459 lines
11 KiB
C++
459 lines
11 KiB
C++
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#define WLED_DEFINE_GLOBAL_VARS //only in one source file, wled.cpp!
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#include "wled.h"
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#include <Arduino.h>
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/*
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* Main WLED class implementation. Mostly initialization and connection logic
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*/
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WLED::WLED()
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{
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}
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// turns all LEDs off and restarts ESP
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void WLED::reset()
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{
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briT = 0;
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long dly = millis();
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while (millis() - dly < 250) {
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yield(); // enough time to send response to client
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}
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setAllLeds();
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DEBUG_PRINTLN("MODULE RESET");
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ESP.restart();
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}
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bool oappendi(int i)
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{
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char s[11];
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sprintf(s, "%ld", i);
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return oappend(s);
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}
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bool oappend(const char* txt)
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{
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uint16_t len = strlen(txt);
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if (olen + len >= OMAX)
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return false; // buffer full
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strcpy(obuf + olen, txt);
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olen += len;
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return true;
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}
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void WLED::loop()
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{
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handleIR(); // 2nd call to function needed for ESP32 to return valid results -- should be good for ESP8266, too
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handleConnection();
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handleSerial();
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handleNotifications();
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handleTransitions();
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#ifdef WLED_ENABLE_DMX
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handleDMX();
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#endif
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userLoop();
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yield();
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handleIO();
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handleIR();
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handleNetworkTime();
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handleAlexa();
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handleOverlays();
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yield();
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#ifdef WLED_USE_ANALOG_LEDS
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strip.setRgbwPwm();
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#endif
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if (doReboot)
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reset();
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if (!realtimeMode) // block stuff if WARLS/Adalight is enabled
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{
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if (apActive)
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dnsServer.processNextRequest();
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#ifndef WLED_DISABLE_OTA
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if (WLED_CONNECTED && aOtaEnabled)
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ArduinoOTA.handle();
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#endif
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handleNightlight();
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yield();
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handleHue();
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handleBlynk();
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yield();
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if (!offMode)
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strip.service();
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}
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yield();
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#ifdef ESP8266
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MDNS.update();
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#endif
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if (millis() - lastMqttReconnectAttempt > 30000)
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initMqtt();
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// DEBUG serial logging
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#ifdef WLED_DEBUG
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if (millis() - debugTime > 9999) {
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DEBUG_PRINTLN("---DEBUG INFO---");
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DEBUG_PRINT("Runtime: ");
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DEBUG_PRINTLN(millis());
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DEBUG_PRINT("Unix time: ");
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DEBUG_PRINTLN(now());
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DEBUG_PRINT("Free heap: ");
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DEBUG_PRINTLN(ESP.getFreeHeap());
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DEBUG_PRINT("Wifi state: ");
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DEBUG_PRINTLN(WiFi.status());
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if (WiFi.status() != lastWifiState) {
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wifiStateChangedTime = millis();
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}
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lastWifiState = WiFi.status();
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DEBUG_PRINT("State time: ");
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DEBUG_PRINTLN(wifiStateChangedTime);
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DEBUG_PRINT("NTP last sync: ");
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DEBUG_PRINTLN(ntpLastSyncTime);
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DEBUG_PRINT("Client IP: ");
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DEBUG_PRINTLN(WiFi.localIP());
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DEBUG_PRINT("Loops/sec: ");
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DEBUG_PRINTLN(loops / 10);
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loops = 0;
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debugTime = millis();
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}
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loops++;
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#endif // WLED_DEBU
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}
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void WLED::setup()
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{
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EEPROM.begin(EEPSIZE);
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ledCount = EEPROM.read(229) + ((EEPROM.read(398) << 8) & 0xFF00);
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if (ledCount > MAX_LEDS || ledCount == 0)
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ledCount = 30;
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#ifdef ESP8266
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#if LEDPIN == 3
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if (ledCount > MAX_LEDS_DMA)
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ledCount = MAX_LEDS_DMA; // DMA method uses too much ram
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#endif
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#endif
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Serial.begin(115200);
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Serial.setTimeout(50);
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DEBUG_PRINTLN();
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DEBUG_PRINT("---WLED ");
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DEBUG_PRINT(versionString);
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DEBUG_PRINT(" ");
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DEBUG_PRINT(VERSION);
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DEBUG_PRINTLN(" INIT---");
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#ifdef ARDUINO_ARCH_ESP32
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DEBUG_PRINT("esp32 ");
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DEBUG_PRINTLN(ESP.getSdkVersion());
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#else
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DEBUG_PRINT("esp8266 ");
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DEBUG_PRINTLN(ESP.getCoreVersion());
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#endif
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int heapPreAlloc = ESP.getFreeHeap();
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DEBUG_PRINT("heap ");
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DEBUG_PRINTLN(ESP.getFreeHeap());
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strip.init(EEPROM.read(372), ledCount, EEPROM.read(2204)); // init LEDs quickly
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strip.setBrightness(0);
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DEBUG_PRINT("LEDs inited. heap usage ~");
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DEBUG_PRINTLN(heapPreAlloc - ESP.getFreeHeap());
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#ifndef WLED_DISABLE_FILESYSTEM
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#ifdef ARDUINO_ARCH_ESP32
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SPIFFS.begin(true);
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#endif
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SPIFFS.begin();
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#endif
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DEBUG_PRINTLN("Load EEPROM");
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loadSettingsFromEEPROM(true);
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beginStrip();
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userSetup();
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if (strcmp(clientSSID, DEFAULT_CLIENT_SSID) == 0)
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showWelcomePage = true;
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WiFi.persistent(false);
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if (macroBoot > 0)
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applyMacro(macroBoot);
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Serial.println("Ada");
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// generate module IDs
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escapedMac = WiFi.macAddress();
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escapedMac.replace(":", "");
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escapedMac.toLowerCase();
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if (strcmp(cmDNS, "x") == 0) // fill in unique mdns default
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{
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strcpy(cmDNS, "wled-");
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sprintf(cmDNS + 5, "%*s", 6, escapedMac.c_str() + 6);
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}
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if (mqttDeviceTopic[0] == 0) {
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strcpy(mqttDeviceTopic, "wled/");
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sprintf(mqttDeviceTopic + 5, "%*s", 6, escapedMac.c_str() + 6);
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}
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if (mqttClientID[0] == 0) {
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strcpy(mqttClientID, "WLED-");
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sprintf(mqttClientID + 5, "%*s", 6, escapedMac.c_str() + 6);
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}
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strip.service();
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#ifndef WLED_DISABLE_OTA
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if (aOtaEnabled) {
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ArduinoOTA.onStart([]() {
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#ifdef ESP8266
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wifi_set_sleep_type(NONE_SLEEP_T);
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#endif
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DEBUG_PRINTLN("Start ArduinoOTA");
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});
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if (strlen(cmDNS) > 0)
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ArduinoOTA.setHostname(cmDNS);
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}
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#endif
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#ifdef WLED_ENABLE_DMX
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initDMX();
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#endif
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// HTTP server page init
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initServer();
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}
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void WLED::beginStrip()
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{
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// Initialize NeoPixel Strip and button
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strip.setShowCallback(handleOverlayDraw);
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#ifdef BTNPIN
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pinMode(BTNPIN, INPUT_PULLUP);
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#endif
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if (bootPreset > 0)
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applyPreset(bootPreset, turnOnAtBoot);
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colorUpdated(NOTIFIER_CALL_MODE_INIT);
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// init relay pin
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#if RLYPIN >= 0
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pinMode(RLYPIN, OUTPUT);
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#if RLYMDE
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digitalWrite(RLYPIN, bri);
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#else
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digitalWrite(RLYPIN, !bri);
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#endif
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#endif
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// disable button if it is "pressed" unintentionally
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#ifdef BTNPIN
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if (digitalRead(BTNPIN) == LOW)
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buttonEnabled = false;
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#else
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buttonEnabled = false;
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#endif
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}
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void WLED::initAP(bool resetAP)
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{
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if (apBehavior == AP_BEHAVIOR_BUTTON_ONLY && !resetAP)
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return;
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if (!apSSID[0] || resetAP)
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strcpy(apSSID, "WLED-AP");
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if (resetAP)
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strcpy(apPass, DEFAULT_AP_PASS);
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DEBUG_PRINT("Opening access point ");
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DEBUG_PRINTLN(apSSID);
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WiFi.softAPConfig(IPAddress(4, 3, 2, 1), IPAddress(4, 3, 2, 1), IPAddress(255, 255, 255, 0));
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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("Init AP interfaces");
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server.begin();
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if (udpPort > 0 && udpPort != ntpLocalPort) {
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udpConnected = notifierUdp.begin(udpPort);
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}
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if (udpRgbPort > 0 && udpRgbPort != ntpLocalPort && udpRgbPort != udpPort) {
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udpRgbConnected = rgbUdp.begin(udpRgbPort);
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}
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dnsServer.setErrorReplyCode(DNSReplyCode::NoError);
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dnsServer.start(53, "*", WiFi.softAPIP());
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}
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apActive = true;
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}
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void WLED::initConnection()
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{
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WiFi.disconnect(); // close old connections
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#ifdef ESP8266
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WiFi.setPhyMode(WIFI_PHY_MODE_11N);
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#endif
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if (staticIP[0] != 0 && staticGateway[0] != 0) {
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WiFi.config(staticIP, staticGateway, staticSubnet, IPAddress(8, 8, 8, 8));
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} else {
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WiFi.config(0U, 0U, 0U);
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}
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lastReconnectAttempt = millis();
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if (!WLED_WIFI_CONFIGURED) {
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DEBUG_PRINT("No connection configured. ");
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if (!apActive)
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initAP(); // instantly go to ap mode
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return;
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} else if (!apActive) {
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if (apBehavior == AP_BEHAVIOR_ALWAYS) {
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initAP();
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} else {
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DEBUG_PRINTLN("Access point disabled.");
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WiFi.softAPdisconnect(true);
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}
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}
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showWelcomePage = false;
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DEBUG_PRINT("Connecting to ");
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DEBUG_PRINT(clientSSID);
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DEBUG_PRINTLN("...");
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#ifdef ESP8266
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WiFi.hostname(serverDescription);
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#endif
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WiFi.begin(clientSSID, clientPass);
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#ifdef ARDUINO_ARCH_ESP32
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WiFi.setSleep(!noWifiSleep);
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WiFi.setHostname(serverDescription);
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#else
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wifi_set_sleep_type((noWifiSleep) ? NONE_SLEEP_T : MODEM_SLEEP_T);
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#endif
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}
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void WLED::initInterfaces()
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{
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DEBUG_PRINTLN("Init STA interfaces");
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if (hueIP[0] == 0) {
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hueIP[0] = WiFi.localIP()[0];
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hueIP[1] = WiFi.localIP()[1];
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hueIP[2] = WiFi.localIP()[2];
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}
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// init Alexa hue emulation
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if (alexaEnabled)
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alexaInit();
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#ifndef WLED_DISABLE_OTA
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if (aOtaEnabled)
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ArduinoOTA.begin();
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#endif
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strip.service();
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// Set up mDNS responder:
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if (strlen(cmDNS) > 0) {
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if (!aOtaEnabled)
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MDNS.begin(cmDNS);
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DEBUG_PRINTLN("mDNS started");
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MDNS.addService("http", "tcp", 80);
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MDNS.addService("wled", "tcp", 80);
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MDNS.addServiceTxt("wled", "tcp", "mac", escapedMac.c_str());
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}
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server.begin();
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if (udpPort > 0 && udpPort != ntpLocalPort) {
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udpConnected = notifierUdp.begin(udpPort);
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if (udpConnected && udpRgbPort != udpPort)
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udpRgbConnected = rgbUdp.begin(udpRgbPort);
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}
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if (ntpEnabled)
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ntpConnected = ntpUdp.begin(ntpLocalPort);
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initBlynk(blynkApiKey);
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e131.begin((e131Multicast) ? E131_MULTICAST : E131_UNICAST, e131Universe, E131_MAX_UNIVERSE_COUNT);
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reconnectHue();
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initMqtt();
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interfacesInited = true;
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wasConnected = true;
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}
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byte stacO = 0;
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uint32_t lastHeap;
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unsigned long heapTime = 0;
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void WLED::handleConnection()
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{
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if (millis() < 2000 && (!WLED_WIFI_CONFIGURED || apBehavior == AP_BEHAVIOR_ALWAYS))
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return;
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if (lastReconnectAttempt == 0)
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initConnection();
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// reconnect WiFi to clear stale allocations if heap gets too low
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if (millis() - heapTime > 5000) {
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uint32_t heap = ESP.getFreeHeap();
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if (heap < 9000 && lastHeap < 9000) {
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DEBUG_PRINT("Heap too low! ");
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DEBUG_PRINTLN(heap);
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forceReconnect = true;
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}
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lastHeap = heap;
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heapTime = millis();
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}
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byte stac = 0;
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if (apActive) {
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#ifdef ESP8266
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stac = wifi_softap_get_station_num();
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#else
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wifi_sta_list_t stationList;
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esp_wifi_ap_get_sta_list(&stationList);
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stac = stationList.num;
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#endif
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if (stac != stacO) {
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stacO = stac;
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DEBUG_PRINT("Connected AP clients: ");
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DEBUG_PRINTLN(stac);
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if (!WLED_CONNECTED && WLED_WIFI_CONFIGURED) { // trying to connect, but not connected
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if (stac)
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WiFi.disconnect(); // disable search so that AP can work
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else
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initConnection(); // restart search
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}
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}
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}
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if (forceReconnect) {
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DEBUG_PRINTLN("Forcing reconnect.");
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initConnection();
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interfacesInited = false;
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forceReconnect = false;
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wasConnected = false;
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return;
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}
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if (!WLED_CONNECTED) {
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if (interfacesInited) {
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DEBUG_PRINTLN("Disconnected!");
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interfacesInited = false;
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initConnection();
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}
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if (millis() - lastReconnectAttempt > ((stac) ? 300000 : 20000) && WLED_WIFI_CONFIGURED)
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initConnection();
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if (!apActive && millis() - lastReconnectAttempt > 12000 && (!wasConnected || apBehavior == AP_BEHAVIOR_NO_CONN))
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initAP();
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} else if (!interfacesInited) { // newly connected
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DEBUG_PRINTLN("");
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DEBUG_PRINT("Connected! IP address: ");
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DEBUG_PRINTLN(WiFi.localIP());
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initInterfaces();
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userConnected();
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// shut down AP
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if (apBehavior != AP_BEHAVIOR_ALWAYS && apActive) {
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dnsServer.stop();
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WiFi.softAPdisconnect(true);
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apActive = false;
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DEBUG_PRINTLN("Access point disabled.");
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|
}
|
||
|
}
|
||
|
}
|