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/*
* Copyright (c) 2011, 2012 Synaptics Incorporated
* Copyright (c) 2011 Unixphere
* Copyright (C) 2013, NVIDIA Corporation. All Rights Reserved.
*
* 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.
*/
#ifndef _RMI_H
#define _RMI_H
#include <linux/kernel.h>
#include <linux/cdev.h>
#include <linux/device.h>
#include <linux/interrupt.h>
#include <linux/input.h>
#include <linux/list.h>
#include <linux/lockdep.h>
#include <linux/module.h>
#include <linux/mutex.h>
#include <linux/stat.h>
#include <linux/types.h>
#include <linux/wait.h>
#include <linux/debugfs.h>
//#include <linux/earlysuspend.h>
extern struct bus_type rmi_bus_type;
extern struct device_type rmi_function_type;
extern struct device_type rmi_sensor_type;
/* When NV_NOTIFY_OUT_OF_IDLE is set no rmi spi interrupt for 50ms will be
* considered as idle. On first interrupt after idle miscellaneous input
* event MSC_ACTIVITY will be sent. This event will serve as early
* notification for actual input event and will allow cpu frequency governor
* to boost CPU clk early.
*/
#define NV_NOTIFY_OUT_OF_IDLE 1
/* Permissions for sysfs attributes. Since the permissions policy will change
* on a global basis in the future, rather than edit all sysfs attrs everywhere
* in the driver (and risk screwing that up in the process), we use this handy
* set of #defines. That way when we change the policy for sysfs permissions,
* we only need to change them here.
*/
#define RMI_RO_ATTR S_IRUGO
#define RMI_RW_ATTR (S_IRUGO | S_IWUGO)
#define RMI_WO_ATTR S_IWUGO
enum rmi_attn_polarity {
RMI_ATTN_ACTIVE_LOW = 0,
RMI_ATTN_ACTIVE_HIGH = 1
};
/**
* struct rmi_f11_axis_alignment - target axis alignment
* @swap_axes: set to TRUE if desired to swap x- and y-axis
* @flip_x: set to TRUE if desired to flip direction on x-axis
* @flip_y: set to TRUE if desired to flip direction on y-axis
* @clip_X_low - reported X coordinates below this setting will be clipped to
* the specified value
* @clip_X_high - reported X coordinates above this setting will be clipped to
* the specified value
* @clip_Y_low - reported Y coordinates below this setting will be clipped to
* the specified value
* @clip_Y_high - reported Y coordinates above this setting will be clipped to
* the specified value
* @offset_X - this value will be added to all reported X coordinates
* @offset_Y - this value will be added to all reported Y coordinates
* @rel_report_enabled - if set to true, the relative reporting will be
* automatically enabled for this sensor.
*/
struct rmi_f11_2d_axis_alignment {
u32 swap_axes;
bool flip_x;
bool flip_y;
int clip_X_low;
int clip_Y_low;
int clip_X_high;
int clip_Y_high;
int offset_X;
int offset_Y;
u8 delta_x_threshold;
u8 delta_y_threshold;
};
/**
* struct virtualbutton_map - describes rectangular areas of a 2D sensor that
* will be used by the driver to generate button events.
*
* @x - the x position of the low order corner of the rectangle, in RMI4
* position units.
* @y - the y position of the low order corner of the rectangle, in RMI4
* position units.
* @width - the width of the rectangle, in RMI4 position units.
* @height - the height of the rectangle, in RMI4 position units.
* @code - the input subsystem key event code that will be generated when a
* tap occurs within the rectangle.
*/
struct virtualbutton_map {
u16 x;
u16 y;
u16 width;
u16 height;
u16 code;
};
/**
* struct rmi_f11_virtualbutton_map - provides a list of virtual buttons for
* a 2D sensor.
*
* @buttons - the number of entries in the map.
* @map - an array of virtual button descriptions.
*/
struct rmi_f11_virtualbutton_map {
u8 buttons;
struct virtualbutton_map *map;
};
/** This is used to override any hints an F11 2D sensor might have provided
* as to what type of sensor it is.
*
* @rmi_f11_sensor_default - do not override, determine from F11_2D_QUERY14 if
* available.
* @rmi_f11_sensor_touchscreen - treat the sensor as a touchscreen (direct
* pointing).
* @rmi_f11_sensor_touchpad - thread the sensor as a touchpad (indirect
* pointing).
*/
enum rmi_f11_sensor_type {
rmi_f11_sensor_default = 0,
rmi_f11_sensor_touchscreen,
rmi_f11_sensor_touchpad
};
/**
* struct rmi_f11_sensor_data - overrides defaults for a single F11 2D sensor.
* @axis_align - provides axis alignment overrides (see above).
* @virtual_buttons - describes areas of the touch sensor that will be treated
* as buttons.
* @type_a - all modern RMI F11 firmwares implement Multifinger Type B
* protocol. Set this to true to force MF Type A behavior, in case you find
* an older sensor.
* @sensor_type - Forces the driver to treat the sensor as an indirect
* pointing device (touchpad) rather than a direct pointing device
* (touchscreen). This is useful when F11_2D_QUERY14 register is not
* available.
*/
struct rmi_f11_sensor_data {
struct rmi_f11_2d_axis_alignment axis_align;
struct rmi_f11_virtualbutton_map virtual_buttons;
bool type_a;
enum rmi_f11_sensor_type sensor_type;
};
/**
* struct rmi_f01_power - override default power management settings.
*
*/
enum rmi_f01_nosleep {
RMI_F01_NOSLEEP_DEFAULT = 0,
RMI_F01_NOSLEEP_OFF = 1,
RMI_F01_NOSLEEP_ON = 2
};
/**
* struct rmi_f01_power_management -When non-zero, these values will be written
* to the touch sensor to override the default firmware settigns. For a
* detailed explanation of what each field does, see the corresponding
* documention in the RMI4 specification.
*
* @nosleep - specifies whether the device is permitted to sleep or doze (that
* is, enter a temporary low power state) when no fingers are touching the
* sensor.
* @wakeup_threshold - controls the capacitance threshold at which the touch
* sensor will decide to wake up from that low power state.
* @doze_holdoff - controls how long the touch sensor waits after the last
* finger lifts before entering the doze state, in units of 100ms.
* @doze_interval - controls the interval between checks for finger presence
* when the touch sensor is in doze mode, in units of 10ms.
*/
struct rmi_f01_power_management {
enum rmi_f01_nosleep nosleep;
u8 wakeup_threshold;
u8 doze_holdoff;
u8 doze_interval;
};
/**
* struct rmi_button_map - used to specify the initial input subsystem key
* event codes to be generated by buttons (or button like entities) on the
* touch sensor.
* @nbuttons - length of the button map.
* @map - the key event codes for the corresponding buttons on the touch
* sensor.
*/
struct rmi_button_map {
u8 nbuttons;
u8 *map;
};
struct rmi_f30_gpioled_map {
u8 ngpioleds;
u8 *map;
};
/**
* struct rmi_device_platform_data_spi - provides parameters used in SPI
* communications. All Synaptics SPI products support a standard SPI
* interface; some also support what is called SPI V2 mode, depending on
* firmware and/or ASIC limitations. In V2 mode, the touch sensor can
* support shorter delays during certain operations, and these are specified
* separately from the standard mode delays.
*
* @block_delay - for standard SPI transactions consisting of both a read and
* write operation, the delay (in microseconds) between the read and write
* operations.
* @split_read_block_delay_us - for V2 SPI transactions consisting of both a
* read and write operation, the delay (in microseconds) between the read and
* write operations.
* @read_delay_us - the delay between each byte of a read operation in normal
* SPI mode.
* @write_delay_us - the delay between each byte of a write operation in normal
* SPI mode.
* @split_read_byte_delay_us - the delay between each byte of a read operation
* in V2 mode.
* @pre_delay_us - the delay before the start of a SPI transaction. This is
* typically useful in conjunction with custom chip select assertions (see
* below).
* @post_delay_us - the delay after the completion of an SPI transaction. This
* is typically useful in conjunction with custom chip select assertions (see
* below).
* @cs_assert - For systems where the SPI subsystem does not control the CS/SSB
* line, or where such control is broken, you can provide a custom routine to
* handle a GPIO as CS/SSB. This routine will be called at the beginning and
* end of each SPI transaction. The RMI SPI implementation will wait
* pre_delay_us after this routine returns before starting the SPI transfer;
* and post_delay_us after completion of the SPI transfer(s) before calling it
* with assert==FALSE.
*/
struct rmi_device_platform_data_spi {
int block_delay_us;
int split_read_block_delay_us;
int read_delay_us;
int write_delay_us;
int split_read_byte_delay_us;
int pre_delay_us;
int post_delay_us;
void *cs_assert_data;
int (*cs_assert) (const void *cs_assert_data, const bool assert);
};
/**
* struct rmi_device_platform_data - system specific configuration info.
*
* @sensor_name - this is used for various diagnostic messages.
*
* @firmware_name - if specified will override default firmware name,
* for reflashing.
*
* @attn_gpio - the index of a GPIO that will be used to provide the ATTN
* interrupt from the touch sensor.
* @attn_polarity - indicates whether ATTN is active high or low.
* @level_triggered - by default, the driver uses edge triggered interrupts.
* However, this can cause problems with suspend/resume on some platforms. In
* that case, set this to 1 to use level triggered interrupts.
* @gpio_config - a routine that will be called when the driver is loaded to
* perform any platform specific GPIO configuration, and when it is unloaded
* for GPIO de-configuration. This is typically used to configure the ATTN
* GPIO and the I2C or SPI pins, if necessary.
* @gpio_data - platform specific data to be passed to the GPIO configuration
* function.
*
* @poll_interval_ms - the time in milliseconds between reads of the interrupt
* status register. This is ignored if attn_gpio is non-zero.
*
* @reset_delay_ms - after issuing a reset command to the touch sensor, the
* driver waits a few milliseconds to give the firmware a chance to
* to re-initialize. You can override the default wait period here.
*
* @spi_data - override default settings for SPI delays and SSB management (see
* above).
*
* @f11_sensor_data - an array of platform data for individual F11 2D sensors.
* @f11_sensor_count - the length of f11_sensor_data array. Extra entries will
* be ignored; if there are too few entries, all settings for the additional
* sensors will be defaulted.
* @f11_rezero_wait - if non-zero, this is how may milliseconds the F11 2D
* sensor(s) will wait before being be rezeroed on exit from suspend. If
* this value is zero, the F11 2D sensor(s) will not be rezeroed on resume.
* @pre_suspend - this will be called before any other suspend operations are
* done.
* @power_management - overrides default touch sensor doze mode settings (see
* above)
* @f19_button_map - provide initial input subsystem key mappings for F19.
* @f1a_button_map - provide initial input subsystem key mappings for F1A.
* @gpioled_map - provides initial settings for GPIOs and LEDs controlled by
* F30.
* @f41_button_map - provide initial input subsystem key mappings for F41.
* @f54_direct_touch_report_size - the size of the report used for direct
* touch.
*
* @post_suspend - this will be called after all suspend operations are
* completed. This is the ONLY safe place to power off an RMI sensor
* during the suspend process.
* @pre_resume - this is called before any other resume operations. If you
* powered off the RMI4 sensor in post_suspend(), then you MUST power it back
* here, and you MUST wait an appropriate time for the ASIC to come up
* (100ms to 200ms, depending on the sensor) before returning.
* @pm_data - this will be passed to the various (pre|post)_(suspend/resume)
* functions.
*/
struct rmi_device_platform_data {
char *sensor_name; /* Used for diagnostics. */
int attn_gpio;
enum rmi_attn_polarity attn_polarity;
bool level_triggered;
void *gpio_data;
int (*gpio_config)(void *gpio_data, bool configure);
int poll_interval_ms;
int reset_delay_ms;
struct rmi_device_platform_data_spi spi_data;
/* function handler pdata */
struct rmi_f11_sensor_data *f11_sensor_data;
u8 f11_sensor_count;
u16 f11_rezero_wait;
struct rmi_f01_power_management power_management;
struct rmi_button_map *f19_button_map;
struct rmi_button_map *f1a_button_map;
struct rmi_f30_gpioled_map *gpioled_map;
struct rmi_button_map *f41_button_map;
int f54_direct_touch_report_size;
#ifdef CONFIG_RMI4_FWLIB
char *firmware_name;
#endif
#ifdef CONFIG_PM
void *pm_data;
int (*pre_suspend) (const void *pm_data);
int (*post_suspend) (const void *pm_data);
int (*pre_resume) (const void *pm_data);
int (*post_resume) (const void *pm_data);
#endif
};
/**
* struct rmi_function_descriptor - RMI function base addresses
*
* @query_base_addr: The RMI Query base address
* @command_base_addr: The RMI Command base address
* @control_base_addr: The RMI Control base address
* @data_base_addr: The RMI Data base address
* @interrupt_source_count: The number of irqs this RMI function needs
* @function_number: The RMI function number
*
* This struct is used when iterating the Page Description Table. The addresses
* are 16-bit values to include the current page address.
*
*/
struct rmi_function_descriptor {
u16 query_base_addr;
u16 command_base_addr;
u16 control_base_addr;
u16 data_base_addr;
u8 interrupt_source_count;
u8 function_number;
u8 function_version;
};
struct rmi_function_dev;
struct rmi_device;
/**
* struct rmi_function_driver - driver routines for a particular RMI function.
*
* @func: The RMI function number
* @probe: Called when the handler is successfully matched to a function device.
* @reset: Called when a reset of the touch sensor is detected. The routine
* should perform any out-of-the-ordinary reset handling that might be
* necessary. Restoring of touch sensor configuration registers should be
* handled in the config() callback, below.
* @config: Called when the function container is first initialized, and
* after a reset is detected. This routine should write any necessary
* configuration settings to the device.
* @attention: Called when the IRQ(s) for the function are set by the touch
* sensor.
* @suspend: Should perform any required operations to suspend the particular
* function.
* @resume: Should perform any required operations to resume the particular
* function.
*
* All callbacks are expected to return 0 on success, error code on failure.
*/
struct rmi_function_driver {
struct device_driver driver;
u8 func;
int (*probe)(struct rmi_function_dev *fc);
int (*remove)(struct rmi_function_dev *fc);
int (*config)(struct rmi_function_dev *fc);
int (*reset)(struct rmi_function_dev *fc);
int (*attention)(struct rmi_function_dev *fc,
unsigned long *irq_bits);
#ifdef CONFIG_PM
int (*suspend)(struct rmi_function_dev *fc);
int (*resume)(struct rmi_function_dev *fc);
#if defined(CONFIG_HAS_EARLYSUSPEND)
int (*early_suspend)(struct rmi_function_dev *fc);
int (*late_resume)(struct rmi_function_dev *fc);
#endif
#endif
#ifdef NV_NOTIFY_OUT_OF_IDLE
int (*out_of_idle)(struct rmi_function_dev *fc);
#endif
};
#define to_rmi_function_driver(d) \
container_of(d, struct rmi_function_driver, driver);
/**
* struct rmi_function_dev - represents an a particular RMI4 function on a given
* RMI4 sensor.
*
* @fd: The function descriptor of the RMI function
* @rmi_dev: Pointer to the RMI device associated with this function device
* @dev: The device associated with this particular function.
*
* @num_of_irqs: The number of irqs needed by this function
* @irq_pos: The position in the irq bitfield this function holds
* @irq_mask: For convience, can be used to mask IRQ bits off during ATTN
* interrupt handling.
* @data: Private data pointer
*
* @list: Used to create a list of function devices.
* @debugfs_root: used during debugging
*
*/
struct rmi_function_dev {
struct rmi_function_descriptor fd;
struct rmi_device *rmi_dev;
struct device dev;
int num_of_irqs;
int irq_pos;
unsigned long *irq_mask;
void *data;
struct list_head list;
struct dentry *debugfs_root;
};
#define to_rmi_function_dev(d) \
container_of(d, struct rmi_function_dev, dev);
int __must_check __rmi_register_function_driver(struct rmi_function_driver *,
struct module *, const char *);
#define rmi_register_function_driver(handler) \
__rmi_register_function_driver(handler, THIS_MODULE, KBUILD_MODNAME)
void rmi_unregister_function_driver(struct rmi_function_driver *);
/**
* struct rmi_driver - driver for an RMI4 sensor on the RMI bus.
*
* @driver: Device driver model driver
* @irq_handler: Callback for handling irqs
* @reset_handler: Called when a reset is detected.
* @get_func_irq_mask: Callback for calculating interrupt mask
* @store_irq_mask: Callback for storing and replacing interrupt mask
* @restore_irq_mask: Callback for restoring previously stored interrupt mask
* @store_productid: Callback for cache product id from function 01
* @data: Private data pointer
*
*/
struct rmi_driver {
struct device_driver driver;
int (*irq_handler)(struct rmi_device *rmi_dev, int irq);
int (*reset_handler)(struct rmi_device *rmi_dev);
int (*store_irq_mask)(struct rmi_device *rmi_dev,
unsigned long *new_interupts);
int (*restore_irq_mask)(struct rmi_device *rmi_dev);
int (*store_productid)(struct rmi_device *rmi_dev);
int (*set_input_params)(struct rmi_device *rmi_dev,
struct input_dev *input);
int (*remove)(struct rmi_device *rmi_dev);
void *data;
};
#define to_rmi_driver(d) \
container_of(d, struct rmi_driver, driver);
/** struct rmi_phys_info - diagnostic information about the RMI physical
* device, used in the phys debugfs file.
*
* @proto String indicating the protocol being used.
* @tx_count Number of transmit operations.
* @tx_bytes Number of bytes transmitted.
* @tx_errs Number of errors encountered during transmit operations.
* @rx_count Number of receive operations.
* @rx_bytes Number of bytes received.
* @rx_errs Number of errors encountered during receive operations.
* @att_count Number of times ATTN assertions have been handled.
*/
struct rmi_phys_info {
char *proto;
long tx_count;
long tx_bytes;
long tx_errs;
long rx_count;
long rx_bytes;
long rx_errs;
};
/**
* struct rmi_phys_device - represent an RMI physical device
*
* @dev: Pointer to the communication device, e.g. i2c or spi
* @rmi_dev: Pointer to the RMI device
* @write_block: Writing a block of data to the specified address
* @read_block: Read a block of data from the specified address.
* @irq_thread: if not NULL, the sensor driver will use this instead of the
* default irq_thread implementation.
* @hard_irq: if not NULL, the sensor driver will use this for the hard IRQ
* handling
* @data: Private data pointer
*
* The RMI physical device implements the glue between different communication
* buses such as I2C and SPI.
*
*/
struct rmi_phys_device {
struct device *dev;
struct rmi_device *rmi_dev;
int (*write_block)(struct rmi_phys_device *phys, u16 addr,
const void *buf, const int len);
int (*read_block)(struct rmi_phys_device *phys, u16 addr,
void *buf, const int len);
int (*enable_device) (struct rmi_phys_device *phys);
void (*disable_device) (struct rmi_phys_device *phys);
irqreturn_t (*irq_thread)(int irq, void *p);
irqreturn_t (*hard_irq)(int irq, void *p);
void *data;
struct rmi_phys_info info;
};
/**
* struct rmi_device - represents an RMI4 sensor device on the RMI bus.
*
* @dev: The device created for the RMI bus
* @number: Unique number for the device on the bus.
* @driver: Pointer to associated driver
* @phys: Pointer to the physical interface
* @early_suspend_handler: Pointers to early_suspend, if
* configured.
* @debugfs_root: base for this particular sensor device.
*
*/
struct rmi_device {
struct device dev;
int number;
struct rmi_driver *driver;
struct rmi_phys_device *phys;
#ifdef CONFIG_HAS_EARLYSUSPEND
struct early_suspend early_suspend_handler;
#endif
struct dentry *debugfs_root;
int interrupt_restore_block_flag;
};
#define to_rmi_device(d) container_of(d, struct rmi_device, dev);
#define to_rmi_platform_data(d) ((d)->phys->dev->platform_data);
/**
* rmi_read - read a single byte
* @d: Pointer to an RMI device
* @addr: The address to read from
* @buf: The read buffer
*
* Reads a byte of data using the underlaying physical protocol in to buf. It
* returns zero or a negative error code.
*/
static inline int rmi_read(struct rmi_device *d, u16 addr, void *buf)
{
return d->phys->read_block(d->phys, addr, buf, 1);
}
/**
* rmi_read_block - read a block of bytes
* @d: Pointer to an RMI device
* @addr: The start address to read from
* @buf: The read buffer
* @len: Length of the read buffer
*
* Reads a block of byte data using the underlaying physical protocol in to buf.
* It returns the amount of bytes read or a negative error code.
*/
static inline int rmi_read_block(struct rmi_device *d, u16 addr, void *buf,
const int len)
{
return d->phys->read_block(d->phys, addr, buf, len);
}
/**
* rmi_write - write a single byte
* @d: Pointer to an RMI device
* @addr: The address to write to
* @data: The data to write
*
* Writes a byte from buf using the underlaying physical protocol. It
* returns zero or a negative error code.
*/
static inline int rmi_write(struct rmi_device *d, u16 addr, const u8 data)
{
return d->phys->write_block(d->phys, addr, &data, 1);
}
/**
* rmi_write_block - write a block of bytes
* @d: Pointer to an RMI device
* @addr: The start address to write to
* @buf: The write buffer
* @len: Length of the write buffer
*
* Writes a block of byte data from buf using the underlaying physical protocol.
* It returns the amount of bytes written or a negative error code.
*/
static inline int rmi_write_block(struct rmi_device *d, u16 addr,
const void *buf, const int len)
{
return d->phys->write_block(d->phys, addr, buf, len);
}
int rmi_register_phys_device(struct rmi_phys_device *phys);
void rmi_unregister_phys_device(struct rmi_phys_device *phys);
int rmi_for_each_dev(void *data, int (*func)(struct device *dev, void *data));
/**
* module_rmi_function_driver() - Helper macro for registering a function driver
* @__rmi_driver: rmi_function_driver struct
*
* Helper macro for RMI4 function drivers which do not do anything special in
* module init/exit. This eliminates a lot of boilerplate. Each module
* may only use this macro once, and calling it replaces module_init()
* and module_exit().
*/
#define module_rmi_function_driver(__rmi_driver) \
module_driver(__rmi_driver, \
rmi_register_function_driver, \
rmi_unregister_function_driver)
/**
* Helper fn to convert a byte array representing a 16 bit value in the RMI
* endian-ness to a 16-bit value in the native processor's specific endianness.
* We don't use ntohs/htons here because, well, we're not dealing with
* a pair of 16 bit values. Casting dest to u16* wouldn't work, because
* that would imply knowing the byte order of u16 in the first place. The
* same applies for using shifts and masks.
*/
static inline u16 batohs(u8 *src)
{
return src[1] << 8 | src[0];
}
/**
* Helper function to convert a 16 bit value (in host processor endianess) to
* a byte array in the RMI endianess for u16s. See above comment for
* why we dont us htons or something like that.
*/
static inline void hstoba(u8 *dest, u16 src)
{
dest[0] = src & 0xFF;
dest[1] = src >> 8;
}
#endif
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