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Diffstat (limited to '.pio/libdeps/esp32-s3-n16r8/RF24/examples/AcknowledgementPayloads')
| -rw-r--r-- | .pio/libdeps/esp32-s3-n16r8/RF24/examples/AcknowledgementPayloads/AcknowledgementPayloads.ino | 207 |
1 files changed, 0 insertions, 207 deletions
diff --git a/.pio/libdeps/esp32-s3-n16r8/RF24/examples/AcknowledgementPayloads/AcknowledgementPayloads.ino b/.pio/libdeps/esp32-s3-n16r8/RF24/examples/AcknowledgementPayloads/AcknowledgementPayloads.ino deleted file mode 100644 index af0d7db..0000000 --- a/.pio/libdeps/esp32-s3-n16r8/RF24/examples/AcknowledgementPayloads/AcknowledgementPayloads.ino +++ /dev/null @@ -1,207 +0,0 @@ -/* - * See documentation at https://nRF24.github.io/RF24 - * See License information at root directory of this library - * Author: Brendan Doherty (2bndy5) - */ - -/** - * A simple example of sending data from 1 nRF24L01 transceiver to another - * with Acknowledgement (ACK) payloads attached to ACK packets. - * - * This example was written to be used on 2 devices acting as "nodes". - * Use the Serial Monitor to change each node's behavior. - */ -#include <SPI.h> -#include "printf.h" -#include "RF24.h" - -#define CE_PIN 7 -#define CSN_PIN 8 -// instantiate an object for the nRF24L01 transceiver -RF24 radio(CE_PIN, CSN_PIN); - -// an identifying device destination -// Let these addresses be used for the pair -uint8_t address[][6] = { "1Node", "2Node" }; -// It is very helpful to think of an address as a path instead of as -// an identifying device destination -// to use different addresses on a pair of radios, we need a variable to - -// uniquely identify which address this radio will use to transmit -bool radioNumber = 1; // 0 uses address[0] to transmit, 1 uses address[1] to transmit - -// Used to control whether this node is sending or receiving -bool role = false; // true = TX role, false = RX role - -// For this example, we'll be using a payload containing -// a string & an integer number that will be incremented -// on every successful transmission. -// Make a data structure to store the entire payload of different datatypes -struct PayloadStruct { - char message[7]; // only using 6 characters for TX & ACK payloads - uint8_t counter; -}; -PayloadStruct payload; - -void setup() { - - Serial.begin(115200); - while (!Serial) { - // some boards need to wait to ensure access to serial over USB - } - - // initialize the transceiver on the SPI bus - if (!radio.begin()) { - Serial.println(F("radio hardware is not responding!!")); - while (1) {} // hold in infinite loop - } - - // print example's introductory prompt - Serial.println(F("RF24/examples/AcknowledgementPayloads")); - - // To set the radioNumber via the Serial monitor on startup - Serial.println(F("Which radio is this? Enter '0' or '1'. Defaults to '0'")); - while (!Serial.available()) { - // wait for user input - } - char input = Serial.parseInt(); - radioNumber = input == 1; - Serial.print(F("radioNumber = ")); - Serial.println((int)radioNumber); - - // role variable is hardcoded to RX behavior, inform the user of this - Serial.println(F("*** PRESS 'T' to begin transmitting to the other node")); - - // Set the PA Level low to try preventing power supply related problems - // because these examples are likely run with nodes in close proximity to - // each other. - radio.setPALevel(RF24_PA_LOW); // RF24_PA_MAX is default. - - // to use ACK payloads, we need to enable dynamic payload lengths (for all nodes) - radio.enableDynamicPayloads(); // ACK payloads are dynamically sized - - // Acknowledgement packets have no payloads by default. We need to enable - // this feature for all nodes (TX & RX) to use ACK payloads. - radio.enableAckPayload(); - - // set the TX address of the RX node for use on the TX pipe (pipe 0) - radio.stopListening(address[radioNumber]); // put radio in TX mode - - // set the RX address of the TX node into a RX pipe - radio.openReadingPipe(1, address[!radioNumber]); // using pipe 1 - - // additional setup specific to the node's role - if (role) { - // setup the TX payload - memcpy(payload.message, "Hello ", 6); // set the payload message - } else { - // setup the ACK payload & load the first response into the FIFO - - memcpy(payload.message, "World ", 6); // set the payload message - // load the payload for the first received transmission on pipe 0 - radio.writeAckPayload(1, &payload, sizeof(payload)); - - radio.startListening(); // put radio in RX mode - } - - // For debugging info - // printf_begin(); // needed only once for printing details - // radio.printDetails(); // (smaller) function that prints raw register values - // radio.printPrettyDetails(); // (larger) function that prints human readable data -} - -void loop() { - - if (role) { - // This device is a TX node - - unsigned long start_timer = micros(); // start the timer - bool report = radio.write(&payload, sizeof(payload)); // transmit & save the report - unsigned long end_timer = micros(); // end the timer - - if (report) { - Serial.print(F("Transmission successful! ")); // payload was delivered - Serial.print(F("Time to transmit = ")); - Serial.print(end_timer - start_timer); // print the timer result - Serial.print(F(" us. Sent: ")); - Serial.print(payload.message); // print the outgoing message - Serial.print(payload.counter); // print the outgoing counter - uint8_t pipe; - if (radio.available(&pipe)) { // is there an ACK payload? grab the pipe number that received it - PayloadStruct received; - radio.read(&received, sizeof(received)); // get incoming ACK payload - Serial.print(F(" Received ")); - Serial.print(radio.getDynamicPayloadSize()); // print incoming payload size - Serial.print(F(" bytes on pipe ")); - Serial.print(pipe); // print pipe number that received the ACK - Serial.print(F(": ")); - Serial.print(received.message); // print incoming message - Serial.println(received.counter); // print incoming counter - - // save incoming counter & increment for next outgoing - payload.counter = received.counter + 1; - - } else { - Serial.println(F(" Received: an empty ACK packet")); // empty ACK packet received - } - - - } else { - Serial.println(F("Transmission failed or timed out")); // payload was not delivered - } - - // to make this example readable in the serial monitor - delay(1000); // slow transmissions down by 1 second - - } else { - // This device is a RX node - - uint8_t pipe; - if (radio.available(&pipe)) { // is there a payload? get the pipe number that received it - uint8_t bytes = radio.getDynamicPayloadSize(); // get the size of the payload - PayloadStruct received; - radio.read(&received, sizeof(received)); // get incoming payload - Serial.print(F("Received ")); - Serial.print(bytes); // print the size of the payload - Serial.print(F(" bytes on pipe ")); - Serial.print(pipe); // print the pipe number - Serial.print(F(": ")); - Serial.print(received.message); // print incoming message - Serial.print(received.counter); // print incoming counter - Serial.print(F(" Sent: ")); - Serial.print(payload.message); // print outgoing message - Serial.println(payload.counter); // print outgoing counter - - // save incoming counter & increment for next outgoing - payload.counter = received.counter + 1; - // load the payload for the first received transmission on pipe 0 - radio.writeAckPayload(1, &payload, sizeof(payload)); - } - } // role - - if (Serial.available()) { - // change the role via the serial monitor - - char c = toupper(Serial.read()); - if (c == 'T' && !role) { - // Become the TX node - - role = true; - Serial.println(F("*** CHANGING TO TRANSMIT ROLE -- PRESS 'R' TO SWITCH BACK")); - - memcpy(payload.message, "Hello ", 6); // change payload message - radio.stopListening(); // this also discards any unused ACK payloads - - } else if (c == 'R' && role) { - // Become the RX node - - role = false; - Serial.println(F("*** CHANGING TO RECEIVE ROLE -- PRESS 'T' TO SWITCH BACK")); - memcpy(payload.message, "World ", 6); // change payload message - - // load the payload for the first received transmission on pipe 0 - radio.writeAckPayload(1, &payload, sizeof(payload)); - radio.startListening(); - } - } -} // loop |