mirror of https://github.com/arendst/Tasmota.git
123 lines
4.5 KiB
C++
123 lines
4.5 KiB
C++
/*
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// March 2014 - TMRh20 - Updated along with High Speed RF24 Library fork
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// Parts derived from examples by J. Coliz <maniacbug@ymail.com>
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*/
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/**
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* Example for efficient call-response using ack-payloads
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*
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* This example continues to make use of all the normal functionality of the radios including
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* the auto-ack and auto-retry features, but allows ack-payloads to be written optionally as well.
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* This allows very fast call-response communication, with the responding radio never having to
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* switch out of Primary Receiver mode to send back a payload, but having the option to if wanting
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* to initiate communication instead of respond to a commmunication.
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*/
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#include <SPI.h>
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#include "nRF24L01.h"
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#include "RF24.h"
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#include "printf.h"
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// Hardware configuration: Set up nRF24L01 radio on SPI bus plus pins 7 & 8
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RF24 radio(7,8);
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// Topology
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const uint64_t pipes[2] = { 0xABCDABCD71LL, 0x544d52687CLL }; // Radio pipe addresses for the 2 nodes to communicate.
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// Role management: Set up role. This sketch uses the same software for all the nodes
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// in this system. Doing so greatly simplifies testing.
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typedef enum { role_ping_out = 1, role_pong_back } role_e; // The various roles supported by this sketch
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const char* role_friendly_name[] = { "invalid", "Ping out", "Pong back"}; // The debug-friendly names of those roles
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role_e role = role_pong_back; // The role of the current running sketch
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// A single byte to keep track of the data being sent back and forth
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byte counter = 1;
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void setup(){
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Serial.begin(115200);
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printf_begin();
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Serial.print(F("\n\rRF24/examples/pingpair_ack/\n\rROLE: "));
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Serial.println(role_friendly_name[role]);
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Serial.println(F("*** PRESS 'T' to begin transmitting to the other node"));
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// Setup and configure rf radio
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radio.begin();
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radio.setAutoAck(1); // Ensure autoACK is enabled
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radio.enableAckPayload(); // Allow optional ack payloads
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radio.setRetries(0,15); // Smallest time between retries, max no. of retries
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radio.setPayloadSize(1); // Here we are sending 1-byte payloads to test the call-response speed
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radio.openWritingPipe(pipes[1]); // Both radios listen on the same pipes by default, and switch when writing
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radio.openReadingPipe(1,pipes[0]);
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radio.startListening(); // Start listening
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radio.printDetails(); // Dump the configuration of the rf unit for debugging
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}
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void loop(void) {
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if (role == role_ping_out){
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radio.stopListening(); // First, stop listening so we can talk.
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printf("Now sending %d as payload. ",counter);
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byte gotByte;
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unsigned long time = micros(); // Take the time, and send it. This will block until complete
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//Called when STANDBY-I mode is engaged (User is finished sending)
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if (!radio.write( &counter, 1 )){
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Serial.println(F("failed."));
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}else{
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if(!radio.available()){
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Serial.println(F("Blank Payload Received."));
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}else{
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while(radio.available() ){
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unsigned long tim = micros();
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radio.read( &gotByte, 1 );
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printf("Got response %d, round-trip delay: %lu microseconds\n\r",gotByte,tim-time);
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counter++;
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}
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}
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}
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// Try again later
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delay(1000);
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}
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// Pong back role. Receive each packet, dump it out, and send it back
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if ( role == role_pong_back ) {
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byte pipeNo;
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byte gotByte; // Dump the payloads until we've gotten everything
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while( radio.available(&pipeNo)){
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radio.read( &gotByte, 1 );
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radio.writeAckPayload(pipeNo,&gotByte, 1 );
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}
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}
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// Change roles
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if ( Serial.available() )
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{
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char c = toupper(Serial.read());
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if ( c == 'T' && role == role_pong_back )
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{
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Serial.println(F("*** CHANGING TO TRANSMIT ROLE -- PRESS 'R' TO SWITCH BACK"));
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role = role_ping_out; // Become the primary transmitter (ping out)
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radio.openWritingPipe(pipes[0]);
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radio.openReadingPipe(1,pipes[1]);
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}
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else if ( c == 'R' && role == role_ping_out )
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{
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Serial.println(F("*** CHANGING TO RECEIVE ROLE -- PRESS 'T' TO SWITCH BACK"));
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role = role_pong_back; // Become the primary receiver (pong back)
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radio.openWritingPipe(pipes[1]);
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radio.openReadingPipe(1,pipes[0]);
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radio.startListening();
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}
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}
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} |