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# define WLED_DEFINE_GLOBAL_VARS //only in one source file, wled.cpp!
# include "wled.h"
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# include "wled_ethernet.h"
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# include <Arduino.h>
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# if defined(ARDUINO_ARCH_ESP32) && defined(WLED_DISABLE_BROWNOUT_DET)
# include "soc/soc.h"
# include "soc/rtc_cntl_reg.h"
# endif
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/*
* Main WLED class implementation . Mostly initialization and connection logic
*/
WLED : : WLED ( )
{
}
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// turns all LEDs off and restarts ESP
void WLED : : reset ( )
{
briT = 0 ;
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# ifdef WLED_ENABLE_WEBSOCKETS
ws . closeAll ( 1012 ) ;
# endif
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long dly = millis ( ) ;
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while ( millis ( ) - dly < 450 ) {
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yield ( ) ; // enough time to send response to client
}
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applyBri ( ) ;
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DEBUG_PRINTLN ( F ( " WLED RESET " ) ) ;
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ESP . restart ( ) ;
}
void WLED : : loop ( )
{
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# ifdef WLED_DEBUG
static unsigned long maxUsermodMillis = 0 ;
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static uint16_t avgUsermodMillis = 0 ;
static unsigned long maxStripMillis = 0 ;
static uint16_t avgStripMillis = 0 ;
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# endif
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handleTime ( ) ;
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handleIR ( ) ; // 2nd call to function needed for ESP32 to return valid results -- should be good for ESP8266, too
handleConnection ( ) ;
handleSerial ( ) ;
handleNotifications ( ) ;
handleTransitions ( ) ;
# ifdef WLED_ENABLE_DMX
handleDMX ( ) ;
# endif
userLoop ( ) ;
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# ifdef WLED_DEBUG
unsigned long usermodMillis = millis ( ) ;
# endif
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usermods . loop ( ) ;
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# ifdef WLED_DEBUG
usermodMillis = millis ( ) - usermodMillis ;
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avgUsermodMillis + = usermodMillis ;
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if ( usermodMillis > maxUsermodMillis ) maxUsermodMillis = usermodMillis ;
# endif
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yield ( ) ;
handleIO ( ) ;
handleIR ( ) ;
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# ifndef WLED_DISABLE_ALEXA
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handleAlexa ( ) ;
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# endif
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yield ( ) ;
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if ( doSerializeConfig ) serializeConfig ( ) ;
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if ( doReboot & & ! doInitBusses ) // if busses have to be inited & saved, wait until next iteration
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reset ( ) ;
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if ( doCloseFile ) {
closeFile ( ) ;
yield ( ) ;
}
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if ( ! realtimeMode | | realtimeOverride | | ( realtimeMode & & useMainSegmentOnly ) ) // block stuff if WARLS/Adalight is enabled
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{
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if ( apActive ) dnsServer . processNextRequest ( ) ;
# ifndef WLED_DISABLE_OTA
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if ( WLED_CONNECTED & & aOtaEnabled & & ! otaLock & & correctPIN ) ArduinoOTA . handle ( ) ;
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# endif
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handleNightlight ( ) ;
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handlePlaylist ( ) ;
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yield ( ) ;
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# ifndef WLED_DISABLE_HUESYNC
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handleHue ( ) ;
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yield ( ) ;
# endif
# ifndef WLED_DISABLE_BLYNK
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handleBlynk ( ) ;
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yield ( ) ;
# endif
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handlePresets ( ) ;
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yield ( ) ;
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# ifdef WLED_DEBUG
unsigned long stripMillis = millis ( ) ;
# endif
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if ( ! offMode | | strip . isOffRefreshRequired ( ) )
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strip . service ( ) ;
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# ifdef ESP8266
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else if ( ! noWifiSleep )
delay ( 1 ) ; //required to make sure ESP enters modem sleep (see #1184)
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# endif
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# ifdef WLED_DEBUG
stripMillis = millis ( ) - stripMillis ;
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if ( stripMillis > 50 ) DEBUG_PRINTLN ( " Slow strip. " ) ;
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avgStripMillis + = stripMillis ;
if ( stripMillis > maxStripMillis ) maxStripMillis = stripMillis ;
# endif
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}
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yield ( ) ;
# ifdef ESP8266
MDNS . update ( ) ;
# endif
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//millis() rolls over every 50 days
if ( lastMqttReconnectAttempt > millis ( ) ) {
rolloverMillis + + ;
lastMqttReconnectAttempt = 0 ;
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ntpLastSyncTime = 0 ;
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strip . restartRuntime ( ) ;
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}
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if ( millis ( ) - lastMqttReconnectAttempt > 30000 | | lastMqttReconnectAttempt = = 0 ) { // lastMqttReconnectAttempt==0 forces immediate broadcast
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lastMqttReconnectAttempt = millis ( ) ;
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initMqtt ( ) ;
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yield ( ) ;
// refresh WLED nodes list
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refreshNodeList ( ) ;
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if ( nodeBroadcastEnabled ) sendSysInfoUDP ( ) ;
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yield ( ) ;
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}
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// 15min PIN time-out
if ( strlen ( settingsPIN ) > 0 & & millis ( ) - lastEditTime > 900000 ) {
correctPIN = false ;
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createEditHandler ( false ) ;
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}
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//LED settings have been saved, re-init busses
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//This code block causes severe FPS drop on ESP32 with the original "if (busConfigs[0] != nullptr)" conditional. Investigate!
if ( doInitBusses ) {
doInitBusses = false ;
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DEBUG_PRINTLN ( F ( " Re-init busses. " ) ) ;
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bool aligned = strip . checkSegmentAlignment ( ) ; //see if old segments match old bus(ses)
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busses . removeAll ( ) ;
uint32_t mem = 0 ;
for ( uint8_t i = 0 ; i < WLED_MAX_BUSSES ; i + + ) {
if ( busConfigs [ i ] = = nullptr ) break ;
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mem + = BusManager : : memUsage ( * busConfigs [ i ] ) ;
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if ( mem < = MAX_LED_MEMORY ) {
busses . add ( * busConfigs [ i ] ) ;
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}
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delete busConfigs [ i ] ; busConfigs [ i ] = nullptr ;
}
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strip . finalizeInit ( ) ;
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loadLedmap = 0 ;
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if ( aligned ) strip . makeAutoSegments ( ) ;
else strip . fixInvalidSegments ( ) ;
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yield ( ) ;
serializeConfig ( ) ;
}
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if ( loadLedmap > = 0 ) {
strip . deserializeMap ( loadLedmap ) ;
loadLedmap = - 1 ;
}
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yield ( ) ;
handleWs ( ) ;
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handleStatusLED ( ) ;
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// DEBUG serial logging (every 30s)
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# ifdef WLED_DEBUG
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if ( millis ( ) - debugTime > 29999 ) {
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DEBUG_PRINTLN ( F ( " ---DEBUG INFO--- " ) ) ;
DEBUG_PRINT ( F ( " Runtime: " ) ) ; DEBUG_PRINTLN ( millis ( ) ) ;
DEBUG_PRINT ( F ( " Unix time: " ) ) ; toki . printTime ( toki . getTime ( ) ) ;
DEBUG_PRINT ( F ( " Free heap: " ) ) ; DEBUG_PRINTLN ( ESP . getFreeHeap ( ) ) ;
# if defined(ARDUINO_ARCH_ESP32) && defined(WLED_USE_PSRAM)
if ( psramFound ( ) ) {
DEBUG_PRINT ( F ( " Total PSRAM: " ) ) ; DEBUG_PRINT ( ESP . getPsramSize ( ) / 1024 ) ; DEBUG_PRINTLN ( " kB " ) ;
DEBUG_PRINT ( F ( " Free PSRAM: " ) ) ; DEBUG_PRINT ( ESP . getFreePsram ( ) / 1024 ) ; DEBUG_PRINTLN ( " kB " ) ;
} else
DEBUG_PRINTLN ( F ( " No PSRAM " ) ) ;
# endif
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DEBUG_PRINT ( F ( " Wifi state: " ) ) ; DEBUG_PRINTLN ( WiFi . status ( ) ) ;
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if ( WiFi . status ( ) ! = lastWifiState ) {
wifiStateChangedTime = millis ( ) ;
}
lastWifiState = WiFi . status ( ) ;
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DEBUG_PRINT ( F ( " State time: " ) ) ; DEBUG_PRINTLN ( wifiStateChangedTime ) ;
DEBUG_PRINT ( F ( " NTP last sync: " ) ) ; DEBUG_PRINTLN ( ntpLastSyncTime ) ;
DEBUG_PRINT ( F ( " Client IP: " ) ) ; DEBUG_PRINTLN ( Network . localIP ( ) ) ;
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if ( loops > 0 ) { // avoid division by zero
DEBUG_PRINT ( F ( " Loops/sec: " ) ) ; DEBUG_PRINTLN ( loops / 30 ) ;
DEBUG_PRINT ( F ( " UM time[ms]: " ) ) ; DEBUG_PRINT ( avgUsermodMillis / loops ) ; DEBUG_PRINT ( " / " ) ; DEBUG_PRINTLN ( maxUsermodMillis ) ;
DEBUG_PRINT ( F ( " Strip time[ms]: " ) ) ; DEBUG_PRINT ( avgStripMillis / loops ) ; DEBUG_PRINT ( " / " ) ; DEBUG_PRINTLN ( maxStripMillis ) ;
}
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strip . printSize ( ) ;
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loops = 0 ;
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maxUsermodMillis = 0 ;
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maxStripMillis = 0 ;
avgUsermodMillis = 0 ;
avgStripMillis = 0 ;
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debugTime = millis ( ) ;
}
loops + + ;
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# endif // WLED_DEBUG
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toki . resetTick ( ) ;
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# if WLED_WATCHDOG_TIMEOUT > 0
// we finished our mainloop, reset the watchdog timer
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if ( ! strip . isUpdating ( ) )
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# ifdef ARDUINO_ARCH_ESP32
esp_task_wdt_reset ( ) ;
# else
ESP . wdtFeed ( ) ;
# endif
# endif
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}
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void WLED : : enableWatchdog ( ) {
# if WLED_WATCHDOG_TIMEOUT > 0
# ifdef ARDUINO_ARCH_ESP32
esp_err_t watchdog = esp_task_wdt_init ( WLED_WATCHDOG_TIMEOUT , true ) ;
DEBUG_PRINT ( F ( " Watchdog enabled: " ) ) ;
if ( watchdog = = ESP_OK ) {
DEBUG_PRINTLN ( F ( " OK " ) ) ;
} else {
DEBUG_PRINTLN ( watchdog ) ;
return ;
}
esp_task_wdt_add ( NULL ) ;
# else
ESP . wdtEnable ( WLED_WATCHDOG_TIMEOUT * 1000 ) ;
# endif
# endif
}
void WLED : : disableWatchdog ( ) {
# if WLED_WATCHDOG_TIMEOUT > 0
DEBUG_PRINTLN ( F ( " Watchdog: disabled " ) ) ;
# ifdef ARDUINO_ARCH_ESP32
esp_task_wdt_delete ( NULL ) ;
# else
ESP . wdtDisable ( ) ;
# endif
# endif
}
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void WLED : : setup ( )
{
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# if defined(ARDUINO_ARCH_ESP32) && defined(WLED_DISABLE_BROWNOUT_DET)
WRITE_PERI_REG ( RTC_CNTL_BROWN_OUT_REG , 0 ) ; //disable brownout detection
# endif
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Serial . begin ( 115200 ) ;
Serial . setTimeout ( 50 ) ;
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# if defined(WLED_DEBUG) && defined(ARDUINO_ARCH_ESP32) && (defined(CONFIG_IDF_TARGET_ESP32S2) || defined(CONFIG_IDF_TARGET_ESP32C3) || ARDUINO_USB_CDC_ON_BOOT)
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delay ( 2500 ) ; // allow CDC USB serial to initialise
# endif
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DEBUG_PRINTLN ( ) ;
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DEBUG_PRINT ( F ( " ---WLED " ) ) ;
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DEBUG_PRINT ( versionString ) ;
DEBUG_PRINT ( " " ) ;
DEBUG_PRINT ( VERSION ) ;
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DEBUG_PRINTLN ( F ( " INIT--- " ) ) ;
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# ifdef ARDUINO_ARCH_ESP32
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DEBUG_PRINT ( F ( " esp32 " ) ) ;
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DEBUG_PRINTLN ( ESP . getSdkVersion ( ) ) ;
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# if defined(ESP_ARDUINO_VERSION)
//DEBUG_PRINTF(F("arduino-esp32 0x%06x\n"), ESP_ARDUINO_VERSION);
DEBUG_PRINTF ( " arduino-esp32 v%d.%d.%d \n " , int ( ESP_ARDUINO_VERSION_MAJOR ) , int ( ESP_ARDUINO_VERSION_MINOR ) , int ( ESP_ARDUINO_VERSION_PATCH ) ) ; // availeable since v2.0.0
# else
DEBUG_PRINTLN ( F ( " arduino-esp32 v1.0.x \n " ) ) ; // we can't say in more detail.
# endif
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DEBUG_PRINT ( F ( " CPU: " ) ) ; DEBUG_PRINT ( ESP . getChipModel ( ) ) ;
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DEBUG_PRINT ( F ( " rev. " ) ) ; DEBUG_PRINT ( ESP . getChipRevision ( ) ) ;
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DEBUG_PRINT ( F ( " , " ) ) ; DEBUG_PRINT ( ESP . getChipCores ( ) ) ; DEBUG_PRINT ( F ( " core(s) " ) ) ;
DEBUG_PRINT ( F ( " , " ) ) ; DEBUG_PRINT ( ESP . getCpuFreqMHz ( ) ) ; DEBUG_PRINTLN ( F ( " MHz. " ) ) ;
DEBUG_PRINT ( F ( " FLASH: " ) ) ; DEBUG_PRINT ( ( ESP . getFlashChipSize ( ) / 1024 ) / 1024 ) ;
DEBUG_PRINT ( F ( " MB, Mode " ) ) ; DEBUG_PRINT ( ESP . getFlashChipMode ( ) ) ;
# ifdef WLED_DEBUG
switch ( ESP . getFlashChipMode ( ) ) {
// missing: Octal modes
case FM_QIO : DEBUG_PRINT ( F ( " (QIO) " ) ) ; break ;
case FM_QOUT : DEBUG_PRINT ( F ( " (QOUT) " ) ) ; break ;
case FM_DIO : DEBUG_PRINT ( F ( " (DIO) " ) ) ; break ;
case FM_DOUT : DEBUG_PRINT ( F ( " (DOUT) " ) ) ; break ;
default : break ;
}
# endif
DEBUG_PRINT ( F ( " , speed " ) ) ; DEBUG_PRINT ( ESP . getFlashChipSpeed ( ) / 1000000 ) ; DEBUG_PRINTLN ( F ( " MHz. " ) ) ;
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# else
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DEBUG_PRINT ( F ( " esp8266 " ) ) ;
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DEBUG_PRINTLN ( ESP . getCoreVersion ( ) ) ;
# endif
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DEBUG_PRINT ( F ( " heap " ) ) ;
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DEBUG_PRINTLN ( ESP . getFreeHeap ( ) ) ;
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# if defined(ARDUINO_ARCH_ESP32) && defined(WLED_USE_PSRAM)
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if ( psramFound ( ) ) {
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# if !defined(CONFIG_IDF_TARGET_ESP32C3) && !defined(CONFIG_IDF_TARGET_ESP32S2) && !defined(CONFIG_IDF_TARGET_ESP32S3)
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// GPIO16/GPIO17 reserved for SPI RAM
managed_pin_type pins [ 2 ] = { { 16 , true } , { 17 , true } } ;
pinManager . allocateMultiplePins ( pins , 2 , PinOwner : : SPI_RAM ) ;
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# elif defined(CONFIG_IDF_TARGET_ESP32S3)
// S3: add GPIO 33-37 for "octal" PSRAM
managed_pin_type pins [ 5 ] = { { 33 , true } , { 34 , true } , { 35 , true } , { 36 , true } , { 37 , true } } ;
pinManager . allocateMultiplePins ( pins , 5 , PinOwner : : SPI_RAM ) ;
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# endif
DEBUG_PRINT ( F ( " Total PSRAM: " ) ) ; DEBUG_PRINT ( ESP . getPsramSize ( ) / 1024 ) ; DEBUG_PRINTLN ( " kB " ) ;
DEBUG_PRINT ( F ( " Free PSRAM : " ) ) ; DEBUG_PRINT ( ESP . getFreePsram ( ) / 1024 ) ; DEBUG_PRINTLN ( " kB " ) ;
} else
DEBUG_PRINTLN ( F ( " No PSRAM found. " ) ) ;
# endif
# if defined(ARDUINO_ARCH_ESP32) && defined(BOARD_HAS_PSRAM) && !defined(WLED_USE_PSRAM)
DEBUG_PRINTLN ( F ( " PSRAM not used. " ) ) ;
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# endif
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//DEBUG_PRINT(F("LEDs inited. heap usage ~"));
//DEBUG_PRINTLN(heapPreAlloc - ESP.getFreeHeap());
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# ifdef WLED_DEBUG
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pinManager . allocatePin ( hardwareTX , true , PinOwner : : DebugOut ) ; // TX (GPIO1 on ESP32) reserved for debug output
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# endif
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# ifdef WLED_ENABLE_DMX //reserve GPIO2 as hardcoded DMX pin
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pinManager . allocatePin ( 2 , true , PinOwner : : DMX ) ;
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# endif
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DEBUG_PRINTLN ( F ( " Registering usermods ... " ) ) ;
registerUsermods ( ) ;
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for ( uint8_t i = 1 ; i < WLED_MAX_BUTTONS ; i + + ) btnPin [ i ] = - 1 ;
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bool fsinit = false ;
DEBUGFS_PRINTLN ( F ( " Mount FS " ) ) ;
# ifdef ARDUINO_ARCH_ESP32
fsinit = WLED_FS . begin ( true ) ;
# else
fsinit = WLED_FS . begin ( ) ;
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# endif
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if ( ! fsinit ) {
DEBUGFS_PRINTLN ( F ( " FS failed! " ) ) ;
errorFlag = ERR_FS_BEGIN ;
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}
# ifdef WLED_ADD_EEPROM_SUPPORT
else deEEP ( ) ;
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# else
initPresetsFile ( ) ;
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# endif
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updateFSInfo ( ) ;
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// generate module IDs must be done before AP setup
escapedMac = WiFi . macAddress ( ) ;
escapedMac . replace ( " : " , " " ) ;
escapedMac . toLowerCase ( ) ;
WLED_SET_AP_SSID ( ) ; // otherwise it is empty on first boot until config is saved
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DEBUG_PRINTLN ( F ( " Reading config " ) ) ;
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deserializeConfigFromFS ( ) ;
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# if defined(STATUSLED) && STATUSLED>=0
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if ( ! pinManager . isPinAllocated ( STATUSLED ) ) {
// NOTE: Special case: The status LED should *NOT* be allocated.
// See comments in handleStatusLed().
pinMode ( STATUSLED , OUTPUT ) ;
}
# endif
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DEBUG_PRINTLN ( F ( " Initializing strip " ) ) ;
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beginStrip ( ) ;
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DEBUG_PRINTLN ( F ( " Usermods setup " ) ) ;
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userSetup ( ) ;
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usermods . setup ( ) ;
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if ( strcmp ( clientSSID , DEFAULT_CLIENT_SSID ) = = 0 )
showWelcomePage = true ;
WiFi . persistent ( false ) ;
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# ifdef WLED_USE_ETHERNET
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WiFi . onEvent ( WiFiEvent ) ;
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# endif
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# ifdef WLED_ENABLE_ADALIGHT
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//Serial RX (Adalight, Improv, Serial JSON) only possible if GPIO3 unused
//Serial TX (Debug, Improv, Serial JSON) only possible if GPIO1 unused
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if ( ! pinManager . isPinAllocated ( hardwareRX ) & & ! pinManager . isPinAllocated ( hardwareTX ) ) {
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Serial . println ( F ( " Ada " ) ) ;
}
# endif
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// fill in unique mdns default
if ( strcmp ( cmDNS , " x " ) = = 0 ) sprintf_P ( cmDNS , PSTR ( " wled-%*s " ) , 6 , escapedMac . c_str ( ) + 6 ) ;
if ( mqttDeviceTopic [ 0 ] = = 0 ) sprintf_P ( mqttDeviceTopic , PSTR ( " wled/%*s " ) , 6 , escapedMac . c_str ( ) + 6 ) ;
if ( mqttClientID [ 0 ] = = 0 ) sprintf_P ( mqttClientID , PSTR ( " WLED-%*s " ) , 6 , escapedMac . c_str ( ) + 6 ) ;
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# ifdef WLED_ENABLE_ADALIGHT
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if ( Serial . available ( ) > 0 & & Serial . peek ( ) = = ' I ' ) handleImprovPacket ( ) ;
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# endif
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strip . service ( ) ; // why?
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# ifndef WLED_DISABLE_OTA
if ( aOtaEnabled ) {
ArduinoOTA . onStart ( [ ] ( ) {
# ifdef ESP8266
wifi_set_sleep_type ( NONE_SLEEP_T ) ;
# endif
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WLED : : instance ( ) . disableWatchdog ( ) ;
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DEBUG_PRINTLN ( F ( " Start ArduinoOTA " ) ) ;
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} ) ;
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ArduinoOTA . onError ( [ ] ( ota_error_t error ) {
// reenable watchdog on failed update
WLED : : instance ( ) . enableWatchdog ( ) ;
} ) ;
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if ( strlen ( cmDNS ) > 0 )
ArduinoOTA . setHostname ( cmDNS ) ;
}
# endif
# ifdef WLED_ENABLE_DMX
initDMX ( ) ;
# endif
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# ifdef WLED_ENABLE_ADALIGHT
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if ( Serial . available ( ) > 0 & & Serial . peek ( ) = = ' I ' ) handleImprovPacket ( ) ;
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# endif
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// HTTP server page init
initServer ( ) ;
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enableWatchdog ( ) ;
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# if defined(ARDUINO_ARCH_ESP32) && defined(WLED_DISABLE_BROWNOUT_DET)
WRITE_PERI_REG ( RTC_CNTL_BROWN_OUT_REG , 1 ) ; //enable brownout detector
# endif
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}
void WLED : : beginStrip ( )
{
// Initialize NeoPixel Strip and button
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strip . finalizeInit ( ) ; // busses created during deserializeConfig()
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strip . makeAutoSegments ( ) ;
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strip . setBrightness ( 0 ) ;
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strip . setShowCallback ( handleOverlayDraw ) ;
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if ( turnOnAtBoot ) {
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if ( briS > 0 ) bri = briS ;
else if ( bri = = 0 ) bri = 128 ;
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} else {
briLast = briS ; bri = 0 ;
}
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if ( bootPreset > 0 ) {
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applyPreset ( bootPreset , CALL_MODE_INIT ) ;
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}
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colorUpdated ( CALL_MODE_INIT ) ;
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// init relay pin
if ( rlyPin > = 0 )
digitalWrite ( rlyPin , ( rlyMde ? bri : ! bri ) ) ;
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}
void WLED : : initAP ( bool resetAP )
{
if ( apBehavior = = AP_BEHAVIOR_BUTTON_ONLY & & ! resetAP )
return ;
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if ( resetAP ) {
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WLED_SET_AP_SSID ( ) ;
strcpy_P ( apPass , PSTR ( WLED_AP_PASS ) ) ;
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}
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DEBUG_PRINT ( F ( " Opening access point " ) ) ;
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DEBUG_PRINTLN ( apSSID ) ;
WiFi . softAPConfig ( IPAddress ( 4 , 3 , 2 , 1 ) , IPAddress ( 4 , 3 , 2 , 1 ) , IPAddress ( 255 , 255 , 255 , 0 ) ) ;
WiFi . softAP ( apSSID , apPass , apChannel , apHide ) ;
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if ( ! apActive ) // start captive portal if AP active
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{
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DEBUG_PRINTLN ( F ( " Init AP interfaces " ) ) ;
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server . begin ( ) ;
if ( udpPort > 0 & & udpPort ! = ntpLocalPort ) {
udpConnected = notifierUdp . begin ( udpPort ) ;
}
if ( udpRgbPort > 0 & & udpRgbPort ! = ntpLocalPort & & udpRgbPort ! = udpPort ) {
udpRgbConnected = rgbUdp . begin ( udpRgbPort ) ;
}
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if ( udpPort2 > 0 & & udpPort2 ! = ntpLocalPort & & udpPort2 ! = udpPort & & udpPort2 ! = udpRgbPort ) {
udp2Connected = notifier2Udp . begin ( udpPort2 ) ;
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}
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e131 . begin ( false , e131Port , e131Universe , E131_MAX_UNIVERSE_COUNT ) ;
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ddp . begin ( false , DDP_DEFAULT_PORT ) ;
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dnsServer . setErrorReplyCode ( DNSReplyCode : : NoError ) ;
dnsServer . start ( 53 , " * " , WiFi . softAPIP ( ) ) ;
}
apActive = true ;
}
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bool WLED : : initEthernet ( )
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{
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# if defined(ARDUINO_ARCH_ESP32) && defined(WLED_USE_ETHERNET)
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static bool successfullyConfiguredEthernet = false ;
if ( successfullyConfiguredEthernet ) {
// DEBUG_PRINTLN(F("initE: ETH already successfully configured, ignoring"));
return false ;
}
if ( ethernetType = = WLED_ETH_NONE ) {
return false ;
}
if ( ethernetType > = WLED_NUM_ETH_TYPES ) {
DEBUG_PRINT ( F ( " initE: Ignoring attempt for invalid ethernetType " ) ) ; DEBUG_PRINTLN ( ethernetType ) ;
return false ;
}
DEBUG_PRINT ( F ( " initE: Attempting ETH config: " ) ) ; DEBUG_PRINTLN ( ethernetType ) ;
// Ethernet initialization should only succeed once -- else reboot required
ethernet_settings es = ethernetBoards [ ethernetType ] ;
managed_pin_type pinsToAllocate [ 10 ] = {
// first six pins are non-configurable
esp32_nonconfigurable_ethernet_pins [ 0 ] ,
esp32_nonconfigurable_ethernet_pins [ 1 ] ,
esp32_nonconfigurable_ethernet_pins [ 2 ] ,
esp32_nonconfigurable_ethernet_pins [ 3 ] ,
esp32_nonconfigurable_ethernet_pins [ 4 ] ,
esp32_nonconfigurable_ethernet_pins [ 5 ] ,
{ ( int8_t ) es . eth_mdc , true } , // [6] = MDC is output and mandatory
{ ( int8_t ) es . eth_mdio , true } , // [7] = MDIO is bidirectional and mandatory
{ ( int8_t ) es . eth_power , true } , // [8] = optional pin, not all boards use
{ ( ( int8_t ) 0xFE ) , false } , // [9] = replaced with eth_clk_mode, mandatory
} ;
// update the clock pin....
if ( es . eth_clk_mode = = ETH_CLOCK_GPIO0_IN ) {
pinsToAllocate [ 9 ] . pin = 0 ;
pinsToAllocate [ 9 ] . isOutput = false ;
} else if ( es . eth_clk_mode = = ETH_CLOCK_GPIO0_OUT ) {
pinsToAllocate [ 9 ] . pin = 0 ;
pinsToAllocate [ 9 ] . isOutput = true ;
} else if ( es . eth_clk_mode = = ETH_CLOCK_GPIO16_OUT ) {
pinsToAllocate [ 9 ] . pin = 16 ;
pinsToAllocate [ 9 ] . isOutput = true ;
} else if ( es . eth_clk_mode = = ETH_CLOCK_GPIO17_OUT ) {
pinsToAllocate [ 9 ] . pin = 17 ;
pinsToAllocate [ 9 ] . isOutput = true ;
} else {
DEBUG_PRINT ( F ( " initE: Failing due to invalid eth_clk_mode ( " ) ) ;
DEBUG_PRINT ( es . eth_clk_mode ) ;
DEBUG_PRINTLN ( F ( " ) " ) ) ;
return false ;
}
if ( ! pinManager . allocateMultiplePins ( pinsToAllocate , 10 , PinOwner : : Ethernet ) ) {
DEBUG_PRINTLN ( F ( " initE: Failed to allocate ethernet pins " ) ) ;
return false ;
}
if ( ! ETH . begin (
( uint8_t ) es . eth_address ,
( int ) es . eth_power ,
( int ) es . eth_mdc ,
( int ) es . eth_mdio ,
( eth_phy_type_t ) es . eth_type ,
( eth_clock_mode_t ) es . eth_clk_mode
) ) {
DEBUG_PRINTLN ( F ( " initC: ETH.begin() failed " ) ) ;
// de-allocate the allocated pins
for ( managed_pin_type mpt : pinsToAllocate ) {
pinManager . deallocatePin ( mpt . pin , PinOwner : : Ethernet ) ;
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}
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return false ;
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}
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successfullyConfiguredEthernet = true ;
DEBUG_PRINTLN ( F ( " initC: *** Ethernet successfully configured! *** " ) ) ;
return true ;
# else
return false ; // Ethernet not enabled for build
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# endif
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}
void WLED : : initConnection ( )
{
# ifdef WLED_ENABLE_WEBSOCKETS
ws . onEvent ( wsEvent ) ;
# endif
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WiFi . disconnect ( true ) ; // close old connections
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# ifdef ESP8266
WiFi . setPhyMode ( WIFI_PHY_MODE_11N ) ;
# endif
if ( staticIP [ 0 ] ! = 0 & & staticGateway [ 0 ] ! = 0 ) {
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WiFi . config ( staticIP , staticGateway , staticSubnet , IPAddress ( 1 , 1 , 1 , 1 ) ) ;
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} else {
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WiFi . config ( IPAddress ( ( uint32_t ) 0 ) , IPAddress ( ( uint32_t ) 0 ) , IPAddress ( ( uint32_t ) 0 ) ) ;
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}
lastReconnectAttempt = millis ( ) ;
if ( ! WLED_WIFI_CONFIGURED ) {
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DEBUG_PRINTLN ( F ( " No connection configured. " ) ) ;
if ( ! apActive ) initAP ( ) ; // instantly go to ap mode
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return ;
} else if ( ! apActive ) {
if ( apBehavior = = AP_BEHAVIOR_ALWAYS ) {
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DEBUG_PRINTLN ( F ( " Access point ALWAYS enabled. " ) ) ;
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initAP ( ) ;
} else {
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DEBUG_PRINTLN ( F ( " Access point disabled (init). " ) ) ;
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WiFi . softAPdisconnect ( true ) ;
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WiFi . mode ( WIFI_STA ) ;
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}
}
showWelcomePage = false ;
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DEBUG_PRINT ( F ( " Connecting to " ) ) ;
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DEBUG_PRINT ( clientSSID ) ;
DEBUG_PRINTLN ( " ... " ) ;
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// convert the "serverDescription" into a valid DNS hostname (alphanumeric)
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char hostname [ 25 ] ;
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prepareHostname ( hostname ) ;
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# ifdef ESP8266
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WiFi . hostname ( hostname ) ;
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# endif
WiFi . begin ( clientSSID , clientPass ) ;
# ifdef ARDUINO_ARCH_ESP32
WiFi . setSleep ( ! noWifiSleep ) ;
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WiFi . setHostname ( hostname ) ;
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# else
wifi_set_sleep_type ( ( noWifiSleep ) ? NONE_SLEEP_T : MODEM_SLEEP_T ) ;
# endif
}
void WLED : : initInterfaces ( )
{
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DEBUG_PRINTLN ( F ( " Init STA interfaces " ) ) ;
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# ifndef WLED_DISABLE_HUESYNC
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IPAddress ipAddress = Network . localIP ( ) ;
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if ( hueIP [ 0 ] = = 0 ) {
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hueIP [ 0 ] = ipAddress [ 0 ] ;
hueIP [ 1 ] = ipAddress [ 1 ] ;
hueIP [ 2 ] = ipAddress [ 2 ] ;
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}
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# endif
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// init Alexa hue emulation
if ( alexaEnabled )
alexaInit ( ) ;
# ifndef WLED_DISABLE_OTA
if ( aOtaEnabled )
ArduinoOTA . begin ( ) ;
# endif
strip . service ( ) ;
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// Set up mDNS responder:
if ( strlen ( cmDNS ) > 0 ) {
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// "end" must be called before "begin" is called a 2nd time
// see https://github.com/esp8266/Arduino/issues/7213
MDNS . end ( ) ;
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MDNS . begin ( cmDNS ) ;
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DEBUG_PRINTLN ( F ( " mDNS started " ) ) ;
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MDNS . addService ( " http " , " tcp " , 80 ) ;
MDNS . addService ( " wled " , " tcp " , 80 ) ;
MDNS . addServiceTxt ( " wled " , " tcp " , " mac " , escapedMac . c_str ( ) ) ;
}
server . begin ( ) ;
if ( udpPort > 0 & & udpPort ! = ntpLocalPort ) {
udpConnected = notifierUdp . begin ( udpPort ) ;
if ( udpConnected & & udpRgbPort ! = udpPort )
udpRgbConnected = rgbUdp . begin ( udpRgbPort ) ;
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if ( udpConnected & & udpPort2 ! = udpPort & & udpPort2 ! = udpRgbPort )
udp2Connected = notifier2Udp . begin ( udpPort2 ) ;
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}
if ( ntpEnabled )
ntpConnected = ntpUdp . begin ( ntpLocalPort ) ;
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# ifndef WLED_DISABLE_BLYNK
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initBlynk ( blynkApiKey , blynkHost , blynkPort ) ;
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# endif
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e131 . begin ( e131Multicast , e131Port , e131Universe , E131_MAX_UNIVERSE_COUNT ) ;
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ddp . begin ( false , DDP_DEFAULT_PORT ) ;
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reconnectHue ( ) ;
initMqtt ( ) ;
interfacesInited = true ;
wasConnected = true ;
}
void WLED : : handleConnection ( )
{
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static byte stacO = 0 ;
static uint32_t lastHeap = UINT32_MAX ;
static unsigned long heapTime = 0 ;
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unsigned long now = millis ( ) ;
if ( now < 2000 & & ( ! WLED_WIFI_CONFIGURED | | apBehavior = = AP_BEHAVIOR_ALWAYS ) )
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return ;
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if ( lastReconnectAttempt = = 0 ) {
DEBUG_PRINTLN ( F ( " lastReconnectAttempt == 0 " ) ) ;
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initConnection ( ) ;
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return ;
}
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// reconnect WiFi to clear stale allocations if heap gets too low
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if ( now - heapTime > 5000 ) {
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uint32_t heap = ESP . getFreeHeap ( ) ;
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if ( heap < MIN_HEAP_SIZE & & lastHeap < MIN_HEAP_SIZE ) {
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DEBUG_PRINT ( F ( " Heap too low! " ) ) ;
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DEBUG_PRINTLN ( heap ) ;
forceReconnect = true ;
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strip . purgeSegments ( true ) ; // remove all but one segments from memory
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}
lastHeap = heap ;
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heapTime = now ;
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}
byte stac = 0 ;
if ( apActive ) {
# ifdef ESP8266
stac = wifi_softap_get_station_num ( ) ;
# else
wifi_sta_list_t stationList ;
esp_wifi_ap_get_sta_list ( & stationList ) ;
stac = stationList . num ;
# endif
if ( stac ! = stacO ) {
stacO = stac ;
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DEBUG_PRINT ( F ( " Connected AP clients: " ) ) ;
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DEBUG_PRINTLN ( stac ) ;
if ( ! WLED_CONNECTED & & WLED_WIFI_CONFIGURED ) { // trying to connect, but not connected
if ( stac )
WiFi . disconnect ( ) ; // disable search so that AP can work
else
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initConnection ( ) ; // restart search
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}
}
}
if ( forceReconnect ) {
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DEBUG_PRINTLN ( F ( " Forcing reconnect. " ) ) ;
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initConnection ( ) ;
interfacesInited = false ;
forceReconnect = false ;
wasConnected = false ;
return ;
}
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if ( ! Network . isConnected ( ) ) {
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if ( interfacesInited ) {
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DEBUG_PRINTLN ( F ( " Disconnected! " ) ) ;
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interfacesInited = false ;
initConnection ( ) ;
}
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//send improv failed 6 seconds after second init attempt (24 sec. after provisioning)
if ( improvActive > 2 & & now - lastReconnectAttempt > 6000 ) {
sendImprovStateResponse ( 0x03 , true ) ;
improvActive = 2 ;
}
if ( now - lastReconnectAttempt > ( ( stac ) ? 300000 : 18000 ) & & WLED_WIFI_CONFIGURED ) {
if ( improvActive = = 2 ) improvActive = 3 ;
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DEBUG_PRINTLN ( F ( " Last reconnect too old. " ) ) ;
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initConnection ( ) ;
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}
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if ( ! apActive & & now - lastReconnectAttempt > 12000 & & ( ! wasConnected | | apBehavior = = AP_BEHAVIOR_NO_CONN ) ) {
DEBUG_PRINTLN ( F ( " Not connected AP. " ) ) ;
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initAP ( ) ;
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}
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} else if ( ! interfacesInited ) { //newly connected
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DEBUG_PRINTLN ( " " ) ;
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DEBUG_PRINT ( F ( " Connected! IP address: " ) ) ;
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DEBUG_PRINTLN ( Network . localIP ( ) ) ;
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if ( improvActive ) {
if ( improvError = = 3 ) sendImprovStateResponse ( 0x00 , true ) ;
sendImprovStateResponse ( 0x04 ) ;
if ( improvActive > 1 ) sendImprovRPCResponse ( 0x01 ) ;
}
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initInterfaces ( ) ;
userConnected ( ) ;
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usermods . connected ( ) ;
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lastMqttReconnectAttempt = 0 ; // force immediate update
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// shut down AP
if ( apBehavior ! = AP_BEHAVIOR_ALWAYS & & apActive ) {
dnsServer . stop ( ) ;
WiFi . softAPdisconnect ( true ) ;
apActive = false ;
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DEBUG_PRINTLN ( F ( " Access point disabled (handle). " ) ) ;
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}
}
}
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// If status LED pin is allocated for other uses, does nothing
// else blink at 1Hz when WLED_CONNECTED is false (no WiFi, ?? no Ethernet ??)
// else blink at 2Hz when MQTT is enabled but not connected
// else turn the status LED off
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void WLED : : handleStatusLED ( )
{
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# if defined(STATUSLED)
uint32_t c = 0 ;
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# if STATUSLED>=0
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if ( pinManager . isPinAllocated ( STATUSLED ) ) {
return ; //lower priority if something else uses the same pin
}
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# endif
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if ( WLED_CONNECTED ) {
c = RGBW32 ( 0 , 255 , 0 , 0 ) ;
ledStatusType = 2 ;
} else if ( WLED_MQTT_CONNECTED ) {
c = RGBW32 ( 0 , 128 , 0 , 0 ) ;
ledStatusType = 4 ;
} else if ( apActive ) {
c = RGBW32 ( 0 , 0 , 255 , 0 ) ;
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ledStatusType = 1 ;
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}
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if ( ledStatusType ) {
if ( millis ( ) - ledStatusLastMillis > = ( 1000 / ledStatusType ) ) {
ledStatusLastMillis = millis ( ) ;
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ledStatusState = ! ledStatusState ;
# if STATUSLED>=0
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digitalWrite ( STATUSLED , ledStatusState ) ;
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# else
busses . setStatusPixel ( ledStatusState ? c : 0 ) ;
# endif
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}
} else {
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# if STATUSLED>=0
# ifdef STATUSLEDINVERTED
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digitalWrite ( STATUSLED , HIGH ) ;
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# else
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digitalWrite ( STATUSLED , LOW ) ;
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# endif
# else
busses . setStatusPixel ( 0 ) ;
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# endif
}
# endif
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}