// rf69_client.pde // -*- mode: C++ -*- // Example sketch showing how to create a simple messageing client // with the RH_RF69 class. RH_RF69 class does not provide for addressing or // reliability, so you should only use RH_RF69 if you do not need the higher // level messaging abilities. // It is designed to work with the other example rf69_server. // Demonstrates the use of AES encryption, setting the frequency and modem // configuration // Tested on Moteino with RFM69 http://lowpowerlab.com/moteino/ // Tested on miniWireless with RFM69 www.anarduino.com/miniwireless // Tested on Teensy 3.1 with RF69 on PJRC breakout board #include #include // Singleton instance of the radio driver RH_RF69 rf69; //RH_RF69 rf69(15, 16); // For RF69 on PJRC breakout board with Teensy 3.1 void setup() { Serial.begin(9600); if (!rf69.init()) Serial.println("init failed"); // Defaults after init are 434.0MHz, modulation GFSK_Rb250Fd250, +13dbM // No encryption if (!rf69.setFrequency(433.0)) Serial.println("setFrequency failed"); // If you are using a high power RF69, you *must* set a Tx power in the // range 14 to 20 like this: // rf69.setTxPower(14); // The encryption key has to be the same as the one in the server uint8_t key[] = { 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08}; rf69.setEncryptionKey(key); } void loop() { Serial.println("Sending to rf69_server"); // Send a message to rf69_server uint8_t data[] = "Hello World!"; rf69.send(data, sizeof(data)); rf69.waitPacketSent(); // Now wait for a reply uint8_t buf[RH_RF69_MAX_MESSAGE_LEN]; uint8_t len = sizeof(buf); if (rf69.waitAvailableTimeout(500)) { // Should be a reply message for us now if (rf69.recv(buf, &len)) { Serial.print("got reply: "); Serial.println((char*)buf); } else { Serial.println("recv failed"); } } else { Serial.println("No reply, is rf69_server running?"); } delay(400); }