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1214 lines (1040 loc) · 39.3 KB
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#include "configuration.h"
#if !MESHTASTIC_EXCLUDE_GPS
#include "GPS.h"
#endif
#include "MeshRadio.h"
#include "MeshService.h"
#include "NodeDB.h"
#include "PowerFSM.h"
#include "PowerMon.h"
#include "RadioLibInterface.h"
#include "ReliableRouter.h"
#include "TransmitHistory.h"
#include "airtime.h"
#include "buzz.h"
#include "power/PowerHAL.h"
#include "FSCommon.h"
#include "RTC.h"
#include "SPILock.h"
#include "Throttle.h"
#include "concurrency/OSThread.h"
#include "concurrency/Periodic.h"
#include "detect/ScanI2C.h"
#include "error.h"
#include "power.h"
#if !MESHTASTIC_EXCLUDE_I2C
#include "detect/ScanI2CConsumer.h"
#include "detect/ScanI2CTwoWire.h"
#include <Wire.h>
#endif
#include "detect/einkScan.h"
#include "graphics/Screen.h"
#include "main.h"
#include "mesh/generated/meshtastic/config.pb.h"
#include "meshUtils.h"
#include "modules/ClientAppDataStore.h"
#include "modules/Modules.h"
#include "sleep.h"
#include "target_specific.h"
#include <memory>
#include <utility>
#if HAS_SCREEN
#include "MessageStore.h"
#endif
#ifdef ARCH_ESP32
#include "freertosinc.h"
#if !MESHTASTIC_EXCLUDE_WEBSERVER
#include "mesh/http/WebServer.h"
#endif
#if !MESHTASTIC_EXCLUDE_BLUETOOTH
#include "nimble/NimbleBluetooth.h"
NimbleBluetooth *nimbleBluetooth = nullptr;
#endif
#endif
#ifdef ARCH_NRF52
#include "NRF52Bluetooth.h"
NRF52Bluetooth *nrf52Bluetooth = nullptr;
#endif
#if HAS_WIFI || defined(USE_WS5500)
#include "mesh/api/WiFiServerAPI.h"
#include "mesh/wifi/WiFiAPClient.h"
#endif
#if HAS_ETHERNET && !defined(USE_WS5500)
#include "mesh/api/ethServerAPI.h"
#include "mesh/eth/ethClient.h"
#endif
#if !MESHTASTIC_EXCLUDE_MQTT
#include "mqtt/MQTT.h"
#endif
#ifdef ARCH_PORTDUINO
#include "linux/LinuxHardwareI2C.h"
#include "mesh/raspihttp/PiWebServer.h"
#include "platform/portduino/PortduinoGlue.h"
#include <cstdlib>
#include <fstream>
#include <iostream>
#include <string>
#endif
#ifdef ARCH_ESP32
#ifdef DEBUG_PARTITION_TABLE
#include "esp_partition.h"
void printPartitionTable()
{
printf("\n--- Partition Table ---\n");
// Print Column Headers
printf("| %-16s | %-4s | %-7s | %-10s | %-10s |\n", "Label", "Type", "Subtype", "Offset", "Size");
printf("|------------------|------|---------|------------|------------|\n");
// Create an iterator to find ALL partitions (Type ANY, Subtype ANY)
esp_partition_iterator_t it = esp_partition_find(ESP_PARTITION_TYPE_ANY, ESP_PARTITION_SUBTYPE_ANY, NULL);
// Loop through the iterator
if (it != NULL) {
do {
const esp_partition_t *part = esp_partition_get(it);
// Print details: Label, Type (Hex), Subtype (Hex), Offset (Hex), Size (Hex)
printf("| %-16s | 0x%02x | 0x%02x | 0x%08x | 0x%08x |\n", part->label, part->type, part->subtype, part->address,
part->size);
// Move to next partition
it = esp_partition_next(it);
} while (it != NULL);
// Release the iterator memory
esp_partition_iterator_release(it);
} else {
printf("No partitions found.\n");
}
printf("-----------------------\n");
}
#endif // DEBUG_PARTITION_TABLE
#endif // ARCH_ESP32
#include "AmbientLightingThread.h"
#include "PowerFSMThread.h"
#if !defined(ARCH_STM32WL) && !MESHTASTIC_EXCLUDE_I2C && !MESHTASTIC_EXCLUDE_ACCELEROMETER
#include "motion/AccelerometerThread.h"
AccelerometerThread *accelerometerThread = nullptr;
#endif
#ifdef HAS_I2S
#include "AudioThread.h"
AudioThread *audioThread = nullptr;
#endif
#ifdef USE_XL9555
#include "ExtensionIOXL9555.hpp"
ExtensionIOXL9555 io;
#endif
#if HAS_TFT
extern void tftSetup(void);
#endif
#ifdef HAS_UDP_MULTICAST
#include "mesh/udp/UdpMulticastHandler.h"
UdpMulticastHandler *udpHandler = nullptr;
#endif
#if defined(TCXO_OPTIONAL)
float tcxoVoltage = SX126X_DIO3_TCXO_VOLTAGE; // if TCXO is optional, put this here so it can be changed further down.
#endif
#ifdef MESHTASTIC_INCLUDE_NICHE_GRAPHICS
void setupNicheGraphics();
#include "nicheGraphics.h"
#endif
#if defined(HW_SPI1_DEVICE) && defined(ARCH_ESP32)
SPIClass SPI1(HSPI);
#endif
using namespace concurrency;
volatile static const char slipstreamTZString[] = {USERPREFS_TZ_STRING};
// We always create a screen object, but we only init it if we find the hardware
graphics::Screen *screen = nullptr;
// Global power status
meshtastic::PowerStatus *powerStatus = new meshtastic::PowerStatus();
// Global GPS status
meshtastic::GPSStatus *gpsStatus = new meshtastic::GPSStatus();
// Global Node status
meshtastic::NodeStatus *nodeStatus = new meshtastic::NodeStatus();
// Global Bluetooth status
meshtastic::BluetoothStatus *bluetoothStatus = new meshtastic::BluetoothStatus();
// Scan for I2C Devices
/// The I2C address of our display (if found)
ScanI2C::DeviceAddress screen_found = ScanI2C::ADDRESS_NONE;
// The I2C address of the cardkb or RAK14004 (if found)
ScanI2C::DeviceAddress cardkb_found = ScanI2C::ADDRESS_NONE;
// 0x02 for RAK14004, 0x00 for cardkb, 0x10 for T-Deck
uint8_t kb_model;
// global bool to record that a kb is present
bool kb_found = false;
// global bool to record that on-screen keyboard (OSK) is present
bool osk_found = false;
// The I2C address of the RTC Module (if found)
ScanI2C::DeviceAddress rtc_found = ScanI2C::ADDRESS_NONE;
// The I2C address of the Accelerometer (if found)
ScanI2C::DeviceAddress accelerometer_found = ScanI2C::ADDRESS_NONE;
// The I2C address of the RGB LED (if found)
ScanI2C::FoundDevice rgb_found = ScanI2C::FoundDevice(ScanI2C::DeviceType::NONE, ScanI2C::ADDRESS_NONE);
/// The I2C address of our Air Quality Indicator (if found)
ScanI2C::DeviceAddress aqi_found = ScanI2C::ADDRESS_NONE;
#ifdef HAS_DRV2605
Adafruit_DRV2605 drv;
#endif
bool isVibrating = false;
bool eink_found = true;
uint32_t serialSinceMsec;
bool pauseBluetoothLogging = false;
bool pmu_found;
#if !MESHTASTIC_EXCLUDE_I2C
// Array map of sensor types with i2c address and wire as we'll find in the i2c scan
std::pair<uint8_t, TwoWire *> nodeTelemetrySensorsMap[_meshtastic_TelemetrySensorType_MAX + 1] = {};
#endif
Router *router = NULL; // Users of router don't care what sort of subclass implements that API
const char *firmware_version = optstr(APP_VERSION_SHORT);
const char *getDeviceName()
{
uint8_t dmac[6];
getMacAddr(dmac);
// Meshtastic_ab3c or Shortname_abcd
static char name[20];
snprintf(name, sizeof(name), "%02x%02x", dmac[4], dmac[5]);
// if the shortname exists and is NOT the new default of ab3c, use it for BLE name.
if (strcmp(owner.short_name, name) != 0) {
snprintf(name, sizeof(name), "%s_%02x%02x", owner.short_name, dmac[4], dmac[5]);
} else {
snprintf(name, sizeof(name), "Meshtastic_%02x%02x", dmac[4], dmac[5]);
}
return name;
}
uint32_t timeLastPowered = 0;
static OSThread *powerFSMthread;
OSThread *ambientLightingThread;
RadioLibHal *RadioLibHAL = NULL;
/**
* Some platforms (nrf52) might provide an alterate version that suppresses calling delay from sleep.
*/
__attribute__((weak, noinline)) bool loopCanSleep()
{
return true;
}
// Weak empty variant initialization function.
// May be redefined by variant files.
void lateInitVariant() __attribute__((weak));
void lateInitVariant() {}
void earlyInitVariant() __attribute__((weak));
void earlyInitVariant() {}
// NRF52 (and probably other platforms) can report when system is in power failure mode
// (eg. too low battery voltage) and operating it is unsafe (data corruption, bootloops, etc).
// For example NRF52 will prevent any flash writes in that case automatically
// (but it causes issues we need to handle).
// This detection is independent from whatever ADC or dividers used in Meshtastic
// boards and is internal to chip.
// we use powerHAL layer to get this info and delay booting until power level is safe
// wait until power level is safe to continue booting (to avoid bootloops)
// blink user led in 3 flashes sequence to indicate what is happening
void waitUntilPowerLevelSafe()
{
while (powerHAL_isPowerLevelSafe() == false) {
#ifdef LED_POWER
// 3x: blink for 300 ms, pause for 300 ms
for (int i = 0; i < 3; i++) {
digitalWrite(LED_POWER, LED_STATE_ON);
delay(300);
digitalWrite(LED_POWER, LED_STATE_OFF);
delay(300);
}
#endif
// sleep for 2s
delay(2000);
}
}
/**
* Print info as a structured log message (for automated log processing)
*/
void printInfo()
{
LOG_INFO("S:B:%d,%s,%s,%s", HW_VENDOR, optstr(APP_VERSION), optstr(APP_ENV), optstr(APP_REPO));
}
#ifndef PIO_UNIT_TESTING
void setup()
{
// initialize power HAL layer as early as possible
powerHAL_init();
#ifdef LED_POWER
pinMode(LED_POWER, OUTPUT);
digitalWrite(LED_POWER, LED_STATE_ON);
#endif
// prevent booting if device is in power failure mode
// boot sequence will follow when battery level raises to safe mode
waitUntilPowerLevelSafe();
// Defined in variant.cpp for early init code
earlyInitVariant();
#if defined(PIN_POWER_EN)
pinMode(PIN_POWER_EN, OUTPUT);
digitalWrite(PIN_POWER_EN, HIGH);
#endif
#ifdef LED_NOTIFICATION
pinMode(LED_NOTIFICATION, OUTPUT);
digitalWrite(LED_NOTIFICATION, HIGH ^ LED_STATE_ON);
#endif
#ifdef WIFI_LED
pinMode(WIFI_LED, OUTPUT);
digitalWrite(WIFI_LED, LOW);
#endif
#ifdef BLE_LED
pinMode(BLE_LED, OUTPUT);
digitalWrite(BLE_LED, LED_STATE_OFF);
#endif
concurrency::hasBeenSetup = true;
#if HAS_SCREEN
meshtastic_Config_DisplayConfig_OledType screen_model =
meshtastic_Config_DisplayConfig_OledType::meshtastic_Config_DisplayConfig_OledType_OLED_AUTO;
#endif
OLEDDISPLAY_GEOMETRY screen_geometry = GEOMETRY_128_64;
#ifdef USE_SEGGER
auto mode = false ? SEGGER_RTT_MODE_BLOCK_IF_FIFO_FULL : SEGGER_RTT_MODE_NO_BLOCK_TRIM;
#ifdef NRF52840_XXAA
auto buflen = 4096; // this board has a fair amount of ram
#else
auto buflen = 256; // this board has a fair amount of ram
#endif
SEGGER_RTT_ConfigUpBuffer(SEGGER_STDOUT_CH, NULL, NULL, buflen, mode);
#endif
#ifdef DEBUG_PORT
consoleInit(); // Set serial baud rate and init our mesh console
#endif
#ifdef UNPHONE
unphone.printStore();
#endif
#if ARCH_PORTDUINO
RTCQuality ourQuality = RTCQualityDevice;
std::string timeCommandResult = exec("timedatectl status | grep synchronized | grep yes -c");
if (timeCommandResult[0] == '1') {
ourQuality = RTCQualityNTP;
}
struct timeval tv;
tv.tv_sec = time(NULL);
tv.tv_usec = 0;
perhapsSetRTC(ourQuality, &tv);
#endif
powerMonInit();
serialSinceMsec = millis();
LOG_INFO("\n\n//\\ E S H T /\\ S T / C\n");
#if defined(ARCH_ESP32) && defined(BOARD_HAS_PSRAM)
#ifndef SENSECAP_INDICATOR
// use PSRAM for malloc calls > 2048 bytes
heap_caps_malloc_extmem_enable(2048);
#endif
#endif
#if defined(DEBUG_MUTE) && defined(DEBUG_PORT)
DEBUG_PORT.printf("\r\n\r\n//\\ E S H T /\\ S T / C\r\n");
DEBUG_PORT.printf("Version %s for %s from %s\r\n", optstr(APP_VERSION), optstr(APP_ENV), optstr(APP_REPO));
DEBUG_PORT.printf("Debug mute is enabled, there will be no serial output.\r\n");
#endif
initDeepSleep();
#if defined(MODEM_POWER_EN)
pinMode(MODEM_POWER_EN, OUTPUT);
digitalWrite(MODEM_POWER_EN, LOW);
#endif
#if defined(MODEM_PWRKEY)
pinMode(MODEM_PWRKEY, OUTPUT);
digitalWrite(MODEM_PWRKEY, LOW);
#endif
#if defined(LORA_TCXO_GPIO)
pinMode(LORA_TCXO_GPIO, OUTPUT);
digitalWrite(LORA_TCXO_GPIO, HIGH);
#endif
#if defined(VEXT_ENABLE)
pinMode(VEXT_ENABLE, OUTPUT);
digitalWrite(VEXT_ENABLE, VEXT_ON_VALUE); // turn on the display power
#endif
#if defined(BIAS_T_ENABLE)
pinMode(BIAS_T_ENABLE, OUTPUT);
digitalWrite(BIAS_T_ENABLE, BIAS_T_VALUE); // turn on 5V for GPS Antenna
#endif
#if defined(VTFT_CTRL)
pinMode(VTFT_CTRL, OUTPUT);
digitalWrite(VTFT_CTRL, LOW);
#endif
#ifdef RESET_OLED
pinMode(RESET_OLED, OUTPUT);
digitalWrite(RESET_OLED, 1);
delay(2);
digitalWrite(RESET_OLED, 0);
delay(10);
digitalWrite(RESET_OLED, 1);
#endif
#ifdef SENSOR_POWER_CTRL_PIN
pinMode(SENSOR_POWER_CTRL_PIN, OUTPUT);
digitalWrite(SENSOR_POWER_CTRL_PIN, SENSOR_POWER_ON);
#endif
#ifdef SENSOR_GPS_CONFLICT
bool sensor_detected = false;
#endif
#ifdef PERIPHERAL_WARMUP_MS
// Some peripherals may require additional time to stabilize after power is connected
// e.g. I2C on Heltec Vision Master
LOG_INFO("Wait for peripherals to stabilize");
delay(PERIPHERAL_WARMUP_MS);
#endif
initSPI();
OSThread::setup();
fsInit();
#if !MESHTASTIC_EXCLUDE_I2C
#if defined(I2C_SDA1) && defined(ARCH_RP2040)
Wire1.setSDA(I2C_SDA1);
Wire1.setSCL(I2C_SCL1);
Wire1.begin();
#elif defined(I2C_SDA1) && !defined(ARCH_RP2040)
Wire1.begin(I2C_SDA1, I2C_SCL1);
#elif WIRE_INTERFACES_COUNT == 2
Wire1.begin();
#endif
#if defined(I2C_SDA) && defined(ARCH_RP2040)
Wire.setSDA(I2C_SDA);
Wire.setSCL(I2C_SCL);
Wire.begin();
#elif defined(I2C_SDA) && !defined(ARCH_RP2040)
LOG_INFO("Starting Bus with (SDA) %d and (SCL) %d: ", I2C_SDA, I2C_SCL);
Wire.begin(I2C_SDA, I2C_SCL);
#elif defined(ARCH_PORTDUINO)
if (portduino_config.i2cdev != "") {
LOG_INFO("Use %s as I2C device", portduino_config.i2cdev.c_str());
Wire.begin(portduino_config.i2cdev.c_str());
} else {
LOG_INFO("No I2C device configured, Skip");
}
#elif HAS_WIRE
Wire.begin();
#endif
#endif
#if defined(M5STACK_UNITC6L)
pinMode(LORA_CS, OUTPUT);
digitalWrite(LORA_CS, 1);
c6l_init();
#endif
#ifdef PIN_LCD_RESET
// FIXME - move this someplace better, LCD is at address 0x3F
pinMode(PIN_LCD_RESET, OUTPUT);
digitalWrite(PIN_LCD_RESET, 0);
delay(1);
digitalWrite(PIN_LCD_RESET, 1);
delay(1);
#endif
#ifdef AQ_SET_PIN
// RAK-12039 set pin for Air quality sensor. Detectable on I2C after ~3 seconds, so we need to rescan later
pinMode(AQ_SET_PIN, OUTPUT);
digitalWrite(AQ_SET_PIN, HIGH);
#endif
// Currently only the tbeam has a PMU
// PMU initialization needs to be placed before i2c scanning
power = new Power();
power->setStatusHandler(powerStatus);
powerStatus->observe(&power->newStatus);
power->setup(); // Must be after status handler is installed, so that handler gets notified of the initial configuration
#if !MESHTASTIC_EXCLUDE_I2C
// We need to scan here to decide if we have a screen for nodeDB.init() and because power has been applied to
// accessories
auto i2cScanner = std::unique_ptr<ScanI2CTwoWire>(new ScanI2CTwoWire());
#if HAS_WIRE
LOG_INFO("Scan for i2c devices");
#endif
#if defined(I2C_SDA1) || (defined(NRF52840_XXAA) && (WIRE_INTERFACES_COUNT == 2))
i2cScanner->scanPort(ScanI2C::I2CPort::WIRE1);
#endif
#if defined(I2C_SDA)
i2cScanner->scanPort(ScanI2C::I2CPort::WIRE);
#elif defined(ARCH_PORTDUINO)
if (portduino_config.i2cdev != "") {
LOG_INFO("Scan for i2c devices");
i2cScanner->scanPort(ScanI2C::I2CPort::WIRE);
}
#elif HAS_WIRE
i2cScanner->scanPort(ScanI2C::I2CPort::WIRE);
#endif
auto i2cCount = i2cScanner->countDevices();
if (i2cCount == 0) {
LOG_INFO("No I2C devices found");
} else {
LOG_INFO("%i I2C devices found", i2cCount);
#ifdef SENSOR_GPS_CONFLICT
sensor_detected = true;
#endif
}
#ifdef ARCH_ESP32
#ifdef DEBUG_PARTITION_TABLE
printPartitionTable();
#endif
#endif // ARCH_ESP32
#ifdef ARCH_ESP32
// Don't init display if we don't have one or we are waking headless due to a timer event
if (wakeCause == ESP_SLEEP_WAKEUP_TIMER) {
LOG_DEBUG("suppress screen wake because this is a headless timer wakeup");
i2cScanner->setSuppressScreen();
}
#endif
#if HAS_SCREEN
auto screenInfo = i2cScanner->firstScreen();
screen_found = screenInfo.type != ScanI2C::DeviceType::NONE ? screenInfo.address : ScanI2C::ADDRESS_NONE;
if (screen_found.port != ScanI2C::I2CPort::NO_I2C) {
switch (screenInfo.type) {
case ScanI2C::DeviceType::SCREEN_SH1106:
screen_model = meshtastic_Config_DisplayConfig_OledType::meshtastic_Config_DisplayConfig_OledType_OLED_SH1106;
break;
case ScanI2C::DeviceType::SCREEN_SSD1306:
screen_model = meshtastic_Config_DisplayConfig_OledType::meshtastic_Config_DisplayConfig_OledType_OLED_SSD1306;
break;
case ScanI2C::DeviceType::SCREEN_ST7567:
case ScanI2C::DeviceType::SCREEN_UNKNOWN:
default:
screen_model = meshtastic_Config_DisplayConfig_OledType::meshtastic_Config_DisplayConfig_OledType_OLED_AUTO;
}
}
#endif
#define UPDATE_FROM_SCANNER(FIND_FN)
#if defined(USE_VIRTUAL_KEYBOARD)
kb_found = true;
#endif
auto rtc_info = i2cScanner->firstRTC();
rtc_found = rtc_info.type != ScanI2C::DeviceType::NONE ? rtc_info.address : rtc_found;
auto kb_info = i2cScanner->firstKeyboard();
if (kb_info.type != ScanI2C::DeviceType::NONE) {
kb_found = true;
cardkb_found = kb_info.address;
switch (kb_info.type) {
case ScanI2C::DeviceType::RAK14004:
kb_model = 0x02;
break;
case ScanI2C::DeviceType::CARDKB:
kb_model = 0x00;
break;
case ScanI2C::DeviceType::TDECKKB:
// assign an arbitrary value to distinguish from other models
kb_model = 0x10;
break;
case ScanI2C::DeviceType::BBQ10KB:
// assign an arbitrary value to distinguish from other models
kb_model = 0x11;
break;
case ScanI2C::DeviceType::MPR121KB:
// assign an arbitrary value to distinguish from other models
kb_model = 0x37;
break;
case ScanI2C::DeviceType::TCA8418KB:
// assign an arbitrary value to distinguish from other models
kb_model = 0x84;
break;
default:
// use this as default since it's also just zero
LOG_WARN("kb_info.type is unknown(0x%02x), setting kb_model=0x00", kb_info.type);
kb_model = 0x00;
}
}
pmu_found = i2cScanner->exists(ScanI2C::DeviceType::PMU_AXP192_AXP2101);
auto aqiInfo = i2cScanner->firstAQI();
aqi_found = aqiInfo.type != ScanI2C::DeviceType::NONE ? aqiInfo.address : ScanI2C::ADDRESS_NONE;
/*
* There are a bunch of sensors that have no further logic than to be found and stuffed into the
* nodeTelemetrySensorsMap singleton. This wraps that logic in a temporary scope to declare the temporary field
* "found".
*/
// Two supported RGB LED currently
#ifdef HAS_RGB_LED
rgb_found = i2cScanner->firstRGBLED();
#endif
#ifdef HAS_TPS65233
// TPS65233 is a power management IC for satellite modems, used in the Dreamcatcher
// We are switching it off here since we don't use an LNB.
if (i2cScanner->exists(ScanI2C::DeviceType::TPS65233)) {
Wire.beginTransmission(TPS65233_ADDR);
Wire.write(0); // Register 0
Wire.write(128); // Turn off the LNB power, keep I2C Control enabled
Wire.endTransmission();
Wire.beginTransmission(TPS65233_ADDR);
Wire.write(1); // Register 1
Wire.write(0); // Turn off Tone Generator 22kHz
Wire.endTransmission();
}
#endif
#if !defined(ARCH_STM32WL) && !MESHTASTIC_EXCLUDE_ACCELEROMETER
auto acc_info = i2cScanner->firstAccelerometer();
accelerometer_found = acc_info.type != ScanI2C::DeviceType::NONE ? acc_info.address : accelerometer_found;
LOG_DEBUG("acc_info = %i", acc_info.type);
#endif
scannerToSensorsMap(i2cScanner, ScanI2C::DeviceType::INA260, meshtastic_TelemetrySensorType_INA260);
scannerToSensorsMap(i2cScanner, ScanI2C::DeviceType::INA226, meshtastic_TelemetrySensorType_INA226);
scannerToSensorsMap(i2cScanner, ScanI2C::DeviceType::INA219, meshtastic_TelemetrySensorType_INA219);
scannerToSensorsMap(i2cScanner, ScanI2C::DeviceType::INA3221, meshtastic_TelemetrySensorType_INA3221);
scannerToSensorsMap(i2cScanner, ScanI2C::DeviceType::MAX17048, meshtastic_TelemetrySensorType_MAX17048);
scannerToSensorsMap(i2cScanner, ScanI2C::DeviceType::QMC6310U, meshtastic_TelemetrySensorType_QMC6310);
// TODO: Types need to be added meshtastic_TelemetrySensorType_QMC6310N
// scannerToSensorsMap(i2cScanner, ScanI2C::DeviceType::QMC6310N, meshtastic_TelemetrySensorType_QMC6310N);
scannerToSensorsMap(i2cScanner, ScanI2C::DeviceType::QMI8658, meshtastic_TelemetrySensorType_QMI8658);
scannerToSensorsMap(i2cScanner, ScanI2C::DeviceType::QMC5883L, meshtastic_TelemetrySensorType_QMC5883L);
scannerToSensorsMap(i2cScanner, ScanI2C::DeviceType::HMC5883L, meshtastic_TelemetrySensorType_QMC5883L);
scannerToSensorsMap(i2cScanner, ScanI2C::DeviceType::MLX90614, meshtastic_TelemetrySensorType_MLX90614);
scannerToSensorsMap(i2cScanner, ScanI2C::DeviceType::ICM20948, meshtastic_TelemetrySensorType_ICM20948);
scannerToSensorsMap(i2cScanner, ScanI2C::DeviceType::MAX30102, meshtastic_TelemetrySensorType_MAX30102);
#endif
#ifdef HAS_SDCARD
setupSDCard();
#endif
// Hello
printInfo();
#ifdef BUILD_EPOCH
LOG_INFO("Build timestamp: %ld", BUILD_EPOCH);
#endif
#ifdef ARCH_ESP32
esp32Setup();
#endif
#ifdef ARCH_NRF52
nrf52Setup();
#endif
#ifdef ARCH_RP2040
rp2040Setup();
#endif
// We do this as early as possible because this loads preferences from flash
// but we need to do this after main cpu init (esp32setup), because we need the random seed set
nodeDB = new NodeDB;
// Initialize transmit history to persist broadcast throttle timers across reboots
TransmitHistory::getInstance()->loadFromDisk();
// Bounded local client-app metadata store (see modules/ClientAppDataStore.h).
// Loads /prefs/clientappdata.proto if present; missing/corrupt -> empty store.
ClientAppDataStore::init();
#if HAS_TFT
if (config.display.displaymode == meshtastic_Config_DisplayConfig_DisplayMode_COLOR) {
tftSetup();
}
#endif
router = new ReliableRouter();
// only play start melody when role is not tracker or sensor
if (config.power.is_power_saving == true &&
IS_ONE_OF(config.device.role, meshtastic_Config_DeviceConfig_Role_TRACKER,
meshtastic_Config_DeviceConfig_Role_TAK_TRACKER, meshtastic_Config_DeviceConfig_Role_SENSOR))
LOG_DEBUG("Tracker/Sensor: Skip start melody");
else
playStartMelody();
#if HAS_SCREEN
// fixed screen override?
#if defined(USE_SH1107)
screen_model = meshtastic_Config_DisplayConfig_OledType_OLED_SH1107; // set dimension of 128x128
screen_geometry = GEOMETRY_128_128;
#elif defined(USE_SH1107_128_64)
screen_model = meshtastic_Config_DisplayConfig_OledType_OLED_SH1107; // keep dimension of 128x64
#else
if (config.display.oled != meshtastic_Config_DisplayConfig_OledType_OLED_AUTO)
screen_model = config.display.oled;
#endif
#endif
#if !MESHTASTIC_EXCLUDE_I2C
#if !defined(ARCH_STM32WL) && !MESHTASTIC_EXCLUDE_ACCELEROMETER
if (acc_info.type != ScanI2C::DeviceType::NONE) {
accelerometerThread = new AccelerometerThread(acc_info.type);
}
#endif
#if defined(HAS_NEOPIXEL) || defined(UNPHONE) || defined(RGBLED_RED)
ambientLightingThread = new AmbientLightingThread(ScanI2C::DeviceType::NONE);
#elif !defined(ARCH_PORTDUINO) && !defined(ARCH_STM32WL)
if (rgb_found.type != ScanI2C::DeviceType::NONE) {
ambientLightingThread = new AmbientLightingThread(rgb_found.type);
}
#endif
#endif
#ifdef HAS_DRV2605
#if defined(PIN_DRV_EN)
pinMode(PIN_DRV_EN, OUTPUT);
digitalWrite(PIN_DRV_EN, HIGH);
delay(10);
#endif
drv.begin();
drv.selectLibrary(1);
// I2C trigger by sending 'go' command
drv.setMode(DRV2605_MODE_INTTRIG);
#endif
// Init our SPI controller (must be before screen and lora)
#ifdef ARCH_RP2040
#ifdef HW_SPI1_DEVICE
SPI1.setSCK(LORA_SCK);
SPI1.setTX(LORA_MOSI);
SPI1.setRX(LORA_MISO);
pinMode(LORA_CS, OUTPUT);
digitalWrite(LORA_CS, HIGH);
SPI1.begin(false);
#else // HW_SPI1_DEVICE
SPI.setSCK(LORA_SCK);
SPI.setTX(LORA_MOSI);
SPI.setRX(LORA_MISO);
SPI.begin(false);
#endif // HW_SPI1_DEVICE
#elif ARCH_PORTDUINO
if (portduino_config.lora_spi_dev != "ch341") {
SPI.begin();
}
#elif !defined(ARCH_ESP32) // ARCH_RP2040
#if defined(RAK3401) || defined(RAK13302)
pinMode(WB_IO2, OUTPUT);
digitalWrite(WB_IO2, HIGH);
SPI1.setPins(LORA_MISO, LORA_SCK, LORA_MOSI);
SPI1.begin();
#else
SPI.begin();
#endif
#else
// ESP32
#if defined(HW_SPI1_DEVICE)
SPI1.begin(LORA_SCK, LORA_MISO, LORA_MOSI, LORA_CS);
LOG_DEBUG("SPI1.begin(SCK=%d, MISO=%d, MOSI=%d, NSS=%d)", LORA_SCK, LORA_MISO, LORA_MOSI, LORA_CS);
SPI1.setFrequency(4000000);
#else
SPI.begin(LORA_SCK, LORA_MISO, LORA_MOSI, LORA_CS);
LOG_DEBUG("SPI.begin(SCK=%d, MISO=%d, MOSI=%d, NSS=%d)", LORA_SCK, LORA_MISO, LORA_MOSI, LORA_CS);
SPI.setFrequency(4000000);
#endif
#endif
// Initialize the screen first so we can show the logo while we start up everything else.
#if HAS_SCREEN
if (config.display.displaymode != meshtastic_Config_DisplayConfig_DisplayMode_COLOR) {
#if defined(ST7701_CS) || defined(ST7735_CS) || defined(USE_EINK) || defined(ILI9341_DRIVER) || defined(ILI9342_DRIVER) || \
defined(ST7789_CS) || defined(HX8357_CS) || defined(USE_ST7789) || defined(ILI9488_CS) || defined(ST7796_CS) || \
defined(USE_SPISSD1306) || defined(USE_ST7796) || defined(HACKADAY_COMMUNICATOR)
screen = new graphics::Screen(screen_found, screen_model, screen_geometry);
#elif defined(ARCH_PORTDUINO)
if ((screen_found.port != ScanI2C::I2CPort::NO_I2C || portduino_config.displayPanel) &&
config.display.displaymode != meshtastic_Config_DisplayConfig_DisplayMode_COLOR) {
screen = new graphics::Screen(screen_found, screen_model, screen_geometry);
}
#else
if (screen_found.port != ScanI2C::I2CPort::NO_I2C)
screen = new graphics::Screen(screen_found, screen_model, screen_geometry);
#endif
}
#endif // HAS_SCREEN
// TODO Remove magic string
// setup TZ prior to time actions.
#if !MESHTASTIC_EXCLUDE_TZ
LOG_DEBUG("Use compiled/slipstreamed %s", slipstreamTZString); // important, removing this clobbers our magic string
if (*config.device.tzdef && config.device.tzdef[0] != 0) {
LOG_DEBUG("Saved TZ: %s ", config.device.tzdef);
setenv("TZ", config.device.tzdef, 1);
} else {
if (strncmp((const char *)slipstreamTZString, "tzpl", 4) == 0) {
setenv("TZ", "GMT0", 1);
} else {
setenv("TZ", (const char *)slipstreamTZString, 1);
strcpy(config.device.tzdef, (const char *)slipstreamTZString);
}
}
tzset();
LOG_DEBUG("Set Timezone to %s", getenv("TZ"));
#endif
readFromRTC(); // read the main CPU RTC at first (in case we can't get GPS time)
#if !MESHTASTIC_EXCLUDE_GPS
// If we're taking on the repeater role, ignore GPS
#ifdef SENSOR_GPS_CONFLICT
if (sensor_detected == false) {
#endif
if (HAS_GPS) {
if (config.position.gps_mode != meshtastic_Config_PositionConfig_GpsMode_NOT_PRESENT) {
gps = GPS::createGps();
if (gps) {
gpsStatus->observe(&gps->newStatus);
} else {
LOG_DEBUG("Run without GPS");
}
}
}
#ifdef SENSOR_GPS_CONFLICT
}
#endif
#endif
nodeStatus->observe(&nodeDB->newStatus);
#ifdef HAS_I2S
LOG_DEBUG("Start audio thread");
audioThread = new AudioThread();
#endif
#ifdef HAS_UDP_MULTICAST
LOG_DEBUG("Start multicast thread");
udpHandler = new UdpMulticastHandler();
#ifdef ARCH_PORTDUINO
// FIXME: portduino does not ever call onNetworkConnected so call it here because I don't know what happen if I call
// onNetworkConnected there
if (config.network.enabled_protocols & meshtastic_Config_NetworkConfig_ProtocolFlags_UDP_BROADCAST) {
udpHandler->start();
}
#endif
#endif
service = new MeshService();
service->init();
// Set osk_found for trackball/encoder devices BEFORE setupModules so CannedMessageModule can detect it
#if defined(HAS_TRACKBALL) || (defined(INPUTDRIVER_ENCODER_TYPE) && INPUTDRIVER_ENCODER_TYPE == 2)
#ifndef HAS_PHYSICAL_KEYBOARD
osk_found = true;
#endif
#endif
// Now that the mesh service is created, create any modules
setupModules();
#if !MESHTASTIC_EXCLUDE_I2C
// Inform modules about I2C devices
ScanI2CCompleted(i2cScanner.get());
i2cScanner.reset();
#endif
#if !defined(MESHTASTIC_EXCLUDE_PKI)
// warn the user about a low entropy key
if (nodeDB->keyIsLowEntropy && !nodeDB->hasWarned) {
LOG_WARN(LOW_ENTROPY_WARNING);
meshtastic_ClientNotification *cn = clientNotificationPool.allocZeroed();
cn->level = meshtastic_LogRecord_Level_WARNING;
cn->time = getValidTime(RTCQualityFromNet);
sprintf(cn->message, LOW_ENTROPY_WARNING);
service->sendClientNotification(cn);
nodeDB->hasWarned = true;
}
#endif
#if !MESHTASTIC_EXCLUDE_INPUTBROKER
if (inputBroker)
inputBroker->Init();
#endif
#ifdef MESHTASTIC_INCLUDE_NICHE_GRAPHICS
// After modules are setup, so we can observe modules
setupNicheGraphics();
#endif
// Do this after service.init (because that clears error_code)
#ifdef HAS_PMU
if (!pmu_found)
RECORD_CRITICALERROR(meshtastic_CriticalErrorCode_NO_AXP192); // Record a hardware fault for missing hardware
#endif
#if !MESHTASTIC_EXCLUDE_I2C
// Don't call screen setup until after nodedb is setup (because we need
// the current region name)
#if defined(ST7701_CS) || defined(ST7735_CS) || defined(USE_EINK) || defined(ILI9341_DRIVER) || defined(ILI9342_DRIVER) || \
defined(ST7789_CS) || defined(HX8357_CS) || defined(USE_ST7789) || defined(ILI9488_CS) || defined(ST7796_CS) || \
defined(USE_ST7796) || defined(USE_SPISSD1306) || defined(HACKADAY_COMMUNICATOR)
if (screen)
screen->setup();
#elif defined(ARCH_PORTDUINO)
if ((screen_found.port != ScanI2C::I2CPort::NO_I2C || portduino_config.displayPanel) &&
config.display.displaymode != meshtastic_Config_DisplayConfig_DisplayMode_COLOR) {
screen->setup();
}
#else
if (screen_found.port != ScanI2C::I2CPort::NO_I2C && screen)
screen->setup();
#endif
#endif
auto rIf = initLoRa();
lateInitVariant(); // Do board specific init (see extra_variants/README.md for documentation)
#if !MESHTASTIC_EXCLUDE_MQTT
mqttInit();
#endif
#ifdef RF95_FAN_EN
// Ability to disable FAN if PIN has been set with RF95_FAN_EN.
// Make sure LoRa has been started before disabling FAN.
if (config.lora.pa_fan_disabled)
digitalWrite(RF95_FAN_EN, LOW ^ 0);
#endif
#ifndef ARCH_PORTDUINO
// Initialize Wifi
#if HAS_WIFI
initWifi();
#endif
#if HAS_ETHERNET
// Initialize Ethernet
initEthernet();
#endif
#endif
#if defined(ARCH_ESP32) && !MESHTASTIC_EXCLUDE_WEBSERVER
// Start web server thread.
webServerThread = new WebServerThread();
#endif
#ifdef ARCH_PORTDUINO
#if __has_include(<ulfius.h>)
if (portduino_config.webserverport != -1) {
piwebServerThread = new PiWebServerThread();
std::atexit([] { delete piwebServerThread; });
}
#endif
initApiServer(TCPPort);
#endif