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xnode/lib-ext/rfm-69.git/Examples/Struct_receive/Struct_receive.ino
Willem Cazander 2d73cc8845 Added project
2022-11-13 01:46:38 +01:00

140 lines
4 KiB
C++
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#include <RFM69.h>
#include <SPI.h>
#include <SPIFlash.h>
#define NODEID 1
#define NETWORKID 100
#define FREQUENCY RF69_433MHZ //Match this with the version of your Moteino! (others: RF69_433MHZ, RF69_868MHZ)
#define KEY "thisIsEncryptKey" //has to be same 16 characters/bytes on all nodes, not more not less!
#define LED 9
#define SERIAL_BAUD 115200
#define ACK_TIME 30 // # of ms to wait for an ack
RFM69 radio;
SPIFlash flash(8, 0xEF30); //EF40 for 16mbit windbond chip
bool promiscuousMode = false; //set to 'true' to sniff all packets on the same network
typedef struct {
int nodeId; //store this nodeId
unsigned long uptime; //uptime in ms
float temp; //temperature maybe?
} Payload;
Payload theData;
void setup() {
Serial.begin(SERIAL_BAUD);
delay(10);
radio.initialize(FREQUENCY,NODEID,NETWORKID);
//radio.setHighPower(); //uncomment only for RFM69HW!
radio.encrypt(KEY);
radio.promiscuous(promiscuousMode);
char buff[50];
sprintf(buff, "\nListening at %d Mhz...", FREQUENCY==RF69_433MHZ ? 433 : FREQUENCY==RF69_868MHZ ? 868 : 915);
Serial.println(buff);
if (flash.initialize())
Serial.println("SPI Flash Init OK!");
else
Serial.println("SPI Flash Init FAIL! (is chip present?)");
}
byte ackCount=0;
void loop() {
//process any serial input
if (Serial.available() > 0)
{
char input = Serial.read();
if (input == 'r') //d=dump all register values
radio.readAllRegs();
if (input == 'E') //E=enable encryption
radio.encrypt(KEY);
if (input == 'e') //e=disable encryption
radio.encrypt(null);
if (input == 'p')
{
promiscuousMode = !promiscuousMode;
radio.promiscuous(promiscuousMode);
Serial.print("Promiscuous mode ");Serial.println(promiscuousMode ? "on" : "off");
}
if (input == 'd') //d=dump flash area
{
Serial.println("Flash content:");
int counter = 0;
while(counter<=256){
Serial.print(flash.readByte(counter++), HEX);
Serial.print('.');
}
while(flash.busy());
Serial.println();
}
if (input == 'D')
{
Serial.print("Deleting Flash chip content... ");
flash.chipErase();
while(flash.busy());
Serial.println("DONE");
}
if (input == 'i')
{
Serial.print("DeviceID: ");
word jedecid = flash.readDeviceId();
Serial.println(jedecid, HEX);
}
}
if (radio.receiveDone())
{
Serial.print('[');Serial.print(radio.SENDERID, DEC);Serial.print("] ");
Serial.print(" [RX_RSSI:");Serial.print(radio.readRSSI());Serial.print("]");
if (promiscuousMode)
{
Serial.print("to [");Serial.print(radio.TARGETID, DEC);Serial.print("] ");
}
if (radio.DATALEN != sizeof(Payload))
Serial.print("Invalid payload received, not matching Payload struct!");
else
{
theData = *(Payload*)radio.DATA; //assume radio.DATA actually contains our struct and not something else
Serial.print(" nodeId=");
Serial.print(theData.nodeId);
Serial.print(" uptime=");
Serial.print(theData.uptime);
Serial.print(" temp=");
Serial.print(theData.temp);
}
if (radio.ACKRequested())
{
byte theNodeID = radio.SENDERID;
radio.sendACK();
Serial.print(" - ACK sent.");
// When a node requests an ACK, respond to the ACK
// and also send a packet requesting an ACK (every 3rd one only)
// This way both TX/RX NODE functions are tested on 1 end at the GATEWAY
if (ackCount++%3==0)
{
Serial.print(" Pinging node ");
Serial.print(theNodeID);
Serial.print(" - ACK...");
delay(3); //need this when sending right after reception .. ?
if (radio.sendWithRetry(theNodeID, "ACK TEST", 8, 0)) // 0 = only 1 attempt, no retries
Serial.print("ok!");
else Serial.print("nothing");
}
}
Serial.println();
Blink(LED,3);
}
}
void Blink(byte PIN, int DELAY_MS)
{
pinMode(PIN, OUTPUT);
digitalWrite(PIN,HIGH);
delay(DELAY_MS);
digitalWrite(PIN,LOW);
}
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