#include "wled.h" /* * Receives client input */ //called upon POST settings form submit void handleSettingsSet(AsyncWebServerRequest *request, byte subPage) { //0: menu 1: wifi 2: leds 3: ui 4: sync 5: time 6: sec 7: DMX 8: usermods if (subPage <1 || subPage >8) return; //WIFI SETTINGS if (subPage == 1) { strlcpy(clientSSID,request->arg(F("CS")).c_str(), 33); if (!isAsterisksOnly(request->arg(F("CP")).c_str(), 65)) strlcpy(clientPass, request->arg(F("CP")).c_str(), 65); strlcpy(cmDNS, request->arg(F("CM")).c_str(), 33); apBehavior = request->arg(F("AB")).toInt(); strlcpy(apSSID, request->arg(F("AS")).c_str(), 33); apHide = request->hasArg(F("AH")); int passlen = request->arg(F("AP")).length(); if (passlen == 0 || (passlen > 7 && !isAsterisksOnly(request->arg(F("AP")).c_str(), 65))) strlcpy(apPass, request->arg(F("AP")).c_str(), 65); int t = request->arg(F("AC")).toInt(); if (t > 0 && t < 14) apChannel = t; noWifiSleep = request->hasArg(F("WS")); #ifdef WLED_USE_ETHERNET ethernetType = request->arg(F("ETH")).toInt(); WLED::instance().initEthernet(); #endif char k[3]; k[2] = 0; for (int i = 0; i<4; i++) { k[1] = i+48;//ascii 0,1,2,3 k[0] = 'I'; //static IP staticIP[i] = request->arg(k).toInt(); k[0] = 'G'; //gateway staticGateway[i] = request->arg(k).toInt(); k[0] = 'S'; //subnet staticSubnet[i] = request->arg(k).toInt(); } } //LED SETTINGS if (subPage == 2) { int t = 0; if (rlyPin>=0 && pinManager.isPinAllocated(rlyPin, PinOwner::Relay)) { pinManager.deallocatePin(rlyPin, PinOwner::Relay); } if (irPin>=0 && pinManager.isPinAllocated(irPin, PinOwner::IR)) { pinManager.deallocatePin(irPin, PinOwner::IR); } for (uint8_t s=0; s=0 && pinManager.isPinAllocated(btnPin[s], PinOwner::Button)) { pinManager.deallocatePin(btnPin[s], PinOwner::Button); } } uint8_t colorOrder, type, skip; uint16_t length, start; uint8_t pins[5] = {255, 255, 255, 255, 255}; autoSegments = request->hasArg(F("MS")); correctWB = request->hasArg(F("CCT")); cctFromRgb = request->hasArg(F("CR")); strip.cctBlending = request->arg(F("CB")).toInt(); Bus::setCCTBlend(strip.cctBlending); Bus::setAutoWhiteMode(request->arg(F("AW")).toInt()); strip.setTargetFps(request->arg(F("FR")).toInt()); for (uint8_t s = 0; s < WLED_MAX_BUSSES; s++) { char lp[4] = "L0"; lp[2] = 48+s; lp[3] = 0; //ascii 0-9 //strip data pin char lc[4] = "LC"; lc[2] = 48+s; lc[3] = 0; //strip length char co[4] = "CO"; co[2] = 48+s; co[3] = 0; //strip color order char lt[4] = "LT"; lt[2] = 48+s; lt[3] = 0; //strip type char ls[4] = "LS"; ls[2] = 48+s; ls[3] = 0; //strip start LED char cv[4] = "CV"; cv[2] = 48+s; cv[3] = 0; //strip reverse char sl[4] = "SL"; sl[2] = 48+s; sl[3] = 0; //skip 1st LED char rf[4] = "RF"; rf[2] = 48+s; rf[3] = 0; //refresh required if (!request->hasArg(lp)) { DEBUG_PRINTLN(F("No data.")); break; } for (uint8_t i = 0; i < 5; i++) { lp[1] = 48+i; if (!request->hasArg(lp)) break; pins[i] = (request->arg(lp).length() > 0) ? request->arg(lp).toInt() : 255; } type = request->arg(lt).toInt(); type |= request->hasArg(rf) << 7; // off refresh override skip = request->hasArg(sl) ? LED_SKIP_AMOUNT : 0; colorOrder = request->arg(co).toInt(); start = (request->hasArg(ls)) ? request->arg(ls).toInt() : t; if (request->hasArg(lc) && request->arg(lc).toInt() > 0) { t += length = request->arg(lc).toInt(); } else { break; // no parameter } // actual finalization is done in WLED::loop() (removing old busses and adding new) if (busConfigs[s] != nullptr) delete busConfigs[s]; busConfigs[s] = new BusConfig(type, pins, start, length, colorOrder, request->hasArg(cv), skip); doInitBusses = true; } ColorOrderMap com = {}; for (uint8_t s = 0; s < WLED_MAX_COLOR_ORDER_MAPPINGS; s++) { char xs[4] = "XS"; xs[2] = 48+s; xs[3] = 0; //start LED char xc[4] = "XC"; xc[2] = 48+s; xc[3] = 0; //strip length char xo[4] = "XO"; xo[2] = 48+s; xo[3] = 0; //color order if (request->hasArg(xs)) { start = request->arg(xs).toInt(); length = request->arg(xc).toInt(); colorOrder = request->arg(xo).toInt(); com.add(start, length, colorOrder); } } busses.updateColorOrderMap(com); // upate other pins int hw_ir_pin = request->arg(F("IR")).toInt(); if (pinManager.allocatePin(hw_ir_pin,false, PinOwner::IR)) { irPin = hw_ir_pin; } else { irPin = -1; } irEnabled = request->arg(F("IT")).toInt(); irApplyToAllSelected = !request->hasArg(F("MSO")); int hw_rly_pin = request->arg(F("RL")).toInt(); if (pinManager.allocatePin(hw_rly_pin,true, PinOwner::Relay)) { rlyPin = hw_rly_pin; } else { rlyPin = -1; } rlyMde = (bool)request->hasArg(F("RM")); for (uint8_t i=0; i10) char be[4] = "BE"; be[2] = (i<10?48:55)+i; be[3] = 0; // button type (use A,B,C,... if WLED_MAX_BUTTONS>10) int hw_btn_pin = request->arg(bt).toInt(); if (pinManager.allocatePin(hw_btn_pin,false,PinOwner::Button)) { btnPin[i] = hw_btn_pin; pinMode(btnPin[i], INPUT_PULLUP); buttonType[i] = request->arg(be).toInt(); } else { btnPin[i] = -1; buttonType[i] = BTN_TYPE_NONE; } } touchThreshold = request->arg(F("TT")).toInt(); strip.ablMilliampsMax = request->arg(F("MA")).toInt(); strip.milliampsPerLed = request->arg(F("LA")).toInt(); briS = request->arg(F("CA")).toInt(); turnOnAtBoot = request->hasArg(F("BO")); t = request->arg(F("BP")).toInt(); if (t <= 250) bootPreset = t; strip.gammaCorrectBri = request->hasArg(F("GB")); strip.gammaCorrectCol = request->hasArg(F("GC")); fadeTransition = request->hasArg(F("TF")); t = request->arg(F("TD")).toInt(); if (t >= 0) transitionDelay = t; transitionDelayDefault = t; strip.paletteFade = request->hasArg(F("PF")); nightlightTargetBri = request->arg(F("TB")).toInt(); t = request->arg(F("TL")).toInt(); if (t > 0) nightlightDelayMinsDefault = t; nightlightDelayMins = nightlightDelayMinsDefault; nightlightMode = request->arg(F("TW")).toInt(); t = request->arg(F("PB")).toInt(); if (t >= 0 && t < 4) strip.paletteBlend = t; t = request->arg(F("BF")).toInt(); if (t > 0) briMultiplier = t; } //UI if (subPage == 3) { strlcpy(serverDescription, request->arg(F("DS")).c_str(), 33); syncToggleReceive = request->hasArg(F("ST")); #ifndef WLED_DISABLE_SIMPLE_UI if (simplifiedUI ^ request->hasArg(F("SU"))) { // UI selection changed, invalidate browser cache cacheInvalidate++; } simplifiedUI = request->hasArg(F("SU")); #endif } //SYNC if (subPage == 4) { int t = request->arg(F("UP")).toInt(); if (t > 0) udpPort = t; t = request->arg(F("U2")).toInt(); if (t > 0) udpPort2 = t; syncGroups = request->arg(F("GS")).toInt(); receiveGroups = request->arg(F("GR")).toInt(); receiveNotificationBrightness = request->hasArg(F("RB")); receiveNotificationColor = request->hasArg(F("RC")); receiveNotificationEffects = request->hasArg(F("RX")); receiveSegmentOptions = request->hasArg(F("SO")); receiveSegmentBounds = request->hasArg(F("SG")); receiveNotifications = (receiveNotificationBrightness || receiveNotificationColor || receiveNotificationEffects || receiveSegmentOptions); notifyDirectDefault = request->hasArg(F("SD")); notifyDirect = notifyDirectDefault; notifyButton = request->hasArg(F("SB")); notifyAlexa = request->hasArg(F("SA")); notifyHue = request->hasArg(F("SH")); notifyMacro = request->hasArg(F("SM")); notifyTwice = request->hasArg(F("S2")); nodeListEnabled = request->hasArg(F("NL")); if (!nodeListEnabled) Nodes.clear(); nodeBroadcastEnabled = request->hasArg(F("NB")); receiveDirect = request->hasArg(F("RD")); e131SkipOutOfSequence = request->hasArg(F("ES")); e131Multicast = request->hasArg(F("EM")); t = request->arg(F("EP")).toInt(); if (t > 0) e131Port = t; t = request->arg(F("EU")).toInt(); if (t >= 0 && t <= 63999) e131Universe = t; t = request->arg(F("DA")).toInt(); if (t >= 0 && t <= 510) DMXAddress = t; t = request->arg(F("DM")).toInt(); if (t >= DMX_MODE_DISABLED && t <= DMX_MODE_MULTIPLE_RGBW) DMXMode = t; t = request->arg(F("ET")).toInt(); if (t > 99 && t <= 65000) realtimeTimeoutMs = t; arlsForceMaxBri = request->hasArg(F("FB")); arlsDisableGammaCorrection = request->hasArg(F("RG")); t = request->arg(F("WO")).toInt(); if (t >= -255 && t <= 255) arlsOffset = t; alexaEnabled = request->hasArg(F("AL")); strlcpy(alexaInvocationName, request->arg(F("AI")).c_str(), 33); #ifndef WLED_DISABLE_BLYNK strlcpy(blynkHost, request->arg("BH").c_str(), 33); t = request->arg(F("BP")).toInt(); if (t > 0) blynkPort = t; if (request->hasArg("BK") && !request->arg("BK").equals(F("Hidden"))) { strlcpy(blynkApiKey, request->arg("BK").c_str(), 36); initBlynk(blynkApiKey, blynkHost, blynkPort); } #endif #ifdef WLED_ENABLE_MQTT mqttEnabled = request->hasArg(F("MQ")); strlcpy(mqttServer, request->arg(F("MS")).c_str(), 33); t = request->arg(F("MQPORT")).toInt(); if (t > 0) mqttPort = t; strlcpy(mqttUser, request->arg(F("MQUSER")).c_str(), 41); if (!isAsterisksOnly(request->arg(F("MQPASS")).c_str(), 41)) strlcpy(mqttPass, request->arg(F("MQPASS")).c_str(), 65); strlcpy(mqttClientID, request->arg(F("MQCID")).c_str(), 41); strlcpy(mqttDeviceTopic, request->arg(F("MD")).c_str(), 33); strlcpy(mqttGroupTopic, request->arg(F("MG")).c_str(), 33); buttonPublishMqtt = request->hasArg(F("BM")); #endif #ifndef WLED_DISABLE_HUESYNC for (int i=0;i<4;i++){ String a = "H"+String(i); hueIP[i] = request->arg(a).toInt(); } t = request->arg(F("HL")).toInt(); if (t > 0) huePollLightId = t; t = request->arg(F("HI")).toInt(); if (t > 50) huePollIntervalMs = t; hueApplyOnOff = request->hasArg(F("HO")); hueApplyBri = request->hasArg(F("HB")); hueApplyColor = request->hasArg(F("HC")); huePollingEnabled = request->hasArg(F("HP")); hueStoreAllowed = true; reconnectHue(); #endif t = request->arg(F("BD")).toInt(); if (t >= 96 && t <= 15000) serialBaud = t; updateBaudRate(serialBaud *100); } //TIME if (subPage == 5) { ntpEnabled = request->hasArg(F("NT")); strlcpy(ntpServerName, request->arg(F("NS")).c_str(), 33); useAMPM = !request->hasArg(F("CF")); currentTimezone = request->arg(F("TZ")).toInt(); utcOffsetSecs = request->arg(F("UO")).toInt(); //start ntp if not already connected if (ntpEnabled && WLED_CONNECTED && !ntpConnected) ntpConnected = ntpUdp.begin(ntpLocalPort); ntpLastSyncTime = 0; // force new NTP query longitude = request->arg(F("LN")).toFloat(); latitude = request->arg(F("LT")).toFloat(); // force a sunrise/sunset re-calculation calculateSunriseAndSunset(); if (request->hasArg(F("OL"))) { overlayDefault = request->arg(F("OL")).toInt(); overlayCurrent = overlayDefault; } overlayMin = request->arg(F("O1")).toInt(); overlayMax = request->arg(F("O2")).toInt(); analogClock12pixel = request->arg(F("OM")).toInt(); analogClock5MinuteMarks = request->hasArg(F("O5")); analogClockSecondsTrail = request->hasArg(F("OS")); #ifndef WLED_DISABLE_CRONIXIE strlcpy(cronixieDisplay,request->arg(F("CX")).c_str(),7); cronixieBacklight = request->hasArg(F("CB")); #endif countdownMode = request->hasArg(F("CE")); countdownYear = request->arg(F("CY")).toInt(); countdownMonth = request->arg(F("CI")).toInt(); countdownDay = request->arg(F("CD")).toInt(); countdownHour = request->arg(F("CH")).toInt(); countdownMin = request->arg(F("CM")).toInt(); countdownSec = request->arg(F("CS")).toInt(); setCountdown(); macroAlexaOn = request->arg(F("A0")).toInt(); macroAlexaOff = request->arg(F("A1")).toInt(); macroCountdown = request->arg(F("MC")).toInt(); macroNl = request->arg(F("MN")).toInt(); for (uint8_t i=0; ihasArg(mp)) break; macroButton[i] = request->arg(mp).toInt(); // these will default to 0 if not present macroLongPress[i] = request->arg(ml).toInt(); macroDoublePress[i] = request->arg(md).toInt(); } char k[3]; k[2] = 0; for (int i = 0; i<10; i++) { k[1] = i+48;//ascii 0,1,2,3,... k[0] = 'H'; //timer hours timerHours[i] = request->arg(k).toInt(); k[0] = 'N'; //minutes timerMinutes[i] = request->arg(k).toInt(); k[0] = 'T'; //macros timerMacro[i] = request->arg(k).toInt(); k[0] = 'W'; //weekdays timerWeekday[i] = request->arg(k).toInt(); if (i<8) { k[0] = 'M'; //start month timerMonth[i] = request->arg(k).toInt() & 0x0F; timerMonth[i] <<= 4; k[0] = 'P'; //end month timerMonth[i] += (request->arg(k).toInt() & 0x0F); k[0] = 'D'; //start day timerDay[i] = request->arg(k).toInt(); k[0] = 'E'; //end day timerDayEnd[i] = request->arg(k).toInt(); } } } //SECURITY if (subPage == 6) { if (request->hasArg(F("RS"))) //complete factory reset { WLED_FS.format(); clearEEPROM(); serveMessage(request, 200, F("All Settings erased."), F("Connect to WLED-AP to setup again"),255); doReboot = true; } bool pwdCorrect = !otaLock; //always allow access if ota not locked if (request->hasArg(F("OP"))) { if (otaLock && strcmp(otaPass,request->arg(F("OP")).c_str()) == 0) { pwdCorrect = true; } if (!otaLock && request->arg(F("OP")).length() > 0) { strlcpy(otaPass,request->arg(F("OP")).c_str(), 33); } } if (pwdCorrect) //allow changes if correct pwd or no ota active { otaLock = request->hasArg(F("NO")); wifiLock = request->hasArg(F("OW")); aOtaEnabled = request->hasArg(F("AO")); } } #ifdef WLED_ENABLE_DMX // include only if DMX is enabled if (subPage == 7) { int t = request->arg(F("PU")).toInt(); if (t >= 0 && t <= 63999) e131ProxyUniverse = t; t = request->arg(F("CN")).toInt(); if (t>0 && t<16) { DMXChannels = t; } t = request->arg(F("CS")).toInt(); if (t>0 && t<513) { DMXStart = t; } t = request->arg(F("CG")).toInt(); if (t>0 && t<513) { DMXGap = t; } t = request->arg(F("SL")).toInt(); if (t>=0 && t < MAX_LEDS) { DMXStartLED = t; } for (int i=0; i<15; i++) { String argname = "CH" + String((i+1)); t = request->arg(argname).toInt(); DMXFixtureMap[i] = t; } } #endif //USERMODS if (subPage == 8) { if (!requestJSONBufferLock(5)) return; JsonObject um = doc.createNestedObject("um"); size_t args = request->args(); uint16_t j=0; for (size_t i=0; iargName(i); String value = request->arg(i); // POST request parameters are combined as _ int umNameEnd = name.indexOf(":"); if (umNameEnd<1) break; // parameter does not contain ":" or on 1st place -> wrong JsonObject mod = um[name.substring(0,umNameEnd)]; // get a usermod JSON object if (mod.isNull()) { mod = um.createNestedObject(name.substring(0,umNameEnd)); // if it does not exist create it } DEBUG_PRINT(name.substring(0,umNameEnd)); DEBUG_PRINT(":"); name = name.substring(umNameEnd+1); // remove mod name from string // if the resulting name still contains ":" this means nested object JsonObject subObj; int umSubObj = name.indexOf(":"); DEBUG_PRINTF("(%d):",umSubObj); if (umSubObj>0) { subObj = mod[name.substring(0,umSubObj)]; if (subObj.isNull()) subObj = mod.createNestedObject(name.substring(0,umSubObj)); name = name.substring(umSubObj+1); // remove nested object name from string } else { subObj = mod; } DEBUG_PRINT(name); // check if parameters represent array if (name.endsWith("[]")) { name.replace("[]",""); value.replace(",","."); // just in case conversion if (!subObj[name].is()) { JsonArray ar = subObj.createNestedArray(name); if (value.indexOf(".") >= 0) ar.add(value.toFloat()); // we do have a float else ar.add(value.toInt()); // we may have an int j=0; } else { if (value.indexOf(".") >= 0) subObj[name].add(value.toFloat()); // we do have a float else subObj[name].add(value.toInt()); // we may have an int j++; } DEBUG_PRINT("["); DEBUG_PRINT(j); DEBUG_PRINT("] = "); DEBUG_PRINTLN(value); } else { // we are using a hidden field with the same name as our parameter (!before the actual parameter!) // to describe the type of parameter (text,float,int), for boolean patameters the first field contains "off" // so checkboxes have one or two fields (first is always "false", existence of second depends on checkmark and may be "true") if (subObj[name].isNull()) { // the first occurence of the field describes the parameter type (used in next loop) if (value == "false") subObj[name] = false; // checkboxes may have only one field else subObj[name] = value; } else { String type = subObj[name].as(); // get previously stored value as a type if (subObj[name].is()) subObj[name] = true; // checkbox/boolean else if (type == "number") { value.replace(",","."); // just in case conversion if (value.indexOf(".") >= 0) subObj[name] = value.toFloat(); // we do have a float else subObj[name] = value.toInt(); // we may have an int } else if (type == "int") subObj[name] = value.toInt(); else subObj[name] = value; // text fields } DEBUG_PRINT(" = "); DEBUG_PRINTLN(value); } } usermods.readFromConfig(um); // force change of usermod parameters releaseJSONBufferLock(); } if (subPage != 2 && (subPage != 6 || !doReboot)) serializeConfig(); //do not save if factory reset or LED settings (which are saved after LED re-init) if (subPage == 4) alexaInit(); } //HTTP API request parser bool handleSet(AsyncWebServerRequest *request, const String& req, bool apply) { if (!(req.indexOf("win") >= 0)) return false; int pos = 0; DEBUG_PRINT(F("API req: ")); DEBUG_PRINTLN(req); //segment select (sets main segment) byte prevMain = strip.getMainSegmentId(); pos = req.indexOf(F("SM=")); if (pos > 0) { strip.setMainSegmentId(getNumVal(&req, pos)); } byte selectedSeg = strip.getMainSegmentId(); if (selectedSeg != prevMain) setValuesFromMainSeg(); //temporary values, do not write direcly to global values of only setting a single segment byte colIn[4] = {col[0], col[1], col[2], col[3]}; byte colInSec[4] = {colSec[0], colSec[1], colSec[2], colSec[3]}; byte effectIn = effectCurrent; byte speedIn = effectSpeed; byte intensityIn = effectIntensity; byte paletteIn = effectPalette; bool singleSegment = false; pos = req.indexOf(F("SS=")); if (pos > 0) { byte t = getNumVal(&req, pos); if (t < strip.getMaxSegments()) { selectedSeg = t; singleSegment = true; } } WS2812FX::Segment& selseg = strip.getSegment(selectedSeg); pos = req.indexOf(F("SV=")); //segment selected if (pos > 0) { byte t = getNumVal(&req, pos); if (t == 2) for (uint8_t i = 0; i < strip.getMaxSegments(); i++) strip.getSegment(i).setOption(SEG_OPTION_SELECTED, 0); // unselect other segments selseg.setOption(SEG_OPTION_SELECTED, t); } uint16_t startI = selseg.start; uint16_t stopI = selseg.stop; uint8_t grpI = selseg.grouping; uint16_t spcI = selseg.spacing; pos = req.indexOf(F("&S=")); //segment start if (pos > 0) { startI = getNumVal(&req, pos); } pos = req.indexOf(F("S2=")); //segment stop if (pos > 0) { stopI = getNumVal(&req, pos); } pos = req.indexOf(F("GP=")); //segment grouping if (pos > 0) { grpI = getNumVal(&req, pos); if (grpI == 0) grpI = 1; } pos = req.indexOf(F("SP=")); //segment spacing if (pos > 0) { spcI = getNumVal(&req, pos); } strip.setSegment(selectedSeg, startI, stopI, grpI, spcI); pos = req.indexOf(F("RV=")); //Segment reverse if (pos > 0) selseg.setOption(SEG_OPTION_REVERSED, req.charAt(pos+3) != '0'); pos = req.indexOf(F("MI=")); //Segment mirror if (pos > 0) selseg.setOption(SEG_OPTION_MIRROR, req.charAt(pos+3) != '0'); pos = req.indexOf(F("SB=")); //Segment brightness/opacity if (pos > 0) { byte segbri = getNumVal(&req, pos); selseg.setOption(SEG_OPTION_ON, segbri, selectedSeg); if (segbri) { selseg.setOpacity(segbri, selectedSeg); } } pos = req.indexOf(F("SW=")); //segment power if (pos > 0) { switch (getNumVal(&req, pos)) { case 0: selseg.setOption(SEG_OPTION_ON, false); break; case 1: selseg.setOption(SEG_OPTION_ON, true); break; default: selseg.setOption(SEG_OPTION_ON, !selseg.getOption(SEG_OPTION_ON)); break; } } pos = req.indexOf(F("PS=")); //saves current in preset if (pos > 0) savePreset(getNumVal(&req, pos)); pos = req.indexOf(F("P1=")); //sets first preset for cycle if (pos > 0) presetCycMin = getNumVal(&req, pos); pos = req.indexOf(F("P2=")); //sets last preset for cycle if (pos > 0) presetCycMax = getNumVal(&req, pos); //apply preset if (updateVal(&req, "PL=", &presetCycCurr, presetCycMin, presetCycMax)) { unloadPlaylist(); applyPreset(presetCycCurr); } //set brightness updateVal(&req, "&A=", &bri); bool col0Changed = false, col1Changed = false; //set colors updateVal(&req, "&R=", &col[0]); updateVal(&req, "&G=", &col[1]); updateVal(&req, "&B=", &col[2]); updateVal(&req, "&W=", &col[3]); updateVal(&req, "R2=", &colSec[0]); updateVal(&req, "G2=", &colSec[1]); updateVal(&req, "B2=", &colSec[2]); updateVal(&req, "W2=", &colSec[3]); #ifdef WLED_ENABLE_LOXONE //lox parser pos = req.indexOf(F("LX=")); // Lox primary color if (pos > 0) { int lxValue = getNumVal(&req, pos); if (parseLx(lxValue, colIn)) { bri = 255; nightlightActive = false; //always disable nightlight when toggling } } pos = req.indexOf(F("LY=")); // Lox secondary color if (pos > 0) { int lxValue = getNumVal(&req, pos); if(parseLx(lxValue, colInSec)) { bri = 255; nightlightActive = false; //always disable nightlight when toggling } } #endif //set hue pos = req.indexOf(F("HU=")); if (pos > 0) { uint16_t temphue = getNumVal(&req, pos); byte tempsat = 255; pos = req.indexOf(F("SA=")); if (pos > 0) { tempsat = getNumVal(&req, pos); } byte sec = req.indexOf(F("H2")); colorHStoRGB(temphue, tempsat, (sec>0) ? colInSec : colIn); } //set white spectrum (kelvin) pos = req.indexOf(F("&K=")); if (pos > 0) { byte sec = req.indexOf(F("K2")); colorKtoRGB(getNumVal(&req, pos), (sec>0) ? colInSec : colIn); } //set color from HEX or 32bit DEC byte tmpCol[4]; pos = req.indexOf(F("CL=")); if (pos > 0) { colorFromDecOrHexString(colIn, (char*)req.substring(pos + 3).c_str()); } pos = req.indexOf(F("C2=")); if (pos > 0) { colorFromDecOrHexString(colInSec, (char*)req.substring(pos + 3).c_str()); } pos = req.indexOf(F("C3=")); if (pos > 0) { colorFromDecOrHexString(tmpCol, (char*)req.substring(pos + 3).c_str()); uint32_t col2 = RGBW32(tmpCol[0], tmpCol[1], tmpCol[2], tmpCol[3]); selseg.setColor(2, col2, selectedSeg); // defined above (SS= or main) colorChanged = true; if (!singleSegment) strip.setColor(2, col2); } //set to random hue SR=0->1st SR=1->2nd pos = req.indexOf(F("SR")); if (pos > 0) { byte sec = getNumVal(&req, pos); setRandomColor(sec? colInSec : colIn); } //swap 2nd & 1st pos = req.indexOf(F("SC")); if (pos > 0) { byte temp; for (uint8_t i=0; i<4; i++) { temp = colIn[i]; colIn[i] = colInSec[i]; colInSec[i] = temp; } } //apply colors to selected segment, and main color array if applicable for (byte i=0; i<4; i++) if (colIn[i]!=col[i]) col0Changed = colorChanged = true; if (col0Changed) selseg.setColor(0, RGBW32(colIn[0], colIn[1], colIn[2], colIn[3]), selectedSeg); if (!singleSegment) { for (byte i=0; i<4; i++) col[i] = colIn[i]; } for (byte i=0; i<4; i++) if (colInSec[i]!=colSec[i]) col1Changed = colorChanged = true; if (col1Changed) selseg.setColor(1, RGBW32(colInSec[0], colInSec[1], colInSec[2], colInSec[3]), selectedSeg); if (!singleSegment) { for (byte i=0; i<4; i++) colSec[i] = colInSec[i]; } //set effect parameters if (updateVal(&req, "FX=", &effectIn, 0, strip.getModeCount()-1) && request != nullptr) unloadPlaylist(); //unload playlist if changing FX using web request updateVal(&req, "SX=", &speedIn); updateVal(&req, "IX=", &intensityIn); updateVal(&req, "FP=", &paletteIn, 0, strip.getPaletteCount()-1); strip.setMode(selectedSeg, effectIn); selseg.speed = speedIn; selseg.intensity = intensityIn; selseg.palette = paletteIn; if (effectIn != effectCurrent || speedIn != effectSpeed || intensityIn != effectIntensity || paletteIn != effectPalette) effectChanged = true; if (!singleSegment) { effectCurrent = effectIn; effectSpeed = speedIn; effectIntensity = intensityIn; effectPalette = paletteIn; } //set advanced overlay pos = req.indexOf(F("OL=")); if (pos > 0) { overlayCurrent = getNumVal(&req, pos); } //apply macro (deprecated, added for compatibility with pre-0.11 automations) pos = req.indexOf(F("&M=")); if (pos > 0) { applyPreset(getNumVal(&req, pos) + 16); } //toggle send UDP direct notifications pos = req.indexOf(F("SN=")); if (pos > 0) notifyDirect = (req.charAt(pos+3) != '0'); //toggle receive UDP direct notifications pos = req.indexOf(F("RN=")); if (pos > 0) receiveNotifications = (req.charAt(pos+3) != '0'); //receive live data via UDP/Hyperion pos = req.indexOf(F("RD=")); if (pos > 0) receiveDirect = (req.charAt(pos+3) != '0'); //main toggle on/off (parse before nightlight, #1214) pos = req.indexOf(F("&T=")); if (pos > 0) { nightlightActive = false; //always disable nightlight when toggling switch (getNumVal(&req, pos)) { case 0: if (bri != 0){briLast = bri; bri = 0;} break; //off, only if it was previously on case 1: if (bri == 0) bri = briLast; break; //on, only if it was previously off default: toggleOnOff(); //toggle } } //toggle nightlight mode bool aNlDef = false; if (req.indexOf(F("&ND")) > 0) aNlDef = true; pos = req.indexOf(F("NL=")); if (pos > 0) { if (req.charAt(pos+3) == '0') { nightlightActive = false; } else { nightlightActive = true; if (!aNlDef) nightlightDelayMins = getNumVal(&req, pos); nightlightStartTime = millis(); } } else if (aNlDef) { nightlightActive = true; nightlightStartTime = millis(); } //set nightlight target brightness pos = req.indexOf(F("NT=")); if (pos > 0) { nightlightTargetBri = getNumVal(&req, pos); nightlightActiveOld = false; //re-init } //toggle nightlight fade pos = req.indexOf(F("NF=")); if (pos > 0) { nightlightMode = getNumVal(&req, pos); nightlightActiveOld = false; //re-init } if (nightlightMode > NL_MODE_SUN) nightlightMode = NL_MODE_SUN; pos = req.indexOf(F("TT=")); if (pos > 0) transitionDelay = getNumVal(&req, pos); //set time (unix timestamp) pos = req.indexOf(F("ST=")); if (pos > 0) { setTimeFromAPI(getNumVal(&req, pos)); } //set countdown goal (unix timestamp) pos = req.indexOf(F("CT=")); if (pos > 0) { countdownTime = getNumVal(&req, pos); if (countdownTime - toki.second() > 0) countdownOverTriggered = false; } pos = req.indexOf(F("LO=")); if (pos > 0) { realtimeOverride = getNumVal(&req, pos); if (realtimeOverride > 2) realtimeOverride = REALTIME_OVERRIDE_ALWAYS; } pos = req.indexOf(F("RB")); if (pos > 0) doReboot = true; //cronixie #ifndef WLED_DISABLE_CRONIXIE //mode, 1 countdown pos = req.indexOf(F("NM=")); if (pos > 0) countdownMode = (req.charAt(pos+3) != '0'); pos = req.indexOf(F("NX=")); //sets digits to code if (pos > 0) { strlcpy(cronixieDisplay, req.substring(pos + 3, pos + 9).c_str(), 7); setCronixie(); } pos = req.indexOf(F("NB=")); if (pos > 0) //sets backlight { cronixieBacklight = (req.charAt(pos+3) != '0'); } #endif pos = req.indexOf(F("U0=")); //user var 0 if (pos > 0) { userVar0 = getNumVal(&req, pos); } pos = req.indexOf(F("U1=")); //user var 1 if (pos > 0) { userVar1 = getNumVal(&req, pos); } //you can add more if you need if (!apply) return true; //when called by JSON API, do not call colorUpdated() here //internal call, does not send XML response pos = req.indexOf(F("IN")); if (pos < 1) XML_response(request); pos = req.indexOf(F("&NN")); //do not send UDP notifications this time colorUpdated((pos > 0) ? CALL_MODE_NO_NOTIFY : CALL_MODE_DIRECT_CHANGE); return true; }