Develop your SCADA Application based on NodeRED

                                 

Course 10 Chapters of General Content [IS.AC002.GC]

HOW TO INSTALL NODE-RED 

NodeRED is a open source programming tool, based in NodeJS, to develop applications in order to interact with different hardware's. Also Node-RED provide a browser editor that make easier to program and configure your own applications.    

See more information of Node-RED in the official website: Node-RED about

The first step of this course w ill be how to install NodeRed application in your personal computer. Before install Node-RED we must install NodeJS.  

HOW TO INSTALL NODEJS:

 Just go the official website of NodeJS and download the NodeJS source code or a pre-build installer for your OS: NodeJS Download 

If you want to install it from the Linux command line:   

Add the repository:  

 sudo apt install curl 

For the latest release, type:  

 curl -sL https://deb.nodesource.com/setup_10.x | sudo bash - 

For the LTS release, type:

curl -sL https://deb.nodesource.com/setup_8.x | sudo bash - 

 Finally to install NODEJS type: 

 sudo apt install nodejs 

HOW TO INSTALL NODE-RED:

After installing the NodeJS our computer is ready to install Node-RED.  The best way to install Node-RED is to use the node packae manager, npm, that already comes with Node.js.  

WINDOWS OS:

Type to the command prompt:

                            npm install -g --unsafe-perm node-red
                          

LINUX OS:

Type to command line:

sudo npm install -g --unsafe perm node-red


Take a look on the official installation guide to know more details: Node-RED install

Once you have installed the Node-RED you are able to proceed with the next chapter of the course.


MQTT client for Arduino based PLC as a I/Os module.

In the chapter #1 is explained how to configure your Industrial Arduino based PLC as a MQTT I/Os Module. 

Before starting this chapter will be interesting to take a look on how MQTT protocol works, what is a JSON and their applications. 

After that, take a fast look on the next libraries:


The architecture of the code is made for a M-Duino21+, but is designed to be extended for others M-Duino's. There are four different arrays that include all available I/Os in   M-Duino 21+. 

These arrays are: digitalOutputsanalogOutputsdigitalInputsanalogInputs

So, every array will be structured as follows:

digitalOutputs[NUM_ZONES][NUM_DIGITAL_OUTPUTS_PER_ZONE] = {{Q0_0, Q0_1... }, {Q1_0, Q1_1...}, {Q2_0, Q2_1...} 

This last example will be for a M-Duino 58+, every zone is subdivided with their related pins nomenclature.

After explained how to access to the inputs mapping we are ready to explain the rest of the code. 

In the setup() we just are making the initialization of the Ethernet and MQTT client called mqtt, relating the callback function when we receive a message through MQTT and all the actual input values. After that we just have three main functions in the loop() function. We are calling the reconnect() function if there is no connection with the server,if   there is connection we are just using the mqtt.loop() function that will maintain the connectivity with our server. Apart of this twofunctions we have the updateInputs() that will update the real value of the inputs.


Lets go deeper in the functions to have a better understating of what they do:

  • OUTPUTS MANAGEMENT:

Firs of all, we have the reconnect() function that will  subscribe to the "Q" and "A" topics. One topic is dedicated to analog outputs and the other is dedicated to the digital          outputs. If is not connected to the server, then they will stop the client connection in order to not cause any issue with the server ports. 

Second, to understand how the outputs control works we need to look into the callback function. In this program the callback function is receiveMqttMessage(). The receiveMqttMessage() function will run every time that we receive a message. So, when we receive a message the callback function will decide if the topic is for analog or digital pins and then will call the right function for it, setDigitalOutput() function or setAnalgoOutput() function.

setDigitalOutput() extract and analyzes the JSON file, confirm that the zone and the pin exists and then execute the digitalWrite() function to update the desired output. 

The setAnalogOutput() function work exactly the in the same way that setDigitalOutput()

ANALOG_OUTPUTS_OFFSET is used to offset the value of the analog pins. Analog pins are placed in the positions  5, 6 ,7. This is why the ANALOG_OUTPUTS_OFFSET is 5.

  • INPUT MANAGEMENT:

In the main loop we have the function updateInputs()  that will update all the values of the inputs. This function will be comparing all the previous values to the current ones  and if the new value have changed, then the program will publish the new value though MQTT. The digital values will be compering if there is a 0 or a 1, the function that make this work is updateDigitalInput().

In the analog site the program will compare if the analog value havechange more than 5 point, if the current value is higher or lower than the previous one, then will publish    the new value. The function that make this work is updateAnalogInput().


/*
   Copyright (c) 2019 Boot&Work Corp., S.L. All rights reserved
   This program is free software: you can redistribute it and/or modify
   it under the terms of the GNU Lesser General Public License as published by
   the Free Software Foundation, either version 3 of the License, or
   (at your option) any later version.
   This program is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
   GNU Lesser General Public License for more details.
   You should have received a copy of the GNU Lesser General Public License
   along with this program.  If not, see <http://www.gnu.org/licenses/>.
 */

// included library depending of M-Duino version 
#ifdef MDUINO_PLUS
#include <Ethernet2.h>
#else
#include <Ethernet.h>
#endif

// libraries needed for MQTT communication
#include <ArduinoJson.h>
#include <PubSubClient.h>
#define MQTT_ID "demo"
#define NUM_ZONES 1
#define NUM_DIGITAL_OUTPUTS_PER_ZONE 5
#define DIGITAL_OUTPUTS_OFFSET 0

const int digitalOutputs[NUM_ZONES][NUM_DIGITAL_OUTPUTS_PER_ZONE] = {
  {Q0_0, Q0_1, Q0_2, Q0_3, Q0_4},
};
#define NUM_ANALOG_OUTPUTS_PER_ZONE 3
#define ANALOG_OUTPUTS_OFFSET 5

const int analogOutputs[NUM_ZONES][NUM_DIGITAL_OUTPUTS_PER_ZONE] = {
  {A0_5, A0_6, A0_7},
};
#define NUM_DIGITAL_INPUTS_PER_ZONE 7
#define DIGITAL_INPUTS_OFFSET 0

const int digitalInputs[NUM_ZONES][NUM_DIGITAL_INPUTS_PER_ZONE] = {
  {I0_0, I0_1, I0_2, I0_3, I0_4, I0_5, I0_6},
};
#define NUM_ANALOG_INPUTS_PER_ZONE 6
#define ANALOG_INPUTS_OFFSET 7
#define ANALOG_INPUTS_THRESHOLD 5 // Filtering threshold

const int analogInputs[NUM_ZONES][NUM_ANALOG_INPUTS_PER_ZONE] = {
  {I0_7, I0_8, I0_9, I0_10, I0_11, I0_12},
};
byte mac[] = { 0xDE, 0xED, 0xBA, 0xFE, 0xFE, 0xAE };
IPAddress broker(10, 0, 3, 21);
unsigned port = 1883;
// Initialize client
EthernetClient client;
PubSubClient mqtt(client);
int digitalInputsValues[NUM_ZONES][NUM_DIGITAL_INPUTS_PER_ZONE];
int analogInputsValues[NUM_ZONES][NUM_ANALOG_INPUTS_PER_ZONE];

////////////////////////////////////////////////////////////////////////////////////////////////////
void setup(){ 
  Ethernet.begin(mac);
  mqtt.setServer(broker, port);
  mqtt.setCallback(receiveMqttMessage);
  // Init variables
  for (int i = 0; i < NUM_ZONES; ++i) {
    for (int j = 0; j < NUM_DIGITAL_INPUTS_PER_ZONE; ++j) {
      digitalInputsValues[i][j] = digitalRead(digitalInputs[i][j]);
    }
    for (int j = 0; j < NUM_ANALOG_INPUTS_PER_ZONE; ++j) {
      analogInputsValues[i][j] = analogRead(analogInputs[i][j]);
    }
  }
}

////////////////////////////////////////////////////////////////////////////////////////////////////
void loop() {
  if (!mqtt.connected()) {
    reconnect();
  } else {
    mqtt.loop();
  }
  updateInputs();
}

////////////////////////////////////////////////////////////////////////////////////////////////////
void updateInputs() {
  for (int i = 0; i < NUM_ZONES; ++i) {
    for (int j = 0; j < NUM_DIGITAL_INPUTS_PER_ZONE; ++j) {
      updateDigitalInput(i, j);
    }
    for (int j = 0; j < NUM_ANALOG_INPUTS_PER_ZONE; ++j) {
      updateAnalogInput(i, j);
    }
  }
}

////////////////////////////////////////////////////////////////////////////////////////////////////
void updateDigitalInput(int zone, int index) {
  int value = digitalRead(digitalInputs[zone][index]);
  if (value != digitalInputsValues[zone][index]) {
    digitalInputsValues[zone][index] = value;
    publishInput(zone, index + DIGITAL_INPUTS_OFFSET, value);
  }
}

////////////////////////////////////////////////////////////////////////////////////////////////////
void updateAnalogInput(int zone, int index) {
  int value = analogRead(analogInputs[zone][index]);
  int minValue = value > ANALOG_INPUTS_THRESHOLD ? value - ANALOG_INPUTS_THRESHOLD : 0;
  int maxValue = value < 1023 - ANALOG_INPUTS_THRESHOLD ? value + ANALOG_INPUTS_THRESHOLD : 1023;
  if ((analogInputsValues[zone][index] < minValue) || (analogInputsValues[zone][index] > maxValue)) {
    analogInputsValues[zone][index] = value;
    publishInput(zone, index + ANALOG_INPUTS_OFFSET, value);
  }
}

////////////////////////////////////////////////////////////////////////////////////////////////////
void setDigitalOutput(char *payload, unsigned int len) {
  DynamicJsonBuffer json(JSON_OBJECT_SIZE(3));
  JsonObject &root = json.parseObject(payload, len);
  if (root.success()) {
    int zone = root["zone"];
    if (zone >= NUM_ZONES) {
      // Invalid zone
      return;
    }
    int index = root["index"];
    index -= DIGITAL_OUTPUTS_OFFSET;
    if (index >= NUM_DIGITAL_OUTPUTS_PER_ZONE) {
      // Invalid digital output
      return;
    }
    int value = root["value"];
    digitalWrite(digitalOutputs[zone][index], value);
  }
}

////////////////////////////////////////////////////////////////////////////////////////////////////
void setAnalogOutput(char *payload, unsigned int len) {
  DynamicJsonBuffer json(JSON_OBJECT_SIZE(3));
  JsonObject &root = json.parseObject(payload, len);
  if (root.success()) {
    int zone = root["zone"];
    if (zone >= NUM_ZONES) {
      // Invalid zone
      return;
    }
    int index = root["index"];
    index -= ANALOG_OUTPUTS_OFFSET; 
    if (index >= NUM_ANALOG_OUTPUTS_PER_ZONE) {
      // Invalid analog output
      return;
    }
    int value = root["value"];
    analogWrite(analogOutputs[zone][index], value);
  }
}

////////////////////////////////////////////////////////////////////////////////////////////////////
void reconnect() {
  if (mqtt.connect(MQTT_ID)) {
    mqtt.subscribe("Q");
    mqtt.subscribe("A");
  } else {
    // MQTT connect fail
    client.stop();
  }
}

////////////////////////////////////////////////////////////////////////////////////////////////////
void receiveMqttMessage(char* topic, byte* payload, unsigned int len) {
  if (strcmp(topic, "Q") == 0) {
    // Set digital output
    setDigitalOutput((char*) payload, len);
  } else if (strcmp(topic, "A") == 0) {
    // Set analog output
    setAnalogOutput((char*) payload, len);
  }
}

////////////////////////////////////////////////////////////////////////////////////////////////////
void publishInput(int zone, int index, int value) {
  DynamicJsonBuffer json(JSON_OBJECT_SIZE(3));
  JsonObject &root = json.createObject();
  if (root.success()) {
    root["zone"] = zone;
    root["index"] = index;
    root["value"] = value;
    publish("I", root);
  }
}

////////////////////////////////////////////////////////////////////////////////////////////////////
void publish(const char *topic, JsonObject &root) {
  unsigned len = root.measureLength();
  if (len > 0) {
    char *payload = new char[len + 1];
    if (payload) {
      root.printTo(payload, len + 1);
      publish(topic, payload);
      delete[] payload;
    }
  }
}

////////////////////////////////////////////////////////////////////////////////////////////////////
void publish(const char *topic, const char *payload) {
  if (mqtt.connected()) {
    mqtt.publish(topic, payload);
  }
}
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