WLED/wled00/wled_eeprom.cpp

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#include <EEPROM.h>
#include "wled.h"
/*
* Methods to handle saving and loading to non-volatile memory
* EEPROM Map: https://github.com/Aircoookie/WLED/wiki/EEPROM-Map
*/
//eeprom Version code, enables default settings instead of 0 init on update
#define EEPVER 22
//0 -> old version, default
//1 -> 0.4p 1711272 and up
//2 -> 0.4p 1711302 and up
//3 -> 0.4 1712121 and up
//4 -> 0.5.0 and up
//5 -> 0.5.1 and up
//6 -> 0.6.0 and up
//7 -> 0.7.1 and up
//8 -> 0.8.0-a and up
//9 -> 0.8.0
//10-> 0.8.2
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//11-> 0.8.5-dev #mqttauth @TimothyBrown
//12-> 0.8.7-dev
//13-> 0.9.0-dev
//14-> 0.9.0-b1
//15-> 0.9.0-b3
//16-> 0.9.1
//17-> 0.9.1-dmx
//18-> 0.9.1-e131
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//19-> 0.9.1n
//20-> 0.9.1p
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//21-> 0.10.1p
//22-> 2009260
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void commit()
{
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if (!EEPROM.commit()) errorFlag = ERR_EEP_COMMIT;
}
/*
* Erase all configuration data
*/
void clearEEPROM()
{
for (int i = 0; i < EEPSIZE; i++)
{
EEPROM.write(i, 0);
}
commit();
}
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void writeStringToEEPROM(uint16_t pos, char* str, uint16_t len)
{
for (int i = 0; i < len; ++i)
{
EEPROM.write(pos + i, str[i]);
if (str[i] == 0) return;
}
}
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void readStringFromEEPROM(uint16_t pos, char* str, uint16_t len)
{
for (int i = 0; i < len; ++i)
{
str[i] = EEPROM.read(pos + i);
if (str[i] == 0) return;
}
str[len] = 0; //make sure every string is properly terminated. str must be at least len +1 big.
}
/*
* Write configuration to flash
*/
void saveSettingsToEEPROM()
{
if (EEPROM.read(233) != 233) //set no first boot flag
{
clearEEPROM();
EEPROM.write(233, 233);
}
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writeStringToEEPROM( 0, clientSSID, 32);
writeStringToEEPROM( 32, clientPass, 64);
writeStringToEEPROM( 96, cmDNS, 32);
writeStringToEEPROM(128, apSSID, 32);
writeStringToEEPROM(160, apPass, 64);
EEPROM.write(224, nightlightDelayMinsDefault);
EEPROM.write(225, nightlightMode);
EEPROM.write(226, notifyDirectDefault);
EEPROM.write(227, apChannel);
EEPROM.write(228, apHide);
EEPROM.write(229, ledCount & 0xFF);
EEPROM.write(230, notifyButton);
EEPROM.write(231, notifyTwice);
EEPROM.write(232, buttonEnabled);
//233 reserved for first boot flag
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for (int i = 0; i<4; i++) //ip addresses
{
EEPROM.write(234+i, staticIP[i]);
EEPROM.write(238+i, staticGateway[i]);
EEPROM.write(242+i, staticSubnet[i]);
}
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EEPROM.write(249, briS);
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EEPROM.write(250, receiveNotificationBrightness);
EEPROM.write(251, fadeTransition);
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EEPROM.write(252, strip.reverseMode);
EEPROM.write(253, transitionDelayDefault & 0xFF);
EEPROM.write(254, (transitionDelayDefault >> 8) & 0xFF);
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EEPROM.write(255, briMultiplier);
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//255,250,231,230,226 notifier bytes
writeStringToEEPROM(256, otaPass, 32);
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EEPROM.write(288, nightlightTargetBri);
EEPROM.write(289, otaLock);
EEPROM.write(290, udpPort & 0xFF);
EEPROM.write(291, (udpPort >> 8) & 0xFF);
writeStringToEEPROM(292, serverDescription, 32);
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EEPROM.write(327, ntpEnabled);
EEPROM.write(328, currentTimezone);
EEPROM.write(329, useAMPM);
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EEPROM.write(330, strip.gammaCorrectBri);
EEPROM.write(331, strip.gammaCorrectCol);
EEPROM.write(332, overlayDefault);
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EEPROM.write(333, alexaEnabled);
writeStringToEEPROM(334, alexaInvocationName, 32);
EEPROM.write(366, notifyAlexa);
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EEPROM.write(367, (arlsOffset>=0));
EEPROM.write(368, abs(arlsOffset));
EEPROM.write(369, turnOnAtBoot);
EEPROM.write(370, noWifiSleep);
EEPROM.write(372, useRGBW);
EEPROM.write(374, strip.paletteFade);
EEPROM.write(375, strip.milliampsPerLed); //was apWaitTimeSecs up to 0.8.5
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EEPROM.write(376, apBehavior);
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EEPROM.write(377, EEPVER); //eeprom was updated to latest
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EEPROM.write(378, udpPort2 & 0xFF);
EEPROM.write(379, (udpPort2 >> 8) & 0xFF);
EEPROM.write(382, strip.paletteBlend);
EEPROM.write(383, strip.colorOrder);
EEPROM.write(385, irEnabled);
EEPROM.write(387, strip.ablMilliampsMax & 0xFF);
EEPROM.write(388, (strip.ablMilliampsMax >> 8) & 0xFF);
EEPROM.write(389, bootPreset);
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EEPROM.write(390, aOtaEnabled);
EEPROM.write(391, receiveNotificationColor);
EEPROM.write(392, receiveNotificationEffects);
EEPROM.write(393, wifiLock);
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EEPROM.write(394, abs(utcOffsetSecs) & 0xFF);
EEPROM.write(395, (abs(utcOffsetSecs) >> 8) & 0xFF);
EEPROM.write(396, (utcOffsetSecs<0)); //is negative
EEPROM.write(397, syncToggleReceive);
EEPROM.write(398, (ledCount >> 8) & 0xFF);
//EEPROM.write(399, was !enableSecTransition);
//favorite setting (preset) memory (25 slots/ each 20byte)
//400 - 940 reserved
writeStringToEEPROM(990, ntpServerName, 32);
EEPROM.write(2048, huePollingEnabled);
//EEPROM.write(2049, hueUpdatingEnabled);
for (int i = 2050; i < 2054; ++i)
{
EEPROM.write(i, hueIP[i-2050]);
}
writeStringToEEPROM(2054, hueApiKey, 46);
EEPROM.write(2100, huePollIntervalMs & 0xFF);
EEPROM.write(2101, (huePollIntervalMs >> 8) & 0xFF);
EEPROM.write(2102, notifyHue);
EEPROM.write(2103, hueApplyOnOff);
EEPROM.write(2104, hueApplyBri);
EEPROM.write(2105, hueApplyColor);
EEPROM.write(2106, huePollLightId);
EEPROM.write(2150, overlayMin);
EEPROM.write(2151, overlayMax);
EEPROM.write(2152, analogClock12pixel);
EEPROM.write(2153, analogClock5MinuteMarks);
EEPROM.write(2154, analogClockSecondsTrail);
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EEPROM.write(2155, countdownMode);
EEPROM.write(2156, countdownYear);
EEPROM.write(2157, countdownMonth);
EEPROM.write(2158, countdownDay);
EEPROM.write(2159, countdownHour);
EEPROM.write(2160, countdownMin);
EEPROM.write(2161, countdownSec);
setCountdown();
writeStringToEEPROM(2165, cronixieDisplay, 6);
EEPROM.write(2171, cronixieBacklight);
setCronixie();
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EEPROM.write(2175, macroBoot);
EEPROM.write(2176, macroAlexaOn);
EEPROM.write(2177, macroAlexaOff);
EEPROM.write(2178, macroButton);
EEPROM.write(2179, macroLongPress);
EEPROM.write(2180, macroCountdown);
EEPROM.write(2181, macroNl);
EEPROM.write(2182, macroDoublePress);
#ifdef WLED_ENABLE_DMX
EEPROM.write(2185, e131ProxyUniverse & 0xFF);
EEPROM.write(2186, (e131ProxyUniverse >> 8) & 0xFF);
#endif
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EEPROM.write(2187, e131Port & 0xFF);
EEPROM.write(2188, (e131Port >> 8) & 0xFF);
EEPROM.write(2189, e131SkipOutOfSequence);
EEPROM.write(2190, e131Universe & 0xFF);
EEPROM.write(2191, (e131Universe >> 8) & 0xFF);
EEPROM.write(2192, e131Multicast);
EEPROM.write(2193, realtimeTimeoutMs & 0xFF);
EEPROM.write(2194, (realtimeTimeoutMs >> 8) & 0xFF);
EEPROM.write(2195, arlsForceMaxBri);
EEPROM.write(2196, arlsDisableGammaCorrection);
EEPROM.write(2197, DMXAddress & 0xFF);
EEPROM.write(2198, (DMXAddress >> 8) & 0xFF);
EEPROM.write(2199, DMXMode);
EEPROM.write(2200, !receiveDirect);
EEPROM.write(2201, notifyMacro); //was enableRealtime
EEPROM.write(2203, strip.rgbwMode);
EEPROM.write(2204, skipFirstLed);
if (saveCurrPresetCycConf)
{
EEPROM.write(2205, presetCyclingEnabled);
EEPROM.write(2206, presetCycleTime & 0xFF);
EEPROM.write(2207, (presetCycleTime >> 8) & 0xFF);
EEPROM.write(2208, presetCycleMin);
EEPROM.write(2209, presetCycleMax);
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// was EEPROM.write(2210, presetApplyBri);
// was EEPROM.write(2211, presetApplyCol);
// was EEPROM.write(2212, presetApplyFx);
saveCurrPresetCycConf = false;
}
writeStringToEEPROM(2220, blynkApiKey, 35);
for (int i = 0; i < 8; ++i)
{
EEPROM.write(2260 + i, timerHours[i] );
EEPROM.write(2270 + i, timerMinutes[i]);
EEPROM.write(2280 + i, timerWeekday[i]);
EEPROM.write(2290 + i, timerMacro[i] );
}
EEPROM.write(2299, mqttEnabled);
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writeStringToEEPROM(2300, mqttServer, 32);
writeStringToEEPROM(2333, mqttDeviceTopic, 32);
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writeStringToEEPROM(2366, mqttGroupTopic, 32);
writeStringToEEPROM(2399, mqttUser, 40);
writeStringToEEPROM(2440, mqttPass, 40);
writeStringToEEPROM(2481, mqttClientID, 40);
EEPROM.write(2522, mqttPort & 0xFF);
EEPROM.write(2523, (mqttPort >> 8) & 0xFF);
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// DMX (2530 - 2549)
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#ifdef WLED_ENABLE_DMX
EEPROM.write(2530, DMXChannels);
EEPROM.write(2531, DMXGap & 0xFF);
EEPROM.write(2532, (DMXGap >> 8) & 0xFF);
EEPROM.write(2533, DMXStart & 0xFF);
EEPROM.write(2534, (DMXStart >> 8) & 0xFF);
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for (int i=0; i<15; i++) {
EEPROM.write(2535+i, DMXFixtureMap[i]);
} // last used: 2549. maybe leave a few bytes for future expansion and go on with 2600 kthxbye.
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#endif
commit();
}
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/*
* Read all configuration from flash
*/
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void loadSettingsFromEEPROM()
{
if (EEPROM.read(233) != 233) //first boot/reset to default
{
DEBUG_PRINT("Settings invalid, restoring defaults...");
saveSettingsToEEPROM();
DEBUG_PRINTLN("done");
return;
}
int lastEEPROMversion = EEPROM.read(377); //last EEPROM version before update
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readStringFromEEPROM( 0, clientSSID, 32);
readStringFromEEPROM( 32, clientPass, 64);
readStringFromEEPROM( 96, cmDNS, 32);
readStringFromEEPROM(128, apSSID, 32);
readStringFromEEPROM(160, apPass, 64);
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nightlightDelayMinsDefault = EEPROM.read(224);
nightlightDelayMins = nightlightDelayMinsDefault;
nightlightMode = EEPROM.read(225);
notifyDirectDefault = EEPROM.read(226);
notifyDirect = notifyDirectDefault;
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apChannel = EEPROM.read(227);
if (apChannel > 13 || apChannel < 1) apChannel = 1;
apHide = EEPROM.read(228);
if (apHide > 1) apHide = 1;
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ledCount = EEPROM.read(229) + ((EEPROM.read(398) << 8) & 0xFF00); if (ledCount > MAX_LEDS || ledCount == 0) ledCount = 30;
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notifyButton = EEPROM.read(230);
notifyTwice = EEPROM.read(231);
buttonEnabled = EEPROM.read(232);
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staticIP[0] = EEPROM.read(234);
staticIP[1] = EEPROM.read(235);
staticIP[2] = EEPROM.read(236);
staticIP[3] = EEPROM.read(237);
staticGateway[0] = EEPROM.read(238);
staticGateway[1] = EEPROM.read(239);
staticGateway[2] = EEPROM.read(240);
staticGateway[3] = EEPROM.read(241);
staticSubnet[0] = EEPROM.read(242);
staticSubnet[1] = EEPROM.read(243);
staticSubnet[2] = EEPROM.read(244);
staticSubnet[3] = EEPROM.read(245);
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briS = EEPROM.read(249); bri = briS;
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if (!EEPROM.read(369))
{
bri = 0; briLast = briS;
}
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receiveNotificationBrightness = EEPROM.read(250);
fadeTransition = EEPROM.read(251);
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strip.reverseMode = EEPROM.read(252);
transitionDelayDefault = EEPROM.read(253) + ((EEPROM.read(254) << 8) & 0xFF00);
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);
otaLock = EEPROM.read(289);
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);
currentTimezone = EEPROM.read(328);
useAMPM = EEPROM.read(329);
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strip.gammaCorrectBri = EEPROM.read(330);
strip.gammaCorrectCol = EEPROM.read(331);
overlayDefault = EEPROM.read(332);
if (lastEEPROMversion < 8 && overlayDefault > 0) overlayDefault--; //overlay mode 1 (solid) was removed
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alexaEnabled = EEPROM.read(333);
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readStringFromEEPROM(334, alexaInvocationName, 32);
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notifyAlexa = EEPROM.read(366);
arlsOffset = EEPROM.read(368);
if (!EEPROM.read(367)) arlsOffset = -arlsOffset;
turnOnAtBoot = EEPROM.read(369);
useRGBW = EEPROM.read(372);
//374 - strip.paletteFade
apBehavior = EEPROM.read(376);
//377 = lastEEPROMversion
if (lastEEPROMversion > 3) {
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aOtaEnabled = EEPROM.read(390);
receiveNotificationColor = EEPROM.read(391);
receiveNotificationEffects = EEPROM.read(392);
}
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receiveNotifications = (receiveNotificationBrightness || receiveNotificationColor || receiveNotificationEffects);
if (lastEEPROMversion > 4) {
huePollingEnabled = EEPROM.read(2048);
//hueUpdatingEnabled = EEPROM.read(2049);
for (int i = 2050; i < 2054; ++i)
{
hueIP[i-2050] = EEPROM.read(i);
}
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readStringFromEEPROM(2054, hueApiKey, 46);
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huePollIntervalMs = EEPROM.read(2100) + ((EEPROM.read(2101) << 8) & 0xFF00);
notifyHue = EEPROM.read(2102);
hueApplyOnOff = EEPROM.read(2103);
hueApplyBri = EEPROM.read(2104);
hueApplyColor = EEPROM.read(2105);
huePollLightId = EEPROM.read(2106);
}
if (lastEEPROMversion > 5) {
overlayMin = EEPROM.read(2150);
overlayMax = EEPROM.read(2151);
analogClock12pixel = EEPROM.read(2152);
analogClock5MinuteMarks = EEPROM.read(2153);
analogClockSecondsTrail = EEPROM.read(2154);
countdownMode = EEPROM.read(2155);
countdownYear = EEPROM.read(2156);
countdownMonth = EEPROM.read(2157);
countdownDay = EEPROM.read(2158);
countdownHour = EEPROM.read(2159);
countdownMin = EEPROM.read(2160);
countdownSec = EEPROM.read(2161);
setCountdown();
readStringFromEEPROM(2165, cronixieDisplay, 6);
cronixieBacklight = EEPROM.read(2171);
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macroBoot = EEPROM.read(2175);
macroAlexaOn = EEPROM.read(2176);
macroAlexaOff = EEPROM.read(2177);
macroButton = EEPROM.read(2178);
macroLongPress = EEPROM.read(2179);
macroCountdown = EEPROM.read(2180);
macroNl = EEPROM.read(2181);
macroDoublePress = EEPROM.read(2182);
if (macroDoublePress > 16) macroDoublePress = 0;
}
if (lastEEPROMversion > 6)
{
e131Universe = EEPROM.read(2190) + ((EEPROM.read(2191) << 8) & 0xFF00);
e131Multicast = EEPROM.read(2192);
realtimeTimeoutMs = EEPROM.read(2193) + ((EEPROM.read(2194) << 8) & 0xFF00);
arlsForceMaxBri = EEPROM.read(2195);
arlsDisableGammaCorrection = EEPROM.read(2196);
}
if (lastEEPROMversion > 7)
{
strip.paletteFade = EEPROM.read(374);
strip.paletteBlend = EEPROM.read(382);
for (int i = 0; i < 8; ++i)
{
timerHours[i] = EEPROM.read(2260 + i);
timerMinutes[i] = EEPROM.read(2270 + i);
timerWeekday[i] = EEPROM.read(2280 + i);
timerMacro[i] = EEPROM.read(2290 + i);
if (timerWeekday[i] == 0) timerWeekday[i] = 255;
}
}
if (lastEEPROMversion > 8)
{
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readStringFromEEPROM(2300, mqttServer, 32);
readStringFromEEPROM(2333, mqttDeviceTopic, 32);
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readStringFromEEPROM(2366, mqttGroupTopic, 32);
}
if (lastEEPROMversion > 9)
{
strip.colorOrder = EEPROM.read(383);
irEnabled = EEPROM.read(385);
strip.ablMilliampsMax = EEPROM.read(387) + ((EEPROM.read(388) << 8) & 0xFF00);
} else if (lastEEPROMversion > 1) //ABL is off by default when updating from version older than 0.8.2
{
strip.ablMilliampsMax = 65000;
} else {
strip.ablMilliampsMax = ABL_MILLIAMPS_DEFAULT;
}
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if (lastEEPROMversion > 10)
{
readStringFromEEPROM(2399, mqttUser, 40);
readStringFromEEPROM(2440, mqttPass, 40);
readStringFromEEPROM(2481, mqttClientID, 40);
mqttPort = EEPROM.read(2522) + ((EEPROM.read(2523) << 8) & 0xFF00);
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}
if (lastEEPROMversion > 11)
{
strip.milliampsPerLed = EEPROM.read(375);
} else if (strip.ablMilliampsMax == 65000) //65000 indicates disabled ABL in <0.8.7
{
strip.ablMilliampsMax = ABL_MILLIAMPS_DEFAULT;
strip.milliampsPerLed = 0; //disable ABL
}
if (lastEEPROMversion > 12)
{
readStringFromEEPROM(990, ntpServerName, 32);
}
if (lastEEPROMversion > 13)
{
mqttEnabled = EEPROM.read(2299);
syncToggleReceive = EEPROM.read(397);
} else {
mqttEnabled = true;
syncToggleReceive = false;
}
if (lastEEPROMversion > 14)
{
DMXAddress = EEPROM.read(2197) + ((EEPROM.read(2198) << 8) & 0xFF00);
DMXMode = EEPROM.read(2199);
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} else {
DMXAddress = 1;
DMXMode = DMX_MODE_MULTIPLE_RGB;
}
//if (lastEEPROMversion > 15)
//{
noWifiSleep = EEPROM.read(370);
//}
if (lastEEPROMversion > 17)
{
e131SkipOutOfSequence = EEPROM.read(2189);
} else {
e131SkipOutOfSequence = true;
}
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if (lastEEPROMversion > 18)
{
e131Port = EEPROM.read(2187) + ((EEPROM.read(2188) << 8) & 0xFF00);
}
#ifdef WLED_ENABLE_DMX
if (lastEEPROMversion > 19)
{
e131ProxyUniverse = EEPROM.read(2185) + ((EEPROM.read(2186) << 8) & 0xFF00);
}
#endif
if (lastEEPROMversion > 21) {
udpPort2 = EEPROM.read(378) + ((EEPROM.read(379) << 8) & 0xFF00);
}
receiveDirect = !EEPROM.read(2200);
notifyMacro = EEPROM.read(2201);
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strip.rgbwMode = EEPROM.read(2203);
skipFirstLed = EEPROM.read(2204);
if (EEPROM.read(2210) || EEPROM.read(2211) || EEPROM.read(2212))
{
presetCyclingEnabled = EEPROM.read(2205);
presetCycleTime = EEPROM.read(2206) + ((EEPROM.read(2207) << 8) & 0xFF00);
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if (lastEEPROMversion < 21) presetCycleTime /= 100; //was stored in ms, now is in tenths of a second
presetCycleMin = EEPROM.read(2208);
presetCycleMax = EEPROM.read(2209);
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//was presetApplyBri = EEPROM.read(2210);
//was presetApplyCol = EEPROM.read(2211);
//was presetApplyFx = EEPROM.read(2212);
}
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bootPreset = EEPROM.read(389);
wifiLock = EEPROM.read(393);
utcOffsetSecs = EEPROM.read(394) + ((EEPROM.read(395) << 8) & 0xFF00);
if (EEPROM.read(396)) utcOffsetSecs = -utcOffsetSecs; //negative
//!EEPROM.read(399); was enableSecTransition
//favorite setting (preset) memory (25 slots/ each 20byte)
//400 - 899 reserved
//custom macro memory (16 slots/ each 64byte)
//1024-2047 reserved
readStringFromEEPROM(2220, blynkApiKey, 35);
if (strlen(blynkApiKey) < 25) blynkApiKey[0] = 0;
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#ifdef WLED_ENABLE_DMX
// DMX (2530 - 2549)2535
DMXChannels = EEPROM.read(2530);
DMXGap = EEPROM.read(2531) + ((EEPROM.read(2532) << 8) & 0xFF00);
DMXStart = EEPROM.read(2533) + ((EEPROM.read(2534) << 8) & 0xFF00);
for (int i=0;i<15;i++) {
DMXFixtureMap[i] = EEPROM.read(2535+i);
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} //last used: 2549
EEPROM.write(2550, DMXStartLED);
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#endif
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//Usermod memory
//2551 - 2559 reserved for Usermods, usable by default
//2560 - 2943 usable, NOT reserved (need to increase EEPSIZE accordingly, new WLED core features may override this section)
//2944 - 3071 reserved for Usermods (need to increase EEPSIZE to 3072 in const.h)
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overlayCurrent = overlayDefault;
savedToPresets();
}
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//PRESET PROTOCOL 20 bytes
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//0: preset purpose byte 0:invalid 1:valid preset 2:segment preset 2.0
//1:a 2:r 3:g 4:b 5:w 6:er 7:eg 8:eb 9:ew 10:fx 11:sx | custom chase 12:numP 13:numS 14:(0:fs 1:both 2:fe) 15:step 16:ix 17: fp 18-19:Zeros
//determines which presets already contain save data
void savedToPresets()
{
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for (byte index = 1; index < 16; index++)
{
uint16_t i = 380 + index*20;
if (EEPROM.read(i) == 1) {
savedPresets |= 0x01 << (index-1);
} else
{
savedPresets &= ~(0x01 << (index-1));
}
}
if (EEPROM.read(700) == 2 || EEPROM.read(700) == 3) {
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savedPresets |= 0x01 << 15;
} else
{
savedPresets &= ~(0x01 << 15);
}
}
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bool applyPreset(byte index)
{
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if (fileDoc) {
errorFlag = readObjectFromFileUsingId("/presets.json", index, fileDoc) ? ERR_NONE : ERR_FS_PLOAD;
#ifdef WLED_DEBUG_FS
serializeJson(*fileDoc, Serial);
#endif
deserializeState(fileDoc->as<JsonObject>());
} else {
WLED_DEBUG_FS(F("Make read buf"));
DynamicJsonDocument fDoc(JSON_BUFFER_SIZE);
errorFlag = readObjectFromFileUsingId("/presets.json", index, &fDoc) ? ERR_NONE : ERR_FS_PLOAD;
#ifdef WLED_DEBUG_FS
serializeJson(fDoc, Serial);
#endif
deserializeState(fDoc.as<JsonObject>());
}
if (!errorFlag) {
currentPreset = index;
isPreset = true;
return true;
}
return false;
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/*if (index == 255 || index == 0)
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{
loadSettingsFromEEPROM(false);//load boot defaults
return true;
}
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if (index > 16 || index < 1) return false;
uint16_t i = 380 + index*20;
byte ver = EEPROM.read(i);
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if (index < 16) {
if (ver != 1) return false;
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strip.applyToAllSelected = true;
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if (loadBri) bri = EEPROM.read(i+1);
for (byte j=0; j<4; j++)
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{
col[j] = EEPROM.read(i+j+2);
colSec[j] = EEPROM.read(i+j+6);
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}
strip.setColor(2, EEPROM.read(i+12), EEPROM.read(i+13), EEPROM.read(i+14), EEPROM.read(i+15)); //tertiary color
effectCurrent = EEPROM.read(i+10);
effectSpeed = EEPROM.read(i+11);
effectIntensity = EEPROM.read(i+16);
effectPalette = EEPROM.read(i+17);
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} else {
if (ver != 2 && ver != 3) return false;
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strip.applyToAllSelected = false;
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if (loadBri) bri = EEPROM.read(i+1);
WS2812FX::Segment* seg = strip.getSegments();
memcpy(seg, EEPROM.getDataPtr() +i+2, 240);
if (ver == 2) { //versions before 2004230 did not have opacity
for (byte j = 0; j < strip.getMaxSegments(); j++)
{
strip.getSegment(j).opacity = 255;
strip.getSegment(j).setOption(SEG_OPTION_ON, 1);
}
}
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setValuesFromMainSeg();
}
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currentPreset = index;
isPreset = true;
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return true;*/
}
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void savePreset(byte index, bool persist, const char* pname, JsonObject saveobj)
{
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bool docAlloc = fileDoc;
JsonObject sObj = saveobj;
if (!docAlloc) {
DEBUGFS_PRINTLN(F("Allocating saving buffer"));
fileDoc = new DynamicJsonDocument(JSON_BUFFER_SIZE);
sObj = fileDoc->to<JsonObject>();
if (pname) sObj["n"] = pname;
} else {
DEBUGFS_PRINTLN(F("Reuse recv buffer"));
sObj.remove(F("psave"));
sObj.remove(F("v"));
}
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if (!sObj["o"]) {
DEBUGFS_PRINTLN(F("Save current state"));
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serializeState(sObj, true, sObj["ib"], sObj["sb"]);
currentPreset = index;
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}
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sObj.remove("o");
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sObj.remove("ib");
sObj.remove("sb");
sObj.remove(F("error"));
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writeObjectToFileUsingId("/presets.json", index, fileDoc);
if (!docAlloc) delete fileDoc;
presetsModifiedTime = now(); //unix time
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updateFSInfo();
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/*if (index > 16) return;
if (index < 1) {saveSettingsToEEPROM();return;}
uint16_t i = 380 + index*20;//min400
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if (index < 16) {
EEPROM.write(i, 1);
EEPROM.write(i+1, bri);
for (uint16_t j=0; j<4; j++)
{
EEPROM.write(i+j+2, col[j]);
EEPROM.write(i+j+6, colSec[j]);
}
EEPROM.write(i+10, effectCurrent);
EEPROM.write(i+11, effectSpeed);
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uint32_t colTer = strip.getSegment(strip.getMainSegmentId()).colors[2];
EEPROM.write(i+12, (colTer >> 16) & 0xFF);
EEPROM.write(i+13, (colTer >> 8) & 0xFF);
EEPROM.write(i+14, (colTer >> 0) & 0xFF);
EEPROM.write(i+15, (colTer >> 24) & 0xFF);
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EEPROM.write(i+16, effectIntensity);
EEPROM.write(i+17, effectPalette);
} else { //segment 16 can save segments
EEPROM.write(i, 3);
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EEPROM.write(i+1, bri);
WS2812FX::Segment* seg = strip.getSegments();
memcpy(EEPROM.getDataPtr() +i+2, seg, 240);
}
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if (persist) commit();
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savedToPresets();
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currentPreset = index;
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isPreset = true;*/
}
void deletePreset(byte index) {
StaticJsonDocument<24> empty;
writeObjectToFileUsingId("/presets.json", index, &empty);
presetsModifiedTime = now(); //unix time
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updateFSInfo();
}
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void loadMacro(byte index, char* m)
{
index-=1;
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if (index > 15) return;
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readStringFromEEPROM(1024+64*index, m, 64);
}
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void applyMacro(byte index)
{
index-=1;
if (index > 15) return;
String mc="win&";
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char m[65];
loadMacro(index+1, m);
mc += m;
mc += "&IN"; //internal, no XML response
if (!notifyMacro) mc += "&NN";
String forbidden = "&M="; //dont apply if called by the macro itself to prevent loop
/*
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* NOTE: loop is still possible if you call a different macro from a macro, which then calls the first macro again.
* To prevent that, but also disable calling macros within macros, comment the next line out.
*/
forbidden = forbidden + index;
if (mc.indexOf(forbidden) >= 0) return;
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handleSet(nullptr, mc);
}
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void saveMacro(byte index, const String& mc, bool persist) //only commit on single save, not in settings
{
index-=1;
if (index > 15) return;
int s = 1024+index*64;
for (int i = s; i < s+64; i++)
{
EEPROM.write(i, mc.charAt(i-s));
}
if (persist) commit();
}