Reverted WiFi_connect method

Populate Active Import and Export per phase and export to HA

frames/lng.raw

@@ -43,3 +43,37 @@ FF // Last byte of OBIS in previous block
 0600000000 // Accumulated export
 8BA4
 7E
+
+
+
+
+7E A1 23 CE FF 03 13 21 55 E6 E7 00 
+
+0F 00 00 08 E2 
+0C 07 E5 07 13 01 0C 1A 0A FF 80 00 00 
+
+02 0B // 11
+  01 0B // 11
+    02 04 12 00 28 09 06 00 08 19 09 00 FF 0F 02 12 00 00 
+    02 04 12 00 28 09 06 00 08 19 09 00 FF 0F 01 12 00 00 
+    02 04 12 00 01 09 06 00 00 60 01 00 FF 0F 02 12 00 00 
+    02 04 12 00 03 09 06 01 00 01 07 00 FF 0F 02 12 00 00 
+    02 04 12 00 03 09 06 01 00 02 07 00 FF 0F 02 12 00 00 
+    02 04 12 00 03 09 06 01 01 01 08 00 FF 0F 02 12 00 00 
+    02 04 12 00 03 09 06 01 01 02 08 00 FF 0F 02 12 00 00
+    02 04 12 00 03 09 06 01 01 05 08 00 FF 0F 02 12 00 00 
+    02 04 12 00 03 09 06 01 01 06 08 00 FF 0F 02 12 00 00 
+    02 04 12 00 03 09 06 01 01 07 08 00 FF 0F 02 12 00 00 
+    02 04 12 00 03 09 06 01 01 08 08 00 FF 0F 02 12 00 00 
+  09 06 00 08 19 09 00 FF
+  09 08 34 33 30 39 34 33 35 31 
+  06 00 00 00 0B 
+  06 00 00 00 00 
+  06 00 00 00 10 
+  06 00 00 00 04 
+  06 00 00 00 00 
+  06 00 00 00 08 
+  06 00 00 00 00 
+  06 00 00 00 01 
+7C 8B
+7E

scripts/addversion.py

@@ -19,6 +19,6 @@ hf = """
   #define VERSION "{}"
 #endif
 #define BUILD_EPOCH {}
-""".format(version, time())
+""".format(version, round(time()))
 with open(FILENAME_VERSION_H, 'w+') as f:
     f.write(hf)

src/AmsConfiguration.cpp

@@ -517,6 +517,7 @@ bool AmsConfiguration::getEnergyAccountingConfig(EnergyAccountingConfig& config)
 }
 
 bool AmsConfiguration::setEnergyAccountingConfig(EnergyAccountingConfig& config) {
+	if(config.hours > 5) config.hours = 5;
 	EnergyAccountingConfig existing;
 	if(getEnergyAccountingConfig(existing)) {
 		for(int i = 0; i < 9; i++) {
@@ -525,6 +526,7 @@ bool AmsConfiguration::setEnergyAccountingConfig(EnergyAccountingConfig& config)
 			}
 		}
 		config.thresholds[9] = 255;
+		energyAccountingChanged |= config.hours != existing.hours;
 	} else {
 		energyAccountingChanged = true;
 	}
@@ -741,7 +743,7 @@ bool AmsConfiguration::relocateConfig86() {
 }
 
 bool AmsConfiguration::relocateConfig87() {
-	MeterConfig87 meter87;
+	MeterConfig87 meter87 = {0,0,0,0,0,0,0};
 	MeterConfig meter;
 	EEPROM.begin(EEPROM_SIZE);
     EEPROM.get(CONFIG_METER_START_87, meter87);

src/AmsData.cpp

@@ -45,6 +45,12 @@ void AmsData::apply(AmsData& other) {
             this->l1PowerFactor = other.getL1PowerFactor();
             this->l2PowerFactor = other.getL2PowerFactor();
             this->l3PowerFactor = other.getL3PowerFactor();
+            this->l1activeImportPower = other.getL1ActiveImportPower();
+            this->l2activeImportPower = other.getL2ActiveImportPower();
+            this->l3activeImportPower = other.getL3ActiveImportPower();
+            this->l1activeExportPower = other.getL1ActiveExportPower();
+            this->l2activeExportPower = other.getL2ActiveExportPower();
+            this->l3activeExportPower = other.getL3ActiveExportPower();
         case 3:
             this->meterTimestamp = other.getMeterTimestamp();
             this->activeImportCounter = other.getActiveImportCounter();
@@ -161,6 +167,30 @@ float AmsData::getL3PowerFactor() {
     return this->l3PowerFactor;
 }
 
+float AmsData::getL1ActiveImportPower() {
+    return this->l1activeImportPower;
+}
+
+float AmsData::getL2ActiveImportPower() {
+    return this->l2activeImportPower;
+}
+
+float AmsData::getL3ActiveImportPower() {
+    return this->l3activeImportPower;
+}
+
+float AmsData::getL1ActiveExportPower() {
+    return this->l1activeExportPower;
+}
+
+float AmsData::getL2ActiveExportPower() {
+    return this->l2activeExportPower;
+}
+
+float AmsData::getL3ActiveExportPower() {
+    return this->l3activeExportPower;
+}
+
 double AmsData::getActiveImportCounter() {
     return this->activeImportCounter;
 }

src/AmsData.h

@@ -12,6 +12,7 @@ enum AmsType {
     AmsTypeIskra = 0x08,
     AmsTypeLandis = 0x09,
     AmsTypeSagemcom = 0x0A,
+    AmsTypeLng = 0x0B,
     AmsTypeCustom = 0x88,
     AmsTypeUnknown = 0xFF
 };
@@ -53,6 +54,14 @@ public:
     float getL2PowerFactor();
     float getL3PowerFactor();
 
+    float getL1ActiveImportPower();
+    float getL2ActiveImportPower();
+    float getL3ActiveImportPower();
+
+    float getL1ActiveExportPower();
+    float getL2ActiveExportPower();
+    float getL3ActiveExportPower();
+
     double getActiveImportCounter();
     double getReactiveImportCounter();
     double getActiveExportCounter();
@@ -70,6 +79,8 @@ protected:
     time_t meterTimestamp = 0;
     uint16_t activeImportPower = 0, reactiveImportPower = 0, activeExportPower = 0, reactiveExportPower = 0;
     float l1voltage = 0, l2voltage = 0, l3voltage = 0, l1current = 0, l2current = 0, l3current = 0;
+    float l1activeImportPower = 0, l2activeImportPower = 0, l3activeImportPower = 0;
+    float l1activeExportPower = 0, l2activeExportPower = 0, l3activeExportPower = 0;
     float powerFactor = 0, l1PowerFactor = 0, l2PowerFactor = 0, l3PowerFactor = 0;
     double activeImportCounter = 0, reactiveImportCounter = 0, activeExportCounter = 0, reactiveExportCounter = 0;
     bool threePhase = false, twoPhase = false, counterEstimated = false;

src/AmsToMqttBridge.h

@@ -1,7 +1,7 @@
 #ifndef _AMSTOMQTTBRIDGE_H
 #define _AMSTOMQTTBRIDGE_H
 
-#define WIFI_CONNECTION_TIMEOUT 30000;
+#define WIFI_CONNECTION_TIMEOUT 30000
 
 #define INVALID_BUTTON_PIN  0xFFFFFFFF
 

src/AmsToMqttBridge.ino

@@ -65,10 +65,11 @@ ADC_MODE(ADC_VCC);
 #include "RemoteDebug.h"
 
 #define BUF_SIZE_COMMON (2048)
-#define BUF_SIZE_HAN (1024)
+#define BUF_SIZE_HAN (1280)
 
 #include "IEC6205621.h"
 #include "IEC6205675.h"
+#include "LNG.h"
 
 #include "ams/DataParsers.h"
 
@@ -118,7 +119,6 @@ DLMSParser *dlmsParser = NULL;
 DSMRParser *dsmrParser = NULL;
 
 void setup() {
-	WiFiConfig wifi;
 	Serial.begin(115200);
 
 	if(!config.getGpioConfig(gpioConfig)) {
@@ -245,7 +245,6 @@ void setup() {
 	}
 
 	Debug.setSerialEnabled(true);
-	DebugConfig debug;
 	delay(1);
 
 	float vcc = hw.getVcc();
@@ -435,6 +434,10 @@ void loop() {
 		}
 	}
 
+	if(now > 10000 && now - lastErrorBlink > 3000) {
+		errorBlink();
+	}
+
 	// Only do normal stuff if we're not booted as AP
 	if (WiFi.getMode() != WIFI_AP) {
 		if (WiFi.status() != WL_CONNECTED) {
@@ -505,13 +508,10 @@ void loop() {
 			MDNS.update();
 			#endif
 
-			if(now > 10000 && now - lastErrorBlink > 3000) {
-				errorBlink();
-			}
-
 			if (mqttEnabled || config.isMqttChanged()) {
 				if(mqtt == NULL || !mqtt->connected() || config.isMqttChanged()) {
 					MQTT_connect();
+					config.ackMqttChange();
 				}
 			} else if(mqtt != NULL && mqtt->connected()) {
 				mqttClient->stop();
@@ -589,11 +589,11 @@ void loop() {
 			if(mqtt != NULL && mqttHandler != NULL && WiFi.getMode() != WIFI_AP && WiFi.status() == WL_CONNECTED && mqtt->connected() && !topic.isEmpty()) {
 				mqttHandler->publishTemperatures(&config, &hw);
 			}
-			debugD("Used %d ms to update temperature", millis()-start);
+			debugD("Used %ld ms to update temperature", millis()-start);
 		}
 		if(now - lastSysupdate > 10000) {
 			if(mqtt != NULL && mqttHandler != NULL && WiFi.getMode() != WIFI_AP && WiFi.status() == WL_CONNECTED && mqtt->connected() && !topic.isEmpty()) {
-				mqttHandler->publishSystem(&hw);
+				mqttHandler->publishSystem(&hw, eapi, &ea);
 			}
 			lastSysupdate = now;
 		}
@@ -723,22 +723,25 @@ void errorBlink() {
 	if(lastError == 3)
 		lastError = 0;
 	lastErrorBlink = millis();
-	for(;lastError < 3;lastError++) {
-		switch(lastError) {
+	while(lastError < 3) {
+		switch(lastError++) {
 			case 0:
 				if(lastErrorBlink - meterState.getLastUpdateMillis() > 30000) {
+					debugW("No HAN data received last 30s, single blink");
 					hw.ledBlink(LED_RED, 1); // If no message received from AMS in 30 sec, blink once
 					return;
 				}
 				break;
 			case 1:
 				if(mqttEnabled && mqtt != NULL && mqtt->lastError() != 0) {
+					debugW("MQTT connection not available, double blink");
 					hw.ledBlink(LED_RED, 2); // If MQTT error, blink twice
 					return;
 				}
 				break;
 			case 2:
 				if(WiFi.getMode() != WIFI_AP && WiFi.status() != WL_CONNECTED) {
+					debugW("WiFi not connected, tripe blink");
 					hw.ledBlink(LED_RED, 3); // If WiFi not connected, blink three times
 					return;
 				}
@@ -825,6 +828,11 @@ bool readHanPort() {
 	}
 	if(pos == DATA_PARSE_INCOMPLETE) {
 		return false;
+	} else if(pos == DATA_PARSE_UNKNOWN_DATA) {
+		len = len + hanSerial->readBytes(hanBuffer+len, BUF_SIZE_HAN-len);
+		debugPrint(hanBuffer, 0, len);
+		len = 0;
+		return false;
 	}
 
 	if(pos == DATA_PARSE_INTERMEDIATE_SEGMENT) {
@@ -848,20 +856,26 @@ bool readHanPort() {
 	}
 
 	AmsData data;
+	char* payload = ((char *) (hanBuffer)) + pos;
 	if(ctx.type == DATA_TAG_DLMS) {
 		// If MQTT bytestream payload is selected (mqttHandler == NULL), send the payload to MQTT
 		if(mqttEnabled && mqtt != NULL && mqttHandler == NULL) {
-			mqtt->publish(topic.c_str(), toHex(hanBuffer+pos, ctx.length));
+			mqtt->publish(topic.c_str(), toHex((byte*) payload, ctx.length));
 			mqtt->loop();
 		}
 
 		debugV("Using application data:");
-		if(Debug.isActive(RemoteDebug::VERBOSE)) debugPrint(hanBuffer+pos, 0, ctx.length);
+		if(Debug.isActive(RemoteDebug::VERBOSE)) debugPrint((byte*) payload, 0, ctx.length);
 
-		// TODO: Split IEC6205675 into DataParserKaifa and DataParserObis. This way we can add other means of parsing, for those other proprietary formats
-		data = IEC6205675(((char *) (hanBuffer)) + pos, meterState.getMeterType(), &meterConfig, ctx);
+		// Rudimentary detector for L&G proprietary format
+		if(payload[0] == CosemTypeStructure && payload[2] == CosemTypeArray && payload[1] == payload[3]) {
+			data = LNG(payload, meterState.getMeterType(), &meterConfig, ctx, &Debug);
+		} else {
+			// TODO: Split IEC6205675 into DataParserKaifa and DataParserObis. This way we can add other means of parsing, for those other proprietary formats
+			data = IEC6205675(payload, meterState.getMeterType(), &meterConfig, ctx);
+		}
 	} else if(ctx.type == DATA_TAG_DSMR) {
-		data = IEC6205621(((char *) (hanBuffer)) + pos);
+		data = IEC6205621(payload);
 	}
 	len = 0;
 
@@ -1043,7 +1057,7 @@ void WiFi_connect() {
 			}	
 		#endif
 		WiFi.mode(WIFI_STA);
-		WiFi.setSleep(WIFI_PS_MIN_MODEM);
+		WiFi.setSleep(WIFI_PS_MAX_MODEM);
 		#if defined(ESP32)
 			if(wifi.power >= 195)
 				WiFi.setTxPower(WIFI_POWER_19_5dBm);
@@ -1113,16 +1127,16 @@ void WiFi_connect() {
 
 void mqttMessageReceived(String &topic, String &payload) {
     debugI("Received message for topic %s", topic.c_str() );
-	if(meterConfig.source == METER_SOURCE_MQTT) {
-		DataParserContext ctx = {payload.length()/2};
-		fromHex(hanBuffer, payload, ctx.length);
-		uint16_t pos = unwrapData(hanBuffer, ctx);
+	//if(meterConfig.source == METER_SOURCE_MQTT) {
+		//DataParserContext ctx = {static_cast<uint8_t>(payload.length()/2)};
+		//fromHex(hanBuffer, payload, ctx.length);
+		//uint16_t pos = unwrapData(hanBuffer, ctx);
 		// TODO: Run through DLMS/DMSR parser and apply AmsData
-	}
+	//}
 }
 
 int16_t unwrapData(uint8_t *buf, DataParserContext &context) {
-	int16_t ret;
+	int16_t ret = 0;
 	bool doRet = false;
 	uint16_t end = BUF_SIZE_HAN;
 	uint8_t tag = (*buf);
@@ -1243,7 +1257,6 @@ void MQTT_connect() {
 		if(Debug.isActive(RemoteDebug::WARNING)) debugW("No MQTT config");
 		mqttEnabled = false;
 		ws.setMqttEnabled(false);
-		config.ackMqttChange();
 		return;
 	}
 	if(mqtt != NULL) {
@@ -1258,20 +1271,19 @@ void MQTT_connect() {
 		}
 
 		mqtt->disconnect();
+		if(config.isMqttChanged()) {
+			if(mqttSecureClient != NULL) {
+				mqttSecureClient->stop();
+				delete mqttSecureClient;
+				mqttSecureClient = NULL;
+			} else {
+				mqttClient->stop();
+			}
+			mqttClient = NULL;
+		}
 		yield();
 	} else {
-		uint16_t size = 256;
-		switch(mqttConfig.payloadFormat) {
-			case 0: // JSON
-			case 4: // Home Assistant
-				size = 768;
-				break;
-			case 255: // Raw frame
-				size = 1024;
-				break;
-		}
-
-		mqtt = new MQTTClient(size);
+		mqtt = new MQTTClient(1024);
 		ws.setMqtt(mqtt);
 	}
 
@@ -1306,54 +1318,54 @@ void MQTT_connect() {
 		debugI("MQTT SSL is configured (%dkb free heap)", ESP.getFreeHeap());
 		if(mqttSecureClient == NULL) {
 			mqttSecureClient = new WiFiClientSecure();
-		}
-		#if defined(ESP8266)
-			mqttSecureClient->setBufferSizes(512, 512);
-		#endif
-	
-		if(LittleFS.begin()) {
-			File file;
+			#if defined(ESP8266)
+				mqttSecureClient->setBufferSizes(512, 512);
+			#endif
+		
+			if(LittleFS.begin()) {
+				File file;
 
-			if(LittleFS.exists(FILE_MQTT_CA)) {
-				debugI("Found MQTT CA file (%dkb free heap)", ESP.getFreeHeap());
-				file = LittleFS.open(FILE_MQTT_CA, "r");
-				#if defined(ESP8266)
-					BearSSL::X509List *serverTrustedCA = new BearSSL::X509List(file);
-                    mqttSecureClient->setTrustAnchors(serverTrustedCA);
-				#elif defined(ESP32)
-					mqttSecureClient->loadCACert(file, file.size());
-				#endif
-				file.close();
+				if(LittleFS.exists(FILE_MQTT_CA)) {
+					debugI("Found MQTT CA file (%dkb free heap)", ESP.getFreeHeap());
+					file = LittleFS.open(FILE_MQTT_CA, "r");
+					#if defined(ESP8266)
+						BearSSL::X509List *serverTrustedCA = new BearSSL::X509List(file);
+						mqttSecureClient->setTrustAnchors(serverTrustedCA);
+					#elif defined(ESP32)
+						mqttSecureClient->loadCACert(file, file.size());
+					#endif
+					file.close();
+				}
+
+				if(LittleFS.exists(FILE_MQTT_CERT) && LittleFS.exists(FILE_MQTT_KEY)) {
+					#if defined(ESP8266)
+						debugI("Found MQTT certificate file (%dkb free heap)", ESP.getFreeHeap());
+						file = LittleFS.open(FILE_MQTT_CERT, "r");
+						BearSSL::X509List *serverCertList = new BearSSL::X509List(file);
+						file.close();
+
+						debugI("Found MQTT key file (%dkb free heap)", ESP.getFreeHeap());
+						file = LittleFS.open(FILE_MQTT_KEY, "r");
+						BearSSL::PrivateKey *serverPrivKey = new BearSSL::PrivateKey(file);
+						file.close();
+
+						debugD("Setting client certificates (%dkb free heap)", ESP.getFreeHeap());
+						mqttSecureClient->setClientRSACert(serverCertList, serverPrivKey);
+					#elif defined(ESP32)
+						debugI("Found MQTT certificate file (%dkb free heap)", ESP.getFreeHeap());
+						file = LittleFS.open(FILE_MQTT_CERT, "r");
+						mqttSecureClient->loadCertificate(file, file.size());
+						file.close();
+
+						debugI("Found MQTT key file (%dkb free heap)", ESP.getFreeHeap());
+						file = LittleFS.open(FILE_MQTT_KEY, "r");
+						mqttSecureClient->loadPrivateKey(file, file.size());
+						file.close();
+					#endif
+				}
+				LittleFS.end();
+				debugD("MQTT SSL setup complete (%dkb free heap)", ESP.getFreeHeap());
 			}
-
-			if(LittleFS.exists(FILE_MQTT_CERT) && LittleFS.exists(FILE_MQTT_KEY)) {
-				#if defined(ESP8266)
-					debugI("Found MQTT certificate file (%dkb free heap)", ESP.getFreeHeap());
-					file = LittleFS.open(FILE_MQTT_CERT, "r");
-				 	BearSSL::X509List *serverCertList = new BearSSL::X509List(file);
-					file.close();
-
-					debugI("Found MQTT key file (%dkb free heap)", ESP.getFreeHeap());
-					file = LittleFS.open(FILE_MQTT_KEY, "r");
-  					BearSSL::PrivateKey *serverPrivKey = new BearSSL::PrivateKey(file);
-					file.close();
-
-					debugD("Setting client certificates (%dkb free heap)", ESP.getFreeHeap());
-					mqttSecureClient->setClientRSACert(serverCertList, serverPrivKey);
-				#elif defined(ESP32)
-					debugI("Found MQTT certificate file (%dkb free heap)", ESP.getFreeHeap());
-					file = LittleFS.open(FILE_MQTT_CERT, "r");
-					mqttSecureClient->loadCertificate(file, file.size());
-					file.close();
-
-					debugI("Found MQTT key file (%dkb free heap)", ESP.getFreeHeap());
-					file = LittleFS.open(FILE_MQTT_KEY, "r");
-					mqttSecureClient->loadPrivateKey(file, file.size());
-					file.close();
-				#endif
-			}
-			LittleFS.end();
-			debugD("MQTT SSL setup complete (%dkb free heap)", ESP.getFreeHeap());
 		}
 		mqttClient = mqttSecureClient;
 	} else if(mqttClient == NULL) {
@@ -1369,7 +1381,7 @@ void MQTT_connect() {
 	#if defined(ESP8266)
 		if(mqttSecureClient) {
 			time_t epoch = time(nullptr);
-			debugD("Setting NTP time %i for secure MQTT connection", epoch);
+			debugD("Setting NTP time %lld for secure MQTT connection", epoch);
 			mqttSecureClient->setX509Time(epoch);
 		}
 	#endif
@@ -1378,10 +1390,9 @@ void MQTT_connect() {
 	if ((strlen(mqttConfig.username) == 0 && mqtt->connect(mqttConfig.clientId)) ||
 		(strlen(mqttConfig.username) > 0 && mqtt->connect(mqttConfig.clientId, mqttConfig.username, mqttConfig.password))) {
 		if (Debug.isActive(RemoteDebug::INFO)) debugI("Successfully connected to MQTT!");
-		config.ackMqttChange();
 		
 		if(mqttHandler != NULL) {
-			mqttHandler->publishSystem(&hw);
+			mqttHandler->publishSystem(&hw, eapi, &ea);
 		}
 
 		// Subscribe to the chosen MQTT topic, if set in configuration

src/EnergyAccounting.cpp

@@ -57,7 +57,7 @@ bool EnergyAccounting::update(AmsData* amsData) {
             for(uint8_t i = 0; i < 5; i++) {
                 debugger->printf("(EnergyAccounting) Peak hour from day %d: %d\n", data.peaks[i].day, data.peaks[i].value*10);
             }
-            debugger->printf("(EnergyAccounting) Loaded cost yesterday: %d, this month: %d, last month: %d\n", data.costYesterday / 10.0, data.costThisMonth, data.costLastMonth);
+            debugger->printf("(EnergyAccounting) Loaded cost yesterday: %.2f, this month: %d, last month: %d\n", data.costYesterday / 10.0, data.costThisMonth, data.costLastMonth);
         }
         init = true;
     }
@@ -237,11 +237,12 @@ float EnergyAccounting::getMonthMax() {
     uint32_t maxHour = 0.0;
     bool included[5] = { false, false, false, false, false };
 
-    while(count < config->hours) {
+    while(count < config->hours && count <= 5) {
         uint8_t maxIdx = 0;
         uint16_t maxVal = 0;
         for(uint8_t i = 0; i < 5; i++) {
             if(included[i]) continue;
+            if(data.peaks[i].day == 0) continue;
             if(data.peaks[i].value > maxVal) {
                 maxVal = data.peaks[i].value;
                 maxIdx = i;
@@ -253,9 +254,7 @@ float EnergyAccounting::getMonthMax() {
 
     for(uint8_t i = 0; i < 5; i++) {
         if(!included[i]) continue;
-        if(data.peaks[i].day > 0) {
-            maxHour += data.peaks[i].value;
-        }
+        maxHour += data.peaks[i].value;
     }
     return maxHour > 0 ? maxHour / count / 100.0 : 0.0;
 }
@@ -266,7 +265,7 @@ float EnergyAccounting::getPeak(uint8_t num) {
     uint8_t count = 0;
     bool included[5] = { false, false, false, false, false };
 
-    while(count < config->hours) {
+    while(count < config->hours && count <= 5) {
         uint8_t maxIdx = 0;
         uint16_t maxVal = 0;
         for(uint8_t i = 0; i < 5; i++) {
@@ -341,7 +340,7 @@ bool EnergyAccounting::load() {
                     this->data.peaks[b].day = b;
                     memcpy(&this->data.peaks[b].value, buf+i, 2);
                     b++;
-                    if(b >= config->hours) break;
+                    if(b >= config->hours || b >= 5) break;
                 }
                 ret = true;
             } else if(buf[0] == 1) {

src/HwTools.cpp

@@ -373,8 +373,7 @@ bool HwTools::ledBlink(uint8_t color, uint8_t blink) {
         if(!ledOn(color)) return false;
         delay(50);
         ledOff(color);
-        if(i != blink)
-            delay(50);
+        delay(200);
     }
     return true;
 }

src/IEC6205675.cpp

@@ -296,6 +296,38 @@ IEC6205675::IEC6205675(const char* d, uint8_t useMeterType, MeterConfig* meterCo
             l3PowerFactor = val;
         }
 
+        val = getNumber(AMS_OBIS_ACTIVE_IMPORT_L1, sizeof(AMS_OBIS_ACTIVE_IMPORT_L1), ((char *) (d)));
+        if (val != NOVALUE) {
+            listType = 4;
+            l1activeImportPower = val;
+        }
+        val = getNumber(AMS_OBIS_ACTIVE_IMPORT_L2, sizeof(AMS_OBIS_ACTIVE_IMPORT_L2), ((char *) (d)));
+        if (val != NOVALUE) {
+            listType = 4;
+            l2activeImportPower = val;
+        }
+        val = getNumber(AMS_OBIS_ACTIVE_IMPORT_L3, sizeof(AMS_OBIS_ACTIVE_IMPORT_L3), ((char *) (d)));
+        if (val != NOVALUE) {
+            listType = 4;
+            l3activeImportPower = val;
+        }
+
+        val = getNumber(AMS_OBIS_ACTIVE_EXPORT_L1, sizeof(AMS_OBIS_ACTIVE_EXPORT_L1), ((char *) (d)));
+        if (val != NOVALUE) {
+            listType = 4;
+            l1activeExportPower = val;
+        }
+        val = getNumber(AMS_OBIS_ACTIVE_EXPORT_L2, sizeof(AMS_OBIS_ACTIVE_EXPORT_L2), ((char *) (d)));
+        if (val != NOVALUE) {
+            listType = 4;
+            l2activeExportPower = val;
+        }
+        val = getNumber(AMS_OBIS_ACTIVE_EXPORT_L3, sizeof(AMS_OBIS_ACTIVE_EXPORT_L3), ((char *) (d)));
+        if (val != NOVALUE) {
+            listType = 4;
+            l3activeExportPower = val;
+        }
+
         if(meterType == AmsTypeKamstrup) {
             if(listType >= 3) {
                 activeImportCounter *= 10;
@@ -336,12 +368,16 @@ IEC6205675::IEC6205675(const char* d, uint8_t useMeterType, MeterConfig* meterCo
             if(mid != NULL) {
                 switch(mid->base.type) {
                     case CosemTypeString:
-                        memcpy(&meterId, mid->str.data, mid->str.length);
+                        memcpy(str, mid->oct.data, mid->oct.length);
+                        str[mid->oct.length] = 0x00;
+                        meterId = String(str);
                         meterId[mid->str.length] = 0;
                         break;
                     case CosemTypeOctetString:
-                        memcpy(&meterId, mid->oct.data, mid->oct.length);
-                        meterId[mid->oct.length] = 0;
+                        memcpy(str, mid->str.data, mid->str.length);
+                        str[mid->str.length] = 0x00;
+                        meterId = String(str);
+                        meterId[mid->str.length] = 0;
                         break;
                 }
             }

src/IEC6205675.h

@@ -49,6 +49,12 @@ private:
     uint8_t AMS_OBIS_POWER_FACTOR_L1[4]         = { 33, 7, 0, 255 };
     uint8_t AMS_OBIS_POWER_FACTOR_L2[4]         = { 53, 7, 0, 255 };
     uint8_t AMS_OBIS_POWER_FACTOR_L3[4]         = { 73, 7, 0, 255 };
+    uint8_t AMS_OBIS_ACTIVE_IMPORT_L1[4]        = { 21, 7, 0, 255 };
+    uint8_t AMS_OBIS_ACTIVE_IMPORT_L2[4]        = { 41, 7, 0, 255 };
+    uint8_t AMS_OBIS_ACTIVE_IMPORT_L3[4]        = { 61, 7, 0, 255 };
+    uint8_t AMS_OBIS_ACTIVE_EXPORT_L1[4]        = { 22, 7, 0, 255 };
+    uint8_t AMS_OBIS_ACTIVE_EXPORT_L2[4]        = { 42, 7, 0, 255 };
+    uint8_t AMS_OBIS_ACTIVE_EXPORT_L3[4]        = { 62, 7, 0, 255 };
 
 };
 #endif

src/LNG.cpp

@@ -0,0 +1,111 @@
+#include "LNG.h"
+#include "lwip/def.h"
+#include "ams/Cosem.h"
+
+LNG::LNG(const char* payload, uint8_t useMeterType, MeterConfig* meterConfig, DataParserContext &ctx, RemoteDebug* debugger) {
+    LngHeader* h = (LngHeader*) payload;
+    if(h->tag == CosemTypeStructure && h->arrayTag == CosemTypeArray) {
+        meterType = AmsTypeLng;
+        this->packageTimestamp = ctx.timestamp;
+
+        uint8_t* ptr = (uint8_t*) &h[1];
+        uint8_t* data = ptr + (18*h->arrayLength); // Skip descriptors
+
+        uint16_t o170 = 0, o270 = 0;
+        uint16_t o181 = 0, o182 = 0;
+        uint16_t o281 = 0, o282 = 0;
+        LngObisDescriptor* descriptor = (LngObisDescriptor*) ptr;
+        for(uint8_t x = 0;  x < h->arrayLength-1; x++) {
+            ptr = (uint8_t*) &descriptor[1];
+            descriptor = (LngObisDescriptor*) ptr;
+            if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf("(L&G) OBIS %d.%d.%d with type 0x%02X", descriptor->obis[2], descriptor->obis[3], descriptor->obis[4], *data);
+
+            CosemData* item = (CosemData*) data;
+            if(descriptor->obis[2] == 1) {
+                if(descriptor->obis[3] == 7) {
+                    if(descriptor->obis[4] == 0) {
+                        o170 = ntohl(item->dlu.data);
+                        if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf(" and value %lu (dlu)", ntohl(item->dlu.data));
+                    }
+                } else if(descriptor->obis[3] == 8) {
+                    if(descriptor->obis[4] == 0) {
+                        activeImportCounter = ntohl(item->dlu.data) / 1000.0;
+                        listType = listType >= 3 ? listType : 3;
+                        if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf(" and value %lu (dlu)", ntohl(item->dlu.data));
+                    } else if(descriptor->obis[4] == 1) {
+                        o181 = ntohl(item->dlu.data);
+                        if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf(" and value %lu (dlu)", ntohl(item->dlu.data));
+                    } else if(descriptor->obis[4] == 2) {
+                        o182 = ntohl(item->dlu.data);
+                        if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf(" and value %lu (dlu)", ntohl(item->dlu.data));
+                    }
+                } 
+            } else if(descriptor->obis[2] == 2) {
+                if(descriptor->obis[3] == 7) {
+                    if(descriptor->obis[4] == 0) {
+                        o270 = ntohl(item->dlu.data);
+                        if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf(" and value %lu (dlu)", ntohl(item->dlu.data));
+                    }
+                } else if(descriptor->obis[3] == 8) {
+                    if(descriptor->obis[4] == 0) {
+                        activeExportCounter = ntohl(item->dlu.data) / 1000.0;
+                        listType = listType >= 3 ? listType : 3;
+                        if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf(" and value %lu (dlu)", ntohl(item->dlu.data));
+                    } else if(descriptor->obis[4] == 1) {
+                        o281 = ntohl(item->dlu.data);
+                        if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf(" and value %lu (dlu)", ntohl(item->dlu.data));
+                    } else if(descriptor->obis[4] == 2) {
+                        o282 = ntohl(item->dlu.data);
+                        if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf(" and value %lu (dlu)", ntohl(item->dlu.data));
+                    }
+                } 
+            } else if(descriptor->obis[2] == 96) {
+                if(descriptor->obis[3] == 1) {
+                    if(descriptor->obis[4] == 0) {
+                        char str[item->oct.length+1];
+                        memcpy(str, item->oct.data, item->oct.length);
+                        str[item->oct.length] = '\0';
+                        meterId = String(str);
+                        if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf(" and value %s (oct)", str);
+                    } else if(descriptor->obis[4] == 1) {
+                        char str[item->oct.length+1];
+                        memcpy(str, item->oct.data, item->oct.length);
+                        str[item->oct.length] = '\0';
+                        meterModel = String(str);
+                        if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf(" and value %s (oct)", str);
+                    }
+                }
+            }
+
+            if(debugger->isActive(RemoteDebug::VERBOSE)) debugger->printf("\n");
+
+            if(o170 > 0 || o270 > 0) {
+                int32_t sum = o170-o270;
+                if(sum > 0) {
+                    listType = listType >= 1 ? listType : 1;
+                    activeImportPower = sum;
+                } else {
+                    listType = listType >= 2 ? listType : 2;
+                    activeExportPower = sum * -1;
+                }
+            }
+
+            if(o181 > 0 || o182 > 0) {
+                activeImportCounter = (o181 + o182) / 1000.0;
+                listType = listType >= 3 ? listType : 3;
+            }
+            if(o281 > 0 || o282 > 0) {
+                activeExportCounter = (o281 + o282) / 1000.0;
+                listType = listType >= 3 ? listType : 3;
+            }
+
+            if((*data) == 0x09) {
+                data += (*(data+1))+2;
+            } else {
+                data += 5;
+            }
+
+            lastUpdateMillis = millis();
+        }
+    }
+}

src/LNG.h

@@ -0,0 +1,30 @@
+#ifndef _LNG_H
+#define _LNG_H
+
+#include "AmsData.h"
+#include "AmsConfiguration.h"
+#include "ams/DataParser.h"
+#include "RemoteDebug.h"
+
+struct LngHeader {
+    uint8_t tag;
+    uint8_t values;
+    uint8_t arrayTag;
+    uint8_t arrayLength;
+} __attribute__((packed));
+
+struct LngObisDescriptor {
+    uint8_t ignore1[5];
+    uint8_t octetTag;
+    uint8_t octetLength;
+    uint8_t obis[6];
+    uint8_t ignore2[5];
+} __attribute__((packed));
+
+
+class LNG : public AmsData {
+public:
+    LNG(const char* payload, uint8_t useMeterType, MeterConfig* meterConfig, DataParserContext &ctx, RemoteDebug* debugger);
+};
+
+#endif

src/Uptime.cpp

@@ -1,5 +1,8 @@
 #include "Uptime.h"
 
+uint32_t _uptime_last_value = 0;
+uint32_t _uptime_rollovers = 0;
+
 uint64_t millis64() {
     uint32_t new_low32 = millis();
     if (new_low32 < _uptime_last_value) _uptime_rollovers++;

src/Uptime.h

@@ -3,8 +3,6 @@
 
 #include "Arduino.h"
 
-static uint32_t _uptime_last_value = 0;
-static uint32_t _uptime_rollovers = 0;
 uint64_t millis64();
 
 #endif

src/ams/DsmrParser.cpp

@@ -4,7 +4,6 @@ int8_t DSMRParser::parse(uint8_t *buf, DataParserContext &ctx, bool verified) {
     uint16_t crcPos = 0;
     bool reachedEnd = verified;
     uint8_t lastByte = 0x00;
-    int c = 0;
     for(int pos = 0; pos < ctx.length; pos++) {
         uint8_t b = *(buf+pos);
         if(pos == 0 && b != '/') return DATA_PARSE_BOUNDRY_FLAG_MISSING;

src/ams/GcmParser.cpp

@@ -27,7 +27,7 @@ int8_t GCMParser::parse(uint8_t *d, DataParserContext &ctx) {
     memcpy(ctx.system_title, ptr, systemTitleLength);
     memcpy(initialization_vector, ctx.system_title, systemTitleLength);
 
-    int len;
+    int len = 0;
     int headersize = 2 + systemTitleLength;
     ptr += systemTitleLength;
     if(((*ptr) & 0xFF) == 0x81) {

src/ams/HdlcParser.cpp

@@ -5,8 +5,6 @@
 int8_t HDLCParser::parse(uint8_t *d, DataParserContext &ctx) {
     int len;
 
-    uint8_t flag = *d;
-
     uint8_t* ptr;
     if(ctx.length < 3)
         return DATA_PARSE_INCOMPLETE;

src/ams/LlcParser.cpp

@@ -1,7 +1,6 @@
 #include "LlcParser.h"
 
 int8_t LLCParser::parse(uint8_t *buf, DataParserContext &ctx) {
-    LLCHeader* llc = (LLCHeader*) buf;
     ctx.length -= 3;
     return 3;
 }

src/ams/MbusParser.cpp

@@ -5,8 +5,6 @@ int8_t MBUSParser::parse(uint8_t *d, DataParserContext &ctx) {
     int headersize = 3;
     int footersize = 1;
 
-    uint8_t flag = *d;
-
     uint8_t* ptr;
 
     // https://m-bus.com/documentation-wired/06-application-layer

src/entsoe/DnbCurrParser.cpp

@@ -22,7 +22,7 @@ void DnbCurrParser::flush() {
 }
 
 size_t DnbCurrParser::write(const uint8_t *buffer, size_t size) {
-    for(int i = 0; i < size; i++) {
+    for(size_t i = 0; i < size; i++) {
         write(buffer[i]);
     }
     return size;

src/entsoe/EntsoeA44Parser.cpp

@@ -5,6 +5,10 @@ EntsoeA44Parser::EntsoeA44Parser() {
     for(int i = 0; i < 24; i++) points[i] = ENTSOE_NO_VALUE;
 }
 
+EntsoeA44Parser::~EntsoeA44Parser() {
+
+}
+
 char* EntsoeA44Parser::getCurrency() {
     return currency;
 }
@@ -35,7 +39,7 @@ void EntsoeA44Parser::flush() {
 }
 
 size_t EntsoeA44Parser::write(const uint8_t *buffer, size_t size) {
-    for(int i = 0; i < size; i++) {
+    for(size_t i = 0; i < size; i++) {
         write(buffer[i]);
     }
     return size;

src/entsoe/EntsoeA44Parser.h

@@ -14,6 +14,7 @@
 class EntsoeA44Parser: public Stream {
 public:
     EntsoeA44Parser();
+    virtual ~EntsoeA44Parser();
 
     char* getCurrency();
     char* getMeasurementUnit();

src/entsoe/EntsoeApi.cpp

@@ -106,11 +106,11 @@ bool EntsoeApi::loop() {
     if(midnightMillis == 0) {
         uint32_t curDayMillis = (((((tm.Hour * 60) + tm.Minute) * 60) + tm.Second) * 1000);
         midnightMillis = now + (SECS_PER_DAY * 1000) - curDayMillis;
-        if(debugger->isActive(RemoteDebug::INFO)) debugger->printf("(EntsoeApi) Setting midnight millis %lu\n", midnightMillis);
+        if(debugger->isActive(RemoteDebug::INFO)) debugger->printf("(EntsoeApi) Setting midnight millis %llu\n", midnightMillis);
         currentDay = tm.Day;
         return false;
     } else if(now > midnightMillis && currentDay != tm.Day) {
-        if(debugger->isActive(RemoteDebug::INFO)) debugger->printf("(EntsoeApi) Rotating price objects at %lu\n", t);
+        if(debugger->isActive(RemoteDebug::INFO)) debugger->printf("(EntsoeApi) Rotating price objects at %lld\n", t);
         if(today != NULL) delete today;
         if(tomorrow != NULL) {
             today = tomorrow;

src/mqtt/AmsMqttHandler.h

@@ -15,11 +15,12 @@ public:
         this->mqtt = mqtt;
         this->json = buf;
     };
+    virtual ~AmsMqttHandler() {};
 
     virtual bool publish(AmsData* data, AmsData* previousState, EnergyAccounting* ea);
     virtual bool publishTemperatures(AmsConfiguration*, HwTools*);
     virtual bool publishPrices(EntsoeApi* eapi);
-    virtual bool publishSystem(HwTools*);
+    virtual bool publishSystem(HwTools*, EntsoeApi*, EnergyAccounting*);
 
 protected:
     MQTTClient* mqtt;

src/mqtt/DomoticzMqttHandler.cpp

@@ -71,6 +71,6 @@ bool DomoticzMqttHandler::publishPrices(EntsoeApi* eapi) {
     return false;
 }
 
-bool DomoticzMqttHandler::publishSystem(HwTools* hw) {
+bool DomoticzMqttHandler::publishSystem(HwTools* hw, EntsoeApi* eapi, EnergyAccounting* ea) {
     return false;
 }

src/mqtt/DomoticzMqttHandler.h

@@ -12,7 +12,7 @@ public:
     bool publish(AmsData* data, AmsData* previousState, EnergyAccounting* ea);
     bool publishTemperatures(AmsConfiguration*, HwTools*);
     bool publishPrices(EntsoeApi*);
-    bool publishSystem(HwTools*);
+    bool publishSystem(HwTools* hw, EntsoeApi* eapi, EnergyAccounting* ea);
 
 private:
     DomoticzConfig config;

src/mqtt/HomeAssistantMqttHandler.cpp

@@ -6,9 +6,11 @@
 #include "web/root/ha1_json.h"
 #include "web/root/ha2_json.h"
 #include "web/root/ha3_json.h"
+#include "web/root/ha4_json.h"
 #include "web/root/jsonsys_json.h"
 #include "web/root/jsonprices_json.h"
 #include "web/root/hadiscover_json.h"
+#include "web/root/realtime_json.h"
 
 bool HomeAssistantMqttHandler::publish(AmsData* data, AmsData* previousState, EnergyAccounting* ea) {
 	if(topic.isEmpty() || !mqtt->connected())
@@ -32,8 +34,8 @@ bool HomeAssistantMqttHandler::publish(AmsData* data, AmsData* previousState, En
         snprintf_P(json, BufferSize, HA1_JSON,
             data->getActiveImportPower()
         );
-        return mqtt->publish(topic + "/power", json);
-    } else if(data->getListType() >= 2) { // publish power counts and volts/amps
+        mqtt->publish(topic + "/power", json);
+    } else if(data->getListType() <= 3) { // publish power counts and volts/amps
         snprintf_P(json, BufferSize, HA3_JSON,
             data->getListId().c_str(),
             data->getMeterId().c_str(),
@@ -47,15 +49,62 @@ bool HomeAssistantMqttHandler::publish(AmsData* data, AmsData* previousState, En
             data->getL3Current(),
             data->getL1Voltage(),
             data->getL2Voltage(),
+            data->getL3Voltage()
+        );
+        mqtt->publish(topic + "/power", json);
+    } else if(data->getListType() == 4) { // publish power counts and volts/amps/phase power and PF
+        snprintf_P(json, BufferSize, HA4_JSON,
+            data->getListId().c_str(),
+            data->getMeterId().c_str(),
+            meterModel.c_str(),
+            data->getActiveImportPower(),
+            data->getL1ActiveImportPower(),
+            data->getL2ActiveImportPower(),
+            data->getL3ActiveImportPower(),
+            data->getReactiveImportPower(),
+            data->getActiveExportPower(),
+            data->getL1ActiveExportPower(),
+            data->getL2ActiveExportPower(),
+            data->getL3ActiveExportPower(),
+            data->getReactiveExportPower(),
+            data->getL1Current(),
+            data->getL2Current(),
+            data->getL3Current(),
+            data->getL1Voltage(),
+            data->getL2Voltage(),
             data->getL3Voltage(),
             data->getPowerFactor() == 0 ? 1 : data->getPowerFactor(),
             data->getPowerFactor() == 0 ? 1 : data->getL1PowerFactor(),
             data->getPowerFactor() == 0 ? 1 : data->getL2PowerFactor(),
             data->getPowerFactor() == 0 ? 1 : data->getL3PowerFactor()
         );
-        return mqtt->publish(topic + "/power", json);
+        mqtt->publish(topic + "/power", json);
     }
-    return false;
+
+	String peaks = "";
+    uint8_t peakCount = ea->getConfig()->hours;
+    if(peakCount > 5) peakCount = 5;
+	for(uint8_t i = 1; i <= peakCount; i++) {
+		if(!peaks.isEmpty()) peaks += ",";
+		peaks += String(ea->getPeak(i), 2);
+	}
+    snprintf_P(json, BufferSize, REALTIME_JSON,
+		ea->getMonthMax(),
+		peaks.c_str(),
+		ea->getCurrentThreshold(),
+		ea->getUseThisHour(),
+		ea->getCostThisHour(),
+		ea->getProducedThisHour(),
+		ea->getUseToday(),
+		ea->getCostToday(),
+		ea->getProducedToday(),
+		ea->getUseThisMonth(),
+		ea->getCostThisMonth(),
+		ea->getProducedThisMonth()
+    );
+    mqtt->publish(topic + "/realtime", json);
+
+    return true;
 }
 
 bool HomeAssistantMqttHandler::publishTemperatures(AmsConfiguration* config, HwTools* hw) {
@@ -92,7 +141,7 @@ bool HomeAssistantMqttHandler::publishPrices(EntsoeApi* eapi) {
 
 	time_t now = time(nullptr);
 
-	float min1hr, min3hr, min6hr;
+	float min1hr = 0.0, min3hr = 0.0, min6hr = 0.0;
 	int8_t min1hrIdx = -1, min3hrIdx = -1, min6hrIdx = -1;
 	float min = INT16_MAX, max = INT16_MIN;
 	float values[24];
@@ -142,7 +191,7 @@ bool HomeAssistantMqttHandler::publishPrices(EntsoeApi* eapi) {
 
 	}
 
-	char ts1hr[21];
+	char ts1hr[24];
 	if(min1hrIdx > -1) {
         time_t ts = now + (SECS_PER_HOUR * min1hrIdx);
         //Serial.printf("1hr: %d %lu\n", min1hrIdx, ts);
@@ -150,7 +199,7 @@ bool HomeAssistantMqttHandler::publishPrices(EntsoeApi* eapi) {
         breakTime(ts, tm);
 		sprintf(ts1hr, "%04d-%02d-%02dT%02d:00:00Z", tm.Year+1970, tm.Month, tm.Day, tm.Hour);
 	}
-	char ts3hr[21];
+	char ts3hr[24];
 	if(min3hrIdx > -1) {
         time_t ts = now + (SECS_PER_HOUR * min3hrIdx);
         //Serial.printf("3hr: %d %lu\n", min3hrIdx, ts);
@@ -158,7 +207,7 @@ bool HomeAssistantMqttHandler::publishPrices(EntsoeApi* eapi) {
         breakTime(ts, tm);
 		sprintf(ts3hr, "%04d-%02d-%02dT%02d:00:00Z", tm.Year+1970, tm.Month, tm.Day, tm.Hour);
 	}
-	char ts6hr[21];
+	char ts6hr[24];
 	if(min6hrIdx > -1) {
         time_t ts = now + (SECS_PER_HOUR * min6hrIdx);
         //Serial.printf("6hr: %d %lu\n", min6hrIdx, ts);
@@ -187,10 +236,10 @@ bool HomeAssistantMqttHandler::publishPrices(EntsoeApi* eapi) {
         ts3hr,
         ts6hr
     );
-    return mqtt->publish(topic + "/prices", json);
+    return mqtt->publish(topic + "/prices", json, true, 0);
 }
 
-bool HomeAssistantMqttHandler::publishSystem(HwTools* hw) {
+bool HomeAssistantMqttHandler::publishSystem(HwTools* hw, EntsoeApi* eapi, EnergyAccounting* ea) {
 	if(topic.isEmpty() || !mqtt->connected()){
         sequence = 0;
 		return false;
@@ -217,27 +266,46 @@ bool HomeAssistantMqttHandler::publishSystem(HwTools* hw) {
         #endif
         String haUrl = "http://" + haUID + ".local/";
         // Could this be necessary? haUID.replace("-", "_");
+        uint8_t peakCount = ea->getConfig()->hours;
+        if(peakCount > 5) peakCount = 5;
 
-        for(int i=0;i<sensors;i++){
+        uint8_t peaks = 0;
+        for(int i=0;i<HA_SENSOR_COUNT;i++) {
+            HomeAssistantSensor sensor = HA_SENSORS[i];
+            String uid = String(sensor.path);
+            uid.replace(".", "");
+            uid.replace("[", "");
+            uid.replace("]", "");
+            uid.replace("'", "");
+            String uom = String(sensor.uom);
+            if(strncmp(sensor.devcl, "monetary", 8) == 0) {
+                if(eapi == NULL) continue;
+                uom = String(eapi->getCurrency());
+            }
+            if(strncmp(sensor.path, "peaks[", 6) == 0) {
+                if(peaks >= peakCount) continue;
+                peaks++;
+            }
             snprintf_P(json, BufferSize, HADISCOVER_JSON,
-                FPSTR(HA_NAMES[i]),
-                topic.c_str(), FPSTR(HA_TOPICS[i]),
-                haUID.c_str(), FPSTR(HA_PARAMS[i]),
-                haUID.c_str(), FPSTR(HA_PARAMS[i]),
-                FPSTR(HA_UOM[i]),
-                FPSTR(HA_PARAMS[i]),
-                FPSTR(HA_DEVCL[i]),
+                sensor.name,
+                topic.c_str(), sensor.topic,
+                haUID.c_str(), uid.c_str(),
+                haUID.c_str(), uid.c_str(),
+                uom.c_str(),
+                sensor.path,
+                sensor.devcl,
                 haUID.c_str(),
                 haName.c_str(),
                 haModel.c_str(),
                 VERSION,
                 haManuf.c_str(),
                 haUrl.c_str(),
-                strlen_P(HA_STACL[i]) > 0 ? ", \"stat_cla\" :" : "",
-                strlen_P(HA_STACL[i]) > 0 ? (char *) FPSTR(HA_STACL[i]) : ""
+                strlen_P(sensor.stacl) > 0 ? ", \"stat_cla\" :" : "",
+                strlen_P(sensor.stacl) > 0 ? (char *) FPSTR(sensor.stacl) : ""
             );
-            mqtt->publish(haTopic + haUID + "_" + FPSTR(HA_PARAMS[i]) + "/config", json, true, 0);
+            mqtt->publish(haTopic + haUID + "_" + uid.c_str() + "/config", json, true, 0);
         }
+
         autodiscoverInit = true;
     }
     if(listType>0) sequence++;

src/mqtt/HomeAssistantMqttHandler.h

@@ -13,11 +13,9 @@ public:
     bool publish(AmsData* data, AmsData* previousState, EnergyAccounting* ea);
     bool publishTemperatures(AmsConfiguration*, HwTools*);
     bool publishPrices(EntsoeApi*);
-    bool publishSystem(HwTools*);
+    bool publishSystem(HwTools* hw, EntsoeApi* eapi, EnergyAccounting* ea);
 
 private:
-    static const uint8_t sensors = 17;
-
     String haTopic = "homeassistant/sensor/";
 
     String haName = "AMS reader";

src/mqtt/HomeAssistantStatic.h

@@ -3,12 +3,79 @@
 
 #include "Arduino.h"
 
-const char* HA_TOPICS[17] PROGMEM = {"/state", "/state", "/state", "/power", "/power", "/power", "/power", "/power", "/power", "/power", "/power", "/power", "/power", "/energy", "/energy", "/energy", "/energy"};
-const char* HA_NAMES[17] PROGMEM = {"Status", "Supply volt", "Temperature", "Active import", "Reactive import", "Active export", "Reactive export", "L1 current", "L2 current", "L3 current",
-                            "L1 voltage", "L2 voltage", "L3 voltage", "Accumulated active import", "Accumulated active export", "Accumulated reactive import", "Accumulated reactive export"};
-const char* HA_PARAMS[17] PROGMEM = {"rssi", "vcc", "temp", "P", "Q", "PO", "QO", "I1", "I2", "I3", "U1", "U2", "U3", "tPI", "tPO", "tQI", "tQO"};
-const char* HA_UOM[17] PROGMEM = {"dBm", "V", "C", "W", "W", "W", "W", "A", "A", "A", "V", "V", "V", "kWh", "kWh", "kWh", "kWh"};
-const char* HA_DEVCL[17] PROGMEM = {"signal_strength", "voltage", "temperature", "power", "power", "power", "power", "current", "current", "current", "voltage", "voltage", "voltage", "energy", "energy", "energy", "energy"};
-const char* HA_STACL[17] PROGMEM = {"", "", "", "\"measurement\"", "\"measurement\"", "\"measurement\"", "\"measurement\"", "", "", "", "", "", "", "\"total_increasing\"", "\"total_increasing\"", "\"total_increasing\"", "\"total_increasing\""};
+struct HomeAssistantSensor {
+    const char* name;
+    const char* topic;
+    const char* path;
+    const char* uom;
+    const char* devcl;
+    const char* stacl;
+};
+
+
+const uint8_t HA_SENSOR_COUNT PROGMEM = 60;
+HomeAssistantSensor HA_SENSORS[HA_SENSOR_COUNT] PROGMEM = {
+    {"Status",                     "/state",   "rssi",              "dBm",  "signal_strength", "\"measurement\""},
+    {"Supply volt",                "/state",   "vcc",               "V",    "voltage",         "\"measurement\""},
+    {"Temperature",                "/state",   "temp",              "C",    "temperature",     "\"measurement\""},
+    {"Active import",              "/power",   "P",                 "W",    "power",           "\"measurement\""},
+    {"L1 active import",           "/power",   "P1",                "W",    "power",           "\"measurement\""},
+    {"L2 active import",           "/power",   "P2",                "W",    "power",           "\"measurement\""},
+    {"L3 active import",           "/power",   "P3",                "W",    "power",           "\"measurement\""},
+    {"Reactive import",            "/power",   "Q",                 "VAr",  "reactive_power",  "\"measurement\""},
+    {"Active export",              "/power",   "PO",                "W",    "power",           "\"measurement\""},
+    {"L1 active export",           "/power",   "PO1",               "W",    "power",           "\"measurement\""},
+    {"L2 active export",           "/power",   "PO2",               "W",    "power",           "\"measurement\""},
+    {"L3 active export",           "/power",   "PO3",               "W",    "power",           "\"measurement\""},
+    {"Reactive export",            "/power",   "QO",                "VAr",  "reactive_power",  "\"measurement\""},
+    {"L1 current",                 "/power",   "I1",                "A",    "current",         "\"measurement\""},
+    {"L2 current",                 "/power",   "I2",                "A",    "current",         "\"measurement\""},
+    {"L3 current",                 "/power",   "I3",                "A",    "current",         "\"measurement\""},
+    {"L1 voltage",                 "/power",   "U1",                "V",    "voltage",         "\"measurement\""},
+    {"L2 voltage",                 "/power",   "U2",                "V",    "voltage",         "\"measurement\""},
+    {"L3 voltage",                 "/power",   "U3",                "V",    "voltage",         "\"measurement\""},
+    {"Accumulated active import",  "/energy",  "tPI",               "kWh",  "energy",          "\"total_increasing\""},
+    {"Accumulated active export",  "/energy",  "tPO",               "kWh",  "energy",          "\"total_increasing\""},
+    {"Accumulated reactive import","/energy",  "tQI",               "kVArh","energy",          "\"total_increasing\""},
+    {"Accumulated reactive export","/energy",  "tQO",               "kVArh","energy",          "\"total_increasing\""},
+    {"Power factor",               "/power",   "PF",                "",     "power_factor",    "\"measurement\""},
+    {"L1 power factor",            "/power",   "PF1",               "",     "power_factor",    "\"measurement\""},
+    {"L2 power factor",            "/power",   "PF2",               "",     "power_factor",    "\"measurement\""},
+    {"L3 power factor",            "/power",   "PF3",               "",     "power_factor",    "\"measurement\""},
+    {"Price current hour",         "/prices",  "prices['0']",       "",     "monetary",        ""},
+    {"Price next hour",            "/prices",  "prices['1']",       "",     "monetary",        ""},
+    {"Price in two hour",          "/prices",  "prices['2']",       "",     "monetary",        ""},
+    {"Price in three hour",        "/prices",  "prices['3']",       "",     "monetary",        ""},
+    {"Price in four hour",         "/prices",  "prices['4']",       "",     "monetary",        ""},
+    {"Price in five hour",         "/prices",  "prices['5']",       "",     "monetary",        ""},
+    {"Price in six hour",          "/prices",  "prices['6']",       "",     "monetary",        ""},
+    {"Price in seven hour",        "/prices",  "prices['7']",       "",     "monetary",        ""},
+    {"Price in eight hour",        "/prices",  "prices['8']",       "",     "monetary",        ""},
+    {"Price in nine hour",         "/prices",  "prices['9']",       "",     "monetary",        ""},
+    {"Price in ten hour",          "/prices",  "prices['10']",      "",     "monetary",        ""},
+    {"Price in eleven hour",       "/prices",  "prices['11']",      "",     "monetary",        ""},
+    {"Minimum price ahead",        "/prices",  "prices.min",        "",     "monetary",        ""},
+    {"Maximum price ahead",        "/prices",  "prices.max",        "",     "monetary",        ""},
+    {"Cheapest 1hr period ahead",  "/prices",  "prices.cheapest1hr","",     "timestamp",       ""},
+    {"Cheapest 3hr period ahead",  "/prices",  "prices.cheapest3hr","",     "timestamp",       ""},
+    {"Cheapest 6hr period ahead",  "/prices",  "prices.cheapest6hr","",     "timestamp",       ""},
+    {"Month max",                  "/realtime","max",               "kWh",  "energy",          "\"total_increasing\""},
+    {"Tariff threshold",           "/realtime","threshold",         "kWh",  "energy",          "\"total_increasing\""},
+    {"Current hour used",          "/realtime","hour.use",          "kWh",  "energy",          "\"total_increasing\""},
+    {"Current hour cost",          "/realtime","hour.cost",         "",     "monetary",        "\"total_increasing\""},
+    {"Current hour produced",      "/realtime","hour.produced",     "kWh",  "energy",          "\"total_increasing\""},
+    {"Current day used",           "/realtime","day.use",           "kWh",  "energy",          "\"total_increasing\""},
+    {"Current day cost",           "/realtime","day.cost",          "",     "monetary",        "\"total_increasing\""},
+    {"Current day produced",       "/realtime","day.produced",      "kWh",  "energy",          "\"total_increasing\""},
+    {"Current month used",         "/realtime","month.use",         "kWh",  "energy",          "\"total_increasing\""},
+    {"Current month cost",         "/realtime","month.cost",        "",     "monetary",        "\"total_increasing\""},
+    {"Current month produced",     "/realtime","month.produced",    "kWh",  "energy",          "\"total_increasing\""},
+    {"Current month peak 1",       "/realtime","peaks[0]",          "kWh",  "energy",          ""},
+    {"Current month peak 2",       "/realtime","peaks[1]",          "kWh",  "energy",          ""},
+    {"Current month peak 3",       "/realtime","peaks[2]",          "kWh",  "energy",          ""},
+    {"Current month peak 4",       "/realtime","peaks[3]",          "kWh",  "energy",          ""},
+    {"Current month peak 5",       "/realtime","peaks[4]",          "kWh",  "energy",          ""},
+};
+
 
 #endif

src/mqtt/JsonMqttHandler.cpp

@@ -111,8 +111,14 @@ bool JsonMqttHandler::publish(AmsData* data, AmsData* previousState, EnergyAccou
             data->getMeterId().c_str(),
             meterModel.c_str(),
             data->getActiveImportPower(),
+            data->getL1ActiveImportPower(),
+            data->getL2ActiveImportPower(),
+            data->getL3ActiveImportPower(),
             data->getReactiveImportPower(),
             data->getActiveExportPower(),
+            data->getL1ActiveExportPower(),
+            data->getL2ActiveExportPower(),
+            data->getL3ActiveExportPower(),
             data->getReactiveExportPower(),
             data->getL1Current(),
             data->getL2Current(),
@@ -143,8 +149,9 @@ bool JsonMqttHandler::publish(AmsData* data, AmsData* previousState, EnergyAccou
 
 bool JsonMqttHandler::publishTemperatures(AmsConfiguration* config, HwTools* hw) {
 	int count = hw->getTempSensorCount();
-    if(count < 2)
+    if(count < 2) {
         return false;
+    }
 
 	snprintf(json, 24, "{\"temperatures\":{");
 
@@ -173,7 +180,7 @@ bool JsonMqttHandler::publishPrices(EntsoeApi* eapi) {
 
 	time_t now = time(nullptr);
 
-	float min1hr, min3hr, min6hr;
+	float min1hr = 0.0, min3hr = 0.0, min6hr = 0.0;
 	int8_t min1hrIdx = -1, min3hrIdx = -1, min6hrIdx = -1;
 	float min = INT16_MAX, max = INT16_MIN;
 	float values[24];
@@ -223,7 +230,7 @@ bool JsonMqttHandler::publishPrices(EntsoeApi* eapi) {
 
 	}
 
-	char ts1hr[21];
+	char ts1hr[24];
 	if(min1hrIdx > -1) {
         time_t ts = now + (SECS_PER_HOUR * min1hrIdx);
         //Serial.printf("1hr: %d %lu\n", min1hrIdx, ts);
@@ -231,7 +238,7 @@ bool JsonMqttHandler::publishPrices(EntsoeApi* eapi) {
         breakTime(ts, tm);
 		sprintf(ts1hr, "%04d-%02d-%02dT%02d:00:00Z", tm.Year+1970, tm.Month, tm.Day, tm.Hour);
 	}
-	char ts3hr[21];
+	char ts3hr[24];
 	if(min3hrIdx > -1) {
         time_t ts = now + (SECS_PER_HOUR * min3hrIdx);
         //Serial.printf("3hr: %d %lu\n", min3hrIdx, ts);
@@ -239,7 +246,7 @@ bool JsonMqttHandler::publishPrices(EntsoeApi* eapi) {
         breakTime(ts, tm);
 		sprintf(ts3hr, "%04d-%02d-%02dT%02d:00:00Z", tm.Year+1970, tm.Month, tm.Day, tm.Hour);
 	}
-	char ts6hr[21];
+	char ts6hr[24];
 	if(min6hrIdx > -1) {
         time_t ts = now + (SECS_PER_HOUR * min6hrIdx);
         //Serial.printf("6hr: %d %lu\n", min6hrIdx, ts);
@@ -271,7 +278,7 @@ bool JsonMqttHandler::publishPrices(EntsoeApi* eapi) {
     return mqtt->publish(topic, json);
 }
 
-bool JsonMqttHandler::publishSystem(HwTools* hw) {
+bool JsonMqttHandler::publishSystem(HwTools* hw, EntsoeApi* eapi, EnergyAccounting* ea) {
 	if(init || topic.isEmpty() || !mqtt->connected())
 		return false;
 

src/mqtt/JsonMqttHandler.h

@@ -13,7 +13,7 @@ public:
     bool publish(AmsData* data, AmsData* previousState, EnergyAccounting* ea);
     bool publishTemperatures(AmsConfiguration*, HwTools*);
     bool publishPrices(EntsoeApi*);
-    bool publishSystem(HwTools*);
+    bool publishSystem(HwTools* hw, EntsoeApi* eapi, EnergyAccounting* ea);
 
 private:
     String clientId;

src/mqtt/RawMqttHandler.cpp

@@ -11,6 +11,24 @@ bool RawMqttHandler::publish(AmsData* data, AmsData* meterState, EnergyAccountin
     }
     switch(data->getListType()) {
         case 4:
+            if(full || meterState->getL1ActiveImportPower() != data->getL1ActiveImportPower()) {
+                mqtt->publish(topic + "/meter/import/l1", String(data->getL1ActiveImportPower(), 2));
+            }
+            if(full || meterState->getL2ActiveImportPower() != data->getL2ActiveImportPower()) {
+                mqtt->publish(topic + "/meter/import/l2", String(data->getL2ActiveImportPower(), 2));
+            }
+            if(full || meterState->getL3ActiveImportPower() != data->getL3ActiveImportPower()) {
+                mqtt->publish(topic + "/meter/import/l3", String(data->getL3ActiveImportPower(), 2));
+            }
+            if(full || meterState->getL1ActiveExportPower() != data->getL1ActiveExportPower()) {
+                mqtt->publish(topic + "/meter/export/l1", String(data->getL1ActiveExportPower(), 2));
+            }
+            if(full || meterState->getL2ActiveExportPower() != data->getL2ActiveExportPower()) {
+                mqtt->publish(topic + "/meter/export/l2", String(data->getL2ActiveExportPower(), 2));
+            }
+            if(full || meterState->getL3ActiveExportPower() != data->getL3ActiveExportPower()) {
+                mqtt->publish(topic + "/meter/export/l3", String(data->getL3ActiveExportPower(), 2));
+            }
             if(full || meterState->getPowerFactor() != data->getPowerFactor()) {
                 mqtt->publish(topic + "/meter/powerfactor", String(data->getPowerFactor(), 2));
             }
@@ -106,7 +124,7 @@ bool RawMqttHandler::publishPrices(EntsoeApi* eapi) {
 
 	time_t now = time(nullptr);
 
-	float min1hr, min3hr, min6hr;
+	float min1hr = 0.0, min3hr = 0.0, min6hr = 0.0;
 	int8_t min1hrIdx = -1, min3hrIdx = -1, min6hrIdx = -1;
 	float min = INT16_MAX, max = INT16_MIN;
 	float values[34];
@@ -157,7 +175,7 @@ bool RawMqttHandler::publishPrices(EntsoeApi* eapi) {
 
 	}
 
-	char ts1hr[21];
+	char ts1hr[24];
 	if(min1hrIdx > -1) {
         time_t ts = now + (SECS_PER_HOUR * min1hrIdx);
         //Serial.printf("1hr: %d %lu\n", min1hrIdx, ts);
@@ -165,7 +183,7 @@ bool RawMqttHandler::publishPrices(EntsoeApi* eapi) {
         breakTime(ts, tm);
 		sprintf(ts1hr, "%04d-%02d-%02dT%02d:00:00Z", tm.Year+1970, tm.Month, tm.Day, tm.Hour);
 	}
-	char ts3hr[21];
+	char ts3hr[24];
 	if(min3hrIdx > -1) {
         time_t ts = now + (SECS_PER_HOUR * min3hrIdx);
         //Serial.printf("3hr: %d %lu\n", min3hrIdx, ts);
@@ -173,7 +191,7 @@ bool RawMqttHandler::publishPrices(EntsoeApi* eapi) {
         breakTime(ts, tm);
 		sprintf(ts3hr, "%04d-%02d-%02dT%02d:00:00Z", tm.Year+1970, tm.Month, tm.Day, tm.Hour);
 	}
-	char ts6hr[21];
+	char ts6hr[24];
 	if(min6hrIdx > -1) {
         time_t ts = now + (SECS_PER_HOUR * min6hrIdx);
         //Serial.printf("6hr: %d %lu\n", min6hrIdx, ts);
@@ -211,7 +229,7 @@ bool RawMqttHandler::publishPrices(EntsoeApi* eapi) {
     return true;
 }
 
-bool RawMqttHandler::publishSystem(HwTools* hw) {
+bool RawMqttHandler::publishSystem(HwTools* hw, EntsoeApi* eapi, EnergyAccounting* ea) {
 	if(topic.isEmpty() || !mqtt->connected())
 		return false;
 

src/mqtt/RawMqttHandler.h

@@ -12,7 +12,7 @@ public:
     bool publish(AmsData* data, AmsData* previousState, EnergyAccounting* ea);
     bool publishTemperatures(AmsConfiguration*, HwTools*);
     bool publishPrices(EntsoeApi*);
-    bool publishSystem(HwTools*);
+    bool publishSystem(HwTools* hw, EntsoeApi* eapi, EnergyAccounting* ea);
 
 private:
     String topic;

src/web/AmsWebServer.cpp

@@ -90,7 +90,7 @@ void AmsWebServer::setup(AmsConfiguration* config, GpioConfig* gpioConfig, Meter
 	server.on("/debugging", HTTP_GET, std::bind(&AmsWebServer::configDebugHtml, this));
 
 	server.on("/firmware", HTTP_GET, std::bind(&AmsWebServer::firmwareHtml, this));
-	server.on("/firmware", HTTP_POST, std::bind(&AmsWebServer::uploadPost, this), std::bind(&AmsWebServer::firmwareUpload, this));
+	server.on("/firmware", HTTP_POST, std::bind(&AmsWebServer::firmwarePost, this), std::bind(&AmsWebServer::firmwareUpload, this));
 	server.on("/upgrade", HTTP_GET, std::bind(&AmsWebServer::firmwareDownload, this));
 	server.on("/restart", HTTP_GET, std::bind(&AmsWebServer::restartHtml, this));
 	server.on("/restart", HTTP_POST, std::bind(&AmsWebServer::restartPost, this));
@@ -336,6 +336,9 @@ void AmsWebServer::configMeterHtml() {
 		case AmsTypeSagemcom:
 			manufacturer = "Sagemcom";
 			break;
+		case AmsTypeLng:
+			manufacturer = "L&G";
+			break;
 		default:
 			manufacturer = "Unknown";
 			break;
@@ -567,6 +570,20 @@ void AmsWebServer::configEntsoeHtml() {
 		html.replace("{eaDk1}", strcmp(entsoe.area, "10YDK-1--------W") == 0 ? "selected" : "");
 		html.replace("{eaDk2}", strcmp(entsoe.area, "10YDK-2--------M") == 0 ? "selected" : "");
 
+		html.replace("{at}", strcmp(entsoe.area, "10YAT-APG------L") == 0 ? "selected" : "");
+		html.replace("{be}", strcmp(entsoe.area, "10YBE----------2") == 0 ? "selected" : "");
+		html.replace("{cz}", strcmp(entsoe.area, "10YCZ-CEPS-----N") == 0 ? "selected" : "");
+		html.replace("{ee}", strcmp(entsoe.area, "10Y1001A1001A39I") == 0 ? "selected" : "");
+		html.replace("{fi}", strcmp(entsoe.area, "10YFI-1--------U") == 0 ? "selected" : "");
+		html.replace("{fr}", strcmp(entsoe.area, "10YFR-RTE------C") == 0 ? "selected" : "");
+		html.replace("{de}", strcmp(entsoe.area, "10Y1001A1001A83F") == 0 ? "selected" : "");
+		html.replace("{gb}", strcmp(entsoe.area, "10YGB----------A") == 0 ? "selected" : "");
+		html.replace("{lv}", strcmp(entsoe.area, "10YLV-1001A00074") == 0 ? "selected" : "");
+		html.replace("{lt}", strcmp(entsoe.area, "10YLT-1001A0008Q") == 0 ? "selected" : "");
+		html.replace("{nl}", strcmp(entsoe.area, "10YNL----------L") == 0 ? "selected" : "");
+		html.replace("{pl}", strcmp(entsoe.area, "10YPL-AREA-----S") == 0 ? "selected" : "");
+		html.replace("{ch}", strcmp(entsoe.area, "10YCH-SWISSGRIDZ") == 0 ? "selected" : "");
+
 		html.replace("{ecNOK}", strcmp(entsoe.currency, "NOK") == 0 ? "selected" : "");
 		html.replace("{ecSEK}", strcmp(entsoe.currency, "SEK") == 0 ? "selected" : "");
 		html.replace("{ecDKK}", strcmp(entsoe.currency, "DKK") == 0 ? "selected" : "");
@@ -990,7 +1007,7 @@ void AmsWebServer::handleSetup() {
 		server.sendHeader("Location", String("/"), true);
 		server.send (302, MIME_PLAIN, "");
 	} else {
-		SystemConfig sys { server.arg("board").toInt() };
+		SystemConfig sys { static_cast<uint8_t>(server.arg("board").toInt()) };
 
 		DebugConfig debugConfig;
 		config->getDebugConfig(debugConfig);
@@ -1060,6 +1077,16 @@ void AmsWebServer::handleSetup() {
 				gpioConfig->vccResistorGnd = 22;
 				gpioConfig->vccResistorVcc = 33;
 				break;
+			case 7: // Pow-U+
+				gpioConfig->hanPin = 16;
+				gpioConfig->apPin = 0;
+				gpioConfig->ledPinRed = 13;
+				gpioConfig->ledPinGreen = 14;
+				gpioConfig->ledRgbInverted = true;
+				gpioConfig->vccPin = 10;
+				gpioConfig->vccResistorGnd = 22;
+				gpioConfig->vccResistorVcc = 33;
+				break;
 			case 101: // D1
 				gpioConfig->hanPin = 5;
 				gpioConfig->apPin = 4;
@@ -1260,11 +1287,11 @@ void AmsWebServer::handleSave() {
 	if(server.hasArg("dc") && server.arg("dc") == "true") {
 		printD("Received Domoticz config");
 		DomoticzConfig domo {
-			server.arg("elidx").toInt(),
-			server.arg("vl1idx").toInt(),
-			server.arg("vl2idx").toInt(),
-			server.arg("vl3idx").toInt(),
-			server.arg("cl1idx").toInt()
+			static_cast<uint16_t>(server.arg("elidx").toInt()),
+			static_cast<uint16_t>(server.arg("vl1idx").toInt()),
+			static_cast<uint16_t>(server.arg("vl2idx").toInt()),
+			static_cast<uint16_t>(server.arg("vl3idx").toInt()),
+			static_cast<uint16_t>(server.arg("cl1idx").toInt())
 		};
 		config->setDomoticzConfig(domo);
 	}
@@ -1285,24 +1312,24 @@ void AmsWebServer::handleSave() {
 		config->setWebConfig(webConfig);
 	}
 
-	if(server.hasArg("gpioConfig") && server.arg("gpioConfig") == "true") {
+	if(server.hasArg("gc") && server.arg("gc") == "true") {
 		printD("Received GPIO config");
-		gpioConfig->hanPin = server.hasArg("hanPin") && !server.arg("hanPin").isEmpty() ? server.arg("hanPin").toInt() : 3;
-		gpioConfig->ledPin = server.hasArg("ledPin") && !server.arg("ledPin").isEmpty() ? server.arg("ledPin").toInt() : 0xFF;
-		gpioConfig->ledInverted = server.hasArg("ledInverted") && server.arg("ledInverted") == "true";
-		gpioConfig->ledPinRed = server.hasArg("ledPinRed") && !server.arg("ledPinRed").isEmpty() ? server.arg("ledPinRed").toInt() : 0xFF;
-		gpioConfig->ledPinGreen = server.hasArg("ledPinGreen") && !server.arg("ledPinGreen").isEmpty() ? server.arg("ledPinGreen").toInt() : 0xFF;
-		gpioConfig->ledPinBlue = server.hasArg("ledPinBlue") && !server.arg("ledPinBlue").isEmpty() ? server.arg("ledPinBlue").toInt() : 0xFF;
-		gpioConfig->ledRgbInverted = server.hasArg("ledRgbInverted") && server.arg("ledRgbInverted") == "true";
-		gpioConfig->apPin = server.hasArg("apPin") && !server.arg("apPin").isEmpty() ? server.arg("apPin").toInt() : 0xFF;
-		gpioConfig->tempSensorPin = server.hasArg("tempSensorPin") && !server.arg("tempSensorPin").isEmpty() ?server.arg("tempSensorPin").toInt() : 0xFF;
-		gpioConfig->tempAnalogSensorPin = server.hasArg("tempAnalogSensorPin") && !server.arg("tempAnalogSensorPin").isEmpty() ?server.arg("tempAnalogSensorPin").toInt() : 0xFF;
-		gpioConfig->vccPin = server.hasArg("vccPin") && !server.arg("vccPin").isEmpty() ? server.arg("vccPin").toInt() : 0xFF;
-		gpioConfig->vccOffset = server.hasArg("vccOffset") && !server.arg("vccOffset").isEmpty() ? server.arg("vccOffset").toFloat() * 100 : 0;
-		gpioConfig->vccMultiplier = server.hasArg("vccMultiplier") && !server.arg("vccMultiplier").isEmpty() ? server.arg("vccMultiplier").toFloat() * 1000 : 1000;
-		gpioConfig->vccBootLimit = server.hasArg("vccBootLimit") && !server.arg("vccBootLimit").isEmpty() ? server.arg("vccBootLimit").toFloat() * 10 : 0;
-		gpioConfig->vccResistorGnd = server.hasArg("vccResistorGnd") && !server.arg("vccResistorGnd").isEmpty() ? server.arg("vccResistorGnd").toInt() : 0;
-		gpioConfig->vccResistorVcc = server.hasArg("vccResistorVcc") && !server.arg("vccResistorVcc").isEmpty() ? server.arg("vccResistorVcc").toInt() : 0;
+		gpioConfig->hanPin = server.hasArg("h") && !server.arg("h").isEmpty() ? server.arg("h").toInt() : 3;
+		gpioConfig->ledPin = server.hasArg("l") && !server.arg("l").isEmpty() ? server.arg("l").toInt() : 0xFF;
+		gpioConfig->ledInverted = server.hasArg("i") && server.arg("i") == "true";
+		gpioConfig->ledPinRed = server.hasArg("r") && !server.arg("r").isEmpty() ? server.arg("r").toInt() : 0xFF;
+		gpioConfig->ledPinGreen = server.hasArg("e") && !server.arg("e").isEmpty() ? server.arg("e").toInt() : 0xFF;
+		gpioConfig->ledPinBlue = server.hasArg("b") && !server.arg("b").isEmpty() ? server.arg("b").toInt() : 0xFF;
+		gpioConfig->ledRgbInverted = server.hasArg("n") && server.arg("n") == "true";
+		gpioConfig->apPin = server.hasArg("a") && !server.arg("a").isEmpty() ? server.arg("a").toInt() : 0xFF;
+		gpioConfig->tempSensorPin = server.hasArg("t") && !server.arg("t").isEmpty() ?server.arg("t").toInt() : 0xFF;
+		gpioConfig->tempAnalogSensorPin = server.hasArg("m") && !server.arg("m").isEmpty() ?server.arg("m").toInt() : 0xFF;
+		gpioConfig->vccPin = server.hasArg("v") && !server.arg("v").isEmpty() ? server.arg("v").toInt() : 0xFF;
+		gpioConfig->vccOffset = server.hasArg("o") && !server.arg("o").isEmpty() ? server.arg("o").toFloat() * 100 : 0;
+		gpioConfig->vccMultiplier = server.hasArg("u") && !server.arg("u").isEmpty() ? server.arg("u").toFloat() * 1000 : 1000;
+		gpioConfig->vccBootLimit = server.hasArg("c") && !server.arg("c").isEmpty() ? server.arg("c").toFloat() * 10 : 0;
+		gpioConfig->vccResistorGnd = server.hasArg("d") && !server.arg("d").isEmpty() ? server.arg("d").toInt() : 0;
+		gpioConfig->vccResistorVcc = server.hasArg("s") && !server.arg("s").isEmpty() ? server.arg("s").toInt() : 0;
 		config->setGpioConfig(*gpioConfig);
 	}
 
@@ -1341,8 +1368,8 @@ void AmsWebServer::handleSave() {
 		NtpConfig ntp {
 			server.hasArg("n") && server.arg("n") == "true",
 			server.hasArg("nd") && server.arg("nd") == "true",
-			server.arg("o").toInt() / 10,
-			server.arg("so").toInt() / 10
+			static_cast<int16_t>(server.arg("o").toInt() / 10),
+			static_cast<int16_t>(server.arg("so").toInt() / 10)
 		};
 		strcpy(ntp.server, server.arg("ns").c_str());
 		config->setNtpConfig(ntp);
@@ -1434,32 +1461,32 @@ void AmsWebServer::configGpioHtml() {
 	String html = String((const __FlashStringHelper*) GPIO_HTML);
 
 	#if defined(CONFIG_IDF_TARGET_ESP32S2)
-		html.replace("${gpio.max}", "44");
+		html.replace("${g}", "44");
 	#elif defined(ESP32)
-		html.replace("${gpio.max}", "39");
+		html.replace("${g}", "39");
 	#else
-		html.replace("${gpio.max}", "16");
+		html.replace("${g}", "16");
 	#endif
 
-	html.replace("${options.han}", getSerialSelectOptions(gpioConfig->hanPin));
+	html.replace("${h}", getSerialSelectOptions(gpioConfig->hanPin));
 
-	html.replace("${config.ledPin}", gpioConfig->ledPin == 0xFF ? "" : String(gpioConfig->ledPin));
-	html.replace("${config.ledInverted}", gpioConfig->ledInverted ? "checked" : "");
-	html.replace("${config.ledPinRed}", gpioConfig->ledPinRed == 0xFF ? "" : String(gpioConfig->ledPinRed));
-	html.replace("${config.ledPinGreen}", gpioConfig->ledPinGreen == 0xFF ? "" : String(gpioConfig->ledPinGreen));
-	html.replace("${config.ledPinBlue}", gpioConfig->ledPinBlue == 0xFF ? "" : String(gpioConfig->ledPinBlue));
-	html.replace("${config.ledRgbInverted}", gpioConfig->ledRgbInverted ? "checked" : "");
-	html.replace("${config.apPin}", gpioConfig->apPin == 0xFF ? "" : String(gpioConfig->apPin));
-	html.replace("${config.tempSensorPin}", gpioConfig->tempSensorPin == 0xFF ? "" : String(gpioConfig->tempSensorPin));
-	html.replace("${config.tempAnalogSensorPin}", gpioConfig->tempAnalogSensorPin == 0xFF ? "" : String(gpioConfig->tempAnalogSensorPin));
-	html.replace("${config.vccPin}", gpioConfig->vccPin == 0xFF ? "" : String(gpioConfig->vccPin));
+	html.replace("${l}", gpioConfig->ledPin == 0xFF ? "" : String(gpioConfig->ledPin));
+	html.replace("${i}", gpioConfig->ledInverted ? "checked" : "");
+	html.replace("${r}", gpioConfig->ledPinRed == 0xFF ? "" : String(gpioConfig->ledPinRed));
+	html.replace("${e}", gpioConfig->ledPinGreen == 0xFF ? "" : String(gpioConfig->ledPinGreen));
+	html.replace("${b}", gpioConfig->ledPinBlue == 0xFF ? "" : String(gpioConfig->ledPinBlue));
+	html.replace("${n}", gpioConfig->ledRgbInverted ? "checked" : "");
+	html.replace("${a}", gpioConfig->apPin == 0xFF ? "" : String(gpioConfig->apPin));
+	html.replace("${t}", gpioConfig->tempSensorPin == 0xFF ? "" : String(gpioConfig->tempSensorPin));
+	html.replace("${m}", gpioConfig->tempAnalogSensorPin == 0xFF ? "" : String(gpioConfig->tempAnalogSensorPin));
+	html.replace("${v}", gpioConfig->vccPin == 0xFF ? "" : String(gpioConfig->vccPin));
 
-	html.replace("${config.vccOffset}", gpioConfig->vccOffset > 0 ? String(gpioConfig->vccOffset / 100.0, 2) : "");
-	html.replace("${config.vccMultiplier}", gpioConfig->vccMultiplier > 0 ? String(gpioConfig->vccMultiplier / 1000.0, 2) : "");
-	html.replace("${config.vccBootLimit}", gpioConfig->vccBootLimit > 0 ? String(gpioConfig->vccBootLimit / 10.0, 1) : "");
+	html.replace("${o}", gpioConfig->vccOffset > 0 ? String(gpioConfig->vccOffset / 100.0, 2) : "");
+	html.replace("${u}", gpioConfig->vccMultiplier > 0 ? String(gpioConfig->vccMultiplier / 1000.0, 2) : "");
+	html.replace("${c}", gpioConfig->vccBootLimit > 0 ? String(gpioConfig->vccBootLimit / 10.0, 1) : "");
 
-	html.replace("${config.vccResistorGnd}", gpioConfig->vccResistorGnd > 0 ? String(gpioConfig->vccResistorGnd) : "");
-	html.replace("${config.vccResistorVcc}", gpioConfig->vccResistorVcc > 0 ? String(gpioConfig->vccResistorVcc) : "");
+	html.replace("${d}", gpioConfig->vccResistorGnd > 0 ? String(gpioConfig->vccResistorGnd) : "");
+	html.replace("${s}", gpioConfig->vccResistorVcc > 0 ? String(gpioConfig->vccResistorVcc) : "");
 
 	server.sendHeader(HEADER_CACHE_CONTROL, "no-cache, no-store, must-revalidate");
 	server.sendHeader("Pragma", "no-cache");
@@ -1572,21 +1599,21 @@ HTTPUpload& AmsWebServer::uploadFile(const char* path) {
 			}
 		    file = LittleFS.open(path, "w");
 			if(debugger->isActive(RemoteDebug::DEBUG)) {
-				debugger->printf("handleFileUpload Open file and write: %lu\n", upload.currentSize);
+				debugger->printf("handleFileUpload Open file and write: %u\n", upload.currentSize);
 			}
             size_t written = file.write(upload.buf, upload.currentSize);
 			if(debugger->isActive(RemoteDebug::DEBUG)) {
-				debugger->printf("handleFileUpload Written: %lu\n", written);
+				debugger->printf("handleFileUpload Written: %u\n", written);
 			}
 	    } 
     } else if(upload.status == UPLOAD_FILE_WRITE) {
 		if(debugger->isActive(RemoteDebug::DEBUG)) {
-			debugger->printf("handleFileUpload Writing: %lu\n", upload.currentSize);
+			debugger->printf("handleFileUpload Writing: %u\n", upload.currentSize);
 		}
         if(file) {
             size_t written = file.write(upload.buf, upload.currentSize);
 			if(debugger->isActive(RemoteDebug::DEBUG)) {
-				debugger->printf("handleFileUpload Written: %lu\n", written);
+				debugger->printf("handleFileUpload Written: %u\n", written);
 			}
 			delay(1);
 			if(written != upload.currentSize) {
@@ -1649,13 +1676,40 @@ void AmsWebServer::firmwareHtml() {
 	server.sendContent_P(FOOT_HTML);
 }
 
+void AmsWebServer::firmwarePost() {
+	printD("Handlling firmware post...");
+	if(!checkSecurity(1))
+		return;
+	
+	if(rebootForUpgrade) {
+		server.send(200);
+	} else {
+		if(server.hasArg("url")) {
+			String url = server.arg("url");
+			if(!url.isEmpty() && (url.startsWith("http://") || url.startsWith("https://"))) {
+				printD("Custom firmware URL was provided");
+				customFirmwareUrl = url;
+				performUpgrade = true;
+				server.sendHeader("Location","/restart-wait");
+				server.send(303);
+				return;
+			}
+		}
+		server.sendHeader("Location","/firmware");
+		server.send(303);
+	}
+}
+
 void AmsWebServer::firmwareUpload() {
+	printD("Handlling firmware upload...");
 	if(!checkSecurity(1))
 		return;
 
 	HTTPUpload& upload = server.upload();
+	String filename = upload.filename;
+	if(filename.isEmpty()) return;
+
     if(upload.status == UPLOAD_FILE_START) {
-        String filename = upload.filename;
         if(!filename.endsWith(".bin")) {
             server.send(500, MIME_PLAIN, "500: couldn't create file");
 		} else {
@@ -1764,7 +1818,7 @@ void AmsWebServer::restartWaitHtml() {
 		performRestart = false;
 	} else if(performUpgrade) {
 		WiFiClient client;
-		String url = "http://ams2mqtt.rewiredinvent.no/hub/firmware/update";
+		String url = customFirmwareUrl.isEmpty() || !customFirmwareUrl.startsWith("http") ? "http://ams2mqtt.rewiredinvent.no/hub/firmware/update" : customFirmwareUrl;
 		#if defined(ESP8266)
 			String chipType = "esp8266";
 		#elif defined(CONFIG_IDF_TARGET_ESP32S2)
@@ -1778,9 +1832,11 @@ void AmsWebServer::restartWaitHtml() {
 		#endif
 
 		#if defined(ESP8266)
+			ESPhttpUpdate.setFollowRedirects(HTTPC_STRICT_FOLLOW_REDIRECTS);
 			t_httpUpdate_return ret = ESPhttpUpdate.update(client, url, VERSION);
 		#elif defined(ESP32)
 			HTTPUpdate httpUpdate;
+			httpUpdate.setFollowRedirects(HTTPC_STRICT_FOLLOW_REDIRECTS);
 			HTTPUpdateResult ret = httpUpdate.update(client, url, String(VERSION) + "-" + chipType);
 		#endif
 
@@ -2276,7 +2332,7 @@ void AmsWebServer::configFileDownload() {
 			ds->getHourImport(23)
 		));
 		if(day.activeExport > 0) {
-			server.sendContent(buf, snprintf(buf, BufferSize, " %lu %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d\n", 
+			server.sendContent(buf, snprintf(buf, BufferSize, " %u %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d\n", 
 				day.activeExport,
 				ds->getHourExport(0),
 				ds->getHourExport(1),
@@ -2345,7 +2401,7 @@ void AmsWebServer::configFileDownload() {
 			ds->getDayImport(31)
 		));
 		if(month.activeExport > 0) {
-			server.sendContent(buf, snprintf_P(buf, BufferSize, " %lu %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d\n", 
+			server.sendContent(buf, snprintf_P(buf, BufferSize, " %u %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d\n", 
 				month.activeExport,
 				ds->getDayExport(1),
 				ds->getDayExport(2),

src/web/AmsWebServer.h

@@ -61,6 +61,11 @@ private:
 	bool performRestart = false;
 	bool performUpgrade = false;
 	bool rebootForUpgrade = false;
+	#if defined(AMS2MQTT_FIRMWARE_URL)
+	String customFirmwareUrl = AMS2MQTT_FIRMWARE_URL;
+	#else
+	String customFirmwareUrl;
+	#endif
 
     static const uint16_t BufferSize = 2048;
     char* buf;
@@ -104,6 +109,7 @@ private:
 
 	String getSerialSelectOptions(int selected);
 	void firmwareHtml();
+	void firmwarePost();
 	void firmwareUpload();
 	void firmwareDownload();
 	void restartHtml();

web/application.js

@@ -316,6 +316,7 @@ $(function() {
             url: swv.data('url'),
             dataType: 'json'
         }).done(function(releases) {
+            var isnew = false;
             if(/^v\d{1,2}\.\d{1,2}\.\d{1,2}$/.test(swv.text()) && fwl.length == 0) {
                 releases.reverse();
                 var next_patch;
@@ -352,10 +353,13 @@ $(function() {
                 });
                 if(next_minor) {
                     nextVersion = next_minor;
+                    isnew = true;
                 } else if(next_major) {
                     nextVersion = next_major;
+                    isnew = true;
                 } else if(next_patch) {
                     nextVersion = next_patch;
+                    isnew = true;
                 }
             } else {
                 nextVersion = releases[0];
@@ -375,9 +379,11 @@ $(function() {
                         }
                     });
                 };
-                $('#newVersionTag').text(nextVersion.tag_name);
-                $('#newVersionUrl').prop('href', nextVersion.html_url);
-                $('#newVersion').removeClass('d-none');
+                if(isnew) {
+                    $('#newVersionTag').text(nextVersion.tag_name);
+                    $('#newVersionUrl').prop('href', nextVersion.html_url);
+                    $('#newVersion').removeClass('d-none');
+                }
             }
         });
     }
@@ -884,7 +890,7 @@ var fetch = function() {
 
 var upgrade = function() {
     if(nextVersion) {
-        if(confirm("WARNING: Please keep USB power connected while upgrading. Are you sure you want to perform upgrade to " + nextVersion.tag_name + "?")) {
+        if(confirm("WARNING: If you have a M-BUS powered device (Pow-U), please keep USB power connected while upgrading.\n\nAre you sure you want to perform upgrade to " + nextVersion.tag_name + "?")) {
             $('#loading-indicator').show();
             window.location.href="/upgrade?version=" + nextVersion.tag_name;
         }

web/data.json

@@ -23,8 +23,8 @@
     "v" : %.3f,
     "r" : %d,
     "t" : %.2f,
-    "u" : %lu,
-    "m" : %lu,
+    "u" : %u,
+    "m" : %u,
     "em" : %d,
     "hm" : %d,
     "wm" : %d,
@@ -53,5 +53,5 @@
             "p" : %.2f
         }
     },
-    "c" : %lu
+    "c" : %u
 }

web/entsoe.html

@@ -34,6 +34,19 @@
                             <option value="10YDK-1--------W" {eaDk1}>DK1</option>
                             <option value="10YDK-2--------M" {eaDk2}>DK2</option>
                         </optgroup>
+                        <option value="10YAT-APG------L" {at}>Austria</option>
+                        <option value="10YBE----------2" {be}>Belgium</option>
+                        <option value="10YCZ-CEPS-----N" {cz}>Czech Republic</option>
+                        <option value="10Y1001A1001A39I" {ee}>Estonia</option>
+                        <option value="10YFI-1--------U" {fi}>Finland</option>
+                        <option value="10YFR-RTE------C" {fr}>France</option>
+                        <option value="10Y1001A1001A83F" {de}>Germany</option>
+                        <option value="10YGB----------A" {gb}>Great Britain</option>
+                        <option value="10YLV-1001A00074" {lv}>Latvia</option>
+                        <option value="10YLT-1001A0008Q" {lt}>Lithuania</option>
+                        <option value="10YNL----------L" {nl}>Netherland</option>
+                        <option value="10YPL-AREA-----S" {pl}>Poland</option>
+                        <option value="10YCH-SWISSGRIDZ" {ch}>Switzerland</option>
                     </select>
                 </div>
             </div>

web/firmware.html

@@ -1,18 +1,21 @@
 <div class="alert alert-danger">
-    WARNING: Units powered over M-bus must be connected to an external power supply during firmware upload. Failure to do so may cause power-down during upload resulting in non-functioning unit.
+    WARNING: Units powered by M-BUS (Pow-U) must be connected to an external power supply during firmware upload. Failure to do so may cause power-down during upload resulting in non-functioning unit.
 </div>
 <div class="alert alert-warning">
     Your board is using {chipset} chipset. Only upload firmware designed for this chipset. Failure to do so may result in non-functioning unit.
     <span id="fwDownload" style="display: none;"><br/>Download latest firmware file <a  id="fwLink" href="#" data-chipset="{chipset}">here</a></span>
 </div>
+<div class="alert alert-warning">
+    When using URL, only a valid ESP OTA server response will be accepted.
+</div>
 
 <form method="post" enctype="multipart/form-data" class="upload-form">
     <div class="my-3 p-3 bg-white rounded shadow">
         <div class="row">
             <div class="col-lg-6">
-                <div class="input-group mb-3">
+                <div class="input-group">
                     <div class="input-group-prepend">
-                        <span class="input-group-text">Upload</span>
+                        <span class="input-group-text">Upload file</span>
                     </div>
                     <div class="custom-file">
                         <input name="file" type="file" class="custom-file-input" id="fileUploadField">
@@ -21,6 +24,19 @@
                 </div>
             </div>
         </div>
+        <div class="row">
+            <div class="col-lg-6">or</div>
+        </div>
+        <div class="row">
+            <div class="col-lg-6">
+                <div class="input-group">
+                    <div class="input-group-prepend">
+                        <span class="input-group-text">Use URL</span>
+                    </div>
+                    <input type="text" name="url" class="form-control"/>
+                </div>
+            </div>
+        </div>
     </div>
     <hr/>
     <div class="row form-group">
@@ -28,7 +44,7 @@
             <a href="javascript:history.back();" class="btn btn-outline-secondary">Back</a>
         </div>
         <div class="col-6 text-right">
-            <button class="btn btn-primary">Upload</button>
+            <button class="btn btn-primary">Upgrade firmware</button>
         </div>
     </div>
-</form>
+</form>

web/gpio.html

@@ -1,6 +1,6 @@
 <div class="alert alert-warning">!!WARNING!!<br/>Do not change anything here unless you know exactly what you are doing! Changing things here could cause the device to stop responding</div>
 <form method="post" action="/save">
-    <input type="hidden" name="gpioConfig" value="true"/>
+    <input type="hidden" name="gc" value="true"/>
     <div class="my-3 p-3 bg-white rounded shadow">
         <h6>GPIO settings</h6>
         <div class="d-flex flex-row flex-wrap">
@@ -8,18 +8,18 @@
                 <div class="input-group-prepend">
                     <span class="input-group-text">HAN</span>
                 </div>
-                <select name="hanPin" class="form-control">
-                    ${options.han}
+                <select name="h" class="form-control">
+                    ${h}
                 </select>
             </div>
             <div class="m-2 input-group input-group-sm" style="width: 150px;">
                 <div class="input-group-prepend">
                     <span class="input-group-text">LED</span>
                 </div>
-                <input name="ledPin" type="number" min="2" max="${gpio.max}" class="form-control" value="${config.ledPin}"/>
+                <input name="l" type="number" min="2" max="${g}" class="form-control" value="${l}"/>
                 <div class="input-group-append" title="Inverted">
                     <label class="input-group-text">
-                        <input type="checkbox" name="ledInverted" value="true" ${config.ledInverted}/> inv
+                        <input type="checkbox" name="i" value="true" ${i}/> inv
                     </label>
                 </div>
             </div>
@@ -27,12 +27,12 @@
                 <div class="input-group-prepend">
                     <span class="input-group-text">RGB</span>
                 </div>
-                <input name="ledPinRed" type="number" min="2" max="${gpio.max}" class="form-control" value="${config.ledPinRed}"/>
-                <input name="ledPinGreen" type="number" min="2" max="${gpio.max}" class="form-control" value="${config.ledPinGreen}"/>
-                <input name="ledPinBlue" type="number" min="2" max="${gpio.max}" class="form-control" value="${config.ledPinBlue}"/>
+                <input name="r" type="number" min="2" max="${g}" class="form-control" value="${r}"/>
+                <input name="e" type="number" min="2" max="${g}" class="form-control" value="${e}"/>
+                <input name="b" type="number" min="2" max="${g}" class="form-control" value="${b}"/>
                 <div class="input-group-append" title="Inverted">
                     <label class="input-group-text">
-                        <input type="checkbox" name="ledRgbInverted" value="true" ${config.ledRgbInverted}/> inv
+                        <input type="checkbox" name="n" value="true" ${n}/> inv
                     </label>
                 </div>
             </div>
@@ -40,31 +40,31 @@
                 <div class="input-group-prepend">
                     <span class="input-group-text">AP button</span>
                 </div>
-                <input name="apPin" type="number" min="0" max="${gpio.max}" class="form-control" value="${config.apPin}"/>
+                <input name="a" type="number" min="0" max="${g}" class="form-control" value="${a}"/>
             </div>
             <div class="m-2 input-group input-group-sm" style="width: 150px;">
                 <div class="input-group-prepend">
                     <span class="input-group-text">Temperature</span>
                 </div>
-                <input name="tempSensorPin" type="number" min="0" max="${gpio.max}" class="form-control" value="${config.tempSensorPin}"/>
+                <input name="t" type="number" min="0" max="${g}" class="form-control" value="${t}"/>
             </div>
             <div class="m-2 input-group input-group-sm" style="width: 150px;">
                 <div class="input-group-prepend">
                     <span class="input-group-text">Analog temp</span>
                 </div>
-                <input name="tempAnalogSensorPin" type="number" min="0" max="${gpio.max}" class="form-control" value="${config.tempAnalogSensorPin}"/>
+                <input name="m" type="number" min="0" max="${g}" class="form-control" value="${m}"/>
             </div>
             <div class="m-2 input-group input-group-sm" style="width: 100px;">
                 <div class="input-group-prepend">
                     <span class="input-group-text">Vcc</span>
                 </div>
-                <input name="vccPin" type="number" min="0" max="${gpio.max}" class="form-control" value="${config.vccPin}"/>
+                <input name="v" type="number" min="0" max="${g}" class="form-control" value="${v}"/>
             </div>
             <div class="m-2 input-group input-group-sm" style="width: 200px;">
                 <div class="input-group-prepend">
                     <span class="input-group-text">GND resistor</span>
                 </div>
-                <input type="number" min="1" max="1000" step="1" class="form-control" name="vccResistorGnd" value="${config.vccResistorGnd}" />
+                <input type="number" min="1" max="1000" step="1" class="form-control" name="d" value="${d}" />
                 <div class="input-group-append" title="Inverted">
                     <label class="input-group-text">k&ohm;</label>
                 </div>
@@ -73,7 +73,7 @@
                 <div class="input-group-prepend">
                     <span class="input-group-text">Vcc resistor</span>
                 </div>
-                <input type="number" min="1" max="1000" step="1" class="form-control" name="vccResistorVcc" value="${config.vccResistorVcc}" />
+                <input type="number" min="1" max="1000" step="1" class="form-control" name="s" value="${s}" />
                 <div class="input-group-append" title="Inverted">
                     <label class="input-group-text">k&ohm;</label>
                 </div>
@@ -82,19 +82,19 @@
                 <div class="input-group-prepend">
                     <span class="input-group-text">Multiplier</span>
                 </div>
-                <input type="number" min="0.1" max="10" step="0.01" class="form-control" name="vccMultiplier" value="${config.vccMultiplier}" />
+                <input type="number" min="0.1" max="10" step="0.01" class="form-control" name="u" value="${u}" />
             </div>
             <div class="m-2 input-group input-group-sm" style="width: 120px;">
                 <div class="input-group-prepend">
                     <span class="input-group-text">Offset</span>
                 </div>
-                <input type="number" min="0.0" max="3.5" step="0.01" class="form-control" name="vccOffset" value="${config.vccOffset}" />
+                <input type="number" min="0.0" max="3.5" step="0.01" class="form-control" name="o" value="${o}" />
             </div>
             <div class="m-2 input-group input-group-sm" style="width: 130px;">
                 <div class="input-group-prepend">
                     <span class="input-group-text">Boot limit</span>
                 </div>
-                <input type="number" min="2.5" max="3.5" step="0.1" class="form-control" name="vccBootLimit" value="${config.vccBootLimit}" />
+                <input type="number" min="2.5" max="3.5" step="0.1" class="form-control" name="c" value="${c}" />
             </div>
         </div>
     </div>

web/ha2.json

@@ -3,5 +3,5 @@
     "tPO" : %.2f,
     "tQI" : %.2f,
     "tQO" : %.2f,
-    "rtc" : %lu
+    "rtc" : %lld
 }

web/ha3.json

@@ -11,9 +11,5 @@
     "I3" : %.2f,
     "U1" : %.2f,
     "U2" : %.2f,
-    "U3" : %.2f,
-    "PF" : %.2f,
-    "PF1" : %.2f,
-    "PF2" : %.2f,
-    "PF3" : %.2f
+    "U3" : %.2f
 }

web/ha4.json

@@ -0,0 +1,25 @@
+{
+    "lv" : "%s",
+    "id" : "%s",
+    "type" : "%s",
+    "P" : %d,
+    "P1" : %.2f,
+    "P2" : %.2f,
+    "P3" : %.2f,
+    "Q" : %d,
+    "PO" : %d,
+    "PO1" : %.2f,
+    "PO2" : %.2f,
+    "PO3" : %.2f,
+    "QO" : %d,
+    "I1" : %.2f,
+    "I2" : %.2f,
+    "I3" : %.2f,
+    "U1" : %.2f,
+    "U2" : %.2f,
+    "U3" : %.2f,
+    "PF" : %.2f,
+    "PF1" : %.2f,
+    "PF2" : %.2f,
+    "PF3" : %.2f
+}

web/head.html

@@ -1,3 +1,4 @@
+<!DOCTYPE html>
 <html>
 <head>
     <meta charset="UTF-8">

web/json1.json

@@ -1,8 +1,8 @@
 {
     "id" : "%s",
     "name" : "%s",
-    "up" : %lu,
-    "t" : %lu,
+    "up" : %u,
+    "t" : %lld,
     "vcc" : %.3f,
     "rssi": %d,
     "temp": %.2f,

web/json2.json

@@ -1,8 +1,8 @@
 {
     "id" : "%s",
     "name" : "%s",
-    "up" : %lu,
-    "t" : %lu,
+    "up" : %u,
+    "t" : %lld,
     "vcc" : %.3f,
     "rssi": %d,
     "temp": %.2f,

web/json3.json

@@ -1,8 +1,8 @@
 {
     "id" : "%s",
     "name" : "%s",
-    "up" : %lu,
-    "t" : %lu,
+    "up" : %u,
+    "t" : %lld,
     "vcc" : %.3f,
     "rssi": %d,
     "temp": %.2f,
@@ -24,7 +24,7 @@
         "tPO" : %.3f,
         "tQI" : %.3f,
         "tQO" : %.3f,
-        "rtc" : %lu
+        "rtc" : %lld
     },
     "realtime" : {
         "h" : %.2f,

web/json4.json

@@ -1,8 +1,8 @@
 {
     "id" : "%s",
     "name" : "%s",
-    "up" : %lu,
-    "t" : %lu,
+    "up" : %u,
+    "t" : %lld,
     "vcc" : %.3f,
     "rssi": %d,
     "temp": %.2f,
@@ -11,8 +11,14 @@
         "id" : "%s",
         "type" : "%s",
         "P" : %d,
+        "P1" : %.2f,
+        "P2" : %.2f,
+        "P3" : %.2f,
         "Q" : %d,
         "PO" : %d,
+        "PO1" : %.2f,
+        "PO2" : %.2f,
+        "PO3" : %.2f,
         "QO" : %d,
         "I1" : %.2f,
         "I2" : %.2f,
@@ -28,7 +34,7 @@
         "tPO" : %.2f,
         "tQI" : %.2f,
         "tQO" : %.2f,
-        "rtc" : %lu
+        "rtc" : %lld
     },
     "realtime" : {
         "h" : %.2f,

web/realtime.json

@@ -0,0 +1,20 @@
+{
+    "max" : %.1f,
+    "peaks" : [ %s ],
+    "threshold" : %d,
+    "hour" : {
+        "use" : %.2f,
+        "cost" : %.2f,
+        "produced" : %.2f
+    },
+    "day" : {
+        "use" : %.2f,
+        "cost" : %.2f,
+        "produced" : %.2f
+    },
+    "month" : {
+        "use" : %.2f,
+        "cost" : %.2f,
+        "produced" : %.2f
+    }
+}

web/setup.html

@@ -26,6 +26,7 @@
                     <select name="board" class="form-control" required>
                         <option value=""></option>
                         <optgroup label="Custom hardware">
+                            <option value="7" ${config.boardType7}>Pow-U+ (ESP32) from amsleser.no</option>
                             <option value="6" ${config.boardType6}>Pow-P1 from amsleser.no</option>
                             <option value="5" ${config.boardType5}>Pow-K+ (ESP32) from amsleser.no</option>
                             <option value="4" ${config.boardType4}>Pow-U or Pow-K from amsleser.no (GPIO12)</option>