/* SPDX-License-Identifier: GPL-2.0 */ /* * Copyright (c) 2019 MediaTek Inc. */ #ifndef __FUSION_H__ #define __FUSION_H__ //#include #include #include "sensor_attr.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "sensor_event.h" #define OP_FUSION_DELAY 0X01 #define OP_FUSION_ENABLE 0X02 #define OP_FUSION_GET_DATA 0X04 #define FUSION_INVALID_VALUE -1 /* ORIENTATION, GRV, GMRV, RV, LA, GRAVITY, UNCALI_GYRO, UNCALI_MAG, PDR */ enum fusion_handle { orientation, grv, gmrv, rv, la, grav, unacc, ungyro, unmag, pdr, ungyro_temperature, max_fusion_support, }; struct fusion_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); int (*batch)(int flag, int64_t samplingPeriodNs, int64_t maxBatchReportLatencyNs); int (*flush)(void);/* open data rerport to HAL */ int (*access_data_fifo)(void);/* version2.used for flush operate */ bool is_report_input_direct; bool is_support_batch;/* version2.used for batch mode support flag */ int (*fusion_calibration)(int type, int cali[3]);/* v3 factory API1 */ }; struct fusion_data_path { int (*get_data)(int *x, int *y, int *z, int *scalar, int *status); int (*get_raw_data)(int *x, int *y, int *z, int *scalar);/* v3 API2 */ int vender_div; }; struct fusion_init_info { char *name; int (*init)(void); int (*uninit)(void); }; struct fusion_data { struct hwm_sensor_data fusion_data; int data_updata; /* struct mutex lock; */ }; struct fusion_drv_obj { void *self; int polling; int (*fusion_operate)(void *self, uint32_t command, void *buff_in, int size_in, void *buff_out, int size_out, int *actualout); }; struct fusion_control_context { struct fusion_data drv_data; struct fusion_control_path fusion_ctl; struct fusion_data_path fusion_data; bool is_active_nodata; bool is_active_data; bool is_first_data_after_enable; bool is_polling_run; bool is_batch_enable; int power; int enable; int64_t delay_ns; int64_t latency_ns; }; struct fusion_context { struct sensor_attr_t mdev; struct work_struct report; struct mutex fusion_op_mutex; atomic_t trace; struct fusion_control_context fusion_context[max_fusion_support]; /* struct fusion_drv_obj drv_obj; */ }; /* driver API for internal */ /* extern int fusion_enable_nodata(int enable); */ /* extern int fusion_attach(struct fusion_drv_obj *obj); */ /* driver API for third party vendor */ /* for auto detect */ int fusion_driver_add(struct fusion_init_info *obj, int handle); int fusion_register_control_path(struct fusion_control_path *ctl, int handle); int fusion_register_data_path(struct fusion_data_path *data, int handle); int rv_data_report(int x, int y, int z, int scalar, int status, int64_t nt); int rv_flush_report(void); int grv_data_report(int x, int y, int z, int scalar, int status, int64_t nt); int grv_flush_report(void); int gmrv_data_report(int x, int y, int z, int scalar, int status, int64_t nt); int gmrv_flush_report(void); int grav_data_report(int x, int y, int z, int status, int64_t nt); int grav_flush_report(void); int la_data_report(int x, int y, int z, int status, int64_t nt); int la_flush_report(void); int orientation_data_report(int x, int y, int z, int status, int64_t nt); int orientation_flush_report(void); int orientation_data_report(int x, int y, int z, int status, int64_t nt); int orientation_flush_report(void); int uncali_acc_data_report(int *data, int status, int64_t nt); int uncali_acc_flush_report(void); int uncali_gyro_data_report(int *data, int status, int64_t nt); int uncali_gyro_temperature_data_report(int *data, int status, int64_t nt); int uncali_gyro_temperature_flush_report(void); int uncali_gyro_flush_report(void); int uncali_mag_data_report(int *data, int status, int64_t nt); int uncali_mag_flush_report(void); #endif