main.cpp

#include <Arduino.h>   // needed for PlatformIO
#include <Mesh.h>

#include "MyMesh.h"

#ifdef DISPLAY_CLASS
  #include "UITask.h"
  static UITask ui_task(display);
#endif

StdRNG fast_rng;
SimpleMeshTables tables;

MyMesh the_mesh(board, radio_driver, *new ArduinoMillis(), fast_rng, rtc_clock, tables);

void halt() {
  while (1) ;
}

static char command[160];

// For power saving
unsigned long lastActive = 0; // mark last active time
unsigned long nextSleepinSecs = 120; // next sleep in seconds. The first sleep (if enabled) is after 2 minutes from boot

void setup() {
  Serial.begin(115200);
  delay(1000);

  board.begin();

#if defined(MESH_DEBUG) && defined(NRF52_PLATFORM)
  // give some extra time for serial to settle so
  // boot debug messages can be seen on terminal
  delay(5000);
#endif

  // For power saving
  lastActive = millis(); // mark last active time since boot

#ifdef DISPLAY_CLASS
  if (display.begin()) {
    display.startFrame();
    display.setCursor(0, 0);
    display.print("Please wait...");
    display.endFrame();
  }
#endif

  if (!radio_init()) {
    MESH_DEBUG_PRINTLN("Radio init failed!");
    halt();
  }

  fast_rng.begin(radio_get_rng_seed());

  FILESYSTEM* fs;
#if defined(NRF52_PLATFORM) || defined(STM32_PLATFORM)
  InternalFS.begin();
  fs = &InternalFS;
  IdentityStore store(InternalFS, "");
#elif defined(ESP32)
  SPIFFS.begin(true);
  fs = &SPIFFS;
  IdentityStore store(SPIFFS, "/identity");
#elif defined(RP2040_PLATFORM)
  LittleFS.begin();
  fs = &LittleFS;
  IdentityStore store(LittleFS, "/identity");
  store.begin();
#else
  #error "need to define filesystem"
#endif
  if (!store.load("_main", the_mesh.self_id)) {
    MESH_DEBUG_PRINTLN("Generating new keypair");
    the_mesh.self_id = radio_new_identity();   // create new random identity
    int count = 0;
    while (count < 10 && (the_mesh.self_id.pub_key[0] == 0x00 || the_mesh.self_id.pub_key[0] == 0xFF)) {  // reserved id hashes
      the_mesh.self_id = radio_new_identity(); count++;
    }
    store.save("_main", the_mesh.self_id);
  }

  Serial.print("Repeater ID: ");
  mesh::Utils::printHex(Serial, the_mesh.self_id.pub_key, PUB_KEY_SIZE); Serial.println();

  command[0] = 0;

  sensors.begin();

  the_mesh.begin(fs);

#ifdef DISPLAY_CLASS
  ui_task.begin(the_mesh.getNodePrefs(), FIRMWARE_BUILD_DATE, FIRMWARE_VERSION);
#endif

  // send out initial zero hop Advertisement to the mesh
#if ENABLE_ADVERT_ON_BOOT == 1
  the_mesh.sendSelfAdvertisement(16000, false);
#endif
}

void loop() {
  int len = strlen(command);
  while (Serial.available() && len < sizeof(command)-1) {
    char c = Serial.read();
    if (c != '\n') {
      command[len++] = c;
      command[len] = 0;
      Serial.print(c);
    }
    if (c == '\r') break;
  }
  if (len == sizeof(command)-1) {  // command buffer full
    command[sizeof(command)-1] = '\r';
  }

  if (len > 0 && command[len - 1] == '\r') {  // received complete line
    Serial.print('\n');
    command[len - 1] = 0;  // replace newline with C string null terminator
    char reply[160];
    the_mesh.handleCommand(0, command, reply);  // NOTE: there is no sender_timestamp via serial!
    if (reply[0]) {
      Serial.print("  -> "); Serial.println(reply);
    }

    command[0] = 0;  // reset command buffer
  }

  the_mesh.loop();
  sensors.loop();
#ifdef DISPLAY_CLASS
  ui_task.loop();
#endif
  rtc_clock.tick();

  if (the_mesh.getNodePrefs()->powersaving_enabled && !the_mesh.hasPendingWork()) {
    #if defined(NRF52_PLATFORM)
    board.sleep(1800); // nrf ignores seconds param, sleeps whenever possible
    #else
    if (the_mesh.millisHasNowPassed(lastActive + nextSleepinSecs * 1000)) { // To check if it is time to sleep
      board.sleep(1800);             // To sleep. Wake up after 30 minutes or when receiving a LoRa packet
      lastActive = millis();
      nextSleepinSecs = 5;  // Default: To work for 5s and sleep again
    } else {
      nextSleepinSecs += 5; // When there is pending work, to work another 5s
    }
    #endif
  }
}