc & CY_BOFS_MASK) >> CY_BOFS_SHIFT;
413 si->si_ofs.btn_rec_size = si->si_ptrs.opcfg->btn_rec_size;
414 si->si_ofs.btn_diff_ofs = si->si_ptrs.opcfg->btn_diff_ofs;
415 si->si_ofs.btn_diff_size = si->si_ptrs.opcfg->btn_diff_size;
417 if (si->si_ofs.tch_rec_size > CY_TMA1036_TCH_REC_SIZE) {
418 /* Get the extended touch fields */
419 for (i = 0; i < CY_NUM_EXT_TCH_FIELDS; abs++, i++) {
420 tch = &si->si_ofs.tch_abs[abs];
421 tch_new = &si->si_ptrs.opcfg->tch_rec_new[i];
423 tch->ofs = tch_new->loc & CY_BYTE_OFS_MASK;
424 tch->size = cyttsp4_bits_2_bytes(tch_new->size,
426 tch->bofs = (tch_new->loc & CY_BOFS_MASK) >> CY_BOFS_SHIFT;
430 for (abs = 0; abs < CY_TCH_NUM_ABS; abs++) {
431 dev_dbg(cd->dev, "%s: tch_rec_%s\n", __func__,
432 cyttsp4_tch_abs_string[abs]);
433 dev_dbg(cd->dev, "%s: ofs =%2Zd\n", __func__,
434 si->si_ofs.tch_abs[abs].ofs);
435 dev_dbg(cd->dev, "%s: siz =%2Zd\n", __func__,
436 si->si_ofs.tch_abs[abs].size);
437 dev_dbg(cd->dev, "%s: max =%2Zd\n", __func__,
438 si->si_ofs.tch_abs[abs].max);
439 dev_dbg(cd->dev, "%s: bofs=%2Zd\n", __func__,
440 si->si_ofs.tch_abs[abs].bofs);
443 si->si_ofs.mode_size = si->si_ofs.tt_stat_ofs + 1;
444 si->si_ofs.data_size = si->si_ofs.max_tchs *
445 si->si_ptrs.opcfg->tch_rec_size;
447 cyttsp4_pr_buf(cd->dev, cd->pr_buf, (u8 *)si->si_ptrs.opcfg,
448 si->si_ofs.opcfg_size, "sysinfo_opcfg_data");
450 cyttsp4_si_get_opcfg_data_exit:
454 static int cyttsp4_si_get_ddata(struct cyttsp4 *cd)
456 struct cyttsp4_sysinfo *si = &cd->sysinfo;
460 si->si_ofs.ddata_size = si->si_ofs.mdata_ofs - si->si_ofs.ddata_ofs;
462 p = krealloc(si->si_ptrs.ddata, si->si_ofs.ddata_size, GFP_KERNEL);
464 dev_err(cd->dev, "%s: fail alloc ddata memory\n", __func__);
467 si->si_ptrs.ddata = p;
469 rc = cyttsp4_adap_read(cd, si->si_ofs.ddata_ofs, si->si_ofs.ddata_size,
472 dev_err(cd->dev, "%s: fail read ddata data r=%d\n",
475 cyttsp4_pr_buf(cd->dev, cd->pr_buf,
476 (u8 *)si->si_ptrs.ddata,
477 si->si_ofs.ddata_size, "sysinfo_ddata");
481 static int cyttsp4_si_get_mdata(struct cyttsp4 *cd)
483 struct cyttsp4_sysinfo *si = &cd->sysinfo;
487 si->si_ofs.mdata_size = si->si_ofs.map_sz - si->si_ofs.mdata_ofs;
489 p = krealloc(si->si_ptrs.mdata, si->si_ofs.mdata_size, GFP_KERNEL);
491 dev_err(cd->dev, "%s: fail alloc mdata memory\n", __func__);
494 si->si_ptrs.mdata = p;
496 rc = cyttsp4_adap_read(cd, si->si_ofs.mdata_ofs, si->si_ofs.mdata_size,
499 dev_err(cd->dev, "%s: fail read mdata data r=%d\n",
502 cyttsp4_pr_buf(cd->dev, cd->pr_buf,
503 (u8 *)si->si_ptrs.mdata,
504 si->si_ofs.mdata_size, "sysinfo_mdata");
508 static int cyttsp4_si_get_btn_data(struct cyttsp4 *cd)
510 struct cyttsp4_sysinfo *si = &cd->sysinfo;
512 int num_defined_keys;
517 if (si->si_ofs.num_btns) {
518 si->si_ofs.btn_keys_size = si->si_ofs.num_btns *
519 sizeof(struct cyttsp4_btn);
521 p = krealloc(si->btn, si->si_ofs.btn_keys_size,
522 GFP_KERNEL|__GFP_ZERO);
524 dev_err(cd->dev, "%s: %s\n", __func__,
525 "fail alloc btn_keys memory");
530 if (cd->cpdata->sett[CY_IC_GRPNUM_BTN_KEYS] == NULL)
531 num_defined_keys = 0;
532 else if (cd->cpdata->sett[CY_IC_GRPNUM_BTN_KEYS]->data == NULL)
533 num_defined_keys = 0;
535 num_defined_keys = cd->cpdata->sett
536 [CY_IC_GRPNUM_BTN_KEYS]->size;
538 for (btn = 0; btn < si->si_ofs.num_btns &&
539 btn < num_defined_keys; btn++) {
540 key_table = (u16 *)cd->cpdata->sett
541 [CY_IC_GRPNUM_BTN_KEYS]->data;
542 si->btn[btn].key_code = key_table[btn];
543 si->btn[btn].state = CY_BTN_RELEASED;
544 si->btn[btn].enabled = true;
546 for (; btn < si->si_ofs.num_btns; btn++) {
547 si->btn[btn].key_code = KEY_RESERVED;
548 si->btn[btn].state = CY_BTN_RELEASED;
549 si->btn[btn].enabled = true;
555 si->si_ofs.btn_keys_size = 0;
561 static int cyttsp4_si_get_op_data_ptrs(struct cyttsp4 *cd)
563 struct cyttsp4_sysinfo *si = &cd->sysinfo;
566 p = krealloc(si->xy_mode, si->si_ofs.mode_size, GFP_KERNEL|__GFP_ZERO);
571 p = krealloc(si->xy_data, si->si_ofs.data_size, GFP_KERNEL|__GFP_ZERO);
576 p = krealloc(si->btn_rec_data,
577 si->si_ofs.btn_rec_size * si->si_ofs.num_btns,
578 GFP_KERNEL|__GFP_ZERO);
581 si->btn_rec_data = p;
586 static void cyttsp4_si_put_log_data(struct cyttsp4 *cd)
588 struct cyttsp4_sysinfo *si = &cd->sysinfo;
589 dev_dbg(cd->dev, "%s: cydata_ofs =%4Zd siz=%4Zd\n", __func__,
590 si->si_ofs.cydata_ofs, si->si_ofs.cydata_size);
591 dev_dbg(cd->dev, "%s: test_ofs =%4Zd siz=%4Zd\n", __func__,
592 si->si_ofs.test_ofs, si->si_ofs.test_size);
593 dev_dbg(cd->dev, "%s: pcfg_ofs =%4Zd siz=%4Zd\n", __func__,
594 si->si_ofs.pcfg_ofs, si->si_ofs.pcfg_size);
595 dev_dbg(cd->dev, "%s: opcfg_ofs =%4Zd siz=%4Zd\n", __func__,
596 si->si_ofs.opcfg_ofs, si->si_ofs.opcfg_size);
597 dev_dbg(cd->dev, "%s: ddata_ofs =%4Zd siz=%4Zd\n", __func__,
598 si->si_ofs.ddata_ofs, si->si_ofs.ddata_size);
599 dev_dbg(cd->dev, "%s: mdata_ofs =%4Zd siz=%4Zd\n", __func__,
600 si->si_ofs.mdata_ofs, si->si_ofs.mdata_size);
602 dev_dbg(cd->dev, "%s: cmd_ofs =%4Zd\n", __func__,
604 dev_dbg(cd->dev, "%s: rep_ofs =%4Zd\n", __func__,
606 dev_dbg(cd->dev, "%s: rep_sz =%4Zd\n", __func__,
608 dev_dbg(cd->dev, "%s: num_btns =%4Zd\n", __func__,
609 si->si_ofs.num_btns);
610 dev_dbg(cd->dev, "%s: num_btn_regs =%4Zd\n", __func__,
611 si->si_ofs.num_btn_regs);
612 dev_dbg(cd->dev, "%s: tt_stat_ofs =%4Zd\n", __func__,
613 si->si_ofs.tt_stat_ofs);
614 dev_dbg(cd->dev, "%s: tch_rec_size =%4Zd\n", __func__,
615 si->si_ofs.tch_rec_size);
616 dev_dbg(cd->dev, "%s: max_tchs =%4Zd\n", __func__,
617 si->si_ofs.max_tchs);
618 dev_dbg(cd->dev, "%s: mode_size =%4Zd\n", __func__,
619 si->si_ofs.mode_size);
620 dev_dbg(cd->dev, "%s: data_size =%4Zd\n", __func__,
621 si->si_ofs.data_size);
622 dev_dbg(cd->dev, "%s: map_sz =%4Zd\n", __func__,
625 dev_dbg(cd->dev, "%s: btn_rec_size =%2Zd\n", __func__,
626 si->si_ofs.btn_rec_size);
627 dev_dbg(cd->dev, "%s: btn_diff_ofs =%2Zd\n", __func__,
628 si->si_ofs.btn_diff_ofs);
629 dev_dbg(cd->dev, "%s: btn_diff_size =%2Zd\n", __func__,
630 si->si_ofs.btn_diff_size);
632 dev_dbg(cd->dev, "%s: max_x = 0x%04ZX (%Zd)\n", __func__,
633 si->si_ofs.max_x, si->si_ofs.max_x);
634 dev_dbg(cd->dev, "%s: x_origin = %Zd (%s)\n", __func__,
636 si->si_ofs.x_origin == CY_NORMAL_ORIGIN ?
637 "left corner" : "right corner");
638 dev_dbg(cd->dev, "%s: max_y = 0x%04ZX (%Zd)\n", __func__,
639 si->si_ofs.max_y, si->si_ofs.max_y);
640 dev_dbg(cd->dev, "%s: y_origin = %Zd (%s)\n", __func__,
642 si->si_ofs.y_origin == CY_NORMAL_ORIGIN ?
643 "upper corner" : "lower corner");
644 dev_dbg(cd->dev, "%s: max_p = 0x%04ZX (%Zd)\n", __func__,
645 si->si_ofs.max_p, si->si_ofs.max_p);
647 dev_dbg(cd->dev, "%s: xy_mode=%p xy_data=%p\n", __func__,
648 si->xy_mode, si->xy_data);
651 static int cyttsp4_get_sysinfo_regs(struct cyttsp4 *cd)
653 struct cyttsp4_sysinfo *si = &cd->sysinfo;
656 rc = cyttsp4_si_data_offsets(cd);
660 rc = cyttsp4_si_get_cydata(cd);
664 rc = cyttsp4_si_get_test_data(cd);
668 rc = cyttsp4_si_get_pcfg_data(cd);
672 rc = cyttsp4_si_get_opcfg_data(cd);
676 rc = cyttsp4_si_get_ddata(cd);
680 rc = cyttsp4_si_get_mdata(cd);
684 rc = cyttsp4_si_get_btn_data(cd);
688 rc = cyttsp4_si_get_op_data_ptrs(cd);
690 dev_err(cd->dev, "%s: failed to get_op_data\n",
695 cyttsp4_si_put_log_data(cd);
697 /* provide flow control handshake */
698 rc = cyttsp4_handshake(cd, si->si_data.hst_mode);
700 dev_err(cd->dev, "%s: handshake fail on sysinfo reg\n",
707 static void cyttsp4_queue_startup_(struct cyttsp4 *cd)
709 if (cd->startup_state == STARTUP_NONE) {
710 cd->startup_state = STARTUP_QUEUED;
711 schedule_work(&cd->startup_work);
712 dev_dbg(cd->dev, "%s: cyttsp4_startup queued\n", __func__);
714 dev_dbg(cd->dev, "%s: startup_state = %d\n", __func__,
719 static void cyttsp4_report_slot_liftoff(struct cyttsp4_mt_data *md,
724 if (md->num_prv_tch == 0)
727 for (t = 0; t < max_slots; t++) {
728 input_mt_slot(md->input, t);
729 input_mt_report_slot_state(md->input,
730 MT_TOOL_FINGER, false);
734 static void cyttsp4_lift_all(struct cyttsp4_mt_data *md)
739 if (md->num_prv_tch != 0) {
740 cyttsp4_report_slot_liftoff(md,
741 md->si->si_ofs.tch_abs[CY_TCH_T].max);
742 input_sync(md->input);
747 static void cyttsp4_get_touch_axis(struct cyttsp4_mt_data *md,
748 int *axis, int size, int max, u8 *xy_data, int bofs)
753 for (nbyte = 0, *axis = 0, next = 0; nbyte < size; nbyte++) {
754 dev_vdbg(&md->input->dev,
755 "%s: *axis=%02X(%d) size=%d max=%08X xy_data=%p"
756 " xy_data[%d]=%02X(%d) bofs=%d\n",
757 __func__, *axis, *axis, size, max, xy_data, next,
758 xy_data[next], xy_data[next], bofs);
759 *axis = (*axis * 256) + (xy_data[next] >> bofs);
765 dev_vdbg(&md->input->dev,
766 "%s: *axis=%02X(%d) size=%d max=%08X xy_data=%p"
767 " xy_data[%d]=%02X(%d)\n",
768 __func__, *axis, *axis, size, max, xy_data, next,
769 xy_data[next], xy_data[next]);
772 static void cyttsp4_get_touch(struct cyttsp4_mt_data *md,
773 struct cyttsp4_touch *touch, u8 *xy_data)
775 struct device *dev = &md->input->dev;
776 struct cyttsp4_sysinfo *si = md->si;
777 enum cyttsp4_tch_abs abs;
781 for (abs = CY_TCH_X; abs < CY_TCH_NUM_ABS; abs++) {
782 cyttsp4_get_touch_axis(md, &touch->abs[abs],
783 si->si_ofs.tch_abs[abs].size,
784 si->si_ofs.tch_abs[abs].max,
785 xy_data + si->si_ofs.tch_abs[abs].ofs,
786 si->si_ofs.tch_abs[abs].bofs);
787 dev_vdbg(dev, "%s: get %s=%04X(%d)\n", __func__,
788 cyttsp4_tch_abs_string[abs],
789 touch->abs[abs], touch->abs[abs]);
792 if (md->pdata->flags & CY_FLAG_FLIP) {
793 tmp = touch->abs[CY_TCH_X];
794 touch->abs[CY_TCH_X] = touch->abs[CY_TCH_Y];
795 touch->abs[CY_TCH_Y] = tmp;
800 if (md->pdata->flags & CY_FLAG_INV_X) {
802 touch->abs[CY_TCH_X] = md->si->si_ofs.max_y -
803 touch->abs[CY_TCH_X];
805 touch->abs[CY_TCH_X] = md->si->si_ofs.max_x -
806 touch->abs[CY_TCH_X];
808 if (md->pdata->flags & CY_FLAG_INV_Y) {
810 touch->abs[CY_TCH_Y] = md->si->si_ofs.max_x -
811 touch->abs[CY_TCH_Y];
813 touch->abs[CY_TCH_Y] = md->si->si_ofs.max_y -
814 touch->abs[CY_TCH_Y];
817 dev_vdbg(dev, "%s: flip=%s inv-x=%s inv-y=%s x=%04X(%d) y=%04X(%d)\n",
818 __func__, flipped ? "true" : "false",
819 md->pdata->flags & CY_FLAG_INV_X ? "true" : "false",
820 md->pdata->flags & CY_FLAG_INV_Y ? "true" : "false",
821 touch->abs[CY_TCH_X], touch->abs[CY_TCH_X],
822 touch->abs[CY_TCH_Y], touch->abs[CY_TCH_Y]);
825 static void cyttsp4_final_sync(struct input_dev *input, int max_slots, int *ids)
829 for (t = 0; t < max_slots; t++) {
832 input_mt_slot(input, t);
833 input_mt_report_slot_state(input, MT_TOOL_FINGER, false);
839 static void cyttsp4_get_mt_touches(struct cyttsp4_mt_data *md, int num_cur_tch)
841 struct device *dev = &md->input->dev;
842 struct cyttsp4_sysinfo *si = md->si;
843 struct cyttsp4_touch tch;
846 int ids[max(CY_TMA1036_MAX_TCH, CY_TMA4XX_MAX_TCH)];
848 memset(ids, 0, si->si_ofs.tch_abs[CY_TCH_T].max * sizeof(int));
849 for (i = 0; i < num_cur_tch; i++) {
850 cyttsp4_get_touch(md, &tch, si->xy_data +
851 (i * si->si_ofs.tch_rec_size));
852 if ((tch.abs[CY_TCH_T] < md->pdata->frmwrk->abs
853 [(CY_ABS_ID_OST * CY_NUM_ABS_SET) + CY_MIN_OST]) ||
854 (tch.abs[CY_TCH_T] > md->pdata->frmwrk->abs
855 [(CY_ABS_ID_OST * CY_NUM_ABS_SET) + CY_MAX_OST])) {
856 dev_err(dev, "%s: tch=%d -> bad trk_id=%d max_id=%d\n",
857 __func__, i, tch.abs[CY_TCH_T],
858 md->pdata->frmwrk->abs[(CY_ABS_ID_OST *
859 CY_NUM_ABS_SET) + CY_MAX_OST]);
863 /* use 0 based track id's */
864 sig = md->pdata->frmwrk->abs
865 [(CY_ABS_ID_OST * CY_NUM_ABS_SET) + 0];
866 if (sig != CY_IGNORE_VALUE) {
867 t = tch.abs[CY_TCH_T] - md->pdata->frmwrk->abs
868 [(CY_ABS_ID_OST * CY_NUM_ABS_SET) + CY_MIN_OST];
869 if (tch.abs[CY_TCH_E] == CY_EV_LIFTOFF) {
870 dev_dbg(dev, "%s: t=%d e=%d lift-off\n",
871 __func__, t, tch.abs[CY_TCH_E]);
872 goto cyttsp4_get_mt_touches_pr_tch;
874 input_mt_slot(md->input, t);
875 input_mt_report_slot_state(md->input, MT_TOOL_FINGER,
880 /* all devices: position and pressure fields */
881 for (j = 0; j <= CY_ABS_W_OST; j++) {
882 sig = md->pdata->frmwrk->abs[((CY_ABS_X_OST + j) *
883 CY_NUM_ABS_SET) + 0];
884 if (sig != CY_IGNORE_VALUE)
885 input_report_abs(md->input, sig,
886 tch.abs[CY_TCH_X + j]);
888 if (si->si_ofs.tch_rec_size > CY_TMA1036_TCH_REC_SIZE) {
890 * TMA400 size and orientation fields:
891 * if pressure is non-zero and major touch
892 * signal is zero, then set major and minor touch
893 * signals to minimum non-zero value
895 if (tch.abs[CY_TCH_P] > 0 && tch.abs[CY_TCH_MAJ] == 0)
896 tch.abs[CY_TCH_MAJ] = tch.abs[CY_TCH_MIN] = 1;
898 /* Get the extended touch fields */
899 for (j = 0; j < CY_NUM_EXT_TCH_FIELDS; j++) {
900 sig = md->pdata->frmwrk->abs
901 [((CY_ABS_MAJ_OST + j) *
902 CY_NUM_ABS_SET) + 0];
903 if (sig != CY_IGNORE_VALUE)
904 input_report_abs(md->input, sig,
905 tch.abs[CY_TCH_MAJ + j]);
909 cyttsp4_get_mt_touches_pr_tch:
910 if (si->si_ofs.tch_rec_size > CY_TMA1036_TCH_REC_SIZE)
912 "%s: t=%d x=%d y=%d z=%d M=%d m=%d o=%d e=%d\n",
923 "%s: t=%d x=%d y=%d z=%d e=%d\n", __func__,
931 cyttsp4_final_sync(md->input, si->si_ofs.tch_abs[CY_TCH_T].max, ids);
933 md->num_prv_tch = num_cur_tch;
938 /* read xy_data for all current touches */
939 static int cyttsp4_xy_worker(struct cyttsp4 *cd)
941 struct cyttsp4_mt_data *md = &cd->md;
942 struct device *dev = &md->input->dev;
943 struct cyttsp4_sysinfo *si = md->si;
952 * Get event data from cyttsp4 device.
953 * The event data includes all data
954 * for all active touches.
955 * Event data also includes button data
959 * 1st read to get mode + button bytes + touch count (core)
960 * 2nd read (optional) to get touch 1 - touch n data
962 hst_mode = si->xy_mode[CY_REG_BASE];
963 rep_len = si->xy_mode[si->si_ofs.rep_ofs];
964 rep_stat = si->xy_mode[si->si_ofs.rep_ofs + 1];
965 tt_stat = si->xy_mode[si->si_ofs.tt_stat_ofs];
966 dev_vdbg(dev, "%s: %s%02X %s%d %s%02X %s%02X\n", __func__,
967 "hst_mode=", hst_mode, "rep_len=", rep_len,
968 "rep_stat=", rep_stat, "tt_stat=", tt_stat);
970 num_cur_tch = GET_NUM_TOUCHES(tt_stat);
971 dev_vdbg(dev, "%s: num_cur_tch=%d\n", __func__, num_cur_tch);
973 if (rep_len == 0 && num_cur_tch > 0) {
974 dev_err(dev, "%s: report length error rep_len=%d num_tch=%d\n",
975 __func__, rep_len, num_cur_tch);
976 goto cyttsp4_xy_worker_exit;
980 if (num_cur_tch > 0) {
981 rc = cyttsp4_adap_read(cd, si->si_ofs.tt_stat_ofs + 1,
982 num_cur_tch * si->si_ofs.tch_rec_size,
985 dev_err(dev, "%s: read fail on touch regs r=%d\n",
987 goto cyttsp4_xy_worker_exit;
992 cyttsp4_pr_buf(dev, cd->pr_buf, si->xy_data, num_cur_tch *
993 si->si_ofs.tch_rec_size, "xy_data");
995 /* check any error conditions */
996 if (IS_BAD_PKT(rep_stat)) {
997 dev_dbg(dev, "%s: Invalid buffer detected\n", __func__);
999 goto cyttsp4_xy_worker_exit;
1002 if (IS_LARGE_AREA(tt_stat))
1003 dev_dbg(dev, "%s: Large area detected\n", __func__);
1005 if (num_cur_tch > si->si_ofs.max_tchs) {
1006 dev_err(dev, "%s: too many tch; set to max tch (n=%d c=%Zd)\n",
1007 __func__, num_cur_tch, si->si_ofs.max_tchs);
1008 num_cur_tch = si->si_ofs.max_tchs;
1011 /* extract xy_data for all currently reported touches */
1012 dev_vdbg(dev, "%s: extract data num_cur_tch=%d\n", __func__,
1015 cyttsp4_get_mt_touches(md, num_cur_tch);
1017 cyttsp4_lift_all(md);
1021 cyttsp4_xy_worker_exit:
1025 static int cyttsp4_mt_attention(struct cyttsp4 *cd)
1027 struct device *dev = cd->dev;
1028 struct cyttsp4_mt_data *md = &cd->md;
1034 mutex_lock(&md->report_lock);
1035 if (!md->is_suspended) {
1036 /* core handles handshake */
1037 rc = cyttsp4_xy_worker(cd);
1039 dev_vdbg(dev, "%s: Ignoring report while suspended\n",
1042 mutex_unlock(&md->report_lock);
1044 dev_err(dev, "%s: xy_worker error r=%d\n", __func__, rc);
1049 static irqreturn_t cyttsp4_irq(int irq, void *handle)
1051 struct cyttsp4 *cd = handle;
1052 struct device *dev = cd->dev;
1053 enum cyttsp4_mode cur_mode;
1054 u8 cmd_ofs = cd->sysinfo.si_ofs.cmd_ofs;
1059 * Check whether this IRQ should be ignored (external)
1060 * This should be the very first thing to check since
1061 * ignore_irq may be set for a very short period of time
1063 if (atomic_read(&cd->ignore_irq)) {
1064 dev_vdbg(dev, "%s: Ignoring IRQ\n", __func__);
1068 dev_dbg(dev, "%s int:0x%x\n", __func__, cd->int_status);
1070 mutex_lock(&cd->system_lock);
1073 if (cd->sleep_state == SS_SLEEP_ON || cd->sleep_state == SS_SLEEPING)
1074 dev_vdbg(dev, "%s: Received IRQ while in sleep\n", __func__);
1076 rc = cyttsp4_adap_read(cd, CY_REG_BASE, sizeof(mode), mode);
1078 dev_err(cd->dev, "%s: Fail read adapter r=%d\n", __func__, rc);
1079 goto cyttsp4_irq_exit;
1081 dev_vdbg(dev, "%s mode[0-2]:0x%X 0x%X 0x%X\n", __func__,
1082 mode[0], mode[1], mode[2]);
1084 if (IS_BOOTLOADER(mode[0], mode[1])) {
1085 cur_mode = CY_MODE_BOOTLOADER;
1086 dev_vdbg(dev, "%s: bl running\n", __func__);
1087 if (cd->mode == CY_MODE_BOOTLOADER) {
1088 /* Signal bootloader heartbeat heard */
1089 wake_up(&cd->wait_q);
1090 goto cyttsp4_irq_exit;
1093 /* switch to bootloader */
1094 dev_dbg(dev, "%s: restart switch to bl m=%d -> m=%d\n",
1095 __func__, cd->mode, cur_mode);
1097 /* catch operation->bl glitch */
1098 if (cd->mode != CY_MODE_UNKNOWN) {
1099 /* Incase startup_state do not let startup_() */
1100 cd->mode = CY_MODE_UNKNOWN;
1101 cyttsp4_queue_startup_(cd);
1102 goto cyttsp4_irq_exit;
1106 * do not wake thread on this switch since
1107 * it is possible to get an early heartbeat
1108 * prior to performing the reset
1110 cd->mode = cur_mode;
1112 goto cyttsp4_irq_exit;
1115 switch (mode[0] & CY_HST_MODE) {
1116 case CY_HST_OPERATE:
1117 cur_mode = CY_MODE_OPERATIONAL;
1118 dev_vdbg(dev, "%s: operational\n", __func__);
1121 cur_mode = CY_MODE_CAT;
1122 dev_vdbg(dev, "%s: CaT\n", __func__);
1124 case CY_HST_SYSINFO:
1125 cur_mode = CY_MODE_SYSINFO;
1126 dev_vdbg(dev, "%s: sysinfo\n", __func__);
1129 cur_mode = CY_MODE_UNKNOWN;
1130 dev_err(dev, "%s: unknown HST mode 0x%02X\n", __func__,
1135 /* Check whether this IRQ should be ignored (internal) */
1136 if (cd->int_status & CY_INT_IGNORE) {
1137 dev_vdbg(dev, "%s: Ignoring IRQ\n", __func__);
1138 goto cyttsp4_irq_exit;
1141 /* Check for wake up interrupt */
1142 if (cd->int_status & CY_INT_AWAKE) {
1143 cd->int_status &= ~CY_INT_AWAKE;
1144 wake_up(&cd->wait_q);
1145 dev_vdbg(dev, "%s: Received wake up interrupt\n", __func__);
1146 goto cyttsp4_irq_handshake;
1149 /* Expecting mode change interrupt */
1150 if ((cd->int_status & CY_INT_MODE_CHANGE)
1151 && (mode[0] & CY_HST_MODE_CHANGE) == 0) {
1152 cd->int_status &= ~CY_INT_MODE_CHANGE;
1153 dev_dbg(dev, "%s: finish mode switch m=%d -> m=%d\n",
1154 __func__, cd->mode, cur_mode);
1155 cd->mode = cur_mode;
1156 wake_up(&cd->wait_q);
1157 goto cyttsp4_irq_handshake;
1160 /* compare current core mode to current device mode */
1161 dev_vdbg(dev, "%s: cd->mode=%d cur_mode=%d\n",
1162 __func__, cd->mode, cur_mode);
1163 if ((mode[0] & CY_HST_MODE_CHANGE) == 0 && cd->mode != cur_mode) {
1164 /* Unexpected mode change occurred */
1165 dev_err(dev, "%s %d->%d 0x%x\n", __func__, cd->mode,
1166 cur_mode, cd->int_status);
1167 dev_dbg(dev, "%s: Unexpected mode change, startup\n",
1169 cyttsp4_queue_startup_(cd);
1170 goto cyttsp4_irq_exit;
1173 /* Expecting command complete interrupt */
1174 dev_vdbg(dev, "%s: command byte:0x%x\n", __func__, mode[cmd_ofs]);
1175 if ((cd->int_status & CY_INT_EXEC_CMD)
1176 && mode[cmd_ofs] & CY_CMD_COMPLETE) {
1177 cd->int_status &= ~CY_INT_EXEC_CMD;
1178 dev_vdbg(dev, "%s: Received command complete interrupt\n",
1180 wake_up(&cd->wait_q);
1182 * It is possible to receive a single interrupt for
1183 * command complete and touch/button status report.
1184 * Continue processing for a possible status report.
1188 /* This should be status report, read status regs */
1189 if (cd->mode == CY_MODE_OPERATIONAL) {
1190 dev_vdbg(dev, "%s: Read status registers\n", __func__);
1191 rc = cyttsp4_load_status_regs(cd);
1193 dev_err(dev, "%s: fail read mode regs r=%d\n",
1197 cyttsp4_mt_attention(cd);
1199 cyttsp4_irq_handshake:
1200 /* handshake the event */
1201 dev_vdbg(dev, "%s: Handshake mode=0x%02X r=%d\n",
1202 __func__, mode[0], rc);
1203 rc = cyttsp4_handshake(cd, mode[0]);
1205 dev_err(dev, "%s: Fail handshake mode=0x%02X r=%d\n",
1206 __func__, mode[0], rc);
1209 * a non-zero udelay period is required for using
1210 * IRQF_TRIGGER_LOW in order to delay until the
1211 * device completes isr deassert
1213 udelay(cd->cpdata->level_irq_udelay);
1216 mutex_unlock(&cd->system_lock);
1220 static void cyttsp4_start_wd_timer(struct cyttsp4 *cd)
1222 if (!CY_WATCHDOG_TIMEOUT)
1225 mod_timer(&cd->watchdog_timer, jiffies +
1226 msecs_to_jiffies(CY_WATCHDOG_TIMEOUT));
1229 static void cyttsp4_stop_wd_timer(struct cyttsp4 *cd)
1231 if (!CY_WATCHDOG_TIMEOUT)
1235 * Ensure we wait until the watchdog timer
1236 * running on a different CPU finishes
1238 del_timer_sync(&cd->watchdog_timer);
1239 cancel_work_sync(&cd->watchdog_work);
1240 del_timer_sync(&cd->watchdog_timer);
1243 static void cyttsp4_watchdog_timer(unsigned long handle)
1245 struct cyttsp4 *cd = (struct cyttsp4 *)handle;
1247 dev_vdbg(cd->dev, "%s: Watchdog timer triggered\n", __func__);
1249 schedule_work(&cd->watchdog_work);
1254 static int cyttsp4_request_exclusive(struct cyttsp4 *cd, void *ownptr,
1257 int t = msecs_to_jiffies(timeout_ms);
1258 bool with_timeout = (timeout_ms != 0);
1260 mutex_lock(&cd->system_lock);
1261 if (!cd->exclusive_dev && cd->exclusive_waits == 0) {
1262 cd->exclusive_dev = ownptr;
1266 cd->exclusive_waits++;
1268 mutex_unlock(&cd->system_lock);
1270 t = wait_event_timeout(cd->wait_q, !cd->exclusive_dev, t);
1272 dev_err(cd->dev, "%s: tmo waiting exclusive access\n",
1274 mutex_lock(&cd->system_lock);
1275 cd->exclusive_waits--;
1276 mutex_unlock(&cd->system_lock);
1280 wait_event(cd->wait_q, !cd->exclusive_dev);
1282 mutex_lock(&cd->system_lock);
1283 if (cd->exclusive_dev)
1285 cd->exclusive_dev = ownptr;
1286 cd->exclusive_waits--;
1288 mutex_unlock(&cd->system_lock);
1294 * returns error if was not owned
1296 static int cyttsp4_release_exclusive(struct cyttsp4 *cd, void *ownptr)
1298 mutex_lock(&cd->system_lock);
1299 if (cd->exclusive_dev != ownptr) {
1300 mutex_unlock(&cd->system_lock);
1304 dev_vdbg(cd->dev, "%s: exclusive_dev %p freed\n",
1305 __func__, cd->exclusive_dev);
1306 cd->exclusive_dev = NULL;
1307 wake_up(&cd->wait_q);
1308 mutex_unlock(&cd->system_lock);
1312 static int cyttsp4_wait_bl_heartbeat(struct cyttsp4 *cd)
1317 /* wait heartbeat */
1318 dev_vdbg(cd->dev, "%s: wait heartbeat...\n", __func__);
1319 t = wait_event_timeout(cd->wait_q, cd->mode == CY_MODE_BOOTLOADER,
1320 msecs_to_jiffies(CY_CORE_RESET_AND_WAIT_TIMEOUT));
1322 dev_err(cd->dev, "%s: tmo waiting bl heartbeat cd->mode=%d\n",
1323 __func__, cd->mode);
1330 static int cyttsp4_wait_sysinfo_mode(struct cyttsp4 *cd)
1334 dev_vdbg(cd->dev, "%s: wait sysinfo...\n", __func__);
1336 t = wait_event_timeout(cd->wait_q, cd->mode == CY_MODE_SYSINFO,
1337 msecs_to_jiffies(CY_CORE_MODE_CHANGE_TIMEOUT));
1339 dev_err(cd->dev, "%s: tmo waiting exit bl cd->mode=%d\n",
1340 __func__, cd->mode);
1341 mutex_lock(&cd->system_lock);
1342 cd->int_status &= ~CY_INT_MODE_CHANGE;
1343 mutex_unlock(&cd->system_lock);
1350 static int cyttsp4_reset_and_wait(struct cyttsp4 *cd)
1354 /* reset hardware */
1355 mutex_lock(&cd->system_lock);
1356 dev_dbg(cd->dev, "%s: reset hw...\n", __func__);
1357 rc = cyttsp4_hw_reset(cd);
1358 cd->mode = CY_MODE_UNKNOWN;
1359 mutex_unlock(&cd->system_lock);
1361 dev_err(cd->dev, "%s:Fail hw reset r=%d\n", __func__, rc);
1365 return cyttsp4_wait_bl_heartbeat(cd);
1369 * returns err if refused or timeout; block until mode change complete
1370 * bit is set (mode change interrupt)
1372 static int cyttsp4_set_mode(struct cyttsp4 *cd, int new_mode)
1380 case CY_MODE_OPERATIONAL:
1381 new_dev_mode = CY_HST_OPERATE;
1383 case CY_MODE_SYSINFO:
1384 new_dev_mode = CY_HST_SYSINFO;
1387 new_dev_mode = CY_HST_CAT;
1390 dev_err(cd->dev, "%s: invalid mode: %02X(%d)\n",
1391 __func__, new_mode, new_mode);
1396 dev_dbg(cd->dev, "%s: %s=%p new_dev_mode=%02X new_mode=%d\n",
1397 __func__, "have exclusive", cd->exclusive_dev,
1398 new_dev_mode, new_mode);
1400 mutex_lock(&cd->system_lock);
1401 rc = cyttsp4_adap_read(cd, CY_REG_BASE, sizeof(mode), &mode);
1403 mutex_unlock(&cd->system_lock);
1404 dev_err(cd->dev, "%s: Fail read mode r=%d\n",
1409 /* Clear device mode bits and set to new mode */
1410 mode &= ~CY_HST_MODE;
1411 mode |= new_dev_mode | CY_HST_MODE_CHANGE;
1413 cd->int_status |= CY_INT_MODE_CHANGE;
1414 rc = cyttsp4_adap_write(cd, CY_REG_BASE, sizeof(mode), &mode);
1415 mutex_unlock(&cd->system_lock);
1417 dev_err(cd->dev, "%s: Fail write mode change r=%d\n",
1422 /* wait for mode change done interrupt */
1423 t = wait_event_timeout(cd->wait_q,
1424 (cd->int_status & CY_INT_MODE_CHANGE) == 0,
1425 msecs_to_jiffies(CY_CORE_MODE_CHANGE_TIMEOUT));
1426 dev_dbg(cd->dev, "%s: back from wait t=%ld cd->mode=%d\n",
1427 __func__, t, cd->mode);
1430 dev_err(cd->dev, "%s: %s\n", __func__,
1431 "tmo waiting mode change");
1432 mutex_lock(&cd->system_lock);
1433 cd->int_status &= ~CY_INT_MODE_CHANGE;
1434 mutex_unlock(&cd->system_lock);
1442 static void cyttsp4_watchdog_work(struct work_struct *work)
1444 struct cyttsp4 *cd =
1445 container_of(work, struct cyttsp4, watchdog_work);
1449 mutex_lock(&cd->system_lock);
1450 retval = cyttsp4_load_status_regs(cd);
1453 "%s: failed to access device in watchdog timer r=%d\n",
1455 cyttsp4_queue_startup_(cd);
1456 goto cyttsp4_timer_watchdog_exit_error;
1458 mode = &cd->sysinfo.xy_mode[CY_REG_BASE];
1459 if (IS_BOOTLOADER(mode[0], mode[1])) {
1461 "%s: device found in bootloader mode when operational mode\n",
1463 cyttsp4_queue_startup_(cd);
1464 goto cyttsp4_timer_watchdog_exit_error;
1467 cyttsp4_start_wd_timer(cd);
1468 cyttsp4_timer_watchdog_exit_error:
1469 mutex_unlock(&cd->system_lock);
1473 static int cyttsp4_core_sleep_(struct cyttsp4 *cd)
1475 enum cyttsp4_sleep_state ss = SS_SLEEP_ON;
1476 enum cyttsp4_int_state int_status = CY_INT_IGNORE;
1480 /* Already in sleep mode? */
1481 mutex_lock(&cd->system_lock);
1482 if (cd->sleep_state == SS_SLEEP_ON) {
1483 mutex_unlock(&cd->system_lock);
1486 cd->sleep_state = SS_SLEEPING;
1487 mutex_unlock(&cd->system_lock);
1489 cyttsp4_stop_wd_timer(cd);
1491 /* Wait until currently running IRQ handler exits and disable IRQ */
1492 disable_irq(cd->irq);
1494 dev_vdbg(cd->dev, "%s: write DEEP SLEEP...\n", __func__);
1495 mutex_lock(&cd->system_lock);
1496 rc = cyttsp4_adap_read(cd, CY_REG_BASE, sizeof(mode), &mode);
1498 mutex_unlock(&cd->system_lock);
1499 dev_err(cd->dev, "%s: Fail read adapter r=%d\n", __func__, rc);
1503 if (IS_BOOTLOADER(mode[0], mode[1])) {
1504 mutex_unlock(&cd->system_lock);
1505 dev_err(cd->dev, "%s: Device in BOOTLADER mode.\n", __func__);
1510 mode[0] |= CY_HST_SLEEP;
1511 rc = cyttsp4_adap_write(cd, CY_REG_BASE, sizeof(mode[0]), &mode[0]);
1512 mutex_unlock(&cd->system_lock);
1514 dev_err(cd->dev, "%s: Fail write adapter r=%d\n", __func__, rc);
1517 dev_vdbg(cd->dev, "%s: write DEEP SLEEP succeeded\n", __func__);
1519 if (cd->cpdata->power) {
1520 dev_dbg(cd->dev, "%s: Power down HW\n", __func__);
1521 rc = cd->cpdata->power(cd->cpdata, 0, cd->dev, &cd->ignore_irq);
1523 dev_dbg(cd->dev, "%s: No power function\n", __func__);
1527 dev_err(cd->dev, "%s: HW Power down fails r=%d\n",
1532 /* Give time to FW to sleep */
1539 int_status = CY_INT_NONE;
1540 cyttsp4_start_wd_timer(cd);
1543 mutex_lock(&cd->system_lock);
1544 cd->sleep_state = ss;
1545 cd->int_status |= int_status;
1546 mutex_unlock(&cd->system_lock);
1547 enable_irq(cd->irq);
1551 static int cyttsp4_startup_(struct cyttsp4 *cd)
1553 int retry = CY_CORE_STARTUP_RETRY_COUNT;
1556 cyttsp4_stop_wd_timer(cd);
1559 if (retry != CY_CORE_STARTUP_RETRY_COUNT)
1560 dev_dbg(cd->dev, "%s: Retry %d\n", __func__,
1561 CY_CORE_STARTUP_RETRY_COUNT - retry);
1563 /* reset hardware and wait for heartbeat */
1564 rc = cyttsp4_reset_and_wait(cd);
1566 dev_err(cd->dev, "%s: Error on h/w reset r=%d\n", __func__, rc);
1572 /* exit bl into sysinfo mode */
1573 dev_vdbg(cd->dev, "%s: write exit ldr...\n", __func__);
1574 mutex_lock(&cd->system_lock);
1575 cd->int_status &= ~CY_INT_IGNORE;
1576 cd->int_status |= CY_INT_MODE_CHANGE;
1578 rc = cyttsp4_adap_write(cd, CY_REG_BASE, sizeof(ldr_exit),
1580 mutex_unlock(&cd->system_lock);
1582 dev_err(cd->dev, "%s: Fail write r=%d\n", __func__, rc);
1588 rc = cyttsp4_wait_sysinfo_mode(cd);
1590 u8 buf[sizeof(ldr_err_app)];
1593 /* Check for invalid/corrupted touch application */
1594 rc1 = cyttsp4_adap_read(cd, CY_REG_BASE, sizeof(ldr_err_app),
1597 dev_err(cd->dev, "%s: Fail read r=%d\n", __func__, rc1);
1598 } else if (!memcmp(buf, ldr_err_app, sizeof(ldr_err_app))) {
1599 dev_err(cd->dev, "%s: Error launching touch application\n",
1601 mutex_lock(&cd->system_lock);
1602 cd->invalid_touch_app = true;
1603 mutex_unlock(&cd->system_lock);
1612 mutex_lock(&cd->system_lock);
1613 cd->invalid_touch_app = false;
1614 mutex_unlock(&cd->system_lock);
1616 /* read sysinfo data */
1617 dev_vdbg(cd->dev, "%s: get sysinfo regs..\n", __func__);
1618 rc = cyttsp4_get_sysinfo_regs(cd);
1620 dev_err(cd->dev, "%s: failed to get sysinfo regs rc=%d\n",
1627 rc = cyttsp4_set_mode(cd, CY_MODE_OPERATIONAL);
1629 dev_err(cd->dev, "%s: failed to set mode to operational rc=%d\n",
1636 cyttsp4_lift_all(&cd->md);
1638 /* restore to sleep if was suspended */
1639 mutex_lock(&cd->system_lock);
1640 if (cd->sleep_state == SS_SLEEP_ON) {
1641 cd->sleep_state = SS_SLEEP_OFF;
1642 mutex_unlock(&cd->system_lock);
1643 cyttsp4_core_sleep_(cd);
1646 mutex_unlock(&cd->system_lock);
1649 cyttsp4_start_wd_timer(cd);
1654 static int cyttsp4_startup(struct cyttsp4 *cd)
1658 mutex_lock(&cd->system_lock);
1659 cd->startup_state = STARTUP_RUNNING;
1660 mutex_unlock(&cd->system_lock);
1662 rc = cyttsp4_request_exclusive(cd, cd->dev,
1663 CY_CORE_REQUEST_EXCLUSIVE_TIMEOUT);
1665 dev_err(cd->dev, "%s: fail get exclusive ex=%p own=%p\n",
1666 __func__, cd->exclusive_dev, cd->dev);
1670 rc = cyttsp4_startup_(cd);
1672 if (cyttsp4_release_exclusive(cd, cd->dev) < 0)
1673 /* Don't return fail code, mode is already changed. */
1674 dev_err(cd->dev, "%s: fail to release exclusive\n", __func__);
1676 dev_vdbg(cd->dev, "%s: pass release exclusive\n", __func__);
1679 mutex_lock(&cd->system_lock);
1680 cd->startup_state = STARTUP_NONE;
1681 mutex_unlock(&cd->system_lock);
1683 /* Wake the waiters for end of startup */
1684 wake_up(&cd->wait_q);
1689 static void cyttsp4_startup_work_function(struct work_struct *work)
1691 struct cyttsp4 *cd = container_of(work, struct cyttsp4, startup_work);
1694 rc = cyttsp4_startup(cd);
1696 dev_err(cd->dev, "%s: Fail queued startup r=%d\n",
1700 static void cyttsp4_free_si_ptrs(struct cyttsp4 *cd)
1702 struct cyttsp4_sysinfo *si = &cd->sysinfo;
1707 kfree(si->si_ptrs.cydata);
1708 kfree(si->si_ptrs.test);
1709 kfree(si->si_ptrs.pcfg);
1710 kfree(si->si_ptrs.opcfg);
1711 kfree(si->si_ptrs.ddata);
1712 kfree(si->si_ptrs.mdata);
1716 kfree(si->btn_rec_data);
1719 #if defined(CONFIG_PM_SLEEP) || defined(CONFIG_PM_RUNTIME)
1720 static int cyttsp4_core_sleep(struct cyttsp4 *cd)
1724 rc = cyttsp4_request_exclusive(cd, cd->dev,
1725 CY_CORE_SLEEP_REQUEST_EXCLUSIVE_TIMEOUT);
1727 dev_err(cd->dev, "%s: fail get exclusive ex=%p own=%p\n",
1728 __func__, cd->exclusive_dev, cd->dev);
1732 rc = cyttsp4_core_sleep_(cd);
1734 if (cyttsp4_release_exclusive(cd, cd->dev) < 0)
1735 dev_err(cd->dev, "%s: fail to release exclusive\n", __func__);
1737 dev_vdbg(cd->dev, "%s: pass release exclusive\n", __func__);
1742 static int cyttsp4_core_wake_(struct cyttsp4 *cd)
1744 struct device *dev = cd->dev;
1749 /* Already woken? */
1750 mutex_lock(&cd->system_lock);
1751 if (cd->sleep_state == SS_SLEEP_OFF) {
1752 mutex_unlock(&cd->system_lock);
1755 cd->int_status &= ~CY_INT_IGNORE;
1756 cd->int_status |= CY_INT_AWAKE;
1757 cd->sleep_state = SS_WAKING;
1759 if (cd->cpdata->power) {
1760 dev_dbg(dev, "%s: Power up HW\n", __func__);
1761 rc = cd->cpdata->power(cd->cpdata, 1, dev, &cd->ignore_irq);
1763 dev_dbg(dev, "%s: No power function\n", __func__);
1767 dev_err(dev, "%s: HW Power up fails r=%d\n",
1770 /* Initiate a read transaction to wake up */
1771 cyttsp4_adap_read(cd, CY_REG_BASE, sizeof(mode), &mode);
1773 dev_vdbg(cd->dev, "%s: HW power up succeeds\n",
1775 mutex_unlock(&cd->system_lock);
1777 t = wait_event_timeout(cd->wait_q,
1778 (cd->int_status & CY_INT_AWAKE) == 0,
1779 msecs_to_jiffies(CY_CORE_WAKEUP_TIMEOUT));
1781 dev_err(dev, "%s: TMO waiting for wakeup\n", __func__);
1782 mutex_lock(&cd->system_lock);
1783 cd->int_status &= ~CY_INT_AWAKE;
1784 /* Try starting up */
1785 cyttsp4_queue_startup_(cd);
1786 mutex_unlock(&cd->system_lock);
1789 mutex_lock(&cd->system_lock);
1790 cd->sleep_state = SS_SLEEP_OFF;
1791 mutex_unlock(&cd->system_lock);
1793 cyttsp4_start_wd_timer(cd);
1798 static int cyttsp4_core_wake(struct cyttsp4 *cd)
1802 rc = cyttsp4_request_exclusive(cd, cd->dev,
1803 CY_CORE_REQUEST_EXCLUSIVE_TIMEOUT);
1805 dev_err(cd->dev, "%s: fail get exclusive ex=%p own=%p\n",
1806 __func__, cd->exclusive_dev, cd->dev);
1810 rc = cyttsp4_core_wake_(cd);
1812 if (cyttsp4_release_exclusive(cd, cd->dev) < 0)
1813 dev_err(cd->dev, "%s: fail to release exclusive\n", __func__);
1815 dev_vdbg(cd->dev, "%s: pass release exclusive\n", __func__);
1820 static int cyttsp4_core_suspend(struct device *dev)
1822 struct cyttsp4 *cd = dev_get_drvdata(dev);
1823 struct cyttsp4_mt_data *md = &cd->md;
1826 md->is_suspended = true;
1828 rc = cyttsp4_core_sleep(cd);
1830 dev_err(dev, "%s: Error on sleep\n", __func__);
1836 static int cyttsp4_core_resume(struct device *dev)
1838 struct cyttsp4 *cd = dev_get_drvdata(dev);
1839 struct cyttsp4_mt_data *md = &cd->md;
1842 md->is_suspended = false;
1844 rc = cyttsp4_core_wake(cd);
1846 dev_err(dev, "%s: Error on wake\n", __func__);
1854 const struct dev_pm_ops cyttsp4_pm_ops = {
1855 SET_SYSTEM_SLEEP_PM_OPS(cyttsp4_core_suspend, cyttsp4_core_resume)
1856 SET_RUNTIME_PM_OPS(cyttsp4_core_suspend, cyttsp4_core_resume, NULL)
1858 EXPORT_SYMBOL_GPL(cyttsp4_pm_ops);
1860 static int cyttsp4_mt_open(struct input_dev *input)
1862 pm_runtime_get(input->dev.parent);
1866 static void cyttsp4_mt_close(struct input_dev *input)
1868 struct cyttsp4_mt_data *md = input_get_drvdata(input);
1869 mutex_lock(&md->report_lock);
1870 if (!md->is_suspended)
1871 pm_runtime_put(input->dev.parent);
1872 mutex_unlock(&md->report_lock);
1876 static int cyttsp4_setup_input_device(struct cyttsp4 *cd)
1878 struct device *dev = cd->dev;
1879 struct cyttsp4_mt_data *md = &cd->md;
1880 int signal = CY_IGNORE_VALUE;
1881 int max_x, max_y, max_p, min, max;
1882 int max_x_tmp, max_y_tmp;
1886 dev_vdbg(dev, "%s: Initialize event signals\n", __func__);
1887 __set_bit(EV_ABS, md->input->evbit);
1888 __set_bit(EV_REL, md->input->evbit);
1889 __set_bit(EV_KEY, md->input->evbit);
1891 max_x_tmp = md->si->si_ofs.max_x;
1892 max_y_tmp = md->si->si_ofs.max_y;
1894 /* get maximum values from the sysinfo data */
1895 if (md->pdata->flags & CY_FLAG_FLIP) {
1896 max_x = max_y_tmp - 1;
1897 max_y = max_x_tmp - 1;
1899 max_x = max_x_tmp - 1;
1900 max_y = max_y_tmp - 1;
1902 max_p = md->si->si_ofs.max_p;
1904 /* set event signal capabilities */
1905 for (i = 0; i < (md->pdata->frmwrk->size / CY_NUM_ABS_SET); i++) {
1906 signal = md->pdata->frmwrk->abs
1907 [(i * CY_NUM_ABS_SET) + CY_SIGNAL_OST];
1908 if (signal != CY_IGNORE_VALUE) {
1909 __set_bit(signal, md->input->absbit);
1910 min = md->pdata->frmwrk->abs
1911 [(i * CY_NUM_ABS_SET) + CY_MIN_OST];
1912 max = md->pdata->frmwrk->abs
1913 [(i * CY_NUM_ABS_SET) + CY_MAX_OST];
1914 if (i == CY_ABS_ID_OST) {
1915 /* shift track ids down to start at 0 */
1918 } else if (i == CY_ABS_X_OST)
1920 else if (i == CY_ABS_Y_OST)
1922 else if (i == CY_ABS_P_OST)
1924 input_set_abs_params(md->input, signal, min, max,
1925 md->pdata->frmwrk->abs
1926 [(i * CY_NUM_ABS_SET) + CY_FUZZ_OST],
1927 md->pdata->frmwrk->abs
1928 [(i * CY_NUM_ABS_SET) + CY_FLAT_OST]);
1929 dev_dbg(dev, "%s: register signal=%02X min=%d max=%d\n",
1930 __func__, signal, min, max);
1931 if ((i == CY_ABS_ID_OST) &&
1932 (md->si->si_ofs.tch_rec_size <
1933 CY_TMA4XX_TCH_REC_SIZE))
1938 input_mt_init_slots(md->input, md->si->si_ofs.tch_abs[CY_TCH_T].max,
1940 rc = input_register_device(md->input);
1942 dev_err(dev, "%s: Error, failed register input device r=%d\n",
1947 static int cyttsp4_mt_probe(struct cyttsp4 *cd)
1949 struct device *dev = cd->dev;
1950 struct cyttsp4_mt_data *md = &cd->md;
1951 struct cyttsp4_mt_platform_data *pdata = cd->pdata->mt_pdata;
1954 mutex_init(&md->report_lock);
1956 /* Create the input device and register it. */
1957 dev_vdbg(dev, "%s: Create the input device and register it\n",
1959 md->input = input_allocate_device();
1960 if (md->input == NULL) {
1961 dev_err(dev, "%s: Error, failed to allocate input device\n",
1964 goto error_alloc_failed;
1967 md->input->name = pdata->inp_dev_name;
1968 scnprintf(md->phys, sizeof(md->phys)-1, "%s", dev_name(dev));
1969 md->input->phys = md->phys;
1970 md->input->id.bustype = cd->bus_ops->bustype;
1971 md->input->dev.parent = dev;
1972 md->input->open = cyttsp4_mt_open;
1973 md->input->close = cyttsp4_mt_close;
1974 input_set_drvdata(md->input, md);
1977 md->si = &cd->sysinfo;
1979 dev_err(dev, "%s: Fail get sysinfo pointer from core p=%p\n",
1981 goto error_get_sysinfo;
1984 rc = cyttsp4_setup_input_device(cd);
1986 goto error_init_input;
1991 input_free_device(md->input);
1993 input_set_drvdata(md->input, NULL);
1995 dev_err(dev, "%s failed.\n", __func__);
1999 struct cyttsp4 *cyttsp4_probe(const struct cyttsp4_bus_ops *ops,
2000 struct device *dev, u16 irq, size_t xfer_buf_size)
2003 struct cyttsp4_platform_data *pdata = dev_get_platdata(dev);
2004 unsigned long irq_flags;
2007 if (!pdata || !pdata->core_pdata || !pdata->mt_pdata) {
2008 dev_err(dev, "%s: Missing platform data\n", __func__);
2010 goto error_no_pdata;
2013 cd = kzalloc(sizeof(*cd), GFP_KERNEL);
2015 dev_err(dev, "%s: Error, kzalloc\n", __func__);
2017 goto error_alloc_data;
2020 cd->xfer_buf = kzalloc(xfer_buf_size, GFP_KERNEL);
2021 if (!cd->xfer_buf) {
2022 dev_err(dev, "%s: Error, kzalloc\n", __func__);
2027 /* Initialize device info */
2030 cd->cpdata = pdata->core_pdata;
2033 /* Initialize mutexes and spinlocks */
2034 mutex_init(&cd->system_lock);
2035 mutex_init(&cd->adap_lock);
2037 /* Initialize wait queue */
2038 init_waitqueue_head(&cd->wait_q);
2040 /* Initialize works */
2041 INIT_WORK(&cd->startup_work, cyttsp4_startup_work_function);
2042 INIT_WORK(&cd->watchdog_work, cyttsp4_watchdog_work);
2044 /* Initialize IRQ */
2045 cd->irq = gpio_to_irq(cd->cpdata->irq_gpio);
2048 goto error_free_xfer;
2051 dev_set_drvdata(dev, cd);
2053 /* Call platform init function */
2054 if (cd->cpdata->init) {
2055 dev_dbg(cd->dev, "%s: Init HW\n", __func__);
2056 rc = cd->cpdata->init(cd->cpdata, 1, cd->dev);
2058 dev_dbg(cd->dev, "%s: No HW INIT function\n", __func__);
2062 dev_err(cd->dev, "%s: HW Init fail r=%d\n", __func__, rc);
2064 dev_dbg(dev, "%s: initialize threaded irq=%d\n", __func__, cd->irq);
2065 if (cd->cpdata->level_irq_udelay > 0)
2066 /* use level triggered interrupts */
2067 irq_flags = IRQF_TRIGGER_LOW | IRQF_ONESHOT;
2069 /* use edge triggered interrupts */
2070 irq_flags = IRQF_TRIGGER_FALLING | IRQF_ONESHOT;
2072 rc = request_threaded_irq(cd->irq, NULL, cyttsp4_irq, irq_flags,
2075 dev_err(dev, "%s: Error, could not request irq\n", __func__);
2076 goto error_request_irq;
2079 /* Setup watchdog timer */
2080 setup_timer(&cd->watchdog_timer, cyttsp4_watchdog_timer,
2084 * call startup directly to ensure that the device
2085 * is tested before leaving the probe
2087 rc = cyttsp4_startup(cd);
2089 /* Do not fail probe if startup fails but the device is detected */
2090 if (rc < 0 && cd->mode == CY_MODE_UNKNOWN) {
2091 dev_err(cd->dev, "%s: Fail initial startup r=%d\n",
2096 rc = cyttsp4_mt_probe(cd);
2098 dev_err(dev, "%s: Error, fail mt probe\n", __func__);
2102 pm_runtime_enable(dev);
2107 cancel_work_sync(&cd->startup_work);
2108 cyttsp4_stop_wd_timer(cd);
2109 pm_runtime_disable(dev);
2110 cyttsp4_free_si_ptrs(cd);
2111 free_irq(cd->irq, cd);
2113 if (cd->cpdata->init)
2114 cd->cpdata->init(cd->cpdata, 0, dev);
2116 kfree(cd->xfer_buf);
2121 dev_err(dev, "%s failed.\n", __func__);
2124 EXPORT_SYMBOL_GPL(cyttsp4_probe);
2126 static void cyttsp4_mt_release(struct cyttsp4_mt_data *md)
2128 input_unregister_device(md->input);
2129 input_set_drvdata(md->input, NULL);
2132 int cyttsp4_remove(struct cyttsp4 *cd)
2134 struct device *dev = cd->dev;
2136 cyttsp4_mt_release(&cd->md);
2139 * Suspend the device before freeing the startup_work and stopping
2140 * the watchdog since sleep function restarts watchdog on failure
2142 pm_runtime_suspend(dev);
2143 pm_runtime_disable(dev);
2145 cancel_work_sync(&cd->startup_work);
2147 cyttsp4_stop_wd_timer(cd);
2149 free_irq(cd->irq, cd);
2150 if (cd->cpdata->init)
2151 cd->cpdata->init(cd->cpdata, 0, dev);
2152 cyttsp4_free_si_ptrs(cd);
2156 EXPORT_SYMBOL_GPL(cyttsp4_remove);
2158 MODULE_LICENSE("GPL");
2159 MODULE_DESCRIPTION("Cypress TrueTouch(R) Standard touchscreen core driver");
2160 MODULE_AUTHOR("Cypress");
projects / linux-drm-fsl-dcu.git / blob