# ArduinoProps library examples An adaptation of the internal led Blink example (https://www.arduino.cc/en/tutorial/blink) as a simple MQTT props. 1. **BlinkOnBridgeProps**: the Blink example on a Yun props with *ArduinoProps library* 2. **BlinkOnEthernetProps**: the Blink example on an Ethernet props with *ArduinoProps library* 3. **BlinkOnWifiProps**: the Blink example on a Wifi props with *ArduinoProps library* 4. **BlinkOnBridgePubSub**: the Blink example on props using *PubSubClient* directly MQTT messages are received asynchronously therefore to keep the sketch responsive to MQTT commands, calls to delay() should be avoided (except short ones, say < 100 milliseconds). With *Props* class, the props code is more readable because all MQTT *PubSubClient* stuff are hidden in *Props* calls, therefore the props code is easier to write and maintain. Asynchronous-like behavior is obtained using *PropsAction*, *TimedAction* or *VariableTimedAction*. ***Copy and change any of these sketches to build your own Arduino connected props, you will only be limited by your imagination.*** ## 1. *BlinkOnBridgeProps*: the Blink example on a Yun props with *ArduinoProps library* The library comes with a number of example sketches. See **File > Examples > ArduinoProps** within the Arduino IDE application after installing the *ArduinoProps* library from the `.zip` file. ![](help/examples-shot.png) ```csharp /* BlinkOnBridgeProps.ino MIT License (c) Marie Faure Adapt the Blink example (https://www.arduino.cc/en/tutorial/blink) as a simple MQTT props. Avoid delay() calls (except short ones) in loop() to ensure CPU for MQTT protocol. Use PropsAction checks instead. Copy and change it to build your first Arduino connected props, you will only be limited by your imagination. Requirements: install ArduinoProps.zip library. */ #include #include "ArduinoProps.h" // If you're running our Escape Room control software (Room 2.0) you have to respect // prpos inbox/outbox syntax Room/[escape room name]/Props/[propsname]/inbox|outbox // https://live-escape.net/go/room BridgeProps props(u8"Arduino Contrôleur", // as MQTT client id, should be unique per client for given broker u8"Room/Demoniak/Props/Arduino Contrôleur/inbox", u8"Room/Demoniak/Props/Arduino Contrôleur/outbox", "192.168.1.42", // your MQTT server IP address 1883); // your MQTT server port; PropsDataLogical clignoter(u8"clignote", u8"oui", u8"non", true); PropsDataLogical led(u8"led"); void clignote(); // forward PropsAction clignoteAction = PropsAction(1000, clignote); void setup() { Bridge.begin(); //updateBrokerAdressFromFile("/root/broker", &props); // if you're running our Escape Room control software (Room 2.0) props.addData(&clignoter); props.addData(&led); props.begin(InboxMessage::run); pinMode(LED_BUILTIN, OUTPUT); // initialize digital pin LED_BUILTIN as an output // At this point, the broker is not connected yet } void loop() { props.loop(); led.setValue(digitalRead(LED_BUILTIN)); // read I/O clignoteAction.check(); // do your stuff, don't freeze the loop with delay() calls } void clignote() { if (clignoter.value()) { led.setValue(!led.value()); digitalWrite(LED_BUILTIN, led.value() ? HIGH : LOW); } } void InboxMessage::run(String a) { if (a == u8"app:startup") { props.sendAllData(); props.sendDone(a); } else if (a == "clignoter:1") { clignoter.setValue(true); props.sendAllData(); // all data change, we don't have to be selctive then props.sendDone(a); // acknowledge props command action } else if (a == "clignoter:0") { clignoter.setValue(false); props.sendAllData(); // all data change, we don't have to be selctive then props.sendDone(a); // acknowledge props command action } else { // acknowledge omition of the props command props.sendOmit(a); } } void updateBrokerAdressFromFile(const char* broker_file, BridgeProps* props) { // broker IP address is stored in Linino file systems and updated with ssh command by Room 2.0 IPAddress ip; Process _process; _process.begin("cat"); _process.addParameter(broker_file); // for ssh remotely set broker address _process.run(); // run the process and wait for its termination String b; while (_process.available() > 0) { char c = _process.read(); b += c; } b.trim(); if (ip.fromString(b.c_str())) props->setBrokerIpAddress(ip); } ``` ### Memory imprint on Arduino Yun: ```bash The sketch uses 16752 bytes (58%) of the program storage space. The maximum is 28672 bytes. Global variables use 1120 bytes (43%) of dynamic memory, which leaves 1438 bytes for local variables. The maximum is 2560 bytes. ``` ### Memory imprint on Dragino Yun + Arduino Mega 2560: ```bash The sketch uses 14060 bytes (5%) of the program storage space. The maximum is 258048 bytes. Global variables use 980 bytes (11%) of dynamic memory, which leaves 7210 bytes for local variables. The maximum is 8192 bytes. ``` ## 2. *BlinkOnEthernetProps*: the Blink example on an Ethernet props with *ArduinoProps library* Sketch with *EthernetProps* differs slightly from code with *BridgeProps*. #### Pay atention to the board MAC address: MAC adresses are hardware identifiers on the network so they must be unique. A good practice is to increment only the byte at the very right (`0x03`) when adding a new Arduino Ethernet on your network. ```csharp byte mac[] = { 0x46, 0x4F, 0xEA, 0x10, 0x20, 0x03 }; //<<< MAKE SURE IT'S UNIQUE IN YOUR NETWORK!!! and not a reserved MAC ``` ## 3. *BlinkOnWifiProps*: the Blink example on a Wifi props with *ArduinoProps library* Sketch with *WifiProps* differs slightly from code with *BridgeProps*. #### The board WiFiNINA firmware must be recent (> 1.0): Uupdating WiFiNINA firmware is easy: [WiFiNINA firmware update](help/WifiNinaFirmware.md). #### WiFi connection is done in loop(): To properly handle WiFi disconnections, the connection state must be tested and managed in the loop: ```csharp void loop() { if (!wifiBegun) { WiFi.begin(ssid, passphrase); Serial.println(WiFi.firmwareVersion()); delay(250); // acceptable freeze for this props (otherwise use PropsAction for async-like behavior) // do static IP configuration disabling the dhcp client, must be called after every WiFi.begin() String fv = WiFi.firmwareVersion(); if (fv.startsWith("1.0")) { Serial.println("Please upgrade the firmware for static IP"); // see https://github.com/fauresystems/ArduinoProps/blob/master/WifiNinaFirmware.md } else { //WiFi.config(IPAddress(192, 168, 1, 21), // local_ip // IPAddress(192, 168, 1, 1), // dns_server // IPAddress(192, 168, 1, 1), // gateway // IPAddress(255, 255, 255, 0)); // subnet } if (WiFi.status() == WL_CONNECTED) { wifiBegun = true; Serial.println(WiFi.localIP()); Serial.println(WiFi.subnetMask()); Serial.println(WiFi.gatewayIP()); } else { WiFi.end(); } } else if (wifiBegun && WiFi.status() != WL_CONNECTED) { WiFi.end(); wifiBegun = false; } props.loop(); led.setValue(digitalRead(LED_BUILTIN)); // read I/O clignoteAction.check(); // do your stuff, don't freeze the loop with delay() calls } ``` ## 4. *BlinkOnBridgePubSub*: the Blink example on props using *PubSubClient* directly Using *PubSubClient* directly does not save much memory and makes the sketch code less readable, the processing code will be a bit lost in the MQTT code However, this can help in special cases. ```csharp /* Name: BlinkOnBridgePubSub.ino Created: 29/10/2019 16:51:55 Author: Marie Faure Editor: https://github.com/fauresystems License: MIT License (c) Marie Faure Adapt the Blink example (https://www.arduino.cc/en/tutorial/blink) as a simple MQTT props with PubSubClient. */ #include #include #include #include #include #define BROKER "192.168.1.42" // your MQTT server IP address #define PROPS_NAME u8"Arduino Contrôleur" // as MQTT client id, should be unique per client for given broker // If you're running our Escape Room control software (Room 2.0) you have to respect // props inbox/outbox syntax Room/[escape room name]/Props/[propsname]/inbox|outbox // https://github.com/fauresystems/escape-room#room-control-software #define PROPS_INBOX u8"Room/Demoniak/Props/Arduino Contrôleur/inbox" #define PROPS_OUTBOX u8"Room/Demoniak/Props/Arduino Contrôleur/outbox" // Yun can store broker IP address in Linino file systems, and updatred with ssh command #define YUN_BROKER_FILE "/root/broker" void publishAll(); // forward void publishChanges(); // forward class Blinking : public VariableTimedAction { private: //this method will be called at your specified interval unsigned long run() { //swicth LED if blinking mode if (blink) { digitalWrite(LED_BUILTIN, !digitalRead(LED_BUILTIN)); } //return code of 0 indicates no change to the interval //if the interval must be changed, then return the new interval return 0; } public: bool blink; }; class PublishAllData : public VariableTimedAction { private: unsigned long run() { publishAll(); return 0; } }; class PublishChangedData : public VariableTimedAction { private: unsigned long run() { publishChanges(); return 0; } }; Blinking blinking; bool led_ref; bool blink_ref; BridgeClient _ethClient; PubSubClient _client(_ethClient); IPAddress _brokerAddress; void callback(char*, byte*, unsigned int); // forward // MQTT unsigned long lastReconnection(0L); PublishAllData publishAllData; PublishChangedData publishChangedData; void setup() { Bridge.begin(); Process p; p.begin("cat"); p.addParameter(YUN_BROKER_FILE); p.run(); // run the process and wait for its termination String b; while (p.available() > 0) { char c = p.read(); b += c; } b.trim(); if (!_brokerAddress.fromString(b.c_str())) _brokerAddress.fromString(BROKER); _client.setServer(_brokerAddress, 1883); _client.setCallback(callback); publishAllData.start(30000); publishChangedData.start(400); blinking.blink = true; blinking.start(1000); blink_ref = false; pinMode(LED_BUILTIN, OUTPUT); // initialize digital pin LED_BUILTIN as an output digitalWrite(LED_BUILTIN, HIGH); led_ref = LOW; // At this point, the broker is not connected yet } void loop() { if (_client.connected()) { _client.loop(); } else if (millis() > lastReconnection) { lastReconnection += 5000L; if (_client.connect(PROPS_NAME, PROPS_OUTBOX, 2, true, "DISCONNECTED")) { _client.publish(PROPS_OUTBOX, "CONNECTED", true); _client.subscribe(PROPS_INBOX, 1); // max QoS is 1 for PubSubClient subsciption lastReconnection = 0L; } } // automation code should be here (nothing to do for this example) VariableTimedAction::updateActions(); } void publishAll() { String buf = "DATA"; bool led = digitalRead(LED_BUILTIN); buf += u8" led=" + (led ? String("1") : String("0")); led_ref = led; buf += u8" clignote=" + (blinking.blink ? String("oui") : String("non")); blink_ref = blinking.blink; _client.publish(PROPS_OUTBOX, buf.c_str()); } void publishChanges() { String buf = "DATA"; bool led = digitalRead(LED_BUILTIN); if (led != led_ref) { buf += u8" led=" + (led ? String("1") : String("0")); led_ref = led; } if (blinking.blink != blink_ref) { buf += u8" clignote=" + (blinking.blink ? String("oui") : String("non")); blink_ref = blinking.blink; } if (buf.length() > 4) _client.publish(PROPS_OUTBOX, buf.c_str()); } void publishDone(String a) { a = "DONE " + a; _client.publish(PROPS_OUTBOX, a.c_str()); } void onInboxMessage(String a) { if (a == u8"app:startup") { publishAll(); publishDone(a); } else if (a == "clignoter:1") { digitalWrite(LED_BUILTIN, HIGH); blinking.blink = true; publishAll(); // all data change, we don't have to be selctive then publishDone(a); // acknowledge props command action } else if (a == "clignoter:0") { digitalWrite(LED_BUILTIN, LOW); blinking.blink = false; publishAll(); // all data change, we don't have to be selctive then publishDone(a); // acknowledge props command action } else { // acknowledge omition of the props command _client.publish(PROPS_OUTBOX, String("OMIT " + a).c_str()); } } void callback(char* topic, byte* payload, unsigned int len) { if (len) { char* p = (char*)malloc(len + 1); memcpy(p, payload, len); p[len] = '\0'; if (String(p) == "@PING") _client.publish(PROPS_OUTBOX, "PONG"); else onInboxMessage(p); free(p); } } ``` ### Memory imprint on Arduino Yun: ```bash The sketch uses 15930 bytes (55%) of the program storage space. The maximum is 28672 bytes. Global variables use 1013 bytes (39%) of dynamic memory, which leaves 1547 bytes for local variables. The maximum is 2560 bytes. ``` ## Author **Marie FAURE** (Nov 15th, 2019) * company: FAURE SYSTEMS SAS * mail: *dev at faure dot systems* * github: fauresystems * web: Faure Systems