start

.vscode/extensions.json

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+{
+    // See http://go.microsoft.com/fwlink/?LinkId=827846
+    // for the documentation about the extensions.json format
+    "recommendations": [
+        "platformio.platformio-ide"
+    ],
+    "unwantedRecommendations": [
+        "ms-vscode.cpptools-extension-pack"
+    ]
+}

platformio.ini

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+; PlatformIO Project Configuration File
+;
+;   Build options: build flags, source filter
+;   Upload options: custom upload port, speed and extra flags
+;   Library options: dependencies, extra library storages
+;   Advanced options: extra scripting
+;
+; Please visit documentation for the other options and examples
+; https://docs.platformio.org/page/projectconf.html
+
+[env:esp32dev]
+platform = espressif32
+board = esp32dev
+framework = arduino
+# Libraries hier eintragen:
+lib_deps = 
+    knolleary/PubSubClient @ ^2.8
+    arduino-libraries/NTPClient @ ^3.2.1
+    bblanchon/ArduinoJson @ ^6.21.3
+# SERIAL MONITOR EINSTELLUNGEN:
+monitor_speed = 115200          # Baudrate
+monitor_port = COM9             # Port festlegen
+monitor_filters =               # Filter aktivieren
+    colorize                    # Farbige Ausgabe
+    esp32_exception_decoder     # ESP32 Fehler dekodieren
+    log2file                    # In Datei speichern
+    time                        # Zeitstempel
+    default                     # Standardfilter
+monitor_rts = 0                 # RTS deaktivieren
+monitor_dtr = 0                 # DTR deaktivieren
+monitor_echo = yes              # Eingaben anzeigen
+monitor_raw = no                # Raw-Mode
+monitor_encoding = utf8         # Encoding
+monitor_rx_timeout = 3          # Timeout in Sekunden

src/main.cpp

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+#include <WiFi.h>
+#include <PubSubClient.h>
+#include <NTPClient.h>
+#include <WiFiUdp.h>
+#include <ArduinoJson.h>
+#include <EEPROM.h>
+#include <esp_task_wdt.h>
+
+// =================== HARDWARE KONFIGURATION ===================
+// WICHTIG: Dein KY-025 ist INVERTIERT (HIGH bei Magnet, LOW ohne Magnet)
+#define REED_PIN 4        // GPIO4 (funktioniert gut mit Pullup)
+const float PULSES_PER_M3 = 100.0; // Anpassen: Wie viele Impulse pro m³?
+
+// =================== NETZWERK KONFIGURATION ===================
+const char* SSID = "pipanet";
+const char* PASS = "passatvr6";
+
+// =================== MQTT KONFIGURATION ===================
+const char* MQTT_SERVER = "192.168.2.173";
+const char* STATE_TOPIC = "homeassistant/sensor/gaszahler/state";
+const char* COMMAND_TOPIC = "homeassistant/sensor/gaszahler/set";
+const char* CONFIG_TOPIC = "homeassistant/sensor/gaszahler/config";
+const char* AVAILABILITY_TOPIC = "homeassistant/sensor/gaszahler/status";
+
+// =================== GLOBALE VARIABLEN ===================
+// volatile für Interrupt-Sicherheit
+volatile unsigned long totalPulses = 0;
+volatile unsigned long dailyPulses = 0;
+volatile bool lastReedState = false;
+volatile unsigned long lastPulseTime = 0;
+volatile bool pulseFlag = false;  // Für sichere Hauptschleife-Verarbeitung
+
+const unsigned long DEBOUNCE_MS = 50;    // Entprellzeit
+const unsigned long MIN_PULSE_GAP = 100; // Minimaler Impulsabstand (ms)
+const int EEPROM_SIZE = 128;
+
+// =================== OBJEKTE ===================
+WiFiUDP ntpUDP;
+NTPClient timeClient(ntpUDP, "pool.ntp.org", 3600, 60000); // UTC+1, Update alle 60s
+WiFiClient wifiClient;
+PubSubClient mqtt(wifiClient);
+
+// =================== EEPROM FUNKTIONEN ===================
+void saveToEEPROM() {
+  EEPROM.begin(EEPROM_SIZE);
+  
+  // Magic Number zum Erkennen von gültigen Daten
+  EEPROM.put(0, 0xABCD1234);
+  
+  // Daten speichern
+  EEPROM.put(4, totalPulses);
+  EEPROM.put(8, dailyPulses);
+  
+  // CRC-Prüfsumme
+  uint32_t crc = totalPulses ^ dailyPulses ^ 0x55AA55AA;
+  EEPROM.put(12, crc);
+  
+  EEPROM.commit();
+  EEPROM.end();
+  
+  Serial.printf("EEPROM gespeichert: Total=%lu, Daily=%lu\n", totalPulses, dailyPulses);
+}
+
+void loadFromEEPROM() {
+  EEPROM.begin(EEPROM_SIZE);
+  
+  // Magic Number prüfen
+  uint32_t magic;
+  EEPROM.get(0, magic);
+  
+  if (magic == 0xABCD1234) {
+    // Daten laden
+    EEPROM.get(4, totalPulses);
+    EEPROM.get(8, dailyPulses);
+    
+    // CRC prüfen
+    uint32_t storedCRC, calculatedCRC;
+    EEPROM.get(12, storedCRC);
+    calculatedCRC = totalPulses ^ dailyPulses ^ 0x55AA55AA;
+    
+    if (storedCRC == calculatedCRC) {
+      Serial.printf("EEPROM geladen: Total=%lu (%.2f m³), Daily=%lu (%.2f m³)\n", 
+                    totalPulses, totalPulses / PULSES_PER_M3,
+                    dailyPulses, dailyPulses / PULSES_PER_M3);
+    } else {
+      Serial.println("EEPROM CRC Fehler - Reset auf 0");
+      totalPulses = 0;
+      dailyPulses = 0;
+    }
+  } else {
+    Serial.println("Keine gültigen EEPROM-Daten gefunden");
+    totalPulses = 0;
+    dailyPulses = 0;
+  }
+  
+  EEPROM.end();
+}
+
+// =================== INTERRUPT HANDLER ===================
+void IRAM_ATTR handleReedInterrupt() {
+  unsigned long now = millis();
+  
+  // Hardware-Entprellung und Mindestabstand
+  if (now - lastPulseTime < MIN_PULSE_GAP) {
+    return; // Zu schnelle Impulse ignorieren
+  }
+  
+  bool currentState = digitalRead(REED_PIN);
+  
+  // WICHTIG: Dein Sensor ist INVERTIERT!
+  // HIGH = Magnet vorhanden (Zähler im Ruhezustand)
+  // LOW  = Magnet weg (Zähler bewegt sich -> Impuls)
+  
+  if (currentState == LOW && lastReedState == HIGH) {
+    // Flanke von HIGH nach LOW = Magnet wurde entfernt = Zähler bewegt sich
+    pulseFlag = true;  // Für Hauptschleife
+    lastPulseTime = now;
+  }
+  
+  lastReedState = currentState;
+}
+
+// =================== MQTT FUNKTIONEN ===================
+void sendHAConfig() {
+  StaticJsonDocument<512> config;
+  
+  // Gerätekonfiguration
+  JsonObject device = config.createNestedObject("device");
+  device["identifiers"][0] = String("gasmeter_") + String((uint32_t)ESP.getEfuseMac(), HEX);
+  device["name"] = "Gas Zähler";
+  device["manufacturer"] = "DIY";
+  device["model"] = "ESP32 + KY-025";
+  device["sw_version"] = "2.0";
+  
+  // Totale Gasmenge
+  config["name"] = "Gas Verbrauch Total";
+  config["unique_id"] = String("gasmeter_total_") + String((uint32_t)ESP.getEfuseMac(), HEX);
+  config["state_topic"] = STATE_TOPIC;
+  config["unit_of_meas"] = "m³";
+  config["device_class"] = "gas";
+  config["state_class"] = "total_increasing";
+  config["value_template"] = "{{ value_json.total_m3 }}";
+  config["availability_topic"] = AVAILABILITY_TOPIC;
+  config["payload_available"] = "online";
+  config["payload_not_available"] = "offline";
+  config["json_attributes_topic"] = STATE_TOPIC;
+  
+  char buffer[512];
+  serializeJson(config, buffer);
+  mqtt.publish(CONFIG_TOPIC, buffer, true);
+  Serial.println("Home Assistant Config gesendet");
+}
+
+void sendMQTTData() {
+  StaticJsonDocument<256> doc;
+  
+  // Berechnungen
+  float total_m3 = totalPulses / PULSES_PER_M3;
+  float daily_m3 = dailyPulses / PULSES_PER_M3;
+  float hourly_m3 = daily_m3 / 24.0;  // Vereinfachte Annahme
+  
+  // Hauptwerte
+  doc["total_m3"] = total_m3;
+  doc["daily_m3"] = daily_m3;
+  doc["hourly_m3"] = hourly_m3;
+  doc["total_pulses"] = totalPulses;
+  
+  // Zusätzliche Info
+  doc["pulses_per_m3"] = PULSES_PER_M3;
+  doc["timestamp"] = timeClient.getFormattedTime();
+  doc["uptime"] = millis() / 1000;
+  doc["rssi"] = WiFi.RSSI();
+  
+  char output[256];
+  serializeJson(doc, output);
+  
+  if (mqtt.publish(STATE_TOPIC, output, true)) {
+    Serial.printf("MQTT gesendet: %.3f m³ total, %.3f m³ heute\n", total_m3, daily_m3);
+  } else {
+    Serial.println("MQTT Sendefehler!");
+  }
+}
+
+void mqttCallback(char* topic, byte* payload, unsigned int length) {
+  char message[length + 1];
+  memcpy(message, payload, length);
+  message[length] = '\0';
+  
+  Serial.printf("MQTT Callback: Topic=%s, Message=%s\n", topic, message);
+  
+  if (String(topic) == COMMAND_TOPIC) {
+    if (strcmp(message, "reset_total") == 0) {
+      totalPulses = 0;
+      saveToEEPROM();
+      Serial.println("Totalzähler zurückgesetzt");
+    } 
+    else if (strcmp(message, "reset_daily") == 0) {
+      dailyPulses = 0;
+      saveToEEPROM();
+      Serial.println("Tageszähler zurückgesetzt");
+    }
+    else if (strcmp(message, "restart") == 0) {
+      Serial.println("Neustart via MQTT...");
+      ESP.restart();
+    }
+    
+    // Sofortige Bestätigung senden
+    sendMQTTData();
+  }
+}
+
+void reconnectMQTT() {
+  static unsigned long lastAttempt = 0;
+  
+  if (!mqtt.connected()) {
+    if (millis() - lastAttempt > 5000) {
+      Serial.print("Verbinde mit MQTT...");
+      
+      // Client ID mit MAC-Adresse für Eindeutigkeit
+      String clientId = "GasMeter-" + String((uint32_t)ESP.getEfuseMac(), HEX);
+      
+      if (mqtt.connect(clientId.c_str(), AVAILABILITY_TOPIC, 1, true, "offline")) {
+        Serial.println("verbunden!");
+        
+        // Verfügbarkeit melden
+        mqtt.publish(AVAILABILITY_TOPIC, "online", true);
+        
+        // Topics abonnieren
+        mqtt.subscribe(COMMAND_TOPIC);
+        
+        // Config an HA senden
+        sendHAConfig();
+        
+        // Sofort Daten senden
+        sendMQTTData();
+      } else {
+        Serial.printf("fehlgeschlagen, rc=%d\n", mqtt.state());
+      }
+      lastAttempt = millis();
+    }
+  }
+}
+
+// =================== TAGESRESET ===================
+void checkDailyReset() {
+  static int lastDay = -1;
+  
+  timeClient.update();
+  int currentDay = timeClient.getDay();
+  
+  if (lastDay != -1 && currentDay != lastDay) {
+    Serial.println("Neuer Tag - Tageszähler wird zurückgesetzt");
+    dailyPulses = 0;
+    saveToEEPROM();
+    
+    // Sofort MQTT Update
+    if (mqtt.connected()) {
+      sendMQTTData();
+    }
+  }
+  
+  lastDay = currentDay;
+}
+
+// =================== WATCHDOG & ÜBERWACHUNG ===================
+void setupWatchdog() {
+  // Task Watchdog für Hauptschleife (5 Sekunden)
+  esp_task_wdt_init(5, true);
+  esp_task_wdt_add(NULL);
+}
+
+// =================== SETUP ===================
+void setup() {
+  Serial.begin(115200);
+  delay(1000);
+  
+  Serial.println("\n=================================");
+  Serial.println("     ESP32 Gaszähler v2.0");
+  Serial.println("=================================");
+  Serial.printf("Chip-ID: %08X\n", (uint32_t)ESP.getEfuseMac());
+  Serial.printf("Free Heap: %d bytes\n", ESP.getFreeHeap());
+  
+  // EEPROM Daten laden
+  loadFromEEPROM();
+  
+  // Reed-Sensor initialisieren
+  pinMode(REED_PIN, INPUT_PULLUP);
+  
+  // Initialen Zustand lesen (INVERTIERT!)
+  lastReedState = digitalRead(REED_PIN);
+  Serial.printf("Startzustand Reed-Pin: %s\n", 
+                lastReedState ? "HIGH (Magnet vorhanden)" : "LOW (kein Magnet)");
+  
+  // Interrupt konfigurieren
+  attachInterrupt(digitalPinToInterrupt(REED_PIN), handleReedInterrupt, CHANGE);
+  Serial.println("Interrupt aktiviert (CHANGE)");
+  
+  // WiFi verbinden
+  Serial.print("Verbinde mit WiFi");
+  WiFi.begin(SSID, PASS);
+  WiFi.setSleep(false); // Bessere Stabilität
+  
+  unsigned long wifiTimeout = millis() + 30000;
+  while (WiFi.status() != WL_CONNECTED && millis() < wifiTimeout) {
+    delay(500);
+    Serial.print(".");
+  }
+  
+  if (WiFi.status() == WL_CONNECTED) {
+    Serial.println("\nWiFi verbunden!");
+    Serial.printf("IP: %s, RSSI: %d dBm\n", 
+                  WiFi.localIP().toString().c_str(), WiFi.RSSI());
+  } else {
+    Serial.println("\nWiFi Fehler - im Offline-Modus");
+  }
+  
+  // NTP Client
+  timeClient.begin();
+  timeClient.update();
+  Serial.printf("NTP Zeit: %s\n", timeClient.getFormattedTime().c_str());
+  
+  // MQTT Client
+  mqtt.setServer(MQTT_SERVER, 1883);
+  mqtt.setCallback(mqttCallback);
+  mqtt.setBufferSize(512);
+  mqtt.setKeepAlive(30);
+  
+  // Watchdog
+  setupWatchdog();
+  
+  Serial.println("Setup abgeschlossen!");
+  Serial.println("=================================\n");
+}
+
+// =================== HAUPTLOOP ===================
+void loop() {
+  static unsigned long lastMQTTSend = 0;
+  static unsigned long lastSerialOutput = 0;
+  static unsigned long lastStateCheck = 0;
+  
+  // Watchdog füttern
+  esp_task_wdt_reset();
+  
+  // Impulse in Hauptschleife verarbeiten (thread-sicher)
+  if (pulseFlag) {
+    // Warte kurze Zeit für Stabilität
+    delay(1);
+    
+    // Nochmal prüfen (Entprellung)
+    if (digitalRead(REED_PIN) == LOW) {
+      totalPulses++;
+      dailyPulses++;
+      
+      Serial.printf("[IMPULS] Total: %lu (%.3f m³), Heute: %lu (%.3f m³)\n",
+                    totalPulses, totalPulses / PULSES_PER_M3,
+                    dailyPulses, dailyPulses / PULSES_PER_M3);
+      
+      // Bei jedem Impuls speichern (für maximale Datenintegrität)
+      saveToEEPROM();
+      
+      // Sofort MQTT Update bei aktivem Impuls
+      if (mqtt.connected() && (millis() - lastMQTTSend > 1000)) {
+        sendMQTTData();
+        lastMQTTSend = millis();
+      }
+    }
+    
+    pulseFlag = false;
+  }
+  
+  // Netzwerk Updates
+  if (WiFi.status() == WL_CONNECTED) {
+    timeClient.update();
+    mqtt.loop();
+    reconnectMQTT();
+    checkDailyReset();
+  }
+  
+  // Regelmäßiges MQTT Update (alle 30 Sekunden)
+  if (mqtt.connected() && (millis() - lastMQTTSend > 30000)) {
+    sendMQTTData();
+    lastMQTTSend = millis();
+  }
+  
+  // Serieller Status (alle 60 Sekunden)
+  if (millis() - lastSerialOutput > 60000) {
+    Serial.printf("[STATUS] Heap: %d, Uptime: %lu s, RSSI: %d dBm\n",
+                  ESP.getFreeHeap(), millis() / 1000, WiFi.RSSI());
+    lastSerialOutput = millis();
+  }
+  
+  // Reed-Pin Status prüfen (Debug, alle 10s)
+  if (millis() - lastStateCheck > 10000) {
+    bool currentState = digitalRead(REED_PIN);
+    Serial.printf("[SENSOR] Pin: %s\n", 
+                  currentState ? "HIGH (Magnet da)" : "LOW (Magnet weg)");
+    lastStateCheck = millis();
+  }
+  
+  delay(10); // Kleine Pause für Stabilität
+}