.vscode/extensions.json

@@ -2,6 +2,7 @@
     // See http://go.microsoft.com/fwlink/?LinkId=827846
     // for the documentation about the extensions.json format
     "recommendations": [
+        "ijustdev.gitea-vscode",
         "platformio.platformio-ide"
     ],
     "unwantedRecommendations": [

.vscode/settings.json

@@ -1,6 +1,4 @@
 {
-    "gitea.instanceURL": "https://hjkgitunix.dedyn.io/",
-    "gitea.owner": "hans-jurgen",
-    "gitea.repo": "Wetterstation",
-    "gitea.token": " vscodegitea"
+    "gitea.instanceURL": "https://hjkgitunix.dedyn.io/hans-jurgen/Wetterstation_Boris.git",
+    "gitea.owner": "hans-jürgen"
 }

data/Korektur.txt

@@ -1 +0,0 @@
-1.02910

data/error.dat

@@ -0,0 +1 @@
+0

data/status.txt

@@ -1 +0,0 @@
-5

include/error.h

@@ -0,0 +1,31 @@
+#include <Arduino.h>
+
+#include <EEPROM.h>
+
+#define AkkuLeer 0x80
+#define ADS1115noReady 0x01
+#define HTU21noReady 0x02
+#define BMP280noReady 0x04
+#define MCP9808noReady 0x08
+
+byte SystemStatus;
+
+
+
+
+void writeSystemStatus()
+{
+  EEPROM.begin(512);
+  EEPROM.put(0,SystemStatus);
+  EEPROM.commit();
+  EEPROM.end();
+}
+
+void readSystemStatus()
+{
+  EEPROM.begin(512);
+  EEPROM.get(0,SystemStatus);
+  EEPROM.commit();
+  EEPROM.end();
+  
+}

include/mcp9808.h

@@ -11,9 +11,12 @@ float valTemp;
 // Create MCP9808 temperature sensor object
 Adafruit_MCP9808 tempsensor = Adafruit_MCP9808();
 
+bool F_MCP9808;
+
 char Temperature[15] = {0};
 
 void init_MCP9808(){
+  F_MCP9808 = true;
     // Make sure the sensor is found, you can also pass in a different i2c
   // address with tempsensor.begin(0x19) for example, also can be left in blank for default address use
   // Also there is a table with all addres possible for this sensor, you can connect multiple sensors
@@ -29,10 +32,12 @@ void init_MCP9808(){
   //  1  1  1   0x1F
   if (!tempsensor.begin(0x18)) {
     Serial.println("Couldn't find MCP9808! Check your connections and verify the address is correct.");
-    datenSave(-20);
-    while (1);
+    SystemStatus = SystemStatus | MCP9808noReady;
+    F_MCP9808 = false;
+   
+  } else {
+    Serial.println("Found MCP9808!");
   }
-  Serial.println("Found MCP9808!");
   tempsensor.setResolution(3); // sets the resolution mode of reading, the modes are defined in the table bellow:
   // Mode Resolution SampleTime
   //  0    0.5°C       30 ms

include/messADS1115.h

@@ -20,6 +20,7 @@
  * ADS1115_WE adc = ADS1115_WE(&Wire, I2C_ADDRESS); -> all together
  */
 ADS1115_WE adc = ADS1115_WE(I2C_ADDRESS);
+bool F_ADS1115;
 
 struct {
   char Akku[15] = {0};
@@ -28,8 +29,11 @@ struct {
 
 void initADS() {
   Wire.begin();
+  F_ADS1115 = true;
   if(!adc.init()){
     Serial.println("ADS1115 not connected!");
+    SystemStatus = (SystemStatus | ADS1115noReady);  
+    F_ADS1115 = false;
   }
 
   /* Set the voltage range of the ADC to adjust the gain

include/mess_BME280.h

@@ -0,0 +1,87 @@
+#include "Wire.h"
+
+#define Anzahl_Sensoren_BME280 1 // Mögliche Werte: '0','1','2'
+#define Korrektur_Luftdruck 0.0 // Korrekturwert um Abweichungen zu offiziellen Wetterstationen auszugleichen 
+
+
+//----------------------------------------------------------------
+// Konfiguration BME280 - Temperatur und Luftfeuchte
+//----------------------------------------------------------------
+#include "Adafruit_Sensor.h"
+#include "Adafruit_BME280.h"
+uint8_t  BME280_adresse[2] = {0x76, 0x77};
+#define SEALEVELPRESSURE_HPA (1013.25f)
+//----------------------------------------------------------------
+
+
+const float No_Val = 999.99;
+float Temp[2] = {No_Val, No_Val};
+float Feuchte[2] = {No_Val, No_Val};
+float L_Druck[2] = {No_Val, No_Val};
+
+struct {
+  char temperature[15] = {0};
+  char pressure[15] = {0};
+  char approx_altitud[15] = {0};
+  char humity[15] = {0};
+} BME280Data;
+
+void Sensor_BME280() {
+if (Anzahl_Sensoren_BME280 > 0) {
+ float Temperatur_BME;
+ float Luftfeuchte_BME;
+ float Luftdruck_BME;
+ boolean check; 
+
+ Adafruit_BME280 my_bme;
+
+ for (byte i = 0; i < Anzahl_Sensoren_BME280; i++) {
+  check = my_bme.begin(BME280_adresse[i]); // I2C Adresse
+  delay (100); // time to get system ready
+  if (check) { // if bme ok
+   Temperatur_BME = my_bme.readTemperature();
+   Luftfeuchte_BME = my_bme.readHumidity();
+   Luftdruck_BME = my_bme.readPressure();
+   Serial.print("Temperature (BME280):\t\t");
+    Serial.print(Temperatur_BME);
+    Serial.println(" °C");
+    Serial.print("Luftfeuchtigkeit (BME280):\t");
+    Serial.print(Luftfeuchte_BME);
+    Serial.println(" %");
+    Serial.print("Luftdruck (BME280):\t\t");
+    Serial.print(Luftdruck_BME/100);
+    Serial.println(" hPa");
+  } 
+  else {
+   Temperatur_BME = No_Val;
+   Luftfeuchte_BME = No_Val;
+   Luftdruck_BME = No_Val;
+  }
+  if (i == 0) { // erster BME
+   Temp[0] = Temperatur_BME; // Hier kann die Zuordnung der Sensoren geändert werden
+   Feuchte[0] = Luftfeuchte_BME; // Hier kann die Zuordnung der Sensoren geändert werden
+   L_Druck[0] = Luftdruck_BME/100;
+  }
+  if (i == 1) { // zweiter BME
+   Temp[1] = Temperatur_BME; // Hier kann die Zuordnung der Sensoren geändert werden 
+   Feuchte[1] = Luftfeuchte_BME; // Hier kann die Zuordnung der Sensoren geändert werden
+   L_Druck[1] = Luftdruck_BME/100;
+  }
+ }
+}
+}
+
+void M2M_BME280(String deviceId = "4711") {
+    char topic[100];
+    dtostrf(Temp[0],7,1,BME280Data.temperature);
+    sprintf(topic, "%s%s%s", "hjk/devices/", deviceId.c_str(), "/telemetry/temperature_BME_280" );
+    client.publish(topic, BME280Data.temperature, true);
+
+    dtostrf(Feuchte[0],7,1,BME280Data.humity);
+    sprintf(topic, "%s%s%s", "hjk/devices/", deviceId.c_str(), "/telemetry/humity_BME280" );
+    client.publish(topic, BME280Data.humity, true);
+
+    dtostrf(L_Druck[0],7,1,BME280Data.pressure);
+    sprintf(topic, "%s%s%s", "hjk/devices/", deviceId.c_str(), "/telemetry/pressure" );
+    client.publish(topic, BME280Data.pressure, true);
+}

include/mess_BMP280.h

@@ -4,12 +4,12 @@
 #include <Adafruit_BMP280.h>
 
 
-#define SEALEVELPRESSURE_HPA (1002.7)  // 1013.25
+#define SEALEVELPRESSURE_HPA (1013.25)  // 1013.25
 // Richen 219 m über NN
 // Eppingem 195 m über NN
 
 Adafruit_BMP280 bmp; // I2C
-float K_BMP280 = -1.30;
+float K_BMP280 = -0.0;
 
 bool F_BMP280;
 
@@ -23,14 +23,15 @@ struct {
   
 
 void Init_BMP280(){
-  bool status = bmp.begin(0x76); 
+  bool status = bmp.begin(); 
   F_BMP280 = true; 
   if (!status) {
     Serial.println("Could not find a valid BME280 sensor, check wiring!");
     F_BMP280 = false;
+    SystemStatus = SystemStatus | BMP280noReady;
   } else{
-    /* Serial.print("SensorID was: 0x"); Serial.println(bmp.sensorID(),16);
-    delay(5000); */
+    Serial.print("SensorID was: 0x"); Serial.println(bmp.sensorID(),16);
+    delay(5000);
     /* Default settings from datasheet. */
     bmp.setSampling(Adafruit_BMP280::MODE_NORMAL,     /* Operating Mode. */
                     Adafruit_BMP280::SAMPLING_X2,     /* Temp. oversampling */
@@ -55,8 +56,8 @@ void read_BMP_280() {
 
     Serial.print("Pressure:\t\t");
     float p = bmp.readPressure() / 100.0F;
-    //p = p + 22;
-    dtostrf(p,5,0,BMP280Data.pressure);
+    p = p + KorrekturLuftdruck;
+    dtostrf(p,7,1,BMP280Data.pressure);
     Serial.print(BMP280Data.pressure);
     Serial.println(" hPa");
 

include/mess_Ub.h

@@ -1,9 +1,8 @@
 #include <Arduino.h>
 
-ADC_MODE(ADC_VCC);
 
 const float MinimalSpannung = 2.85;
-float korectur = 9.2800899887514060742407199100112e-4;
+float korectur = 0.001015;
 char floatString[15] = {0};
 float AKKU;
 
@@ -13,10 +12,11 @@ float getBattery()
     Serial.print("Batterie:\t\t    3.05 V\n");
     return 3.05;
   #endif
-  int Vcc = ESP.getVcc();
+  int Vcc = analogRead(A0);
+  Vcc = Vcc * ((100+220+220)/100);
   float VCC = Vcc * korectur ;
   Serial.printf("Rohdaten: %d, ", Vcc);
-  dtostrf(VCC,7,2,floatString);
-  Serial.printf("Vcc: %s V\n", floatString);
+  dtostrf(VCC,8,2,floatString);
+  Serial.printf("Vcc: \t%s V\n", floatString);
   return VCC;
 }

include/mess_Ub_old.h

@@ -1,7 +1,7 @@
 #include <Arduino.h>
 
 const float MinimalSpannung = 2.85;
-float korectur = 1.02910;
+float koa = 0.984326019;
 char floatString[15] = {0};
 float AKKU;
 

include/mess_htu21.h

@@ -6,7 +6,7 @@
 Adafruit_HTU21DF htu = Adafruit_HTU21DF();
 
 bool F_HTU_21D;
-float K_HTU= -1.30;
+float K_HTU= -0.00;
 
 struct {
   char temperature[15] = {0};
@@ -17,10 +17,13 @@ void init_HTU21(){
     F_HTU_21D = false;
     if (!htu.begin()) {
         Serial.println("Couldn't find sensor HUT21D!");
+        SystemStatus = SystemStatus | HTU21noReady;
     
     }
-    F_HTU_21D = true;
-    Serial.println("HUT21D gefunden");
+    else {
+        F_HTU_21D = true;
+        Serial.println("HUT21D gefunden");
+    }
 }
 
 void read_HTU21D() {

platformio.ini

@@ -12,22 +12,24 @@
 platform = espressif8266
 board = d1
 framework = arduino
-monitor_port = /dev/ttyUSB0
+board_build.filesystem = littlefs
+monitor_port = COM5
 monitor_speed = 74800
 monitor_filters = time
-board_build.filesystem = littlefs
+upload_port = COM5
 lib_deps =
     knolleary/PubSubClient @ 2.8
     adafruit/Adafruit HTU21DF Library @ 1.0.5
-    adafruit/Adafruit BMP280 Library @ 2.6.6
     wollewald/ADS1115_WE @ 1.4.3
     adafruit/Adafruit MCP9808 Library @ 2.0.0
+    adafruit/Adafruit BusIO @ 1.16.1
+    adafruit/Adafruit BME280 Library @ 2.2.4
+    adafruit/Adafruit Unified Sensor @ 1.1.14
 
 build_flags =
     -DTEMPTEST33=1
     -DNOBATT=0
-    -DMaxErrCount=30
-    -DMQTT=0
+    -DMaxErrCount=20
     
   
 
@@ -35,19 +37,20 @@ build_flags =
 build_flags = ${env.build_flags}
     -DDEBUG=0
     -DNOADS=0
-    -DNAME=\"WETTERSTATIONEPPINGEN\"
-    -DSTASSID=\"St.-Peters-Gasse\"
-    -DSTAPSK=\"1952994784599318\"
+    -DNAME=\"WETTERSTATION\"
+    -DSTASSID=\"MagentaWLAN-RGDO\"
+    -DSTAPSK=\"93329248424922704583\"
     -DGATEWAY=\"192.168.127.1\"
     -DDNS=\"192.168.127.1\"
-    -DKMYIP=\"192.168.127.48\"
+    -DKMYIP=\"192.168.127.40\"
     -Dmqtt_server=\"hjkmqtt.dedyn.io\"
-    -Dmqtt_port=8883
+    -Dmqtt_port=61883
     -DTERROR=5
     -DTLOWBATT=60
     -DTINTERVAL=1
+    -DKorrekturLuftdruck=0.0
 
-[env:release]   ; Produktivsystem: 
+[env:marcel]   ; Produktivsystem: 
 build_flags = ${env.build_flags}
     -DDEBUG=0
     -DEMAIL=\"koerner.c.m@gmail.com\"
@@ -62,4 +65,56 @@ build_flags = ${env.build_flags}
     -DTERROR=20
     -DTLOWBATT=60
     -DTINTERVAL=10
+    -DKorrekturLuftdruck=0.0
+
+[env:boris]   ; Produktivsystem: 
+build_flags = ${env.build_flags}
+    -DDEBUG=0
+    -DEMAIL=\"koerner.c.m@gmail.com\"
+    -DNAME=\"WETTERSTATIONBORIS\"
+    -DSTASSID=\"FRITZ!Box7362SL\"
+    -DSTAPSK=\"BorisundEva2007\"
+    -DGATEWAY=\"192.168.2.1\"
+    -DDNS=\"192.168.2.1\"
+    -DKMYIP=\"192.168.2.41\"
+    -Dmqtt_server=\"hjkmqtt.dedyn.io\"
+    -Dmqtt_port=8883
+    -DTERROR=20
+    -DTLOWBATT=60
+    -DTINTERVAL=5
+    -DKorrekturLuftdruck=0.0
+
+[env:hjk]
+build_flags = ${env.build_flags}
+    -DDEBUG=0
+    -DNOADS=0
+    -DNAME=\"WETTERSTATION\"
+    -DSTASSID=\"MagentaWLAN-RGDO\"
+    -DSTAPSK=\"93329248424922704583\"
+    -DGATEWAY=\"192.168.127.1\"
+    -DDNS=\"192.168.127.1\"
+    -DKMYIP=\"192.168.127.41\"
+    -Dmqtt_server=\"hjkmqtt.dedyn.io\"
+    -Dmqtt_port=61883
+    -DTERROR=5
+    -DTLOWBATT=60
+    -DTINTERVAL=10
+    -DKorrekturLuftdruck=23.6
+
+[env:filamentbox]
+build_flags = ${env.build_flags}
+    -DDEBUG=0
+    -DNOADS=0
+    -DNAME=\"filamenbox\"
+    -DSTASSID=\"MagentaWLAN-RGDO\"
+    -DSTAPSK=\"93329248424922704583\"
+    -DGATEWAY=\"192.168.127.1\"
+    -DDNS=\"192.168.127.1\"
+    -DKMYIP=\"192.168.127.42\"
+    -Dmqtt_server=\"hjkmqtt.dedyn.io\"
+    -Dmqtt_port=61883
+    -DTERROR=5
+    -DTLOWBATT=60
+    -DTINTERVAL=15
+    -DKorrekturLuftdruck=0.0
 

src/main.cpp

@@ -1,12 +1,11 @@
 #include <Arduino.h>
 #include <FS.h>                   //this needs to be first, or it all crashes and burns...
-#include <LittleFS.h>
 #include <string>
 #include <ESP8266WiFi.h>          //https://github.com/esp8266/Arduino
 #include <PubSubClient.h>
 #include <Ticker.h>
 
-#define BUILTIN_LED D15
+// #define BUILTIN_LED D2
 #define TRIGGER_PIN    D7 
 #define START_STOP_PIN D6
 
@@ -14,20 +13,20 @@
 
 void reconnect();
 void setup_wifi();
-void datenSave(int wert);
-int readDaten();
-int saveKorektur(float wert);
-float readKorectur();
+
 void verifyFingerprint();
 void callback(char* topic1, byte* payload, unsigned int length);
 void pulse_pin(uint8_t pin);
 
-WiFiClientSecure espClient;
+WiFiClient espClient;
 PubSubClient client(espClient);
 
+#include <error.h>
+
 #include<mess_htu21.h>
 
-#include <mess_BMP280.h>
+//#include <mess_BMP280.h>
+#include <mess_BME280.h>
 
 #include <mess_Ub.h>
 
@@ -36,6 +35,7 @@ PubSubClient client(espClient);
 #include <mcp9808.h>
 
 
+
 const char* ssid = STASSID;
 const char* password = STAPSK;
 String hostname = NAME;
@@ -67,79 +67,69 @@ char topic[100];
 char topic_1[50];
 char topicWert[20];
 char msg[20];
-int SystemStatus;
+long int Feldstaerke;
 
 
 
 void setup() {
-  pinMode(TRIGGER_PIN, OUTPUT);
-  pinMode(START_STOP_PIN, OUTPUT);
-  digitalWrite(TRIGGER_PIN, HIGH);
-  digitalWrite(START_STOP_PIN, LOW);
-  pulse_pin(TRIGGER_PIN);      // ==> 1
+  startTime = millis();
+  /* pinMode(BUILTIN_LED, OUTPUT);
+  digitalWrite(BUILTIN_LED, LOW);
+  delay(5000);
+  digitalWrite(BUILTIN_LED, HIGH); */
   Serial.begin(74880);
   while ( !Serial ) delay(100);   // wait for native usb
-  Serial.println(F("BMP280 Sensor event test"));
-  Serial.println("HTU21D-F test");
-  startTime = millis();
   WiFi.mode( WIFI_OFF );
   WiFi.forceSleepBegin();
-  pulse_pin(TRIGGER_PIN);      // ==> 1
   Serial.println();
-  //Serial.println("Testpunkt 1");
-  /* if (!LittleFS.begin()) {
-    Serial.println("LittleFS mount failed");
-    delay(5000);
-    return;
-  } */
-  //Serial.println("Testpunkt 2");
-  /* Dir dir = LittleFS.openDir("/data");
-  while (dir.next()) {
-    Serial.print(dir.fileName());
-    if(dir.fileSize()) {
-        File f = dir.openFile("r");
-        Serial.println(f.size());
-    }
-  } */
-  //Serial.println("Testpunkt 3");
+
   Serial.println();
   Serial.println();
   Serial.println();
-  //SystemStatus = readDaten();
-  //korectur = readKorectur();
-  //Serial.print("Korektur: "); Serial.println(korectur,6);
-  pinMode(BUILTIN_LED, OUTPUT);     // Initialize the BUILTIN_LED pin as an output
-  //digitalWrite(BUILTIN_LED, LOW);
-  //digitalWrite(BUILTIN_LED, HIGH);
-  //Serial.print("STATUS (Systemmeldung): "); Serial.println(SystemStatus);
+  readSystemStatus();
+  Serial.printf("Systemstatus : 0x%02x \n", SystemStatus);
+  SystemStatus = 0x00;
+  writeSystemStatus();
+  delay(500);
   #if (MQTT == 0)
   init_HTU21();
-  Init_BMP280();
-  //initADS();
-  //init_MCP9808();
+  //Init_BMP280();
+  Sensor_BME280();
+
+  init_MCP9808();
+  initADS();
   #endif
-  AKKU = getBattery();  // ca. 170 ms
+  if (!F_ADS1115 == true){
+    AKKU = getBattery();  // ca. 170 ms
+    Serial.println("ALTE UB MESSUNG:");
+  }
+  else{
+    MessungADS();
+    AKKU = readChannel(ADS1115_COMP_0_GND);
+  }
   // ca. 280 ms
   if (F_HTU_21D == true){
     read_HTU21D();
   }
-  read_BMP_280();
-  //MessungADS();
+  if (F_ADS1115 == true){
+    MessungADS();
+  }
+  /* if (F_BMP280 == true){
+    read_BMP_280();
+  }*/
+  if (F_MCP9808 == true){
+    valTemp = getTemperature_MCP9808();
+  }
   setup_wifi();  // ca. 4,5 s
-  // ca. 12ms
-  // ---------------------------------
-  // Status ändern !!! 0
-  //datenSave(0);
-  // ---------------------------------
-  //digitalWrite(BUILTIN_LED, HIGH);
   deviceId = ESP.getChipId();
   sprintf(sID, "%010ld", deviceId);
   Serial.print("ID: \t\t"); Serial.println(deviceId);
   
   // ca. 5 s
-  espClient.setFingerprint(mqtt_fprint); 
+  //espClient.setFingerprint(mqtt_fprint); 
   client.setServer(mqtt_server, mqtt_port);
   client.setCallback(callback);
+  Serial.printf("Systemstatus : 0x%02x \n", SystemStatus);
   //----------
   
 }
@@ -149,38 +139,40 @@ void loop() {
   if (!client.connected()) {
     reconnect();
   }
-  //client.loop();
   int currentMillis = millis();
   if (currentMillis - previousMillis >= 10000) {
     previousMillis = currentMillis;
-    read_HTU21D();
-    read_BMP_280();
-    //valTemp = getTemperature_MCP9808();
     dtostrf(AKKU,8,2,ADSData.Akku);
     sprintf(topic, "%s%s%s", "hjk/devices/", hostname.c_str(), "/telemetry/battery" );
     client.publish(topic, ADSData.Akku, true);
-    #if(MQTT == 0)
-    M2M_HTU21D(hostname.c_str());
-    M2M_BMP280(hostname.c_str());
-    M2M_Temperatur_MCP9808(hostname.c_str());
-    #endif
-    long int Feldstaerke = WiFi.RSSI();
+    if (F_ADS1115 == true){
+      sprintf(topic, "%s%s%s", "hjk/devices/", hostname.c_str(), "/telemetry/Solar" );
+      client.publish(topic, ADSData.Solar, true);
+    }
+    
+    if (F_HTU_21D) M2M_HTU21D(hostname.c_str());
+    M2M_BME280(hostname.c_str());
+    if (F_MCP9808) M2M_Temperatur_MCP9808(hostname.c_str());
     sprintf(msg,"%ld", Feldstaerke);
     sprintf(topic, "%s%s%s", "hjk/devices/", hostname.c_str(), "/telemetry/RSSI" );
     client.publish(topic, msg, true);
+    sprintf(msg,"0x%02x", SystemStatus);
+    sprintf(topic, "%s%s%s", "hjk/devices/", hostname.c_str(), "/telemetry/SystemStatus" );
+    client.publish(topic, msg, true);
     client.loop();
     delay(500);
-    digitalWrite(BUILTIN_LED, HIGH);
+    //digitalWrite(BUILTIN_LED, HIGH);
     /* ESP.deepSleep(5e6);
     delay(100); */
     endTime = millis();
     if (AKKU < MinimalSpannung){
-      // ---------------------------------
-      // Status ändern !!! -5
-      datenSave(-5);
+      
       // ---------------------------------
       Pause = intervalLowBatt -((endTime - startTime) * 1000); // Pause ca. 60 Minuten
       Serial.println("AKKU entladen!");
+      SystemStatus = (SystemStatus | AkkuLeer);  
+      Serial.printf("Systemstatus : 0x%04x \n", SystemStatus);
+      writeSystemStatus();
     }
     else{
       Pause = interval -((endTime - startTime) * 1000);      // Pause ca. 15 Minuten
@@ -195,6 +187,7 @@ void loop() {
     #if (DEBUG == 1)
     ESP.deepSleep(10e6);
     #else
+    writeSystemStatus();
     ESP.deepSleep(Pause);
     #endif
     
@@ -217,7 +210,7 @@ void setup_wifi() {
   delay( 1 );
   WiFi.persistent( false );
   WiFi.mode( WIFI_STA );
-  //WiFi.setHostname(hostname.c_str()); //define hostname
+  WiFi.setHostname(hostname.c_str()); //define hostname
   WiFi.hostname(hostname.c_str());
   WiFi.mode( WIFI_STA );
   if (!ip.fromString(MyIP)) { // try to parse into the IPAddress
@@ -242,10 +235,6 @@ void setup_wifi() {
     Serial.print(".");
     ErrCount ++;
     if (ErrCount >= MaxErrCount){
-      // ---------------------------------
-      // Status ändern !!! -1
-      datenSave(-1);
-      // ---------------------------------
       endTime = millis();
       unsigned long Pause = stoerung -((endTime - startTime) * 1000); // Pause
       Serial.println();
@@ -257,7 +246,8 @@ void setup_wifi() {
     }
   Serial.println(" WiFi connected");
   Serial.print("IP address: \t");
-  Serial.print(WiFi.localIP()); Serial.print("\tRESSI: "); Serial.println(WiFi.RSSI());
+  Feldstaerke = WiFi.RSSI();
+  Serial.print(WiFi.localIP()); Serial.print("\tRESSI: "); Serial.println(Feldstaerke);
   /* delay(2000);
   ESP.deepSleep(2e6, WAKE_RF_DEFAULT);
   delay(100); */
@@ -278,28 +268,22 @@ void callback(char* topic1, byte* payload, unsigned int length)
     Serial.println();
     korectur = atof(msg);
     Serial.print("Korektur:\t");Serial.println(korectur, 8);
-    int er = saveKorektur(korectur);
-    if (er != 0){
-      Serial.println("Daten konnten nicht gespeichert werden.");
-    }
-    float test = readKorectur();
-    Serial.print("Korektur:\t");Serial.println(test, 8);
   }
 }
 
 void reconnect() {
   // Loop until we're reconnected
-  sprintf(clientName, "%s%s", "ESP8266Client", sID);
+  sprintf(clientName, "%s%s", "ESP8266Wetter", sID);
   while (!client.connected()) {
     Serial.print("Attempting MQTT connection...");
-    verifyFingerprint();
+    //verifyFingerprint();
     // Attempt to connect
     if (client.connect(clientName)) {
       Serial.println("connected");
       // Once connected, publish an announcement...
-      client.publish("outTopic", "hello world");
+      // client.publish("outTopic", "hello world");
       // ... and resubscribe
-      client.subscribe("inTopic");
+      // client.subscribe("inTopic");
     } else {
       Serial.print("failed, rc=");
       Serial.print(client.state());
@@ -311,56 +295,9 @@ void reconnect() {
   }
 }
 
-void datenSave(int wert){
-  File k = LittleFS.open("/status.txt", "w");
-  if(!k){
-    Serial.println("file open failed");
-  }
-  k.println(wert);
-  k.close();
-}
 
-int readDaten()
-{
-  int Error;
-  File k = LittleFS.open("/status.txt", "r");
-  if(!k){
-    Serial.println("file open failed");
-    Error = -10;
-  }else{
-    String data = k.readString();
-    Error = data.toInt();  
-    k.close();
-  }
-  return Error;
-}
 
-int saveKorektur(float wert){
-  int Error = 0;
-  File k = LittleFS.open("/Korektur.txt", "w");
-  if(!k){
-    Serial.println("file open failed");
-    Error = -1;
-  }else{
-    k.println(String(wert,8));
-    k.close();
-  }
-  return Error;
-}
 
-float readKorectur(){
-  float Korektur;
-  File k = LittleFS.open("/Korektur.txt", "r");
-  if(!k){
-    Serial.println("file open failed");
-    Korektur = 1.00;
-  }else{
-    String data = k.readString();
-    Korektur = data.toFloat();  
-    k.close();
-  }
-  return Korektur;
-}
 
 void verifyFingerprint() {
   unsigned long Pause = 0;

workspace.code-workspace

@@ -1,4 +0,0 @@
-{
-	"folders": [],
-	"settings": {}
-}