SBNetwork/examples/GettingStartedClient/GettingStartedClient.ino

83 lines
3.2 KiB
C++

/*
* Author - Marcel Schulz (alias Schullebernd)
* *************************************************************
* See further library details on https://github.com/Schullebernd/SBNetwork
* *************************************************************
* This Getting started is prepared for using it with a Arduino as a client device.
* If you want to use a Wemos, then change the line 38 "SBNetwork networkDevice(true, 6, 7);" to the correct pinout for a Wemos "SBNetwork networkDevice(true, D2, D8);".
* **************************************************************
* Step 1 - Prepare your device
* Connect a nRF24L01 transmitter to a Wemos D1 mini or an Arduino Device
* WEMOS > RF24 ARDUINO > RF24 --------------------------------------
* ------------ -------------- | GND # # VCC TOP VIEW |
* 3V3 > VCC VCC > VCC | CE # # CSN of nRF24L01 |
* GND > GND GND > GND | SCK # # MOSI |
* D2 > CE 6 > CE | MISO # # IRQ |
* D8 > CSN 7 > CSN | |
* D7 > MOSI 11 > MOSI --------------------------------------
* D6 > MISO 12 > MISO
* D5 > SCK 13 > SCK
*
* Step 2 - Build the sketch for the client device
* Connect the Arduino via USB to the PC, select the right board and COM interface in the tools menu and run the project.
* After building and loading up to the Arduino, the serial monitor should show some log data.
* If you already run a master device you should now see the pairing process in the serial montor for both devices.
*/
#include <SBNetwork_config.h>
#include <SBNetwork.h>
// Type in here the mac address of the device.
// This must be unique within your complete network otherwise the network will not work.
//SBMacAddress deviceMac(0x01, 0x02, 0x03, 0x04, 0x05);
SBMacAddress deviceMac(0x05, 0x04, 0x03, 0x02, 0x01);
// Create a new network device with Wemos D1 mini and set the _ce and _cs pin
// The first argument defines the type of the device. false=master and true=client device
//SBNetwork networkDevice(false, D2, D8);
SBNetwork networkDevice(true, 6, 7);
// time variables
uint32_t wait = 4000;
uint32_t lastWait = wait;
void setup() {
Serial.begin(19200);
Serial.println(F("*** PRESS 'N' to reset the device"));
// Initialize the network device
networkDevice.initialize(deviceMac);
lastWait = millis();
}
void loop() {
if (Serial.available())
{
char c = toupper(Serial.read());
if (c == 'N') {
networkDevice.resetData();
}
}
// Call this in the loop() function to maintain the network device
networkDevice.update();
// Check, if there are messages available
uint8_t messageSize = networkDevice.available();
if (messageSize > 0) {
// Read the message from network device and print out the text.
Serial.print(F("Received Content: "));
Serial.println((char*)networkDevice.getMessage());
}
// Send a message to the master every 4 seconds
if (lastWait < millis()) {
char* message = "Hello Master, here is your client, can you hear me?";
networkDevice.sendToDevice(networkDevice.NetworkDevice.MasterMAC, message, strlen(message) + 1);
lastWait += wait;
}
} // Loop