WLED/wled00/cfg.cpp

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#include "wled.h"
#include "wled_ethernet.h"
/*
* Serializes and parses the cfg.json and wsec.json settings files, stored in internal FS.
* The structure of the JSON is not to be considered an official API and may change without notice.
*/
//simple macro for ArduinoJSON's or syntax
#define CJSON(a,b) a = b | a
void getStringFromJson(char* dest, const char* src, size_t len) {
if (src != nullptr) strlcpy(dest, src, len);
}
bool deserializeConfig(JsonObject doc, bool fromFS) {
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bool needsSave = false;
//int rev_major = doc["rev"][0]; // 1
//int rev_minor = doc["rev"][1]; // 0
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//long vid = doc[F("vid")]; // 2010020
#ifdef WLED_USE_ETHERNET
JsonObject ethernet = doc[F("eth")];
CJSON(ethernetType, ethernet["type"]);
// NOTE: Ethernet configuration takes priority over other use of pins
WLED::instance().initEthernet();
#endif
JsonObject id = doc["id"];
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getStringFromJson(cmDNS, id[F("mdns")], 33);
getStringFromJson(serverDescription, id[F("name")], 33);
getStringFromJson(alexaInvocationName, id[F("inv")], 33);
#ifdef WLED_ENABLE_SIMPLE_UI
CJSON(simplifiedUI, id[F("sui")]);
#endif
JsonObject nw_ins_0 = doc["nw"]["ins"][0];
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getStringFromJson(clientSSID, nw_ins_0[F("ssid")], 33);
//int nw_ins_0_pskl = nw_ins_0[F("pskl")];
//The WiFi PSK is normally not contained in the regular file for security reasons.
//If it is present however, we will use it
getStringFromJson(clientPass, nw_ins_0["psk"], 65);
JsonArray nw_ins_0_ip = nw_ins_0["ip"];
JsonArray nw_ins_0_gw = nw_ins_0["gw"];
JsonArray nw_ins_0_sn = nw_ins_0["sn"];
for (byte i = 0; i < 4; i++) {
CJSON(staticIP[i], nw_ins_0_ip[i]);
CJSON(staticGateway[i], nw_ins_0_gw[i]);
CJSON(staticSubnet[i], nw_ins_0_sn[i]);
}
JsonObject ap = doc["ap"];
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getStringFromJson(apSSID, ap[F("ssid")], 33);
getStringFromJson(apPass, ap["psk"] , 65); //normally not present due to security
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//int ap_pskl = ap[F("pskl")];
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CJSON(apChannel, ap[F("chan")]);
if (apChannel > 13 || apChannel < 1) apChannel = 1;
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CJSON(apHide, ap[F("hide")]);
if (apHide > 1) apHide = 1;
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CJSON(apBehavior, ap[F("behav")]);
/*
JsonArray ap_ip = ap["ip"];
for (byte i = 0; i < 4; i++) {
apIP[i] = ap_ip;
}
*/
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noWifiSleep = doc[F("wifi")][F("sleep")] | !noWifiSleep; // inverted
noWifiSleep = !noWifiSleep;
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//int wifi_phy = doc[F("wifi")][F("phy")]; //force phy mode n?
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JsonObject hw = doc[F("hw")];
// initialize LED pins and lengths prior to other HW (except for ethernet)
JsonObject hw_led = hw["led"];
uint8_t autoWhiteMode = RGBW_MODE_MANUAL_ONLY;
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CJSON(strip.ablMilliampsMax, hw_led[F("maxpwr")]);
CJSON(strip.milliampsPerLed, hw_led[F("ledma")]);
Bus::setAutoWhiteMode(hw_led[F("rgbwm")] | 255);
CJSON(correctWB, hw_led["cct"]);
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CJSON(cctFromRgb, hw_led[F("cr")]);
CJSON(strip.cctBlending, hw_led[F("cb")]);
Bus::setCCTBlend(strip.cctBlending);
strip.setTargetFps(hw_led["fps"]); //NOP if 0, default 42 FPS
CJSON(strip.useLedsArray, hw_led[F("ld")]);
#ifndef WLED_DISABLE_2D
// 2D Matrix Settings
JsonObject matrix = hw_led[F("matrix")];
if (!matrix.isNull()) {
strip.isMatrix = true;
CJSON(strip.panelH, matrix[F("ph")]);
CJSON(strip.panelW, matrix[F("pw")]);
CJSON(strip.hPanels, matrix[F("mph")]);
CJSON(strip.vPanels, matrix[F("mpv")]);
CJSON(strip.matrix.bottomStart, matrix[F("pb")]);
CJSON(strip.matrix.rightStart, matrix[F("pr")]);
CJSON(strip.matrix.vertical, matrix[F("pv")]);
CJSON(strip.matrix.serpentine, matrix["ps"]);
JsonArray panels = matrix[F("panels")];
uint8_t s = 0;
if (!panels.isNull()) {
for (JsonObject pnl : panels) {
CJSON(strip.panel[s].bottomStart, pnl["b"]);
CJSON(strip.panel[s].rightStart, pnl["r"]);
CJSON(strip.panel[s].vertical, pnl["v"]);
CJSON(strip.panel[s].serpentine, pnl["s"]);
if (++s >= WLED_MAX_PANELS) break; // max panels reached
}
}
// clear remaining panels
for (; s<WLED_MAX_PANELS; s++) {
strip.panel[s].bottomStart = 0;
strip.panel[s].rightStart = 0;
strip.panel[s].vertical = 0;
strip.panel[s].serpentine = 0;
}
strip.setUpMatrix();
}
#endif
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JsonArray ins = hw_led["ins"];
if (fromFS || !ins.isNull()) {
uint8_t s = 0; // bus iterator
if (fromFS) busses.removeAll(); // can't safely manipulate busses directly in network callback
uint32_t mem = 0;
bool busesChanged = false;
for (JsonObject elm : ins) {
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if (s >= WLED_MAX_BUSSES+WLED_MIN_VIRTUAL_BUSSES) break;
uint8_t pins[5] = {255, 255, 255, 255, 255};
JsonArray pinArr = elm["pin"];
if (pinArr.size() == 0) continue;
pins[0] = pinArr[0];
uint8_t i = 0;
for (int p : pinArr) {
pins[i++] = p;
if (i>4) break;
}
uint16_t length = elm["len"] | 1;
uint8_t colorOrder = (int)elm[F("order")];
uint8_t skipFirst = elm[F("skip")];
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uint16_t start = elm["start"] | 0;
if (length==0 || start + length > MAX_LEDS) continue; // zero length or we reached max. number of LEDs, just stop
uint8_t ledType = elm["type"] | TYPE_WS2812_RGB;
bool reversed = elm["rev"];
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bool refresh = elm["ref"] | false;
ledType |= refresh << 7; // hack bit 7 to indicate strip requires off refresh
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uint8_t AWmode = elm[F("rgbwm")] | autoWhiteMode;
if (fromFS) {
BusConfig bc = BusConfig(ledType, pins, start, length, colorOrder, reversed, skipFirst, AWmode);
mem += BusManager::memUsage(bc);
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if (mem <= MAX_LED_MEMORY) if (busses.add(bc) == -1) break; // finalization will be done in WLED::beginStrip()
} else {
if (busConfigs[s] != nullptr) delete busConfigs[s];
busConfigs[s] = new BusConfig(ledType, pins, start, length, colorOrder, reversed, skipFirst, AWmode);
busesChanged = true;
}
s++;
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}
doInitBusses = busesChanged;
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// finalization done in beginStrip()
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}
if (hw_led["rev"]) busses.getBus(0)->reversed = true; //set 0.11 global reversed setting for first bus
// read color order map configuration
JsonArray hw_com = hw[F("com")];
if (!hw_com.isNull()) {
ColorOrderMap com = {};
uint8_t s = 0;
for (JsonObject entry : hw_com) {
if (s > WLED_MAX_COLOR_ORDER_MAPPINGS) break;
uint16_t start = entry["start"] | 0;
uint16_t len = entry["len"] | 0;
uint8_t colorOrder = (int)entry[F("order")];
com.add(start, len, colorOrder);
s++;
}
busses.updateColorOrderMap(com);
}
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// read multiple button configuration
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JsonObject btn_obj = hw["btn"];
int pull = -1; // trick for inverted setting
CJSON(pull, btn_obj[F("pull")]);
if (pull>=0) disablePullUp = pull;
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JsonArray hw_btn_ins = btn_obj[F("ins")];
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if (!hw_btn_ins.isNull()) {
uint8_t s = 0;
for (JsonObject btn : hw_btn_ins) {
CJSON(buttonType[s], btn["type"]);
int8_t pin = btn["pin"][0] | -1;
if (pin > -1 && pinManager.allocatePin(pin, false, PinOwner::Button)) {
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btnPin[s] = pin;
#ifdef ARDUINO_ARCH_ESP32
// ESP32 only: check that analog button pin is a valid ADC gpio
if (((buttonType[s] == BTN_TYPE_ANALOG) || (buttonType[s] == BTN_TYPE_ANALOG_INVERTED)) && (digitalPinToAnalogChannel(btnPin[s]) < 0))
{
// not an ADC analog pin
DEBUG_PRINTF("PIN ALLOC error: GPIO%d for analog button #%d is not an analog pin!\n", btnPin[s], s);
btnPin[s] = -1;
pinManager.deallocatePin(pin,PinOwner::Button);
}
else
#endif
{
if (disablePullUp) {
pinMode(btnPin[s], INPUT);
} else {
#ifdef ESP32
pinMode(btnPin[s], buttonType[s]==BTN_TYPE_PUSH_ACT_HIGH ? INPUT_PULLDOWN : INPUT_PULLUP);
#else
pinMode(btnPin[s], INPUT_PULLUP);
#endif
}
}
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} else {
btnPin[s] = -1;
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}
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JsonArray hw_btn_ins_0_macros = btn["macros"];
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CJSON(macroButton[s], hw_btn_ins_0_macros[0]);
CJSON(macroLongPress[s],hw_btn_ins_0_macros[1]);
CJSON(macroDoublePress[s], hw_btn_ins_0_macros[2]);
if (++s >= WLED_MAX_BUTTONS) break; // max buttons reached
}
// clear remaining buttons
for (; s<WLED_MAX_BUTTONS; s++) {
btnPin[s] = -1;
buttonType[s] = BTN_TYPE_NONE;
macroButton[s] = 0;
macroLongPress[s] = 0;
macroDoublePress[s] = 0;
}
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} else {
// new install/missing configuration (button 0 has defaults)
if (fromFS) {
// relies upon only being called once with fromFS == true, which is currently true.
uint8_t s = 0;
if (pinManager.allocatePin(btnPin[0], false, PinOwner::Button)) { // initialized to #define value BTNPIN, or zero if not defined(!)
++s; // do not clear default button if allocated successfully
}
for (; s<WLED_MAX_BUTTONS; s++) {
btnPin[s] = -1;
buttonType[s] = BTN_TYPE_NONE;
macroButton[s] = 0;
macroLongPress[s] = 0;
macroDoublePress[s] = 0;
}
}
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}
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CJSON(touchThreshold,btn_obj[F("tt")]);
CJSON(buttonPublishMqtt,btn_obj["mqtt"]);
int hw_ir_pin = hw["ir"]["pin"] | -2; // 4
if (hw_ir_pin > -2) {
if (pinManager.allocatePin(hw_ir_pin, false, PinOwner::IR)) {
irPin = hw_ir_pin;
} else {
irPin = -1;
}
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}
CJSON(irEnabled, hw["ir"]["type"]);
CJSON(irApplyToAllSelected, hw["ir"]["sel"]);
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JsonObject relay = hw[F("relay")];
int hw_relay_pin = relay["pin"] | -2;
if (hw_relay_pin > -2) {
if (pinManager.allocatePin(hw_relay_pin,true, PinOwner::Relay)) {
rlyPin = hw_relay_pin;
pinMode(rlyPin, OUTPUT);
} else {
rlyPin = -1;
}
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}
if (relay.containsKey("rev")) {
rlyMde = !relay["rev"];
}
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CJSON(serialBaud, hw[F("baud")]);
if (serialBaud < 96 || serialBaud > 15000) serialBaud = 1152;
updateBaudRate(serialBaud *100);
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JsonArray hw_if_i2c = hw[F("if")][F("i2c-pin")];
CJSON(i2c_sda, hw_if_i2c[0]);
CJSON(i2c_scl, hw_if_i2c[1]);
PinManagerPinType i2c[2] = { { i2c_sda, true }, { i2c_scl, true } };
if (i2c_scl >= 0 && i2c_sda >= 0 && pinManager.allocateMultiplePins(i2c, 2, PinOwner::HW_I2C)) {
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#ifdef ESP32
Wire.setPins(i2c_sda, i2c_scl); // this will fail if Wire is initilised (Wire.begin() called prior)
#endif
Wire.begin();
} else {
i2c_sda = -1;
i2c_scl = -1;
}
JsonArray hw_if_spi = hw[F("if")][F("spi-pin")];
CJSON(spi_mosi, hw_if_spi[0]);
CJSON(spi_sclk, hw_if_spi[1]);
CJSON(spi_miso, hw_if_spi[2]);
PinManagerPinType spi[3] = { { spi_mosi, true }, { spi_miso, true }, { spi_sclk, true } };
if (spi_mosi >= 0 && spi_sclk >= 0 && pinManager.allocateMultiplePins(spi, 3, PinOwner::HW_SPI)) {
#ifdef ESP32
SPI.begin(spi_sclk, spi_miso, spi_mosi); // SPI global uses VSPI on ESP32 and FSPI on C3, S3
#else
SPI.begin();
#endif
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} else {
spi_mosi = -1;
spi_miso = -1;
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spi_sclk = -1;
}
//int hw_status_pin = hw[F("status")]["pin"]; // -1
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JsonObject light = doc[F("light")];
CJSON(briMultiplier, light[F("scale-bri")]);
CJSON(strip.paletteBlend, light[F("pal-mode")]);
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CJSON(autoSegments, light[F("aseg")]);
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float light_gc_bri = light["gc"]["bri"];
float light_gc_col = light["gc"]["col"]; // 2.8
if (light_gc_bri > 1.5) gammaCorrectBri = true;
else if (light_gc_bri > 0.5) gammaCorrectBri = false;
if (light_gc_col > 1.5) gammaCorrectCol = true;
else if (light_gc_col > 0.5) gammaCorrectCol = false;
JsonObject light_tr = light["tr"];
CJSON(fadeTransition, light_tr["mode"]);
int tdd = light_tr["dur"] | -1;
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if (tdd >= 0) transitionDelay = transitionDelayDefault = tdd * 100;
CJSON(strip.paletteFade, light_tr["pal"]);
JsonObject light_nl = light["nl"];
CJSON(nightlightMode, light_nl["mode"]);
byte prev = nightlightDelayMinsDefault;
CJSON(nightlightDelayMinsDefault, light_nl["dur"]);
if (nightlightDelayMinsDefault != prev) nightlightDelayMins = nightlightDelayMinsDefault;
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CJSON(nightlightTargetBri, light_nl[F("tbri")]);
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CJSON(macroNl, light_nl["macro"]);
JsonObject def = doc["def"];
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CJSON(bootPreset, def["ps"]);
CJSON(turnOnAtBoot, def["on"]); // true
CJSON(briS, def["bri"]); // 128
JsonObject interfaces = doc["if"];
JsonObject if_sync = interfaces["sync"];
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CJSON(udpPort, if_sync[F("port0")]); // 21324
CJSON(udpPort2, if_sync[F("port1")]); // 65506
JsonObject if_sync_recv = if_sync["recv"];
CJSON(receiveNotificationBrightness, if_sync_recv["bri"]);
CJSON(receiveNotificationColor, if_sync_recv["col"]);
CJSON(receiveNotificationEffects, if_sync_recv["fx"]);
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CJSON(receiveGroups, if_sync_recv["grp"]);
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CJSON(receiveSegmentOptions, if_sync_recv["seg"]);
CJSON(receiveSegmentBounds, if_sync_recv["sb"]);
//! following line might be a problem if called after boot
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receiveNotifications = (receiveNotificationBrightness || receiveNotificationColor || receiveNotificationEffects || receiveSegmentOptions);
JsonObject if_sync_send = if_sync["send"];
prev = notifyDirectDefault;
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CJSON(notifyDirectDefault, if_sync_send[F("dir")]);
if (notifyDirectDefault != prev) notifyDirect = notifyDirectDefault;
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CJSON(notifyButton, if_sync_send["btn"]);
CJSON(notifyAlexa, if_sync_send["va"]);
CJSON(notifyHue, if_sync_send["hue"]);
CJSON(notifyMacro, if_sync_send["macro"]);
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CJSON(syncGroups, if_sync_send["grp"]);
if (if_sync_send[F("twice")]) udpNumRetries = 1; // import setting from 0.13 and earlier
CJSON(udpNumRetries, if_sync_send["ret"]);
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JsonObject if_nodes = interfaces["nodes"];
CJSON(nodeListEnabled, if_nodes[F("list")]);
CJSON(nodeBroadcastEnabled, if_nodes[F("bcast")]);
JsonObject if_live = interfaces["live"];
CJSON(receiveDirect, if_live["en"]);
CJSON(useMainSegmentOnly, if_live[F("mso")]);
CJSON(e131Port, if_live["port"]); // 5568
if (e131Port == DDP_DEFAULT_PORT) e131Port = E131_DEFAULT_PORT; // prevent double DDP port allocation
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CJSON(e131Multicast, if_live[F("mc")]);
JsonObject if_live_dmx = if_live[F("dmx")];
CJSON(e131Universe, if_live_dmx[F("uni")]);
CJSON(e131SkipOutOfSequence, if_live_dmx[F("seqskip")]);
CJSON(DMXAddress, if_live_dmx[F("addr")]);
if (!DMXAddress || DMXAddress > 510) DMXAddress = 1;
CJSON(DMXMode, if_live_dmx["mode"]);
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tdd = if_live[F("timeout")] | -1;
if (tdd >= 0) realtimeTimeoutMs = tdd * 100;
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CJSON(arlsForceMaxBri, if_live[F("maxbri")]);
CJSON(arlsDisableGammaCorrection, if_live[F("no-gc")]); // false
CJSON(arlsOffset, if_live[F("offset")]); // 0
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CJSON(alexaEnabled, interfaces["va"][F("alexa")]); // false
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CJSON(macroAlexaOn, interfaces["va"]["macros"][0]);
CJSON(macroAlexaOff, interfaces["va"]["macros"][1]);
CJSON(alexaNumPresets, interfaces["va"]["p"]);
#ifndef WLED_DISABLE_BLYNK
const char* apikey = interfaces["blynk"][F("token")] | "Hidden";
tdd = strnlen(apikey, 36);
if (tdd > 20 || tdd == 0)
getStringFromJson(blynkApiKey, apikey, 36); //normally not present due to security
JsonObject if_blynk = interfaces["blynk"];
getStringFromJson(blynkHost, if_blynk[F("host")], 33);
CJSON(blynkPort, if_blynk["port"]);
#endif
#ifdef WLED_ENABLE_MQTT
JsonObject if_mqtt = interfaces["mqtt"];
CJSON(mqttEnabled, if_mqtt["en"]);
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getStringFromJson(mqttServer, if_mqtt[F("broker")], 33);
CJSON(mqttPort, if_mqtt["port"]); // 1883
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getStringFromJson(mqttUser, if_mqtt[F("user")], 41);
getStringFromJson(mqttPass, if_mqtt["psk"], 65); //normally not present due to security
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getStringFromJson(mqttClientID, if_mqtt[F("cid")], 41);
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getStringFromJson(mqttDeviceTopic, if_mqtt[F("topics")][F("device")], 33); // "wled/test"
getStringFromJson(mqttGroupTopic, if_mqtt[F("topics")][F("group")], 33); // ""
#endif
#ifndef WLED_DISABLE_HUESYNC
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JsonObject if_hue = interfaces["hue"];
CJSON(huePollingEnabled, if_hue["en"]);
CJSON(huePollLightId, if_hue["id"]);
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tdd = if_hue[F("iv")] | -1;
if (tdd >= 2) huePollIntervalMs = tdd * 100;
JsonObject if_hue_recv = if_hue["recv"];
CJSON(hueApplyOnOff, if_hue_recv["on"]);
CJSON(hueApplyBri, if_hue_recv["bri"]);
CJSON(hueApplyColor, if_hue_recv["col"]);
JsonArray if_hue_ip = if_hue["ip"];
for (byte i = 0; i < 4; i++)
CJSON(hueIP[i], if_hue_ip[i]);
#endif
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JsonObject if_ntp = interfaces[F("ntp")];
CJSON(ntpEnabled, if_ntp["en"]);
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getStringFromJson(ntpServerName, if_ntp[F("host")], 33); // "1.wled.pool.ntp.org"
CJSON(currentTimezone, if_ntp[F("tz")]);
CJSON(utcOffsetSecs, if_ntp[F("offset")]);
CJSON(useAMPM, if_ntp[F("ampm")]);
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CJSON(longitude, if_ntp[F("ln")]);
CJSON(latitude, if_ntp[F("lt")]);
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JsonObject ol = doc[F("ol")];
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CJSON(overlayCurrent ,ol[F("clock")]); // 0
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CJSON(countdownMode, ol[F("cntdwn")]);
CJSON(overlayMin, ol["min"]);
CJSON(overlayMax, ol[F("max")]);
CJSON(analogClock12pixel, ol[F("o12pix")]);
CJSON(analogClock5MinuteMarks, ol[F("o5m")]);
CJSON(analogClockSecondsTrail, ol[F("osec")]);
//timed macro rules
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JsonObject tm = doc[F("timers")];
JsonObject cntdwn = tm[F("cntdwn")];
JsonArray cntdwn_goal = cntdwn[F("goal")];
CJSON(countdownYear, cntdwn_goal[0]);
CJSON(countdownMonth, cntdwn_goal[1]);
CJSON(countdownDay, cntdwn_goal[2]);
CJSON(countdownHour, cntdwn_goal[3]);
CJSON(countdownMin, cntdwn_goal[4]);
CJSON(countdownSec, cntdwn_goal[5]);
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CJSON(macroCountdown, cntdwn["macro"]);
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setCountdown();
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JsonArray timers = tm["ins"];
uint8_t it = 0;
for (JsonObject timer : timers) {
if (it > 9) break;
if (it<8 && timer[F("hour")]==255) it=8; // hour==255 -> sunrise/sunset
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CJSON(timerHours[it], timer[F("hour")]);
CJSON(timerMinutes[it], timer["min"]);
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CJSON(timerMacro[it], timer["macro"]);
byte dowPrev = timerWeekday[it];
//note: act is currently only 0 or 1.
//the reason we are not using bool is that the on-disk type in 0.11.0 was already int
int actPrev = timerWeekday[it] & 0x01;
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CJSON(timerWeekday[it], timer[F("dow")]);
if (timerWeekday[it] != dowPrev) { //present in JSON
timerWeekday[it] <<= 1; //add active bit
int act = timer["en"] | actPrev;
if (act) timerWeekday[it]++;
}
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if (it<8) {
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JsonObject start = timer["start"];
byte startm = start["mon"];
if (startm) timerMonth[it] = (startm << 4);
CJSON(timerDay[it], start["day"]);
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JsonObject end = timer["end"];
CJSON(timerDayEnd[it], end["day"]);
byte endm = end["mon"];
if (startm) timerMonth[it] += endm & 0x0F;
if (!(timerMonth[it] & 0x0F)) timerMonth[it] += 12; //default end month to 12
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}
it++;
}
JsonObject ota = doc["ota"];
const char* pwd = ota["psk"]; //normally not present due to security
bool pwdCorrect = !otaLock; //always allow access if ota not locked
if (pwd != nullptr && strncmp(otaPass, pwd, 33) == 0) pwdCorrect = true;
if (pwdCorrect) { //only accept these values from cfg.json if ota is unlocked (else from wsec.json)
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CJSON(otaLock, ota[F("lock")]);
CJSON(wifiLock, ota[F("lock-wifi")]);
CJSON(aOtaEnabled, ota[F("aota")]);
getStringFromJson(otaPass, pwd, 33); //normally not present due to security
}
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#ifdef WLED_ENABLE_DMX
JsonObject dmx = doc["dmx"];
CJSON(DMXChannels, dmx[F("chan")]);
CJSON(DMXGap,dmx[F("gap")]);
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CJSON(DMXStart, dmx["start"]);
CJSON(DMXStartLED,dmx[F("start-led")]);
JsonArray dmx_fixmap = dmx[F("fixmap")];
for (int i = 0; i < dmx_fixmap.size(); i++) {
if (i > 14) break;
CJSON(DMXFixtureMap[i],dmx_fixmap[i]);
}
CJSON(e131ProxyUniverse, dmx[F("e131proxy")]);
#endif
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DEBUG_PRINTLN(F("Starting usermod config."));
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JsonObject usermods_settings = doc["um"];
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if (!usermods_settings.isNull()) {
needsSave = !usermods.readFromConfig(usermods_settings);
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}
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if (fromFS) return needsSave;
// if from /json/cfg
doReboot = doc[F("rb")] | doReboot;
if (doInitBusses) return false; // no save needed, will do after bus init in wled.cpp loop
return (doc["sv"] | true);
}
void deserializeConfigFromFS() {
bool success = deserializeConfigSec();
if (!success) { //if file does not exist, try reading from EEPROM
#ifdef WLED_ADD_EEPROM_SUPPORT
deEEPSettings();
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return;
#endif
}
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if (!requestJSONBufferLock(1)) return;
DEBUG_PRINTLN(F("Reading settings from /cfg.json..."));
success = readObjectFromFile("/cfg.json", nullptr, &doc);
if (!success) { // if file does not exist, optionally try reading from EEPROM and then save defaults to FS
releaseJSONBufferLock();
#ifdef WLED_ADD_EEPROM_SUPPORT
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deEEPSettings();
#endif
// save default values to /cfg.json
// call readFromConfig() with an empty object so that usermods can initialize to defaults prior to saving
JsonObject empty = JsonObject();
usermods.readFromConfig(empty);
serializeConfig();
// init Ethernet (in case default type is set at compile time)
#ifdef WLED_USE_ETHERNET
WLED::instance().initEthernet();
#endif
return;
}
// NOTE: This routine deserializes *and* applies the configuration
// Therefore, must also initialize ethernet from this function
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bool needsSave = deserializeConfig(doc.as<JsonObject>(), true);
releaseJSONBufferLock();
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if (needsSave) serializeConfig(); // usermods required new parameters
}
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void serializeConfig() {
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serializeConfigSec();
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DEBUG_PRINTLN(F("Writing settings to /cfg.json..."));
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if (!requestJSONBufferLock(2)) return;
JsonArray rev = doc.createNestedArray("rev");
rev.add(1); //major settings revision
rev.add(0); //minor settings revision
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doc[F("vid")] = VERSION;
JsonObject id = doc.createNestedObject("id");
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id[F("mdns")] = cmDNS;
id[F("name")] = serverDescription;
id[F("inv")] = alexaInvocationName;
#ifdef WLED_ENABLE_SIMPLE_UI
id[F("sui")] = simplifiedUI;
#endif
JsonObject nw = doc.createNestedObject("nw");
JsonArray nw_ins = nw.createNestedArray("ins");
JsonObject nw_ins_0 = nw_ins.createNestedObject();
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nw_ins_0[F("ssid")] = clientSSID;
nw_ins_0[F("pskl")] = strlen(clientPass);
JsonArray nw_ins_0_ip = nw_ins_0.createNestedArray("ip");
JsonArray nw_ins_0_gw = nw_ins_0.createNestedArray("gw");
JsonArray nw_ins_0_sn = nw_ins_0.createNestedArray("sn");
for (byte i = 0; i < 4; i++) {
nw_ins_0_ip.add(staticIP[i]);
nw_ins_0_gw.add(staticGateway[i]);
nw_ins_0_sn.add(staticSubnet[i]);
}
JsonObject ap = doc.createNestedObject("ap");
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ap[F("ssid")] = apSSID;
ap[F("pskl")] = strlen(apPass);
ap[F("chan")] = apChannel;
ap[F("hide")] = apHide;
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ap[F("behav")] = apBehavior;
JsonArray ap_ip = ap.createNestedArray("ip");
ap_ip.add(4);
ap_ip.add(3);
ap_ip.add(2);
ap_ip.add(1);
JsonObject wifi = doc.createNestedObject("wifi");
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wifi[F("sleep")] = !noWifiSleep;
//wifi[F("phy")] = 1;
#ifdef WLED_USE_ETHERNET
JsonObject ethernet = doc.createNestedObject("eth");
ethernet["type"] = ethernetType;
if (ethernetType != WLED_ETH_NONE && ethernetType < WLED_NUM_ETH_TYPES) {
JsonArray pins = ethernet.createNestedArray("pin");
for (uint8_t p=0; p<WLED_ETH_RSVD_PINS_COUNT; p++) pins.add(esp32_nonconfigurable_ethernet_pins[p].pin);
if (ethernetBoards[ethernetType].eth_power>=0) pins.add(ethernetBoards[ethernetType].eth_power);
if (ethernetBoards[ethernetType].eth_mdc>=0) pins.add(ethernetBoards[ethernetType].eth_mdc);
if (ethernetBoards[ethernetType].eth_mdio>=0) pins.add(ethernetBoards[ethernetType].eth_mdio);
switch (ethernetBoards[ethernetType].eth_clk_mode) {
case ETH_CLOCK_GPIO0_IN:
case ETH_CLOCK_GPIO0_OUT:
pins.add(0);
break;
case ETH_CLOCK_GPIO16_OUT:
pins.add(16);
break;
case ETH_CLOCK_GPIO17_OUT:
pins.add(17);
break;
}
}
#endif
JsonObject hw = doc.createNestedObject("hw");
JsonObject hw_led = hw.createNestedObject("led");
hw_led[F("total")] = strip.getLengthTotal(); //no longer read, but provided for compatibility on downgrade
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hw_led[F("maxpwr")] = strip.ablMilliampsMax;
hw_led[F("ledma")] = strip.milliampsPerLed;
hw_led["cct"] = correctWB;
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hw_led[F("cr")] = cctFromRgb;
hw_led[F("cb")] = strip.cctBlending;
hw_led["fps"] = strip.getTargetFps();
hw_led[F("rgbwm")] = Bus::getAutoWhiteMode(); // global override
hw_led[F("ld")] = strip.useLedsArray;
#ifndef WLED_DISABLE_2D
// 2D Matrix Settings
if (strip.isMatrix) {
JsonObject matrix = hw_led.createNestedObject(F("matrix"));
matrix[F("ph")] = strip.panelH;
matrix[F("pw")] = strip.panelW;
matrix[F("mph")] = strip.hPanels;
matrix[F("mpv")] = strip.vPanels;
matrix[F("pb")] = strip.matrix.bottomStart;
matrix[F("pr")] = strip.matrix.rightStart;
matrix[F("pv")] = strip.matrix.vertical;
matrix["ps"] = strip.matrix.serpentine;
JsonArray panels = matrix.createNestedArray(F("panels"));
for (uint8_t i=0; i<strip.hPanels*strip.vPanels; i++) {
JsonObject pnl = panels.createNestedObject();
pnl["b"] = strip.panel[i].bottomStart;
pnl["r"] = strip.panel[i].rightStart;
pnl["v"] = strip.panel[i].vertical;
pnl["s"] = strip.panel[i].serpentine;
}
}
#endif
JsonArray hw_led_ins = hw_led.createNestedArray("ins");
for (uint8_t s = 0; s < busses.getNumBusses(); s++) {
Bus *bus = busses.getBus(s);
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if (!bus || bus->getLength()==0) break;
JsonObject ins = hw_led_ins.createNestedObject();
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ins["start"] = bus->getStart();
ins["len"] = bus->getLength();
JsonArray ins_pin = ins.createNestedArray("pin");
uint8_t pins[5];
uint8_t nPins = bus->getPins(pins);
for (uint8_t i = 0; i < nPins; i++) ins_pin.add(pins[i]);
ins[F("order")] = bus->getColorOrder();
ins["rev"] = bus->reversed;
ins[F("skip")] = bus->skippedLeds();
ins["type"] = bus->getType() & 0x7F;
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ins["ref"] = bus->isOffRefreshRequired();
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ins[F("rgbwm")] = bus->getAWMode();
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}
JsonArray hw_com = hw.createNestedArray(F("com"));
const ColorOrderMap& com = busses.getColorOrderMap();
for (uint8_t s = 0; s < com.count(); s++) {
const ColorOrderMapEntry *entry = com.get(s);
if (!entry) break;
JsonObject co = hw_com.createNestedObject();
co["start"] = entry->start;
co["len"] = entry->len;
co[F("order")] = entry->colorOrder;
}
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// button(s)
JsonObject hw_btn = hw.createNestedObject("btn");
hw_btn["max"] = WLED_MAX_BUTTONS; // just information about max number of buttons (not actually used)
hw_btn[F("pull")] = !disablePullUp;
JsonArray hw_btn_ins = hw_btn.createNestedArray("ins");
// configuration for all buttons
for (uint8_t i=0; i<WLED_MAX_BUTTONS; i++) {
JsonObject hw_btn_ins_0 = hw_btn_ins.createNestedObject();
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hw_btn_ins_0["type"] = buttonType[i];
JsonArray hw_btn_ins_0_pin = hw_btn_ins_0.createNestedArray("pin");
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hw_btn_ins_0_pin.add(btnPin[i]);
JsonArray hw_btn_ins_0_macros = hw_btn_ins_0.createNestedArray("macros");
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hw_btn_ins_0_macros.add(macroButton[i]);
hw_btn_ins_0_macros.add(macroLongPress[i]);
hw_btn_ins_0_macros.add(macroDoublePress[i]);
}
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hw_btn[F("tt")] = touchThreshold;
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hw_btn["mqtt"] = buttonPublishMqtt;
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JsonObject hw_ir = hw.createNestedObject("ir");
hw_ir["pin"] = irPin;
hw_ir["type"] = irEnabled; // the byte 'irEnabled' does contain the IR-Remote Type ( 0=disabled )
hw_ir["sel"] = irApplyToAllSelected;
JsonObject hw_relay = hw.createNestedObject(F("relay"));
hw_relay["pin"] = rlyPin;
hw_relay["rev"] = !rlyMde;
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hw[F("baud")] = serialBaud;
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JsonObject hw_if = hw.createNestedObject(F("if"));
JsonArray hw_if_i2c = hw_if.createNestedArray("i2c-pin");
hw_if_i2c.add(i2c_sda);
hw_if_i2c.add(i2c_scl);
JsonArray hw_if_spi = hw_if.createNestedArray("spi-pin");
hw_if_spi.add(spi_mosi);
hw_if_spi.add(spi_sclk);
hw_if_spi.add(spi_miso);
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//JsonObject hw_status = hw.createNestedObject("status");
//hw_status["pin"] = -1;
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JsonObject light = doc.createNestedObject(F("light"));
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light[F("scale-bri")] = briMultiplier;
light[F("pal-mode")] = strip.paletteBlend;
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light[F("aseg")] = autoSegments;
JsonObject light_gc = light.createNestedObject("gc");
light_gc["bri"] = (gammaCorrectBri) ? 2.8 : 1.0;
light_gc["col"] = (gammaCorrectCol) ? 2.8 : 1.0;
JsonObject light_tr = light.createNestedObject("tr");
light_tr["mode"] = fadeTransition;
light_tr["dur"] = transitionDelayDefault / 100;
light_tr["pal"] = strip.paletteFade;
JsonObject light_nl = light.createNestedObject("nl");
light_nl["mode"] = nightlightMode;
light_nl["dur"] = nightlightDelayMinsDefault;
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light_nl[F("tbri")] = nightlightTargetBri;
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light_nl["macro"] = macroNl;
JsonObject def = doc.createNestedObject("def");
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def["ps"] = bootPreset;
def["on"] = turnOnAtBoot;
def["bri"] = briS;
JsonObject interfaces = doc.createNestedObject("if");
JsonObject if_sync = interfaces.createNestedObject("sync");
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if_sync[F("port0")] = udpPort;
if_sync[F("port1")] = udpPort2;
JsonObject if_sync_recv = if_sync.createNestedObject("recv");
if_sync_recv["bri"] = receiveNotificationBrightness;
if_sync_recv["col"] = receiveNotificationColor;
if_sync_recv["fx"] = receiveNotificationEffects;
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if_sync_recv["grp"] = receiveGroups;
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if_sync_recv["seg"] = receiveSegmentOptions;
if_sync_recv["sb"] = receiveSegmentBounds;
JsonObject if_sync_send = if_sync.createNestedObject("send");
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if_sync_send[F("dir")] = notifyDirect;
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if_sync_send["btn"] = notifyButton;
if_sync_send["va"] = notifyAlexa;
if_sync_send["hue"] = notifyHue;
if_sync_send["macro"] = notifyMacro;
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if_sync_send["grp"] = syncGroups;
if_sync_send["ret"] = udpNumRetries;
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JsonObject if_nodes = interfaces.createNestedObject("nodes");
if_nodes[F("list")] = nodeListEnabled;
if_nodes[F("bcast")] = nodeBroadcastEnabled;
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JsonObject if_live = interfaces.createNestedObject("live");
if_live["en"] = receiveDirect;
if_live[F("mso")] = useMainSegmentOnly;
if_live["port"] = e131Port;
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if_live[F("mc")] = e131Multicast;
JsonObject if_live_dmx = if_live.createNestedObject("dmx");
if_live_dmx[F("uni")] = e131Universe;
if_live_dmx[F("seqskip")] = e131SkipOutOfSequence;
if_live_dmx[F("addr")] = DMXAddress;
if_live_dmx["mode"] = DMXMode;
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if_live[F("timeout")] = realtimeTimeoutMs / 100;
if_live[F("maxbri")] = arlsForceMaxBri;
if_live[F("no-gc")] = arlsDisableGammaCorrection;
if_live[F("offset")] = arlsOffset;
JsonObject if_va = interfaces.createNestedObject("va");
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if_va[F("alexa")] = alexaEnabled;
JsonArray if_va_macros = if_va.createNestedArray("macros");
if_va_macros.add(macroAlexaOn);
if_va_macros.add(macroAlexaOff);
if_va["p"] = alexaNumPresets;
#ifndef WLED_DISABLE_BLYNK
JsonObject if_blynk = interfaces.createNestedObject("blynk");
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if_blynk[F("token")] = strlen(blynkApiKey) ? "Hidden":"";
if_blynk[F("host")] = blynkHost;
if_blynk["port"] = blynkPort;
#endif
#ifdef WLED_ENABLE_MQTT
JsonObject if_mqtt = interfaces.createNestedObject("mqtt");
if_mqtt["en"] = mqttEnabled;
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if_mqtt[F("broker")] = mqttServer;
if_mqtt["port"] = mqttPort;
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if_mqtt[F("user")] = mqttUser;
if_mqtt[F("pskl")] = strlen(mqttPass);
if_mqtt[F("cid")] = mqttClientID;
JsonObject if_mqtt_topics = if_mqtt.createNestedObject(F("topics"));
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if_mqtt_topics[F("device")] = mqttDeviceTopic;
if_mqtt_topics[F("group")] = mqttGroupTopic;
#endif
#ifndef WLED_DISABLE_HUESYNC
JsonObject if_hue = interfaces.createNestedObject("hue");
if_hue["en"] = huePollingEnabled;
if_hue["id"] = huePollLightId;
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if_hue[F("iv")] = huePollIntervalMs / 100;
JsonObject if_hue_recv = if_hue.createNestedObject("recv");
if_hue_recv["on"] = hueApplyOnOff;
if_hue_recv["bri"] = hueApplyBri;
if_hue_recv["col"] = hueApplyColor;
JsonArray if_hue_ip = if_hue.createNestedArray("ip");
for (byte i = 0; i < 4; i++) {
if_hue_ip.add(hueIP[i]);
}
#endif
JsonObject if_ntp = interfaces.createNestedObject("ntp");
if_ntp["en"] = ntpEnabled;
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if_ntp[F("host")] = ntpServerName;
if_ntp[F("tz")] = currentTimezone;
if_ntp[F("offset")] = utcOffsetSecs;
if_ntp[F("ampm")] = useAMPM;
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if_ntp[F("ln")] = longitude;
if_ntp[F("lt")] = latitude;
JsonObject ol = doc.createNestedObject("ol");
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ol[F("clock")] = overlayCurrent;
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ol[F("cntdwn")] = countdownMode;
ol["min"] = overlayMin;
ol[F("max")] = overlayMax;
ol[F("o12pix")] = analogClock12pixel;
ol[F("o5m")] = analogClock5MinuteMarks;
ol[F("osec")] = analogClockSecondsTrail;
JsonObject timers = doc.createNestedObject(F("timers"));
JsonObject cntdwn = timers.createNestedObject(F("cntdwn"));
JsonArray goal = cntdwn.createNestedArray(F("goal"));
goal.add(countdownYear); goal.add(countdownMonth); goal.add(countdownDay);
goal.add(countdownHour); goal.add(countdownMin); goal.add(countdownSec);
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cntdwn["macro"] = macroCountdown;
JsonArray timers_ins = timers.createNestedArray("ins");
for (byte i = 0; i < 10; i++) {
if (timerMacro[i] == 0 && timerHours[i] == 0 && timerMinutes[i] == 0) continue; // sunrise/sunset get saved always (timerHours=255)
JsonObject timers_ins0 = timers_ins.createNestedObject();
timers_ins0["en"] = (timerWeekday[i] & 0x01);
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timers_ins0[F("hour")] = timerHours[i];
timers_ins0["min"] = timerMinutes[i];
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timers_ins0["macro"] = timerMacro[i];
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timers_ins0[F("dow")] = timerWeekday[i] >> 1;
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if (i<8) {
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JsonObject start = timers_ins0.createNestedObject("start");
start["mon"] = (timerMonth[i] >> 4) & 0xF;
start["day"] = timerDay[i];
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JsonObject end = timers_ins0.createNestedObject("end");
end["mon"] = timerMonth[i] & 0xF;
end["day"] = timerDayEnd[i];
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}
}
JsonObject ota = doc.createNestedObject("ota");
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ota[F("lock")] = otaLock;
ota[F("lock-wifi")] = wifiLock;
ota[F("pskl")] = strlen(otaPass);
ota[F("aota")] = aOtaEnabled;
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#ifdef WLED_ENABLE_DMX
JsonObject dmx = doc.createNestedObject("dmx");
dmx[F("chan")] = DMXChannels;
dmx[F("gap")] = DMXGap;
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dmx["start"] = DMXStart;
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dmx[F("start-led")] = DMXStartLED;
JsonArray dmx_fixmap = dmx.createNestedArray(F("fixmap"));
for (byte i = 0; i < 15; i++) {
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dmx_fixmap.add(DMXFixtureMap[i]);
}
dmx[F("e131proxy")] = e131ProxyUniverse;
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#endif
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JsonObject usermods_settings = doc.createNestedObject("um");
usermods.addToConfig(usermods_settings);
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File f = WLED_FS.open("/cfg.json", "w");
if (f) serializeJson(doc, f);
f.close();
releaseJSONBufferLock();
doSerializeConfig = false;
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}
//settings in /wsec.json, not accessible via webserver, for passwords and tokens
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bool deserializeConfigSec() {
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DEBUG_PRINTLN(F("Reading settings from /wsec.json..."));
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if (!requestJSONBufferLock(3)) return false;
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bool success = readObjectFromFile("/wsec.json", nullptr, &doc);
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if (!success) {
releaseJSONBufferLock();
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return false;
}
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JsonObject nw_ins_0 = doc["nw"]["ins"][0];
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getStringFromJson(clientPass, nw_ins_0["psk"], 65);
JsonObject ap = doc["ap"];
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getStringFromJson(apPass, ap["psk"] , 65);
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JsonObject interfaces = doc["if"];
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#ifndef WLED_DISABLE_BLYNK
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const char* apikey = interfaces["blynk"][F("token")] | "Hidden";
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int tdd = strnlen(apikey, 36);
if (tdd > 20 || tdd == 0)
getStringFromJson(blynkApiKey, apikey, 36);
#endif
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#ifdef WLED_ENABLE_MQTT
JsonObject if_mqtt = interfaces["mqtt"];
getStringFromJson(mqttPass, if_mqtt["psk"], 65);
#endif
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#ifndef WLED_DISABLE_HUESYNC
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getStringFromJson(hueApiKey, interfaces["hue"][F("key")], 47);
#endif
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getStringFromJson(settingsPIN, doc["pin"], 5);
correctPIN = !strlen(settingsPIN);
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JsonObject ota = doc["ota"];
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getStringFromJson(otaPass, ota[F("pwd")], 33);
CJSON(otaLock, ota[F("lock")]);
CJSON(wifiLock, ota[F("lock-wifi")]);
CJSON(aOtaEnabled, ota[F("aota")]);
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releaseJSONBufferLock();
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return true;
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}
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void serializeConfigSec() {
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DEBUG_PRINTLN(F("Writing settings to /wsec.json..."));
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if (!requestJSONBufferLock(4)) return;
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JsonObject nw = doc.createNestedObject("nw");
JsonArray nw_ins = nw.createNestedArray("ins");
JsonObject nw_ins_0 = nw_ins.createNestedObject();
nw_ins_0["psk"] = clientPass;
JsonObject ap = doc.createNestedObject("ap");
ap["psk"] = apPass;
JsonObject interfaces = doc.createNestedObject("if");
#ifndef WLED_DISABLE_BLYNK
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JsonObject if_blynk = interfaces.createNestedObject("blynk");
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if_blynk[F("token")] = blynkApiKey;
#endif
#ifdef WLED_ENABLE_MQTT
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JsonObject if_mqtt = interfaces.createNestedObject("mqtt");
if_mqtt["psk"] = mqttPass;
#endif
#ifndef WLED_DISABLE_HUESYNC
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JsonObject if_hue = interfaces.createNestedObject("hue");
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if_hue[F("key")] = hueApiKey;
#endif
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doc["pin"] = settingsPIN;
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JsonObject ota = doc.createNestedObject("ota");
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ota[F("pwd")] = otaPass;
ota[F("lock")] = otaLock;
ota[F("lock-wifi")] = wifiLock;
ota[F("aota")] = aOtaEnabled;
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File f = WLED_FS.open("/wsec.json", "w");
if (f) serializeJson(doc, f);
f.close();
releaseJSONBufferLock();
}