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Release 4.7 drivers/input/rmi4/rmi_f30.c

/*
 * Copyright (c) 2012-2016 Synaptics Incorporated
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 as published by
 * the Free Software Foundation.
 */

#include <linux/kernel.h>
#include <linux/rmi.h>
#include <linux/input.h>
#include <linux/slab.h>
#include "rmi_driver.h"


#define RMI_F30_QUERY_SIZE			2

/* Defs for Query 0 */

#define RMI_F30_EXTENDED_PATTERNS		0x01

#define RMI_F30_HAS_MAPPABLE_BUTTONS		(1 << 1)

#define RMI_F30_HAS_LED			(1 << 2)

#define RMI_F30_HAS_GPIO			(1 << 3)

#define RMI_F30_HAS_HAPTIC			(1 << 4)

#define RMI_F30_HAS_GPIO_DRV_CTL		(1 << 5)

#define RMI_F30_HAS_MECH_MOUSE_BTNS		(1 << 6)

/* Defs for Query 1 */

#define RMI_F30_GPIO_LED_COUNT			0x1F

/* Defs for Control Registers */

#define RMI_F30_CTRL_1_GPIO_DEBOUNCE		0x01

#define RMI_F30_CTRL_1_HALT			(1 << 4)

#define RMI_F30_CTRL_1_HALTED			(1 << 5)

#define RMI_F30_CTRL_10_NUM_MECH_MOUSE_BTNS	0x03


struct rmi_f30_ctrl_data {
	
int address;
	
int length;
	
u8 *regs;
};


#define RMI_F30_CTRL_MAX_REGS		32

#define RMI_F30_CTRL_MAX_BYTES		((RMI_F30_CTRL_MAX_REGS + 7) >> 3)

#define RMI_F30_CTRL_MAX_REG_BLOCKS	11


#define RMI_F30_CTRL_REGS_MAX_SIZE (RMI_F30_CTRL_MAX_BYTES         \
                                        + 1                             \
                                        + RMI_F30_CTRL_MAX_BYTES        \
                                        + RMI_F30_CTRL_MAX_BYTES        \
                                        + RMI_F30_CTRL_MAX_BYTES        \
                                        + 6                             \
                                        + RMI_F30_CTRL_MAX_REGS         \
                                        + RMI_F30_CTRL_MAX_REGS         \
                                        + RMI_F30_CTRL_MAX_BYTES        \
                                        + 1                             \
                                        + 1)


struct f30_data {
	/* Query Data */
	
bool has_extended_pattern;
	
bool has_mappable_buttons;
	
bool has_led;
	
bool has_gpio;
	
bool has_haptic;
	
bool has_gpio_driver_control;
	
bool has_mech_mouse_btns;
	
u8 gpioled_count;

	
u8 register_count;

	/* Control Register Data */
	
struct rmi_f30_ctrl_data ctrl[RMI_F30_CTRL_MAX_REG_BLOCKS];
	
u8 ctrl_regs[RMI_F30_CTRL_REGS_MAX_SIZE];
	
u32 ctrl_regs_size;

	
u8 data_regs[RMI_F30_CTRL_MAX_BYTES];
	
u16 *gpioled_key_map;

	
struct input_dev *input;
};


static int rmi_f30_read_control_parameters(struct rmi_function *fn, struct f30_data *f30) { struct rmi_device *rmi_dev = fn->rmi_dev; int error = 0; error = rmi_read_block(rmi_dev, fn->fd.control_base_addr, f30->ctrl_regs, f30->ctrl_regs_size); if (error) { dev_err(&rmi_dev->dev, "%s : Could not read control registers at 0x%x error (%d)\n", __func__, fn->fd.control_base_addr, error); return error; } return 0; }

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static int rmi_f30_attention(struct rmi_function *fn, unsigned long *irq_bits) { struct f30_data *f30 = dev_get_drvdata(&fn->dev); struct rmi_device *rmi_dev = fn->rmi_dev; int retval; int gpiled = 0; int value = 0; int i; int reg_num; if (!f30->input) return 0; /* Read the gpi led data. */ if (rmi_dev->xport->attn_data) { memcpy(f30->data_regs, rmi_dev->xport->attn_data, f30->register_count); rmi_dev->xport->attn_data += f30->register_count; rmi_dev->xport->attn_size -= f30->register_count; } else { retval = rmi_read_block(rmi_dev, fn->fd.data_base_addr, f30->data_regs, f30->register_count); if (retval) { dev_err(&fn->dev, "%s: Failed to read F30 data registers.\n", __func__); return retval; } } for (reg_num = 0; reg_num < f30->register_count; ++reg_num) { for (i = 0; gpiled < f30->gpioled_count && i < 8; ++i, ++gpiled) { if (f30->gpioled_key_map[gpiled] != 0) { /* buttons have pull up resistors */ value = (((f30->data_regs[reg_num] >> i) & 0x01) == 0); rmi_dbg(RMI_DEBUG_FN, &fn->dev, "%s: call input report key (0x%04x) value (0x%02x)", __func__, f30->gpioled_key_map[gpiled], value); input_report_key(f30->input, f30->gpioled_key_map[gpiled], value); } } } return 0; }

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static int rmi_f30_register_device(struct rmi_function *fn) { int i; struct rmi_device *rmi_dev = fn->rmi_dev; struct rmi_driver_data *drv_data = dev_get_drvdata(&rmi_dev->dev); struct f30_data *f30 = dev_get_drvdata(&fn->dev); struct input_dev *input_dev; int button_count = 0; input_dev = drv_data->input; if (!input_dev) { dev_info(&fn->dev, "F30: no input device found, ignoring.\n"); return -EINVAL; } f30->input = input_dev; set_bit(EV_KEY, input_dev->evbit); input_dev->keycode = f30->gpioled_key_map; input_dev->keycodesize = sizeof(u16); input_dev->keycodemax = f30->gpioled_count; for (i = 0; i < f30->gpioled_count; i++) { if (f30->gpioled_key_map[i] != 0) { input_set_capability(input_dev, EV_KEY, f30->gpioled_key_map[i]); button_count++; } } if (button_count == 1) __set_bit(INPUT_PROP_BUTTONPAD, input_dev->propbit); return 0; }

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static int rmi_f30_config(struct rmi_function *fn) { struct f30_data *f30 = dev_get_drvdata(&fn->dev); struct rmi_driver *drv = fn->rmi_dev->driver; const struct rmi_device_platform_data *pdata = rmi_get_platform_data(fn->rmi_dev); int error; if (pdata->f30_data && pdata->f30_data->disable) { drv->clear_irq_bits(fn->rmi_dev, fn->irq_mask); } else { /* Write Control Register values back to device */ error = rmi_write_block(fn->rmi_dev, fn->fd.control_base_addr, f30->ctrl_regs, f30->ctrl_regs_size); if (error) { dev_err(&fn->rmi_dev->dev, "%s : Could not write control registers at 0x%x error (%d)\n", __func__, fn->fd.control_base_addr, error); return error; } drv->set_irq_bits(fn->rmi_dev, fn->irq_mask); } return 0; }

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static inline void rmi_f30_set_ctrl_data(struct rmi_f30_ctrl_data *ctrl, int *ctrl_addr, int len, u8 **reg) { ctrl->address = *ctrl_addr; ctrl->length = len; ctrl->regs = *reg; *ctrl_addr += len; *reg += len; }

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static inline bool rmi_f30_is_valid_button(int button, struct rmi_f30_ctrl_data *ctrl) { int byte_position = button >> 3; int bit_position = button & 0x07; /* * ctrl2 -> dir == 0 -> input mode * ctrl3 -> data == 1 -> actual button */ return !(ctrl[2].regs[byte_position] & BIT(bit_position)) && (ctrl[3].regs[byte_position] & BIT(bit_position)); }

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static inline int rmi_f30_initialize(struct rmi_function *fn) { struct f30_data *f30; struct rmi_device *rmi_dev = fn->rmi_dev; const struct rmi_device_platform_data *pdata; int retval = 0; int control_address; int i; int button; u8 buf[RMI_F30_QUERY_SIZE]; u8 *ctrl_reg; u8 *map_memory; f30 = devm_kzalloc(&fn->dev, sizeof(struct f30_data), GFP_KERNEL); if (!f30) return -ENOMEM; dev_set_drvdata(&fn->dev, f30); retval = rmi_read_block(fn->rmi_dev, fn->fd.query_base_addr, buf, RMI_F30_QUERY_SIZE); if (retval) { dev_err(&fn->dev, "Failed to read query register.\n"); return retval; } f30->has_extended_pattern = buf[0] & RMI_F30_EXTENDED_PATTERNS; f30->has_mappable_buttons = buf[0] & RMI_F30_HAS_MAPPABLE_BUTTONS; f30->has_led = buf[0] & RMI_F30_HAS_LED; f30->has_gpio = buf[0] & RMI_F30_HAS_GPIO; f30->has_haptic = buf[0] & RMI_F30_HAS_HAPTIC; f30->has_gpio_driver_control = buf[0] & RMI_F30_HAS_GPIO_DRV_CTL; f30->has_mech_mouse_btns = buf[0] & RMI_F30_HAS_MECH_MOUSE_BTNS; f30->gpioled_count = buf[1] & RMI_F30_GPIO_LED_COUNT; f30->register_count = (f30->gpioled_count + 7) >> 3; control_address = fn->fd.control_base_addr; ctrl_reg = f30->ctrl_regs; if (f30->has_gpio && f30->has_led) rmi_f30_set_ctrl_data(&f30->ctrl[0], &control_address, f30->register_count, &ctrl_reg); rmi_f30_set_ctrl_data(&f30->ctrl[1], &control_address, sizeof(u8), &ctrl_reg); if (f30->has_gpio) { rmi_f30_set_ctrl_data(&f30->ctrl[2], &control_address, f30->register_count, &ctrl_reg); rmi_f30_set_ctrl_data(&f30->ctrl[3], &control_address, f30->register_count, &ctrl_reg); } if (f30->has_led) { int ctrl5_len; rmi_f30_set_ctrl_data(&f30->ctrl[4], &control_address, f30->register_count, &ctrl_reg); if (f30->has_extended_pattern) ctrl5_len = 6; else ctrl5_len = 2; rmi_f30_set_ctrl_data(&f30->ctrl[5], &control_address, ctrl5_len, &ctrl_reg); } if (f30->has_led || f30->has_gpio_driver_control) { /* control 6 uses a byte per gpio/led */ rmi_f30_set_ctrl_data(&f30->ctrl[6], &control_address, f30->gpioled_count, &ctrl_reg); } if (f30->has_mappable_buttons) { /* control 7 uses a byte per gpio/led */ rmi_f30_set_ctrl_data(&f30->ctrl[7], &control_address, f30->gpioled_count, &ctrl_reg); } if (f30->has_haptic) { rmi_f30_set_ctrl_data(&f30->ctrl[8], &control_address, f30->register_count, &ctrl_reg); rmi_f30_set_ctrl_data(&f30->ctrl[9], &control_address, sizeof(u8), &ctrl_reg); } if (f30->has_mech_mouse_btns) rmi_f30_set_ctrl_data(&f30->ctrl[10], &control_address, sizeof(u8), &ctrl_reg); f30->ctrl_regs_size = ctrl_reg - f30->ctrl_regs ?: RMI_F30_CTRL_REGS_MAX_SIZE; retval = rmi_f30_read_control_parameters(fn, f30); if (retval < 0) { dev_err(&fn->dev, "Failed to initialize F19 control params.\n"); return retval; } map_memory = devm_kzalloc(&fn->dev, (f30->gpioled_count * (sizeof(u16))), GFP_KERNEL); if (!map_memory) { dev_err(&fn->dev, "Failed to allocate gpioled map memory.\n"); return -ENOMEM; } f30->gpioled_key_map = (u16 *)map_memory; pdata = rmi_get_platform_data(rmi_dev); if (pdata && f30->has_gpio) { button = BTN_LEFT; for (i = 0; i < f30->gpioled_count; i++) { if (rmi_f30_is_valid_button(i, f30->ctrl)) { f30->gpioled_key_map[i] = button++; /* * buttonpad might be given by * f30->has_mech_mouse_btns, but I am * not sure, so use only the pdata info */ if (pdata->f30_data && pdata->f30_data->buttonpad) break; } } } return 0; }

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static int rmi_f30_probe(struct rmi_function *fn) { int rc; const struct rmi_device_platform_data *pdata = rmi_get_platform_data(fn->rmi_dev); if (pdata->f30_data && pdata->f30_data->disable) return 0; rc = rmi_f30_initialize(fn); if (rc < 0) goto error_exit; rc = rmi_f30_register_device(fn); if (rc < 0) goto error_exit; return 0; error_exit: return rc; }

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struct rmi_function_handler rmi_f30_handler = { .driver = { .name = "rmi4_f30", }, .func = 0x30, .probe = rmi_f30_probe, .config = rmi_f30_config, .attention = rmi_f30_attention, };

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