3 * Synaptics Register Mapped Interface (RMI4) I2C Physical Layer Driver.
4 * Copyright (c) 2007-2010, Synaptics Incorporated
6 * Author: Js HA <js.ha@stericsson.com> for ST-Ericsson
7 * Author: Naveen Kumar G <naveen.gaddipati@stericsson.com> for ST-Ericsson
8 * Copyright 2010 (c) ST-Ericsson AB
11 * This file is licensed under the GPL2 license.
13 *#############################################################################
16 * This program is free software; you can redistribute it and/or modify it
17 * under the terms of the GNU General Public License version 2 as published
18 * by the Free Software Foundation.
20 * This program is distributed in the hope that it will be useful, but
21 * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
22 * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
25 *#############################################################################
28 #include <linux/input.h>
29 #include <linux/slab.h>
30 #include <linux/i2c.h>
31 #include <linux/interrupt.h>
32 #include <linux/regulator/consumer.h>
33 #include "synaptics_i2c_rmi4.h"
35 /* TODO: for multiple device support will need a per-device mutex */
36 #define DRIVER_NAME "synaptics_rmi4_i2c"
38 #define MAX_ERROR_REPORT 6
39 #define MAX_TOUCH_MAJOR 15
40 #define MAX_RETRY_COUNT 5
41 #define STD_QUERY_LEN 21
43 #define DATA_BUF_LEN 32
48 #define HAS_PALMDETECT 0x01
49 #define HAS_ROTATE 0x02
50 #define HAS_TAPANDHOLD 0x02
51 #define HAS_DOUBLETAP 0x04
52 #define HAS_EARLYTAP 0x08
53 #define HAS_RELEASE 0x08
54 #define HAS_FLICK 0x10
55 #define HAS_PRESS 0x20
56 #define HAS_PINCH 0x40
58 #define MASK_16BIT 0xFFFF
59 #define MASK_8BIT 0xFF
60 #define MASK_7BIT 0x7F
61 #define MASK_5BIT 0x1F
62 #define MASK_4BIT 0x0F
63 #define MASK_3BIT 0x07
64 #define MASK_2BIT 0x03
65 #define TOUCHPAD_CTRL_INTR 0x8
66 #define PDT_START_SCAN_LOCATION (0x00E9)
67 #define PDT_END_SCAN_LOCATION (0x000A)
68 #define PDT_ENTRY_SIZE (0x0006)
69 #define RMI4_NUMBER_OF_MAX_FINGERS (8)
70 #define SYNAPTICS_RMI4_TOUCHPAD_FUNC_NUM (0x11)
71 #define SYNAPTICS_RMI4_DEVICE_CONTROL_FUNC_NUM (0x01)
74 * struct synaptics_rmi4_fn_desc - contains the funtion descriptor information
75 * @query_base_addr: base address for query
76 * @cmd_base_addr: base address for command
77 * @ctrl_base_addr: base address for control
78 * @data_base_addr: base address for data
79 * @intr_src_count: count for the interrupt source
80 * @fn_number: function number
82 * This structure is used to gives the function descriptor information
83 * of the particular functionality.
85 struct synaptics_rmi4_fn_desc {
86 unsigned char query_base_addr;
87 unsigned char cmd_base_addr;
88 unsigned char ctrl_base_addr;
89 unsigned char data_base_addr;
90 unsigned char intr_src_count;
91 unsigned char fn_number;
95 * struct synaptics_rmi4_fn - contains the funtion information
96 * @fn_number: function number
97 * @num_of_data_sources: number of data sources
98 * @num_of_data_points: number of fingers touched
99 * @size_of_data_register_block: data register block size
100 * @index_to_intr_reg: index for interrupt register
101 * @intr_mask: interrupt mask value
102 * @fn_desc: variable for function descriptor structure
103 * @link: linked list for function descriptors
105 * This structure gives information about the number of data sources and
106 * the number of data registers associated with the function.
108 struct synaptics_rmi4_fn {
109 unsigned char fn_number;
110 unsigned char num_of_data_sources;
111 unsigned char num_of_data_points;
112 unsigned char size_of_data_register_block;
113 unsigned char index_to_intr_reg;
114 unsigned char intr_mask;
115 struct synaptics_rmi4_fn_desc fn_desc;
116 struct list_head link;
120 * struct synaptics_rmi4_device_info - contains the rmi4 device information
121 * @version_major: protocol major version number
122 * @version_minor: protocol minor version number
123 * @manufacturer_id: manufacturer identification byte
124 * @product_props: product properties information
125 * @product_info: product info array
126 * @date_code: device manufacture date
127 * @tester_id: tester id array
128 * @serial_number: serial number for that device
129 * @product_id_string: product id for the device
130 * @support_fn_list: linked list for device information
132 * This structure gives information about the number of data sources and
133 * the number of data registers associated with the function.
135 struct synaptics_rmi4_device_info {
136 unsigned int version_major;
137 unsigned int version_minor;
138 unsigned char manufacturer_id;
139 unsigned char product_props;
140 unsigned char product_info[2];
141 unsigned char date_code[3];
142 unsigned short tester_id;
143 unsigned short serial_number;
144 unsigned char product_id_string[11];
145 struct list_head support_fn_list;
149 * struct synaptics_rmi4_data - contains the rmi4 device data
150 * @rmi4_mod_info: structure variable for rmi4 device info
151 * @input_dev: pointer for input device
152 * @i2c_client: pointer for i2c client
153 * @board: constant pointer for touch platform data
154 * @fn_list_mutex: mutex for funtion list
155 * @rmi4_page_mutex: mutex for rmi4 page
156 * @current_page: variable for integer
157 * @number_of_interrupt_register: interrupt registers count
158 * @fn01_ctrl_base_addr: control base address for fn01
159 * @fn01_query_base_addr: query base address for fn01
160 * @fn01_data_base_addr: data base address for fn01
161 * @sensor_max_x: sensor maximum x value
162 * @sensor_max_y: sensor maximum y value
163 * @regulator: pointer to the regulator structure
164 * @wait: wait queue structure variable
165 * @touch_stopped: flag to stop the thread function
167 * This structure gives the device data information.
169 struct synaptics_rmi4_data {
170 struct synaptics_rmi4_device_info rmi4_mod_info;
171 struct input_dev *input_dev;
172 struct i2c_client *i2c_client;
173 const struct synaptics_rmi4_platform_data *board;
174 struct mutex fn_list_mutex;
175 struct mutex rmi4_page_mutex;
177 unsigned int number_of_interrupt_register;
178 unsigned short fn01_ctrl_base_addr;
179 unsigned short fn01_query_base_addr;
180 unsigned short fn01_data_base_addr;
183 struct regulator *regulator;
184 wait_queue_head_t wait;
189 * synaptics_rmi4_set_page() - sets the page
190 * @pdata: pointer to synaptics_rmi4_data structure
191 * @address: set the address of the page
193 * This function is used to set the page and returns integer.
195 static int synaptics_rmi4_set_page(struct synaptics_rmi4_data *pdata,
196 unsigned int address)
198 unsigned char txbuf[PAGE_LEN];
201 struct i2c_client *i2c = pdata->i2c_client;
203 page = ((address >> 8) & MASK_8BIT);
204 if (page != pdata->current_page) {
205 txbuf[0] = MASK_8BIT;
207 retval = i2c_master_send(i2c, txbuf, PAGE_LEN);
208 if (retval != PAGE_LEN)
209 dev_err(&i2c->dev, "%s:failed:%d\n", __func__, retval);
211 pdata->current_page = page;
217 * synaptics_rmi4_i2c_block_read() - read the block of data
218 * @pdata: pointer to synaptics_rmi4_data structure
219 * @address: read the block of data from this offset
220 * @valp: pointer to a buffer containing the data to be read
221 * @size: number of bytes to read
223 * This function is to read the block of data and returns integer.
225 static int synaptics_rmi4_i2c_block_read(struct synaptics_rmi4_data *pdata,
226 unsigned short address,
227 unsigned char *valp, int size)
232 struct i2c_client *i2c = pdata->i2c_client;
234 mutex_lock(&(pdata->rmi4_page_mutex));
235 retval = synaptics_rmi4_set_page(pdata, address);
236 if (retval != PAGE_LEN)
238 index = address & MASK_8BIT;
240 retval = i2c_smbus_read_i2c_block_data(i2c, index, size, valp);
241 if (retval != size) {
242 if (++retry_count == MAX_RETRY_COUNT)
244 "%s:address 0x%04x size %d failed:%d\n",
245 __func__, address, size, retval);
247 synaptics_rmi4_set_page(pdata, address);
252 mutex_unlock(&(pdata->rmi4_page_mutex));
257 * synaptics_rmi4_i2c_byte_write() - write the single byte data
258 * @pdata: pointer to synaptics_rmi4_data structure
259 * @address: write the block of data from this offset
260 * @data: data to be write
262 * This function is to write the single byte data and returns integer.
264 static int synaptics_rmi4_i2c_byte_write(struct synaptics_rmi4_data *pdata,
265 unsigned short address,
268 unsigned char txbuf[2];
270 struct i2c_client *i2c = pdata->i2c_client;
272 /* Can't have anyone else changing the page behind our backs */
273 mutex_lock(&(pdata->rmi4_page_mutex));
275 retval = synaptics_rmi4_set_page(pdata, address);
276 if (retval != PAGE_LEN)
278 txbuf[0] = address & MASK_8BIT;
280 retval = i2c_master_send(pdata->i2c_client, txbuf, 2);
281 /* Add in retry on writes only in certian error return values */
283 dev_err(&i2c->dev, "%s:failed:%d\n", __func__, retval);
288 mutex_unlock(&(pdata->rmi4_page_mutex));
293 * synpatics_rmi4_touchpad_report() - reports for the rmi4 touchpad device
294 * @pdata: pointer to synaptics_rmi4_data structure
295 * @rfi: pointer to synaptics_rmi4_fn structure
297 * This function calls to reports for the rmi4 touchpad device
299 static int synpatics_rmi4_touchpad_report(struct synaptics_rmi4_data *pdata,
300 struct synaptics_rmi4_fn *rfi)
302 /* number of touch points - fingers down in this case */
305 int fingers_supported;
306 int finger_registers;
311 unsigned short data_base_addr;
312 unsigned short data_offset;
313 unsigned char data_reg_blk_size;
314 unsigned char values[2];
315 unsigned char data[DATA_LEN];
316 int x[RMI4_NUMBER_OF_MAX_FINGERS];
317 int y[RMI4_NUMBER_OF_MAX_FINGERS];
318 int wx[RMI4_NUMBER_OF_MAX_FINGERS];
319 int wy[RMI4_NUMBER_OF_MAX_FINGERS];
320 struct i2c_client *client = pdata->i2c_client;
322 /* get 2D sensor finger data */
324 * First get the finger status field - the size of the finger status
325 * field is determined by the number of finger supporte - 2 bits per
326 * finger, so the number of registers to read is:
327 * registerCount = ceil(numberOfFingers/4).
328 * Read the required number of registers and check each 2 bit field to
329 * determine if a finger is down:
330 * 00 = finger not present,
331 * 01 = finger present and data accurate,
332 * 10 = finger present but data may not be accurate,
333 * 11 = reserved for product use.
335 fingers_supported = rfi->num_of_data_points;
336 finger_registers = (fingers_supported + 3)/4;
337 data_base_addr = rfi->fn_desc.data_base_addr;
338 retval = synaptics_rmi4_i2c_block_read(pdata, data_base_addr, values,
340 if (retval != finger_registers) {
341 dev_err(&client->dev, "%s:read status registers failed\n",
346 * For each finger present, read the proper number of registers
347 * to get absolute data.
349 data_reg_blk_size = rfi->size_of_data_register_block;
350 for (finger = 0; finger < fingers_supported; finger++) {
351 /* determine which data byte the finger status is in */
353 /* bit shift to get finger's status */
354 finger_shift = (finger % 4) * 2;
355 finger_status = (values[reg] >> finger_shift) & 3;
357 * if finger status indicates a finger is present then
358 * read the finger data and report it
360 if (finger_status == 1 || finger_status == 2) {
361 /* Read the finger data */
362 data_offset = data_base_addr +
363 ((finger * data_reg_blk_size) +
365 retval = synaptics_rmi4_i2c_block_read(pdata,
368 if (retval != data_reg_blk_size) {
369 printk(KERN_ERR "%s:read data failed\n",
374 (data[0] << 4) | (data[2] & MASK_4BIT);
377 ((data[2] >> 4) & MASK_4BIT);
379 (data[3] >> 4) & MASK_4BIT;
381 (data[3] & MASK_4BIT);
383 if (pdata->board->x_flip)
385 pdata->sensor_max_x -
387 if (pdata->board->y_flip)
389 pdata->sensor_max_y -
392 /* number of active touch points */
397 /* report to input subsystem */
399 for (finger = 0; finger < touch_count; finger++) {
400 input_report_abs(pdata->input_dev, ABS_MT_TOUCH_MAJOR,
401 max(wx[finger] , wy[finger]));
402 input_report_abs(pdata->input_dev, ABS_MT_POSITION_X,
404 input_report_abs(pdata->input_dev, ABS_MT_POSITION_Y,
406 input_mt_sync(pdata->input_dev);
409 input_mt_sync(pdata->input_dev);
411 /* sync after groups of events */
412 input_sync(pdata->input_dev);
413 /* return the number of touch points */
418 * synaptics_rmi4_report_device() - reports the rmi4 device
419 * @pdata: pointer to synaptics_rmi4_data structure
420 * @rfi: pointer to synaptics_rmi4_fn
422 * This function is used to call the report function of the rmi4 device.
424 static int synaptics_rmi4_report_device(struct synaptics_rmi4_data *pdata,
425 struct synaptics_rmi4_fn *rfi)
428 struct i2c_client *client = pdata->i2c_client;
429 static int num_error_reports;
430 if (rfi->fn_number != SYNAPTICS_RMI4_TOUCHPAD_FUNC_NUM) {
432 if (num_error_reports < MAX_ERROR_REPORT)
433 dev_err(&client->dev, "%s:report not supported\n",
436 touch = synpatics_rmi4_touchpad_report(pdata, rfi);
440 * synaptics_rmi4_sensor_report() - reports to input subsystem
441 * @pdata: pointer to synaptics_rmi4_data structure
443 * This function is used to reads in all data sources and reports
444 * them to the input subsystem.
446 static int synaptics_rmi4_sensor_report(struct synaptics_rmi4_data *pdata)
448 unsigned char intr_status[4];
449 /* number of touch points - fingers or buttons */
452 struct synaptics_rmi4_fn *rfi;
453 struct synaptics_rmi4_device_info *rmi;
454 struct i2c_client *client = pdata->i2c_client;
457 * Get the interrupt status from the function $01
458 * control register+1 to find which source(s) were interrupting
459 * so we can read the data from the source(s) (2D sensor, buttons..)
461 retval = synaptics_rmi4_i2c_block_read(pdata,
462 pdata->fn01_data_base_addr + 1,
464 pdata->number_of_interrupt_register);
465 if (retval != pdata->number_of_interrupt_register) {
466 dev_err(&client->dev,
467 "could not read interrupt status registers\n");
471 * check each function that has data sources and if the interrupt for
472 * that triggered then call that RMI4 functions report() function to
473 * gather data and report it to the input subsystem
475 rmi = &(pdata->rmi4_mod_info);
476 list_for_each_entry(rfi, &rmi->support_fn_list, link) {
477 if (rfi->num_of_data_sources) {
478 if (intr_status[rfi->index_to_intr_reg] &
480 touch = synaptics_rmi4_report_device(pdata,
484 /* return the number of touch points */
489 * synaptics_rmi4_irq() - thread function for rmi4 attention line
491 * @data: void pointer
493 * This function is interrupt thread function. It just notifies the
494 * application layer that attention is required.
496 static irqreturn_t synaptics_rmi4_irq(int irq, void *data)
498 struct synaptics_rmi4_data *pdata = data;
501 touch_count = synaptics_rmi4_sensor_report(pdata);
503 wait_event_timeout(pdata->wait, pdata->touch_stopped,
504 msecs_to_jiffies(1));
507 } while (!pdata->touch_stopped);
512 * synpatics_rmi4_touchpad_detect() - detects the rmi4 touchpad device
513 * @pdata: pointer to synaptics_rmi4_data structure
514 * @rfi: pointer to synaptics_rmi4_fn structure
515 * @fd: pointer to synaptics_rmi4_fn_desc structure
516 * @interruptcount: count the number of interrupts
518 * This function calls to detects the rmi4 touchpad device
520 static int synpatics_rmi4_touchpad_detect(struct synaptics_rmi4_data *pdata,
521 struct synaptics_rmi4_fn *rfi,
522 struct synaptics_rmi4_fn_desc *fd,
523 unsigned int interruptcount)
525 unsigned char queries[QUERY_LEN];
526 unsigned short intr_offset;
527 unsigned char abs_data_size;
528 unsigned char abs_data_blk_size;
529 unsigned char egr_0, egr_1;
530 unsigned int all_data_blk_size;
531 int has_pinch, has_flick, has_tap;
532 int has_tapandhold, has_doubletap;
533 int has_earlytap, has_press;
534 int has_palmdetect, has_rotate;
538 struct i2c_client *client = pdata->i2c_client;
540 rfi->fn_desc.query_base_addr = fd->query_base_addr;
541 rfi->fn_desc.data_base_addr = fd->data_base_addr;
542 rfi->fn_desc.intr_src_count = fd->intr_src_count;
543 rfi->fn_desc.fn_number = fd->fn_number;
544 rfi->fn_number = fd->fn_number;
545 rfi->num_of_data_sources = fd->intr_src_count;
546 rfi->fn_desc.ctrl_base_addr = fd->ctrl_base_addr;
547 rfi->fn_desc.cmd_base_addr = fd->cmd_base_addr;
550 * need to get number of fingers supported, data size, etc.
551 * to be used when getting data since the number of registers to
552 * read depends on the number of fingers supported and data size.
554 retval = synaptics_rmi4_i2c_block_read(pdata, fd->query_base_addr,
557 if (retval != sizeof(queries)) {
558 dev_err(&client->dev, "%s:read function query registers\n",
563 * 2D data sources have only 3 bits for the number of fingers
564 * supported - so the encoding is a bit wierd.
566 if ((queries[1] & MASK_3BIT) <= 4)
567 /* add 1 since zero based */
568 rfi->num_of_data_points = (queries[1] & MASK_3BIT) + 1;
571 * a value of 5 is up to 10 fingers - 6 and 7 are reserved
572 * (shouldn't get these i int retval;n a normal 2D source).
574 if ((queries[1] & MASK_3BIT) == 5)
575 rfi->num_of_data_points = 10;
577 /* Need to get interrupt info for handling interrupts */
578 rfi->index_to_intr_reg = (interruptcount + 7)/8;
579 if (rfi->index_to_intr_reg != 0)
580 rfi->index_to_intr_reg -= 1;
582 * loop through interrupts for each source in fn $11
583 * and or in a bit to the interrupt mask for each.
585 intr_offset = interruptcount % 8;
587 for (i = intr_offset;
588 i < ((fd->intr_src_count & MASK_3BIT) + intr_offset); i++)
589 rfi->intr_mask |= 1 << i;
591 /* Size of just the absolute data for one finger */
592 abs_data_size = queries[5] & MASK_2BIT;
593 /* One each for X and Y, one for LSB for X & Y, one for W, one for Z */
594 abs_data_blk_size = 3 + (2 * (abs_data_size == 0 ? 1 : 0));
595 rfi->size_of_data_register_block = abs_data_blk_size;
598 * need to determine the size of data to read - this depends on
599 * conditions such as whether Relative data is reported and if Gesture
606 * Get info about what EGR data is supported, whether it has
607 * Relative data supported, etc.
609 has_pinch = egr_0 & HAS_PINCH;
610 has_flick = egr_0 & HAS_FLICK;
611 has_tap = egr_0 & HAS_TAP;
612 has_earlytap = egr_0 & HAS_EARLYTAP;
613 has_press = egr_0 & HAS_PRESS;
614 has_rotate = egr_1 & HAS_ROTATE;
615 has_rel = queries[1] & HAS_RELEASE;
616 has_tapandhold = egr_0 & HAS_TAPANDHOLD;
617 has_doubletap = egr_0 & HAS_DOUBLETAP;
618 has_palmdetect = egr_1 & HAS_PALMDETECT;
621 * Size of all data including finger status, absolute data for each
622 * finger, relative data and EGR data
625 /* finger status, four fingers per register */
626 ((rfi->num_of_data_points + 3) / 4) +
627 /* absolute data, per finger times number of fingers */
628 (abs_data_blk_size * rfi->num_of_data_points) +
630 * two relative registers (if relative is being reported)
634 * F11_2D_data8 is only present if the egr_0
635 * register is non-zero.
639 * F11_2D_data9 is only present if either egr_0 or
640 * egr_1 registers are non-zero.
644 * F11_2D_data10 is only present if EGR_PINCH or EGR_FLICK of
645 * egr_0 reports as 1.
647 !!(has_pinch | has_flick) +
649 * F11_2D_data11 and F11_2D_data12 are only present if
650 * EGR_FLICK of egr_0 reports as 1.
657 * synpatics_rmi4_touchpad_config() - confiures the rmi4 touchpad device
658 * @pdata: pointer to synaptics_rmi4_data structure
659 * @rfi: pointer to synaptics_rmi4_fn structure
661 * This function calls to confiures the rmi4 touchpad device
663 int synpatics_rmi4_touchpad_config(struct synaptics_rmi4_data *pdata,
664 struct synaptics_rmi4_fn *rfi)
667 * For the data source - print info and do any
668 * source specific configuration.
670 unsigned char data[BUF_LEN];
672 struct i2c_client *client = pdata->i2c_client;
674 /* Get and print some info about the data source... */
675 /* To Query 2D devices we need to read from the address obtained
676 * from the function descriptor stored in the RMI function info.
678 retval = synaptics_rmi4_i2c_block_read(pdata,
679 rfi->fn_desc.query_base_addr,
681 if (retval != QUERY_LEN)
682 dev_err(&client->dev, "%s:read query registers failed\n",
685 retval = synaptics_rmi4_i2c_block_read(pdata,
686 rfi->fn_desc.ctrl_base_addr,
688 if (retval != DATA_BUF_LEN) {
689 dev_err(&client->dev,
690 "%s:read control registers failed\n",
694 /* Store these for use later*/
695 pdata->sensor_max_x = ((data[6] & MASK_8BIT) << 0) |
696 ((data[7] & MASK_4BIT) << 8);
697 pdata->sensor_max_y = ((data[8] & MASK_5BIT) << 0) |
698 ((data[9] & MASK_4BIT) << 8);
704 * synaptics_rmi4_i2c_query_device() - query the rmi4 device
705 * @pdata: pointer to synaptics_rmi4_data structure
707 * This function is used to query the rmi4 device.
709 static int synaptics_rmi4_i2c_query_device(struct synaptics_rmi4_data *pdata)
713 unsigned char std_queries[STD_QUERY_LEN];
714 unsigned char intr_count = 0;
715 int data_sources = 0;
716 unsigned int ctrl_offset;
717 struct synaptics_rmi4_fn *rfi;
718 struct synaptics_rmi4_fn_desc rmi_fd;
719 struct synaptics_rmi4_device_info *rmi;
720 struct i2c_client *client = pdata->i2c_client;
723 * init the physical drivers RMI module
724 * info list of functions
726 INIT_LIST_HEAD(&pdata->rmi4_mod_info.support_fn_list);
729 * Read the Page Descriptor Table to determine what functions
732 for (i = PDT_START_SCAN_LOCATION; i > PDT_END_SCAN_LOCATION;
733 i -= PDT_ENTRY_SIZE) {
734 retval = synaptics_rmi4_i2c_block_read(pdata, i,
735 (unsigned char *)&rmi_fd,
737 if (retval != sizeof(rmi_fd)) {
738 /* failed to read next PDT entry */
739 dev_err(&client->dev, "%s: read error\n", __func__);
743 if (rmi_fd.fn_number) {
744 switch (rmi_fd.fn_number & MASK_8BIT) {
745 case SYNAPTICS_RMI4_DEVICE_CONTROL_FUNC_NUM:
746 pdata->fn01_query_base_addr =
747 rmi_fd.query_base_addr;
748 pdata->fn01_ctrl_base_addr =
749 rmi_fd.ctrl_base_addr;
750 pdata->fn01_data_base_addr =
751 rmi_fd.data_base_addr;
753 case SYNAPTICS_RMI4_TOUCHPAD_FUNC_NUM:
754 if (rmi_fd.intr_src_count) {
755 rfi = kmalloc(sizeof(*rfi),
758 dev_err(&client->dev,
759 "%s:kmalloc failed\n",
763 retval = synpatics_rmi4_touchpad_detect
772 /* interrupt count for next iteration */
773 intr_count += (rmi_fd.intr_src_count & MASK_3BIT);
775 * We only want to add functions to the list
776 * that have data associated with them.
778 if (rfi && rmi_fd.intr_src_count) {
779 /* link this function info to the RMI module */
780 mutex_lock(&(pdata->fn_list_mutex));
781 list_add_tail(&rfi->link,
782 &pdata->rmi4_mod_info.support_fn_list);
783 mutex_unlock(&(pdata->fn_list_mutex));
787 * A zero in the function number
788 * signals the end of the PDT
790 dev_dbg(&client->dev,
791 "%s:end of PDT\n", __func__);
796 * calculate the interrupt register count - used in the
797 * ISR to read the correct number of interrupt registers
799 pdata->number_of_interrupt_register = (intr_count + 7) / 8;
801 * Function $01 will be used to query the product properties,
802 * and product ID so we had to read the PDT above first to get
803 * the Fn $01 query address and prior to filling in the product
804 * info. NOTE: Even an unflashed device will still have FN $01.
807 /* Load up the standard queries and get the RMI4 module info */
808 retval = synaptics_rmi4_i2c_block_read(pdata,
809 pdata->fn01_query_base_addr,
811 sizeof(std_queries));
812 if (retval != sizeof(std_queries)) {
813 dev_err(&client->dev, "%s:Failed reading queries\n",
818 /* Currently supported RMI version is 4.0 */
819 pdata->rmi4_mod_info.version_major = 4;
820 pdata->rmi4_mod_info.version_minor = 0;
822 * get manufacturer id, product_props, product info,
823 * date code, tester id, serial num and product id (name)
825 pdata->rmi4_mod_info.manufacturer_id = std_queries[0];
826 pdata->rmi4_mod_info.product_props = std_queries[1];
827 pdata->rmi4_mod_info.product_info[0] = std_queries[2];
828 pdata->rmi4_mod_info.product_info[1] = std_queries[3];
829 /* year - 2001-2032 */
830 pdata->rmi4_mod_info.date_code[0] = std_queries[4] & MASK_5BIT;
832 pdata->rmi4_mod_info.date_code[1] = std_queries[5] & MASK_4BIT;
834 pdata->rmi4_mod_info.date_code[2] = std_queries[6] & MASK_5BIT;
835 pdata->rmi4_mod_info.tester_id = ((std_queries[7] & MASK_7BIT) << 8) |
836 (std_queries[8] & MASK_7BIT);
837 pdata->rmi4_mod_info.serial_number =
838 ((std_queries[9] & MASK_7BIT) << 8) |
839 (std_queries[10] & MASK_7BIT);
840 memcpy(pdata->rmi4_mod_info.product_id_string, &std_queries[11], 10);
842 /* Check if this is a Synaptics device - report if not. */
843 if (pdata->rmi4_mod_info.manufacturer_id != 1)
844 dev_err(&client->dev, "%s: non-Synaptics mfg id:%d\n",
845 __func__, pdata->rmi4_mod_info.manufacturer_id);
847 list_for_each_entry(rfi, &pdata->rmi4_mod_info.support_fn_list, link)
848 data_sources += rfi->num_of_data_sources;
850 rmi = &(pdata->rmi4_mod_info);
851 list_for_each_entry(rfi, &rmi->support_fn_list, link) {
852 if (rfi->num_of_data_sources) {
853 if (rfi->fn_number ==
854 SYNAPTICS_RMI4_TOUCHPAD_FUNC_NUM) {
855 retval = synpatics_rmi4_touchpad_config
860 dev_err(&client->dev,
861 "%s:fn_number not supported\n",
864 * Turn on interrupts for this
865 * function's data sources.
867 ctrl_offset = pdata->fn01_ctrl_base_addr + 1 +
868 rfi->index_to_intr_reg;
869 retval = synaptics_rmi4_i2c_byte_write(pdata,
881 * synaptics_rmi4_probe() - Initialze the i2c-client touchscreen driver
882 * @i2c: i2c client structure pointer
883 * @id:i2c device id pointer
885 * This function will allocate and initialize the instance
886 * data and request the irq and set the instance data as the clients
887 * platform data then register the physical driver which will do a scan of
888 * the rmi4 Physical Device Table and enumerate any rmi4 functions that
889 * have data sources associated with them.
891 static int __devinit synaptics_rmi4_probe
892 (struct i2c_client *client, const struct i2c_device_id *dev_id)
895 unsigned char intr_status[4];
896 struct synaptics_rmi4_data *rmi4_data;
897 const struct synaptics_rmi4_platform_data *platformdata =
898 client->dev.platform_data;
900 if (!i2c_check_functionality(client->adapter,
901 I2C_FUNC_SMBUS_BYTE_DATA)) {
902 dev_err(&client->dev, "i2c smbus byte data not supported\n");
907 dev_err(&client->dev, "%s: no platform data\n", __func__);
911 /* Allocate and initialize the instance data for this client */
912 rmi4_data = kzalloc(sizeof(struct synaptics_rmi4_data) * 2,
915 dev_err(&client->dev, "%s: no memory allocated\n", __func__);
919 rmi4_data->input_dev = input_allocate_device();
920 if (rmi4_data->input_dev == NULL) {
921 dev_err(&client->dev, "%s:input device alloc failed\n",
927 dev_set_name(&client->dev, platformdata->name);
929 if (platformdata->regulator_en) {
930 rmi4_data->regulator = regulator_get(&client->dev, "v-touch");
931 if (IS_ERR(rmi4_data->regulator)) {
932 dev_err(&client->dev, "%s:get regulator failed\n",
934 retval = PTR_ERR(rmi4_data->regulator);
937 regulator_enable(rmi4_data->regulator);
940 init_waitqueue_head(&rmi4_data->wait);
942 * Copy i2c_client pointer into RTID's i2c_client pointer for
943 * later use in rmi4_read, rmi4_write, etc.
945 rmi4_data->i2c_client = client;
946 /* So we set the page correctly the first time */
947 rmi4_data->current_page = MASK_16BIT;
948 rmi4_data->board = platformdata;
949 rmi4_data->touch_stopped = false;
951 /* init the mutexes for maintain the lists */
952 mutex_init(&(rmi4_data->fn_list_mutex));
953 mutex_init(&(rmi4_data->rmi4_page_mutex));
956 * Register physical driver - this will call the detect function that
957 * will then scan the device and determine the supported
960 retval = synaptics_rmi4_i2c_query_device(rmi4_data);
962 dev_err(&client->dev, "%s: rmi4 query device failed\n",
967 /* Store the instance data in the i2c_client */
968 i2c_set_clientdata(client, rmi4_data);
970 /*initialize the input device parameters */
971 rmi4_data->input_dev->name = DRIVER_NAME;
972 rmi4_data->input_dev->phys = "Synaptics_Clearpad";
973 rmi4_data->input_dev->id.bustype = BUS_I2C;
974 rmi4_data->input_dev->dev.parent = &client->dev;
975 input_set_drvdata(rmi4_data->input_dev, rmi4_data);
977 /* Initialize the function handlers for rmi4 */
978 set_bit(EV_SYN, rmi4_data->input_dev->evbit);
979 set_bit(EV_KEY, rmi4_data->input_dev->evbit);
980 set_bit(EV_ABS, rmi4_data->input_dev->evbit);
982 input_set_abs_params(rmi4_data->input_dev, ABS_MT_POSITION_X, 0,
983 rmi4_data->sensor_max_x, 0, 0);
984 input_set_abs_params(rmi4_data->input_dev, ABS_MT_POSITION_Y, 0,
985 rmi4_data->sensor_max_y, 0, 0);
986 input_set_abs_params(rmi4_data->input_dev, ABS_MT_TOUCH_MAJOR, 0,
987 MAX_TOUCH_MAJOR, 0, 0);
989 /* Clear interrupts */
990 synaptics_rmi4_i2c_block_read(rmi4_data,
991 rmi4_data->fn01_data_base_addr + 1, intr_status,
992 rmi4_data->number_of_interrupt_register);
993 retval = request_threaded_irq(platformdata->irq_number, NULL,
995 platformdata->irq_type,
996 platformdata->name, rmi4_data);
998 dev_err(&client->dev, "%s:Unable to get attn irq %d\n",
999 __func__, platformdata->irq_number);
1000 goto err_unset_clientdata;
1003 retval = input_register_device(rmi4_data->input_dev);
1005 dev_err(&client->dev, "%s:input register failed\n", __func__);
1012 free_irq(platformdata->irq_number, rmi4_data);
1013 err_unset_clientdata:
1014 i2c_set_clientdata(client, NULL);
1016 if (platformdata->regulator_en) {
1017 regulator_disable(rmi4_data->regulator);
1018 regulator_put(rmi4_data->regulator);
1021 input_free_device(rmi4_data->input_dev);
1022 rmi4_data->input_dev = NULL;
1029 * synaptics_rmi4_remove() - Removes the i2c-client touchscreen driver
1030 * @client: i2c client structure pointer
1032 * This funtion uses to remove the i2c-client
1033 * touchscreen driver and returns integer.
1035 static int __devexit synaptics_rmi4_remove(struct i2c_client *client)
1037 struct synaptics_rmi4_data *rmi4_data = i2c_get_clientdata(client);
1038 const struct synaptics_rmi4_platform_data *pdata = rmi4_data->board;
1040 rmi4_data->touch_stopped = true;
1041 wake_up(&rmi4_data->wait);
1042 free_irq(pdata->irq_number, rmi4_data);
1043 input_unregister_device(rmi4_data->input_dev);
1044 if (pdata->regulator_en) {
1045 regulator_disable(rmi4_data->regulator);
1046 regulator_put(rmi4_data->regulator);
1055 * synaptics_rmi4_suspend() - suspend the touch screen controller
1056 * @dev: pointer to device structure
1058 * This funtion is used to suspend the
1059 * touch panel controller and returns integer
1061 static int synaptics_rmi4_suspend(struct device *dev)
1063 /* Touch sleep mode */
1065 unsigned char intr_status;
1066 struct synaptics_rmi4_data *rmi4_data = dev_get_drvdata(dev);
1067 const struct synaptics_rmi4_platform_data *pdata = rmi4_data->board;
1069 rmi4_data->touch_stopped = true;
1070 disable_irq(pdata->irq_number);
1072 retval = synaptics_rmi4_i2c_block_read(rmi4_data,
1073 rmi4_data->fn01_data_base_addr + 1,
1075 rmi4_data->number_of_interrupt_register);
1079 retval = synaptics_rmi4_i2c_byte_write(rmi4_data,
1080 rmi4_data->fn01_ctrl_base_addr + 1,
1081 (intr_status & ~TOUCHPAD_CTRL_INTR));
1085 if (pdata->regulator_en)
1086 regulator_disable(rmi4_data->regulator);
1091 * synaptics_rmi4_resume() - resume the touch screen controller
1092 * @dev: pointer to device structure
1094 * This funtion is used to resume the touch panel
1095 * controller and returns integer.
1097 static int synaptics_rmi4_resume(struct device *dev)
1100 unsigned char intr_status;
1101 struct synaptics_rmi4_data *rmi4_data = dev_get_drvdata(dev);
1102 const struct synaptics_rmi4_platform_data *pdata = rmi4_data->board;
1104 if (pdata->regulator_en)
1105 regulator_enable(rmi4_data->regulator);
1107 enable_irq(pdata->irq_number);
1108 rmi4_data->touch_stopped = false;
1110 retval = synaptics_rmi4_i2c_block_read(rmi4_data,
1111 rmi4_data->fn01_data_base_addr + 1,
1113 rmi4_data->number_of_interrupt_register);
1117 retval = synaptics_rmi4_i2c_byte_write(rmi4_data,
1118 rmi4_data->fn01_ctrl_base_addr + 1,
1119 (intr_status | TOUCHPAD_CTRL_INTR));
1126 static const struct dev_pm_ops synaptics_rmi4_dev_pm_ops = {
1127 .suspend = synaptics_rmi4_suspend,
1128 .resume = synaptics_rmi4_resume,
1132 static const struct i2c_device_id synaptics_rmi4_id_table[] = {
1136 MODULE_DEVICE_TABLE(i2c, synaptics_rmi4_id_table);
1138 static struct i2c_driver synaptics_rmi4_driver = {
1140 .name = DRIVER_NAME,
1141 .owner = THIS_MODULE,
1143 .pm = &synaptics_rmi4_dev_pm_ops,
1146 .probe = synaptics_rmi4_probe,
1147 .remove = __devexit_p(synaptics_rmi4_remove),
1148 .id_table = synaptics_rmi4_id_table,
1151 * synaptics_rmi4_init() - Initialize the touchscreen driver
1153 * This funtion uses to initializes the synaptics
1154 * touchscreen driver and returns integer.
1156 static int __init synaptics_rmi4_init(void)
1158 return i2c_add_driver(&synaptics_rmi4_driver);
1161 * synaptics_rmi4_exit() - De-initialize the touchscreen driver
1163 * This funtion uses to de-initialize the synaptics
1164 * touchscreen driver and returns none.
1166 static void __exit synaptics_rmi4_exit(void)
1168 i2c_del_driver(&synaptics_rmi4_driver);
1172 module_init(synaptics_rmi4_init);
1173 module_exit(synaptics_rmi4_exit);
1175 MODULE_LICENSE("GPL v2");
1176 MODULE_AUTHOR("naveen.gaddipati@stericsson.com, js.ha@stericsson.com");
1177 MODULE_DESCRIPTION("synaptics rmi4 i2c touch Driver");
1178 MODULE_ALIAS("i2c:synaptics_rmi4_ts");