Merge branch 'master' of https://github.com/Aircoookie/WLED into Aircoookie-master

This commit is contained in:
Bukovina 2020-04-08 07:20:33 -04:00
commit a0960f5468
45 changed files with 2356 additions and 1876 deletions

1
.gitignore vendored
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@ -8,3 +8,4 @@
/platformio_override.ini /platformio_override.ini
.DS_Store .DS_Store
.gitignore .gitignore
.clang-format

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@ -2,6 +2,19 @@
### Development versions after 0.9.1 release ### Development versions after 0.9.1 release
#### Build 2004061
- Fixed RBG and BGR getPixelColor (#825)
- Improved formatting
#### Build 2004060
- Consolidated global variables in wled.h
#### Build 2003300
- Major change of project structure from .ino to .cpp and func_declare.h
#### Build 2003262 #### Build 2003262
- Fixed compilation for Analog LEDs - Fixed compilation for Analog LEDs

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@ -1,7 +1,7 @@
/* /*
* This file allows you to add own functionality to WLED more easily * This file allows you to add own functionality to WLED more easily
* See: https://github.com/Aircoookie/WLED/wiki/Add-own-functionality * See: https://github.com/Aircoookie/WLED/wiki/Add-own-functionality
* EEPROM bytes 2750+ are reserved for your custom use case. (if you extend #define EEPSIZE in wled01_eeprom.h) * EEPROM bytes 2750+ are reserved for your custom use case. (if you extend #define EEPSIZE in wled_eeprom.h)
* bytes 2400+ are currently ununsed, but might be used for future wled features * bytes 2400+ are currently ununsed, but might be used for future wled features
*/ */

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@ -1,7 +1,7 @@
/* /*
* This file allows you to add own functionality to WLED more easily * This file allows you to add own functionality to WLED more easily
* See: https://github.com/Aircoookie/WLED/wiki/Add-own-functionality * See: https://github.com/Aircoookie/WLED/wiki/Add-own-functionality
* EEPROM bytes 2750+ are reserved for your custom use case. (if you extend #define EEPSIZE in wled01_eeprom.h) * EEPROM bytes 2750+ are reserved for your custom use case. (if you extend #define EEPSIZE in wled_eeprom.h)
* bytes 2400+ are currently ununsed, but might be used for future wled features * bytes 2400+ are currently ununsed, but might be used for future wled features
*/ */

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@ -601,7 +601,7 @@ uint16_t WS2812FX::mode_hyper_sparkle(void) {
} }
if(random8(5) < 2) { if(random8(5) < 2) {
for(uint16_t i = 0; i < max(1, SEGLEN/3); i++) { for(uint16_t i = 0; i < MAX(1, SEGLEN/3); i++) {
setPixelColor(random16(SEGLEN), SEGCOLOR(1)); setPixelColor(random16(SEGLEN), SEGCOLOR(1));
} }
return 20; return 20;
@ -1115,7 +1115,7 @@ uint16_t WS2812FX::mode_fireworks() {
if (valid1) setPixelColor(SEGENV.aux0 , sv1); if (valid1) setPixelColor(SEGENV.aux0 , sv1);
if (valid2) setPixelColor(SEGENV.aux1, sv2); if (valid2) setPixelColor(SEGENV.aux1, sv2);
for(uint16_t i=0; i<max(1, SEGLEN/20); i++) { for(uint16_t i=0; i<MAX(1, SEGLEN/20); i++) {
if(random8(129 - (SEGMENT.intensity >> 1)) == 0) { if(random8(129 - (SEGMENT.intensity >> 1)) == 0) {
uint16_t index = random(SEGLEN); uint16_t index = random(SEGLEN);
setPixelColor(index, color_from_palette(random8(), false, false, 0)); setPixelColor(index, color_from_palette(random8(), false, false, 0));
@ -1162,12 +1162,12 @@ uint16_t WS2812FX::mode_fire_flicker(void) {
byte r = (SEGCOLOR(0) >> 16) & 0xFF; byte r = (SEGCOLOR(0) >> 16) & 0xFF;
byte g = (SEGCOLOR(0) >> 8) & 0xFF; byte g = (SEGCOLOR(0) >> 8) & 0xFF;
byte b = (SEGCOLOR(0) & 0xFF); byte b = (SEGCOLOR(0) & 0xFF);
byte lum = (SEGMENT.palette == 0) ? max(w, max(r, max(g, b))) : 255; byte lum = (SEGMENT.palette == 0) ? MAX(w, MAX(r, MAX(g, b))) : 255;
lum /= (((256-SEGMENT.intensity)/16)+1); lum /= (((256-SEGMENT.intensity)/16)+1);
for(uint16_t i = 0; i < SEGLEN; i++) { for(uint16_t i = 0; i < SEGLEN; i++) {
byte flicker = random8(lum); byte flicker = random8(lum);
if (SEGMENT.palette == 0) { if (SEGMENT.palette == 0) {
setPixelColor(i, max(r - flicker, 0), max(g - flicker, 0), max(b - flicker, 0), max(w - flicker, 0)); setPixelColor(i, MAX(r - flicker, 0), MAX(g - flicker, 0), MAX(b - flicker, 0), MAX(w - flicker, 0));
} else { } else {
setPixelColor(i, color_from_palette(i, true, PALETTE_SOLID_WRAP, 0, 255 - flicker)); setPixelColor(i, color_from_palette(i, true, PALETTE_SOLID_WRAP, 0, 255 - flicker));
} }
@ -1197,7 +1197,7 @@ uint16_t WS2812FX::gradient_base(bool loading) {
{ {
val = abs(((i>pp) ? p2:pp) -i); val = abs(((i>pp) ? p2:pp) -i);
} else { } else {
val = min(abs(pp-i),min(abs(p1-i),abs(p2-i))); val = MIN(abs(pp-i),MIN(abs(p1-i),abs(p2-i)));
} }
val = (brd > val) ? val/brd * 255 : 255; val = (brd > val) ? val/brd * 255 : 255;
setPixelColor(i, color_blend(SEGCOLOR(0), color_from_palette(i, true, PALETTE_SOLID_WRAP, 1), val)); setPixelColor(i, color_blend(SEGCOLOR(0), color_from_palette(i, true, PALETTE_SOLID_WRAP, 1), val));
@ -1778,7 +1778,7 @@ uint16_t WS2812FX::mode_fire_2012()
// Step 4. Map from heat cells to LED colors // Step 4. Map from heat cells to LED colors
for (uint16_t j = 0; j < SEGLEN; j++) { for (uint16_t j = 0; j < SEGLEN; j++) {
CRGB color = ColorFromPalette(currentPalette, min(heat[j],240), 255, LINEARBLEND); CRGB color = ColorFromPalette(currentPalette, MIN(heat[j],240), 255, LINEARBLEND);
setPixelColor(j, color.red, color.green, color.blue); setPixelColor(j, color.red, color.green, color.blue);
} }
return FRAMETIME; return FRAMETIME;
@ -2573,7 +2573,7 @@ uint16_t WS2812FX::mode_bouncing_balls(void) {
uint32_t color = SEGCOLOR(0); uint32_t color = SEGCOLOR(0);
if (SEGMENT.palette) { if (SEGMENT.palette) {
color = color_wheel(i*(256/max(numBalls, 8))); color = color_wheel(i*(256/MAX(numBalls, 8)));
} else if (hasCol2) { } else if (hasCol2) {
color = SEGCOLOR(i % NUM_COLORS); color = SEGCOLOR(i % NUM_COLORS);
} }
@ -3101,7 +3101,7 @@ uint16_t WS2812FX::mode_plasma(void) {
*/ */
uint16_t WS2812FX::mode_percent(void) { uint16_t WS2812FX::mode_percent(void) {
uint8_t percent = max(0, min(200, SEGMENT.intensity)); uint8_t percent = MAX(0, MIN(200, SEGMENT.intensity));
uint16_t active_leds = (percent < 100) ? SEGLEN * percent / 100.0 uint16_t active_leds = (percent < 100) ? SEGLEN * percent / 100.0
: SEGLEN * (200 - percent) / 100.0; : SEGLEN * (200 - percent) / 100.0;

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@ -38,8 +38,8 @@
#define DEFAULT_SPEED (uint8_t)128 #define DEFAULT_SPEED (uint8_t)128
#define DEFAULT_COLOR (uint32_t)0xFFAA00 #define DEFAULT_COLOR (uint32_t)0xFFAA00
#define min(a,b) ((a)<(b)?(a):(b)) #define MIN(a,b) ((a)<(b)?(a):(b))
#define max(a,b) ((a)>(b)?(a):(b)) #define MAX(a,b) ((a)>(b)?(a):(b))
/* Not used in all effects yet */ /* Not used in all effects yet */
#define WLED_FPS 42 #define WLED_FPS 42

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@ -224,7 +224,7 @@ void WS2812FX::show(void) {
if(useWackyWS2815PowerModel) if(useWackyWS2815PowerModel)
{ {
// ignore white component on WS2815 power calculation // ignore white component on WS2815 power calculation
powerSum += (max(max(c.R,c.G),c.B)) * 3; powerSum += (MAX(MAX(c.R,c.G),c.B)) * 3;
} }
else else
{ {
@ -412,8 +412,8 @@ uint32_t WS2812FX::getPixelColor(uint16_t i)
case 0: return ((col.W << 24) | (col.G << 8) | (col.R << 16) | (col.B)); //0 = GRB, default case 0: return ((col.W << 24) | (col.G << 8) | (col.R << 16) | (col.B)); //0 = GRB, default
case 1: return ((col.W << 24) | (col.R << 8) | (col.G << 16) | (col.B)); //1 = RGB, common for WS2811 case 1: return ((col.W << 24) | (col.R << 8) | (col.G << 16) | (col.B)); //1 = RGB, common for WS2811
case 2: return ((col.W << 24) | (col.B << 8) | (col.R << 16) | (col.G)); //2 = BRG case 2: return ((col.W << 24) | (col.B << 8) | (col.R << 16) | (col.G)); //2 = BRG
case 3: return ((col.W << 24) | (col.R << 8) | (col.B << 16) | (col.G)); //3 = RBG case 3: return ((col.W << 24) | (col.B << 8) | (col.G << 16) | (col.R)); //3 = RBG
case 4: return ((col.W << 24) | (col.B << 8) | (col.G << 16) | (col.R)); //4 = BGR case 4: return ((col.W << 24) | (col.R << 8) | (col.B << 16) | (col.G)); //4 = BGR
case 5: return ((col.W << 24) | (col.G << 8) | (col.B << 16) | (col.R)); //5 = GBR case 5: return ((col.W << 24) | (col.G << 8) | (col.B << 16) | (col.R)); //5 = GBR
} }
return 0; return 0;
@ -647,7 +647,7 @@ uint8_t WS2812FX::get_random_wheel_index(uint8_t pos) {
r = random8(); r = random8();
x = abs(pos - r); x = abs(pos - r);
y = 255 - x; y = 255 - x;
d = min(x, y); d = MIN(x, y);
} }
return r; return r;
} }
@ -730,8 +730,8 @@ void WS2812FX::handle_palette(void)
CHSV prim_hsv = rgb2hsv_approximate(prim); CHSV prim_hsv = rgb2hsv_approximate(prim);
targetPalette = CRGBPalette16( targetPalette = CRGBPalette16(
CHSV(prim_hsv.h, prim_hsv.s, prim_hsv.v), //color itself CHSV(prim_hsv.h, prim_hsv.s, prim_hsv.v), //color itself
CHSV(prim_hsv.h, max(prim_hsv.s - 50,0), prim_hsv.v), //less saturated CHSV(prim_hsv.h, MAX(prim_hsv.s - 50,0), prim_hsv.v), //less saturated
CHSV(prim_hsv.h, prim_hsv.s, max(prim_hsv.v - 50,0)), //darker CHSV(prim_hsv.h, prim_hsv.s, MAX(prim_hsv.v - 50,0)), //darker
CHSV(prim_hsv.h, prim_hsv.s, prim_hsv.v)); //color itself CHSV(prim_hsv.h, prim_hsv.s, prim_hsv.v)); //color itself
break;} break;}
case 4: {//primary + secondary case 4: {//primary + secondary

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@ -1,10 +1,13 @@
#include "wled.h"
/* /*
* Alexa Voice On/Off/Brightness Control. Emulates a Philips Hue bridge to Alexa. * Alexa Voice On/Off/Brightness/Color Control. Emulates a Philips Hue bridge to Alexa.
* *
* This was put together from these two excellent projects: * This was put together from these two excellent projects:
* https://github.com/kakopappa/arduino-esp8266-alexa-wemo-switch * https://github.com/kakopappa/arduino-esp8266-alexa-wemo-switch
* https://github.com/probonopd/ESP8266HueEmulator * https://github.com/probonopd/ESP8266HueEmulator
*/ */
#include "src/dependencies/espalexa/EspalexaDevice.h"
#ifndef WLED_DISABLE_ALEXA #ifndef WLED_DISABLE_ALEXA
void onAlexaChange(EspalexaDevice* dev); void onAlexaChange(EspalexaDevice* dev);

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@ -1,3 +1,6 @@
#include "wled.h"
#include "src/dependencies/blynk/Blynk/BlynkHandlers.h"
/* /*
* Remote light control with the free Blynk app * Remote light control with the free Blynk app
*/ */

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@ -1,3 +1,5 @@
#include "wled.h"
/* /*
* Physical IO * Physical IO
*/ */
@ -44,7 +46,7 @@ void handleButton()
if (dur > 6000) //long press if (dur > 6000) //long press
{ {
initAP(true); WLED::instance().initAP(true);
} }
else if (!buttonLongPressed) { //short press else if (!buttonLongPressed) { //short press
if (macroDoublePress) if (macroDoublePress)

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@ -1,3 +1,5 @@
#include "wled.h"
/* /*
* Color conversion methods * Color conversion methods
*/ */
@ -18,7 +20,7 @@ void colorFromUint32(uint32_t in, bool secondary)
} }
//load a color without affecting the white channel //load a color without affecting the white channel
void colorFromUint24(uint32_t in, bool secondary = false) void colorFromUint24(uint32_t in, bool secondary)
{ {
if (secondary) { if (secondary) {
colSec[0] = in >> 16 & 0xFF; colSec[0] = in >> 16 & 0xFF;
@ -32,7 +34,7 @@ void colorFromUint24(uint32_t in, bool secondary = false)
} }
//relatively change white brightness, minumum A=5 //relatively change white brightness, minumum A=5
void relativeChangeWhite(int8_t amount, byte lowerBoundary =0) void relativeChangeWhite(int8_t amount, byte lowerBoundary)
{ {
int16_t new_val = (int16_t) col[3] + amount; int16_t new_val = (int16_t) col[3] + amount;
if (new_val > 0xFF) new_val = 0xFF; if (new_val > 0xFF) new_val = 0xFF;
@ -149,7 +151,8 @@ void colorRGBtoXY(byte* rgb, float* xy) //rgb to coordinates (https://www.develo
xy[0] = X / (X + Y + Z); xy[0] = X / (X + Y + Z);
xy[1] = Y / (X + Y + Z); xy[1] = Y / (X + Y + Z);
} }
#endif #endif // WLED_DISABLE_HUESYNC
void colorFromDecOrHexString(byte* rgb, char* in) void colorFromDecOrHexString(byte* rgb, char* in)
{ {

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@ -1,5 +1,9 @@
#ifndef wled_const_h #ifndef WLED_CONST_H
#define wled_const_h #define WLED_CONST_H
/*
* Readability defines and their associated numerical values + compile-time constants
*/
//Defaults //Defaults
#define DEFAULT_CLIENT_SSID "Your_Network" #define DEFAULT_CLIENT_SSID "Your_Network"
@ -72,4 +76,20 @@
#define HUE_ERROR_TIMEOUT 251 #define HUE_ERROR_TIMEOUT 251
#define HUE_ERROR_ACTIVE 255 #define HUE_ERROR_ACTIVE 255
//EEPROM size
#define EEPSIZE 2560 //Maximum is 4096
#define NTP_PACKET_SIZE 48
// maximum number of LEDs - MAX_LEDS is coming from the JSON response getting too big, MAX_LEDS_DMA will become a timing issue
#define MAX_LEDS 1500
#define MAX_LEDS_DMA 500
// string temp buffer (now stored in stack locally)
#define OMAX 2048
#define E131_MAX_UNIVERSE_COUNT 9
#define ABL_MILLIAMPS_DEFAULT 850; // auto lower brightness to stay close to milliampere limit
#endif #endif

62
wled00/dmx.cpp Normal file
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@ -0,0 +1,62 @@
#include "wled.h"
/*
* Support for DMX via MAX485.
* Change the output pin in src/dependencies/ESPDMX.cpp if needed.
* Library from:
* https://github.com/Rickgg/ESP-Dmx
*/
#ifdef WLED_ENABLE_DMX
#include "src/dependencies/dmx/ESPDMX.h"
DMXESPSerial dmx;
void handleDMX()
{
// TODO: calculate brightness manually if no shutter channel is set
uint8_t brightness = strip.getBrightness();
for (int i = 0; i < ledCount; i++) { // uses the amount of LEDs as fixture count
uint32_t in = strip.getPixelColor(i); // get the colors for the individual fixtures as suggested by Aircoookie in issue #462
byte w = in >> 24 & 0xFF;
byte r = in >> 16 & 0xFF;
byte g = in >> 8 & 0xFF;
byte b = in & 0xFF;
int DMXFixtureStart = DMXStart + (DMXGap * i);
for (int j = 0; j < DMXChannels; j++) {
int DMXAddr = DMXFixtureStart + j;
switch (DMXFixtureMap[j]) {
case 0: // Set this channel to 0. Good way to tell strobe- and fade-functions to fuck right off.
dmx.write(DMXAddr, 0);
break;
case 1: // Red
dmx.write(DMXAddr, r);
break;
case 2: // Green
dmx.write(DMXAddr, g);
break;
case 3: // Blue
dmx.write(DMXAddr, b);
break;
case 4: // White
dmx.write(DMXAddr, w);
break;
case 5: // Shutter channel. Controls the brightness.
dmx.write(DMXAddr, brightness);
break;
case 6: // Sets this channel to 255. Like 0, but more wholesome.
dmx.write(DMXAddr, 255);
break;
}
}
}
dmx.update(); // update the DMX bus
}
#else
void handleDMX() {}
#endif

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wled00/e131.cpp Normal file
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@ -0,0 +1,144 @@
#include "wled.h"
/*
* E1.31 handler
*/
void handleE131Packet(e131_packet_t* p, IPAddress clientIP){
//E1.31 protocol support
uint16_t uni = htons(p->universe);
uint8_t previousUniverses = uni - e131Universe;
uint16_t possibleLEDsInCurrentUniverse;
uint16_t dmxChannels = htons(p->property_value_count) -1;
// only listen for universes we're handling & allocated memory
if (uni >= (e131Universe + E131_MAX_UNIVERSE_COUNT)) return;
if (e131SkipOutOfSequence)
if (p->sequence_number < e131LastSequenceNumber[uni-e131Universe] && p->sequence_number > 20 && e131LastSequenceNumber[uni-e131Universe] < 250){
DEBUG_PRINT("skipping E1.31 frame (last seq=");
DEBUG_PRINT(e131LastSequenceNumber[uni-e131Universe]);
DEBUG_PRINT(", current seq=");
DEBUG_PRINT(p->sequence_number);
DEBUG_PRINT(", universe=");
DEBUG_PRINT(uni);
DEBUG_PRINTLN(")");
return;
}
e131LastSequenceNumber[uni-e131Universe] = p->sequence_number;
// update status info
realtimeIP = clientIP;
switch (DMXMode) {
case DMX_MODE_DISABLED:
return; // nothing to do
break;
case DMX_MODE_SINGLE_RGB:
if (uni != e131Universe) return;
if (dmxChannels-DMXAddress+1 < 3) return;
arlsLock(realtimeTimeoutMs, REALTIME_MODE_E131);
for (uint16_t i = 0; i < ledCount; i++)
setRealtimePixel(i, p->property_values[DMXAddress+0], p->property_values[DMXAddress+1], p->property_values[DMXAddress+2], 0);
break;
case DMX_MODE_SINGLE_DRGB:
if (uni != e131Universe) return;
if (dmxChannels-DMXAddress+1 < 4) return;
arlsLock(realtimeTimeoutMs, REALTIME_MODE_E131);
if (DMXOldDimmer != p->property_values[DMXAddress+0]) {
DMXOldDimmer = p->property_values[DMXAddress+0];
bri = p->property_values[DMXAddress+0];
strip.setBrightness(bri);
}
for (uint16_t i = 0; i < ledCount; i++)
setRealtimePixel(i, p->property_values[DMXAddress+1], p->property_values[DMXAddress+2], p->property_values[DMXAddress+3], 0);
break;
case DMX_MODE_EFFECT:
if (uni != e131Universe) return;
if (dmxChannels-DMXAddress+1 < 11) return;
if (DMXOldDimmer != p->property_values[DMXAddress+0]) {
DMXOldDimmer = p->property_values[DMXAddress+0];
bri = p->property_values[DMXAddress+0];
}
if (p->property_values[DMXAddress+1] < MODE_COUNT)
effectCurrent = p->property_values[DMXAddress+ 1];
effectSpeed = p->property_values[DMXAddress+ 2]; // flickers
effectIntensity = p->property_values[DMXAddress+ 3];
effectPalette = p->property_values[DMXAddress+ 4];
col[0] = p->property_values[DMXAddress+ 5];
col[1] = p->property_values[DMXAddress+ 6];
col[2] = p->property_values[DMXAddress+ 7];
colSec[0] = p->property_values[DMXAddress+ 8];
colSec[1] = p->property_values[DMXAddress+ 9];
colSec[2] = p->property_values[DMXAddress+10];
if (dmxChannels-DMXAddress+1 > 11)
{
col[3] = p->property_values[DMXAddress+11]; //white
colSec[3] = p->property_values[DMXAddress+12];
}
transitionDelayTemp = 0; // act fast
colorUpdated(NOTIFIER_CALL_MODE_NOTIFICATION); // don't send UDP
return; // don't activate realtime live mode
break;
case DMX_MODE_MULTIPLE_RGB:
arlsLock(realtimeTimeoutMs, REALTIME_MODE_E131);
if (previousUniverses == 0) {
// first universe of this fixture
possibleLEDsInCurrentUniverse = (dmxChannels - DMXAddress + 1) / 3;
for (uint16_t i = 0; i < ledCount; i++) {
if (i >= possibleLEDsInCurrentUniverse) break; // more LEDs will follow in next universe(s)
setRealtimePixel(i, p->property_values[DMXAddress+i*3+0], p->property_values[DMXAddress+i*3+1], p->property_values[DMXAddress+i*3+2], 0);
}
} else if (previousUniverses > 0 && uni < (e131Universe + E131_MAX_UNIVERSE_COUNT)) {
// additional universe(s) of this fixture
uint16_t numberOfLEDsInPreviousUniverses = ((512 - DMXAddress + 1) / 3); // first universe
if (previousUniverses > 1) numberOfLEDsInPreviousUniverses += (512 / 3) * (previousUniverses - 1); // extended universe(s) before current
possibleLEDsInCurrentUniverse = dmxChannels / 3;
for (uint16_t i = numberOfLEDsInPreviousUniverses; i < ledCount; i++) {
uint8_t j = i - numberOfLEDsInPreviousUniverses;
if (j >= possibleLEDsInCurrentUniverse) break; // more LEDs will follow in next universe(s)
setRealtimePixel(i, p->property_values[j*3+1], p->property_values[j*3+2], p->property_values[j*3+3], 0);
}
}
break;
case DMX_MODE_MULTIPLE_DRGB:
arlsLock(realtimeTimeoutMs, REALTIME_MODE_E131);
if (previousUniverses == 0) {
// first universe of this fixture
if (DMXOldDimmer != p->property_values[DMXAddress+0]) {
DMXOldDimmer = p->property_values[DMXAddress+0];
bri = p->property_values[DMXAddress+0];
strip.setBrightness(bri);
}
possibleLEDsInCurrentUniverse = (dmxChannels - DMXAddress) / 3;
for (uint16_t i = 0; i < ledCount; i++) {
if (i >= possibleLEDsInCurrentUniverse) break; // more LEDs will follow in next universe(s)
setRealtimePixel(i, p->property_values[DMXAddress+i*3+1], p->property_values[DMXAddress+i*3+2], p->property_values[DMXAddress+i*3+3], 0);
}
} else if (previousUniverses > 0 && uni < (e131Universe + E131_MAX_UNIVERSE_COUNT)) {
// additional universe(s) of this fixture
uint16_t numberOfLEDsInPreviousUniverses = ((512 - DMXAddress + 1) / 3); // first universe
if (previousUniverses > 1) numberOfLEDsInPreviousUniverses += (512 / 3) * (previousUniverses - 1); // extended universe(s) before current
possibleLEDsInCurrentUniverse = dmxChannels / 3;
for (uint16_t i = numberOfLEDsInPreviousUniverses; i < ledCount; i++) {
uint8_t j = i - numberOfLEDsInPreviousUniverses;
if (j >= possibleLEDsInCurrentUniverse) break; // more LEDs will follow in next universe(s)
setRealtimePixel(i, p->property_values[j*3+1], p->property_values[j*3+2], p->property_values[j*3+3], 0);
}
}
break;
default:
DEBUG_PRINTLN("unknown E1.31 DMX mode");
return; // nothing to do
break;
}
e131NewData = true;
}

183
wled00/fcn_declare.h Normal file
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@ -0,0 +1,183 @@
#ifndef WLED_FCN_DECLARE_H
#define WLED_FCN_DECLARE_H
#include <Arduino.h>
#include "src/dependencies/espalexa/EspalexaDevice.h"
#include "src/dependencies/e131/ESPAsyncE131.h"
/*
* All globally accessible functions are declared here
*/
//alexa.cpp
void onAlexaChange(EspalexaDevice* dev);
void alexaInit();
void handleAlexa();
void onAlexaChange(EspalexaDevice* dev);
//blynk.cpp
void initBlynk(const char* auth);
void handleBlynk();
void updateBlynk();
//button.cpp
void shortPressAction();
void handleButton();
void handleIO();
//colors.cpp
void colorFromUint32(uint32_t in, bool secondary = false);
void colorFromUint24(uint32_t in, bool secondary = false);
void relativeChangeWhite(int8_t amount, byte lowerBoundary = 0);
void colorHStoRGB(uint16_t hue, byte sat, byte* rgb); //hue, sat to rgb
void colorCTtoRGB(uint16_t mired, byte* rgb); //white spectrum to rgb
void colorXYtoRGB(float x, float y, byte* rgb); // only defined if huesync disabled TODO
void colorRGBtoXY(byte* rgb, float* xy); // only defined if huesync disabled TODO
void colorFromDecOrHexString(byte* rgb, char* in);
void colorRGBtoRGBW(byte* rgb); //rgb to rgbw (http://codewelt.com/rgbw). (RGBW_MODE_LEGACY)
//e131.cpp
void handleE131Packet(e131_packet_t* p, IPAddress clientIP);
//file.cpp
bool handleFileRead(AsyncWebServerRequest*, String path);
//dmx.cpp
void handleDMX();
//hue.cpp
void handleHue();
void reconnectHue();
void onHueError(void* arg, AsyncClient* client, int8_t error);
void onHueConnect(void* arg, AsyncClient* client);
void sendHuePoll();
void onHueData(void* arg, AsyncClient* client, void *data, size_t len);
//ir.cpp
bool decodeIRCustom(uint32_t code);
void relativeChange(byte* property, int8_t amount, byte lowerBoundary = 0, byte higherBoundary = 0xFF);
void changeEffectSpeed(int8_t amount);
void changeEffectIntensity(int8_t amount);
void decodeIR(uint32_t code);
void decodeIR24(uint32_t code);
void decodeIR24OLD(uint32_t code);
void decodeIR24CT(uint32_t code);
void decodeIR40(uint32_t code);
void decodeIR44(uint32_t code);
void decodeIR21(uint32_t code);
void decodeIR6(uint32_t code);
void initIR();
void handleIR();
//json.cpp
#include "ESPAsyncWebServer.h"
#include "src/dependencies/json/ArduinoJson-v6.h"
#include "src/dependencies/json/AsyncJson-v6.h"
#include "FX.h"
// TODO: AsynicWebServerRequest conflict?
void deserializeSegment(JsonObject elem, byte it);
bool deserializeState(JsonObject root);
void serializeSegment(JsonObject& root, WS2812FX::Segment& seg, byte id);
void serializeState(JsonObject root);
void serializeInfo(JsonObject root);
void serveJson(AsyncWebServerRequest* request);
void serveLiveLeds(AsyncWebServerRequest* request);
//led.cpp
void setValuesFromMainSeg();
void resetTimebase();
void toggleOnOff();
void setAllLeds();
void setLedsStandard(bool justColors = false);
bool colorChanged();
void colorUpdated(int callMode);
void updateInterfaces(uint8_t callMode);
void handleTransitions();
void handleNightlight();
//mqtt.cpp
bool initMqtt();
void publishMqtt();
//notify.cpp
void notify(byte callMode, bool followUp=false);
void arlsLock(uint32_t timeoutMs, byte md = REALTIME_MODE_GENERIC);
void handleNotifications();
void setRealtimePixel(uint16_t i, byte r, byte g, byte b, byte w);
//ntp.cpp
void handleNetworkTime();
void sendNTPPacket();
bool checkNTPResponse();
void updateLocalTime();
void getTimeString(char* out);
bool checkCountdown();
void setCountdown();
byte weekdayMondayFirst();
void checkTimers();
//overlay.cpp
void initCronixie();
void handleOverlays();
void handleOverlayDraw();
void _overlayAnalogCountdown();
void _overlayAnalogClock();
byte getSameCodeLength(char code, int index, char const cronixieDisplay[]);
void setCronixie();
void _overlayCronixie();
void _drawOverlayCronixie();
//set.cpp
void _setRandomColor(bool _sec,bool fromButton=false);
bool isAsterisksOnly(const char* str, byte maxLen);
void handleSettingsSet(AsyncWebServerRequest *request, byte subPage);
bool handleSet(AsyncWebServerRequest *request, const String& req);
int getNumVal(const String* req, uint16_t pos);
bool updateVal(const String* req, const char* key, byte* val, byte minv=0, byte maxv=255);
//usermod.cpp
void userSetup();
void userConnected();
void userLoop();
//wled_eeprom.cpp
void commit();
void clearEEPROM();
void writeStringToEEPROM(uint16_t pos, char* str, uint16_t len);
void readStringFromEEPROM(uint16_t pos, char* str, uint16_t len);
void saveSettingsToEEPROM();
void loadSettingsFromEEPROM(bool first);
void savedToPresets();
bool applyPreset(byte index, bool loadBri = true);
void savePreset(byte index, bool persist = true);
void loadMacro(byte index, char* m);
void applyMacro(byte index);
void saveMacro(byte index, String mc, bool persist = true); //only commit on single save, not in settings
//wled_serial.cpp
void handleSerial();
//wled_server.cpp
bool isIp(String str);
bool captivePortal(AsyncWebServerRequest *request);
void initServer();
void serveIndexOrWelcome(AsyncWebServerRequest *request);
void serveIndex(AsyncWebServerRequest* request);
String msgProcessor(const String& var);
void serveMessage(AsyncWebServerRequest* request, uint16_t code, String headl, String subl="", byte optionT=255);
String settingsProcessor(const String& var);
String dmxProcessor(const String& var);
void serveSettings(AsyncWebServerRequest* request);
//xml.cpp
char* XML_response(AsyncWebServerRequest *request, char* dest = nullptr);
char* URL_response(AsyncWebServerRequest *request);
void sappend(char stype, const char* key, int val);
void sappends(char stype, const char* key, char* val);
void getSettingsJS(byte subPage, char* dest);
#endif

55
wled00/file.cpp Normal file
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@ -0,0 +1,55 @@
#include "wled.h"
/*
* Utility for SPIFFS filesystem
*/
//filesystem
#ifndef WLED_DISABLE_FILESYSTEM
#include <FS.h>
#ifdef ARDUINO_ARCH_ESP32
#include "SPIFFS.h"
#endif
#include "SPIFFSEditor.h"
#endif
#if !defined WLED_DISABLE_FILESYSTEM && defined WLED_ENABLE_FS_SERVING
//Un-comment any file types you need
String getContentType(AsyncWebServerRequest* request, String filename){
if(request->hasArg("download")) return "application/octet-stream";
else if(filename.endsWith(".htm")) return "text/html";
else if(filename.endsWith(".html")) return "text/html";
// else if(filename.endsWith(".css")) return "text/css";
// else if(filename.endsWith(".js")) return "application/javascript";
else if(filename.endsWith(".json")) return "application/json";
else if(filename.endsWith(".png")) return "image/png";
// else if(filename.endsWith(".gif")) return "image/gif";
else if(filename.endsWith(".jpg")) return "image/jpeg";
else if(filename.endsWith(".ico")) return "image/x-icon";
// else if(filename.endsWith(".xml")) return "text/xml";
// else if(filename.endsWith(".pdf")) return "application/x-pdf";
// else if(filename.endsWith(".zip")) return "application/x-zip";
// else if(filename.endsWith(".gz")) return "application/x-gzip";
return "text/plain";
}
bool handleFileRead(AsyncWebServerRequest* request, String path){
DEBUG_PRINTLN("FileRead: " + path);
if(path.endsWith("/")) path += "index.htm";
String contentType = getContentType(request, path);
String pathWithGz = path + ".gz";
if(SPIFFS.exists(pathWithGz)){
request->send(SPIFFS, pathWithGz, contentType);
return true;
}
if(SPIFFS.exists(path)) {
request->send(SPIFFS, path, contentType);
return true;
}
return false;
}
#else
bool handleFileRead(AsyncWebServerRequest*, String path){return false;}
#endif

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@ -1,5 +1,5 @@
/* /*
* Various pages * Various web pages
*/ */
//USER HTML HERE (/u subpage) //USER HTML HERE (/u subpage)

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@ -1,5 +1,5 @@
/* /*
Settings html * Settings html
*/ */
//common CSS of settings pages //common CSS of settings pages

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@ -1,7 +1,11 @@
#include "wled.h"
/* /*
* Sync to Philips hue lights * Sync to Philips hue lights
*/ */
#ifndef WLED_DISABLE_HUESYNC #ifndef WLED_DISABLE_HUESYNC
void handleHue() void handleHue()
{ {
if (hueReceived) if (hueReceived)

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@ -1,3 +1,5 @@
#include "wled.h"
/* /*
* Infrared sensor support for generic 24/40/44 key RGB remotes * Infrared sensor support for generic 24/40/44 key RGB remotes
*/ */
@ -35,7 +37,7 @@ bool decodeIRCustom(uint32_t code)
//relatively change brightness, minumum A=5 //relatively change brightness, minumum A=5
void relativeChange(byte* property, int8_t amount, byte lowerBoundary = 0, byte higherBoundary = 0xFF) void relativeChange(byte* property, int8_t amount, byte lowerBoundary, byte higherBoundary)
{ {
int16_t new_val = (int16_t) *property + amount; int16_t new_val = (int16_t) *property + amount;
if (new_val > higherBoundary) new_val = higherBoundary; if (new_val > higherBoundary) new_val = higherBoundary;

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@ -1,3 +1,5 @@
#include "wled.h"
/* /*
* JSON API (De)serialization * JSON API (De)serialization
*/ */
@ -248,6 +250,26 @@ void serializeState(JsonObject root)
} }
} }
//by https://github.com/tzapu/WiFiManager/blob/master/WiFiManager.cpp
int getSignalQuality(int rssi)
{
int quality = 0;
if (rssi <= -100)
{
quality = 0;
}
else if (rssi >= -50)
{
quality = 100;
}
else
{
quality = 2 * (rssi + 100);
}
return quality;
}
void serializeInfo(JsonObject root) void serializeInfo(JsonObject root)
{ {
root["ver"] = versionString; root["ver"] = versionString;

View File

@ -1,6 +1,9 @@
#include "wled.h"
/* /*
* LED methods * LED methods
*/ */
void setValuesFromMainSeg() void setValuesFromMainSeg()
{ {
WS2812FX::Segment& seg = strip.getSegment(strip.getMainSegmentId()); WS2812FX::Segment& seg = strip.getSegment(strip.getMainSegmentId());
@ -50,7 +53,7 @@ void setAllLeds() {
} }
void setLedsStandard(bool justColors = false) void setLedsStandard(bool justColors)
{ {
for (byte i=0; i<4; i++) for (byte i=0; i<4; i++)
{ {

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@ -1,3 +1,5 @@
#include "wled.h"
/* /*
* MQTT communication protocol for home automation * MQTT communication protocol for home automation
*/ */

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@ -1,3 +1,6 @@
#include "src/dependencies/timezone/Timezone.h"
#include "wled.h"
/* /*
* Acquires time from NTP server * Acquires time from NTP server
*/ */
@ -57,6 +60,7 @@ Timezone tzNK(NKST, NKST);
TimeChangeRule IST = {Last, Sun, Mar, 1, 330}; // India Standard Time = UTC + 5.5 hours TimeChangeRule IST = {Last, Sun, Mar, 1, 330}; // India Standard Time = UTC + 5.5 hours
Timezone tzIndia(IST, IST); Timezone tzIndia(IST, IST);
// Pick your timezone from here.
Timezone* timezones[] = {&tzUTC, &tzUK, &tzEUCentral, &tzEUEastern, &tzUSEastern, &tzUSCentral, &tzUSMountain, &tzUSArizona, &tzUSPacific, &tzChina, &tzJapan, &tzAUEastern, &tzNZ, &tzNK, &tzIndia, &tzCASaskatchewan}; Timezone* timezones[] = {&tzUTC, &tzUK, &tzEUCentral, &tzEUEastern, &tzUSEastern, &tzUSCentral, &tzUSMountain, &tzUSArizona, &tzUSPacific, &tzChina, &tzJapan, &tzAUEastern, &tzNZ, &tzNK, &tzIndia, &tzCASaskatchewan};
void handleNetworkTime() void handleNetworkTime()

View File

@ -1,9 +1,141 @@
#include "wled.h"
/*
* Used to draw clock overlays over the strip
*/
void initCronixie()
{
if (overlayCurrent == 3 && !cronixieInit)
{
setCronixie();
strip.getSegment(0).grouping = 10; //10 LEDs per digit
cronixieInit = true;
} else if (cronixieInit && overlayCurrent != 3)
{
strip.getSegment(0).grouping = 1;
cronixieInit = false;
}
}
void handleOverlays()
{
if (millis() - overlayRefreshedTime > overlayRefreshMs)
{
initCronixie();
updateLocalTime();
checkTimers();
checkCountdown();
if (overlayCurrent == 3) _overlayCronixie();//Diamex cronixie clock kit
overlayRefreshedTime = millis();
}
}
void _overlayAnalogClock()
{
int overlaySize = overlayMax - overlayMin +1;
if (countdownMode)
{
_overlayAnalogCountdown(); return;
}
double hourP = ((double)(hour(local)%12))/12;
double minuteP = ((double)minute(local))/60;
hourP = hourP + minuteP/12;
double secondP = ((double)second(local))/60;
int hourPixel = floor(analogClock12pixel + overlaySize*hourP);
if (hourPixel > overlayMax) hourPixel = overlayMin -1 + hourPixel - overlayMax;
int minutePixel = floor(analogClock12pixel + overlaySize*minuteP);
if (minutePixel > overlayMax) minutePixel = overlayMin -1 + minutePixel - overlayMax;
int secondPixel = floor(analogClock12pixel + overlaySize*secondP);
if (secondPixel > overlayMax) secondPixel = overlayMin -1 + secondPixel - overlayMax;
if (analogClockSecondsTrail)
{
if (secondPixel < analogClock12pixel)
{
strip.setRange(analogClock12pixel, overlayMax, 0xFF0000);
strip.setRange(overlayMin, secondPixel, 0xFF0000);
} else
{
strip.setRange(analogClock12pixel, secondPixel, 0xFF0000);
}
}
if (analogClock5MinuteMarks)
{
int pix;
for (int i = 0; i <= 12; i++)
{
pix = analogClock12pixel + round((overlaySize / 12.0) *i);
if (pix > overlayMax) pix -= overlaySize;
strip.setPixelColor(pix, 0x00FFAA);
}
}
if (!analogClockSecondsTrail) strip.setPixelColor(secondPixel, 0xFF0000);
strip.setPixelColor(minutePixel, 0x00FF00);
strip.setPixelColor(hourPixel, 0x0000FF);
overlayRefreshMs = 998;
}
void _overlayAnalogCountdown()
{
if (now() < countdownTime)
{
long diff = countdownTime - now();
double pval = 60;
if (diff > 31557600L) //display in years if more than 365 days
{
pval = 315576000L; //10 years
} else if (diff > 2592000L) //display in months if more than a month
{
pval = 31557600L; //1 year
} else if (diff > 604800) //display in weeks if more than a week
{
pval = 2592000L; //1 month
} else if (diff > 86400) //display in days if more than 24 hours
{
pval = 604800; //1 week
} else if (diff > 3600) //display in hours if more than 60 minutes
{
pval = 86400; //1 day
} else if (diff > 60) //display in minutes if more than 60 seconds
{
pval = 3600; //1 hour
}
int overlaySize = overlayMax - overlayMin +1;
double perc = (pval-(double)diff)/pval;
if (perc > 1.0) perc = 1.0;
byte pixelCnt = perc*overlaySize;
if (analogClock12pixel + pixelCnt > overlayMax)
{
strip.setRange(analogClock12pixel, overlayMax, ((uint32_t)colSec[3] << 24)| ((uint32_t)colSec[0] << 16) | ((uint32_t)colSec[1] << 8) | colSec[2]);
strip.setRange(overlayMin, overlayMin +pixelCnt -(1+ overlayMax -analogClock12pixel), ((uint32_t)colSec[3] << 24)| ((uint32_t)colSec[0] << 16) | ((uint32_t)colSec[1] << 8) | colSec[2]);
} else
{
strip.setRange(analogClock12pixel, analogClock12pixel + pixelCnt, ((uint32_t)colSec[3] << 24)| ((uint32_t)colSec[0] << 16) | ((uint32_t)colSec[1] << 8) | colSec[2]);
}
}
overlayRefreshMs = 998;
}
void handleOverlayDraw() {
if (!overlayCurrent) return;
switch (overlayCurrent)
{
case 1: _overlayAnalogClock(); break;
case 3: _drawOverlayCronixie(); break;
}
}
/* /*
* Support for the Cronixie clock * Support for the Cronixie clock
*/ */
#ifndef WLED_DISABLE_CRONIXIE #ifndef WLED_DISABLE_CRONIXIE
byte _digitOut[6] = {10,10,10,10,10,10}; byte _digitOut[6] = {10,10,10,10,10,10};
#endif
byte getSameCodeLength(char code, int index, char const cronixieDisplay[]) byte getSameCodeLength(char code, int index, char const cronixieDisplay[])
{ {
@ -23,7 +155,6 @@ byte getSameCodeLength(char code, int index, char const cronixieDisplay[])
void setCronixie() void setCronixie()
{ {
#ifndef WLED_DISABLE_CRONIXIE
/* /*
* digit purpose index * digit purpose index
* 0-9 | 0-9 (incl. random) * 0-9 | 0-9 (incl. random)
@ -144,12 +275,10 @@ void setCronixie()
DEBUG_PRINTLN((int)dP[5]); DEBUG_PRINTLN((int)dP[5]);
_overlayCronixie(); //refresh _overlayCronixie(); //refresh
#endif
} }
void _overlayCronixie() void _overlayCronixie()
{ {
#ifndef WLED_DISABLE_CRONIXIE
byte h = hour(local); byte h = hour(local);
byte h0 = h; byte h0 = h;
byte m = minute(local); byte m = minute(local);
@ -211,12 +340,10 @@ void _overlayCronixie()
} }
} }
} }
#endif
} }
void _drawOverlayCronixie() void _drawOverlayCronixie()
{ {
#ifndef WLED_DISABLE_CRONIXIE
byte offsets[] = {5, 0, 6, 1, 7, 2, 8, 3, 9, 4}; byte offsets[] = {5, 0, 6, 1, 7, 2, 8, 3, 9, 4};
for (uint16_t i = 0; i < 6; i++) for (uint16_t i = 0; i < 6; i++)
@ -239,5 +366,11 @@ void _drawOverlayCronixie()
} }
} }
} }
#endif
} }
#else // WLED_DISABLE_CRONIXIE
byte getSameCodeLength(char code, int index, char const cronixieDisplay[]) {}
void setCronixie() {}
void _overlayCronixie() {}
void _drawOverlayCronixie() {}
#endif

View File

@ -1,8 +1,10 @@
#include "wled.h"
/* /*
* Receives client input * Receives client input
*/ */
void _setRandomColor(bool _sec,bool fromButton=false) void _setRandomColor(bool _sec,bool fromButton)
{ {
lastRandomIndex = strip.get_random_wheel_index(lastRandomIndex); lastRandomIndex = strip.get_random_wheel_index(lastRandomIndex);
if (_sec){ if (_sec){
@ -330,7 +332,7 @@ int getNumVal(const String* req, uint16_t pos)
//helper to get int value at a position in string //helper to get int value at a position in string
bool updateVal(const String* req, const char* key, byte* val, byte minv=0, byte maxv=255) bool updateVal(const String* req, const char* key, byte* val, byte minv, byte maxv)
{ {
int pos = req->indexOf(key); int pos = req->indexOf(key);
if (pos < 1) return false; if (pos < 1) return false;

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@ -0,0 +1,5 @@
#include "BlynkSimpleEsp.h"
WiFiClient _blynkWifiClient;
BlynkArduinoClient _blynkTransport(_blynkWifiClient);
BlynkWifi Blynk(_blynkTransport);

View File

@ -89,8 +89,6 @@ public:
}; };
static WiFiClient _blynkWifiClient; extern BlynkWifi Blynk;
static BlynkArduinoClient _blynkTransport(_blynkWifiClient);
BlynkWifi Blynk(_blynkTransport);
#endif #endif

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@ -0,0 +1,106 @@
// - - - - -
// ESPDMX - A Arduino library for sending and receiving DMX using the builtin serial hardware port.
// ESPDMX.cpp: Library implementation file
//
// Copyright (C) 2015 Rick <ricardogg95@gmail.com>
// This work is licensed under a GNU style license.
//
// Last change: Marcel Seerig <https://github.com/mseerig>
//
// Documentation and samples are available at https://github.com/Rickgg/ESP-Dmx
// - - - - -
/* ----- LIBRARIES ----- */
#include <Arduino.h>
#include "ESPDMX.h"
#define dmxMaxChannel 512
#define defaultMax 32
#define DMXSPEED 250000
#define DMXFORMAT SERIAL_8N2
#define BREAKSPEED 83333
#define BREAKFORMAT SERIAL_8N1
bool dmxStarted = false;
int sendPin = 2; //dafault on ESP8266
//DMX value array and size. Entry 0 will hold startbyte
uint8_t dmxData[dmxMaxChannel] = {};
int chanSize;
void DMXESPSerial::init() {
chanSize = defaultMax;
Serial1.begin(DMXSPEED);
pinMode(sendPin, OUTPUT);
dmxStarted = true;
}
// Set up the DMX-Protocol
void DMXESPSerial::init(int chanQuant) {
if (chanQuant > dmxMaxChannel || chanQuant <= 0) {
chanQuant = defaultMax;
}
chanSize = chanQuant;
Serial1.begin(DMXSPEED);
pinMode(sendPin, OUTPUT);
dmxStarted = true;
}
// Function to read DMX data
uint8_t DMXESPSerial::read(int Channel) {
if (dmxStarted == false) init();
if (Channel < 1) Channel = 1;
if (Channel > dmxMaxChannel) Channel = dmxMaxChannel;
return(dmxData[Channel]);
}
// Function to send DMX data
void DMXESPSerial::write(int Channel, uint8_t value) {
if (dmxStarted == false) init();
if (Channel < 1) Channel = 1;
if (Channel > chanSize) Channel = chanSize;
if (value < 0) value = 0;
if (value > 255) value = 255;
dmxData[Channel] = value;
}
void DMXESPSerial::end() {
delete dmxData;
chanSize = 0;
Serial1.end();
dmxStarted == false;
}
void DMXESPSerial::update() {
if (dmxStarted == false) init();
//Send break
digitalWrite(sendPin, HIGH);
Serial1.begin(BREAKSPEED, BREAKFORMAT);
Serial1.write(0);
Serial1.flush();
delay(1);
Serial1.end();
//send data
Serial1.begin(DMXSPEED, DMXFORMAT);
digitalWrite(sendPin, LOW);
Serial1.write(dmxData, chanSize);
Serial1.flush();
delay(1);
Serial1.end();
}
// Function to update the DMX bus

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@ -0,0 +1,31 @@
// - - - - -
// ESPDMX - A Arduino library for sending and receiving DMX using the builtin serial hardware port.
// ESPDMX.cpp: Library implementation file
//
// Copyright (C) 2015 Rick <ricardogg95@gmail.com>
// This work is licensed under a GNU style license.
//
// Last change: Marcel Seerig <https://github.com/mseerig>
//
// Documentation and samples are available at https://github.com/Rickgg/ESP-Dmx
// - - - - -
#include <inttypes.h>
#ifndef ESPDMX_h
#define ESPDMX_h
// ---- Methods ----
class DMXESPSerial {
public:
void init();
void init(int MaxChan);
uint8_t read(int Channel);
void write(int channel, uint8_t value);
void update();
void end();
};
#endif

View File

@ -1,6 +1,6 @@
#ifndef EspalexaDevice_h #ifndef EspalexaDevice_h
#define EspalexaDevice_h #define EspalexaDevice_h
#include <functional>
#include "Arduino.h" #include "Arduino.h"
#include <functional> #include <functional>

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@ -1,12 +1,13 @@
#include "wled.h"
/* /*
* UDP notifier * UDP sync notifier
*/ */
#define WLEDPACKETSIZE 29 #define WLEDPACKETSIZE 29
#define UDP_IN_MAXSIZE 1472 #define UDP_IN_MAXSIZE 1472
void notify(byte callMode, bool followUp)
void notify(byte callMode, bool followUp=false)
{ {
if (!udpConnected) return; if (!udpConnected) return;
switch (callMode) switch (callMode)
@ -71,7 +72,7 @@ void notify(byte callMode, bool followUp=false)
} }
void arlsLock(uint32_t timeoutMs, byte md = REALTIME_MODE_GENERIC) void arlsLock(uint32_t timeoutMs, byte md)
{ {
if (!realtimeMode){ if (!realtimeMode){
for (uint16_t i = 0; i < ledCount; i++) for (uint16_t i = 0; i < ledCount; i++)
@ -86,146 +87,6 @@ void arlsLock(uint32_t timeoutMs, byte md = REALTIME_MODE_GENERIC)
} }
void handleE131Packet(e131_packet_t* p, IPAddress clientIP){
//E1.31 protocol support
uint16_t uni = htons(p->universe);
uint8_t previousUniverses = uni - e131Universe;
uint16_t possibleLEDsInCurrentUniverse;
uint16_t dmxChannels = htons(p->property_value_count) -1;
// only listen for universes we're handling & allocated memory
if (uni >= (e131Universe + E131_MAX_UNIVERSE_COUNT)) return;
if (e131SkipOutOfSequence)
if (p->sequence_number < e131LastSequenceNumber[uni-e131Universe] && p->sequence_number > 20 && e131LastSequenceNumber[uni-e131Universe] < 250){
DEBUG_PRINT("skipping E1.31 frame (last seq=");
DEBUG_PRINT(e131LastSequenceNumber[uni-e131Universe]);
DEBUG_PRINT(", current seq=");
DEBUG_PRINT(p->sequence_number);
DEBUG_PRINT(", universe=");
DEBUG_PRINT(uni);
DEBUG_PRINTLN(")");
return;
}
e131LastSequenceNumber[uni-e131Universe] = p->sequence_number;
// update status info
realtimeIP = clientIP;
switch (DMXMode) {
case DMX_MODE_DISABLED:
return; // nothing to do
break;
case DMX_MODE_SINGLE_RGB:
if (uni != e131Universe) return;
if (dmxChannels-DMXAddress+1 < 3) return;
arlsLock(realtimeTimeoutMs, REALTIME_MODE_E131);
for (uint16_t i = 0; i < ledCount; i++)
setRealtimePixel(i, p->property_values[DMXAddress+0], p->property_values[DMXAddress+1], p->property_values[DMXAddress+2], 0);
break;
case DMX_MODE_SINGLE_DRGB:
if (uni != e131Universe) return;
if (dmxChannels-DMXAddress+1 < 4) return;
arlsLock(realtimeTimeoutMs, REALTIME_MODE_E131);
if (DMXOldDimmer != p->property_values[DMXAddress+0]) {
DMXOldDimmer = p->property_values[DMXAddress+0];
bri = p->property_values[DMXAddress+0];
strip.setBrightness(bri);
}
for (uint16_t i = 0; i < ledCount; i++)
setRealtimePixel(i, p->property_values[DMXAddress+1], p->property_values[DMXAddress+2], p->property_values[DMXAddress+3], 0);
break;
case DMX_MODE_EFFECT:
if (uni != e131Universe) return;
if (dmxChannels-DMXAddress+1 < 11) return;
if (DMXOldDimmer != p->property_values[DMXAddress+0]) {
DMXOldDimmer = p->property_values[DMXAddress+0];
bri = p->property_values[DMXAddress+0];
}
if (p->property_values[DMXAddress+1] < MODE_COUNT)
effectCurrent = p->property_values[DMXAddress+ 1];
effectSpeed = p->property_values[DMXAddress+ 2]; // flickers
effectIntensity = p->property_values[DMXAddress+ 3];
effectPalette = p->property_values[DMXAddress+ 4];
col[0] = p->property_values[DMXAddress+ 5];
col[1] = p->property_values[DMXAddress+ 6];
col[2] = p->property_values[DMXAddress+ 7];
colSec[0] = p->property_values[DMXAddress+ 8];
colSec[1] = p->property_values[DMXAddress+ 9];
colSec[2] = p->property_values[DMXAddress+10];
if (dmxChannels-DMXAddress+1 > 11)
{
col[3] = p->property_values[DMXAddress+11]; //white
colSec[3] = p->property_values[DMXAddress+12];
}
transitionDelayTemp = 0; // act fast
colorUpdated(NOTIFIER_CALL_MODE_NOTIFICATION); // don't send UDP
return; // don't activate realtime live mode
break;
case DMX_MODE_MULTIPLE_RGB:
arlsLock(realtimeTimeoutMs, REALTIME_MODE_E131);
if (previousUniverses == 0) {
// first universe of this fixture
possibleLEDsInCurrentUniverse = (dmxChannels - DMXAddress + 1) / 3;
for (uint16_t i = 0; i < ledCount; i++) {
if (i >= possibleLEDsInCurrentUniverse) break; // more LEDs will follow in next universe(s)
setRealtimePixel(i, p->property_values[DMXAddress+i*3+0], p->property_values[DMXAddress+i*3+1], p->property_values[DMXAddress+i*3+2], 0);
}
} else if (previousUniverses > 0 && uni < (e131Universe + E131_MAX_UNIVERSE_COUNT)) {
// additional universe(s) of this fixture
uint16_t numberOfLEDsInPreviousUniverses = ((512 - DMXAddress + 1) / 3); // first universe
if (previousUniverses > 1) numberOfLEDsInPreviousUniverses += (512 / 3) * (previousUniverses - 1); // extended universe(s) before current
possibleLEDsInCurrentUniverse = dmxChannels / 3;
for (uint16_t i = numberOfLEDsInPreviousUniverses; i < ledCount; i++) {
uint8_t j = i - numberOfLEDsInPreviousUniverses;
if (j >= possibleLEDsInCurrentUniverse) break; // more LEDs will follow in next universe(s)
setRealtimePixel(i, p->property_values[j*3+1], p->property_values[j*3+2], p->property_values[j*3+3], 0);
}
}
break;
case DMX_MODE_MULTIPLE_DRGB:
arlsLock(realtimeTimeoutMs, REALTIME_MODE_E131);
if (previousUniverses == 0) {
// first universe of this fixture
if (DMXOldDimmer != p->property_values[DMXAddress+0]) {
DMXOldDimmer = p->property_values[DMXAddress+0];
bri = p->property_values[DMXAddress+0];
strip.setBrightness(bri);
}
possibleLEDsInCurrentUniverse = (dmxChannels - DMXAddress) / 3;
for (uint16_t i = 0; i < ledCount; i++) {
if (i >= possibleLEDsInCurrentUniverse) break; // more LEDs will follow in next universe(s)
setRealtimePixel(i, p->property_values[DMXAddress+i*3+1], p->property_values[DMXAddress+i*3+2], p->property_values[DMXAddress+i*3+3], 0);
}
} else if (previousUniverses > 0 && uni < (e131Universe + E131_MAX_UNIVERSE_COUNT)) {
// additional universe(s) of this fixture
uint16_t numberOfLEDsInPreviousUniverses = ((512 - DMXAddress + 1) / 3); // first universe
if (previousUniverses > 1) numberOfLEDsInPreviousUniverses += (512 / 3) * (previousUniverses - 1); // extended universe(s) before current
possibleLEDsInCurrentUniverse = dmxChannels / 3;
for (uint16_t i = numberOfLEDsInPreviousUniverses; i < ledCount; i++) {
uint8_t j = i - numberOfLEDsInPreviousUniverses;
if (j >= possibleLEDsInCurrentUniverse) break; // more LEDs will follow in next universe(s)
setRealtimePixel(i, p->property_values[j*3+1], p->property_values[j*3+2], p->property_values[j*3+3], 0);
}
}
break;
default:
DEBUG_PRINTLN("unknown E1.31 DMX mode");
return; // nothing to do
break;
}
e131NewData = true;
}
void handleNotifications() void handleNotifications()
{ {
//send second notification if enabled //send second notification if enabled

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@ -1,7 +1,8 @@
#include "wled.h"
/* /*
* This file allows you to add own functionality to WLED more easily * This file allows you to add own functionality to WLED more easily
* See: https://github.com/Aircoookie/WLED/wiki/Add-own-functionality * See: https://github.com/Aircoookie/WLED/wiki/Add-own-functionality
* EEPROM bytes 2750+ are reserved for your custom use case. (if you extend #define EEPSIZE in wled01_eeprom.h) * EEPROM bytes 2750+ are reserved for your custom use case. (if you extend #define EEPSIZE in const.h)
* bytes 2400+ are currently ununsed, but might be used for future wled features * bytes 2400+ are currently ununsed, but might be used for future wled features
*/ */

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wled00/wled.cpp Normal file
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#define WLED_DEFINE_GLOBAL_VARS //only in one source file, wled.cpp!
#include "wled.h"
#include <Arduino.h>
/*
* Main WLED class implementation. Mostly initialization and connection logic
*/
WLED::WLED()
{
}
// turns all LEDs off and restarts ESP
void WLED::reset()
{
briT = 0;
long dly = millis();
while (millis() - dly < 250) {
yield(); // enough time to send response to client
}
setAllLeds();
DEBUG_PRINTLN("MODULE RESET");
ESP.restart();
}
bool oappendi(int i)
{
char s[11];
sprintf(s, "%ld", i);
return oappend(s);
}
bool oappend(const char* txt)
{
uint16_t len = strlen(txt);
if (olen + len >= OMAX)
return false; // buffer full
strcpy(obuf + olen, txt);
olen += len;
return true;
}
void WLED::loop()
{
handleIR(); // 2nd call to function needed for ESP32 to return valid results -- should be good for ESP8266, too
handleConnection();
handleSerial();
handleNotifications();
handleTransitions();
#ifdef WLED_ENABLE_DMX
handleDMX();
#endif
userLoop();
yield();
handleIO();
handleIR();
handleNetworkTime();
handleAlexa();
handleOverlays();
yield();
#ifdef WLED_USE_ANALOG_LEDS
strip.setRgbwPwm();
#endif
if (doReboot)
reset();
if (!realtimeMode) // block stuff if WARLS/Adalight is enabled
{
if (apActive)
dnsServer.processNextRequest();
#ifndef WLED_DISABLE_OTA
if (WLED_CONNECTED && aOtaEnabled)
ArduinoOTA.handle();
#endif
handleNightlight();
yield();
handleHue();
handleBlynk();
yield();
if (!offMode)
strip.service();
}
yield();
#ifdef ESP8266
MDNS.update();
#endif
if (millis() - lastMqttReconnectAttempt > 30000)
initMqtt();
// DEBUG serial logging
#ifdef WLED_DEBUG
if (millis() - debugTime > 9999) {
DEBUG_PRINTLN("---DEBUG INFO---");
DEBUG_PRINT("Runtime: ");
DEBUG_PRINTLN(millis());
DEBUG_PRINT("Unix time: ");
DEBUG_PRINTLN(now());
DEBUG_PRINT("Free heap: ");
DEBUG_PRINTLN(ESP.getFreeHeap());
DEBUG_PRINT("Wifi state: ");
DEBUG_PRINTLN(WiFi.status());
if (WiFi.status() != lastWifiState) {
wifiStateChangedTime = millis();
}
lastWifiState = WiFi.status();
DEBUG_PRINT("State time: ");
DEBUG_PRINTLN(wifiStateChangedTime);
DEBUG_PRINT("NTP last sync: ");
DEBUG_PRINTLN(ntpLastSyncTime);
DEBUG_PRINT("Client IP: ");
DEBUG_PRINTLN(WiFi.localIP());
DEBUG_PRINT("Loops/sec: ");
DEBUG_PRINTLN(loops / 10);
loops = 0;
debugTime = millis();
}
loops++;
#endif // WLED_DEBU
}
void WLED::setup()
{
EEPROM.begin(EEPSIZE);
ledCount = EEPROM.read(229) + ((EEPROM.read(398) << 8) & 0xFF00);
if (ledCount > MAX_LEDS || ledCount == 0)
ledCount = 30;
#ifdef ESP8266
#if LEDPIN == 3
if (ledCount > MAX_LEDS_DMA)
ledCount = MAX_LEDS_DMA; // DMA method uses too much ram
#endif
#endif
Serial.begin(115200);
Serial.setTimeout(50);
DEBUG_PRINTLN();
DEBUG_PRINT("---WLED ");
DEBUG_PRINT(versionString);
DEBUG_PRINT(" ");
DEBUG_PRINT(VERSION);
DEBUG_PRINTLN(" INIT---");
#ifdef ARDUINO_ARCH_ESP32
DEBUG_PRINT("esp32 ");
DEBUG_PRINTLN(ESP.getSdkVersion());
#else
DEBUG_PRINT("esp8266 ");
DEBUG_PRINTLN(ESP.getCoreVersion());
#endif
int heapPreAlloc = ESP.getFreeHeap();
DEBUG_PRINT("heap ");
DEBUG_PRINTLN(ESP.getFreeHeap());
strip.init(EEPROM.read(372), ledCount, EEPROM.read(2204)); // init LEDs quickly
strip.setBrightness(0);
DEBUG_PRINT("LEDs inited. heap usage ~");
DEBUG_PRINTLN(heapPreAlloc - ESP.getFreeHeap());
#ifndef WLED_DISABLE_FILESYSTEM
#ifdef ARDUINO_ARCH_ESP32
SPIFFS.begin(true);
#endif
SPIFFS.begin();
#endif
DEBUG_PRINTLN("Load EEPROM");
loadSettingsFromEEPROM(true);
beginStrip();
userSetup();
if (strcmp(clientSSID, DEFAULT_CLIENT_SSID) == 0)
showWelcomePage = true;
WiFi.persistent(false);
if (macroBoot > 0)
applyMacro(macroBoot);
Serial.println("Ada");
// generate module IDs
escapedMac = WiFi.macAddress();
escapedMac.replace(":", "");
escapedMac.toLowerCase();
if (strcmp(cmDNS, "x") == 0) // fill in unique mdns default
{
strcpy(cmDNS, "wled-");
sprintf(cmDNS + 5, "%*s", 6, escapedMac.c_str() + 6);
}
if (mqttDeviceTopic[0] == 0) {
strcpy(mqttDeviceTopic, "wled/");
sprintf(mqttDeviceTopic + 5, "%*s", 6, escapedMac.c_str() + 6);
}
if (mqttClientID[0] == 0) {
strcpy(mqttClientID, "WLED-");
sprintf(mqttClientID + 5, "%*s", 6, escapedMac.c_str() + 6);
}
strip.service();
#ifndef WLED_DISABLE_OTA
if (aOtaEnabled) {
ArduinoOTA.onStart([]() {
#ifdef ESP8266
wifi_set_sleep_type(NONE_SLEEP_T);
#endif
DEBUG_PRINTLN("Start ArduinoOTA");
});
if (strlen(cmDNS) > 0)
ArduinoOTA.setHostname(cmDNS);
}
#endif
#ifdef WLED_ENABLE_DMX
dmx.init(512); // initialize with bus length
#endif
// HTTP server page init
initServer();
}
void WLED::beginStrip()
{
// Initialize NeoPixel Strip and button
strip.setShowCallback(handleOverlayDraw);
#ifdef BTNPIN
pinMode(BTNPIN, INPUT_PULLUP);
#endif
if (bootPreset > 0)
applyPreset(bootPreset, turnOnAtBoot);
colorUpdated(NOTIFIER_CALL_MODE_INIT);
// init relay pin
#if RLYPIN >= 0
pinMode(RLYPIN, OUTPUT);
#if RLYMDE
digitalWrite(RLYPIN, bri);
#else
digitalWrite(RLYPIN, !bri);
#endif
#endif
// disable button if it is "pressed" unintentionally
#ifdef BTNPIN
if (digitalRead(BTNPIN) == LOW)
buttonEnabled = false;
#else
buttonEnabled = false;
#endif
}
void WLED::initAP(bool resetAP)
{
if (apBehavior == AP_BEHAVIOR_BUTTON_ONLY && !resetAP)
return;
if (!apSSID[0] || resetAP)
strcpy(apSSID, "WLED-AP");
if (resetAP)
strcpy(apPass, DEFAULT_AP_PASS);
DEBUG_PRINT("Opening access point ");
DEBUG_PRINTLN(apSSID);
WiFi.softAPConfig(IPAddress(4, 3, 2, 1), IPAddress(4, 3, 2, 1), IPAddress(255, 255, 255, 0));
WiFi.softAP(apSSID, apPass, apChannel, apHide);
if (!apActive) // start captive portal if AP active
{
DEBUG_PRINTLN("Init AP interfaces");
server.begin();
if (udpPort > 0 && udpPort != ntpLocalPort) {
udpConnected = notifierUdp.begin(udpPort);
}
if (udpRgbPort > 0 && udpRgbPort != ntpLocalPort && udpRgbPort != udpPort) {
udpRgbConnected = rgbUdp.begin(udpRgbPort);
}
dnsServer.setErrorReplyCode(DNSReplyCode::NoError);
dnsServer.start(53, "*", WiFi.softAPIP());
}
apActive = true;
}
void WLED::initConnection()
{
WiFi.disconnect(); // close old connections
#ifdef ESP8266
WiFi.setPhyMode(WIFI_PHY_MODE_11N);
#endif
if (staticIP[0] != 0 && staticGateway[0] != 0) {
WiFi.config(staticIP, staticGateway, staticSubnet, IPAddress(8, 8, 8, 8));
} else {
WiFi.config(0U, 0U, 0U);
}
lastReconnectAttempt = millis();
if (!WLED_WIFI_CONFIGURED) {
DEBUG_PRINT("No connection configured. ");
if (!apActive)
initAP(); // instantly go to ap mode
return;
} else if (!apActive) {
if (apBehavior == AP_BEHAVIOR_ALWAYS) {
initAP();
} else {
DEBUG_PRINTLN("Access point disabled.");
WiFi.softAPdisconnect(true);
}
}
showWelcomePage = false;
DEBUG_PRINT("Connecting to ");
DEBUG_PRINT(clientSSID);
DEBUG_PRINTLN("...");
#ifdef ESP8266
WiFi.hostname(serverDescription);
#endif
WiFi.begin(clientSSID, clientPass);
#ifdef ARDUINO_ARCH_ESP32
WiFi.setSleep(!noWifiSleep);
WiFi.setHostname(serverDescription);
#else
wifi_set_sleep_type((noWifiSleep) ? NONE_SLEEP_T : MODEM_SLEEP_T);
#endif
}
void WLED::initInterfaces()
{
DEBUG_PRINTLN("Init STA interfaces");
if (hueIP[0] == 0) {
hueIP[0] = WiFi.localIP()[0];
hueIP[1] = WiFi.localIP()[1];
hueIP[2] = WiFi.localIP()[2];
}
// init Alexa hue emulation
if (alexaEnabled)
alexaInit();
#ifndef WLED_DISABLE_OTA
if (aOtaEnabled)
ArduinoOTA.begin();
#endif
strip.service();
// Set up mDNS responder:
if (strlen(cmDNS) > 0) {
if (!aOtaEnabled)
MDNS.begin(cmDNS);
DEBUG_PRINTLN("mDNS started");
MDNS.addService("http", "tcp", 80);
MDNS.addService("wled", "tcp", 80);
MDNS.addServiceTxt("wled", "tcp", "mac", escapedMac.c_str());
}
server.begin();
if (udpPort > 0 && udpPort != ntpLocalPort) {
udpConnected = notifierUdp.begin(udpPort);
if (udpConnected && udpRgbPort != udpPort)
udpRgbConnected = rgbUdp.begin(udpRgbPort);
}
if (ntpEnabled)
ntpConnected = ntpUdp.begin(ntpLocalPort);
initBlynk(blynkApiKey);
e131.begin((e131Multicast) ? E131_MULTICAST : E131_UNICAST, e131Universe, E131_MAX_UNIVERSE_COUNT);
reconnectHue();
initMqtt();
interfacesInited = true;
wasConnected = true;
}
byte stacO = 0;
uint32_t lastHeap;
unsigned long heapTime = 0;
void WLED::handleConnection()
{
if (millis() < 2000 && (!WLED_WIFI_CONFIGURED || apBehavior == AP_BEHAVIOR_ALWAYS))
return;
if (lastReconnectAttempt == 0)
initConnection();
// reconnect WiFi to clear stale allocations if heap gets too low
if (millis() - heapTime > 5000) {
uint32_t heap = ESP.getFreeHeap();
if (heap < 9000 && lastHeap < 9000) {
DEBUG_PRINT("Heap too low! ");
DEBUG_PRINTLN(heap);
forceReconnect = true;
}
lastHeap = heap;
heapTime = millis();
}
byte stac = 0;
if (apActive) {
#ifdef ESP8266
stac = wifi_softap_get_station_num();
#else
wifi_sta_list_t stationList;
esp_wifi_ap_get_sta_list(&stationList);
stac = stationList.num;
#endif
if (stac != stacO) {
stacO = stac;
DEBUG_PRINT("Connected AP clients: ");
DEBUG_PRINTLN(stac);
if (!WLED_CONNECTED && WLED_WIFI_CONFIGURED) { // trying to connect, but not connected
if (stac)
WiFi.disconnect(); // disable search so that AP can work
else
initConnection(); // restart search
}
}
}
if (forceReconnect) {
DEBUG_PRINTLN("Forcing reconnect.");
initConnection();
interfacesInited = false;
forceReconnect = false;
wasConnected = false;
return;
}
if (!WLED_CONNECTED) {
if (interfacesInited) {
DEBUG_PRINTLN("Disconnected!");
interfacesInited = false;
initConnection();
}
if (millis() - lastReconnectAttempt > ((stac) ? 300000 : 20000) && WLED_WIFI_CONFIGURED)
initConnection();
if (!apActive && millis() - lastReconnectAttempt > 12000 && (!wasConnected || apBehavior == AP_BEHAVIOR_NO_CONN))
initAP();
} else if (!interfacesInited) { // newly connected
DEBUG_PRINTLN("");
DEBUG_PRINT("Connected! IP address: ");
DEBUG_PRINTLN(WiFi.localIP());
initInterfaces();
userConnected();
// shut down AP
if (apBehavior != AP_BEHAVIOR_ALWAYS && apActive) {
dnsServer.stop();
WiFi.softAPdisconnect(true);
apActive = false;
DEBUG_PRINTLN("Access point disabled.");
}
}
}

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wled00/wled.h Normal file
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#ifndef WLED_H
#define WLED_H
/*
Main sketch, global variable declarations
@title WLED project sketch
@version 0.9.1n
@author Christian Schwinne
*/
// version code in format yymmddb (b = daily build)
#define VERSION 2004061
// ESP8266-01 (blue) got too little storage space to work with all features of WLED. To use it, you must use ESP8266 Arduino Core v2.4.2 and the setting 512K(No SPIFFS).
// ESP8266-01 (black) has 1MB flash and can thus fit the whole program. Use 1M(64K SPIFFS).
// Uncomment some of the following lines to disable features to compile for ESP8266-01 (max flash size 434kB):
// Alternatively, with platformio pass your chosen flags to your custom build target in platformio.ini.override
// You are required to disable over-the-air updates:
//#define WLED_DISABLE_OTA // saves 14kb
// You need to choose some of these features to disable:
//#define WLED_DISABLE_ALEXA // saves 11kb
//#define WLED_DISABLE_BLYNK // saves 6kb
//#define WLED_DISABLE_CRONIXIE // saves 3kb
//#define WLED_DISABLE_HUESYNC // saves 4kb
//#define WLED_DISABLE_INFRARED // there is no pin left for this on ESP8266-01, saves 12kb
#define WLED_ENABLE_MQTT // saves 12kb
#define WLED_ENABLE_ADALIGHT // saves 500b only
//#define WLED_ENABLE_DMX // uses 3.5kb
#define WLED_DISABLE_FILESYSTEM // SPIFFS is not used by any WLED feature yet
//#define WLED_ENABLE_FS_SERVING // Enable sending html file from SPIFFS before serving progmem version
//#define WLED_ENABLE_FS_EDITOR // enable /edit page for editing SPIFFS content. Will also be disabled with OTA lock
// to toggle usb serial debug (un)comment the following line
//#define WLED_DEBUG
// Library inclusions.
#include <Arduino.h>
#ifdef ESP8266
#include <ESP8266WiFi.h>
#include <ESP8266mDNS.h>
#include <ESPAsyncTCP.h>
extern "C"
{
#include <user_interface.h>
}
#else // ESP32
#include <WiFi.h>
#include "esp_wifi.h"
#include <ESPmDNS.h>
#include <AsyncTCP.h>
#include "SPIFFS.h"
#endif
#include <ESPAsyncWebServer.h>
#include <EEPROM.h>
#include <WiFiUdp.h>
#include <DNSServer.h>
#ifndef WLED_DISABLE_OTA
#include <ArduinoOTA.h>
#endif
#include <SPIFFSEditor.h>
#include "src/dependencies/time/TimeLib.h"
#include "src/dependencies/timezone/Timezone.h"
#ifndef WLED_DISABLE_ALEXA
#define ESPALEXA_ASYNC
#define ESPALEXA_NO_SUBPAGE
#define ESPALEXA_MAXDEVICES 1
// #define ESPALEXA_DEBUG
#include "src/dependencies/espalexa/Espalexa.h"
#endif
#ifndef WLED_DISABLE_BLYNK
#include "src/dependencies/blynk/BlynkSimpleEsp.h"
#endif
#include "src/dependencies/e131/ESPAsyncE131.h"
#include "src/dependencies/async-mqtt-client/AsyncMqttClient.h"
#include "src/dependencies/json/AsyncJson-v6.h"
#include "src/dependencies/json/ArduinoJson-v6.h"
#include "fcn_declare.h"
#include "html_ui.h"
#include "html_settings.h"
#include "html_other.h"
#include "FX.h"
#include "ir_codes.h"
#include "const.h"
#ifndef CLIENT_SSID
#define CLIENT_SSID DEFAULT_CLIENT_SSID
#endif
#ifndef CLIENT_PASS
#define CLIENT_PASS ""
#endif
#if IR_PIN < 0
#ifndef WLED_DISABLE_INFRARED
#define WLED_DISABLE_INFRARED
#endif
#endif
#ifndef WLED_DISABLE_INFRARED
#include <IRremoteESP8266.h>
#include <IRrecv.h>
#include <IRutils.h>
#endif
// remove flicker because PWM signal of RGB channels can become out of phase
#if defined(WLED_USE_ANALOG_LEDS) && defined(ESP8266)
#include "src/dependencies/arduino/core_esp8266_waveform.h"
#endif
// enable additional debug output
#ifdef WLED_DEBUG
#ifndef ESP8266
#include <rom/rtc.h>
#endif
#define DEBUG_PRINT(x) Serial.print(x)
#define DEBUG_PRINTLN(x) Serial.println(x)
#define DEBUG_PRINTF(x) Serial.printf(x)
#else
#define DEBUG_PRINT(x)
#define DEBUG_PRINTLN(x)
#define DEBUG_PRINTF(x)
#endif
// GLOBAL VARIABLES
// both declared and defined in header (solution from http://www.keil.com/support/docs/1868.htm)
//
//e.g. byte test = 2 becomes WLED_GLOBAL byte test _INIT(2);
// int arr[]{0,1,2} becomes WLED_GLOBAL int arr[] _INIT_N(({0,1,2}));
#ifndef WLED_DEFINE_GLOBAL_VARS
# define WLED_GLOBAL extern
# define _INIT(x)
# define _INIT_N(x)
#else
# define WLED_GLOBAL
# define _INIT(x) = x
//needed to ignore commas in array definitions
#define UNPACK( ... ) __VA_ARGS__
# define _INIT_N(x) UNPACK x
#endif
// Global Variable definitions
WLED_GLOBAL char versionString[] _INIT("0.9.1n");
// AP and OTA default passwords (for maximum security change them!)
WLED_GLOBAL char apPass[65] _INIT(DEFAULT_AP_PASS);
WLED_GLOBAL char otaPass[33] _INIT(DEFAULT_OTA_PASS);
// Hardware CONFIG (only changeble HERE, not at runtime)
// LED strip pin, button pin and IR pin changeable in NpbWrapper.h!
WLED_GLOBAL byte auxDefaultState _INIT(0); // 0: input 1: high 2: low
WLED_GLOBAL byte auxTriggeredState _INIT(0); // 0: input 1: high 2: low
WLED_GLOBAL char ntpServerName[33] _INIT("0.wled.pool.ntp.org"); // NTP server to use
// WiFi CONFIG (all these can be changed via web UI, no need to set them here)
WLED_GLOBAL char clientSSID[33] _INIT(CLIENT_SSID);
WLED_GLOBAL char clientPass[65] _INIT(CLIENT_PASS);
WLED_GLOBAL char cmDNS[33] _INIT("x"); // mDNS address (placeholder, is replaced by wledXXXXXX.local)
WLED_GLOBAL char apSSID[33] _INIT(""); // AP off by default (unless setup)
WLED_GLOBAL byte apChannel _INIT(1); // 2.4GHz WiFi AP channel (1-13)
WLED_GLOBAL byte apHide _INIT(0); // hidden AP SSID
WLED_GLOBAL byte apBehavior _INIT(AP_BEHAVIOR_BOOT_NO_CONN); // access point opens when no connection after boot by default
WLED_GLOBAL IPAddress staticIP _INIT_N((( 0, 0, 0, 0))); // static IP of ESP
WLED_GLOBAL IPAddress staticGateway _INIT_N((( 0, 0, 0, 0))); // gateway (router) IP
WLED_GLOBAL IPAddress staticSubnet _INIT_N(((255, 255, 255, 0))); // most common subnet in home networks
WLED_GLOBAL bool noWifiSleep _INIT(false); // disabling modem sleep modes will increase heat output and power usage, but may help with connection issues
// LED CONFIG
WLED_GLOBAL uint16_t ledCount _INIT(30); // overcurrent prevented by ABL
WLED_GLOBAL bool useRGBW _INIT(false); // SK6812 strips can contain an extra White channel
WLED_GLOBAL bool turnOnAtBoot _INIT(true); // turn on LEDs at power-up
WLED_GLOBAL byte bootPreset _INIT(0); // save preset to load after power-up
WLED_GLOBAL byte col[] _INIT_N(({ 255, 160, 0, 0 })); // current RGB(W) primary color. col[] should be updated if you want to change the color.
WLED_GLOBAL byte colSec[] _INIT_N(({ 0, 0, 0, 0 })); // current RGB(W) secondary color
WLED_GLOBAL byte briS _INIT(128); // default brightness
WLED_GLOBAL byte nightlightTargetBri _INIT(0); // brightness after nightlight is over
WLED_GLOBAL byte nightlightDelayMins _INIT(60);
WLED_GLOBAL bool nightlightFade _INIT(true); // if enabled, light will gradually dim towards the target bri. Otherwise, it will instantly set after delay over
WLED_GLOBAL bool nightlightColorFade _INIT(false); // if enabled, light will gradually fade color from primary to secondary color.
WLED_GLOBAL bool fadeTransition _INIT(true); // enable crossfading color transition
WLED_GLOBAL uint16_t transitionDelay _INIT(750); // default crossfade duration in ms
WLED_GLOBAL bool skipFirstLed _INIT(false); // ignore first LED in strip (useful if you need the LED as signal repeater)
WLED_GLOBAL byte briMultiplier _INIT(100); // % of brightness to set (to limit power, if you set it to 50 and set bri to 255, actual brightness will be 127)
// User Interface CONFIG
WLED_GLOBAL char serverDescription[33] _INIT("WLED"); // Name of module
WLED_GLOBAL bool syncToggleReceive _INIT(false); // UIs which only have a single button for sync should toggle send+receive if this is true, only send otherwise
// Sync CONFIG
WLED_GLOBAL bool buttonEnabled _INIT(true);
WLED_GLOBAL byte irEnabled _INIT(0); // Infrared receiver
WLED_GLOBAL uint16_t udpPort _INIT(21324); // WLED notifier default port
WLED_GLOBAL uint16_t udpRgbPort _INIT(19446); // Hyperion port
WLED_GLOBAL bool receiveNotificationBrightness _INIT(true); // apply brightness from incoming notifications
WLED_GLOBAL bool receiveNotificationColor _INIT(true); // apply color
WLED_GLOBAL bool receiveNotificationEffects _INIT(true); // apply effects setup
WLED_GLOBAL bool notifyDirect _INIT(false); // send notification if change via UI or HTTP API
WLED_GLOBAL bool notifyButton _INIT(false); // send if updated by button or infrared remote
WLED_GLOBAL bool notifyAlexa _INIT(false); // send notification if updated via Alexa
WLED_GLOBAL bool notifyMacro _INIT(false); // send notification for macro
WLED_GLOBAL bool notifyHue _INIT(true); // send notification if Hue light changes
WLED_GLOBAL bool notifyTwice _INIT(false); // notifications use UDP: enable if devices don't sync reliably
WLED_GLOBAL bool alexaEnabled _INIT(true); // enable device discovery by Amazon Echo
WLED_GLOBAL char alexaInvocationName[33] _INIT("Light"); // speech control name of device. Choose something voice-to-text can understand
WLED_GLOBAL char blynkApiKey[36] _INIT(""); // Auth token for Blynk server. If empty, no connection will be made
WLED_GLOBAL uint16_t realtimeTimeoutMs _INIT(2500); // ms timeout of realtime mode before returning to normal mode
WLED_GLOBAL int arlsOffset _INIT(0); // realtime LED offset
WLED_GLOBAL bool receiveDirect _INIT(true); // receive UDP realtime
WLED_GLOBAL bool arlsDisableGammaCorrection _INIT(true); // activate if gamma correction is handled by the source
WLED_GLOBAL bool arlsForceMaxBri _INIT(false); // enable to force max brightness if source has very dark colors that would be black
WLED_GLOBAL uint16_t e131Universe _INIT(1); // settings for E1.31 (sACN) protocol (only DMX_MODE_MULTIPLE_* can span over consequtive universes)
WLED_GLOBAL byte DMXMode _INIT(DMX_MODE_MULTIPLE_RGB); // DMX mode (s.a.)
WLED_GLOBAL uint16_t DMXAddress _INIT(1); // DMX start address of fixture, a.k.a. first Channel [for E1.31 (sACN) protocol]
WLED_GLOBAL byte DMXOldDimmer _INIT(0); // only update brightness on change
WLED_GLOBAL byte e131LastSequenceNumber[E131_MAX_UNIVERSE_COUNT]; // to detect packet loss
WLED_GLOBAL bool e131Multicast _INIT(false); // multicast or unicast
WLED_GLOBAL bool e131SkipOutOfSequence _INIT(false); // freeze instead of flickering
WLED_GLOBAL bool mqttEnabled _INIT(false);
WLED_GLOBAL char mqttDeviceTopic[33] _INIT(""); // main MQTT topic (individual per device, default is wled/mac)
WLED_GLOBAL char mqttGroupTopic[33] _INIT("wled/all"); // second MQTT topic (for example to group devices)
WLED_GLOBAL char mqttServer[33] _INIT(""); // both domains and IPs should work (no SSL)
WLED_GLOBAL char mqttUser[41] _INIT(""); // optional: username for MQTT auth
WLED_GLOBAL char mqttPass[41] _INIT(""); // optional: password for MQTT auth
WLED_GLOBAL char mqttClientID[41] _INIT(""); // override the client ID
WLED_GLOBAL uint16_t mqttPort _INIT(1883);
WLED_GLOBAL bool huePollingEnabled _INIT(false); // poll hue bridge for light state
WLED_GLOBAL uint16_t huePollIntervalMs _INIT(2500); // low values (< 1sec) may cause lag but offer quicker response
WLED_GLOBAL char hueApiKey[47] _INIT("api"); // key token will be obtained from bridge
WLED_GLOBAL byte huePollLightId _INIT(1); // ID of hue lamp to sync to. Find the ID in the hue app ("about" section)
WLED_GLOBAL IPAddress hueIP _INIT((0, 0, 0, 0)); // IP address of the bridge
WLED_GLOBAL bool hueApplyOnOff _INIT(true);
WLED_GLOBAL bool hueApplyBri _INIT(true);
WLED_GLOBAL bool hueApplyColor _INIT(true);
// Time CONFIG
WLED_GLOBAL bool ntpEnabled _INIT(false); // get internet time. Only required if you use clock overlays or time-activated macros
WLED_GLOBAL bool useAMPM _INIT(false); // 12h/24h clock format
WLED_GLOBAL byte currentTimezone _INIT(0); // Timezone ID. Refer to timezones array in wled10_ntp.ino
WLED_GLOBAL int utcOffsetSecs _INIT(0); // Seconds to offset from UTC before timzone calculation
WLED_GLOBAL byte overlayDefault _INIT(0); // 0: no overlay 1: analog clock 2: single-digit clocl 3: cronixie
WLED_GLOBAL byte overlayMin _INIT(0), overlayMax _INIT(ledCount - 1); // boundaries of overlay mode
WLED_GLOBAL byte analogClock12pixel _INIT(0); // The pixel in your strip where "midnight" would be
WLED_GLOBAL bool analogClockSecondsTrail _INIT(false); // Display seconds as trail of LEDs instead of a single pixel
WLED_GLOBAL bool analogClock5MinuteMarks _INIT(false); // Light pixels at every 5-minute position
WLED_GLOBAL char cronixieDisplay[7] _INIT("HHMMSS"); // Cronixie Display mask. See wled13_cronixie.ino
WLED_GLOBAL bool cronixieBacklight _INIT(true); // Allow digits to be back-illuminated
WLED_GLOBAL bool countdownMode _INIT(false); // Clock will count down towards date
WLED_GLOBAL byte countdownYear _INIT(20), countdownMonth _INIT(1); // Countdown target date, year is last two digits
WLED_GLOBAL byte countdownDay _INIT(1) , countdownHour _INIT(0);
WLED_GLOBAL byte countdownMin _INIT(0) , countdownSec _INIT(0);
WLED_GLOBAL byte macroBoot _INIT(0); // macro loaded after startup
WLED_GLOBAL byte macroNl _INIT(0); // after nightlight delay over
WLED_GLOBAL byte macroCountdown _INIT(0);
WLED_GLOBAL byte macroAlexaOn _INIT(0), macroAlexaOff _INIT(0);
WLED_GLOBAL byte macroButton _INIT(0), macroLongPress _INIT(0), macroDoublePress _INIT(0);
// Security CONFIG
WLED_GLOBAL bool otaLock _INIT(false); // prevents OTA firmware updates without password. ALWAYS enable if system exposed to any public networks
WLED_GLOBAL bool wifiLock _INIT(false); // prevents access to WiFi settings when OTA lock is enabled
WLED_GLOBAL bool aOtaEnabled _INIT(true); // ArduinoOTA allows easy updates directly from the IDE. Careful, it does not auto-disable when OTA lock is on
WLED_GLOBAL uint16_t userVar0 _INIT(0), userVar1 _INIT(0); //available for use in usermod
#ifdef WLED_ENABLE_DMX
// dmx CONFIG
WLED_GLOBAL byte DMXChannels _INIT(7); // number of channels per fixture
WLED_GLOBAL byte DMXFixtureMap[15] _INIT_N(({ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }));
// assigns the different channels to different functions. See wled21_dmx.ino for more information.
WLED_GLOBAL uint16_t DMXGap _INIT(10); // gap between the fixtures. makes addressing easier because you don't have to memorize odd numbers when climbing up onto a rig.
WLED_GLOBAL uint16_t DMXStart _INIT(10); // start address of the first fixture
#endif
// internal global variable declarations
// wifi
WLED_GLOBAL bool apActive _INIT(false);
WLED_GLOBAL bool forceReconnect _INIT(false);
WLED_GLOBAL uint32_t lastReconnectAttempt _INIT(0);
WLED_GLOBAL bool interfacesInited _INIT(false);
WLED_GLOBAL bool wasConnected _INIT(false);
// color
WLED_GLOBAL byte colOld[] _INIT_N(({ 0, 0, 0, 0 })); // color before transition
WLED_GLOBAL byte colT[] _INIT_N(({ 0, 0, 0, 0 })); // color that is currently displayed on the LEDs
WLED_GLOBAL byte colIT[] _INIT_N(({ 0, 0, 0, 0 })); // color that was last sent to LEDs
WLED_GLOBAL byte colSecT[] _INIT_N(({ 0, 0, 0, 0 }));
WLED_GLOBAL byte colSecOld[] _INIT_N(({ 0, 0, 0, 0 }));
WLED_GLOBAL byte colSecIT[] _INIT_N(({ 0, 0, 0, 0 }));
WLED_GLOBAL byte lastRandomIndex _INIT(0); // used to save last random color so the new one is not the same
// transitions
WLED_GLOBAL bool transitionActive _INIT(false);
WLED_GLOBAL uint16_t transitionDelayDefault _INIT(transitionDelay);
WLED_GLOBAL uint16_t transitionDelayTemp _INIT(transitionDelay);
WLED_GLOBAL unsigned long transitionStartTime;
WLED_GLOBAL float tperLast _INIT(0); // crossfade transition progress, 0.0f - 1.0f
WLED_GLOBAL bool jsonTransitionOnce _INIT(false);
// nightlight
WLED_GLOBAL bool nightlightActive _INIT(false);
WLED_GLOBAL bool nightlightActiveOld _INIT(false);
WLED_GLOBAL uint32_t nightlightDelayMs _INIT(10);
WLED_GLOBAL byte nightlightDelayMinsDefault _INIT(nightlightDelayMins);
WLED_GLOBAL unsigned long nightlightStartTime;
WLED_GLOBAL byte briNlT _INIT(0); // current nightlight brightness
WLED_GLOBAL byte colNlT[] _INIT_N(({ 0, 0, 0, 0 })); // current nightlight color
// brightness
WLED_GLOBAL unsigned long lastOnTime _INIT(0);
WLED_GLOBAL bool offMode _INIT(!turnOnAtBoot);
WLED_GLOBAL byte bri _INIT(briS);
WLED_GLOBAL byte briOld _INIT(0);
WLED_GLOBAL byte briT _INIT(0);
WLED_GLOBAL byte briIT _INIT(0);
WLED_GLOBAL byte briLast _INIT(128); // brightness before turned off. Used for toggle function
WLED_GLOBAL byte whiteLast _INIT(128); // white channel before turned off. Used for toggle function
// button
WLED_GLOBAL bool buttonPressedBefore _INIT(false);
WLED_GLOBAL bool buttonLongPressed _INIT(false);
WLED_GLOBAL unsigned long buttonPressedTime _INIT(0);
WLED_GLOBAL unsigned long buttonWaitTime _INIT(0);
// notifications
WLED_GLOBAL bool notifyDirectDefault _INIT(notifyDirect);
WLED_GLOBAL bool receiveNotifications _INIT(true);
WLED_GLOBAL unsigned long notificationSentTime _INIT(0);
WLED_GLOBAL byte notificationSentCallMode _INIT(NOTIFIER_CALL_MODE_INIT);
WLED_GLOBAL bool notificationTwoRequired _INIT(false);
// effects
WLED_GLOBAL byte effectCurrent _INIT(0);
WLED_GLOBAL byte effectSpeed _INIT(128);
WLED_GLOBAL byte effectIntensity _INIT(128);
WLED_GLOBAL byte effectPalette _INIT(0);
// network
WLED_GLOBAL bool udpConnected _INIT(false), udpRgbConnected _INIT(false);
// ui style
WLED_GLOBAL bool showWelcomePage _INIT(false);
// hue
WLED_GLOBAL byte hueError _INIT(HUE_ERROR_INACTIVE);
// WLED_GLOBAL uint16_t hueFailCount _INIT(0);
WLED_GLOBAL float hueXLast _INIT(0), hueYLast _INIT(0);
WLED_GLOBAL uint16_t hueHueLast _INIT(0), hueCtLast _INIT(0);
WLED_GLOBAL byte hueSatLast _INIT(0), hueBriLast _INIT(0);
WLED_GLOBAL unsigned long hueLastRequestSent _INIT(0);
WLED_GLOBAL bool hueAuthRequired _INIT(false);
WLED_GLOBAL bool hueReceived _INIT(false);
WLED_GLOBAL bool hueStoreAllowed _INIT(false), hueNewKey _INIT(false);
// overlays
WLED_GLOBAL byte overlayCurrent _INIT(overlayDefault);
WLED_GLOBAL byte overlaySpeed _INIT(200);
WLED_GLOBAL unsigned long overlayRefreshMs _INIT(200);
WLED_GLOBAL unsigned long overlayRefreshedTime;
// cronixie
WLED_GLOBAL byte dP[] _INIT_N(({ 0, 0, 0, 0, 0, 0 }));
WLED_GLOBAL bool cronixieInit _INIT(false);
// countdown
WLED_GLOBAL unsigned long countdownTime _INIT(1514764800L);
WLED_GLOBAL bool countdownOverTriggered _INIT(true);
// timer
WLED_GLOBAL byte lastTimerMinute _INIT(0);
WLED_GLOBAL byte timerHours[] _INIT_N(({ 0, 0, 0, 0, 0, 0, 0, 0 }));
WLED_GLOBAL byte timerMinutes[] _INIT_N(({ 0, 0, 0, 0, 0, 0, 0, 0 }));
WLED_GLOBAL byte timerMacro[] _INIT_N(({ 0, 0, 0, 0, 0, 0, 0, 0 }));
WLED_GLOBAL byte timerWeekday[] _INIT_N(({ 255, 255, 255, 255, 255, 255, 255, 255 })); // weekdays to activate on
// bit pattern of arr elem: 0b11111111: sun,sat,fri,thu,wed,tue,mon,validity
// blynk
WLED_GLOBAL bool blynkEnabled _INIT(false);
// preset cycling
WLED_GLOBAL bool presetCyclingEnabled _INIT(false);
WLED_GLOBAL byte presetCycleMin _INIT(1), presetCycleMax _INIT(5);
WLED_GLOBAL uint16_t presetCycleTime _INIT(1250);
WLED_GLOBAL unsigned long presetCycledTime _INIT(0);
WLED_GLOBAL byte presetCycCurr _INIT(presetCycleMin);
WLED_GLOBAL bool presetApplyBri _INIT(true);
WLED_GLOBAL bool saveCurrPresetCycConf _INIT(false);
// realtime
WLED_GLOBAL byte realtimeMode _INIT(REALTIME_MODE_INACTIVE);
WLED_GLOBAL IPAddress realtimeIP _INIT((0, 0, 0, 0));
WLED_GLOBAL unsigned long realtimeTimeout _INIT(0);
// mqtt
WLED_GLOBAL long lastMqttReconnectAttempt _INIT(0);
WLED_GLOBAL long lastInterfaceUpdate _INIT(0);
WLED_GLOBAL byte interfaceUpdateCallMode _INIT(NOTIFIER_CALL_MODE_INIT);
WLED_GLOBAL char mqttStatusTopic[40] _INIT(""); // this must be global because of async handlers
#if AUXPIN >= 0
// auxiliary debug pin
WLED_GLOBAL byte auxTime _INIT(0);
WLED_GLOBAL unsigned long auxStartTime _INIT(0);
WLED_GLOBAL bool auxActive _INIT(false, auxActiveBefore _INIT(false);
#endif
// alexa udp
WLED_GLOBAL String escapedMac;
#ifndef WLED_DISABLE_ALEXA
WLED_GLOBAL Espalexa espalexa;
WLED_GLOBAL EspalexaDevice* espalexaDevice;
#endif
// dns server
WLED_GLOBAL DNSServer dnsServer;
// network time
WLED_GLOBAL bool ntpConnected _INIT(false);
WLED_GLOBAL time_t local _INIT(0);
WLED_GLOBAL unsigned long ntpLastSyncTime _INIT(999000000L);
WLED_GLOBAL unsigned long ntpPacketSentTime _INIT(999000000L);
WLED_GLOBAL IPAddress ntpServerIP;
WLED_GLOBAL uint16_t ntpLocalPort _INIT(2390);
// Temp buffer
WLED_GLOBAL char* obuf;
WLED_GLOBAL uint16_t olen _INIT(0);
// presets
WLED_GLOBAL uint16_t savedPresets _INIT(0);
WLED_GLOBAL int8_t currentPreset _INIT(-1);
WLED_GLOBAL bool isPreset _INIT(false);
WLED_GLOBAL byte errorFlag _INIT(0);
WLED_GLOBAL String messageHead, messageSub;
WLED_GLOBAL byte optionType;
WLED_GLOBAL bool doReboot _INIT(false); // flag to initiate reboot from async handlers
WLED_GLOBAL bool doPublishMqtt _INIT(false);
// server library objects
WLED_GLOBAL AsyncWebServer server _INIT_N(((80)));
WLED_GLOBAL AsyncClient* hueClient _INIT(NULL);
WLED_GLOBAL AsyncMqttClient* mqtt _INIT(NULL);
// udp interface objects
WLED_GLOBAL WiFiUDP notifierUdp, rgbUdp;
WLED_GLOBAL WiFiUDP ntpUdp;
WLED_GLOBAL ESPAsyncE131 e131 _INIT_N(((handleE131Packet)));
WLED_GLOBAL bool e131NewData _INIT(false);
// led fx library object
WLED_GLOBAL WS2812FX strip _INIT(WS2812FX());
// debug macro variable definitions
#ifdef WLED_DEBUG
WLED_GLOBAL unsigned long debugTime _INIT(0);
WLED_GLOBAL int lastWifiState _INIT(3);
WLED_GLOBAL unsigned long wifiStateChangedTime _INIT(0);
WLED_GLOBAL int loops _INIT(0);
#endif
#define WLED_CONNECTED (WiFi.status() == WL_CONNECTED)
#define WLED_WIFI_CONFIGURED (strlen(clientSSID) >= 1 && strcmp(clientSSID, DEFAULT_CLIENT_SSID) != 0)
// append new c string to temp buffer efficiently
bool oappend(const char* txt);
// append new number to temp buffer efficiently
bool oappendi(int i);
class WLED {
public:
WLED();
static WLED& instance()
{
static WLED instance;
return instance;
}
// boot starts here
void setup();
void loop();
void reset();
void beginStrip();
void handleConnection();
void initAP(bool resetAP = false);
void initConnection();
void initInterfaces();
};
#endif // WLED_H

View File

@ -1,617 +1,21 @@
/* /*
Main sketch, global variable declarations * WLED Arduino IDE compatibility file.
*/ *
/* * Where has everything gone?
* @title WLED project sketch *
* @version 0.9.1 * In April 2020, the project's structure underwent a major change.
* @author Christian Schwinne * Global variables are now found in file "wled.h"
* Global function declarations are found in "fcn_declare.h"
*
* Usermod compatibility: Existing wled06_usermod.ino mods should continue to work. Delete usermod.cpp.
* New usermods should use usermod.cpp instead.
*/ */
#include "wled.h"
//ESP8266-01 (blue) got too little storage space to work with all features of WLED. To use it, you must use ESP8266 Arduino Core v2.4.2 and the setting 512K(No SPIFFS).
//ESP8266-01 (black) has 1MB flash and can thus fit the whole program. Use 1M(64K SPIFFS).
//Uncomment some of the following lines to disable features to compile for ESP8266-01 (max flash size 434kB):
//You are required to disable over-the-air updates:
//#define WLED_DISABLE_OTA //saves 14kb
//You need to choose some of these features to disable:
//#define WLED_DISABLE_ALEXA //saves 11kb
//#define WLED_DISABLE_BLYNK //saves 6kb
//#define WLED_DISABLE_CRONIXIE //saves 3kb
//#define WLED_DISABLE_HUESYNC //saves 4kb
//#define WLED_DISABLE_INFRARED //there is no pin left for this on ESP8266-01, saves 12kb
#define WLED_ENABLE_MQTT //saves 12kb
#define WLED_ENABLE_ADALIGHT //saves 500b only
//#define WLED_ENABLE_DMX //uses 3.5kb
#define WLED_DISABLE_FILESYSTEM //SPIFFS is not used by any WLED feature yet
//#define WLED_ENABLE_FS_SERVING //Enable sending html file from SPIFFS before serving progmem version
//#define WLED_ENABLE_FS_EDITOR //enable /edit page for editing SPIFFS content. Will also be disabled with OTA lock
//to toggle usb serial debug (un)comment the following line
//#define WLED_DEBUG
//library inclusions
#include <Arduino.h>
#ifdef WLED_ENABLE_DMX
#include <ESPDMX.h>
DMXESPSerial dmx;
#endif
#ifdef ESP8266
#include <ESP8266WiFi.h>
#include <ESP8266mDNS.h>
#include <ESPAsyncTCP.h>
extern "C" {
#include <user_interface.h>
}
#else //ESP32
#include <WiFi.h>
#include "esp_wifi.h"
#include <ESPmDNS.h>
#include <AsyncTCP.h>
#include "SPIFFS.h"
#endif
#include <ESPAsyncWebServer.h>
#include <EEPROM.h>
#include <WiFiUdp.h>
#include <DNSServer.h>
#ifndef WLED_DISABLE_OTA
#include <ArduinoOTA.h>
#endif
#include <SPIFFSEditor.h>
#include "src/dependencies/time/TimeLib.h"
#include "src/dependencies/timezone/Timezone.h"
#ifndef WLED_DISABLE_ALEXA
#define ESPALEXA_ASYNC
#define ESPALEXA_NO_SUBPAGE
#define ESPALEXA_MAXDEVICES 1
// #define ESPALEXA_DEBUG
#include "src/dependencies/espalexa/Espalexa.h"
#endif
#ifndef WLED_DISABLE_BLYNK
#include "src/dependencies/blynk/BlynkSimpleEsp.h"
#endif
#include "src/dependencies/e131/ESPAsyncE131.h"
#include "src/dependencies/async-mqtt-client/AsyncMqttClient.h"
#include "src/dependencies/json/AsyncJson-v6.h"
#include "src/dependencies/json/ArduinoJson-v6.h"
#include "html_ui.h"
#include "html_settings.h"
#include "html_other.h"
#include "FX.h"
#include "ir_codes.h"
#include "const.h"
#ifndef CLIENT_SSID
#define CLIENT_SSID DEFAULT_CLIENT_SSID
#endif
#ifndef CLIENT_PASS
#define CLIENT_PASS ""
#endif
#if IR_PIN < 0
#ifndef WLED_DISABLE_INFRARED
#define WLED_DISABLE_INFRARED
#endif
#endif
#ifndef WLED_DISABLE_INFRARED
#include <IRremoteESP8266.h>
#include <IRrecv.h>
#include <IRutils.h>
#endif
// remove flicker because PWM signal of RGB channels can become out of phase
#if defined(WLED_USE_ANALOG_LEDS) && defined(ESP8266)
#include "src/dependencies/arduino/core_esp8266_waveform.h"
#endif
// enable additional debug output
#ifdef WLED_DEBUG
#ifndef ESP8266
#include <rom/rtc.h>
#endif
#endif
//version code in format yymmddb (b = daily build)
#define VERSION 2003262
char versionString[] = "0.9.1";
//AP and OTA default passwords (for maximum change them!)
char apPass[65] = DEFAULT_AP_PASS;
char otaPass[33] = DEFAULT_OTA_PASS;
//Hardware CONFIG (only changeble HERE, not at runtime)
//LED strip pin, button pin and IR pin changeable in NpbWrapper.h!
byte auxDefaultState = 0; //0: input 1: high 2: low
byte auxTriggeredState = 0; //0: input 1: high 2: low
char ntpServerName[33] = "0.wled.pool.ntp.org";//NTP server to use
//WiFi CONFIG (all these can be changed via web UI, no need to set them here)
char clientSSID[33] = CLIENT_SSID;
char clientPass[65] = CLIENT_PASS;
char cmDNS[33] = "x"; //mDNS address (placeholder, will be replaced by wledXXXXXXXXXXXX.local)
char apSSID[33] = ""; //AP off by default (unless setup)
byte apChannel = 1; //2.4GHz WiFi AP channel (1-13)
byte apHide = 0; //hidden AP SSID
byte apBehavior = AP_BEHAVIOR_BOOT_NO_CONN; //access point opens when no connection after boot by default
IPAddress staticIP(0, 0, 0, 0); //static IP of ESP
IPAddress staticGateway(0, 0, 0, 0); //gateway (router) IP
IPAddress staticSubnet(255, 255, 255, 0); //most common subnet in home networks
bool noWifiSleep = false; //disabling modem sleep modes will increase heat output and power usage, but may help with connection issues
//LED CONFIG
uint16_t ledCount = 30; //overcurrent prevented by ABL
bool useRGBW = false; //SK6812 strips can contain an extra White channel
#define ABL_MILLIAMPS_DEFAULT 850; //auto lower brightness to stay close to milliampere limit
bool turnOnAtBoot = true; //turn on LEDs at power-up
byte bootPreset = 0; //save preset to load after power-up
byte col[] {255, 160, 0, 0}; //current RGB(W) primary color. col[] should be updated if you want to change the color.
byte colSec[] {0, 0, 0, 0}; //current RGB(W) secondary color
byte briS = 128; //default brightness
byte nightlightTargetBri = 0; //brightness after nightlight is over
byte nightlightDelayMins = 60;
bool nightlightFade = true; //if enabled, light will gradually dim towards the target bri. Otherwise, it will instantly set after delay over
bool nightlightColorFade = false; //if enabled, light will gradually fade color from primary to secondary color.
bool fadeTransition = true; //enable crossfading color transition
uint16_t transitionDelay = 750; //default crossfade duration in ms
bool skipFirstLed = false; //ignore first LED in strip (useful if you need the LED as signal repeater)
byte briMultiplier = 100; //% of brightness to set (to limit power, if you set it to 50 and set bri to 255, actual brightness will be 127)
//User Interface CONFIG
char serverDescription[33] = "WLED"; //Name of module
bool syncToggleReceive = false; //UIs which only have a single button for sync should toggle send+receive if this is true, only send otherwise
//Sync CONFIG
bool buttonEnabled = true;
byte irEnabled = 0; //Infrared receiver
uint16_t udpPort = 21324; //WLED notifier default port
uint16_t udpRgbPort = 19446; //Hyperion port
bool receiveNotificationBrightness = true; //apply brightness from incoming notifications
bool receiveNotificationColor = true; //apply color
bool receiveNotificationEffects = true; //apply effects setup
bool notifyDirect = false; //send notification if change via UI or HTTP API
bool notifyButton = false; //send if updated by button or infrared remote
bool notifyAlexa = false; //send notification if updated via Alexa
bool notifyMacro = false; //send notification for macro
bool notifyHue = true; //send notification if Hue light changes
bool notifyTwice = false; //notifications use UDP: enable if devices don't sync reliably
bool alexaEnabled = true; //enable device discovery by Amazon Echo
char alexaInvocationName[33] = "Light"; //speech control name of device. Choose something voice-to-text can understand
char blynkApiKey[36] = ""; //Auth token for Blynk server. If empty, no connection will be made
uint16_t realtimeTimeoutMs = 2500; //ms timeout of realtime mode before returning to normal mode
int arlsOffset = 0; //realtime LED offset
bool receiveDirect = true; //receive UDP realtime
bool arlsDisableGammaCorrection = true; //activate if gamma correction is handled by the source
bool arlsForceMaxBri = false; //enable to force max brightness if source has very dark colors that would be black
#define E131_MAX_UNIVERSE_COUNT 9
uint16_t e131Universe = 1; //settings for E1.31 (sACN) protocol (only DMX_MODE_MULTIPLE_* can span over consequtive universes)
uint8_t DMXMode = DMX_MODE_MULTIPLE_RGB; //DMX mode (s.a.)
uint16_t DMXAddress = 1; //DMX start address of fixture, a.k.a. first Channel [for E1.31 (sACN) protocol]
uint8_t DMXOldDimmer = 0; //only update brightness on change
uint8_t e131LastSequenceNumber[E131_MAX_UNIVERSE_COUNT]; //to detect packet loss
bool e131Multicast = false; //multicast or unicast
bool e131SkipOutOfSequence = false; //freeze instead of flickering
bool mqttEnabled = false;
char mqttDeviceTopic[33] = ""; //main MQTT topic (individual per device, default is wled/mac)
char mqttGroupTopic[33] = "wled/all"; //second MQTT topic (for example to group devices)
char mqttServer[33] = ""; //both domains and IPs should work (no SSL)
char mqttUser[41] = ""; //optional: username for MQTT auth
char mqttPass[41] = ""; //optional: password for MQTT auth
char mqttClientID[41] = ""; //override the client ID
uint16_t mqttPort = 1883;
bool huePollingEnabled = false; //poll hue bridge for light state
uint16_t huePollIntervalMs = 2500; //low values (< 1sec) may cause lag but offer quicker response
char hueApiKey[47] = "api"; //key token will be obtained from bridge
byte huePollLightId = 1; //ID of hue lamp to sync to. Find the ID in the hue app ("about" section)
IPAddress hueIP = (0, 0, 0, 0); //IP address of the bridge
bool hueApplyOnOff = true;
bool hueApplyBri = true;
bool hueApplyColor = true;
//Time CONFIG
bool ntpEnabled = false; //get internet time. Only required if you use clock overlays or time-activated macros
bool useAMPM = false; //12h/24h clock format
byte currentTimezone = 0; //Timezone ID. Refer to timezones array in wled10_ntp.ino
int utcOffsetSecs = 0; //Seconds to offset from UTC before timzone calculation
byte overlayDefault = 0; //0: no overlay 1: analog clock 2: single-digit clocl 3: cronixie
byte overlayMin = 0, overlayMax = ledCount - 1; //boundaries of overlay mode
byte analogClock12pixel = 0; //The pixel in your strip where "midnight" would be
bool analogClockSecondsTrail = false; //Display seconds as trail of LEDs instead of a single pixel
bool analogClock5MinuteMarks = false; //Light pixels at every 5-minute position
char cronixieDisplay[7] = "HHMMSS"; //Cronixie Display mask. See wled13_cronixie.ino
bool cronixieBacklight = true; //Allow digits to be back-illuminated
bool countdownMode = false; //Clock will count down towards date
byte countdownYear = 20, countdownMonth = 1; //Countdown target date, year is last two digits
byte countdownDay = 1, countdownHour = 0;
byte countdownMin = 0, countdownSec = 0;
byte macroBoot = 0; //macro loaded after startup
byte macroNl = 0; //after nightlight delay over
byte macroCountdown = 0;
byte macroAlexaOn = 0, macroAlexaOff = 0;
byte macroButton = 0, macroLongPress = 0, macroDoublePress = 0;
//Security CONFIG
bool otaLock = false; //prevents OTA firmware updates without password. ALWAYS enable if system exposed to any public networks
bool wifiLock = false; //prevents access to WiFi settings when OTA lock is enabled
bool aOtaEnabled = true; //ArduinoOTA allows easy updates directly from the IDE. Careful, it does not auto-disable when OTA lock is on
uint16_t userVar0 = 0, userVar1 = 0;
#ifdef WLED_ENABLE_DMX
//dmx CONFIG
byte DMXChannels = 7; // number of channels per fixture
byte DMXFixtureMap[15] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
// assigns the different channels to different functions. See wled21_dmx.ino for more information.
uint16_t DMXGap = 10; // gap between the fixtures. makes addressing easier because you don't have to memorize odd numbers when climbing up onto a rig.
uint16_t DMXStart = 10; // start address of the first fixture
#endif
//internal global variable declarations
//wifi
bool apActive = false;
bool forceReconnect = false;
uint32_t lastReconnectAttempt = 0;
bool interfacesInited = false;
bool wasConnected = false;
//color
byte colOld[] {0, 0, 0, 0}; //color before transition
byte colT[] {0, 0, 0, 0}; //color that is currently displayed on the LEDs
byte colIT[] {0, 0, 0, 0}; //color that was last sent to LEDs
byte colSecT[] {0, 0, 0, 0};
byte colSecOld[] {0, 0, 0, 0};
byte colSecIT[] {0, 0, 0, 0};
byte lastRandomIndex = 0; //used to save last random color so the new one is not the same
//transitions
bool transitionActive = false;
uint16_t transitionDelayDefault = transitionDelay;
uint16_t transitionDelayTemp = transitionDelay;
unsigned long transitionStartTime;
float tperLast = 0; //crossfade transition progress, 0.0f - 1.0f
bool jsonTransitionOnce = false;
//nightlight
bool nightlightActive = false;
bool nightlightActiveOld = false;
uint32_t nightlightDelayMs = 10;
uint8_t nightlightDelayMinsDefault = nightlightDelayMins;
unsigned long nightlightStartTime;
byte briNlT = 0; //current nightlight brightness
byte colNlT[] {0, 0, 0, 0}; //current nightlight color
//brightness
unsigned long lastOnTime = 0;
bool offMode = !turnOnAtBoot;
byte bri = briS;
byte briOld = 0;
byte briT = 0;
byte briIT = 0;
byte briLast = 128; //brightness before turned off. Used for toggle function
byte whiteLast = 128; //white channel before turned off. Used for toggle function
//button
bool buttonPressedBefore = false;
bool buttonLongPressed = false;
unsigned long buttonPressedTime = 0;
unsigned long buttonWaitTime = 0;
//notifications
bool notifyDirectDefault = notifyDirect;
bool receiveNotifications = true;
unsigned long notificationSentTime = 0;
byte notificationSentCallMode = NOTIFIER_CALL_MODE_INIT;
bool notificationTwoRequired = false;
//effects
byte effectCurrent = 0;
byte effectSpeed = 128;
byte effectIntensity = 128;
byte effectPalette = 0;
//network
bool udpConnected = false, udpRgbConnected = false;
//ui style
bool showWelcomePage = false;
//hue
byte hueError = HUE_ERROR_INACTIVE;
//uint16_t hueFailCount = 0;
float hueXLast = 0, hueYLast = 0;
uint16_t hueHueLast = 0, hueCtLast = 0;
byte hueSatLast = 0, hueBriLast = 0;
unsigned long hueLastRequestSent = 0;
bool hueAuthRequired = false;
bool hueReceived = false;
bool hueStoreAllowed = false, hueNewKey = false;
//overlays
byte overlayCurrent = overlayDefault;
byte overlaySpeed = 200;
unsigned long overlayRefreshMs = 200;
unsigned long overlayRefreshedTime;
//cronixie
byte dP[] {0, 0, 0, 0, 0, 0};
bool cronixieInit = false;
//countdown
unsigned long countdownTime = 1514764800L;
bool countdownOverTriggered = true;
//timer
byte lastTimerMinute = 0;
byte timerHours[] = {0, 0, 0, 0, 0, 0, 0, 0};
byte timerMinutes[] = {0, 0, 0, 0, 0, 0, 0, 0};
byte timerMacro[] = {0, 0, 0, 0, 0, 0, 0, 0};
byte timerWeekday[] = {255, 255, 255, 255, 255, 255, 255, 255}; //weekdays to activate on
//bit pattern of arr elem: 0b11111111: sun,sat,fri,thu,wed,tue,mon,validity
//blynk
bool blynkEnabled = false;
//preset cycling
bool presetCyclingEnabled = false;
byte presetCycleMin = 1, presetCycleMax = 5;
uint16_t presetCycleTime = 1250;
unsigned long presetCycledTime = 0; byte presetCycCurr = presetCycleMin;
bool presetApplyBri = true;
bool saveCurrPresetCycConf = false;
//realtime
byte realtimeMode = REALTIME_MODE_INACTIVE;
IPAddress realtimeIP = (0,0,0,0);
unsigned long realtimeTimeout = 0;
//mqtt
long lastMqttReconnectAttempt = 0;
long lastInterfaceUpdate = 0;
byte interfaceUpdateCallMode = NOTIFIER_CALL_MODE_INIT;
char mqttStatusTopic[40] = ""; //this must be global because of async handlers
#if AUXPIN >= 0
//auxiliary debug pin
byte auxTime = 0;
unsigned long auxStartTime = 0;
bool auxActive = false, auxActiveBefore = false;
#endif
//alexa udp
String escapedMac;
#ifndef WLED_DISABLE_ALEXA
Espalexa espalexa;
EspalexaDevice* espalexaDevice;
#endif
//dns server
DNSServer dnsServer;
//network time
bool ntpConnected = false;
time_t local = 0;
unsigned long ntpLastSyncTime = 999000000L;
unsigned long ntpPacketSentTime = 999000000L;
IPAddress ntpServerIP;
uint16_t ntpLocalPort = 2390;
#define NTP_PACKET_SIZE 48
//maximum number of LEDs - MAX_LEDS is coming from the JSON response getting too big, MAX_LEDS_DMA will become a timing issue
#define MAX_LEDS 1500
#define MAX_LEDS_DMA 500
//string temp buffer (now stored in stack locally)
#define OMAX 2048
char* obuf;
uint16_t olen = 0;
//presets
uint16_t savedPresets = 0;
int8_t currentPreset = -1;
bool isPreset = false;
byte errorFlag = 0;
String messageHead, messageSub;
byte optionType;
bool doReboot = false; //flag to initiate reboot from async handlers
bool doPublishMqtt = false;
//server library objects
AsyncWebServer server(80);
AsyncClient* hueClient = NULL;
AsyncMqttClient* mqtt = NULL;
//function prototypes
void colorFromUint32(uint32_t, bool = false);
void serveMessage(AsyncWebServerRequest*, uint16_t, String, String, byte);
void handleE131Packet(e131_packet_t*, IPAddress);
void arlsLock(uint32_t,byte);
void handleOverlayDraw();
//udp interface objects
WiFiUDP notifierUdp, rgbUdp;
WiFiUDP ntpUdp;
ESPAsyncE131 e131(handleE131Packet);
bool e131NewData = false;
//led fx library object
WS2812FX strip = WS2812FX();
#define WLED_CONNECTED (WiFi.status() == WL_CONNECTED)
#define WLED_WIFI_CONFIGURED (strlen(clientSSID) >= 1 && strcmp(clientSSID,DEFAULT_CLIENT_SSID) != 0)
//debug macros
#ifdef WLED_DEBUG
#define DEBUG_PRINT(x) Serial.print (x)
#define DEBUG_PRINTLN(x) Serial.println (x)
#define DEBUG_PRINTF(x) Serial.printf (x)
unsigned long debugTime = 0;
int lastWifiState = 3;
unsigned long wifiStateChangedTime = 0;
int loops = 0;
#else
#define DEBUG_PRINT(x)
#define DEBUG_PRINTLN(x)
#define DEBUG_PRINTF(x)
#endif
//filesystem
#ifndef WLED_DISABLE_FILESYSTEM
#include <FS.h>
#ifdef ARDUINO_ARCH_ESP32
#include "SPIFFS.h"
#endif
#include "SPIFFSEditor.h"
#endif
//turns all LEDs off and restarts ESP
void reset()
{
briT = 0;
long dly = millis();
while (millis() - dly < 250)
{
yield(); //enough time to send response to client
}
setAllLeds();
DEBUG_PRINTLN("MODULE RESET");
ESP.restart();
}
//append new c string to temp buffer efficiently
bool oappend(const char* txt)
{
uint16_t len = strlen(txt);
if (olen + len >= OMAX) return false; //buffer full
strcpy(obuf + olen, txt);
olen += len;
return true;
}
//append new number to temp buffer efficiently
bool oappendi(int i)
{
char s[11];
sprintf(s, "%ld", i);
return oappend(s);
}
//boot starts here
void setup() { void setup() {
wledInit(); WLED::instance().setup();
} }
//main program loop
void loop() { void loop() {
handleIR(); //2nd call to function needed for ESP32 to return valid results -- should be good for ESP8266, too WLED::instance().loop();
handleConnection();
handleSerial();
handleNotifications();
handleTransitions();
#ifdef WLED_ENABLE_DMX
handleDMX();
#endif
userLoop();
yield();
handleIO();
handleIR();
handleNetworkTime();
handleAlexa();
handleOverlays();
yield();
#ifdef WLED_USE_ANALOG_LEDS
strip.setRgbwPwm();
#endif
if (doReboot) reset();
if (!realtimeMode) //block stuff if WARLS/Adalight is enabled
{
if (apActive) dnsServer.processNextRequest();
#ifndef WLED_DISABLE_OTA
if (WLED_CONNECTED && aOtaEnabled) ArduinoOTA.handle();
#endif
handleNightlight();
yield();
handleHue();
handleBlynk();
yield();
if (!offMode) strip.service();
}
yield();
#ifdef ESP8266
MDNS.update();
#endif
if (millis() - lastMqttReconnectAttempt > 30000) initMqtt();
//DEBUG serial logging
#ifdef WLED_DEBUG
if (millis() - debugTime > 9999)
{
DEBUG_PRINTLN("---DEBUG INFO---");
DEBUG_PRINT("Runtime: "); DEBUG_PRINTLN(millis());
DEBUG_PRINT("Unix time: "); DEBUG_PRINTLN(now());
DEBUG_PRINT("Free heap: "); DEBUG_PRINTLN(ESP.getFreeHeap());
DEBUG_PRINT("Wifi state: "); DEBUG_PRINTLN(WiFi.status());
if (WiFi.status() != lastWifiState)
{
wifiStateChangedTime = millis();
}
lastWifiState = WiFi.status();
DEBUG_PRINT("State time: "); DEBUG_PRINTLN(wifiStateChangedTime);
DEBUG_PRINT("NTP last sync: "); DEBUG_PRINTLN(ntpLastSyncTime);
DEBUG_PRINT("Client IP: "); DEBUG_PRINTLN(WiFi.localIP());
DEBUG_PRINT("Loops/sec: "); DEBUG_PRINTLN(loops / 10);
loops = 0;
debugTime = millis();
}
loops++;
#endif
} }

View File

@ -104,231 +104,103 @@
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@ -1,339 +0,0 @@
/*
* Setup code
*/
void wledInit()
{
EEPROM.begin(EEPSIZE);
ledCount = EEPROM.read(229) + ((EEPROM.read(398) << 8) & 0xFF00);
if (ledCount > MAX_LEDS || ledCount == 0) ledCount = 30;
#ifdef ESP8266
#if LEDPIN == 3
if (ledCount > MAX_LEDS_DMA) ledCount = MAX_LEDS_DMA; //DMA method uses too much ram
#endif
#endif
Serial.begin(115200);
Serial.setTimeout(50);
DEBUG_PRINTLN();
DEBUG_PRINT("---WLED "); DEBUG_PRINT(versionString); DEBUG_PRINT(" "); DEBUG_PRINT(VERSION); DEBUG_PRINTLN(" INIT---");
#ifdef ARDUINO_ARCH_ESP32
DEBUG_PRINT("esp32 "); DEBUG_PRINTLN(ESP.getSdkVersion());
#else
DEBUG_PRINT("esp8266 "); DEBUG_PRINTLN(ESP.getCoreVersion());
#endif
int heapPreAlloc = ESP.getFreeHeap();
DEBUG_PRINT("heap ");
DEBUG_PRINTLN(ESP.getFreeHeap());
strip.init(EEPROM.read(372),ledCount,EEPROM.read(2204)); //init LEDs quickly
strip.setBrightness(0);
DEBUG_PRINT("LEDs inited. heap usage ~");
DEBUG_PRINTLN(heapPreAlloc - ESP.getFreeHeap());
#ifndef WLED_DISABLE_FILESYSTEM
#ifdef ARDUINO_ARCH_ESP32
SPIFFS.begin(true);
#endif
SPIFFS.begin();
#endif
DEBUG_PRINTLN("Load EEPROM");
loadSettingsFromEEPROM(true);
beginStrip();
userSetup();
if (strcmp(clientSSID,DEFAULT_CLIENT_SSID) == 0) showWelcomePage = true;
WiFi.persistent(false);
if (macroBoot>0) applyMacro(macroBoot);
Serial.println("Ada");
//generate module IDs
escapedMac = WiFi.macAddress();
escapedMac.replace(":", "");
escapedMac.toLowerCase();
if (strcmp(cmDNS,"x") == 0) //fill in unique mdns default
{
strcpy(cmDNS, "wled-");
sprintf(cmDNS+5, "%*s", 6, escapedMac.c_str()+6);
}
if (mqttDeviceTopic[0] == 0)
{
strcpy(mqttDeviceTopic, "wled/");
sprintf(mqttDeviceTopic+5, "%*s", 6, escapedMac.c_str()+6);
}
if (mqttClientID[0] == 0)
{
strcpy(mqttClientID, "WLED-");
sprintf(mqttClientID+5, "%*s", 6, escapedMac.c_str()+6);
}
strip.service();
#ifndef WLED_DISABLE_OTA
if (aOtaEnabled)
{
ArduinoOTA.onStart([]() {
#ifdef ESP8266
wifi_set_sleep_type(NONE_SLEEP_T);
#endif
DEBUG_PRINTLN("Start ArduinoOTA");
});
if (strlen(cmDNS) > 0) ArduinoOTA.setHostname(cmDNS);
}
#endif
#ifdef WLED_ENABLE_DMX
dmx.init(512); // initialize with bus length
#endif
//HTTP server page init
initServer();
}
void beginStrip()
{
// Initialize NeoPixel Strip and button
strip.setShowCallback(handleOverlayDraw);
#ifdef BTNPIN
pinMode(BTNPIN, INPUT_PULLUP);
#endif
if (bootPreset > 0) applyPreset(bootPreset, turnOnAtBoot);
colorUpdated(NOTIFIER_CALL_MODE_INIT);
//init relay pin
#if RLYPIN >= 0
pinMode(RLYPIN, OUTPUT);
#if RLYMDE
digitalWrite(RLYPIN, bri);
#else
digitalWrite(RLYPIN, !bri);
#endif
#endif
//disable button if it is "pressed" unintentionally
#ifdef BTNPIN
if(digitalRead(BTNPIN) == LOW) buttonEnabled = false;
#else
buttonEnabled = false;
#endif
}
void initAP(bool resetAP=false){
if (apBehavior == AP_BEHAVIOR_BUTTON_ONLY && !resetAP) return;
if (!apSSID[0] || resetAP) strcpy(apSSID, "WLED-AP");
if (resetAP) strcpy(apPass,DEFAULT_AP_PASS);
DEBUG_PRINT("Opening access point ");
DEBUG_PRINTLN(apSSID);
WiFi.softAPConfig(IPAddress(4, 3, 2, 1), IPAddress(4, 3, 2, 1), IPAddress(255,255,255,0));
WiFi.softAP(apSSID, apPass, apChannel, apHide);
if (!apActive) //start captive portal if AP active
{
DEBUG_PRINTLN("Init AP interfaces");
server.begin();
if (udpPort > 0 && udpPort != ntpLocalPort)
{
udpConnected = notifierUdp.begin(udpPort);
}
if (udpRgbPort > 0 && udpRgbPort != ntpLocalPort && udpRgbPort != udpPort)
{
udpRgbConnected = rgbUdp.begin(udpRgbPort);
}
dnsServer.setErrorReplyCode(DNSReplyCode::NoError);
dnsServer.start(53, "*", WiFi.softAPIP());
}
apActive = true;
}
void initConnection()
{
WiFi.disconnect(); //close old connections
#ifdef ESP8266
WiFi.setPhyMode(WIFI_PHY_MODE_11N);
#endif
if (staticIP[0] != 0 && staticGateway[0] != 0)
{
WiFi.config(staticIP, staticGateway, staticSubnet, IPAddress(8,8,8,8));
} else
{
WiFi.config(0U, 0U, 0U);
}
lastReconnectAttempt = millis();
if (!WLED_WIFI_CONFIGURED)
{
DEBUG_PRINT("No connection configured. ");
if (!apActive) initAP(); //instantly go to ap mode
return;
} else if (!apActive) {
if (apBehavior == AP_BEHAVIOR_ALWAYS)
{
initAP();
} else
{
DEBUG_PRINTLN("Access point disabled.");
WiFi.softAPdisconnect(true);
}
}
showWelcomePage = false;
DEBUG_PRINT("Connecting to ");
DEBUG_PRINT(clientSSID);
DEBUG_PRINTLN("...");
#ifdef ESP8266
WiFi.hostname(serverDescription);
#endif
WiFi.begin(clientSSID, clientPass);
#ifdef ARDUINO_ARCH_ESP32
WiFi.setSleep(!noWifiSleep);
WiFi.setHostname(serverDescription);
#else
wifi_set_sleep_type((noWifiSleep) ? NONE_SLEEP_T : MODEM_SLEEP_T);
#endif
}
void initInterfaces() {
DEBUG_PRINTLN("Init STA interfaces");
if (hueIP[0] == 0)
{
hueIP[0] = WiFi.localIP()[0];
hueIP[1] = WiFi.localIP()[1];
hueIP[2] = WiFi.localIP()[2];
}
//init Alexa hue emulation
if (alexaEnabled) alexaInit();
#ifndef WLED_DISABLE_OTA
if (aOtaEnabled) ArduinoOTA.begin();
#endif
strip.service();
// Set up mDNS responder:
if (strlen(cmDNS) > 0)
{
if (!aOtaEnabled) MDNS.begin(cmDNS);
DEBUG_PRINTLN("mDNS started");
MDNS.addService("http", "tcp", 80);
MDNS.addService("wled", "tcp", 80);
MDNS.addServiceTxt("wled", "tcp", "mac", escapedMac.c_str());
}
server.begin();
if (udpPort > 0 && udpPort != ntpLocalPort)
{
udpConnected = notifierUdp.begin(udpPort);
if (udpConnected && udpRgbPort != udpPort) udpRgbConnected = rgbUdp.begin(udpRgbPort);
}
if (ntpEnabled) ntpConnected = ntpUdp.begin(ntpLocalPort);
initBlynk(blynkApiKey);
e131.begin((e131Multicast) ? E131_MULTICAST : E131_UNICAST , e131Universe, E131_MAX_UNIVERSE_COUNT);
reconnectHue();
initMqtt();
interfacesInited = true;
wasConnected = true;
}
byte stacO = 0;
uint32_t lastHeap;
unsigned long heapTime = 0;
void handleConnection() {
if (millis() < 2000 && (!WLED_WIFI_CONFIGURED || apBehavior == AP_BEHAVIOR_ALWAYS)) return;
if (lastReconnectAttempt == 0) initConnection();
//reconnect WiFi to clear stale allocations if heap gets too low
if (millis() - heapTime > 5000)
{
uint32_t heap = ESP.getFreeHeap();
if (heap < 9000 && lastHeap < 9000) {
DEBUG_PRINT("Heap too low! ");
DEBUG_PRINTLN(heap);
forceReconnect = true;
}
lastHeap = heap;
heapTime = millis();
}
byte stac = 0;
if (apActive) {
#ifdef ESP8266
stac = wifi_softap_get_station_num();
#else
wifi_sta_list_t stationList;
esp_wifi_ap_get_sta_list(&stationList);
stac = stationList.num;
#endif
if (stac != stacO)
{
stacO = stac;
DEBUG_PRINT("Connected AP clients: ");
DEBUG_PRINTLN(stac);
if (!WLED_CONNECTED && WLED_WIFI_CONFIGURED) { //trying to connect, but not connected
if (stac) WiFi.disconnect(); //disable search so that AP can work
else initConnection(); //restart search
}
}
}
if (forceReconnect) {
DEBUG_PRINTLN("Forcing reconnect.");
initConnection();
interfacesInited = false;
forceReconnect = false;
wasConnected = false;
return;
}
if (!WLED_CONNECTED) {
if (interfacesInited) {
DEBUG_PRINTLN("Disconnected!");
interfacesInited = false;
initConnection();
}
if (millis() - lastReconnectAttempt > ((stac) ? 300000 : 20000) && WLED_WIFI_CONFIGURED) initConnection();
if (!apActive && millis() - lastReconnectAttempt > 12000 && (!wasConnected || apBehavior == AP_BEHAVIOR_NO_CONN)) initAP();
} else if (!interfacesInited) { //newly connected
DEBUG_PRINTLN("");
DEBUG_PRINT("Connected! IP address: ");
DEBUG_PRINTLN(WiFi.localIP());
initInterfaces();
userConnected();
//shut down AP
if (apBehavior != AP_BEHAVIOR_ALWAYS && apActive)
{
dnsServer.stop();
WiFi.softAPdisconnect(true);
apActive = false;
DEBUG_PRINTLN("Access point disabled.");
}
}
}
//by https://github.com/tzapu/WiFiManager/blob/master/WiFiManager.cpp
int getSignalQuality(int rssi)
{
int quality = 0;
if (rssi <= -100) {
quality = 0;
} else if (rssi >= -50) {
quality = 100;
} else {
quality = 2 * (rssi + 100);
}
return quality;
}

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@ -1,128 +0,0 @@
/*
* Used to draw clock overlays over the strip
*/
void initCronixie()
{
if (overlayCurrent == 3 && !cronixieInit)
{
setCronixie();
strip.getSegment(0).grouping = 10; //10 LEDs per digit
cronixieInit = true;
} else if (cronixieInit && overlayCurrent != 3)
{
strip.getSegment(0).grouping = 1;
cronixieInit = false;
}
}
void handleOverlays()
{
if (millis() - overlayRefreshedTime > overlayRefreshMs)
{
initCronixie();
updateLocalTime();
checkTimers();
checkCountdown();
if (overlayCurrent == 3) _overlayCronixie();//Diamex cronixie clock kit
overlayRefreshedTime = millis();
}
}
void _overlayAnalogClock()
{
int overlaySize = overlayMax - overlayMin +1;
if (countdownMode)
{
_overlayAnalogCountdown(); return;
}
double hourP = ((double)(hour(local)%12))/12;
double minuteP = ((double)minute(local))/60;
hourP = hourP + minuteP/12;
double secondP = ((double)second(local))/60;
int hourPixel = floor(analogClock12pixel + overlaySize*hourP);
if (hourPixel > overlayMax) hourPixel = overlayMin -1 + hourPixel - overlayMax;
int minutePixel = floor(analogClock12pixel + overlaySize*minuteP);
if (minutePixel > overlayMax) minutePixel = overlayMin -1 + minutePixel - overlayMax;
int secondPixel = floor(analogClock12pixel + overlaySize*secondP);
if (secondPixel > overlayMax) secondPixel = overlayMin -1 + secondPixel - overlayMax;
if (analogClockSecondsTrail)
{
if (secondPixel < analogClock12pixel)
{
strip.setRange(analogClock12pixel, overlayMax, 0xFF0000);
strip.setRange(overlayMin, secondPixel, 0xFF0000);
} else
{
strip.setRange(analogClock12pixel, secondPixel, 0xFF0000);
}
}
if (analogClock5MinuteMarks)
{
int pix;
for (int i = 0; i <= 12; i++)
{
pix = analogClock12pixel + round((overlaySize / 12.0) *i);
if (pix > overlayMax) pix -= overlaySize;
strip.setPixelColor(pix, 0x00FFAA);
}
}
if (!analogClockSecondsTrail) strip.setPixelColor(secondPixel, 0xFF0000);
strip.setPixelColor(minutePixel, 0x00FF00);
strip.setPixelColor(hourPixel, 0x0000FF);
overlayRefreshMs = 998;
}
void _overlayAnalogCountdown()
{
if (now() < countdownTime)
{
long diff = countdownTime - now();
double pval = 60;
if (diff > 31557600L) //display in years if more than 365 days
{
pval = 315576000L; //10 years
} else if (diff > 2592000L) //display in months if more than a month
{
pval = 31557600L; //1 year
} else if (diff > 604800) //display in weeks if more than a week
{
pval = 2592000L; //1 month
} else if (diff > 86400) //display in days if more than 24 hours
{
pval = 604800; //1 week
} else if (diff > 3600) //display in hours if more than 60 minutes
{
pval = 86400; //1 day
} else if (diff > 60) //display in minutes if more than 60 seconds
{
pval = 3600; //1 hour
}
int overlaySize = overlayMax - overlayMin +1;
double perc = (pval-(double)diff)/pval;
if (perc > 1.0) perc = 1.0;
byte pixelCnt = perc*overlaySize;
if (analogClock12pixel + pixelCnt > overlayMax)
{
strip.setRange(analogClock12pixel, overlayMax, ((uint32_t)colSec[3] << 24)| ((uint32_t)colSec[0] << 16) | ((uint32_t)colSec[1] << 8) | colSec[2]);
strip.setRange(overlayMin, overlayMin +pixelCnt -(1+ overlayMax -analogClock12pixel), ((uint32_t)colSec[3] << 24)| ((uint32_t)colSec[0] << 16) | ((uint32_t)colSec[1] << 8) | colSec[2]);
} else
{
strip.setRange(analogClock12pixel, analogClock12pixel + pixelCnt, ((uint32_t)colSec[3] << 24)| ((uint32_t)colSec[0] << 16) | ((uint32_t)colSec[1] << 8) | colSec[2]);
}
}
overlayRefreshMs = 998;
}
void handleOverlayDraw() {
if (!overlayCurrent) return;
switch (overlayCurrent)
{
case 1: _overlayAnalogClock(); break;
case 3: _drawOverlayCronixie(); break;
}
}

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@ -1,55 +0,0 @@
/*
* Support for DMX via MAX485.
* Needs the espdmx library. You might have to change the output pin within the library. Sketchy, i know.
* https://github.com/Rickgg/ESP-Dmx
*/
#ifdef WLED_ENABLE_DMX
void handleDMX() {
// TODO: calculate brightness manually if no shutter channel is set
uint8_t brightness = strip.getBrightness();
for (int i = 0; i < ledCount; i++) { // uses the amount of LEDs as fixture count
uint32_t in = strip.getPixelColor(i); // time to get the colors for the individual fixtures as suggested by AirCookie at issue #462
byte w = in >> 24 & 0xFF;
byte r = in >> 16 & 0xFF;
byte g = in >> 8 & 0xFF;
byte b = in & 0xFF;
int DMXFixtureStart = DMXStart + (DMXGap * i);
for (int j = 0; j < DMXChannels; j++) {
int DMXAddr = DMXFixtureStart + j;
switch (DMXFixtureMap[j]) {
case 0: // Set this channel to 0. Good way to tell strobe- and fade-functions to fuck right off.
dmx.write(DMXAddr, 0);
break;
case 1: // Red
dmx.write(DMXAddr, r);
break;
case 2: // Green
dmx.write(DMXAddr, g);
break;
case 3: // Blue
dmx.write(DMXAddr, b);
break;
case 4: // White
dmx.write(DMXAddr, w);
break;
case 5: // Shutter channel. Controls the brightness.
dmx.write(DMXAddr, brightness);
break;
case 6:// Sets this channel to 255. Like 0, but more wholesome.
dmx.write(DMXAddr, 255);
break;
}
}
}
dmx.update(); // update the DMX bus
}
#else
void handleDMX() {}
#endif

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@ -1,10 +1,11 @@
#include <EEPROM.h>
#include "wled.h"
/* /*
* Methods to handle saving and loading to non-volatile memory * Methods to handle saving and loading to non-volatile memory
* EEPROM Map: https://github.com/Aircoookie/WLED/wiki/EEPROM-Map * EEPROM Map: https://github.com/Aircoookie/WLED/wiki/EEPROM-Map
*/ */
#define EEPSIZE 2560 //Maximum is 4096
//eeprom Version code, enables default settings instead of 0 init on update //eeprom Version code, enables default settings instead of 0 init on update
#define EEPVER 18 #define EEPVER 18
//0 -> old version, default //0 -> old version, default
@ -591,7 +592,7 @@ void savedToPresets()
} }
} }
bool applyPreset(byte index, bool loadBri = true) bool applyPreset(byte index, bool loadBri)
{ {
if (index == 255 || index == 0) if (index == 255 || index == 0)
{ {
@ -629,7 +630,7 @@ bool applyPreset(byte index, bool loadBri = true)
return true; return true;
} }
void savePreset(byte index, bool persist = true) void savePreset(byte index, bool persist)
{ {
if (index > 16) return; if (index > 16) return;
if (index < 1) {saveSettingsToEEPROM();return;} if (index < 1) {saveSettingsToEEPROM();return;}
@ -697,7 +698,7 @@ void applyMacro(byte index)
} }
void saveMacro(byte index, String mc, bool persist = true) //only commit on single save, not in settings void saveMacro(byte index, String mc, bool persist) //only commit on single save, not in settings
{ {
index-=1; index-=1;
if (index > 15) return; if (index > 15) return;

View File

@ -1,6 +1,9 @@
#include "wled.h"
/* /*
* Utility for SPIFFS filesystem & Serial console * Adalight handler
*/ */
enum class AdaState { enum class AdaState {
Header_A, Header_A,
Header_d, Header_d,
@ -78,44 +81,3 @@ void handleSerial()
} }
#endif #endif
} }
#if !defined WLED_DISABLE_FILESYSTEM && defined WLED_ENABLE_FS_SERVING
//Un-comment any file types you need
String getContentType(AsyncWebServerRequest* request, String filename){
if(request->hasArg("download")) return "application/octet-stream";
else if(filename.endsWith(".htm")) return "text/html";
else if(filename.endsWith(".html")) return "text/html";
// else if(filename.endsWith(".css")) return "text/css";
// else if(filename.endsWith(".js")) return "application/javascript";
else if(filename.endsWith(".json")) return "application/json";
else if(filename.endsWith(".png")) return "image/png";
// else if(filename.endsWith(".gif")) return "image/gif";
else if(filename.endsWith(".jpg")) return "image/jpeg";
else if(filename.endsWith(".ico")) return "image/x-icon";
// else if(filename.endsWith(".xml")) return "text/xml";
// else if(filename.endsWith(".pdf")) return "application/x-pdf";
// else if(filename.endsWith(".zip")) return "application/x-zip";
// else if(filename.endsWith(".gz")) return "application/x-gzip";
return "text/plain";
}
bool handleFileRead(AsyncWebServerRequest* request, String path){
DEBUG_PRINTLN("FileRead: " + path);
if(path.endsWith("/")) path += "index.htm";
String contentType = getContentType(request, path);
String pathWithGz = path + ".gz";
if(SPIFFS.exists(pathWithGz)){
request->send(SPIFFS, pathWithGz, contentType);
return true;
}
if(SPIFFS.exists(path)) {
request->send(SPIFFS, path, contentType);
return true;
}
return false;
}
#else
bool handleFileRead(AsyncWebServerRequest*, String path){return false;}
#endif

View File

@ -1,5 +1,7 @@
#include "wled.h"
/* /*
* Server page definitions * Integrated HTTP web server page declarations
*/ */
//Is this an IP? //Is this an IP?
@ -303,7 +305,7 @@ String msgProcessor(const String& var)
} }
void serveMessage(AsyncWebServerRequest* request, uint16_t code, String headl, String subl="", byte optionT=255) void serveMessage(AsyncWebServerRequest* request, uint16_t code, String headl, String subl, byte optionT)
{ {
messageHead = headl; messageHead = headl;
messageSub = subl; messageSub = subl;

View File

@ -1,9 +1,11 @@
#include "wled.h"
/* /*
* Sending XML status files to client * Sending XML status files to client
*/ */
//build XML response to HTTP /win API request //build XML response to HTTP /win API request
char* XML_response(AsyncWebServerRequest *request, char* dest = nullptr) char* XML_response(AsyncWebServerRequest *request, char* dest)
{ {
char sbuf[(dest == nullptr)?1024:1]; //allocate local buffer if none passed char sbuf[(dest == nullptr)?1024:1]; //allocate local buffer if none passed
obuf = (dest == nullptr)? sbuf:dest; obuf = (dest == nullptr)? sbuf:dest;