IoTManager/src/Init.cpp

#include "Global.h"

void All_init() {
    server.on("/init", HTTP_GET, [](AsyncWebServerRequest* request) {
        String value;
        if (request->hasArg("arg")) {
            value = request->getParam("arg")->value();
        }
        if (value == "0") {  //выкл сценариев
            jsonWriteStr(configSetupJson, "scenario", value);
            saveConfig();
            Scenario_init();
            request->send(200, "text/text", "OK");
        }
        if (value == "1") {  //вкл сценариев
            jsonWriteStr(configSetupJson, "scenario", value);
            saveConfig();
            Scenario_init();
            request->send(200, "text/text", "OK");
        }
        if (value == "2") {  //инициализация
            Device_init();
            request->send(200, "text/text", "OK");
        }
        if (value == "3") {
#ifdef logging_enable
            clean_log_date();
#endif
            request->send(200, "text/text", "OK");
        }
        if (value == "4") {
            Scenario_init();
            request->send(200, "text/text", "OK");
        }
        if (value == "5") {
            i2c_scanning = true;
            request->redirect("/?utilities");
        }
    });

    prsets_init();
    Device_init();
    Scenario_init();
    Timer_countdown_init();
}

void Device_init() {
    logging_value_names_list = "";
    enter_to_logging_counter = LOG1 - 1;

    analog_value_names_list = "";
    enter_to_analog_counter = 0;

    levelPr_value_name = "";

    dhtT_value_name = "";
    dhtH_value_name = "";

    bmp280T_value_name = "";
    bmp280P_value_name = "";

    bme280T_value_name = "";
    bme280P_value_name = "";
    bme280H_value_name = "";
    bme280A_value_name = "";

    int array_sz = sizeof(sensors_reading_map) / sizeof(sensors_reading_map[0]);

    for (int i = 0; i < array_sz; i++) {
        sensors_reading_map[i] = 0;
    }

    for (int i = LOG1; i <= LOG5; i++) {
        ts.remove(i);
    }

#ifdef layout_in_ram
    all_widgets = "";
#else
    SPIFFS.remove("/layout.txt");
#endif

    txtExecution("firmware.c.txt");
    //outcoming_date();
}

void Scenario_init() {
    if (jsonReadStr(configSetupJson, "scenario") == "1") {
        scenario = readFile("firmware.s.txt", 2048);
    }
}

void prsets_init() {
    server.on("/preset", HTTP_GET, [](AsyncWebServerRequest* request) {
        String value;
        if (request->hasArg("arg")) {
            value = request->getParam("arg")->value();
        }
        if (value == "1") {
            writeFile("firmware.c.txt", readFile("configs/relay.c.txt", 2048));
            writeFile("firmware.s.txt", readFile("configs/relay.s.txt", 2048));
        }
        if (value == "2") {
            writeFile("firmware.c.txt", readFile("configs/relay_t.c.txt", 2048));
            writeFile("firmware.s.txt", readFile("configs/relay_t.s.txt", 2048));
        }
        if (value == "3") {
            writeFile("firmware.c.txt", readFile("configs/relay_c.c.txt", 2048));
            writeFile("firmware.s.txt", readFile("configs/relay_c.s.txt", 2048));
        }
        if (value == "4") {
            writeFile("firmware.c.txt", readFile("configs/relay_s.c.txt", 2048));
            writeFile("firmware.s.txt", readFile("configs/relay_s.s.txt", 2048));
        }
        if (value == "5") {
            writeFile("firmware.c.txt", readFile("configs/relay_sw.c.txt", 2048));
            writeFile("firmware.s.txt", readFile("configs/relay_sw.s.txt", 2048));
        }
        if (value == "6") {
            writeFile("firmware.c.txt", readFile("configs/relay_br.c.txt", 2048));
            writeFile("firmware.s.txt", readFile("configs/relay_br.s.txt", 2048));
        }
        if (value == "7") {
            writeFile("firmware.c.txt", readFile("configs/relay_sr.c.txt", 2048));
            writeFile("firmware.s.txt", readFile("configs/relay_sr.s.txt", 2048));
        }
        if (value == "8") {
            writeFile("firmware.c.txt", readFile("configs/pwm.c.txt", 2048));
            writeFile("firmware.s.txt", readFile("configs/pwm.s.txt", 2048));
        }
        if (value == "9") {
            writeFile("firmware.c.txt", readFile("configs/dht11.c.txt", 2048));
            writeFile("firmware.s.txt", readFile("configs/dht11.s.txt", 2048));
        }
        if (value == "10") {
            writeFile("firmware.c.txt", readFile("configs/dht22.c.txt", 2048));
            writeFile("firmware.s.txt", readFile("configs/dht22.s.txt", 2048));
        }
        if (value == "11") {
            writeFile("firmware.c.txt", readFile("configs/analog.c.txt", 2048));
            writeFile("firmware.s.txt", readFile("configs/analog.s.txt", 2048));
        }
        if (value == "12") {
            writeFile("firmware.c.txt", readFile("configs/dallas.c.txt", 2048));
            writeFile("firmware.s.txt", readFile("configs/dallas.s.txt", 2048));
        }
        if (value == "13") {
            writeFile("firmware.c.txt", readFile("configs/termostat.c.txt", 2048));
            writeFile("firmware.s.txt", readFile("configs/termostat.s.txt", 2048));
        }
        if (value == "14") {
            writeFile("firmware.c.txt", readFile("configs/level.c.txt", 2048));
            writeFile("firmware.s.txt", readFile("configs/level.s.txt", 2048));
        }
        if (value == "15") {
            writeFile("firmware.c.txt", readFile("configs/moution_r.c.txt", 2048));
            writeFile("firmware.s.txt", readFile("configs/moution_r.s.txt", 2048));
        }
        if (value == "16") {
            writeFile("firmware.c.txt", readFile("configs/moution_s.c.txt", 2048));
            writeFile("firmware.s.txt", readFile("configs/moution_s.s.txt", 2048));
        }
        if (value == "17") {
            writeFile("firmware.c.txt", readFile("configs/stepper.c.txt", 2048));
            writeFile("firmware.s.txt", readFile("configs/stepper.s.txt", 2048));
        }
        if (value == "18") {
            writeFile("firmware.c.txt", readFile("configs/servo.c.txt", 2048));
            writeFile("firmware.s.txt", readFile("configs/servo.s.txt", 2048));
        }
        if (value == "19") {
            writeFile("firmware.c.txt", readFile("configs/firmware.c.txt", 2048));
            writeFile("firmware.s.txt", readFile("configs/firmware.s.txt", 2048));
        }
        Device_init();
        Scenario_init();
        request->redirect("/?configuration");
    });
}

void up_time() {
    uint32_t ss = millis() / 1000;
    uint32_t mm = ss / 60;
    uint32_t hh = mm / 60;
    uint32_t dd = hh / 24;

    String out = "";

    if (ss != 0) {
        out = "[i] uptime = " + String(ss) + " sec";
        jsonWriteStr(configLiveJson, "uptime", String(ss) + " sec");
    }
    if (mm != 0) {
        out = "[i] uptime = " + String(mm) + " min";
        jsonWriteStr(configLiveJson, "uptime", String(mm) + " min");
    }
    if (hh != 0) {
        out = "[i] uptime = " + String(hh) + " hours";
        jsonWriteStr(configLiveJson, "uptime", String(hh) + " hours");
    }
    if (dd != 0) {
        out = "[i] uptime = " + String(dd) + " days";
        jsonWriteStr(configLiveJson, "uptime", String(dd) + " days");
    }
    Serial.println(out + ", mqtt_lost_error: " + String(mqtt_lost_error) + ", wifi_lost_error: " + String(wifi_lost_error));
}

void statistics() {
    if (WiFi.status() == WL_CONNECTED) {
        String urls = "http://backup.privet.lv/visitors/?";
        //-----------------------------------------------------------------
        urls += WiFi.macAddress().c_str();
        urls += "&";
        //-----------------------------------------------------------------
#ifdef ESP8266
        urls += "iot-manager_esp8266";
#endif
#ifdef ESP32
        urls += "iot-manager_esp32";
#endif
        urls += "&";
#ifdef ESP8266
        urls += ESP.getResetReason();
#endif
#ifdef ESP32
        urls += "Power on";
#endif
        urls += "&";
        urls += "ver: ";
        urls += String(firmware_version);
        String stat = getURL(urls);
    }
}

void statistics_init() {
    ts.add(
        STATISTICS, statistics_update, [&](void*) {
            statistics();
        },
        nullptr, true);
}