#ifndef _LINUX_STM_TS_H_
#define _LINUX_STM_TS_H_
#include <asm/unaligned.h>
#include <linux/completion.h>
#include <linux/ctype.h>
#include <linux/delay.h>
#include <linux/firmware.h>
#include <linux/gpio.h>
#include <linux/hrtimer.h>
#include <linux/i2c.h>
#include <linux/spi/spi.h>
#include <linux/input.h>
#include <linux/input/mt.h>
#include <linux/interrupt.h>
#include <linux/io.h>
#include <linux/irq.h>
#include <linux/kernel.h>
#include <linux/limits.h>
#include <linux/module.h>
#include <linux/of_gpio.h>
#include <linux/platform_device.h>
#include <linux/regulator/consumer.h>
#include <linux/slab.h>
#include <linux/sysfs.h>
#include <linux/time.h>
#include <linux/uaccess.h>
#include <linux/vmalloc.h>
#include <linux/pm_wakeup.h>
#include <linux/workqueue.h>
#include <linux/proc_fs.h>
#if IS_ENABLED(CONFIG_SAMSUNG_TUI)
#include <linux/input/stui_inf.h>
#endif
#if IS_ENABLED(CONFIG_INPUT_SEC_SECURE_TOUCH)
#include "../sec_secure_touch.h"
#include <linux/atomic.h>
#include <linux/clk.h>
#include <linux/pm_runtime.h>
#define SECURE_TOUCH_ENABLE 1
#define SECURE_TOUCH_DISABLE 0
#include <linux/debugfs.h>
#include <linux/fs.h>
#include <linux/kobject.h>
#include <linux/sort.h>
#if IS_ENABLED(CONFIG_GH_RM_DRV)
#include <linux/gunyah/gh_msgq.h>
#include <linux/gunyah/gh_rm_drv.h>
#include <linux/gunyah/gh_irq_lend.h>
#include <linux/gunyah/gh_mem_notifier.h>
#define TRUSTED_TOUCH_MEM_LABEL 0x7
enum trusted_touch_mode_config {
TRUSTED_TOUCH_VM_MODE,
TRUSTED_TOUCH_MODE_NONE
};
enum trusted_touch_pvm_states {
TRUSTED_TOUCH_PVM_INIT,
PVM_I2C_RESOURCE_ACQUIRED,
PVM_INTERRUPT_DISABLED,
PVM_IOMEM_LENT,
PVM_IOMEM_LENT_NOTIFIED,
PVM_IRQ_LENT,
PVM_IRQ_LENT_NOTIFIED,
PVM_IOMEM_RELEASE_NOTIFIED,
PVM_IRQ_RELEASE_NOTIFIED,
PVM_ALL_RESOURCES_RELEASE_NOTIFIED,
PVM_IRQ_RECLAIMED,
PVM_IOMEM_RECLAIMED,
PVM_INTERRUPT_ENABLED,
PVM_I2C_RESOURCE_RELEASED,
TRUSTED_TOUCH_PVM_STATE_MAX
};
enum trusted_touch_tvm_states {
TRUSTED_TOUCH_TVM_INIT,
TVM_IOMEM_LENT_NOTIFIED,
TVM_IRQ_LENT_NOTIFIED,
TVM_ALL_RESOURCES_LENT_NOTIFIED,
TVM_IOMEM_ACCEPTED,
TVM_I2C_SESSION_ACQUIRED,
TVM_IRQ_ACCEPTED,
TVM_INTERRUPT_ENABLED,
TVM_INTERRUPT_DISABLED,
TVM_IRQ_RELEASED,
TVM_I2C_SESSION_RELEASED,
TVM_IOMEM_RELEASED,
TRUSTED_TOUCH_TVM_STATE_MAX
};
#define TOUCH_INTR_GPIO_BASE 0xF12E000
#define TOUCH_INTR_GPIO_SIZE 0x1000
#define TOUCH_INTR_GPIO_OFFSET 0x8
#define TRUSTED_TOUCH_EVENT_LEND_FAILURE -1
#define TRUSTED_TOUCH_EVENT_LEND_NOTIFICATION_FAILURE -2
#define TRUSTED_TOUCH_EVENT_ACCEPT_FAILURE -3
#define TRUSTED_TOUCH_EVENT_FUNCTIONAL_FAILURE -4
#define TRUSTED_TOUCH_EVENT_RELEASE_FAILURE -5
#define TRUSTED_TOUCH_EVENT_RECLAIM_FAILURE -6
#define TRUSTED_TOUCH_EVENT_I2C_FAILURE -7
#define TRUSTED_TOUCH_EVENT_NOTIFICATIONS_PENDING 5
struct trusted_touch_vm_info {
enum gh_irq_label irq_label;
enum gh_mem_notifier_tag mem_tag;
enum gh_vm_names vm_name;
const char *trusted_touch_type;
u32 hw_irq;
gh_memparcel_handle_t vm_mem_handle;
u32 *iomem_bases;
u32 *iomem_sizes;
u32 iomem_list_size;
void *mem_cookie;
atomic_t vm_state;
};
#endif
#endif
#if IS_ENABLED(CONFIG_VBUS_NOTIFIER)
#include <linux/vbus_notifier.h>
#endif
#include "../sec_tclm_v2.h"
#if IS_ENABLED(CONFIG_INPUT_TOUCHSCREEN_TCLMV2)
#define TCLM_CONCEPT
#endif
#if IS_ENABLED(CONFIG_TOUCHSCREEN_DUMP_MODE)
#include "../sec_tsp_dumpkey.h"
extern struct tsp_dump_callbacks dump_callbacks;
#endif
#if IS_ENABLED(CONFIG_HALL_NOTIFIER)
#include <linux/hall/hall_ic_notifier.h>
#endif
#include "../sec_input.h"
#include "../sec_tsp_log.h"
#ifndef I2C_M_DMA_SAFE
#define I2C_M_DMA_SAFE 0
#endif
#if IS_ENABLED(CONFIG_TOUCHSCREEN_STM_SPI)
#define ENABLE_RAWDATA_SERVICE
#undef RAWDATA_MMAP
#define RAWDATA_IOCTL
#define RAW_VEC_NUM 3
#endif
#define input_raw_info_d(mode, dev, fmt, ...) input_raw_info(mode, dev, fmt, ## __VA_ARGS__)
#define USE_OPEN_CLOSE
#define STM_TS_I2C_NAME "stm_ts"
#define STM_TS_SPI_NAME "stm_ts_spi"
#define STM_TS_DEVICE_NAME "STM_TS"
enum stm_ts_error_return {
STM_TS_NOT_ERROR = 0,
STM_TS_I2C_ERROR,
STM_TS_ERROR_INVALID_CHIP_ID,
STM_TS_ERROR_INVALID_CHIP_VERSION_ID,
STM_TS_ERROR_INVALID_SW_VERSION,
STM_TS_ERROR_EVENT_ID,
STM_TS_ERROR_FW_CORRUPTION,
STM_TS_ERROR_TIMEOUT,
STM_TS_ERROR_TIMEOUT_ZERO,
STM_TS_ERROR_FW_UPDATE_FAIL,
STM_TS_ERROR_BROKEN_OSC_TRIM,
STM_TS_ERROR_BROKEN_FW,
};
enum stm_ts_fw_update_status {
STM_TS_NOT_UPDATE = 10,
STM_TS_NEED_FW_UPDATE,
STM_TS_NEED_CALIBRATION_ONLY,
STM_TS_NEED_FW_UPDATE_N_CALIBRATION,
};
enum stm_ts_active_mode_status {
STM_TS_ACTIVE_FALSE = 0,
STM_TS_ACTIVE_TRUE,
STM_TS_ACTIVE_FALSE_SNR,
};
extern struct device *ptsp;
extern struct stm_ts_data *g_ts;
/**
* struct stm_ts_finger - Represents fingers.
* @ state: finger status (Event ID).
* @ mcount: moving counter for debug.
*/
struct stm_ts_finger {
u8 id;
u8 prev_ttype;
u8 ttype;
u8 action;
u16 x;
u16 y;
u16 p_x;
u16 p_y;
u8 z;
u8 hover_flag;
u8 glove_flag;
u8 touch_height;
u16 mcount;
u8 major;
u8 minor;
bool palm;
int palm_count;
u8 left_event;
u8 max_energy;
u16 max_energy_x;
u16 max_energy_y;
u8 noise_level;
u8 max_strength;
u8 hover_id_num;
};
enum switch_system_mode {
TO_TOUCH_MODE = 0,
TO_LOWPOWER_MODE = 1,
};
enum tsp_status_call_pos {
STM_TS_STATE_CHK_POS_OPEN = 0,
STM_TS_STATE_CHK_POS_CLOSE,
STM_TS_STATE_CHK_POS_HALL,
STM_TS_STATE_CHK_POS_SYSFS,
};
enum stm_ts_cover_id {
STM_TS_FLIP_WALLET = 0,
STM_TS_VIEW_COVER,
STM_TS_COVER_NOTHING1,
STM_TS_VIEW_WIRELESS,
STM_TS_COVER_NOTHING2,
STM_TS_CHARGER_COVER,
STM_TS_VIEW_WALLET,
STM_TS_LED_COVER,
STM_TS_CLEAR_FLIP_COVER,
STM_TS_QWERTY_KEYBOARD_EUR,
STM_TS_QWERTY_KEYBOARD_KOR,
STM_TS_MONTBLANC_COVER = 100,
};
enum {
SPECIAL_EVENT_TYPE_SPAY = 0x04,
SPECIAL_EVENT_TYPE_AOD = 0x08,
SPECIAL_EVENT_TYPE_AOD_PRESS = 0x09,
SPECIAL_EVENT_TYPE_AOD_LONGPRESS = 0x0A,
SPECIAL_EVENT_TYPE_AOD_DOUBLETAB = 0x0B,
};
enum stm_ts_system_information_address {
STM_TS_SI_CONFIG_CHECKSUM = 0x58, /* 4 bytes */
STM_TS_SI_OSC_TRIM_INFO = 0x60, /* 4 bytes */
};
enum stm_ts_ito_test_mode {
OPEN_TEST = 0, // trx_open_test 1,1
SHORT_TEST, // trx_open_test 1,2
MICRO_OPEN_TEST, // trx_open_test 2
MICRO_SHORT_TEST, // trx_open_test 3
OPEN_SHORT_CRACK_TEST,
SAVE_MISCAL_REF_RAW,
};
enum stm_ts_ito_test_result {
ITO_PASS = 0,
ITO_FAIL,
ITO_FAIL_OPEN,
ITO_FAIL_SHORT,
ITO_FAIL_MICRO_OPEN,
ITO_FAIL_MICRO_SHORT,
};
/* STM_TS_OFFSET_SIGNUTRE */
#define STM_TS_OFFSET_SIGNATURE 0x59525446
#define STM_TS_CM2_SIGNATURE 0x324D5446
#define STM_TS_CM3_SIGNATURE 0x334D5446
#define STM_TS_FAIL_HIST_SIGNATURE 0x53484646
enum stm_ts_miscal_test_result {
MISCAL_PASS = 0,
MISCAL_FAIL,
};
#define UEVENT_OPEN_SHORT_PASS 1
#define UEVENT_OPEN_SHORT_FAIL 2
/* ----------------------------------------
* write 0xE4 [ 11 | 10 | 01 | 00 ]
* MSB <-------------------> LSB
* read 0xE4
* mapping sequnce : LSB -> MSB
* struct sec_ts_test_result {
* * assy : front + OCTA assay
* * module : only OCTA
* union {
* struct {
* u8 assy_count:2; -> 00
* u8 assy_result:2; -> 01
* u8 module_count:2; -> 10
* u8 module_result:2; -> 11
* } __attribute__ ((packed));
* u8 data[1];
* };
*};
* ----------------------------------------
*/
struct stm_ts_test_result {
union {
struct {
u8 assy_count:2;
u8 assy_result:2;
u8 module_count:2;
u8 module_result:2;
} __packed;
u8 data[1];
};
};
#define TEST_OCTA_MODULE 1
#define TEST_OCTA_ASSAY 2
#define TEST_OCTA_NONE 0
#define TEST_OCTA_FAIL 1
#define TEST_OCTA_PASS 2
#define SEC_OFFSET_SIGNATURE 0x59525446
#define STM_TS_ITO_RESULT_PRINT_SIZE 1024
struct stm_ts_sec_panel_test_result {
u8 flag;
u8 num_of_test;
u16 max_of_tx_gap;
u16 max_of_rx_gap;
u8 tx_of_txmax_gap;
u8 rx_of_txmax_gap;
u8 tx_of_rxmax_gap;
u8 rx_of_rxmax_gap;
} __packed;
/* 16 byte */
struct stm_ts_event_coordinate {
u8 eid:2;
u8 tid:4;
u8 tchsta:2;
u8 x_11_4;
u8 y_11_4;
u8 y_3_0:4;
u8 x_3_0:4;
u8 major;
u8 minor;
u8 z:6;
u8 ttype_3_2:2;
u8 left_event:5;
u8 max_energy:1;
u8 ttype_1_0:2;
u8 noise_level;
u8 max_strength;
u8 hover_id_num:4;
u8 noise_status:2;
u8 eom:1;
u8 game_mode:1;
u8 freq_id:4;
u8 reserved_11:4;
u8 reserved_12;
u8 reserved_13;
u8 reserved_14;
u8 reserved_15;
} __packed;
/* 16 byte */
struct stm_ts_event_status {
u8 eid:2;
u8 stype:4;
u8 sf:2;
u8 status_id;
u8 status_data_1;
u8 status_data_2;
u8 status_data_3;
u8 status_data_4;
u8 status_data_5;
u8 left_event_4_0:5;
u8 max_energy:1;
u8 reserved:2;
u8 reserved_8;
u8 reserved_9;
u8 reserved_10;
u8 reserved_11;
u8 reserved_12;
u8 reserved_13;
u8 reserved_14;
u8 reserved_15;
} __packed;
/* 16 byte */
struct stm_ts_gesture_status {
u8 eid:2;
u8 stype:4;
u8 sf:2;
u8 gesture_id;
u8 gesture_data_1;
u8 gesture_data_2;
u8 gesture_data_3;
u8 gesture_data_4;
u8 reserved_6;
u8 left_event_4_0:5;
u8 max_energy:1;
u8 reserved_7:2;
u8 reserved_8;
u8 reserved_9;
u8 reserved_10;
u8 reserved_11;
u8 reserved_12;
u8 reserved_13;
u8 reserved_14;
u8 reserved_15;
} __packed;
struct stm_ts_syncframeheader {
u8 header; // 0
u8 host_data_mem_id; // 1
u16 cnt; // 2~3
u8 dbg_frm_len; // 4
u8 ms_force_len; // 5
u8 ms_sense_len; // 6
u8 ss_force_len; // 7
u8 ss_sense_len; // 8
u8 key_len; // 9
u16 reserved1; // 10~11
u32 reserved2; // 12~15
} __packed;
enum stm_ts_nvm_data_type { /* Write Command */
STM_TS_NVM_OFFSET_FAC_RESULT = 1,
STM_TS_NVM_OFFSET_CAL_COUNT,
STM_TS_NVM_OFFSET_DISASSEMBLE_COUNT,
STM_TS_NVM_OFFSET_TUNE_VERSION,
STM_TS_NVM_OFFSET_CAL_POSITION,
STM_TS_NVM_OFFSET_HISTORY_QUEUE_COUNT,
STM_TS_NVM_OFFSET_HISTORY_QUEUE_LASTP,
STM_TS_NVM_OFFSET_HISTORY_QUEUE_ZERO,
STM_TS_NVM_OFFSET_CAL_FAIL_FLAG,
STM_TS_NVM_OFFSET_CAL_FAIL_COUNT,
};
struct stm_ts_nvm_data_map {
int type;
int offset;
int length;
};
#define STM_TS_COMP_DATA_HEADER_SIZE 16
struct stm_ts_snr_result_cmd {
s16 status;
s16 point;
s16 average;
} __packed;
struct tsp_snr_result_of_point {
s16 max;
s16 min;
s16 average;
s16 nontouch_peak_noise;
s16 touch_peak_noise;
s16 snr1;
s16 snr2;
} __packed;
struct stm_ts_snr_result {
s16 status;
s16 reserved[6];
struct tsp_snr_result_of_point result[9];
} __packed;
/* This Flash Meory Map is FIXED by STM firmware
* Do not change MAP.
*/
#define STM_TS_NVM_OFFSET_ALL 31
struct stm_ts_data {
#if IS_ENABLED(CONFIG_TOUCHSCREEN_STM_SPI)
struct spi_device *client;
#else
struct i2c_client *client;
#endif
int irq;
int irq_empty_count;
struct sec_ts_plat_data *plat_data;
struct mutex lock;
bool probe_done;
struct sec_cmd_data sec;
int tx_count;
int rx_count;
short *pFrame;
u8 *cx_data;
u8 *ito_result;
struct stm_ts_test_result test_result;
u8 disassemble_count;
u8 fac_nv;
struct sec_tclm_data *tdata;
bool is_cal_done;
bool fw_corruption;
bool glove_enabled;
u8 brush_mode;
int resolution_x;
int resolution_y;
u8 touch_opmode;
u8 charger_mode;
u8 scan_mode;
u8 game_mode;
#if IS_ENABLED(CONFIG_INPUT_SEC_SECURE_TOUCH)
atomic_t secure_enabled;
atomic_t secure_pending_irqs;
struct completion secure_powerdown;
struct completion secure_interrupt;
#if IS_ENABLED(CONFIG_GH_RM_DRV)
struct trusted_touch_vm_info *vm_info;
struct mutex clk_io_ctrl_mutex;
struct mutex transition_lock;
const char *touch_environment;
struct completion trusted_touch_powerdown;
struct clk *core_clk;
struct clk *iface_clk;
atomic_t trusted_touch_initialized;
atomic_t trusted_touch_enabled;
atomic_t trusted_touch_transition;
atomic_t trusted_touch_event;
atomic_t trusted_touch_abort_status;
atomic_t delayed_vm_probe_pending;
atomic_t trusted_touch_mode;
#endif
#endif
int fw_version_of_ic; /* firmware version of IC */
int fw_version_of_bin; /* firmware version of binary */
int config_version_of_ic; /* Config release data from IC */
int config_version_of_bin; /* Config release data from IC */
u16 fw_main_version_of_ic; /* firmware main version of IC */
u16 fw_main_version_of_bin; /* firmware main version of binary */
u8 project_id_of_ic;
u8 project_id_of_bin;
u8 ic_name_of_ic;
u8 ic_name_of_bin;
u8 module_version_of_ic;
u8 module_version_of_bin;
int panel_revision; /* Octa panel revision */
u32 chip_id;
int flip_status_prev;
int flip_status;
int flip_status_current;
int change_flip_status;
int tsp_open_status;
struct mutex switching_mutex;
struct mutex status_mutex;
struct delayed_work switching_work;
#if IS_ENABLED(CONFIG_HALL_NOTIFIER)
struct notifier_block hall_ic_nb;
struct notifier_block hall_ic_nb_ssh;
#endif
#if IS_ENABLED(CONFIG_VBUS_NOTIFIER)
struct notifier_block vbus_nb;
#endif
struct notifier_block stm_input_nb;
struct delayed_work work_print_info;
struct delayed_work work_read_functions;
struct delayed_work reset_work;
struct delayed_work work_read_info;
struct delayed_work debug_work;
struct delayed_work check_rawdata;
#if IS_ENABLED(CONFIG_GH_RM_DRV)
struct delayed_work close_work;
#endif
volatile bool reset_is_on_going;
int debug_flag;
struct mutex read_write_mutex;
struct mutex device_mutex;
struct mutex eventlock;
struct mutex sponge_mutex;
struct mutex fn_mutex;
struct mutex modechange;
bool info_work_done;
int lpmode_change_delay;
u8 factory_position;
int proc_cmoffset_size;
int proc_cmoffset_all_size;
char *cmoffset_sdc_proc;
char *cmoffset_sub_proc;
char *cmoffset_main_proc;
char *cmoffset_all_proc;
char *miscal_proc;
int proc_fail_hist_size;
int proc_fail_hist_all_size;
char *fail_hist_sdc_proc;
char *fail_hist_sub_proc;
char *fail_hist_main_proc;
char *fail_hist_all_proc;
bool sponge_inf_dump;
u8 sponge_dump_format;
u8 sponge_dump_event;
u8 sponge_dump_border_msb;
u8 sponge_dump_border_lsb;
bool sponge_dump_delayed_flag;
u8 sponge_dump_delayed_area;
u16 sponge_dump_border;
bool rear_selfie_mode;
u8 hover_event;
bool tsp_dump_lock;
bool fix_active_mode;
bool touch_aging_mode;
int sensitivity_mode;
#ifdef ENABLE_RAWDATA_SERVICE
u8 raw_addr_h;
u8 raw_addr_l;
u8 raw_mode;
int raw_len;
u8 *raw_u8;//read from IC
s16 *raw;//convert x/y
struct mutex raw_lock;
#ifdef RAWDATA_MMAP
int raw_irq_count;
int before_irq_count;
u8 *raw_v0;//mmap0 ...
u8 *raw_v1;
u8 *raw_v2;
u8 *raw_v3;
u8 *raw_v4;
short *mmapdata;
#endif
#ifdef RAWDATA_IOCTL
u8 *raw_pool[RAW_VEC_NUM];
u8 raw_read_index;
u8 raw_write_index;
#endif
#endif
bool rawcap_lock;
int rawcap_max;
int rawcap_max_tx;
int rawcap_max_rx;
int rawcap_min;
int rawcap_min_tx;
int rawcap_min_rx;
u8 vvc_mode;
int (*stop_device)(struct stm_ts_data *ts);
int (*start_device)(struct stm_ts_data *ts);
int (*stm_ts_write)(struct stm_ts_data *ts, u8 *reg, int cunum, u8 *data, int len);
int (*stm_ts_read)(struct stm_ts_data *ts, u8 *reg, int cnum, u8 *data, int len);
int (*stm_ts_read_sponge)(struct stm_ts_data *ts, u8 *data, int length);
int (*stm_ts_write_sponge)(struct stm_ts_data *ts, u8 *data, int length);
int (*stm_ts_systemreset)(struct stm_ts_data *ts, unsigned int msec);
int (*stm_ts_wait_for_ready)(struct stm_ts_data *ts);
void (*stm_ts_command)(struct stm_ts_data *ts, u8 cmd, bool checkecho);
};
//core
int stm_ts_stop_device(void *data);
int stm_ts_start_device(void *data);
irqreturn_t stm_ts_irq_thread(int irq, void *ptr);
int stm_ts_probe(struct stm_ts_data *ts);
int stm_ts_remove(struct stm_ts_data *ts);
void stm_ts_shutdown(struct stm_ts_data *ts);
int stm_ts_pm_suspend(struct stm_ts_data *ts);
int stm_ts_pm_resume(struct stm_ts_data *ts);
#if IS_ENABLED(CONFIG_TOUCHSCREEN_STM_SPI)
void stm_ts_set_spi_mode(struct stm_ts_data *ts);
#endif
//i2c or spi
int stm_ts_wire_mode_change(struct stm_ts_data *ts, u8 *reg);
int stm_tclm_data_read(struct stm_ts_data *ts, int address);
int stm_tclm_data_write(struct stm_ts_data *ts, int address);
int stm_ts_tool_proc_init(struct stm_ts_data *ts);
int stm_ts_tool_proc_remove(void);
int stm_pm_runtime_get_sync(struct stm_ts_data *ts);
void stm_pm_runtime_put_sync(struct stm_ts_data *ts);
void stm_ts_reinit(void *data);
int stm_ts_execute_autotune(struct stm_ts_data *ts, bool IsSaving);
int stm_ts_get_tsp_test_result(struct stm_ts_data *ts);
void stm_ts_release_all_finger(struct stm_ts_data *ts);
void stm_ts_locked_release_all_finger(struct stm_ts_data *ts);
int stm_ts_set_external_noise_mode(struct stm_ts_data *ts, u8 mode);
int stm_ts_fix_active_mode(struct stm_ts_data *ts, int mode);
int stm_ts_get_version_info(struct stm_ts_data *ts);
int stm_ts_wait_for_ready(struct stm_ts_data *ts);
//fn
int stm_ts_read_from_sponge(struct stm_ts_data *ts, u8 *data, int length);
int stm_ts_write_to_sponge(struct stm_ts_data *ts, u8 *data, int length);
void stm_ts_command(struct stm_ts_data *ts, u8 cmd, bool checkecho);
void stm_set_grip_data_to_ic(struct device *dev, u8 flag);
int stm_ts_set_temperature(struct device *dev, u8 temperature_data);
int stm_ts_fw_corruption_check(struct stm_ts_data *ts);
void stm_ts_read_chip_id_hw(struct stm_ts_data *ts);
void stm_ts_read_chip_id(struct stm_ts_data *ts);
int stm_ts_get_version_info(struct stm_ts_data *ts);
int stm_ts_systemreset(struct stm_ts_data *ts, unsigned int msec);
int stm_ts_set_scanmode(struct stm_ts_data *ts, u8 scan_mode);
int stm_ts_set_lowpowermode(void *data, u8 mode);
int stm_ts_set_aod_rect(struct stm_ts_data *ts);
void stm_ts_reset(struct stm_ts_data *ts, unsigned int ms);
void stm_ts_reset_work(struct work_struct *work);
void stm_ts_read_info_work(struct work_struct *work);
void stm_ts_print_info_work(struct work_struct *work);
int get_nvm_data_by_size(struct stm_ts_data *ts, u8 offset, int length, u8 *nvdata);
int get_nvm_data(struct stm_ts_data *ts, int type, u8 *nvdata);
int stm_ts_set_custom_library(struct stm_ts_data *ts);
void stm_ts_get_custom_library(struct stm_ts_data *ts);
void stm_ts_set_fod_finger_merge(struct stm_ts_data *ts);
int stm_ts_set_fod_rect(struct stm_ts_data *ts);
int stm_ts_set_touchable_area(struct stm_ts_data *ts);
int stm_ts_ear_detect_enable(struct stm_ts_data *ts, u8 enable);
int stm_ts_pocket_mode_enable(struct stm_ts_data *ts, u8 enable);
int stm_ts_set_wirelesscharger_mode(struct stm_ts_data *ts);
int stm_ts_set_wirecharger_mode(struct stm_ts_data *ts);
void stm_ts_set_cover_type(struct stm_ts_data *ts, bool enable);
int stm_ts_set_press_property(struct stm_ts_data *ts);
int stm_ts_get_sysinfo_data(struct stm_ts_data *ts, u8 sysinfo_addr, u8 read_cnt, u8 *data);
void stm_ts_change_scan_rate(struct stm_ts_data *ts, u8 rate);
int stm_ts_osc_trim_recovery(struct stm_ts_data *ts);
int get_nvm_data(struct stm_ts_data *ts, int type, u8 *nvdata);
int set_nvm_data(struct stm_ts_data *ts, u8 type, u8 *buf);
int get_nvm_data_by_size(struct stm_ts_data *ts, u8 offset, int length, u8 *nvdata);
int set_nvm_data_by_size(struct stm_ts_data *ts, u8 offset, int length, u8 *buf);
int stm_ts_get_channel_info(struct stm_ts_data *ts);
int stm_ts_set_opmode(struct stm_ts_data *ts, u8 mode);
int stm_ts_set_touch_function(struct stm_ts_data *ts);
void stm_ts_get_touch_function(struct work_struct *work);
int _stm_tclm_data_read(struct stm_ts_data *ts, int address);
int _stm_tclm_data_write(struct stm_ts_data *ts, int address);
int stm_ts_set_hsync_scanmode(struct stm_ts_data *ts, u8 scan_mode);
int stm_ts_fod_vi_event(struct stm_ts_data *ts);
int stm_ts_set_vvc_mode(struct stm_ts_data *ts, bool enable);
#if IS_ENABLED(CONFIG_INPUT_SEC_NOTIFIER)
void stm_ts_interrupt_notify(struct work_struct *work);
#endif
#if IS_ENABLED(CONFIG_VBUS_NOTIFIER)
int stm_ts_vbus_notification(struct notifier_block *nb, unsigned long cmd, void *data);
#endif
//cmd
void stm_ts_fn_remove(struct stm_ts_data *ts);
int stm_ts_fn_init(struct stm_ts_data *ts);
int stm_ts_panel_ito_test(struct stm_ts_data *ts, int testmode);
void stm_ts_run_rawdata_all(struct stm_ts_data *ts);
//dump
#if IS_ENABLED(CONFIG_TOUCHSCREEN_DUMP_MODE)
void stm_ts_check_rawdata(struct work_struct *work);
void stm_ts_dump_tsp_log(struct device *dev);
void stm_ts_sponge_dump_flush(struct stm_ts_data *ts, int dump_area);
#endif
void stm_ts_init_proc(struct stm_ts_data *ts);
ssize_t get_cmoffset_dump(struct stm_ts_data *ts, char *buf, u8 position);
//fw
int stm_ts_fw_update_on_probe(struct stm_ts_data *ts);
int stm_ts_fw_update_on_hidden_menu(struct stm_ts_data *ts, int update_type);
int stm_ts_wait_for_echo_event(struct stm_ts_data *ts, u8 *cmd, u8 cmd_cnt, int delay);
int stm_ts_fw_wait_for_event(struct stm_ts_data *ts, u8 *result, u8 result_cnt);
void stm_ts_checking_miscal(struct stm_ts_data *ts);
void stm_switching_work(struct work_struct *work);
#if IS_ENABLED(CONFIG_HALL_NOTIFIER)
int stm_hall_ic_notify(struct notifier_block *nb, unsigned long flip_cover, void *v);
extern void hall_ic_request_notitfy(void);
#endif
#ifdef CONFIG_TOUCHSCREEN_DUMP_MODE
extern struct tsp_dump_callbacks dump_callbacks;
#endif
#ifdef ENABLE_RAWDATA_SERVICE
void stm_ts_read_rawdata_address(struct stm_ts_data *ts);
int stm_ts_rawdata_buffer_alloc(struct stm_ts_data *ts);
int stm_ts_rawdata_init(struct stm_ts_data *ts);
void stm_ts_rawdata_buffer_remove(struct stm_ts_data *ts);
#endif
#if IS_ENABLED(CONFIG_INPUT_SEC_SECURE_TOUCH)
#if IS_ENABLED(CONFIG_GH_RM_DRV)
#if !IS_ENABLED(CONFIG_ARCH_QTI_VM)
void stm_ts_trusted_touch_tvm_i2c_failure_report(struct stm_ts_data *ts);
#endif
#endif
#endif
#endif /* _LINUX_stm_ts_H_ */