Dallas sensor detection.
Minor clenaup & fixes.
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@ -57,23 +57,24 @@ class UsermodTemperature : public Usermod {
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static const char _enabled[];
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static const char _readInterval[];
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//Dallas sensor quick reading. Credit to - Author: Peter Scargill, August 17th, 2013
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//Dallas sensor quick (& dirty) reading. Credit to - Author: Peter Scargill, August 17th, 2013
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int16_t readDallas() {
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byte i;
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byte data[2];
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int16_t result;
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int16_t result; // raw data from sensor
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oneWire->reset();
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oneWire->write(0xCC);
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oneWire->write(0xBE);
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for (i=0; i < 2; i++) data[i] = oneWire->read();
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oneWire->write(0xCC); // skip ROM
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oneWire->write(0xBE); // read (temperature) from EEPROM
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for (i=0; i < 2; i++) data[i] = oneWire->read(); // first 2 bytes contain temperature
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for (i=2; i < 8; i++) oneWire->read(); // read unused bytes
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result = (data[1]<<8) | data[0];
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result >>= 4;
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if (data[1]&0x80) result |= 61440;
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if (data[0]&0x08) ++result;
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result >>= 4; // 9-bit precision accurate to 1°C (/16)
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if (data[1]&0x80) result |= 0xF000; // fix negative value
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//if (data[0]&0x08) ++result;
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oneWire->reset();
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oneWire->write(0xCC);
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oneWire->write(0x44,1);
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return result*10;
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oneWire->write(0xCC); // skip ROM
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oneWire->write(0x44,0); // request new temperature reading (without parasite power)
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return result;
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}
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void requestTemperatures() {
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@ -84,7 +85,7 @@ class UsermodTemperature : public Usermod {
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}
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void getTemperature() {
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temperature = readDallas()/10.0f;
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temperature = readDallas();
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if (!degC) temperature = temperature * 1.8f + 32;
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lastMeasurement = millis();
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waitingForConversion = false;
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@ -92,44 +93,45 @@ class UsermodTemperature : public Usermod {
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DEBUG_PRINTF("Read temperature %2.1f.\n", temperature);
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}
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bool findSensor() {
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DEBUG_PRINTLN(F("Searching for sensor..."));
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uint8_t deviceAddress[8] = {0,0,0,0,0,0,0,0};
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// find out if we have DS18xxx sensor attached
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oneWire->reset_search();
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while (oneWire->search(deviceAddress)) {
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if (oneWire->crc8(deviceAddress, 7) == deviceAddress[7]) {
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switch (deviceAddress[0]) {
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case 0x10: // DS18S20
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case 0x22: // DS18B20
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case 0x28: // DS1822
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case 0x3B: // DS1825
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case 0x42: // DS28EA00
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DEBUG_PRINTLN(F("Sensor found."));
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return true;
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}
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}
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}
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return false;
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}
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public:
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void setup() {
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//bool sensorFound = false;
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int retries = 10;
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// pin retrieved from cfg.json (readFromConfig()) prior to running setup()
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if (!pinManager.allocatePin(temperaturePin,false)) {
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temperaturePin = -1; // allocation failed
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disabled = true;
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DEBUG_PRINTLN(F("Temperature pin allocation failed."));
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} else {
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//DeviceAddress deviceAddress;
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oneWire = new OneWire(temperaturePin);
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oneWire->reset();
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/*
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// find out if we have DS18xxx sensor attached
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oneWire->reset_search();
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while (oneWire->search(deviceAddress)) {
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if (oneWire->crc8(deviceAddress, 7) == deviceAddress[7]) {
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switch (deviceAddress[0]) {
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case 0x10: // DS18S20
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case 0x22: // DS18B20
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case 0x28: // DS1822
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case 0x3B: // DS1825
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case 0x42: // DS28EA00
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sensorFound = true; // sensor found;
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DEBUG_PRINTLN(F("Sensor found."));
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break;
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}
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}
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if (!disabled) {
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// config says we are enabled
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oneWire = new OneWire(temperaturePin);
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if (!oneWire->reset())
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disabled = true; // resetting 1-Wire bus yielded an error
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else
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while ((disabled=!findSensor()) && retries--) delay(25); // try to find sensor
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}
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*/
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}
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disabled = disabled || (temperaturePin==-1);
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if (!disabled) {
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DEBUG_PRINTLN(F("Dallas Temperature found"));
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} else {
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DEBUG_PRINTLN(F("Dallas Temperature not found"));
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}
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initDone = true;
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}
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@ -152,7 +154,7 @@ class UsermodTemperature : public Usermod {
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}
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// we were waiting for a conversion to complete, have we waited log enough?
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if (now - lastTemperaturesRequest >= 800 /* 93.75ms per the datasheet but can be up to 750ms*/) {
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if (now - lastTemperaturesRequest >= 800 /* 93.75ms per the datasheet but can be up to 750ms */) {
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getTemperature();
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if (WLED_MQTT_CONNECTED) {
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@ -86,6 +86,8 @@ void deserializeConfig() {
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noWifiSleep = !noWifiSleep;
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//int wifi_phy = doc[F("wifi")][F("phy")]; //force phy mode n?
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DEBUG_PRINTLN(F(" Done network."));
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JsonObject hw = doc[F("hw")];
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// initialize LED pins and lengths prior to other HW
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@ -120,8 +122,6 @@ void deserializeConfig() {
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if (length==0 || length+lC > MAX_LEDS) continue; // zero length or we reached max. number of LEDs, just stop
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uint16_t start = elm[F("start")] | 0;
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if (start >= lC+length) continue; // something is very wrong :)
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//limit length of strip if it would exceed total configured LEDs
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//if (start + length > ledCount) length = ledCount - start;
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uint8_t colorOrder = elm[F("order")];
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uint8_t skipFirst = elm[F("skip")];
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uint8_t ledType = elm["type"] | TYPE_WS2812_RGB;
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@ -134,11 +134,12 @@ void deserializeConfig() {
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lC += length;
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BusConfig bc = BusConfig(ledType, pins, start, length, colorOrder, reversed, skipFirst);
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mem += BusManager::memUsage(bc);
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if (mem <= MAX_LED_MEMORY) busses.add(bc);
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DEBUG_PRINT(F(" Adding bus no. "));
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DEBUG_PRINTLN(busses.getNumBusses());
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if (mem <= MAX_LED_MEMORY && busses.getNumBusses() <= WLED_MAX_BUSSES) busses.add(bc); // finalization will be done in WLED::beginStrip()
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}
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if (lC > ledCount) ledCount = lC; // fix incorrect total length (honour analog setup)
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//strip.finalizeInit(); // will be done in WLED::beginStrip()
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if (hw_led["rev"]) busses.getBus(0)->reversed = true; //set 0.11 global reversed setting for first bus
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DEBUG_PRINTLN(F(" Done LEDs."));
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JsonObject hw_btn_ins_0 = hw[F("btn")][F("ins")][0];
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CJSON(buttonType, hw_btn_ins_0["type"]);
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@ -178,6 +179,7 @@ void deserializeConfig() {
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if (relay.containsKey("rev")) {
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rlyMde = !relay["rev"];
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}
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DEBUG_PRINTLN(F(" Done HW."));
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//int hw_status_pin = hw[F("status")]["pin"]; // -1
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@ -388,6 +390,7 @@ void deserializeConfig() {
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}
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#endif
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DEBUG_PRINTLN(F("Starting usermod config."));
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JsonObject usermods_settings = doc["um"];
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usermods.readFromConfig(usermods_settings);
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}
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@ -76,9 +76,9 @@ void loadPlaylist(JsonObject playlistObj) {
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for (int i = it; i < playlistLen; i++) entries[i].dur = entries[it -1].dur;
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it = 0;
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JsonArray tr = playlistObj["transition"];
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JsonArray tr = playlistObj[F("transition")];
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if (tr.isNull()) {
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entries[0].tr = playlistObj["transition"] | (transitionDelay / 100);
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entries[0].tr = playlistObj[F("transition")] | (transitionDelay / 100);
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it = 1;
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} else {
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for (int transition : tr) {
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@ -258,7 +258,6 @@ void getSettingsJS(byte subPage, char* dest)
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{
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char nS[8];
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// (TODO: usermod config shouldn't use state. instead we should load "um" object from cfg.json)
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// add reserved and usermod pins as d.um_p array
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DynamicJsonDocument doc(JSON_BUFFER_SIZE/2);
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JsonObject mods = doc.createNestedObject(F("um"));
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@ -279,7 +278,7 @@ void getSettingsJS(byte subPage, char* dest)
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}
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} else {
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if (i++) oappend(SET_F(","));
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oappendi((int)obj["pin"]);
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oappendi(obj["pin"].as<int>());
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}
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}
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}
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@ -317,16 +316,13 @@ void getSettingsJS(byte subPage, char* dest)
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// set limits
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oappend(SET_F("bLimits("));
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oappend(itoa(WLED_MAX_BUSSES,nS,10));
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oappend(",");
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oappend(itoa(MAX_LEDS_PER_BUS,nS,10));
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oappend(",");
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oappend(itoa(WLED_MAX_BUSSES,nS,10)); oappend(",");
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oappend(itoa(MAX_LEDS_PER_BUS,nS,10)); oappend(",");
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oappend(itoa(MAX_LED_MEMORY,nS,10));
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oappend(SET_F(");"));
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sappend('v',SET_F("LC"),ledCount);
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// bool skip = false;
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for (uint8_t s=0; s < busses.getNumBusses(); s++) {
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Bus* bus = busses.getBus(s);
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char lp[4] = "L0"; lp[2] = 48+s; lp[3] = 0; //ascii 0-9 //strip data pin
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@ -351,7 +347,6 @@ void getSettingsJS(byte subPage, char* dest)
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sappend('c',cv,bus->reversed);
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sappend('c',sl,bus->skipFirstLed());
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// sappend('c',ew,bus->isRgbw());
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// if (!skip) skip = bus->skipFirstLed()>0;
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}
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sappend('v',SET_F("MA"),strip.ablMilliampsMax);
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sappend('v',SET_F("LA"),strip.milliampsPerLed);
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@ -379,7 +374,6 @@ void getSettingsJS(byte subPage, char* dest)
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sappend('v',SET_F("TL"),nightlightDelayMinsDefault);
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sappend('v',SET_F("TW"),nightlightMode);
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sappend('i',SET_F("PB"),strip.paletteBlend);
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// sappend('c',SET_F("SL"),skip);
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sappend('v',SET_F("RL"),rlyPin);
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sappend('c',SET_F("RM"),rlyMde);
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sappend('v',SET_F("BT"),btnPin);
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