/* * Copyright (C) 2020, Samsung Electronics Co. Ltd. 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 as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * */ #include "../sensormanager/shub_sensor.h" #include "../sensormanager/shub_sensor_manager.h" #include "../utility/shub_utility.h" #include "light.h" #include static int light_cct_log_cnt; static int enable_light_cct(void) { light_cct_log_cnt = 0; return 0; } static void report_event_light_cct(void) { struct light_cct_event *sensor_value = (struct light_cct_event *)(get_sensor_event(SENSOR_TYPE_LIGHT_CCT)->value); if (light_cct_log_cnt < 3) { shub_info("Light cct Sensor : lux=%u r=%d g=%d b=%d c=%d atime=%d again=%d", sensor_value->lux, sensor_value->r, sensor_value->g, sensor_value->b, sensor_value->w, sensor_value->a_time, sensor_value->a_gain); light_cct_log_cnt++; } } int get_light_cct_sensor_value(char *dataframe, int *index, struct sensor_event *event, int frame_len) { struct light_data *data = get_sensor(SENSOR_TYPE_LIGHT)->data; struct light_cct_event *sensor_value = (struct light_cct_event *)event->value; memcpy(&sensor_value->lux, dataframe + *index, sizeof(sensor_value->lux)); *index += sizeof(sensor_value->lux); memcpy(&sensor_value->cct, dataframe + *index, sizeof(sensor_value->cct)); *index += sizeof(sensor_value->cct); memcpy(&sensor_value->raw_lux, dataframe + *index, sizeof(sensor_value->raw_lux)); *index += sizeof(sensor_value->raw_lux); if (data->ddi_support) { memcpy(&sensor_value->roi, dataframe + *index, sizeof(sensor_value->roi)); *index += sizeof(sensor_value->roi); } memcpy(&sensor_value->r, dataframe + *index, data->raw_data_size); *index += data->raw_data_size; memcpy(&sensor_value->g, dataframe + *index, data->raw_data_size); *index += data->raw_data_size; memcpy(&sensor_value->b, dataframe + *index, data->raw_data_size); *index += data->raw_data_size; memcpy(&sensor_value->w, dataframe + *index, data->raw_data_size); *index += data->raw_data_size; memcpy(&sensor_value->a_time, dataframe + *index, data->raw_data_size); *index += data->raw_data_size; memcpy(&sensor_value->a_gain, dataframe + *index, data->raw_data_size); *index += data->raw_data_size; return 0; } void print_light_cct_debug(void) { struct shub_sensor *sensor = get_sensor(SENSOR_TYPE_LIGHT_CCT); struct sensor_event *event = &(sensor->last_event_buffer); struct light_cct_event *sensor_value = (struct light_cct_event *)(event->value); shub_info("%s(%u) : %u, %u, %u (%lld) (%ums, %dms)", sensor->name, SENSOR_TYPE_LIGHT_CCT, sensor_value->lux, sensor_value->cct, sensor_value->raw_lux, event->timestamp, sensor->sampling_period, sensor->max_report_latency); } static struct sensor_funcs light_cct_sensor_funcs = { .enable = enable_light_cct, .report_event = report_event_light_cct, .print_debug = print_light_cct_debug, .get_sensor_value = get_light_cct_sensor_value, }; int init_light_cct(bool en) { int ret = 0; struct shub_sensor *sensor = get_sensor(SENSOR_TYPE_LIGHT_CCT); if (!sensor) return 0; if (en) { ret = init_default_func(sensor, "light_cct_sensor", sensor->spec.version >= LIGHT_DEBIG_EVENT_SIZE_4BYTE_VERSION ? 36 : 24, 14, sizeof(struct light_cct_event)); sensor->funcs = &light_cct_sensor_funcs; } else { destroy_default_func(sensor); } return ret; }