/* * Copyright (c) 2023 Intel Corporation. * * SPDX-License-Identifier: Apache-2.0 */ #ifndef SENSOR_MGMT_H_ #define SENSOR_MGMT_H_ #include #include #include #include #include #include #ifdef __cplusplus extern "C" { #endif #define for_each_sensor(sensor) \ STRUCT_SECTION_FOREACH(sensing_sensor, sensor) #define for_each_sensor_reverse(sensor) \ STRUCT_SECTION_START_EXTERN(sensing_sensor); \ STRUCT_SECTION_END_EXTERN(sensing_sensor); \ for (struct sensing_sensor *sensor = STRUCT_SECTION_END(sensing_sensor) \ - 1; \ ({ __ASSERT(sensor >= STRUCT_SECTION_START(sensing_sensor) - 1, \ "unexpected list start location"); \ sensor >= STRUCT_SECTION_START(sensing_sensor); }); \ sensor--) #define for_each_client_conn(sensor, client) \ SYS_SLIST_FOR_EACH_CONTAINER(&sensor->client_list, client, snode) #define EXEC_TIME_INIT 0 #define EXEC_TIME_OFF UINT64_MAX extern struct rtio sensing_rtio_ctx; /** * @struct sensing_context * @brief sensing subsystem context to include global variables */ struct sensing_context { bool sensing_initialized; struct k_sem event_sem; atomic_t event_flag; }; int open_sensor(struct sensing_sensor *sensor, struct sensing_connection **conn); int close_sensor(struct sensing_connection **conn); int sensing_register_callback(struct sensing_connection *conn, struct sensing_callback_list *cb_list); int set_interval(struct sensing_connection *conn, uint32_t interval); int get_interval(struct sensing_connection *con, uint32_t *sensitivity); int set_sensitivity(struct sensing_connection *conn, int8_t index, uint32_t interval); int get_sensitivity(struct sensing_connection *con, int8_t index, uint32_t *sensitivity); static inline struct sensing_sensor *get_sensor_by_dev(const struct device *dev) { STRUCT_SECTION_FOREACH(sensing_sensor, sensor) { if (sensor->dev == dev) { return sensor; } } __ASSERT(true, "device %s is not a sensing sensor", dev->name); return NULL; } static inline struct sensing_sensor *get_reporter_sensor(struct sensing_sensor *sensor, int index) { if (!sensor || index >= sensor->reporter_num) { return NULL; } return sensor->conns[index].source; } static inline const struct sensing_sensor_info *get_sensor_info(struct sensing_connection *conn) { __ASSERT(conn, "get sensor info, connection not be NULL"); __ASSERT(conn->source, "get sensor info, sensing_sensor is NULL"); return conn->source->info; } /* check if client has requested data from reporter */ static inline bool is_client_request_data(struct sensing_connection *conn) { return conn->interval != 0; } static inline uint64_t get_us(void) { return k_ticks_to_us_floor64(k_uptime_ticks()); } static inline bool is_sensor_state_ready(struct sensing_sensor *sensor) { return (sensor->state == SENSING_SENSOR_STATE_READY); } /* this function is used to decide whether filtering sensitivity checking * for example: filter sensitivity checking if sensitivity value is 0. */ static inline bool is_filtering_sensitivity(int *sensitivity) { bool filtering = false; __ASSERT(sensitivity, "sensitivity should not be NULL"); for (int i = 0; i < CONFIG_SENSING_MAX_SENSITIVITY_COUNT; i++) { if (sensitivity[i] != 0) { filtering = true; break; } } return filtering; } /** * @} */ #ifdef __cplusplus } #endif #endif /* SENSOR_MGMT_H_ */