/* Xively sensor client This sketch connects an analog sensor to Xively (http://www.xively.com) using a Wiznet Ethernet shield. You can use the Arduino Ethernet shield, or the Adafruit Ethernet shield, either one will work, as long as it's got a Wiznet Ethernet module on board. This example has been updated to use version 2.0 of the Xively.com API. To make it work, create a feed with a datastream, and give it the ID sensor1. Or change the code below to match your feed. Circuit: * Analog sensor attached to analog in 0 * Ethernet shield attached to pins 10, 11, 12, 13 created 15 March 2010 modified 9 Apr 2012 by Tom Igoe with input from Usman Haque and Joe Saavedra http://arduino.cc/en/Tutorial/XivelyClient This code is in the public domain. */ #include #include #define APIKEY "YOUR API KEY GOES HERE" // replace your xively api key here #define FEEDID 00000 // replace your feed ID #define USERAGENT "My Project" // user agent is the project name // assign a MAC address for the ethernet controller. // Newer Ethernet shields have a MAC address printed on a sticker on the shield // fill in your address here: byte mac[] = { 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0xED }; // fill in an available IP address on your network here, // for manual configuration: IPAddress ip(10, 0, 1, 20); // initialize the library instance: EthernetClient client; // if you don't want to use DNS (and reduce your sketch size) // use the numeric IP instead of the name for the server: IPAddress server(216, 52, 233, 122); // numeric IP for api.xively.com //char server[] = "api.xively.com"; // name address for xively API unsigned long lastConnectionTime = 0; // last time you connected to the server, in milliseconds boolean lastConnected = false; // state of the connection last time through the main loop const unsigned long postingInterval = 10*1000; //delay between updates to Xively.com void setup() { // You can use Ethernet.init(pin) to configure the CS pin //Ethernet.init(10); // Most Arduino shields //Ethernet.init(5); // MKR ETH shield //Ethernet.init(0); // Teensy 2.0 //Ethernet.init(20); // Teensy++ 2.0 //Ethernet.init(15); // ESP8266 with Adafruit Featherwing Ethernet //Ethernet.init(33); // ESP32 with Adafruit Featherwing Ethernet // Open serial communications and wait for port to open: Serial.begin(9600); while (!Serial) { ; // wait for serial port to connect. Needed for native USB port only } // start the Ethernet connection: if (Ethernet.begin(mac) == 0) { Serial.println("Failed to configure Ethernet using DHCP"); // DHCP failed, so use a fixed IP address: Ethernet.begin(mac, ip); } } void loop() { // read the analog sensor: int sensorReading = analogRead(A0); // if there's incoming data from the net connection. // send it out the serial port. This is for debugging // purposes only: if (client.available()) { char c = client.read(); Serial.print(c); } // if there's no net connection, but there was one last time // through the loop, then stop the client: if (!client.connected() && lastConnected) { Serial.println(); Serial.println("disconnecting."); client.stop(); } // if you're not connected, and ten seconds have passed since // your last connection, then connect again and send data: if(!client.connected() && (millis() - lastConnectionTime > postingInterval)) { sendData(sensorReading); } // store the state of the connection for next time through // the loop: lastConnected = client.connected(); } // this method makes a HTTP connection to the server: void sendData(int thisData) { // if there's a successful connection: if (client.connect(server, 80)) { Serial.println("connecting..."); // send the HTTP PUT request: client.print("PUT /v2/feeds/"); client.print(FEEDID); client.println(".csv HTTP/1.1"); client.println("Host: api.xively.com"); client.print("X-XivelyApiKey: "); client.println(APIKEY); client.print("User-Agent: "); client.println(USERAGENT); client.print("Content-Length: "); // calculate the length of the sensor reading in bytes: // 8 bytes for "sensor1," + number of digits of the data: int thisLength = 8 + getLength(thisData); client.println(thisLength); // last pieces of the HTTP PUT request: client.println("Content-Type: text/csv"); client.println("Connection: close"); client.println(); // here's the actual content of the PUT request: client.print("sensor1,"); client.println(thisData); } else { // if you couldn't make a connection: Serial.println("connection failed"); Serial.println(); Serial.println("disconnecting."); client.stop(); } // note the time that the connection was made or attempted: lastConnectionTime = millis(); } // This method calculates the number of digits in the // sensor reading. Since each digit of the ASCII decimal // representation is a byte, the number of digits equals // the number of bytes: int getLength(int someValue) { // there's at least one byte: int digits = 1; // continually divide the value by ten, // adding one to the digit count for each // time you divide, until you're at 0: int dividend = someValue /10; while (dividend > 0) { dividend = dividend /10; digits++; } // return the number of digits: return digits; }