rf24-pio/examples/pingpair_pl/pingpair_pl.pde

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/*
Copyright (C) 2011 James Coliz, Jr. <maniacbug@ymail.com>
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This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
version 2 as published by the Free Software Foundation.
*/
/**
* Example of using Ack Payloads
*
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* This is an example of how to do two-way communication without changing
* transmit/receive modes. Here, a payload is set to the transmitter within
* the Ack packet of each transmission. Note that the payload is set BEFORE
* the sender's message arrives.
*/
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#include <SPI.h>
#include "nRF24L01.h"
#include "RF24.h"
#include "printf.h"
//
// Hardware configuration
//
// Set up nRF24L01 radio on SPI bus plus pins 8 & 9
RF24 radio(8,9);
// sets the role of this unit in hardware. Connect to GND to be the 'pong' receiver
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// Leave open to be the 'ping' transmitter
const short role_pin = 7;
//
// Topology
//
// Single radio pipe address for the 2 nodes to communicate.
const uint64_t pipe = 0xE8E8F0F0E1LL;
//
// Role management
//
// Set up role. This sketch uses the same software for all the nodes in this
// system. Doing so greatly simplifies testing. The hardware itself specifies
// which node it is.
//
// This is done through the role_pin
//
// The various roles supported by this sketch
typedef enum { role_sender = 1, role_receiver } role_e;
// The debug-friendly names of those roles
const char* role_friendly_name[] = { "invalid", "Sender", "Receiver"};
// The role of the current running sketch
role_e role;
void setup(void)
{
//
// Role
//
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// set up the role pin
pinMode(role_pin, INPUT);
digitalWrite(role_pin,HIGH);
delay(20); // Just to get a solid reading on the role pin
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// read the address pin, establish our role
if ( digitalRead(role_pin) )
role = role_sender;
else
role = role_receiver;
//
// Print preamble
//
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Serial.begin(57600);
printf_begin();
printf("\n\rRF24/examples/pingpair_pl/\n\r");
printf("ROLE: %s\n\r",role_friendly_name[role]);
//
// Setup and configure rf radio
//
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radio.begin();
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// We will be using the Ack Payload feature, so please enable it
radio.enableAckPayload();
//
// Open pipes to other nodes for communication
//
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// This simple sketch opens a single pipes for these two nodes to communicate
// back and forth. One listens on it, the other talks to it.
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if ( role == role_sender )
{
radio.openWritingPipe(pipe);
}
else
{
radio.openReadingPipe(1,pipe);
}
//
// Start listening
//
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if ( role == role_receiver )
radio.startListening();
//
// Dump the configuration of the rf unit for debugging
//
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radio.printDetails();
}
void loop(void)
{
static uint32_t message_count = 0;
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//
// Sender role. Repeatedly send the current time
//
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if (role == role_sender)
{
// Take the time, and send it. This will block until complete
unsigned long time = millis();
printf("Now sending %lu...",time);
radio.write( &time, sizeof(unsigned long) );
if ( radio.isAckPayloadAvailable() )
{
radio.read(&message_count,sizeof(message_count));
printf("Ack: [%lu] ",message_count);
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}
printf("OK\n\r");
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// Try again soon
delay(2000);
}
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//
// Receiver role. Receive each packet, dump it out, add ack payload for next time
//
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if ( role == role_receiver )
{
// if there is data ready
if ( radio.available() )
{
// Dump the payloads until we've gotten everything
static unsigned long got_time;
boolean done = false;
while (!done)
{
// Fetch the payload, and see if this was the last one.
done = radio.read( &got_time, sizeof(unsigned long) );
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// Spew it
printf("Got payload %lu\n",got_time);
}
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// Add an ack packet for the next time around. This is a simple
// packet counter
radio.writeAckPayload( 1, &message_count, sizeof(message_count) );
++message_count;
}
}
}
// vim:ai:cin:sts=2 sw=2 ft=cpp