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@ -3,11 +3,18 @@
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#include <SPI.h> // to communicate using spi (required for our shields)
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#include <SPI.h> // to communicate using spi (required for our shields)
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#include <LoRa.h> // to use the LoRa shield
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#include <LoRa.h> // to use the LoRa shield
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#include "Ethernet.h" // to use the ethernet shield
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#include <Ethernet.h> // to use the ethernet shield
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#include <SD.h> // to use a SD card
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#include <CModemLoRa.h> // to use personalised LoRa class
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#include <CProtocol12Bytes.h> // to use our protocol
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#define LENMAX 80 // maximum size for the LoRa frame
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#define LENMAX 80 // maximum size for the LoRa frame
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#define Serial SerialUSB // serial out on the M0 use a different function
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#define Serial SerialUSB // serial out on the M0 use a different function
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CModemLoRa thisLoRa; // create object for personnalizeed LoRa class
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CProtocol12Bytes protocol; // create object to store data using our protocol
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// void setSPIFrequency(uint32_t frequency); // set the SPI at 8MHz to use logic analyser
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// void setSPIFrequency(uint32_t frequency); // set the SPI at 8MHz to use logic analyser
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byte mac[] = {0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0xED}; // set the mac address
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byte mac[] = {0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0xED}; // set the mac address
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@ -16,18 +23,6 @@ byte mac[] = {0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0xED}; // set the mac addre
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EthernetServer server(80); // initialize the EthernetServer library, using port 80 (default fot HTTP)
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EthernetServer server(80); // initialize the EthernetServer library, using port 80 (default fot HTTP)
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typedef struct { // frame structure
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uint8_t ID = 0; // station's ID
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uint8_t IDp = 0; // gateway's ID
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uint16_t TS = 0; // TimeStamp
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uint16_t DT = 0; // Data Type
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uint16_t D1 = 0; // DATA 1
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uint16_t D2 = 0; // DATA 2
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uint16_t D3 = 0; // DATA 3
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} trame; // frame name
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trame message; // creation of the frame message
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void setup(){
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void setup(){
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Serial.begin(9600);
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Serial.begin(9600);
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while (!Serial); // wait for serial to initialize
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while (!Serial); // wait for serial to initialize
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@ -59,28 +54,24 @@ void loop() {
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if (packetSize > 0)
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if (packetSize > 0)
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{
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{
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SerialUSB.println("Nouveau paquet");
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SerialUSB.println("Nouveau paquet");
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message.ID = LoRa.read();
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message.IDp = LoRa.read();
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thisLoRa.read(&protocol); // objet thislora qui appele classe Lora.h et rempli la stucture de l'objet protocol, ser a allèger -5lignes
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message.IDp = 0x07;
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message.TS = ((uint16_t)LoRa.read() | (LoRa.read() << 8));
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SerialUSB.println(protocol.getStationId(),HEX);
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message.DT = ((uint16_t)LoRa.read() | LoRa.read() << 8);
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SerialUSB.println(protocol.getGatewayId(),HEX);
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message.D1 = ((uint16_t)LoRa.read() | LoRa.read() << 8);
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SerialUSB.println(protocol.getTimestampMessage(),HEX);
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message.D2 = ((uint16_t)LoRa.read() | LoRa.read() << 8);
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SerialUSB.println(protocol.getDataType(),HEX);
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message.D3 = ((uint16_t)LoRa.read() | LoRa.read() << 8);
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SerialUSB.println(protocol.getDataOne(),HEX);
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SerialUSB.println(message.ID, HEX);
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SerialUSB.println(protocol.getDataTwo(),HEX);
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SerialUSB.println(message.IDp, HEX);
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SerialUSB.println(protocol.getDataThree(),HEX);
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SerialUSB.println(message.TS, HEX);
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SerialUSB.println(message.DT, HEX);
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SerialUSB.println(message.D1, HEX);
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SerialUSB.println(message.D2, HEX);
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SerialUSB.println(message.D3, HEX);
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delay(100);
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delay(100);
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}
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}
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// SerialPrintElapsedTime(); // diplay the time the frame arrived
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// SerialPrintElapsedTime(); // diplay the time the frame arrived
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// post to server
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// post to server
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String postdata="&ID="+message.ID+"&IDp="+message.IDp+"&TS="+message.TS+"&DT="+message.DT+"&D1="+message.D1+"&D2="+message.D2+"&D3="+message.D3;
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EthernetClient client;
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String postdata="&ID="+String(protocol.getStationId())+"&IDp="+String(protocol.getGatewayId())+"&TS="+String(protocol.getTimestampMessage())+"&DT="+String(protocol.getDataType())+"&D1="+String(protocol.getDataOne())+"&D2="+String(protocol.getDataTwo())+"&D3="+String(protocol.getDataThree());
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bool connected = client.connect(server, 80);
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bool connected = client.connect(server, 80);
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if (connected){
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if (connected){
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client.println("POST /formulaireCollecte.html HTTP/1.1");
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client.println("POST /formulaireCollecte.html HTTP/1.1");
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@ -93,42 +84,44 @@ void loop() {
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}
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}
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// WebServer
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// WebServer
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EthernetClient client = server.available(); // WebServer :listen for incoming clients
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EthernetClient serverGateway = server.available(); // try to get client
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if (client) {
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Serial.println("new client");
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if (serverGateway) { // got client?
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boolean currentLineIsBlank = true; // an http request ends with a blank line
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boolean currentLineIsBlank = true;
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while (client.connected()) {
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while (client.connected()) {
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if (client.available()) {
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if (client.available()) { // client data available to read
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char c = client.read();
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char c = client.read(); // read 1 byte (character) from client
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Serial.write(c);
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// last line of client request is blank and ends with \n
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if (c == '\n' && currentLineIsBlank) { // send the beginning of a standard http response header
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// respond to client only after last line received
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if (c == '\n' && currentLineIsBlank) {
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// send a standard http response header
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client.println("HTTP/1.1 200 OK");
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client.println("HTTP/1.1 200 OK");
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client.println("Content-Type: text/html");
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client.println("Content-Type: text/html");
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client.println("Connection: close"); // the connection will be closed after completion of the response
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client.println("Connection: close");
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client.println("Refresh: 5"); // refresh the page automatically every 5 sec
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client.println();
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client.println();
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client.println("<!DOCTYPE HTML>");
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// send web page
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client.println("<html>");
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webFile = SD.open("index.html"); // open web page file
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// output the value of each analog input pin
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if (webFile) { // if the webfile exist
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for (int analogChannel = 0; analogChannel < 6; analogChannel++) {
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while(webFile.available()) { // the webfile is avaible
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int sensorReading = analogRead(analogChannel);
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client.write(webFile.read()); // send webfile to client
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client.print("analog input ");
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}
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client.print(analogChannel);
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webFile.close();
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client.print(" is ");
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client.print(sensorReading);
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client.println("<br />");
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}
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}
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client.println("</html>");
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break;
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break;
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}
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}
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if (c == '\n') { // send a new blank line to indicate the end of the connection
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// every line of text received from the client ends with \r\n
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if (c == '\n') {
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// last character on line of received text
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// starting new line with next character read
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currentLineIsBlank = true;
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currentLineIsBlank = true;
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} else if (c != '\r') {
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currentLineIsBlank = false;
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}
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}
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}
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else if (c != '\r') {
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// a text character was received from client
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currentLineIsBlank = false;
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}
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}
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} // end if (client.available())
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} // end while (client.connected())
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delay(1); // give the web browser time to receive the data
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delay(1); // give the web browser time to receive the data
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client.stop(); // close the connection of the webserver
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client.stop(); // close the connection
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}
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} // end if (serverGateway)
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}
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} //end void loop
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