#ifndef __PEDOMETER_H__ #define __PEDOMETER_H__ #include #include #include #include #include #include #include #include #include #include #include #define PDR_TAG " " #define PDR_FUN(f) printk(PDR_TAG"%s\n", __func__) #define PDR_ERR(fmt, args...) printk(PDR_TAG"%s %d : "fmt, __func__, __LINE__, ##args) #define PDR_LOG(fmt, args...) printk(PDR_TAG fmt, ##args) #define PDR_VER(fmt, args...) printk(PDR_TAG"%s: "fmt, __func__, ##args) //((void)0) #define OP_PDR_DELAY 0X01 #define OP_PDR_ENABLE 0X02 #define OP_PDR_GET_DATA 0X04 #define PDR_INVALID_VALUE -1 #define EVENT_TYPE_PDR_LENGTH ABS_X #define EVENT_TYPE_PDR_FREQUENCY ABS_Y #define EVENT_TYPE_PDR_COUNT ABS_Z #define EVENT_TYPE_PDR_DISTANCE ABS_RX #define EVENT_TYPE_PDR_STATUS ABS_WHEEL #define PDR_VALUE_MAX (32767) #define PDR_VALUE_MIN (-32768) #define PDR_STATUS_MIN (0) #define PDR_STATUS_MAX (64) #define PDR_DIV_MAX (32767) #define PDR_DIV_MIN (1) #define MAX_CHOOSE_PDR_NUM 5 struct pdr_control_path { int (*open_report_data)(int open);//open data rerport to HAL int (*enable_nodata)(int en);//only enable not report event to HAL int (*set_delay)(u64 delay); bool is_report_input_direct; bool is_support_batch; }; typedef struct { uint32_t length; //milli-meter uint32_t frequency; //freq*1000 uint32_t count; uint32_t distance; } pedometer_t; struct pdr_data_path { int (*get_data)(u32 *value, int *status); int vender_div; }; struct pdr_init_info { char *name; int (*init)(void); int (*uninit)(void); struct platform_driver* platform_diver_addr; }; struct pdr_data{ hwm_sensor_data pdr_data ; int data_updata; //struct mutex lock; }; struct pdr_drv_obj { void *self; int polling; int (*pdr_operate)(void* self, uint32_t command, void* buff_in, int size_in, void* buff_out, int size_out, int* actualout); }; struct pdr_context { struct input_dev *idev; struct miscdevice mdev; struct work_struct report; struct mutex pdr_op_mutex; atomic_t delay; /*polling period for reporting input event*/ atomic_t wake; /*user-space request to wake-up, used with stop*/ struct timer_list timer; /* polling timer */ atomic_t trace; struct early_suspend early_drv; atomic_t early_suspend; struct pdr_data drv_data; struct pdr_control_path pdr_ctl; struct pdr_data_path pdr_data; bool is_active_nodata; // Active, but HAL don't need data sensor. such as orientation need bool is_active_data; // Active and HAL need data . bool is_first_data_after_enable; bool is_polling_run; bool is_batch_enable; }; //driver API for internal //extern int pdr_enable_nodata(int enable); //extern int pdr_attach(struct pdr_drv_obj *obj); //driver API for third party vendor //for auto detect extern int pdr_driver_add(struct pdr_init_info* obj) ; extern int pdr_data_report(hwm_sensor_data data, int status); extern int pdr_register_control_path(struct pdr_control_path *ctl); extern int pdr_register_data_path(struct pdr_data_path *data); #endif