kopia lustrzana https://github.com/Aircoookie/WLED
472 wiersze
14 KiB
C++
472 wiersze
14 KiB
C++
#ifdef WLED_ADD_EEPROM_SUPPORT
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#include <EEPROM.h>
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#include "wled.h"
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/*
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* DEPRECATED, do not use for new settings
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* Only used to restore config from pre-0.11 installations using the deEEP() methods
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*
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* Methods to handle saving and loading to non-volatile memory
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* EEPROM Map: https://github.com/Aircoookie/WLED/wiki/EEPROM-Map
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*/
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//eeprom Version code, enables default settings instead of 0 init on update
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#define EEPVER 22
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#define EEPSIZE 2560 //Maximum is 4096
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//0 -> old version, default
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//1 -> 0.4p 1711272 and up
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//2 -> 0.4p 1711302 and up
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//3 -> 0.4 1712121 and up
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//4 -> 0.5.0 and up
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//5 -> 0.5.1 and up
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//6 -> 0.6.0 and up
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//7 -> 0.7.1 and up
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//8 -> 0.8.0-a and up
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//9 -> 0.8.0
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//10-> 0.8.2
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//11-> 0.8.5-dev #mqttauth @TimothyBrown
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//12-> 0.8.7-dev
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//13-> 0.9.0-dev
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//14-> 0.9.0-b1
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//15-> 0.9.0-b3
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//16-> 0.9.1
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//17-> 0.9.1-dmx
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//18-> 0.9.1-e131
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//19-> 0.9.1n
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//20-> 0.9.1p
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//21-> 0.10.1p
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//22-> 2009260
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/*
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* Erase all (pre 0.11) configuration data on factory reset
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*/
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void clearEEPROM()
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{
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EEPROM.begin(EEPSIZE);
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for (int i = 0; i < EEPSIZE; i++)
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{
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EEPROM.write(i, 0);
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}
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EEPROM.end();
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}
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void readStringFromEEPROM(uint16_t pos, char* str, uint16_t len)
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{
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for (int i = 0; i < len; ++i)
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{
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str[i] = EEPROM.read(pos + i);
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if (str[i] == 0) return;
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}
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str[len] = 0; //make sure every string is properly terminated. str must be at least len +1 big.
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}
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/*
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* Read all configuration from flash
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*/
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void loadSettingsFromEEPROM()
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{
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if (EEPROM.read(233) != 233) //first boot/reset to default
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{
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DEBUG_PRINTLN(F("EEPROM settings invalid, using defaults..."));
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return;
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}
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int lastEEPROMversion = EEPROM.read(377); //last EEPROM version before update
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readStringFromEEPROM( 0, clientSSID, 32);
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readStringFromEEPROM( 32, clientPass, 64);
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readStringFromEEPROM( 96, cmDNS, 32);
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readStringFromEEPROM(128, apSSID, 32);
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readStringFromEEPROM(160, apPass, 64);
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nightlightDelayMinsDefault = EEPROM.read(224);
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nightlightDelayMins = nightlightDelayMinsDefault;
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nightlightMode = EEPROM.read(225);
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notifyDirectDefault = EEPROM.read(226);
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notifyDirect = notifyDirectDefault;
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apChannel = EEPROM.read(227);
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if (apChannel > 13 || apChannel < 1) apChannel = 1;
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apHide = EEPROM.read(228);
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if (apHide > 1) apHide = 1;
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uint16_t length = EEPROM.read(229) + ((EEPROM.read(398) << 8) & 0xFF00); //was ledCount
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if (length > MAX_LEDS || length == 0) length = 30;
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uint8_t pins[5] = {2, 255, 255, 255, 255};
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uint8_t colorOrder = COL_ORDER_GRB;
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if (lastEEPROMversion > 9) colorOrder = EEPROM.read(383);
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if (colorOrder > COL_ORDER_GBR) colorOrder = COL_ORDER_GRB;
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bool skipFirst = EEPROM.read(2204);
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bool reversed = EEPROM.read(252);
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BusConfig bc = BusConfig(EEPROM.read(372) ? TYPE_SK6812_RGBW : TYPE_WS2812_RGB, pins, 0, length, colorOrder, reversed, skipFirst);
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busses.add(bc);
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notifyButton = EEPROM.read(230);
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if (EEPROM.read(231)) udpNumRetries = 1;
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buttonType[0] = EEPROM.read(232) ? BTN_TYPE_PUSH : BTN_TYPE_NONE;
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staticIP[0] = EEPROM.read(234);
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staticIP[1] = EEPROM.read(235);
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staticIP[2] = EEPROM.read(236);
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staticIP[3] = EEPROM.read(237);
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staticGateway[0] = EEPROM.read(238);
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staticGateway[1] = EEPROM.read(239);
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staticGateway[2] = EEPROM.read(240);
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staticGateway[3] = EEPROM.read(241);
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staticSubnet[0] = EEPROM.read(242);
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staticSubnet[1] = EEPROM.read(243);
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staticSubnet[2] = EEPROM.read(244);
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staticSubnet[3] = EEPROM.read(245);
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briS = EEPROM.read(249); bri = briS;
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if (!EEPROM.read(369))
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{
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bri = 0; briLast = briS;
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}
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receiveNotificationBrightness = EEPROM.read(250);
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fadeTransition = EEPROM.read(251);
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transitionDelayDefault = EEPROM.read(253) + ((EEPROM.read(254) << 8) & 0xFF00);
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transitionDelay = transitionDelayDefault;
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briMultiplier = EEPROM.read(255);
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readStringFromEEPROM(256, otaPass, 32);
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nightlightTargetBri = EEPROM.read(288);
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otaLock = EEPROM.read(289);
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udpPort = EEPROM.read(290) + ((EEPROM.read(291) << 8) & 0xFF00);
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readStringFromEEPROM(292, serverDescription, 32);
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ntpEnabled = EEPROM.read(327);
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currentTimezone = EEPROM.read(328);
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useAMPM = EEPROM.read(329);
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gammaCorrectBri = EEPROM.read(330);
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gammaCorrectCol = EEPROM.read(331);
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overlayCurrent = EEPROM.read(332);
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alexaEnabled = EEPROM.read(333);
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readStringFromEEPROM(334, alexaInvocationName, 32);
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notifyAlexa = EEPROM.read(366);
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arlsOffset = EEPROM.read(368);
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if (!EEPROM.read(367)) arlsOffset = -arlsOffset;
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turnOnAtBoot = EEPROM.read(369);
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//strip.isRgbw = EEPROM.read(372);
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//374 - strip.paletteFade
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apBehavior = EEPROM.read(376);
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//377 = lastEEPROMversion
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if (lastEEPROMversion > 3) {
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aOtaEnabled = EEPROM.read(390);
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receiveNotificationColor = EEPROM.read(391);
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receiveNotificationEffects = EEPROM.read(392);
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}
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receiveNotifications = (receiveNotificationBrightness || receiveNotificationColor || receiveNotificationEffects);
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if (lastEEPROMversion > 4) {
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#ifndef WLED_DISABLE_HUESYNC
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huePollingEnabled = EEPROM.read(2048);
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//hueUpdatingEnabled = EEPROM.read(2049);
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for (int i = 2050; i < 2054; ++i)
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{
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hueIP[i-2050] = EEPROM.read(i);
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}
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readStringFromEEPROM(2054, hueApiKey, 46);
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huePollIntervalMs = EEPROM.read(2100) + ((EEPROM.read(2101) << 8) & 0xFF00);
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notifyHue = EEPROM.read(2102);
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hueApplyOnOff = EEPROM.read(2103);
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hueApplyBri = EEPROM.read(2104);
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hueApplyColor = EEPROM.read(2105);
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huePollLightId = EEPROM.read(2106);
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#endif
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}
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if (lastEEPROMversion > 5) {
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overlayMin = EEPROM.read(2150);
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overlayMax = EEPROM.read(2151);
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analogClock12pixel = EEPROM.read(2152);
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analogClock5MinuteMarks = EEPROM.read(2153);
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analogClockSecondsTrail = EEPROM.read(2154);
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countdownMode = EEPROM.read(2155);
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countdownYear = EEPROM.read(2156);
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countdownMonth = EEPROM.read(2157);
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countdownDay = EEPROM.read(2158);
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countdownHour = EEPROM.read(2159);
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countdownMin = EEPROM.read(2160);
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countdownSec = EEPROM.read(2161);
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setCountdown();
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//macroBoot = EEPROM.read(2175);
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macroAlexaOn = EEPROM.read(2176);
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macroAlexaOff = EEPROM.read(2177);
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macroButton[0] = EEPROM.read(2178);
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macroLongPress[0] = EEPROM.read(2179);
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macroCountdown = EEPROM.read(2180);
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macroNl = EEPROM.read(2181);
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macroDoublePress[0] = EEPROM.read(2182);
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if (macroDoublePress[0] > 16) macroDoublePress[0] = 0;
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}
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if (lastEEPROMversion > 6)
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{
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e131Universe = EEPROM.read(2190) + ((EEPROM.read(2191) << 8) & 0xFF00);
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e131Multicast = EEPROM.read(2192);
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realtimeTimeoutMs = EEPROM.read(2193) + ((EEPROM.read(2194) << 8) & 0xFF00);
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arlsForceMaxBri = EEPROM.read(2195);
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arlsDisableGammaCorrection = EEPROM.read(2196);
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}
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if (lastEEPROMversion > 7)
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{
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strip.paletteFade = EEPROM.read(374);
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strip.paletteBlend = EEPROM.read(382);
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for (int i = 0; i < 8; ++i)
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{
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timerHours[i] = EEPROM.read(2260 + i);
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timerMinutes[i] = EEPROM.read(2270 + i);
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timerWeekday[i] = EEPROM.read(2280 + i);
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timerMacro[i] = EEPROM.read(2290 + i);
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if (timerMacro[i] > 0) timerMacro[i] += 16; //add 16 to work with macro --> preset mapping
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if (timerWeekday[i] == 0) timerWeekday[i] = 255;
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if (timerMacro[i] == 0) timerWeekday[i] = timerWeekday[i] & 0b11111110;
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}
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}
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if (lastEEPROMversion > 8)
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{
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readStringFromEEPROM(2300, mqttServer, 32);
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readStringFromEEPROM(2333, mqttDeviceTopic, 32);
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readStringFromEEPROM(2366, mqttGroupTopic, 32);
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}
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if (lastEEPROMversion > 9)
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{
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//strip.setColorOrder(EEPROM.read(383));
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irEnabled = EEPROM.read(385);
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strip.ablMilliampsMax = EEPROM.read(387) + ((EEPROM.read(388) << 8) & 0xFF00);
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} else if (lastEEPROMversion > 1) //ABL is off by default when updating from version older than 0.8.2
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{
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strip.ablMilliampsMax = 65000;
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} else {
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strip.ablMilliampsMax = ABL_MILLIAMPS_DEFAULT;
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}
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if (lastEEPROMversion > 10)
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{
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readStringFromEEPROM(2399, mqttUser, 40);
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readStringFromEEPROM(2440, mqttPass, 40);
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readStringFromEEPROM(2481, mqttClientID, 40);
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mqttPort = EEPROM.read(2522) + ((EEPROM.read(2523) << 8) & 0xFF00);
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}
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if (lastEEPROMversion > 11)
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{
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strip.milliampsPerLed = EEPROM.read(375);
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} else if (strip.ablMilliampsMax == 65000) //65000 indicates disabled ABL in <0.8.7
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{
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strip.ablMilliampsMax = ABL_MILLIAMPS_DEFAULT;
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strip.milliampsPerLed = 0; //disable ABL
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}
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if (lastEEPROMversion > 12)
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{
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readStringFromEEPROM(990, ntpServerName, 32);
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}
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if (lastEEPROMversion > 13)
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{
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mqttEnabled = EEPROM.read(2299);
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syncToggleReceive = EEPROM.read(397);
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} else {
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mqttEnabled = true;
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syncToggleReceive = false;
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}
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if (lastEEPROMversion > 14)
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{
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DMXAddress = EEPROM.read(2197) + ((EEPROM.read(2198) << 8) & 0xFF00);
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DMXMode = EEPROM.read(2199);
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} else {
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DMXAddress = 1;
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DMXMode = DMX_MODE_MULTIPLE_RGB;
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}
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//if (lastEEPROMversion > 15)
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//{
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noWifiSleep = EEPROM.read(370);
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//}
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if (lastEEPROMversion > 17)
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{
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e131SkipOutOfSequence = EEPROM.read(2189);
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} else {
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e131SkipOutOfSequence = true;
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}
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if (lastEEPROMversion > 18)
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{
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e131Port = EEPROM.read(2187) + ((EEPROM.read(2188) << 8) & 0xFF00);
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}
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#ifdef WLED_ENABLE_DMX
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if (lastEEPROMversion > 19)
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{
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e131ProxyUniverse = EEPROM.read(2185) + ((EEPROM.read(2186) << 8) & 0xFF00);
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}
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#endif
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if (lastEEPROMversion > 21) {
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udpPort2 = EEPROM.read(378) + ((EEPROM.read(379) << 8) & 0xFF00);
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}
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receiveDirect = !EEPROM.read(2200);
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notifyMacro = EEPROM.read(2201);
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//strip.rgbwMode = EEPROM.read(2203);
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//skipFirstLed = EEPROM.read(2204);
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bootPreset = EEPROM.read(389);
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wifiLock = EEPROM.read(393);
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utcOffsetSecs = EEPROM.read(394) + ((EEPROM.read(395) << 8) & 0xFF00);
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if (EEPROM.read(396)) utcOffsetSecs = -utcOffsetSecs; //negative
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//!EEPROM.read(399); was enableSecTransition
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//favorite setting (preset) memory (25 slots/ each 20byte)
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//400 - 899 reserved
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//custom macro memory (16 slots/ each 64byte)
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//1024-2047 reserved
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#ifndef WLED_DISABLE_BLYNK
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readStringFromEEPROM(2220, blynkApiKey, 35);
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if (strlen(blynkApiKey) < 25) blynkApiKey[0] = 0;
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#endif
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#ifdef WLED_ENABLE_DMX
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// DMX (2530 - 2549)2535
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DMXChannels = EEPROM.read(2530);
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DMXGap = EEPROM.read(2531) + ((EEPROM.read(2532) << 8) & 0xFF00);
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DMXStart = EEPROM.read(2533) + ((EEPROM.read(2534) << 8) & 0xFF00);
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for (int i=0;i<15;i++) {
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DMXFixtureMap[i] = EEPROM.read(2535+i);
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} //last used: 2549
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DMXStartLED = EEPROM.read(2550);
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#endif
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//Usermod memory
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//2551 - 2559 reserved for Usermods, usable by default
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//2560 - 2943 usable, NOT reserved (need to increase EEPSIZE accordingly, new WLED core features may override this section)
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//2944 - 3071 reserved for Usermods (need to increase EEPSIZE to 3072 in const.h)
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}
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//provided for increased compatibility with usermods written for v0.10
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void applyMacro(byte index) {
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applyPreset(index+16);
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}
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// De-EEPROM routine, upgrade from previous versions to v0.11
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void deEEP() {
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if (WLED_FS.exists("/presets.json")) return;
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DEBUG_PRINTLN(F("Preset file not found, attempting to load from EEPROM"));
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DEBUGFS_PRINTLN(F("Allocating saving buffer for dEEP"));
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if (!requestJSONBufferLock(8)) return;
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JsonObject sObj = doc.to<JsonObject>();
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sObj.createNestedObject("0");
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EEPROM.begin(EEPSIZE);
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if (EEPROM.read(233) == 233) { //valid EEPROM save
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for (uint16_t index = 1; index <= 16; index++) { //copy presets to presets.json
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uint16_t i = 380 + index*20;
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byte ver = EEPROM.read(i);
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if ((index < 16 && ver != 1) || (index == 16 && (ver < 2 || ver > 3))) continue;
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char nbuf[16];
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sprintf(nbuf, "%d", index);
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JsonObject pObj = sObj.createNestedObject(nbuf);
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sprintf_P(nbuf, (char*)F("Preset %d"), index);
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pObj["n"] = nbuf;
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pObj["bri"] = EEPROM.read(i+1);
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if (index < 16) {
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JsonObject segObj = pObj.createNestedObject("seg");
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JsonArray colarr = segObj.createNestedArray("col");
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byte numChannels = (strip.hasWhiteChannel())? 4:3;
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for (uint8_t k = 0; k < 3; k++) //k=0 primary (i+2) k=1 secondary (i+6) k=2 tertiary color (i+12)
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{
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JsonArray colX = colarr.createNestedArray();
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uint16_t memloc = i + 6*k;
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if (k == 0) memloc += 2;
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for (byte j = 0; j < numChannels; j++) colX.add(EEPROM.read(memloc + j));
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}
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segObj["fx"] = EEPROM.read(i+10);
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segObj["sx"] = EEPROM.read(i+11);
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segObj["ix"] = EEPROM.read(i+16);
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segObj["pal"] = EEPROM.read(i+17);
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} else {
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Segment* seg = strip.getSegments();
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memcpy(seg, EEPROM.getDataPtr() +i+2, 240);
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if (ver == 2) { //versions before 2004230 did not have opacity
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for (byte j = 0; j < strip.getMaxSegments(); j++)
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{
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strip.getSegment(j).opacity = 255;
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strip.getSegment(j).setOption(SEG_OPTION_ON, true); // use transistion
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}
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}
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serializeState(pObj, true, false, true);
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}
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}
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for (uint16_t index = 1; index <= 16; index++) { //copy macros to presets.json
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char m[65];
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readStringFromEEPROM(1024+64*(index-1), m, 64);
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if (m[0]) { //macro exists
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char nbuf[16];
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sprintf(nbuf, "%d", index + 16);
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JsonObject pObj = sObj.createNestedObject(nbuf);
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sprintf_P(nbuf, "Z Macro %d", index);
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pObj["n"] = nbuf;
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pObj["win"] = m;
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}
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}
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}
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EEPROM.end();
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File f = WLED_FS.open("/presets.json", "w");
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if (!f) {
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errorFlag = ERR_FS_GENERAL;
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releaseJSONBufferLock();
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return;
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}
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serializeJson(doc, f);
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f.close();
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releaseJSONBufferLock();
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DEBUG_PRINTLN(F("deEEP complete!"));
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}
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void deEEPSettings() {
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DEBUG_PRINTLN(F("Restore settings from EEPROM"));
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EEPROM.begin(EEPSIZE);
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loadSettingsFromEEPROM();
|
|
EEPROM.end();
|
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}
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#endif
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