/* * Sample arduino sketch using contiki features. * We turn the LED off * Unfortunately sleeping for long times in loop() isn't currently * possible, something turns off the CPU (including PWM outputs) if a * Proto-Thread is taking too long. We need to find out how to sleep in * a Contiki-compatible way. * Note that for a normal arduino sketch you won't have to include any * of the contiki-specific files here, the sketch should just work. */ /* * ------------------------------------------------------------------------------------------------------------$ * Example sketch/program showing how to read new NUID from a PICC to serial. * ------------------------------------------------------------------------------------------------------------$ * This is a MFRC522 library example; for further details and other examples see: https://github.com/miguelbalb$ * * Example sketch/program showing how to the read data from a PICC (that is: a RFID Tag or Card) using a MFRC52$ * Reader on the Arduino SPI interface. * * When the Arduino and the MFRC522 module are connected (see the pin layout below), load this sketch into Ardu$ * then verify/compile and upload it. To see the output: use Tools, Serial Monitor of the IDE (hit Ctrl+Shft+M)$ * you present a PICC (that is: a RFID Tag or Card) at reading distance of the MFRC522 Reader/PCD, the serial o$ * will show the type, and the NUID if a new card has been detected. Note: you may see "Timeout in communicatio$ * when removing the PICC from reading distance too early. * * @license Released into the public domain. * * Typical pin layout used: * ------------------------------------- * MFRC522 Merkurboard * Reader/PCD ATmega * Signal Pin Pin * ------------------------------------- * RST/Reset RST D14 * SPI SS SDA(SS) D10 * SPI MOSI MOSI D11 * SPI MISO MISO D13 * SPI SCK SCK D12 */ extern "C" { #include "arduino-process.h" #include "rest-engine.h" #include "net/netstack.h" extern resource_t res_led, res_event, res_separate, res_battery, res_cputemp; uint8_t led_pin=4; uint8_t led_status; } #include #include #define SS_PIN 10 #define RST_PIN 14 MFRC522 rfid(SS_PIN, RST_PIN); // Instance of the class MFRC522::MIFARE_Key key; // Init array that will store new NUID byte nuidPICC[4]; void setup (void) { // switch off the led pinMode(led_pin, OUTPUT); digitalWrite(led_pin, HIGH); led_status=0; Serial1.begin(38400); // RFID Init SPI.begin(); // Init SPI bus rfid.PCD_Init(); // Init MFRC522 for (byte i = 0; i < 6; i++) { key.keyByte[i] = 0xFF; } // init coap resourcen rest_init_engine (); rest_activate_resource (&res_led, "s/led"); rest_activate_resource (&res_battery, "s/battery"); rest_activate_resource (&res_cputemp, "s/cputemp"); rest_activate_resource (&res_event, "s/rfid"); // NETSTACK_MAC.off(1); } /** * Helper routine to dump a byte array as hex values to Serial. */ void printHex(byte *buffer, byte bufferSize) { for (byte i = 0; i < bufferSize; i++) { Serial1.print(buffer[i] < 0x10 ? " 0" : " "); Serial1.print(buffer[i], HEX); } } /** * Helper routine to dump a byte array as dec values to Serial. */ void printDec(byte *buffer, byte bufferSize) { for (byte i = 0; i < bufferSize; i++) { Serial1.print(buffer[i] < 0x10 ? " 0" : " "); Serial1.print(buffer[i], DEC); } } void coap_rfid (void) { /* Call the event_handler for this application-specific event. */ res_event.trigger(); /* Also call the separate response example handler. */ res_separate.resume(); } void loop (void) { // Look for new cards if ( ! rfid.PICC_IsNewCardPresent()) return; // Verify if the NUID has been readed if ( ! rfid.PICC_ReadCardSerial()) return; Serial1.print(F("PICC type: ")); MFRC522::PICC_Type piccType = rfid.PICC_GetType(rfid.uid.sak); Serial1.println(rfid.PICC_GetTypeName(piccType)); // Check is the PICC of Classic MIFARE type if (piccType != MFRC522::PICC_TYPE_MIFARE_MINI && piccType != MFRC522::PICC_TYPE_MIFARE_1K && piccType != MFRC522::PICC_TYPE_MIFARE_4K) { Serial1.println(F("Your tag is not of type MIFARE Classic.")); return; } if (rfid.uid.uidByte[0] != nuidPICC[0] || rfid.uid.uidByte[1] != nuidPICC[1] || rfid.uid.uidByte[2] != nuidPICC[2] || rfid.uid.uidByte[3] != nuidPICC[3] ) { Serial1.println(F("A new card has been detected.")); // Store NUID into nuidPICC array for (byte i = 0; i < 4; i++) { nuidPICC[i] = rfid.uid.uidByte[i]; } coap_rfid(); Serial1.println(F("The NUID tag is:")); Serial1.print(F("In hex: ")); printHex(rfid.uid.uidByte, rfid.uid.size); Serial1.println(); Serial1.print(F("In dec: ")); printDec(rfid.uid.uidByte, rfid.uid.size); Serial1.println(); } else Serial1.println(F("Card read previously.")); // Halt PICC rfid.PICC_HaltA(); // Stop encryption on PCD rfid.PCD_StopCrypto1(); }