/* * Copyright (c) 2019 Foundries.io * * SPDX-License-Identifier: Apache-2.0 */ /* * Source material for IPSO On/Off Switch object (3342): * http://www.openmobilealliance.org/tech/profiles/lwm2m/3342.xml */ #define LOG_MODULE_NAME net_ipso_onoff_switch #define LOG_LEVEL CONFIG_LWM2M_LOG_LEVEL #include LOG_MODULE_REGISTER(LOG_MODULE_NAME); #include #include #include "lwm2m_object.h" #include "lwm2m_engine.h" #include "lwm2m_resource_ids.h" #define SWITCH_VERSION_MAJOR 1 #if defined(CONFIG_LWM2M_IPSO_ONOFF_SWITCH_VERSION_1_1) #define SWITCH_VERSION_MINOR 1 #define SWITCH_MAX_ID 7 #else #define SWITCH_VERSION_MINOR 0 #define SWITCH_MAX_ID 5 #endif /* defined(CONFIG_LWM2M_IPSO_ONOFF_SWITCH_VERSION_1_1) */ #define MAX_INSTANCE_COUNT CONFIG_LWM2M_IPSO_ONOFF_SWITCH_INSTANCE_COUNT /* * Calculate resource instances as follows: * start with SWITCH_MAX_ID */ #define RESOURCE_INSTANCE_COUNT (SWITCH_MAX_ID) /* resource state */ struct ipso_switch_data { uint64_t trigger_offset; int64_t on_time_sec; int64_t off_time_sec; int64_t counter; uint16_t obj_inst_id; bool last_state; bool state; }; static struct ipso_switch_data switch_data[MAX_INSTANCE_COUNT]; static struct lwm2m_engine_obj onoff_switch; static struct lwm2m_engine_obj_field fields[] = { OBJ_FIELD_DATA(DIGITAL_INPUT_STATE_RID, R, BOOL), OBJ_FIELD_DATA(DIGITAL_INPUT_COUNTER_RID, R_OPT, S64), OBJ_FIELD_DATA(ON_TIME_RID, RW_OPT, S64), OBJ_FIELD_DATA(OFF_TIME_RID, RW_OPT, S64), OBJ_FIELD_DATA(APPLICATION_TYPE_RID, RW_OPT, STRING), #if defined(CONFIG_LWM2M_IPSO_ONOFF_SWITCH_VERSION_1_1) OBJ_FIELD_DATA(TIMESTAMP_RID, R_OPT, TIME), OBJ_FIELD_DATA(FRACTIONAL_TIMESTAMP_RID, R_OPT, FLOAT), #endif }; static struct lwm2m_engine_obj_inst inst[MAX_INSTANCE_COUNT]; static struct lwm2m_engine_res res[MAX_INSTANCE_COUNT][SWITCH_MAX_ID]; static struct lwm2m_engine_res_inst res_inst[MAX_INSTANCE_COUNT][RESOURCE_INSTANCE_COUNT]; static int get_switch_index(uint16_t obj_inst_id) { int i, ret = -ENOENT; for (i = 0; i < ARRAY_SIZE(inst); i++) { if (!inst[i].obj || inst[i].obj_inst_id != obj_inst_id) { continue; } ret = i; break; } return ret; } static int state_post_write_cb(uint16_t obj_inst_id, uint16_t res_id, uint16_t res_inst_id, uint8_t *data, uint16_t data_len, bool last_block, size_t total_size) { int i; i = get_switch_index(obj_inst_id); if (i < 0) { return i; } if (switch_data[i].state) { /* reset off time */ switch_data[i].off_time_sec = 0; if (!switch_data[i].last_state) { /* off to on transition */ switch_data[i].counter++; if (switch_data[i].counter < 0) { switch_data[i].counter = 0; } } } else { /* reset on time */ switch_data[i].on_time_sec = 0; } switch_data[i].last_state = switch_data[i].state; switch_data[i].trigger_offset = k_uptime_get(); return 0; } static void *on_time_read_cb(uint16_t obj_inst_id, uint16_t res_id, uint16_t res_inst_id, size_t *data_len) { int i = get_switch_index(obj_inst_id); if (i < 0) { return NULL; } if (switch_data[i].state) { switch_data[i].on_time_sec = (int64_t)((k_uptime_get() - switch_data[i].trigger_offset) / 1000); } *data_len = sizeof(switch_data[i].on_time_sec); return &switch_data[i].on_time_sec; } static void *off_time_read_cb(uint16_t obj_inst_id, uint16_t res_id, uint16_t res_inst_id, size_t *data_len) { int i = get_switch_index(obj_inst_id); if (i < 0) { return NULL; } if (!switch_data[i].state) { switch_data[i].off_time_sec = (int64_t)((k_uptime_get() - switch_data[i].trigger_offset) / 1000); } *data_len = sizeof(switch_data[i].off_time_sec); return &switch_data[i].off_time_sec; } static int time_post_write_cb(uint16_t obj_inst_id, uint16_t res_id, uint16_t res_inst_id, uint8_t *data, uint16_t data_len, bool last_block, size_t total_size) { int i = get_switch_index(obj_inst_id); if (i < 0) { return i; } switch_data[i].trigger_offset = 0U; return 0; } static struct lwm2m_engine_obj_inst *switch_create(uint16_t obj_inst_id) { int index, avail = -1, i = 0, j = 0; /* Check that there is no other instance with this ID */ for (index = 0; index < ARRAY_SIZE(inst); index++) { if (inst[index].obj && inst[index].obj_inst_id == obj_inst_id) { LOG_ERR("Can not create instance - " "already existing: %u", obj_inst_id); return NULL; } /* Save first available slot index */ if (avail < 0 && !inst[index].obj) { avail = index; } } if (avail < 0) { LOG_ERR("Can not create instance - no more room: %u", obj_inst_id); return NULL; } /* Set default values */ (void)memset(&switch_data[avail], 0, sizeof(switch_data[avail])); switch_data[avail].obj_inst_id = obj_inst_id; (void)memset(res[avail], 0, sizeof(res[avail][0]) * ARRAY_SIZE(res[avail])); init_res_instance(res_inst[avail], ARRAY_SIZE(res_inst[avail])); /* initialize instance resource data */ INIT_OBJ_RES(DIGITAL_INPUT_STATE_RID, res[avail], i, res_inst[avail], j, 1, false, true, &switch_data[avail].state, sizeof(switch_data[avail].state), NULL, NULL, NULL, state_post_write_cb, NULL); INIT_OBJ_RES_DATA(DIGITAL_INPUT_COUNTER_RID, res[avail], i, res_inst[avail], j, &switch_data[avail].counter, sizeof(switch_data[avail].counter)); INIT_OBJ_RES_OPT(ON_TIME_RID, res[avail], i, res_inst[avail], j, 1, false, true, on_time_read_cb, NULL, NULL, time_post_write_cb, NULL); INIT_OBJ_RES_OPT(OFF_TIME_RID, res[avail], i, res_inst[avail], j, 1, false, true, off_time_read_cb, NULL, NULL, time_post_write_cb, NULL); INIT_OBJ_RES_OPTDATA(APPLICATION_TYPE_RID, res[avail], i, res_inst[avail], j); #if defined(CONFIG_LWM2M_IPSO_ONOFF_SWITCH_VERSION_1_1) INIT_OBJ_RES_OPTDATA(TIMESTAMP_RID, res[avail], i, res_inst[avail], j); INIT_OBJ_RES_OPTDATA(FRACTIONAL_TIMESTAMP_RID, res[avail], i, res_inst[avail], j); #endif inst[avail].resources = res[avail]; inst[avail].resource_count = i; LOG_DBG("Create IPSO On/Off Switch instance: %d", obj_inst_id); return &inst[avail]; } static int ipso_switch_init(void) { onoff_switch.obj_id = IPSO_OBJECT_ONOFF_SWITCH_ID; onoff_switch.version_major = SWITCH_VERSION_MAJOR; onoff_switch.version_minor = SWITCH_VERSION_MINOR; onoff_switch.is_core = false; onoff_switch.fields = fields; onoff_switch.field_count = ARRAY_SIZE(fields); onoff_switch.max_instance_count = ARRAY_SIZE(inst); onoff_switch.create_cb = switch_create; lwm2m_register_obj(&onoff_switch); return 0; } LWM2M_OBJ_INIT(ipso_switch_init);