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# Changelog |
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All notable changes to this project will be documented in this file. |
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Added : for new features. |
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Changed : for changes in existing functionality. |
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Deprecated: for soon-to-be removed features. |
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Removed : for now removed features. |
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Fixed : for any bug fixes. |
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Security : in case of vulnerabilities. |
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## [1.0.0] - 2022-11-29 |
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First working version. |
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/**********************************************************************************/ |
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/* */ |
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/* MQTT_energymeter counts light pulses from an energy meter, converts it to Wh */ |
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/* and publishes it to an MQTT broker via ethernet. Every 1000Wh the counter is */ |
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/* saved to EEPROM. Every power up this value is read from EERPOM as the starting */ |
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/* value for the counter, preventing data loss after a power outage. */ |
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/* */ |
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/* (C)2022 M.T. Konstapel https://meezenest.nl/mees */ |
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/* */ |
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/* This file is part of MQTT_energymeter. */ |
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/* */ |
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/* MQTT_energymeter is free software: you can redistribute it and/or modify */ |
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/* it under the terms of the GNU General Public License as published by */ |
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/* the Free Software Foundation, either version 3 of the License, or */ |
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/* (at your option) any later version. */ |
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/* */ |
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/* MQTT_energymeter is distributed in the hope that it will be useful, */ |
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/* but WITHOUT ANY WARRANTY; without even the implied warranty of */ |
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/* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the */ |
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/* GNU General Public License for more details. */ |
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/* */
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/* You should have received a copy of the GNU General Public License */ |
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/* along with MQTT_energymeter. If not, see <https://www.gnu.org/licenses/>. */ |
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/* */ |
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/**********************************************************************************/ |
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#include <UIPEthernet.h> |
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// The connection_data struct needs to be defined in an external file.
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#include <UIPServer.h> |
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#include <UIPClient.h> |
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//#include "utility/logging.h"
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#include "PubSubClient.h" |
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#include <EEPROM.h> //Internal EEPROM |
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#define MACADDRESS 0x12,0x7C,0x54,0x33,0xB4,0xA2 |
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#define MYIPADDR 192,168,88,120 |
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#define MYIPMASK 255,255,255,0 |
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#define MYDNS 192,168,88,1 |
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#define MYGW 192,168,88,1 |
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#define LISTENPORT 1000 |
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#define UARTBAUD 115200 |
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/* CHANGE THESE VALUES TO CUSTOMIZE DATA LOGGER */ |
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#define CLIENT_ID "MeesElectronics" // Our MQTT client ID
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#define CLIENT_TOPIC "energy/solar" // Name of the topic we publish
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//IPAddress IP_MQTT_broker(192, 168, 89, 10); // IP address of the MQTT broker
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//String string_ip_mqtt_broker = "192.168.88.10";
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char IP_string_MQTT_broker[20] = "192.168.88.11"; |
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uint16_t MQTT_port = 1884; |
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IPAddress IP_MQTT_broker; |
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#define PULSES_PER_KWH 500 // 500 pulses from the energy meter is one kWh
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/* END USER DEFINABLE VALUES */ |
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uint8_t mac[6] = {MACADDRESS}; |
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uint8_t myIP[4] = {MYIPADDR}; |
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uint8_t myMASK[4] = {MYIPMASK}; |
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uint8_t myDNS[4] = {MYDNS}; |
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uint8_t myGW[4] = {MYGW}; |
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EthernetServer server = EthernetServer(LISTENPORT); |
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EthernetClient ethClient; |
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PubSubClient mqttClient; |
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#define PULSES_PER_WH 1000/PULSES_PER_KWH // Calculates how many pulses corresponds to a Wh
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#define INTERVAL 10000 // 10 sec delay between MQTT publishings
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long previousMillis; |
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char numberArray[20]; |
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uint32_t PulseCount=0; // This variable holds the pulse count from the energy meter
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uint32_t EnergyReading=0; // This variable holds the number of Watt-hours
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uint32_t stored_kwh_count=0; // Counted whole kWh value sored in EEPROM
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void onDetectInterrupt() |
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{ |
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// The Arduino calls this function when it detects a falling edge on pin 2.
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// Received a pulse from the energy meter: add one to the counter
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PulseCount++; |
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} |
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void setup() { |
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// setup serial communication
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Serial.begin(UARTBAUD); |
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Serial.println(F("Energy meter with MQTT client.")); |
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// Read EEPROM address 0. If it is 0xFF the EEPROM is probaly empty and we set EEPROM address 0 to 0x5A
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if (EEPROM.read(0) == 0xFF) { |
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Serial.println(F("Powered up for the first time. Saving the default settings to the EEPROM.")); |
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EEPROM.write(0, 0x5A); |
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EEPROM.put(1, stored_kwh_count); // Save zero to EEPROM
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EEPROM.put(5, MQTT_port); // Save MQTT broker port
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EEPROM.put(9,IP_string_MQTT_broker); //Save default IP address of MQTT broker
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} |
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// Now we test if the first address of the EEPROM is 0x5A. If so, te EEPROM is correctly initialized. We can assume that the stored
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// stored_kwh_count at address 1-4 is valid.
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if (EEPROM.read(0) == 0x5A) { |
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Serial.print(F("Valid configuration found in EEPROM.\nLast stored kWh value: ")); |
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EEPROM.get(1,stored_kwh_count); |
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Serial.println(stored_kwh_count); |
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EEPROM.get(9,IP_string_MQTT_broker); //Save default IP address of MQTT broker
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Serial.print(F("IP of MQTT broker: ")); |
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Serial.println(IP_string_MQTT_broker); |
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EEPROM.get(5, MQTT_port); |
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Serial.print(F("Port of MQTT broker: ")); |
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Serial.println(MQTT_port); |
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} else { |
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// There was a problem reading the EEPROM. Try resetting the EEPROM settings and halt. A reboot of the device might solve the issue.
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Serial.println(F("Error reading the EEPROM. Try rebooting the device.")); |
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EEPROM.write(0, 0x5A); |
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EEPROM.put(1, stored_kwh_count); // Save zero to EEPROM
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EEPROM.put(5, MQTT_port); // Save MQTT broker port
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EEPROM.put(9,IP_string_MQTT_broker); //Save default IP address of MQTT broker
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while(1); |
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} |
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// Attach interrupt to input pin connected to pulse input
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pinMode(2, INPUT_PULLUP); |
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attachInterrupt(digitalPinToInterrupt(2), onDetectInterrupt, FALLING); |
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// initialize the ethernet device
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//Ethernet.begin(mac,myIP,myDNS,myGW,myMASK);
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Serial.print(F("Configuring ethernet...")); |
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//Ethernet.begin(mac,myIP,myDNS,myGW,myMASK);
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// setup ethernet communication using DHCP
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if (Ethernet.begin(mac) == 0) { |
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Serial.println("[FAIL]"); |
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while(1); |
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}; |
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Serial.println(F("[OK]")); |
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// start listening for clients
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server.begin(); |
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// setup mqtt client
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IP_MQTT_broker.fromString(IP_string_MQTT_broker); |
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mqttClient.setClient(ethClient); |
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mqttClient.setServer(IP_MQTT_broker,MQTT_port); |
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Serial.println(F("MQTT client configured")); |
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previousMillis = millis(); |
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} |
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void loop() { |
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size_t size; |
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uint16_t cnt; |
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char tmp_string[6]; |
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// Telnet loop
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if (EthernetClient client = server.available()) |
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{ |
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if (client) |
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{ |
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while((size = client.available()) > 0) |
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{ |
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uint8_t* msg = (uint8_t*)malloc(size+1); //make memory allocation one byte larger to accomodate for the NULL string terminator.
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size = client.read(msg,size); |
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msg[size-1] = 0; //Add NULL to terminate the string
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// Set IP of MQTT broker
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if (msg[0] == ':' && size>9 && size<20) |
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{ |
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// Extract IP address from command
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for (cnt=2; cnt < (size-2); cnt++) |
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{ |
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IP_string_MQTT_broker[cnt-2] = msg[cnt]; |
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} |
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IP_string_MQTT_broker[cnt-2] = 0; // Add NULL to string
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if (IP_MQTT_broker.fromString((char*)IP_string_MQTT_broker)) |
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{ |
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client.write("MQTT server set to ",19); |
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Serial.print(F("MQTT server set to : ")); |
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Serial.println(IP_string_MQTT_broker); |
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client.write(msg,size); |
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} |
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else |
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{ |
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client.write("?",1); |
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Serial.println(F("?")); |
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} |
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} |
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// Set port of MQTT broker
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else if (msg[0] == 'P' && size>3 && size<10) |
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{ |
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// Clear temporary string
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for (cnt=0; cnt < sizeof(tmp_string); cnt++) |
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tmp_string[cnt]=0; |
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// Extract port number from command
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uint16_t port=0; |
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for (cnt=2; cnt < (size-2); cnt++) |
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{ |
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if (msg[cnt]>=48 && msg[cnt]<=57) |
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{ |
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port = 10*port + (msg[cnt]-48); |
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tmp_string[cnt-2] = msg[cnt]; |
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} |
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} |
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tmp_string[cnt-2] = 0; // Add NULL to string
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if (port>0 && port<=0xFFFF) |
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{ |
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MQTT_port=port; |
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client.write("MQTT port set to ",17); |
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Serial.print(F("Set port : ")); |
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Serial.println(MQTT_port); |
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client.write(tmp_string,cnt-2); |
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} |
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else |
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{ |
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client.write("?",1); |
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Serial.println(F("?")); |
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} |
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} |
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// Print IP and port of MQTT broker
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else if (msg[0] == 'I') |
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{ |
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client.write("MQTT server set to : ",21); |
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Serial.print(F("MQTT server set to : ")); |
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Serial.print(IP_string_MQTT_broker); |
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Serial.print(F(" port : ")); |
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Serial.println(MQTT_port); |
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client.write(IP_string_MQTT_broker,sizeof(IP_string_MQTT_broker)); |
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client.write(" port : ",8); |
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itoa(MQTT_port,tmp_string,10); //(integer, yourBuffer, base)
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client.write(tmp_string,sizeof(tmp_string)); |
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} |
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// Save IP of MQTT broker to EEPROM
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else if (msg[0] == 'S') |
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{ |
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EEPROM.put(5, MQTT_port); //Save port address of MQTT broker
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EEPROM.put(9,IP_string_MQTT_broker); //Save IP address of MQTT broker
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client.write("SAVED",5); |
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Serial.println(F("SAVED")); |
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} |
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// Unknown command
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else |
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{ |
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client.write("?",1); |
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Serial.println(F("?")); |
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} |
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client.write("\n",1); |
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free(msg); |
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} |
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} |
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} |
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// check interval
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if(millis() - previousMillis > INTERVAL) |
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{ |
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sendData(); |
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Serial.print(F(CLIENT_TOPIC));Serial.print(F(" : "));Serial.println(EnergyReading); |
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previousMillis = millis(); |
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} |
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mqttClient.loop(); |
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readEnergymeter(); |
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} |
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void sendData() { |
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if(mqttClient.connect(CLIENT_ID)) { |
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//Convert unsigned long to string (base 10) and send it to our MQTT broker
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mqttClient.publish(CLIENT_TOPIC, ultoa(EnergyReading, numberArray, 10)); |
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} |
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} |
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// Counts pulses from energy meter. Every pulse is equivalent to a certain amount of energy in Wh. This is almost always stated on te front of the meter.
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// With variable PULSES_PER_KWH you can define this value.
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// Every PULSES_PER_KWH pulses is saved to EEPROM. After a powercycle this value is read from EEPROM.
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void readEnergymeter(){ |
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// Every kWh (PULSES_PER_KWH) we increment and save kWh value to EEPROM
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if (PulseCount >= PULSES_PER_KWH) { |
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PulseCount=0; |
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//Serial.println(F("Store kWh counter to EEPROM."));
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stored_kwh_count++; |
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EEPROM.put(1,stored_kwh_count); |
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} |
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// Convert pulses to Wh for sending to the MQTT broker
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EnergyReading=1000*stored_kwh_count + PulseCount*PULSES_PER_WH; |
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} |
@ -1,2 +1,29 @@ |
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# atmega328p_mqtt_energy_meter |
# Datalogger reading kWh pulses from a utility grid meter and publising it via MQTT |
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(C) 2022 M. Konstapel https://meezenest.nl/mees |
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Inspired by https://www.instructables.com/A-Simple-MQTT-PubSub-Node-With-Arduino-UNO-and-ENC/ |
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## Features |
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- Runs on low spec microcontroller (Uno, Nano, Mini, and other ATMega328-based boards) |
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- Wired ethernet via ENC28J60 Ethernet module |
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- Gets ip address va DHCP |
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- Stores data in EEPROM to prevent data loss |
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- Easy to configure by telnet port 1000 |
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## Configure |
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The Device gets its IP address via DHCP. Make sure you have a working DHCP server on the network. |
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The ip address and port of the MQTT broker can be set by connecting to the device via telnet on port 1000. |
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To set the ip address of the MQTT broker use the command ": <ip address>". For example, to set the ip address to 192.168.1.10 type ": 192.168.1.10" and hit enter. |
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To set the port number of the MQTT broker use the command "P <port number>". For example, to set the port number to 1883 type "P 1883" and hit enter. |
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To show the current settings type "I". |
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To save the settings to EEPROM type "S" and hit enter. |
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IMPORTANT: after making changes, power cycle the device. |
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Reference in new issue