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Merge branch 'main' into AC-ES8388

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Will Tatam 2023-07-18 16:36:42 +01:00
commit 76acb7bb58
90 changed files with 14043 additions and 10615 deletions
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70
CHANGELOG.md
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@ -1,5 +1,75 @@
## WLED changelog
#### Build 2307130
- larger `oappend()` stack buffer (3.5k) for ESP32
- Preset cycle bugfix (#3262)
- Rotary encoder ALT fix for large LED count (#3276)
- effect updates (2D Plasmaball), `blur()` speedup
- On/Off toggle from nodes view (may show unknow device type on older versions) (#3291)
- various fixes and improvements (ABL, crashes when changing presets with different segments)
#### Build 2306270
- ESP-NOW remote support (#3237)
- Pixel Magic tool (display pixel art) (#3249)
- Websocket (peek) fallback when connection cannot be established, WS retries (#3267)
- Add WiFi network scan RPC command to Improv Serial (#3271)
- Longer (custom option available) segment name for ESP32
- various fixes and improvements
#### Build 2306210
- 0.14.0-b3 release
- respect global I2C in all usermods (no local initilaisation of I2C bus)
- Multi relay usermod compile-time enabled option (-D MULTI_RELAY_ENABLED=true|false)
#### Build 2306180
- Added client-side option for applying effect defaults from metadata
- Improved ESP8266 stability by reducing WebSocket response resends
- Updated ESP8266 core to 3.1.2
#### Build 2306141
- Lissajous improvements
- Scrolling Text improvements (leading 0)
#### Build 2306140
- Add settings PIN (un)locking to JSON post API
#### Build 2306130
- Bumped version to 0.14-b3 (beta 3)
- added pin dropdowns in LED preferences (not for LED pins) and usermods
- introduced (unused ATM) NeoGammaWLEDMethod class
- Reverse proxy support
- PCF8754 support for Rotary encoder (requires wiring INT pin to ESP GPIO)
- Rely on global I2C pins for usermods (breaking change)
- various fixes and enhancements
#### Build 2306020
- Support for segment sets (PR #3171)
- Reduce sound simulation modes to 2 to facilitiate segment sets
- Trigger button immediately on press if all configured presets are the same (PR #3226)
- Changes for allowing Alexa to change light color to White when auto-calculating from RGB (PR #3211)
#### Build 2305280
- DDP protocol update (#3193)
- added PCF8574 I2C port expander support for Multi relay usermod
- MQTT multipacket (fragmented) message fix
- added option to retain MQTT brightness and color messages
- new ethernet board: @srg74 Ethernet Shield
- new 2D effects: Soap (#3184) & Octopus & Waving cell (credit @St3P40 https://github.com/80Stepko08)
- various fixes and enhancements
#### Build 2305090
- new ethernet board: @Wladi ABC! WLED Eth
- Battery usermod voltage calculation (#3116)
- custom palette editor (#3164)
- improvements in Dancing Shadows and Tartan effects
- UCS389x support
- switched to NeoPixelBus 2.7.5 (replaced NeoPixelBrightnessBus with NeoPixelBusLg)
- SPI bus clock selection (for LEDs) (#3173)
- DMX mode preset fix (#3134)
- iOS fix for scroll (#3182)
- Wordclock "Norddeutsch" fix (#3161)
- various fixes and enhancements
#### Build 2304090
- updated Arduino ESP8266 core to 4.1.0 (newer compiler)
- updated NeoPixelBus to 2.7.3 (with support for UCS890x chipset)

8
package-lock.json generated
View File

@ -1,6 +1,6 @@
{
"name": "wled",
"version": "0.14.0-b2",
"version": "0.14.0-b3",
"lockfileVersion": 1,
"requires": true,
"dependencies": {
@ -1409,9 +1409,9 @@
"integrity": "sha512-NqVDv9TpANUjFm0N8uM5GxL36UgKi9/atZw+x7YFnQ8ckwFGKrl4xX4yWtrey3UJm5nP1kUbnYgLopqWNSRhWw=="
},
"semver": {
"version": "5.7.1",
"resolved": "https://registry.npmjs.org/semver/-/semver-5.7.1.tgz",
"integrity": "sha512-sauaDf/PZdVgrLTNYHRtpXa1iRiKcaebiKQ1BJdpQlWH2lCvexQdX55snPFyK7QzpudqbCI0qXFfOasHdyNDGQ=="
"version": "5.7.2",
"resolved": "https://registry.npmjs.org/semver/-/semver-5.7.2.tgz",
"integrity": "sha512-cBznnQ9KjJqU67B52RMC65CMarK2600WFnbkcaiwWq3xy/5haFJlshgnpjovMVJ+Hff49d8GEn0b87C5pDQ10g=="
},
"semver-diff": {
"version": "2.1.0",

2
package.json
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@ -1,6 +1,6 @@
{
"name": "wled",
"version": "0.14.0-b2",
"version": "0.14.0-b3",
"description": "Tools for WLED project",
"main": "tools/cdata.js",
"directories": {

25
platformio.ini
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@ -10,7 +10,7 @@
# ------------------------------------------------------------------------------
# CI binaries
;; default_envs = nodemcuv2, esp8266_2m, esp01_1m_full, esp32dev, esp32_eth # ESP32 variant builds are temporarily excluded from CI due to toolchain issues on the GitHub Actions Linux environment
; default_envs = nodemcuv2, esp8266_2m, esp01_1m_full, esp32dev, esp32_eth # ESP32 variant builds are temporarily excluded from CI due to toolchain issues on the GitHub Actions Linux environment
default_envs = nodemcuv2, esp8266_2m, esp01_1m_full, esp32dev, esp32_eth, lolin_s2_mini, esp32c3dev, esp32s3dev_8MB
# Release binaries
@ -40,6 +40,8 @@ default_envs = nodemcuv2, esp8266_2m, esp01_1m_full, esp32dev, esp32_eth, lolin_
; default_envs = esp32dev_qio80
; default_envs = esp32_eth_ota1mapp
; default_envs = esp32s2_saola
; default_envs = esp32c3dev
; default_envs = lolin_s2_mini
src_dir = ./wled00
data_dir = ./wled00/data
@ -60,13 +62,14 @@ arduino_core_2_7_4 = espressif8266@2.6.2
arduino_core_3_0_0 = espressif8266@3.0.0
arduino_core_3_2_0 = espressif8266@3.2.0
arduino_core_4_1_0 = espressif8266@4.1.0
arduino_core_3_1_2 = espressif8266@4.2.0
# Development platforms
arduino_core_develop = https://github.com/platformio/platform-espressif8266#develop
arduino_core_git = https://github.com/platformio/platform-espressif8266#feature/stage
# Platform to use for ESP8266
platform_wled_default = ${common.arduino_core_4_1_0}
platform_wled_default = ${common.arduino_core_3_1_2}
# We use 2.7.4.7 for all, includes PWM flicker fix and Wstring optimization
#platform_packages = tasmota/framework-arduinoespressif8266 @ 3.20704.7
platform_packages = platformio/framework-arduinoespressif8266
@ -178,12 +181,10 @@ lib_deps =
https://github.com/Aircoookie/ESPAsyncWebServer.git @ ~2.0.7
#For use of the TTGO T-Display ESP32 Module with integrated TFT display uncomment the following line
#TFT_eSPI
#For use SSD1306 OLED display uncomment following
#U8g2@~2.28.8
#U8g2@~2.32.10
#For Dallas sensor uncomment following 2 lines
#OneWire@~2.3.5
#milesburton/DallasTemperature@^3.9.0
#For compatible OLED display uncomment following
#U8g2 #@ ~2.33.15
#For Dallas sensor uncomment following
#OneWire @ ~2.3.7
#For BME280 sensor uncomment following
#BME280 @ ~3.0.0
; adafruit/Adafruit BMP280 Library @ 2.1.0
@ -461,8 +462,8 @@ board = esp32-c3-devkitm-1
board_build.partitions = tools/WLED_ESP32_4MB_1MB_FS.csv
build_flags = ${common.build_flags} ${esp32c3.build_flags} #-D WLED_RELEASE_NAME=ESP32-C3
-D WLED_WATCHDOG_TIMEOUT=0
; -DARDUINO_USB_CDC_ON_BOOT=1 ;; for virtual CDC USB
-DARDUINO_USB_CDC_ON_BOOT=0 ;; for serial-to-USB chip
-DARDUINO_USB_CDC_ON_BOOT=1 ;; for virtual CDC USB
;-DARDUINO_USB_CDC_ON_BOOT=0 ;; for serial-to-USB chip
upload_speed = 460800
build_unflags = ${common.build_unflags}
lib_deps = ${esp32c3.lib_deps}
@ -574,10 +575,10 @@ platform = ${esp32s2.platform}
platform_packages = ${esp32s2.platform_packages}
board = lolin_s2_mini
board_build.partitions = tools/WLED_ESP32_4MB_1MB_FS.csv
build_unflags = ${common.build_unflags} -DARDUINO_USB_CDC_ON_BOOT=1
build_unflags = ${common.build_unflags} #-DARDUINO_USB_CDC_ON_BOOT=1
build_flags = ${common.build_flags} ${esp32s2.build_flags} #-D WLED_RELEASE_NAME=LolinS2
-DBOARD_HAS_PSRAM
-DARDUINO_USB_CDC_ON_BOOT=0
-DARDUINO_USB_CDC_ON_BOOT=1 # try disabling and enabling unflag above in case of board-specific issues, will disable Serial
-DARDUINO_USB_MSC_ON_BOOT=0
-DARDUINO_USB_DFU_ON_BOOT=0
-DLOLIN_WIFI_FIX ; seems to work much better with this

8
requirements.txt
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@ -21,9 +21,7 @@ click==8.1.3
# platformio
# uvicorn
colorama==0.4.6
# via
# click
# platformio
# via platformio
h11==0.14.0
# via
# uvicorn
@ -42,7 +40,7 @@ pyelftools==0.29
# via platformio
pyserial==3.5
# via platformio
requests==2.28.2
requests==2.31.0
# via platformio
semantic-version==2.10.0
# via platformio
@ -52,8 +50,6 @@ starlette==0.23.1
# via platformio
tabulate==0.9.0
# via platformio
typing-extensions==4.5.0
# via starlette
urllib3==1.26.15
# via requests
uvicorn==0.20.0

7
tools/cdata.js
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@ -222,6 +222,7 @@ writeHtmlGzipped("wled00/data/index.htm", "wled00/html_ui.h", 'index');
writeHtmlGzipped("wled00/data/simple.htm", "wled00/html_simple.h", 'simple');
writeHtmlGzipped("wled00/data/pixart/pixart.htm", "wled00/html_pixart.h", 'pixart');
writeHtmlGzipped("wled00/data/cpal/cpal.htm", "wled00/html_cpal.h", 'cpal');
writeHtmlGzipped("wled00/data/pxmagic/pxmagic.htm", "wled00/html_pxmagic.h", 'pxmagic');
/*
writeChunks(
"wled00/data",
@ -389,12 +390,6 @@ const char PAGE_dmxmap[] PROGMEM = R"=====()=====";
method: "gzip",
filter: "html-minify",
},
{
file: "liveviewws.htm",
name: "PAGE_liveviewws",
method: "gzip",
filter: "html-minify",
},
{
file: "liveviewws2D.htm",
name: "PAGE_liveviewws2D",

43
usermods/BH1750_v2/usermod_bh1750.h
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@ -8,7 +8,6 @@
#pragma once
#include "wled.h"
#include <Wire.h>
#include <BH1750.h>
// the max frequency to check photoresistor, 10 seconds
@ -56,15 +55,6 @@ private:
static const char _offset[];
static const char _HomeAssistantDiscovery[];
// set the default pins based on the architecture, these get overridden by Usermod menu settings
#ifdef ARDUINO_ARCH_ESP32 // ESP32 boards
#define HW_PIN_SCL 22
#define HW_PIN_SDA 21
#else // ESP8266 boards
#define HW_PIN_SCL 5
#define HW_PIN_SDA 4
#endif
int8_t ioPin[2] = {HW_PIN_SCL, HW_PIN_SDA}; // I2C pins: SCL, SDA...defaults to Arch hardware pins but overridden at setup()
bool initDone = false;
bool sensorFound = false;
@ -123,14 +113,7 @@ private:
public:
void setup()
{
bool HW_Pins_Used = (ioPin[0]==HW_PIN_SCL && ioPin[1]==HW_PIN_SDA); // note whether architecture-based hardware SCL/SDA pins used
PinOwner po = PinOwner::UM_BH1750; // defaults to being pinowner for SCL/SDA pins
PinManagerPinType pins[2] = { { ioPin[0], true }, { ioPin[1], true } }; // allocate pins
if (HW_Pins_Used) po = PinOwner::HW_I2C; // allow multiple allocations of HW I2C bus pins
if (!pinManager.allocateMultiplePins(pins, 2, po)) return;
Wire.begin(ioPin[1], ioPin[0]);
if (i2c_scl<0 || i2c_sda<0) { enabled = false; return; }
sensorFound = lightMeter.begin();
initDone = true;
}
@ -190,7 +173,9 @@ public:
user = root.createNestedObject(F("u"));
JsonArray lux_json = user.createNestedArray(F("Luminance"));
if (!sensorFound) {
if (!enabled) {
lux_json.add(F("disabled"));
} else if (!sensorFound) {
// if no sensor
lux_json.add(F("BH1750 "));
lux_json.add(F("Not Found"));
@ -216,9 +201,6 @@ public:
top[FPSTR(_minReadInterval)] = minReadingInterval;
top[FPSTR(_HomeAssistantDiscovery)] = HomeAssistantDiscovery;
top[FPSTR(_offset)] = offset;
JsonArray io_pin = top.createNestedArray(F("pin"));
for (byte i=0; i<2; i++) io_pin.add(ioPin[i]);
top[F("help4Pins")] = F("SCL,SDA"); // help for Settings page
DEBUG_PRINTLN(F("BH1750 config saved."));
}
@ -226,8 +208,6 @@ public:
// called before setup() to populate properties from values stored in cfg.json
bool readFromConfig(JsonObject &root)
{
int8_t newPin[2]; for (byte i=0; i<2; i++) newPin[i] = ioPin[i]; // prepare to note changed pins
// we look for JSON object.
JsonObject top = root[FPSTR(_name)];
if (top.isNull())
@ -244,27 +224,12 @@ public:
configComplete &= getJsonValue(top[FPSTR(_minReadInterval)], minReadingInterval, 500); //ms
configComplete &= getJsonValue(top[FPSTR(_HomeAssistantDiscovery)], HomeAssistantDiscovery, false);
configComplete &= getJsonValue(top[FPSTR(_offset)], offset, 1);
for (byte i=0; i<2; i++) configComplete &= getJsonValue(top[F("pin")][i], newPin[i], ioPin[i]);
DEBUG_PRINT(FPSTR(_name));
if (!initDone) {
// first run: reading from cfg.json
for (byte i=0; i<2; i++) ioPin[i] = newPin[i];
DEBUG_PRINTLN(F(" config loaded."));
} else {
DEBUG_PRINTLN(F(" config (re)loaded."));
// changing parameters from settings page
bool pinsChanged = false;
for (byte i=0; i<2; i++) if (ioPin[i] != newPin[i]) { pinsChanged = true; break; } // check if any pins changed
if (pinsChanged) { //if pins changed, deallocate old pins and allocate new ones
PinOwner po = PinOwner::UM_BH1750;
if (ioPin[0]==HW_PIN_SCL && ioPin[1]==HW_PIN_SDA) po = PinOwner::HW_I2C; // allow multiple allocations of HW I2C bus pins
pinManager.deallocateMultiplePins((const uint8_t *)ioPin, 2, po); // deallocate pins
for (byte i=0; i<2; i++) ioPin[i] = newPin[i];
setup();
}
// use "return !top["newestParameter"].isNull();" when updating Usermod with new features
return !top[F("pin")].isNull();
}
return configComplete;

28
usermods/BME280_v2/usermod_bme280.h
View File

@ -9,7 +9,6 @@
#include "wled.h"
#include <Arduino.h>
#include <Wire.h>
#include <BME280I2C.h> // BME280 sensor
#include <EnvironmentCalculations.h> // BME280 extended measurements
@ -34,7 +33,6 @@ private:
#ifdef ESP8266
//uint8_t RST_PIN = 16; // Uncoment for Heltec WiFi-Kit-8
#endif
int8_t ioPin[2] = {i2c_scl, i2c_sda}; // I2C pins: SCL, SDA...defaults to Arch hardware pins but overridden at setup()
bool initDone = false;
// BME280 sensor settings
@ -186,13 +184,7 @@ private:
public:
void setup()
{
bool HW_Pins_Used = (ioPin[0]==i2c_scl && ioPin[1]==i2c_sda); // note whether architecture-based hardware SCL/SDA pins used
PinOwner po = PinOwner::UM_BME280; // defaults to being pinowner for SCL/SDA pins
PinManagerPinType pins[2] = { { ioPin[0], true }, { ioPin[1], true } }; // allocate pins
if (HW_Pins_Used) po = PinOwner::HW_I2C; // allow multiple allocations of HW I2C bus pins
if (!pinManager.allocateMultiplePins(pins, 2, po)) { sensorType=0; return; }
Wire.begin(ioPin[1], ioPin[0]);
if (i2c_scl<0 || i2c_sda<0) { enabled = false; sensorType = 0; return; }
if (!bme.begin())
{
@ -415,9 +407,6 @@ public:
top[F("PublishAlways")] = PublishAlways;
top[F("UseCelsius")] = UseCelsius;
top[F("HomeAssistantDiscovery")] = HomeAssistantDiscovery;
JsonArray io_pin = top.createNestedArray(F("pin"));
for (byte i=0; i<2; i++) io_pin.add(ioPin[i]);
top[F("help4Pins")] = F("SCL,SDA"); // help for Settings page
DEBUG_PRINTLN(F("BME280 config saved."));
}
@ -427,8 +416,6 @@ public:
// default settings values could be set here (or below using the 3-argument getJsonValue()) instead of in the class definition or constructor
// setting them inside readFromConfig() is slightly more robust, handling the rare but plausible use case of single value being missing after boot (e.g. if the cfg.json was manually edited and a value was removed)
int8_t newPin[2]; for (byte i=0; i<2; i++) newPin[i] = ioPin[i]; // prepare to note changed pins
JsonObject top = root[FPSTR(_name)];
if (top.isNull()) {
DEBUG_PRINT(F(_name));
@ -447,27 +434,14 @@ public:
configComplete &= getJsonValue(top[F("PublishAlways")], PublishAlways, false);
configComplete &= getJsonValue(top[F("UseCelsius")], UseCelsius, true);
configComplete &= getJsonValue(top[F("HomeAssistantDiscovery")], HomeAssistantDiscovery, false);
for (byte i=0; i<2; i++) configComplete &= getJsonValue(top[F("pin")][i], newPin[i], ioPin[i]);
DEBUG_PRINT(FPSTR(_name));
if (!initDone) {
// first run: reading from cfg.json
for (byte i=0; i<2; i++) ioPin[i] = newPin[i];
DEBUG_PRINTLN(F(" config loaded."));
} else {
DEBUG_PRINTLN(F(" config (re)loaded."));
// changing parameters from settings page
bool pinsChanged = false;
for (byte i=0; i<2; i++) if (ioPin[i] != newPin[i]) { pinsChanged = true; break; } // check if any pins changed
if (pinsChanged) { //if pins changed, deallocate old pins and allocate new ones
PinOwner po = PinOwner::UM_BME280;
if (ioPin[0]==i2c_scl && ioPin[1]==i2c_sda) po = PinOwner::HW_I2C; // allow multiple allocations of HW I2C bus pins
pinManager.deallocateMultiplePins((const uint8_t *)ioPin, 2, po); // deallocate pins
for (byte i=0; i<2; i++) ioPin[i] = newPin[i];
setup();
}
// use "return !top["newestParameter"].isNull();" when updating Usermod with new features
return !top[F("pin")].isNull();
}
return configComplete;

12
usermods/EleksTube_IPS/TFTs.h
View File

@ -133,13 +133,13 @@ private:
return false;
}
read32(bmpFS); // filesize in bytes
read32(bmpFS); // reserved
(void) read32(bmpFS); // filesize in bytes
(void) read32(bmpFS); // reserved
seekOffset = read32(bmpFS); // start of bitmap
headerSize = read32(bmpFS); // header size
w = read32(bmpFS); // width
h = read32(bmpFS); // height
read16(bmpFS); // color planes (must be 1)
(void) read16(bmpFS); // color planes (must be 1)
bitDepth = read16(bmpFS);
if (read32(bmpFS) != 0 || (bitDepth != 24 && bitDepth != 1 && bitDepth != 4 && bitDepth != 8)) {
@ -151,9 +151,9 @@ private:
uint32_t palette[256];
if (bitDepth <= 8) // 1,4,8 bit bitmap: read color palette
{
read32(bmpFS); read32(bmpFS); read32(bmpFS); // size, w resolution, h resolution
(void) read32(bmpFS); (void) read32(bmpFS); (void) read32(bmpFS); // size, w resolution, h resolution
paletteSize = read32(bmpFS);
if (paletteSize == 0) paletteSize = bitDepth * bitDepth; //if 0, size is 2^bitDepth
if (paletteSize == 0) paletteSize = 1 << bitDepth; //if 0, size is 2^bitDepth
bmpFS.seek(14 + headerSize); // start of color palette
for (uint16_t i = 0; i < paletteSize; i++) {
palette[i] = read32(bmpFS);
@ -198,7 +198,7 @@ private:
}
b = c; g = c >> 8; r = c >> 16;
}
if (dimming != 255) { // only dimm when needed
if (dimming != 255) { // only dim when needed
r *= dimming; g *= dimming; b *= dimming;
r = r >> 8; g = g >> 8; b = b >> 8;
}

249
usermods/PIR_sensor_switch/usermod_PIR_sensor_switch.h
View File

@ -20,7 +20,7 @@
* This usermod handles PIR sensor states.
* The strip will be switched on and the off timer will be resetted when the sensor goes HIGH.
* When the sensor state goes LOW, the off timer is started and when it expires, the strip is switched off.
*
* Maintained by: @blazoncek
*
* Usermods allow you to add own functionality to WLED more easily
* See: https://github.com/Aircoookie/WLED/wiki/Add-own-functionality
@ -38,21 +38,21 @@ public:
~PIRsensorSwitch() {}
//Enable/Disable the PIR sensor
void EnablePIRsensor(bool en) { enabled = en; }
inline void EnablePIRsensor(bool en) { enabled = en; }
// Get PIR sensor enabled/disabled state
bool PIRsensorEnabled() { return enabled; }
inline bool PIRsensorEnabled() { return enabled; }
private:
byte prevPreset = 0;
byte prevPlaylist = 0;
uint32_t offTimerStart = 0; // off timer start time
volatile unsigned long offTimerStart = 0; // off timer start time
volatile bool PIRtriggered = false; // did PIR trigger?
byte NotifyUpdateMode = CALL_MODE_NO_NOTIFY; // notification mode for stateUpdated(): CALL_MODE_NO_NOTIFY or CALL_MODE_DIRECT_CHANGE
byte sensorPinState = LOW; // current PIR sensor pin state
bool initDone = false; // status of initialization
bool PIRtriggered = false;
unsigned long lastLoop = 0;
// configurable parameters
@ -66,6 +66,7 @@ private:
// flag to enable triggering only if WLED is initially off (LEDs are not on, preventing running effect being overwritten by PIR)
bool m_offOnly = false;
bool m_offMode = offMode;
bool m_override = false;
// Home Assistant
bool HomeAssistantDiscovery = false; // is HA discovery turned on
@ -81,12 +82,122 @@ private:
static const char _offOnly[];
static const char _haDiscovery[];
static const char _notify[];
static const char _override[];
/**
* check if it is daytime
* if sunrise/sunset is not defined (no NTP or lat/lon) default to nighttime
*/
bool isDayTime() {
static bool isDayTime();
/**
* switch strip on/off
*/
void switchStrip(bool switchOn);
void publishMqtt(const char* state);
// Create an MQTT Binary Sensor for Home Assistant Discovery purposes, this includes a pointer to the topic that is published to in the Loop.
void publishHomeAssistantAutodiscovery();
/**
* Read and update PIR sensor state.
* Initilize/reset switch off timer
*/
bool updatePIRsensorState();
/**
* switch off the strip if the delay has elapsed
*/
bool handleOffTimer();
public:
//Functions called by WLED
/**
* setup() is called once at boot. WiFi is not yet connected at this point.
* You can use it to initialize variables, sensors or similar.
*/
void setup();
/**
* connected() is called every time the WiFi is (re)connected
* Use it to initialize network interfaces
*/
//void connected();
/**
* onMqttConnect() is called when MQTT connection is established
*/
void onMqttConnect(bool sessionPresent);
/**
* loop() is called continuously. Here you can check for events, read sensors, etc.
*/
void loop();
/**
* addToJsonInfo() can be used to add custom entries to the /json/info part of the JSON API.
*
* Add PIR sensor state and switch off timer duration to jsoninfo
*/
void addToJsonInfo(JsonObject &root);
/**
* onStateChanged() is used to detect WLED state change
*/
void onStateChange(uint8_t mode);
/**
* addToJsonState() can be used to add custom entries to the /json/state part of the JSON API (state object).
* Values in the state object may be modified by connected clients
*/
//void addToJsonState(JsonObject &root);
/**
* readFromJsonState() can be used to receive data clients send to the /json/state part of the JSON API (state object).
* Values in the state object may be modified by connected clients
*/
void readFromJsonState(JsonObject &root);
/**
* provide the changeable values
*/
void addToConfig(JsonObject &root);
/**
* provide UI information and allow extending UI options
*/
void appendConfigData();
/**
* restore the changeable values
* readFromConfig() is called before setup() to populate properties from values stored in cfg.json
*
* The function should return true if configuration was successfully loaded or false if there was no configuration.
*/
bool readFromConfig(JsonObject &root);
/**
* getId() allows you to optionally give your V2 usermod an unique ID (please define it in const.h!).
* This could be used in the future for the system to determine whether your usermod is installed.
*/
uint16_t getId() { return USERMOD_ID_PIRSWITCH; }
};
// strings to reduce flash memory usage (used more than twice)
const char PIRsensorSwitch::_name[] PROGMEM = "PIRsensorSwitch";
const char PIRsensorSwitch::_enabled[] PROGMEM = "PIRenabled";
const char PIRsensorSwitch::_switchOffDelay[] PROGMEM = "PIRoffSec";
const char PIRsensorSwitch::_onPreset[] PROGMEM = "on-preset";
const char PIRsensorSwitch::_offPreset[] PROGMEM = "off-preset";
const char PIRsensorSwitch::_nightTime[] PROGMEM = "nighttime-only";
const char PIRsensorSwitch::_mqttOnly[] PROGMEM = "mqtt-only";
const char PIRsensorSwitch::_offOnly[] PROGMEM = "off-only";
const char PIRsensorSwitch::_haDiscovery[] PROGMEM = "HA-discovery";
const char PIRsensorSwitch::_notify[] PROGMEM = "notifications";
const char PIRsensorSwitch::_override[] PROGMEM = "override";
bool PIRsensorSwitch::isDayTime() {
updateLocalTime();
uint8_t hr = hour(localTime);
uint8_t mi = minute(localTime);
@ -106,10 +217,7 @@ private:
return false;
}
/**
* switch strip on/off
*/
void switchStrip(bool switchOn)
void PIRsensorSwitch::switchStrip(bool switchOn)
{
if (m_offOnly && bri && (switchOn || (!PIRtriggered && !switchOn))) return; //if lights on and off only, do nothing
if (PIRtriggered && switchOn) return; //if already on and triggered before, do nothing
@ -158,21 +266,19 @@ private:
}
}
void publishMqtt(const char* state)
void PIRsensorSwitch::publishMqtt(const char* state)
{
#ifndef WLED_DISABLE_MQTT
//Check if MQTT Connected, otherwise it will crash the 8266
if (WLED_MQTT_CONNECTED) {
char subuf[64];
strcpy(subuf, mqttDeviceTopic);
strcat_P(subuf, PSTR("/motion"));
mqtt->publish(subuf, 0, false, state);
char buf[64];
sprintf_P(buf, PSTR("%s/motion"), mqttDeviceTopic); //max length: 33 + 7 = 40
mqtt->publish(buf, 0, false, state);
}
#endif
}
// Create an MQTT Binary Sensor for Home Assistant Discovery purposes, this includes a pointer to the topic that is published to in the Loop.
void publishHomeAssistantAutodiscovery()
void PIRsensorSwitch::publishHomeAssistantAutodiscovery()
{
#ifndef WLED_DISABLE_MQTT
if (WLED_MQTT_CONNECTED) {
@ -207,11 +313,7 @@ private:
#endif
}
/**
* Read and update PIR sensor state.
* Initilize/reset switch off timer
*/
bool updatePIRsensorState()
bool PIRsensorSwitch::updatePIRsensorState()
{
bool pinState = digitalRead(PIRsensorPin);
if (pinState != sensorPinState) {
@ -232,10 +334,7 @@ private:
return false;
}
/**
* switch off the strip if the delay has elapsed
*/
bool handleOffTimer()
bool PIRsensorSwitch::handleOffTimer()
{
if (offTimerStart > 0 && millis() - offTimerStart > m_switchOffDelay) {
offTimerStart = 0;
@ -249,14 +348,9 @@ private:
return false;
}
public:
//Functions called by WLED
/**
* setup() is called once at boot. WiFi is not yet connected at this point.
* You can use it to initialize variables, sensors or similar.
*/
void setup()
void PIRsensorSwitch::setup()
{
if (enabled) {
// pin retrieved from cfg.json (readFromConfig()) prior to running setup()
@ -275,27 +369,14 @@ public:
initDone = true;
}
/**
* connected() is called every time the WiFi is (re)connected
* Use it to initialize network interfaces
*/
void connected()
void PIRsensorSwitch::onMqttConnect(bool sessionPresent)
{
}
/**
* onMqttConnect() is called when MQTT connection is established
*/
void onMqttConnect(bool sessionPresent) {
if (HomeAssistantDiscovery) {
publishHomeAssistantAutodiscovery();
}
}
/**
* loop() is called continuously. Here you can check for events, read sensors, etc.
*/
void loop()
void PIRsensorSwitch::loop()
{
// only check sensors 4x/s
if (!enabled || millis() - lastLoop < 250 || strip.isUpdating()) return;
@ -306,12 +387,7 @@ public:
}
}
/**
* addToJsonInfo() can be used to add custom entries to the /json/info part of the JSON API.
*
* Add PIR sensor state and switch off timer duration to jsoninfo
*/
void addToJsonInfo(JsonObject &root)
void PIRsensorSwitch::addToJsonInfo(JsonObject &root)
{
JsonObject user = root["u"];
if (user.isNull()) user = root.createNestedObject("u");
@ -371,13 +447,10 @@ public:
sensor[F("motion")] = sensorPinState || offTimerStart>0 ? true : false;
}
/**
* onStateChanged() is used to detect WLED state change
*/
void onStateChange(uint8_t mode) {
void PIRsensorSwitch::onStateChange(uint8_t mode) {
if (!initDone) return;
DEBUG_PRINT(F("PIR: offTimerStart=")); DEBUG_PRINTLN(offTimerStart);
if (PIRtriggered && offTimerStart) {
if (m_override && PIRtriggered && offTimerStart) { // debounce
// checking PIRtriggered and offTimerStart will prevent cancellation upon On trigger
DEBUG_PRINTLN(F("PIR: Canceled."));
offTimerStart = 0;
@ -385,22 +458,7 @@ public:
}
}
/**
* addToJsonState() can be used to add custom entries to the /json/state part of the JSON API (state object).
* Values in the state object may be modified by connected clients
*/
/*
void addToJsonState(JsonObject &root)
{
}
*/
/**
* readFromJsonState() can be used to receive data clients send to the /json/state part of the JSON API (state object).
* Values in the state object may be modified by connected clients
*/
void readFromJsonState(JsonObject &root)
void PIRsensorSwitch::readFromJsonState(JsonObject &root)
{
if (!initDone) return; // prevent crash on boot applyPreset()
JsonObject usermod = root[FPSTR(_name)];
@ -411,11 +469,7 @@ public:
}
}
/**
* provide the changeable values
*/
void addToConfig(JsonObject &root)
void PIRsensorSwitch::addToConfig(JsonObject &root)
{
JsonObject top = root.createNestedObject(FPSTR(_name));
top[FPSTR(_enabled)] = enabled;
@ -426,24 +480,20 @@ public:
top[FPSTR(_nightTime)] = m_nightTimeOnly;
top[FPSTR(_mqttOnly)] = m_mqttOnly;
top[FPSTR(_offOnly)] = m_offOnly;
top[FPSTR(_override)] = m_override;
top[FPSTR(_haDiscovery)] = HomeAssistantDiscovery;
top[FPSTR(_notify)] = (NotifyUpdateMode != CALL_MODE_NO_NOTIFY);
DEBUG_PRINTLN(F("PIR config saved."));
}
void appendConfigData()
void PIRsensorSwitch::appendConfigData()
{
oappend(SET_F("addInfo('PIRsensorSwitch:HA-discovery',1,'HA=Home Assistant');")); // 0 is field type, 1 is actual field
oappend(SET_F("addInfo('PIRsensorSwitch:notifications',1,'Periodic WS updates');")); // 0 is field type, 1 is actual field
oappend(SET_F("addInfo('PIRsensorSwitch:override',1,'Cancel timer on change');")); // 0 is field type, 1 is actual field
}
/**
* restore the changeable values
* readFromConfig() is called before setup() to populate properties from values stored in cfg.json
*
* The function should return true if configuration was successfully loaded or false if there was no configuration.
*/
bool readFromConfig(JsonObject &root)
bool PIRsensorSwitch::readFromConfig(JsonObject &root)
{
bool oldEnabled = enabled;
int8_t oldPin = PIRsensorPin;
@ -469,6 +519,7 @@ public:
m_nightTimeOnly = top[FPSTR(_nightTime)] | m_nightTimeOnly;
m_mqttOnly = top[FPSTR(_mqttOnly)] | m_mqttOnly;
m_offOnly = top[FPSTR(_offOnly)] | m_offOnly;
m_override = top[FPSTR(_override)] | m_override;
HomeAssistantDiscovery = top[FPSTR(_haDiscovery)] | HomeAssistantDiscovery;
NotifyUpdateMode = top[FPSTR(_notify)] ? CALL_MODE_DIRECT_CHANGE : CALL_MODE_NO_NOTIFY;
@ -498,27 +549,5 @@ public:
DEBUG_PRINTLN(F(" config (re)loaded."));
}
// use "return !top["newestParameter"].isNull();" when updating Usermod with new features
return !top[FPSTR(_haDiscovery)].isNull();
return !top[FPSTR(_override)].isNull();
}
/**
* getId() allows you to optionally give your V2 usermod an unique ID (please define it in const.h!).
* This could be used in the future for the system to determine whether your usermod is installed.
*/
uint16_t getId()
{
return USERMOD_ID_PIRSWITCH;
}
};
// strings to reduce flash memory usage (used more than twice)
const char PIRsensorSwitch::_name[] PROGMEM = "PIRsensorSwitch";
const char PIRsensorSwitch::_enabled[] PROGMEM = "PIRenabled";
const char PIRsensorSwitch::_switchOffDelay[] PROGMEM = "PIRoffSec";
const char PIRsensorSwitch::_onPreset[] PROGMEM = "on-preset";
const char PIRsensorSwitch::_offPreset[] PROGMEM = "off-preset";
const char PIRsensorSwitch::_nightTime[] PROGMEM = "nighttime-only";
const char PIRsensorSwitch::_mqttOnly[] PROGMEM = "mqtt-only";
const char PIRsensorSwitch::_offOnly[] PROGMEM = "off-only";
const char PIRsensorSwitch::_haDiscovery[] PROGMEM = "HA-discovery";
const char PIRsensorSwitch::_notify[] PROGMEM = "notifications";

7
usermods/RTC/usermod_rtc.h
View File

@ -12,8 +12,7 @@ class RTCUsermod : public Usermod {
public:
void setup() {
PinManagerPinType pins[2] = { { i2c_scl, true }, { i2c_sda, true } };
if (!pinManager.allocateMultiplePins(pins, 2, PinOwner::HW_I2C)) { disabled = true; return; }
if (i2c_scl<0 || i2c_sda<0) { disabled = true; return; }
RTC.begin();
time_t rtcTime = RTC.get();
if (rtcTime) {
@ -25,8 +24,8 @@ class RTCUsermod : public Usermod {
}
void loop() {
if (strip.isUpdating()) return;
if (!disabled && toki.isTick()) {
if (disabled || strip.isUpdating()) return;
if (toki.isTick()) {
time_t t = toki.second();
if (t != RTC.get()) RTC.set(t); //set RTC to NTP/UI-provided value
}

26
usermods/ST7789_display/ST7789_display.h
View File

@ -17,12 +17,6 @@
#ifndef TFT_HEIGHT
#error Please define TFT_HEIGHT
#endif
#ifndef TFT_MOSI
#error Please define TFT_MOSI
#endif
#ifndef TFT_SCLK
#error Please define TFT_SCLK
#endif
#ifndef TFT_DC
#error Please define TFT_DC
#endif
@ -140,8 +134,14 @@ class St7789DisplayUsermod : public Usermod {
*/
void setup()
{
PinManagerPinType pins[] = { { TFT_MOSI, true }, { TFT_MISO, false}, { TFT_SCLK, true }, { TFT_CS, true}, { TFT_DC, true}, { TFT_RST, true }, { TFT_BL, true } };
if (!pinManager.allocateMultiplePins(pins, 7, PinOwner::UM_FourLineDisplay)) { enabled = false; return; }
PinManagerPinType spiPins[] = { { spi_mosi, true }, { spi_miso, false}, { spi_sclk, true } };
if (!pinManager.allocateMultiplePins(spiPins, 3, PinOwner::HW_SPI)) { enabled = false; return; }
PinManagerPinType displayPins[] = { { TFT_CS, true}, { TFT_DC, true}, { TFT_RST, true }, { TFT_BL, true } };
if (!pinManager.allocateMultiplePins(displayPins, sizeof(displayPins)/sizeof(PinManagerPinType), PinOwner::UM_FourLineDisplay)) {
pinManager.deallocateMultiplePins(spiPins, 3, PinOwner::HW_SPI);
enabled = false;
return;
}
tft.init();
tft.setRotation(0); //Rotation here is set up for the text to be readable with the port on the left. Use 1 to flip.
@ -365,9 +365,6 @@ class St7789DisplayUsermod : public Usermod {
{
JsonObject top = root.createNestedObject("ST7789");
JsonArray pins = top.createNestedArray("pin");
pins.add(TFT_MOSI);
pins.add(TFT_MISO);
pins.add(TFT_SCLK);
pins.add(TFT_CS);
pins.add(TFT_DC);
pins.add(TFT_RST);
@ -376,6 +373,13 @@ class St7789DisplayUsermod : public Usermod {
}
void appendConfigData() {
oappend(SET_F("addInfo('ST7789:pin[]',0,'','SPI CS');"));
oappend(SET_F("addInfo('ST7789:pin[]',1,'','SPI DC');"));
oappend(SET_F("addInfo('ST7789:pin[]',2,'','SPI RST');"));
oappend(SET_F("addInfo('ST7789:pin[]',2,'','SPI BL');"));
}
/*
* readFromConfig() can be used to read back the custom settings you added with addToConfig().
* This is called by WLED when settings are loaded (currently this only happens once immediately after boot)

9
usermods/Si7021_MQTT_HA/usermod_si7021_mqtt_ha.h
View File

@ -13,14 +13,6 @@
Adafruit_Si7021 si7021;
#ifdef ARDUINO_ARCH_ESP32 //ESP32 boards
uint8_t SCL_PIN = 22;
uint8_t SDA_PIN = 21;
#else //ESP8266 boards
uint8_t SCL_PIN = 5;
uint8_t SDA_PIN = 4;
#endif
class Si7021_MQTT_HA : public Usermod
{
private:
@ -184,7 +176,6 @@ class Si7021_MQTT_HA : public Usermod
{
if (enabled) {
Serial.println("Si7021_MQTT_HA: Starting!");
Wire.begin(SDA_PIN, SCL_PIN);
Serial.println("Si7021_MQTT_HA: Initializing sensors.. ");
_initializeSensor();
}

4
usermods/VL53L0X_gestures/usermod_vl53l0x_gestures.h
View File

@ -50,9 +50,7 @@ class UsermodVL53L0XGestures : public Usermod {
public:
void setup() {
PinManagerPinType pins[2] = { { i2c_scl, true }, { i2c_sda, true } };
if (!pinManager.allocateMultiplePins(pins, 2, PinOwner::HW_I2C)) { enabled = false; return; }
Wire.begin();
if (i2c_scl<0 || i2c_sda<0) { enabled = false; return; }
sensor.setTimeout(150);
if (!sensor.init())

18
usermods/audioreactive/audio_reactive.h
View File

@ -569,16 +569,6 @@ class AudioReactive : public Usermod {
#else
int8_t i2sckPin = I2S_CKPIN;
#endif
#ifndef ES7243_SDAPIN
int8_t sdaPin = -1;
#else
int8_t sdaPin = ES7243_SDAPIN;
#endif
#ifndef ES7243_SCLPIN
int8_t sclPin = -1;
#else
int8_t sclPin = ES7243_SCLPIN;
#endif
#ifndef MCLK_PIN
int8_t mclkPin = I2S_PIN_NO_CHANGE; /* ESP32: only -1, 0, 1, 3 allowed*/
#else
@ -1136,7 +1126,7 @@ class AudioReactive : public Usermod {
DEBUGSR_PRINTLN(F("AR: ES7243 Microphone (right channel only)."));
audioSource = new ES7243(SAMPLE_RATE, BLOCK_SIZE);
delay(100);
if (audioSource) audioSource->initialize(sdaPin, sclPin, i2swsPin, i2ssdPin, i2sckPin, mclkPin);
if (audioSource) audioSource->initialize(i2swsPin, i2ssdPin, i2sckPin, mclkPin);
break;
case 3:
DEBUGSR_PRINT(F("AR: SPH0645 Microphone - ")); DEBUGSR_PRINTLN(F(I2S_MIC_CHANNEL_TEXT));
@ -1664,8 +1654,6 @@ class AudioReactive : public Usermod {
pinArray.add(i2swsPin);
pinArray.add(i2sckPin);
pinArray.add(mclkPin);
pinArray.add(sdaPin);
pinArray.add(sclPin);
JsonObject cfg = top.createNestedObject("config");
cfg[F("squelch")] = soundSquelch;
@ -1726,8 +1714,6 @@ class AudioReactive : public Usermod {
configComplete &= getJsonValue(top[FPSTR(_digitalmic)]["pin"][1], i2swsPin);
configComplete &= getJsonValue(top[FPSTR(_digitalmic)]["pin"][2], i2sckPin);
configComplete &= getJsonValue(top[FPSTR(_digitalmic)]["pin"][3], mclkPin);
configComplete &= getJsonValue(top[FPSTR(_digitalmic)]["pin"][4], sdaPin);
configComplete &= getJsonValue(top[FPSTR(_digitalmic)]["pin"][5], sclPin);
configComplete &= getJsonValue(top["config"][F("squelch")], soundSquelch);
configComplete &= getJsonValue(top["config"][F("gain")], sampleGain);
@ -1793,8 +1779,6 @@ class AudioReactive : public Usermod {
#else
oappend(SET_F("addInfo('AudioReactive:digitalmic:pin[]',3,'<i>master clock</i>','I2S MCLK');"));
#endif
oappend(SET_F("addInfo('AudioReactive:digitalmic:pin[]',4,'','I2C SDA');"));
oappend(SET_F("addInfo('AudioReactive:digitalmic:pin[]',5,'','I2C SCL');"));
}

39
usermods/audioreactive/audio_source.h
View File

@ -1,6 +1,5 @@
#pragma once
#include <Wire.h>
#include "wled.h"
#include <driver/i2s.h>
#include <driver/adc.h>
@ -383,21 +382,12 @@ class I2SSource : public AudioSource {
*/
class ES7243 : public I2SSource {
private:
// I2C initialization functions for ES7243
void _es7243I2cBegin() {
bool i2c_initialized = Wire.begin(pin_ES7243_SDA, pin_ES7243_SCL, 100000U);
if (i2c_initialized == false) {
DEBUGSR_PRINTLN(F("AR: ES7243 failed to initialize I2C bus driver."));
}
}
void _es7243I2cWrite(uint8_t reg, uint8_t val) {
#ifndef ES7243_ADDR
Wire.beginTransmission(0x13);
#define ES7243_ADDR 0x13 // default address
#else
Wire.beginTransmission(ES7243_ADDR);
#endif
Wire.beginTransmission(ES7243_ADDR);
Wire.write((uint8_t)reg);
Wire.write((uint8_t)val);
uint8_t i2cErr = Wire.endTransmission(); // i2cErr == 0 means OK
@ -407,7 +397,6 @@ class ES7243 : public I2SSource {
}
void _es7243InitAdc() {
_es7243I2cBegin();
_es7243I2cWrite(0x00, 0x01);
_es7243I2cWrite(0x06, 0x00);
_es7243I2cWrite(0x05, 0x1B);
@ -422,44 +411,20 @@ public:
_config.channel_format = I2S_CHANNEL_FMT_ONLY_RIGHT;
};
void initialize(int8_t sdaPin, int8_t sclPin, int8_t i2swsPin, int8_t i2ssdPin, int8_t i2sckPin, int8_t mclkPin) {
// check that pins are valid
if ((sdaPin < 0) || (sclPin < 0)) {
DEBUGSR_PRINTF("\nAR: invalid ES7243 I2C pins: SDA=%d, SCL=%d\n", sdaPin, sclPin);
return;
}
void initialize(int8_t i2swsPin, int8_t i2ssdPin, int8_t i2sckPin, int8_t mclkPin) {
if ((i2sckPin < 0) || (mclkPin < 0)) {
DEBUGSR_PRINTF("\nAR: invalid I2S pin: SCK=%d, MCLK=%d\n", i2sckPin, mclkPin);
return;
}
// Reserve SDA and SCL pins of the I2C interface
PinManagerPinType es7243Pins[2] = { { sdaPin, true }, { sclPin, true } };
if (!pinManager.allocateMultiplePins(es7243Pins, 2, PinOwner::HW_I2C)) {
pinManager.deallocateMultiplePins(es7243Pins, 2, PinOwner::HW_I2C);
DEBUGSR_PRINTF("\nAR: Failed to allocate ES7243 I2C pins: SDA=%d, SCL=%d\n", sdaPin, sclPin);
return;
}
pin_ES7243_SDA = sdaPin;
pin_ES7243_SCL = sclPin;
// First route mclk, then configure ADC over I2C, then configure I2S
_es7243InitAdc();
I2SSource::initialize(i2swsPin, i2ssdPin, i2sckPin, mclkPin);
}
void deinitialize() {
// Release SDA and SCL pins of the I2C interface
PinManagerPinType es7243Pins[2] = { { pin_ES7243_SDA, true }, { pin_ES7243_SCL, true } };
pinManager.deallocateMultiplePins(es7243Pins, 2, PinOwner::HW_I2C);
I2SSource::deinitialize();
}
private:
int8_t pin_ES7243_SDA;
int8_t pin_ES7243_SCL;
};
/* ES8388 Sound Modude

7
usermods/mpu6050_imu/usermod_mpu6050_imu.h
View File

@ -85,12 +85,9 @@ class MPU6050Driver : public Usermod {
* setup() is called once at boot. WiFi is not yet connected at this point.
*/
void setup() {
PinManagerPinType pins[2] = { { i2c_scl, true }, { i2c_sda, true } };
if (!pinManager.allocateMultiplePins(pins, 2, PinOwner::HW_I2C)) { enabled = false; return; }
// join I2C bus (I2Cdev library doesn't do this automatically)
if (i2c_scl<0 || i2c_sda<0) { enabled = false; return; }
#if I2CDEV_IMPLEMENTATION == I2CDEV_ARDUINO_WIRE
Wire.begin();
Wire.setClock(400000); // 400kHz I2C clock. Comment this line if having compilation difficulties
Wire.setClock(400000U); // 400kHz I2C clock. Comment this line if having compilation difficulties
#elif I2CDEV_IMPLEMENTATION == I2CDEV_BUILTIN_FASTWIRE
Fastwire::setup(400, true);
#endif

12
usermods/multi_relay/readme.md
View File

@ -1,6 +1,9 @@
# Multi Relay
This usermod-v2 modification allows the connection of multiple relays, each with individual delay and on/off mode.
Usermod supports PCF8574 I2C port expander to reduce GPIO use.
PCF8574 supports 8 outputs and each output corresponds to a relay in WLED (relay 0 = port 0, etc). I you are using more than 8 relays with multiple PCF8574 make sure their addresses are set conscutively (e.g. 0x20 and 0x21). You can set address of first expander in settings.
(**NOTE:** Will require Wire library and global I2C pins defined.)
## HTTP API
All responses are returned in JSON format.
@ -81,13 +84,15 @@ void registerUsermods()
Usermod can be configured via the Usermods settings page.
* `enabled` - enable/disable usermod
* `use-PCF8574` - use PCF8574 port expander instead of GPIO pins
* `first-PCF8574` - I2C address of first expander (WARNING: enter *decimal* value)
* `broadcast`- time in seconds between MQTT relay-state broadcasts
* `HA-discovery`- enable Home Assistant auto discovery
* `pin` - ESP GPIO pin the relay is connected to (can be configured at compile time `-D MULTI_RELAY_PINS=xx,xx,...`)
* `delay-s` - delay in seconds after on/off command is received
* `active-high` - assign high/low activation of relay (can be used to reverse relay states)
* `external` - if enabled, WLED does not control relay, it can only be triggered by an external command (MQTT, HTTP, JSON or button)
* `button` - button (from LED Settings) that controls this relay
* `broadcast`- time in seconds between MQTT relay-state broadcasts
* `HA-discovery`- enable Home Assistant auto discovery
If there is no MultiRelay section, just save current configuration and re-open Usermods settings page.
@ -100,3 +105,6 @@ Have fun - @blazoncek
2021-11
* Added information about dynamic configuration options
* Added button support.
2023-05
* Added support for PCF8574 I2C port expander (multiple)

370
usermods/multi_relay/usermod_multi_relay.h
View File

@ -4,10 +4,19 @@
#ifndef MULTI_RELAY_MAX_RELAYS
#define MULTI_RELAY_MAX_RELAYS 4
#else
#if MULTI_RELAY_MAX_RELAYS>8
#undef MULTI_RELAY_MAX_RELAYS
#define MULTI_RELAY_MAX_RELAYS 8
#warning Maximum relays set to 8
#endif
#endif
#ifndef MULTI_RELAY_PINS
#define MULTI_RELAY_PINS -1
#define MULTI_RELAY_ENABLED false
#else
#define MULTI_RELAY_ENABLED true
#endif
#define WLED_DEBOUNCE_THRESHOLD 50 //only consider button input of at least 50ms as valid (debouncing)
@ -15,21 +24,37 @@
#define ON true
#define OFF false
#ifndef USERMOD_USE_PCF8574
#undef USE_PCF8574
#define USE_PCF8574 false
#else
#undef USE_PCF8574
#define USE_PCF8574 true
#endif
#ifndef PCF8574_ADDRESS
#define PCF8574_ADDRESS 0x20 // some may start at 0x38
#endif
/*
* This usermod handles multiple relay outputs.
* These outputs complement built-in relay output in a way that the activation can be delayed.
* They can also activate/deactivate in reverse logic independently.
*
* Written and maintained by @blazoncek
*/
typedef struct relay_t {
int8_t pin;
bool active;
bool mode;
bool state;
bool external;
uint16_t delay;
int8_t button;
struct { // reduces memory footprint
bool active : 1; // is the relay waiting to be switched
bool invert : 1; // does On mean 1 or 0
bool state : 1; // 1 relay is On, 0 relay is Off
bool external : 1; // is the relay externally controlled
int8_t button : 4; // which button triggers relay
};
uint16_t delay; // amount of ms to wait after it is activated
} Relay;
@ -39,20 +64,15 @@ class MultiRelay : public Usermod {
// array of relays
Relay _relay[MULTI_RELAY_MAX_RELAYS];
// switch timer start time
uint32_t _switchTimerStart = 0;
// old brightness
bool _oldMode;
// usermod enabled
bool enabled = false; // needs to be configured (no default config)
// status of initialisation
bool initDone = false;
bool HAautodiscovery = false;
uint16_t periodicBroadcastSec = 60;
unsigned long lastBroadcast = 0;
uint32_t _switchTimerStart; // switch timer start time
bool _oldMode; // old brightness
bool enabled; // usermod enabled
bool initDone; // status of initialisation
bool usePcf8574;
uint8_t addrPcf8574;
bool HAautodiscovery;
uint16_t periodicBroadcastSec;
unsigned long lastBroadcast;
// strings to reduce flash memory usage (used more than twice)
static const char _name[];
@ -64,8 +84,127 @@ class MultiRelay : public Usermod {
static const char _button[];
static const char _broadcast[];
static const char _HAautodiscovery[];
static const char _pcf8574[];
static const char _pcfAddress[];
void publishMqtt(int relay) {
void handleOffTimer();
void InitHtmlAPIHandle();
int getValue(String data, char separator, int index);
uint8_t getActiveRelayCount();
byte IOexpanderWrite(byte address, byte _data);
byte IOexpanderRead(int address);
void publishMqtt(int relay);
#ifndef WLED_DISABLE_MQTT
void publishHomeAssistantAutodiscovery();
#endif
public:
/**
* constructor
*/
MultiRelay();
/**
* desctructor
*/
//~MultiRelay() {}
/**
* Enable/Disable the usermod
*/
inline void enable(bool enable) { enabled = enable; }
/**
* Get usermod enabled/disabled state
*/
inline bool isEnabled() { return enabled; }
/**
* getId() allows you to optionally give your V2 usermod an unique ID (please define it in const.h!).
* This could be used in the future for the system to determine whether your usermod is installed.
*/
inline uint16_t getId() { return USERMOD_ID_MULTI_RELAY; }
/**
* switch relay on/off
*/
void switchRelay(uint8_t relay, bool mode);
/**
* toggle relay
*/
inline void toggleRelay(uint8_t relay) {
switchRelay(relay, !_relay[relay].state);
}
/**
* setup() is called once at boot. WiFi is not yet connected at this point.
* You can use it to initialize variables, sensors or similar.
*/
void setup();
/**
* connected() is called every time the WiFi is (re)connected
* Use it to initialize network interfaces
*/
inline void connected() { InitHtmlAPIHandle(); }
/**
* loop() is called continuously. Here you can check for events, read sensors, etc.
*/
void loop();
#ifndef WLED_DISABLE_MQTT
bool onMqttMessage(char* topic, char* payload);
void onMqttConnect(bool sessionPresent);
#endif
/**
* handleButton() can be used to override default button behaviour. Returning true
* will prevent button working in a default way.
* Replicating button.cpp
*/
bool handleButton(uint8_t b);
/**
* addToJsonInfo() can be used to add custom entries to the /json/info part of the JSON API.
*/
void addToJsonInfo(JsonObject &root);
/**
* addToJsonState() can be used to add custom entries to the /json/state part of the JSON API (state object).
* Values in the state object may be modified by connected clients
*/
void addToJsonState(JsonObject &root);
/**
* readFromJsonState() can be used to receive data clients send to the /json/state part of the JSON API (state object).
* Values in the state object may be modified by connected clients
*/
void readFromJsonState(JsonObject &root);
/**
* provide the changeable values
*/
void addToConfig(JsonObject &root);
void appendConfigData();
/**
* restore the changeable values
* readFromConfig() is called before setup() to populate properties from values stored in cfg.json
*
* The function should return true if configuration was successfully loaded or false if there was no configuration.
*/
bool readFromConfig(JsonObject &root);
};
// class implementetion
void MultiRelay::publishMqtt(int relay) {
#ifndef WLED_DISABLE_MQTT
//Check if MQTT Connected, otherwise it will crash the 8266
if (WLED_MQTT_CONNECTED){
@ -79,12 +218,12 @@ class MultiRelay : public Usermod {
/**
* switch off the strip if the delay has elapsed
*/
void handleOffTimer() {
void MultiRelay::handleOffTimer() {
unsigned long now = millis();
bool activeRelays = false;
for (int i=0; i<MULTI_RELAY_MAX_RELAYS; i++) {
if (_relay[i].active && _switchTimerStart > 0 && now - _switchTimerStart > (_relay[i].delay*1000)) {
if (!_relay[i].external) toggleRelay(i);
if (!_relay[i].external) switchRelay(i, !offMode);
_relay[i].active = false;
} else if (periodicBroadcastSec && now - lastBroadcast > (periodicBroadcastSec*1000)) {
if (_relay[i].pin>=0) publishMqtt(i);
@ -101,7 +240,7 @@ class MultiRelay : public Usermod {
* https://github.com/gsieben/WLED/blob/master/usermods/GeoGab-Relays/usermod_GeoGab.h
*/
#define GEOGABVERSION "0.1.3"
void InitHtmlAPIHandle() { // https://github.com/me-no-dev/ESPAsyncWebServer
void MultiRelay::InitHtmlAPIHandle() { // https://github.com/me-no-dev/ESPAsyncWebServer
DEBUG_PRINTLN(F("Relays: Initialize HTML API"));
server.on("/relays", HTTP_GET, [this](AsyncWebServerRequest *request) {
@ -163,7 +302,7 @@ class MultiRelay : public Usermod {
});
}
int getValue(String data, char separator, int index) {
int MultiRelay::getValue(String data, char separator, int index) {
int found = 0;
int strIndex[] = {0, -1};
int maxIndex = data.length()-1;
@ -178,60 +317,78 @@ class MultiRelay : public Usermod {
return found>index ? data.substring(strIndex[0], strIndex[1]).toInt() : -1;
}
public:
/**
* constructor
*/
MultiRelay() {
//Write a byte to the IO expander
byte MultiRelay::IOexpanderWrite(byte address, byte _data ) {
Wire.beginTransmission(address);
Wire.write(_data);
return Wire.endTransmission();
}
//Read a byte from the IO expander
byte MultiRelay::IOexpanderRead(int address) {
byte _data = 0;
Wire.requestFrom(address, 1);
if (Wire.available()) {
_data = Wire.read();
}
return _data;
}
// public methods
MultiRelay::MultiRelay()
: _switchTimerStart(0)
, enabled(MULTI_RELAY_ENABLED)
, initDone(false)
, usePcf8574(USE_PCF8574)
, addrPcf8574(PCF8574_ADDRESS)
, HAautodiscovery(false)
, periodicBroadcastSec(60)
, lastBroadcast(0)
{
const int8_t defPins[] = {MULTI_RELAY_PINS};
for (size_t i=0; i<MULTI_RELAY_MAX_RELAYS; i++) {
_relay[i].pin = i<sizeof(defPins) ? defPins[i] : -1;
_relay[i].delay = 0;
_relay[i].mode = false;
_relay[i].invert = false;
_relay[i].active = false;
_relay[i].state = false;
_relay[i].external = false;
_relay[i].button = -1;
}
}
/**
* desctructor
*/
~MultiRelay() {}
/**
* Enable/Disable the usermod
*/
inline void enable(bool enable) { enabled = enable; }
/**
* Get usermod enabled/disabled state
*/
inline bool isEnabled() { return enabled; }
/**
* switch relay on/off
*/
void switchRelay(uint8_t relay, bool mode) {
void MultiRelay::switchRelay(uint8_t relay, bool mode) {
if (relay>=MULTI_RELAY_MAX_RELAYS || _relay[relay].pin<0) return;
_relay[relay].state = mode;
if (usePcf8574 && _relay[relay].pin >= 100) {
// we need to send all ouputs at the same time
uint8_t state = 0;
for (int i=0; i<MULTI_RELAY_MAX_RELAYS; i++) {
if (_relay[i].pin < 100) continue;
uint8_t pin = _relay[i].pin - 100;
state |= (_relay[i].invert ? !_relay[i].state : _relay[i].state) << pin; // fill relay states for all pins
}
IOexpanderWrite(addrPcf8574, state);
DEBUG_PRINT(F("Writing to PCF8574: ")); DEBUG_PRINTLN(state);
} else if (_relay[relay].pin < 100) {
pinMode(_relay[relay].pin, OUTPUT);
digitalWrite(_relay[relay].pin, mode ? !_relay[relay].mode : _relay[relay].mode);
digitalWrite(_relay[relay].pin, _relay[relay].invert ? !_relay[relay].state : _relay[relay].state);
} else return;
publishMqtt(relay);
}
/**
* toggle relay
*/
inline void toggleRelay(uint8_t relay) {
switchRelay(relay, !_relay[relay].state);
}
uint8_t getActiveRelayCount() {
uint8_t MultiRelay::getActiveRelayCount() {
uint8_t count = 0;
for (int i=0; i<MULTI_RELAY_MAX_RELAYS; i++) if (_relay[i].pin>=0) count++;
return count;
}
//Functions called by WLED
#ifndef WLED_DISABLE_MQTT
@ -240,7 +397,7 @@ class MultiRelay : public Usermod {
* topic only contains stripped topic (part after /wled/MAC)
* topic should look like: /relay/X/command; where X is relay number, 0 based
*/
bool onMqttMessage(char* topic, char* payload) {
bool MultiRelay::onMqttMessage(char* topic, char* payload) {
if (strlen(topic) > 8 && strncmp_P(topic, PSTR("/relay/"), 7) == 0 && strncmp_P(topic+8, PSTR("/command"), 8) == 0) {
uint8_t relay = strtoul(topic+7, NULL, 10);
if (relay<MULTI_RELAY_MAX_RELAYS) {
@ -263,7 +420,7 @@ class MultiRelay : public Usermod {
/**
* subscribe to MQTT topic for controlling relays
*/
void onMqttConnect(bool sessionPresent) {
void MultiRelay::onMqttConnect(bool sessionPresent) {
//(re)subscribe to required topics
char subuf[64];
if (mqttDeviceTopic[0] != 0) {
@ -278,7 +435,7 @@ class MultiRelay : public Usermod {
}
}
void publishHomeAssistantAutodiscovery() {
void MultiRelay::publishHomeAssistantAutodiscovery() {
for (int i = 0; i < MULTI_RELAY_MAX_RELAYS; i++) {
char uid[24], json_str[1024], buf[128];
size_t payload_size;
@ -322,34 +479,39 @@ class MultiRelay : public Usermod {
* setup() is called once at boot. WiFi is not yet connected at this point.
* You can use it to initialize variables, sensors or similar.
*/
void setup() {
void MultiRelay::setup() {
// pins retrieved from cfg.json (readFromConfig()) prior to running setup()
// if we want PCF8574 expander I2C pins need to be valid
if (i2c_sda<0 || i2c_scl<0) usePcf8574 = false;
uint8_t state = 0;
for (int i=0; i<MULTI_RELAY_MAX_RELAYS; i++) {
if (_relay[i].pin<0) continue;
if (!pinManager.allocatePin(_relay[i].pin,true, PinOwner::UM_MultiRelay)) {
_relay[i].pin = -1; // allocation failed
} else {
if (usePcf8574 && _relay[i].pin >= 100) {
uint8_t pin = _relay[i].pin - 100;
if (!_relay[i].external) _relay[i].state = !offMode;
state |= (uint8_t)(_relay[i].invert ? !_relay[i].state : _relay[i].state) << pin;
} else if (_relay[i].pin<100 && _relay[i].pin>=0) {
if (pinManager.allocatePin(_relay[i].pin,true, PinOwner::UM_MultiRelay)) {
if (!_relay[i].external) _relay[i].state = !offMode;
switchRelay(i, _relay[i].state);
_relay[i].active = false;
} else {
_relay[i].pin = -1; // allocation failed
}
}
}
if (usePcf8574) {
IOexpanderWrite(addrPcf8574, state); // init expander (set all outputs)
DEBUG_PRINTLN(F("PCF8574(s) inited."));
}
_oldMode = offMode;
initDone = true;
}
/**
* connected() is called every time the WiFi is (re)connected
* Use it to initialize network interfaces
*/
void connected() {
InitHtmlAPIHandle();
}
/**
* loop() is called continuously. Here you can check for events, read sensors, etc.
*/
void loop() {
void MultiRelay::loop() {
yield();
if (!enabled || strip.isUpdating()) return;
@ -362,7 +524,7 @@ class MultiRelay : public Usermod {
_oldMode = offMode;
_switchTimerStart = millis();
for (int i=0; i<MULTI_RELAY_MAX_RELAYS; i++) {
if (_relay[i].pin>=0 && !_relay[i].external) _relay[i].active = true;
if ((_relay[i].pin>=0) && !_relay[i].external) _relay[i].active = true;
}
}
@ -374,7 +536,7 @@ class MultiRelay : public Usermod {
* will prevent button working in a default way.
* Replicating button.cpp
*/
bool handleButton(uint8_t b) {
bool MultiRelay::handleButton(uint8_t b) {
yield();
if (!enabled
|| buttonType[b] == BTN_TYPE_NONE
@ -466,7 +628,7 @@ class MultiRelay : public Usermod {
/**
* addToJsonInfo() can be used to add custom entries to the /json/info part of the JSON API.
*/
void addToJsonInfo(JsonObject &root) {
void MultiRelay::addToJsonInfo(JsonObject &root) {
if (enabled) {
JsonObject user = root["u"];
if (user.isNull())
@ -503,7 +665,7 @@ class MultiRelay : public Usermod {
* addToJsonState() can be used to add custom entries to the /json/state part of the JSON API (state object).
* Values in the state object may be modified by connected clients
*/
void addToJsonState(JsonObject &root) {
void MultiRelay::addToJsonState(JsonObject &root) {
if (!initDone || !enabled) return; // prevent crash on boot applyPreset()
JsonObject multiRelay = root[FPSTR(_name)];
if (multiRelay.isNull()) {
@ -527,7 +689,7 @@ class MultiRelay : public Usermod {
* readFromJsonState() can be used to receive data clients send to the /json/state part of the JSON API (state object).
* Values in the state object may be modified by connected clients
*/
void readFromJsonState(JsonObject &root) {
void MultiRelay::readFromJsonState(JsonObject &root) {
if (!initDone || !enabled) return; // prevent crash on boot applyPreset()
JsonObject usermod = root[FPSTR(_name)];
if (!usermod.isNull()) {
@ -557,31 +719,40 @@ class MultiRelay : public Usermod {
/**
* provide the changeable values
*/
void addToConfig(JsonObject &root) {
void MultiRelay::addToConfig(JsonObject &root) {
JsonObject top = root.createNestedObject(FPSTR(_name));
top[FPSTR(_enabled)] = enabled;
top[FPSTR(_pcf8574)] = usePcf8574;
top[FPSTR(_pcfAddress)] = addrPcf8574;
top[FPSTR(_broadcast)] = periodicBroadcastSec;
top[FPSTR(_HAautodiscovery)] = HAautodiscovery;
for (int i=0; i<MULTI_RELAY_MAX_RELAYS; i++) {
String parName = FPSTR(_relay_str); parName += '-'; parName += i;
JsonObject relay = top.createNestedObject(parName);
relay["pin"] = _relay[i].pin;
relay[FPSTR(_activeHigh)] = _relay[i].mode;
relay[FPSTR(_activeHigh)] = _relay[i].invert;
relay[FPSTR(_delay_str)] = _relay[i].delay;
relay[FPSTR(_external)] = _relay[i].external;
relay[FPSTR(_button)] = _relay[i].button;
}
top[FPSTR(_HAautodiscovery)] = HAautodiscovery;
DEBUG_PRINTLN(F("MultiRelay config saved."));
}
void MultiRelay::appendConfigData() {
oappend(SET_F("addInfo('MultiRelay:PCF8574-address',1,'<i>(not hex!)</i>');"));
oappend(SET_F("addInfo('MultiRelay:broadcast-sec',1,'(MQTT message)');"));
//oappend(SET_F("addInfo('MultiRelay:relay-0:pin',1,'(use -1 for PCF8574)');"));
oappend(SET_F("d.extra.push({'MultiRelay':{pin:[['P0',100],['P1',101],['P2',102],['P3',103],['P4',104],['P5',105],['P6',106],['P7',107]]}});"));
}
/**
* restore the changeable values
* readFromConfig() is called before setup() to populate properties from values stored in cfg.json
*
* The function should return true if configuration was successfully loaded or false if there was no configuration.
*/
bool readFromConfig(JsonObject &root) {
bool MultiRelay::readFromConfig(JsonObject &root) {
int8_t oldPin[MULTI_RELAY_MAX_RELAYS];
JsonObject top = root[FPSTR(_name)];
@ -591,7 +762,13 @@ class MultiRelay : public Usermod {
return false;
}
//bool configComplete = !top.isNull();
//configComplete &= getJsonValue(top[FPSTR(_enabled)], enabled);
enabled = top[FPSTR(_enabled)] | enabled;
usePcf8574 = top[FPSTR(_pcf8574)] | usePcf8574;
addrPcf8574 = top[FPSTR(_pcfAddress)] | addrPcf8574;
// if I2C is not globally initialised just ignore
if (i2c_sda<0 || i2c_scl<0) usePcf8574 = false;
periodicBroadcastSec = top[FPSTR(_broadcast)] | periodicBroadcastSec;
periodicBroadcastSec = min(900,max(0,(int)periodicBroadcastSec));
HAautodiscovery = top[FPSTR(_HAautodiscovery)] | HAautodiscovery;
@ -600,14 +777,14 @@ class MultiRelay : public Usermod {
String parName = FPSTR(_relay_str); parName += '-'; parName += i;
oldPin[i] = _relay[i].pin;
_relay[i].pin = top[parName]["pin"] | _relay[i].pin;
_relay[i].mode = top[parName][FPSTR(_activeHigh)] | _relay[i].mode;
_relay[i].invert = top[parName][FPSTR(_activeHigh)] | _relay[i].invert;
_relay[i].external = top[parName][FPSTR(_external)] | _relay[i].external;
_relay[i].delay = top[parName][FPSTR(_delay_str)] | _relay[i].delay;
_relay[i].button = top[parName][FPSTR(_button)] | _relay[i].button;
// begin backwards compatibility (beta) remove when 0.13 is released
parName += '-';
_relay[i].pin = top[parName+"pin"] | _relay[i].pin;
_relay[i].mode = top[parName+FPSTR(_activeHigh)] | _relay[i].mode;
_relay[i].invert = top[parName+FPSTR(_activeHigh)] | _relay[i].invert;
_relay[i].external = top[parName+FPSTR(_external)] | _relay[i].external;
_relay[i].delay = top[parName+FPSTR(_delay_str)] | _relay[i].delay;
// end compatibility
@ -621,38 +798,17 @@ class MultiRelay : public Usermod {
} else {
// deallocate all pins 1st
for (int i=0; i<MULTI_RELAY_MAX_RELAYS; i++)
if (oldPin[i]>=0) {
if (oldPin[i]>=0 && oldPin[i]<100) {
pinManager.deallocatePin(oldPin[i], PinOwner::UM_MultiRelay);
}
// allocate new pins
for (int i=0; i<MULTI_RELAY_MAX_RELAYS; i++) {
if (_relay[i].pin>=0 && pinManager.allocatePin(_relay[i].pin, true, PinOwner::UM_MultiRelay)) {
if (!_relay[i].external) {
_relay[i].state = !offMode;
switchRelay(i, _relay[i].state);
_oldMode = offMode;
}
} else {
_relay[i].pin = -1;
}
_relay[i].active = false;
}
setup();
DEBUG_PRINTLN(F(" config (re)loaded."));
}
// use "return !top["newestParameter"].isNull();" when updating Usermod with new features
return !top[FPSTR(_HAautodiscovery)].isNull();
return !top[FPSTR(_pcf8574)].isNull();
}
/**
* getId() allows you to optionally give your V2 usermod an unique ID (please define it in const.h!).
* This could be used in the future for the system to determine whether your usermod is installed.
*/
uint16_t getId()
{
return USERMOD_ID_MULTI_RELAY;
}
};
// strings to reduce flash memory usage (used more than twice)
const char MultiRelay::_name[] PROGMEM = "MultiRelay";
const char MultiRelay::_enabled[] PROGMEM = "enabled";
@ -663,3 +819,5 @@ const char MultiRelay::_external[] PROGMEM = "external";
const char MultiRelay::_button[] PROGMEM = "button";
const char MultiRelay::_broadcast[] PROGMEM = "broadcast-sec";
const char MultiRelay::_HAautodiscovery[] PROGMEM = "HA-autodiscovery";
const char MultiRelay::_pcf8574[] PROGMEM = "use-PCF8574";
const char MultiRelay::_pcfAddress[] PROGMEM = "PCF8574-address";

10
usermods/sensors_to_mqtt/usermod_v2_SensorsToMqtt.h
View File

@ -6,7 +6,6 @@
#include "wled.h"
#include <Arduino.h>
#include <Wire.h>
#include <Adafruit_Sensor.h>
#include <Adafruit_BMP280.h>
#include <Adafruit_CCS811.h>
@ -16,14 +15,6 @@ Adafruit_BMP280 bmp;
Adafruit_Si7021 si7021;
Adafruit_CCS811 ccs811;
#ifdef ARDUINO_ARCH_ESP32 //ESP32 boards
uint8_t SCL_PIN = 22;
uint8_t SDA_PIN = 21;
#else //ESP8266 boards
uint8_t SCL_PIN = 5;
uint8_t SDA_PIN = 4;
#endif
class UserMod_SensorsToMQTT : public Usermod
{
private:
@ -231,7 +222,6 @@ public:
void setup()
{
Serial.println("Starting!");
Wire.begin(SDA_PIN, SCL_PIN);
Serial.println("Initializing sensors.. ");
_initialize();
}

18
usermods/sht/usermod_sht.h
View File

@ -16,7 +16,6 @@ class ShtUsermod : public Usermod
private:
bool enabled = false; // Is usermod enabled or not
bool firstRunDone = false; // Remembers if the first config load run had been done
bool pinAllocDone = true; // Remembers if we have allocated pins
bool initDone = false; // Remembers if the mod has been completely initialised
bool haMqttDiscovery = false; // Is MQTT discovery enabled or not
bool haMqttDiscoveryDone = false; // Remembers if we already published the HA discovery topics
@ -94,7 +93,7 @@ void ShtUsermod::initShtTempHumiditySensor()
case USERMOD_SHT_TYPE_SHT85: shtTempHumidSensor = (SHT *) new SHT85(); break;
}
shtTempHumidSensor->begin(shtI2cAddress, i2c_sda, i2c_scl);
shtTempHumidSensor->begin(shtI2cAddress); // uses &Wire
if (shtTempHumidSensor->readStatus() == 0xFFFF) {
DEBUG_PRINTF("[%s] SHT init failed!\n", _name);
cleanup();
@ -132,13 +131,6 @@ void ShtUsermod::cleanupShtTempHumiditySensor()
void ShtUsermod::cleanup()
{
cleanupShtTempHumiditySensor();
if (pinAllocDone) {
PinManagerPinType pins[2] = { { i2c_sda, true }, { i2c_scl, true } };
pinManager.deallocateMultiplePins(pins, 2, PinOwner::HW_I2C);
pinAllocDone = false;
}
enabled = false;
}
@ -237,14 +229,12 @@ void ShtUsermod::appendDeviceToMqttDiscoveryMessage(JsonDocument& root) {
void ShtUsermod::setup()
{
if (enabled) {
PinManagerPinType pins[2] = { { i2c_sda, true }, { i2c_scl, true } };
// GPIOs can be set to -1 and allocateMultiplePins() will return true, so check they're gt zero
if (i2c_sda < 0 || i2c_scl < 0 || !pinManager.allocateMultiplePins(pins, 2, PinOwner::HW_I2C)) {
DEBUG_PRINTF("[%s] SHT pin allocation failed!\n", _name);
// GPIOs can be set to -1 , so check they're gt zero
if (i2c_sda < 0 || i2c_scl < 0) {
DEBUG_PRINTF("[%s] I2C bus not initialised!\n", _name);
cleanup();
return;
}
pinAllocDone = true;
initShtTempHumiditySensor();

642
usermods/usermod_v2_four_line_display_ALT/usermod_v2_four_line_display_ALT.h
View File

@ -1,20 +1,24 @@
#pragma once
#include "wled.h"
#undef U8X8_NO_HW_I2C // borrowed from WLEDMM: we do want I2C hardware drivers - if possible
#include <U8x8lib.h> // from https://github.com/olikraus/u8g2/
#include "4LD_wled_fonts.c"
#ifndef FLD_ESP32_NO_THREADS
#define FLD_ESP32_USE_THREADS // comment out to use 0.13.x behviour without parallel update task - slower, but more robust. May delay other tasks like LEDs or audioreactive!!
#endif
//
// Insired by the usermod_v2_four_line_display
// Inspired by the usermod_v2_four_line_display
//
// v2 usermod for using 128x32 or 128x64 i2c
// OLED displays to provide a four line display
// for WLED.
//
// Dependencies
// * This usermod REQURES the ModeSortUsermod
// * This Usermod works best, by far, when coupled
// with RotaryEncoderUIUsermod.
// with RotaryEncoderUI ALT Usermod.
//
// Make sure to enable NTP and set your time zone in WLED Config | Time.
//
@ -23,22 +27,14 @@
// REQUIREMENT: * U8g2 (the version already in platformio.ini is fine)
// REQUIREMENT: * Wire
//
// If display does not work or looks corrupted check the
// constructor reference:
// https://github.com/olikraus/u8g2/wiki/u8x8setupcpp
// or check the gallery:
// https://github.com/olikraus/u8g2/wiki/gallery
//The SCL and SDA pins are defined here.
#ifndef FLD_PIN_SCL
#define FLD_PIN_SCL i2c_scl
#endif
#ifndef FLD_PIN_SDA
#define FLD_PIN_SDA i2c_sda
#endif
#ifndef FLD_PIN_CLOCKSPI
#define FLD_PIN_CLOCKSPI spi_sclk
#endif
#ifndef FLD_PIN_DATASPI
#define FLD_PIN_DATASPI spi_mosi
#endif
#ifndef FLD_PIN_CS
#define FLD_PIN_CS spi_cs
#define FLD_PIN_CS 15
#endif
#ifdef ARDUINO_ARCH_ESP32
@ -92,14 +88,17 @@ typedef enum {
SSD1305, // U8X8_SSD1305_128X32_ADAFRUIT_HW_I2C
SSD1305_64, // U8X8_SSD1305_128X64_ADAFRUIT_HW_I2C
SSD1306_SPI, // U8X8_SSD1306_128X32_NONAME_HW_SPI
SSD1306_SPI64 // U8X8_SSD1306_128X64_NONAME_HW_SPI
SSD1306_SPI64, // U8X8_SSD1306_128X64_NONAME_HW_SPI
SSD1309_SPI64 // U8X8_SSD1309_128X64_NONAME0_4W_HW_SPI
} DisplayType;
class FourLineDisplayUsermod : public Usermod {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
public:
FourLineDisplayUsermod() { if (!instance) instance = this; }
static FourLineDisplayUsermod* getInstance(void) { return instance; }
#endif
private:
@ -112,10 +111,10 @@ class FourLineDisplayUsermod : public Usermod {
U8X8 *u8x8 = nullptr; // pointer to U8X8 display object
#ifndef FLD_SPI_DEFAULT
int8_t ioPin[5] = {FLD_PIN_SCL, FLD_PIN_SDA, -1, -1, -1}; // I2C pins: SCL, SDA
int8_t ioPin[3] = {-1, -1, -1}; // I2C pins: SCL, SDA
uint32_t ioFrequency = 400000; // in Hz (minimum is 100000, baseline is 400000 and maximum should be 3400000)
#else
int8_t ioPin[5] = {FLD_PIN_CLOCKSPI, FLD_PIN_DATASPI, FLD_PIN_CS, FLD_PIN_DC, FLD_PIN_RESET}; // SPI pins: CLK, MOSI, CS, DC, RST
int8_t ioPin[3] = {FLD_PIN_CS, FLD_PIN_DC, FLD_PIN_RESET}; // custom SPI pins: CS, DC, RST
uint32_t ioFrequency = 1000000; // in Hz (minimum is 500kHz, baseline is 1MHz and maximum should be 20MHz)
#endif
@ -178,7 +177,194 @@ class FourLineDisplayUsermod : public Usermod {
// https://github.com/olikraus/u8g2/wiki/gallery
// some displays need this to properly apply contrast
void setVcomh(bool highContrast) {
void setVcomh(bool highContrast);
void startDisplay();
/**
* Wrappers for screen drawing
*/
void setFlipMode(uint8_t mode);
void setContrast(uint8_t contrast);
void drawString(uint8_t col, uint8_t row, const char *string, bool ignoreLH=false);
void draw2x2String(uint8_t col, uint8_t row, const char *string);
void drawGlyph(uint8_t col, uint8_t row, char glyph, const uint8_t *font, bool ignoreLH=false);
void draw2x2Glyph(uint8_t col, uint8_t row, char glyph, const uint8_t *font);
void draw2x2GlyphIcons();
uint8_t getCols();
void clear();
void setPowerSave(uint8_t save);
void center(String &line, uint8_t width);
/**
* Display the current date and time in large characters
* on the middle rows. Based 24 or 12 hour depending on
* the useAMPM configuration.
*/
void showTime();
/**
* Enable sleep (turn the display off) or clock mode.
*/
void sleepOrClock(bool enabled);
public:
// gets called once at boot. Do all initialization that doesn't depend on
// network here
void setup();
// gets called every time WiFi is (re-)connected. Initialize own network
// interfaces here
void connected();
/**
* Da loop.
*/
void loop();
//function to update lastredraw
inline void updateRedrawTime() { lastRedraw = millis(); }
/**
* Redraw the screen (but only if things have changed
* or if forceRedraw).
*/
void redraw(bool forceRedraw);
void updateBrightness();
void updateSpeed();
void updateIntensity();
void drawStatusIcons();
/**
* marks the position of the arrow showing
* the current setting being changed
* pass line and colum info
*/
void setMarkLine(byte newMarkLineNum, byte newMarkColNum);
//Draw the arrow for the current setting beiong changed
void drawArrow();
//Display the current effect or palette (desiredEntry)
// on the appropriate line (row).
void showCurrentEffectOrPalette(int inputEffPal, const char *qstring, uint8_t row);
/**
* If there screen is off or in clock is displayed,
* this will return true. This allows us to throw away
* the first input from the rotary encoder but
* to wake up the screen.
*/
bool wakeDisplay();
/**
* Allows you to show one line and a glyph as overlay for a period of time.
* Clears the screen and prints.
* Used in Rotary Encoder usermod.
*/
void overlay(const char* line1, long showHowLong, byte glyphType);
/**
* Allows you to show Akemi WLED logo overlay for a period of time.
* Clears the screen and prints.
*/
void overlayLogo(long showHowLong);
/**
* Allows you to show two lines as overlay for a period of time.
* Clears the screen and prints.
* Used in Auto Save usermod
*/
void overlay(const char* line1, const char* line2, long showHowLong);
void networkOverlay(const char* line1, long showHowLong);
/**
* handleButton() can be used to override default button behaviour. Returning true
* will prevent button working in a default way.
* Replicating button.cpp
*/
bool handleButton(uint8_t b);
void onUpdateBegin(bool init);
/*
* addToJsonInfo() can be used to add custom entries to the /json/info part of the JSON API.
* Creating an "u" object allows you to add custom key/value pairs to the Info section of the WLED web UI.
* Below it is shown how this could be used for e.g. a light sensor
*/
//void addToJsonInfo(JsonObject& root);
/*
* addToJsonState() can be used to add custom entries to the /json/state part of the JSON API (state object).
* Values in the state object may be modified by connected clients
*/
//void addToJsonState(JsonObject& root);
/*
* readFromJsonState() can be used to receive data clients send to the /json/state part of the JSON API (state object).
* Values in the state object may be modified by connected clients
*/
//void readFromJsonState(JsonObject& root);
void appendConfigData();
/*
* addToConfig() can be used to add custom persistent settings to the cfg.json file in the "um" (usermod) object.
* It will be called by WLED when settings are actually saved (for example, LED settings are saved)
* If you want to force saving the current state, use serializeConfig() in your loop().
*
* CAUTION: serializeConfig() will initiate a filesystem write operation.
* It might cause the LEDs to stutter and will cause flash wear if called too often.
* Use it sparingly and always in the loop, never in network callbacks!
*
* addToConfig() will also not yet add your setting to one of the settings pages automatically.
* To make that work you still have to add the setting to the HTML, xml.cpp and set.cpp manually.
*
* I highly recommend checking out the basics of ArduinoJson serialization and deserialization in order to use custom settings!
*/
void addToConfig(JsonObject& root);
/*
* readFromConfig() can be used to read back the custom settings you added with addToConfig().
* This is called by WLED when settings are loaded (currently this only happens once immediately after boot)
*
* readFromConfig() is called BEFORE setup(). This means you can use your persistent values in setup() (e.g. pin assignments, buffer sizes),
* but also that if you want to write persistent values to a dynamic buffer, you'd need to allocate it here instead of in setup.
* If you don't know what that is, don't fret. It most likely doesn't affect your use case :)
*/
bool readFromConfig(JsonObject& root);
/*
* getId() allows you to optionally give your V2 usermod an unique ID (please define it in const.h!).
* This could be used in the future for the system to determine whether your usermod is installed.
*/
uint16_t getId() {
return USERMOD_ID_FOUR_LINE_DISP;
}
};
// strings to reduce flash memory usage (used more than twice)
const char FourLineDisplayUsermod::_name[] PROGMEM = "4LineDisplay";
const char FourLineDisplayUsermod::_enabled[] PROGMEM = "enabled";
const char FourLineDisplayUsermod::_contrast[] PROGMEM = "contrast";
const char FourLineDisplayUsermod::_refreshRate[] PROGMEM = "refreshRate-ms";
const char FourLineDisplayUsermod::_screenTimeOut[] PROGMEM = "screenTimeOutSec";
const char FourLineDisplayUsermod::_flip[] PROGMEM = "flip";
const char FourLineDisplayUsermod::_sleepMode[] PROGMEM = "sleepMode";
const char FourLineDisplayUsermod::_clockMode[] PROGMEM = "clockMode";
const char FourLineDisplayUsermod::_showSeconds[] PROGMEM = "showSeconds";
const char FourLineDisplayUsermod::_busClkFrequency[] PROGMEM = "i2c-freq-kHz";
const char FourLineDisplayUsermod::_contrastFix[] PROGMEM = "contrastFix";
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
FourLineDisplayUsermod *FourLineDisplayUsermod::instance = nullptr;
#endif
// some displays need this to properly apply contrast
void FourLineDisplayUsermod::setVcomh(bool highContrast) {
if (type == NONE || !enabled) return;
u8x8_t *u8x8_struct = u8x8->getU8x8();
u8x8_cad_StartTransfer(u8x8_struct);
u8x8_cad_SendCmd(u8x8_struct, 0x0db); //address of value
@ -186,18 +372,32 @@ class FourLineDisplayUsermod : public Usermod {
u8x8_cad_EndTransfer(u8x8_struct);
}
void FourLineDisplayUsermod::startDisplay() {
if (type == NONE || !enabled) return;
lineHeight = u8x8->getRows() > 4 ? 2 : 1;
DEBUG_PRINTLN(F("Starting display."));
u8x8->setBusClock(ioFrequency); // can be used for SPI too
u8x8->begin();
setFlipMode(flip);
setVcomh(contrastFix);
setContrast(contrast); //Contrast setup will help to preserve OLED lifetime. In case OLED need to be brighter increase number up to 255
setPowerSave(0);
//drawString(0, 0, "Loading...");
overlayLogo(3500);
}
/**
* Wrappers for screen drawing
*/
void setFlipMode(uint8_t mode) {
void FourLineDisplayUsermod::setFlipMode(uint8_t mode) {
if (type == NONE || !enabled) return;
u8x8->setFlipMode(mode);
}
void setContrast(uint8_t contrast) {
void FourLineDisplayUsermod::setContrast(uint8_t contrast) {
if (type == NONE || !enabled) return;
u8x8->setContrast(contrast);
}
void drawString(uint8_t col, uint8_t row, const char *string, bool ignoreLH=false) {
void FourLineDisplayUsermod::drawString(uint8_t col, uint8_t row, const char *string, bool ignoreLH) {
if (type == NONE || !enabled) return;
drawing = true;
u8x8->setFont(u8x8_font_chroma48medium8_r);
@ -205,14 +405,14 @@ class FourLineDisplayUsermod : public Usermod {
else u8x8->drawString(col, row, string);
drawing = false;
}
void draw2x2String(uint8_t col, uint8_t row, const char *string) {
void FourLineDisplayUsermod::draw2x2String(uint8_t col, uint8_t row, const char *string) {
if (type == NONE || !enabled) return;
drawing = true;
u8x8->setFont(u8x8_font_chroma48medium8_r);
u8x8->draw2x2String(col, row, string);
drawing = false;
}
void drawGlyph(uint8_t col, uint8_t row, char glyph, const uint8_t *font, bool ignoreLH=false) {
void FourLineDisplayUsermod::drawGlyph(uint8_t col, uint8_t row, char glyph, const uint8_t *font, bool ignoreLH) {
if (type == NONE || !enabled) return;
drawing = true;
u8x8->setFont(font);
@ -220,35 +420,35 @@ class FourLineDisplayUsermod : public Usermod {
else u8x8->drawGlyph(col, row, glyph);
drawing = false;
}
void draw2x2Glyph(uint8_t col, uint8_t row, char glyph, const uint8_t *font) {
void FourLineDisplayUsermod::draw2x2Glyph(uint8_t col, uint8_t row, char glyph, const uint8_t *font) {
if (type == NONE || !enabled) return;
drawing = true;
u8x8->setFont(font);
u8x8->draw2x2Glyph(col, row, glyph);
drawing = false;
}
uint8_t getCols() {
uint8_t FourLineDisplayUsermod::getCols() {
if (type==NONE || !enabled) return 0;
return u8x8->getCols();
}
void clear() {
void FourLineDisplayUsermod::clear() {
if (type == NONE || !enabled) return;
drawing = true;
u8x8->clear();
drawing = false;
}
void setPowerSave(uint8_t save) {
void FourLineDisplayUsermod::setPowerSave(uint8_t save) {
if (type == NONE || !enabled) return;
u8x8->setPowerSave(save);
}
void center(String &line, uint8_t width) {
void FourLineDisplayUsermod::center(String &line, uint8_t width) {
int len = line.length();
if (len<width) for (byte i=(width-len)/2; i>0; i--) line = ' ' + line;
for (byte i=line.length(); i<width; i++) line += ' ';
}
void draw2x2GlyphIcons() {
void FourLineDisplayUsermod::draw2x2GlyphIcons() {
drawing = true;
if (lineHeight == 2) {
drawGlyph( 1, 0, 1, u8x8_4LineDisplay_WLED_icons_2x2, true); //brightness icon
@ -271,7 +471,7 @@ class FourLineDisplayUsermod : public Usermod {
* on the middle rows. Based 24 or 12 hour depending on
* the useAMPM configuration.
*/
void showTime() {
void FourLineDisplayUsermod::showTime() {
if (type == NONE || !enabled || !displayTurnedOff) return;
unsigned long now = millis();
@ -317,7 +517,7 @@ class FourLineDisplayUsermod : public Usermod {
/**
* Enable sleep (turn the display off) or clock mode.
*/
void sleepOrClock(bool enabled) {
void FourLineDisplayUsermod::sleepOrClock(bool enabled) {
if (enabled) {
displayTurnedOff = true;
if (clockMode && ntpEnabled) {
@ -331,143 +531,56 @@ class FourLineDisplayUsermod : public Usermod {
}
}
public:
// gets called once at boot. Do all initialization that doesn't depend on
// network here
void setup() {
if (type == NONE || !enabled) return;
void FourLineDisplayUsermod::setup() {
bool isSPI = (type == SSD1306_SPI || type == SSD1306_SPI64 || type == SSD1309_SPI64);
bool isHW, isSPI = (type == SSD1306_SPI || type == SSD1306_SPI64);
PinOwner po = PinOwner::UM_FourLineDisplay;
// check if pins are -1 and disable usermod as PinManager::allocateMultiplePins() will accept -1 as a valid pin
if (isSPI) {
uint8_t hw_sclk = spi_sclk<0 ? HW_PIN_CLOCKSPI : spi_sclk;
uint8_t hw_mosi = spi_mosi<0 ? HW_PIN_DATASPI : spi_mosi;
if (ioPin[0] < 0 || ioPin[1] < 0) {
ioPin[0] = hw_sclk;
ioPin[1] = hw_mosi;
}
isHW = (ioPin[0]==hw_sclk && ioPin[1]==hw_mosi);
PinManagerPinType cspins[3] = { { ioPin[2], true }, { ioPin[3], true }, { ioPin[4], true } };
if (!pinManager.allocateMultiplePins(cspins, 3, PinOwner::UM_FourLineDisplay)) { type=NONE; return; }
if (isHW) po = PinOwner::HW_SPI; // allow multiple allocations of HW I2C bus pins
PinManagerPinType pins[2] = { { ioPin[0], true }, { ioPin[1], true } };
if (!pinManager.allocateMultiplePins(pins, 2, po)) {
pinManager.deallocateMultiplePins(cspins, 3, PinOwner::UM_FourLineDisplay);
if (spi_sclk<0 || spi_mosi<0 || ioPin[0]<0 || ioPin[1]<0 || ioPin[1]<0) {
type = NONE;
return;
} else {
PinManagerPinType cspins[3] = { { ioPin[0], true }, { ioPin[1], true }, { ioPin[2], true } };
if (!pinManager.allocateMultiplePins(cspins, 3, PinOwner::UM_FourLineDisplay)) { type = NONE; }
}
} else {
uint8_t hw_scl = i2c_scl<0 ? HW_PIN_SCL : i2c_scl;
uint8_t hw_sda = i2c_sda<0 ? HW_PIN_SDA : i2c_sda;
if (ioPin[0] < 0 || ioPin[1] < 0) {
ioPin[0] = hw_scl;
ioPin[1] = hw_sda;
}
isHW = (ioPin[0]==hw_scl && ioPin[1]==hw_sda);
if (isHW) po = PinOwner::HW_I2C; // allow multiple allocations of HW I2C bus pins
PinManagerPinType pins[2] = { {ioPin[0], true }, { ioPin[1], true } };
if (!pinManager.allocateMultiplePins(pins, 2, po)) { type=NONE; return; }
if (i2c_scl<0 || i2c_sda<0) { type=NONE; }
}
DEBUG_PRINTLN(F("Allocating display."));
/*
// At some point it may be good to not new/delete U8X8 object but use this instead
// (does not currently work)
//-------------------------------------------------------------------------------
switch (type) {
case SSD1306:
u8x8_Setup(u8x8.getU8x8(), u8x8_d_ssd1306_128x32_univision, u8x8_cad_ssd13xx_fast_i2c, u8x8_byte_arduino_sw_i2c, u8x8_gpio_and_delay_arduino);
break;
case SH1106:
u8x8_Setup(u8x8.getU8x8(), u8x8_d_sh1106_128x64_winstar, u8x8_cad_ssd13xx_i2c, u8x8_byte_arduino_sw_i2c, u8x8_gpio_and_delay_arduino);
break;
case SSD1306_64:
u8x8_Setup(u8x8.getU8x8(), u8x8_d_ssd1306_128x64_noname, u8x8_cad_ssd13xx_fast_i2c, u8x8_byte_arduino_sw_i2c, u8x8_gpio_and_delay_arduino);
break;
case SSD1305:
u8x8_Setup(u8x8.getU8x8(), u8x8_d_ssd1305_128x32_adafruit, u8x8_cad_ssd13xx_i2c, u8x8_byte_arduino_hw_i2c, u8x8_gpio_and_delay_arduino);
break;
case SSD1305_64:
u8x8_Setup(u8x8.getU8x8(), u8x8_d_ssd1305_128x64_adafruit, u8x8_cad_ssd13xx_i2c, u8x8_byte_arduino_sw_i2c, u8x8_gpio_and_delay_arduino);
break;
case SSD1306_SPI:
u8x8_Setup(u8x8.getU8x8(), u8x8_d_ssd1306_128x32_univision, u8x8_cad_001, u8x8_byte_arduino_4wire_sw_spi, u8x8_gpio_and_delay_arduino);
break;
case SSD1306_SPI64:
u8x8_Setup(u8x8.getU8x8(), u8x8_d_ssd1306_128x64_noname, u8x8_cad_001, u8x8_byte_arduino_4wire_sw_spi, u8x8_gpio_and_delay_arduino);
break;
default:
type = NONE;
return;
}
if (isSPI) {
if (!isHW) u8x8_SetPin_4Wire_SW_SPI(u8x8.getU8x8(), ioPin[0], ioPin[1], ioPin[2], ioPin[3], ioPin[4]);
else u8x8_SetPin_4Wire_HW_SPI(u8x8.getU8x8(), ioPin[2], ioPin[3], ioPin[4]); // Pins are cs, dc, reset
} else {
if (!isHW) u8x8_SetPin_SW_I2C(u8x8.getU8x8(), ioPin[0], ioPin[1], U8X8_PIN_NONE); // SCL, SDA, reset
else u8x8_SetPin_HW_I2C(u8x8.getU8x8(), U8X8_PIN_NONE, ioPin[0], ioPin[1]); // Pins are Reset, SCL, SDA
}
*/
switch (type) {
case SSD1306:
if (!isHW) u8x8 = (U8X8 *) new U8X8_SSD1306_128X32_UNIVISION_SW_I2C(ioPin[0], ioPin[1]); // SCL, SDA, reset
else u8x8 = (U8X8 *) new U8X8_SSD1306_128X32_UNIVISION_HW_I2C(U8X8_PIN_NONE, ioPin[0], ioPin[1]); // Pins are Reset, SCL, SDA
break;
case SH1106:
if (!isHW) u8x8 = (U8X8 *) new U8X8_SH1106_128X64_WINSTAR_SW_I2C(ioPin[0], ioPin[1]); // SCL, SDA, reset
else u8x8 = (U8X8 *) new U8X8_SH1106_128X64_WINSTAR_HW_I2C(U8X8_PIN_NONE, ioPin[0], ioPin[1]); // Pins are Reset, SCL, SDA
break;
case SSD1306_64:
if (!isHW) u8x8 = (U8X8 *) new U8X8_SSD1306_128X64_NONAME_SW_I2C(ioPin[0], ioPin[1]); // SCL, SDA, reset
else u8x8 = (U8X8 *) new U8X8_SSD1306_128X64_NONAME_HW_I2C(U8X8_PIN_NONE, ioPin[0], ioPin[1]); // Pins are Reset, SCL, SDA
break;
case SSD1305:
if (!isHW) u8x8 = (U8X8 *) new U8X8_SSD1305_128X32_NONAME_SW_I2C(ioPin[0], ioPin[1]); // SCL, SDA, reset
else u8x8 = (U8X8 *) new U8X8_SSD1305_128X32_ADAFRUIT_HW_I2C(U8X8_PIN_NONE, ioPin[0], ioPin[1]); // Pins are Reset, SCL, SDA
break;
case SSD1305_64:
if (!isHW) u8x8 = (U8X8 *) new U8X8_SSD1305_128X64_ADAFRUIT_SW_I2C(ioPin[0], ioPin[1]); // SCL, SDA, reset
else u8x8 = (U8X8 *) new U8X8_SSD1305_128X64_ADAFRUIT_HW_I2C(U8X8_PIN_NONE, ioPin[0], ioPin[1]); // Pins are Reset, SCL, SDA
break;
case SSD1306_SPI:
// u8x8 uses global SPI variable that is attached to VSPI bus on ESP32
if (!isHW) u8x8 = (U8X8 *) new U8X8_SSD1306_128X32_UNIVISION_4W_SW_SPI(ioPin[0], ioPin[1], ioPin[2], ioPin[3], ioPin[4]);
else u8x8 = (U8X8 *) new U8X8_SSD1306_128X32_UNIVISION_4W_HW_SPI(ioPin[2], ioPin[3], ioPin[4]); // Pins are cs, dc, reset
break;
case SSD1306_SPI64:
// u8x8 uses global SPI variable that is attached to VSPI bus on ESP32
if (!isHW) u8x8 = (U8X8 *) new U8X8_SSD1306_128X64_NONAME_4W_SW_SPI(ioPin[0], ioPin[1], ioPin[2], ioPin[3], ioPin[4]);
else u8x8 = (U8X8 *) new U8X8_SSD1306_128X64_NONAME_4W_HW_SPI(ioPin[2], ioPin[3], ioPin[4]); // Pins are cs, dc, reset
break;
default:
u8x8 = nullptr;
// U8X8 uses Wire (or Wire1 with 2ND constructor) and will use existing Wire properties (calls Wire.begin() though)
case SSD1306: u8x8 = (U8X8 *) new U8X8_SSD1306_128X32_UNIVISION_HW_I2C(); break;
case SH1106: u8x8 = (U8X8 *) new U8X8_SH1106_128X64_WINSTAR_HW_I2C(); break;
case SSD1306_64: u8x8 = (U8X8 *) new U8X8_SSD1306_128X64_NONAME_HW_I2C(); break;
case SSD1305: u8x8 = (U8X8 *) new U8X8_SSD1305_128X32_ADAFRUIT_HW_I2C(); break;
case SSD1305_64: u8x8 = (U8X8 *) new U8X8_SSD1305_128X64_ADAFRUIT_HW_I2C(); break;
// U8X8 uses global SPI variable that is attached to VSPI bus on ESP32
case SSD1306_SPI: u8x8 = (U8X8 *) new U8X8_SSD1306_128X32_UNIVISION_4W_HW_SPI(ioPin[0], ioPin[1], ioPin[2]); break; // Pins are cs, dc, reset
case SSD1306_SPI64: u8x8 = (U8X8 *) new U8X8_SSD1306_128X64_NONAME_4W_HW_SPI(ioPin[0], ioPin[1], ioPin[2]); break; // Pins are cs, dc, reset
case SSD1309_SPI64: u8x8 = (U8X8 *) new U8X8_SSD1309_128X64_NONAME0_4W_HW_SPI(ioPin[0], ioPin[1], ioPin[2]); break; // Pins are cs, dc, reset
// catchall
default: u8x8 = (U8X8 *) new U8X8_NULL(); enabled = false; break; // catchall to create U8x8 instance
}
if (nullptr == u8x8) {
DEBUG_PRINTLN(F("Display init failed."));
pinManager.deallocateMultiplePins((const uint8_t*)ioPin, isSPI ? 5 : 2, po);
if (isSPI) {
pinManager.deallocateMultiplePins((const uint8_t*)ioPin, 3, PinOwner::UM_FourLineDisplay);
}
type = NONE;
return;
}
lineHeight = u8x8->getRows() > 4 ? 2 : 1;
DEBUG_PRINTLN(F("Starting display."));
u8x8->setBusClock(ioFrequency); // can be used for SPI too
u8x8->begin();
setFlipMode(flip);
setVcomh(contrastFix);
setContrast(contrast); //Contrast setup will help to preserve OLED lifetime. In case OLED need to be brighter increase number up to 255
setPowerSave(0);
//drawString(0, 0, "Loading...");
overlayLogo(3500);
startDisplay();
onUpdateBegin(false); // create Display task
initDone = true;
}
// gets called every time WiFi is (re-)connected. Initialize own network
// interfaces here
void connected() {
void FourLineDisplayUsermod::connected() {
knownSsid = WiFi.SSID(); //apActive ? apSSID : WiFi.SSID(); //apActive ? WiFi.softAPSSID() :
knownIp = Network.localIP(); //apActive ? IPAddress(4, 3, 2, 1) : Network.localIP();
networkOverlay(PSTR("NETWORK INFO"),7000);
@ -476,8 +589,8 @@ class FourLineDisplayUsermod : public Usermod {
/**
* Da loop.
*/
void loop() {
#ifndef ARDUINO_ARCH_ESP32
void FourLineDisplayUsermod::loop() {
#if !(defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS))
if (!enabled || strip.isUpdating()) return;
unsigned long now = millis();
if (now < nextUpdate) return;
@ -486,16 +599,11 @@ class FourLineDisplayUsermod : public Usermod {
#endif
}
//function to update lastredraw
void updateRedrawTime() {
lastRedraw = millis();
}
/**
* Redraw the screen (but only if things have changed
* or if forceRedraw).
*/
void redraw(bool forceRedraw) {
void FourLineDisplayUsermod::redraw(bool forceRedraw) {
bool needRedraw = false;
unsigned long now = millis();
@ -607,7 +715,12 @@ class FourLineDisplayUsermod : public Usermod {
showCurrentEffectOrPalette(knownMode, JSON_mode_names, 3); //Effect Mode info
}
void updateBrightness() {
void FourLineDisplayUsermod::updateBrightness() {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
unsigned long now = millis();
while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing
if (drawing || lockRedraw) return;
#endif
knownBrightness = bri;
if (overlayUntil == 0) {
lockRedraw = true;
@ -619,7 +732,12 @@ class FourLineDisplayUsermod : public Usermod {
}
}
void updateSpeed() {
void FourLineDisplayUsermod::updateSpeed() {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
unsigned long now = millis();
while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing
if (drawing || lockRedraw) return;
#endif
knownEffectSpeed = effectSpeed;
if (overlayUntil == 0) {
lockRedraw = true;
@ -631,7 +749,12 @@ class FourLineDisplayUsermod : public Usermod {
}
}
void updateIntensity() {
void FourLineDisplayUsermod::updateIntensity() {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
unsigned long now = millis();
while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing
if (drawing || lockRedraw) return;
#endif
knownEffectIntensity = effectIntensity;
if (overlayUntil == 0) {
lockRedraw = true;
@ -643,7 +766,12 @@ class FourLineDisplayUsermod : public Usermod {
}
}
void drawStatusIcons() {
void FourLineDisplayUsermod::drawStatusIcons() {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
unsigned long now = millis();
while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing
if (drawing || lockRedraw) return;
#endif
uint8_t col = 15;
uint8_t row = 0;
lockRedraw = true;
@ -660,13 +788,18 @@ class FourLineDisplayUsermod : public Usermod {
* the current setting being changed
* pass line and colum info
*/
void setMarkLine(byte newMarkLineNum, byte newMarkColNum) {
void FourLineDisplayUsermod::setMarkLine(byte newMarkLineNum, byte newMarkColNum) {
markLineNum = newMarkLineNum;
markColNum = newMarkColNum;
}
//Draw the arrow for the current setting beiong changed
void drawArrow() {
void FourLineDisplayUsermod::drawArrow() {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
unsigned long now = millis();
while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing
if (drawing || lockRedraw) return;
#endif
lockRedraw = true;
if (markColNum != 255 && markLineNum !=255) drawGlyph(markColNum, markLineNum*lineHeight, 21, u8x8_4LineDisplay_WLED_icons_1x1);
lockRedraw = false;
@ -674,7 +807,12 @@ class FourLineDisplayUsermod : public Usermod {
//Display the current effect or palette (desiredEntry)
// on the appropriate line (row).
void showCurrentEffectOrPalette(int inputEffPal, const char *qstring, uint8_t row) {
void FourLineDisplayUsermod::showCurrentEffectOrPalette(int inputEffPal, const char *qstring, uint8_t row) {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
unsigned long now = millis();
while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing
if (drawing || lockRedraw) return;
#endif
char lineBuffer[MAX_JSON_CHARS];
if (overlayUntil == 0) {
lockRedraw = true;
@ -740,12 +878,14 @@ class FourLineDisplayUsermod : public Usermod {
* the first input from the rotary encoder but
* to wake up the screen.
*/
bool wakeDisplay() {
bool FourLineDisplayUsermod::wakeDisplay() {
if (type == NONE || !enabled) return false;
if (displayTurnedOff) {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
unsigned long now = millis();
while (drawing && millis()-now < 250) delay(1); // wait if someone else is drawing
if (drawing) return false;
while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing
if (drawing || lockRedraw) return false;
#endif
lockRedraw = true;
clear();
// Turn the display back on
@ -761,10 +901,12 @@ class FourLineDisplayUsermod : public Usermod {
* Clears the screen and prints.
* Used in Rotary Encoder usermod.
*/
void overlay(const char* line1, long showHowLong, byte glyphType) {
void FourLineDisplayUsermod::overlay(const char* line1, long showHowLong, byte glyphType) {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
unsigned long now = millis();
while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing
if (drawing) return;
if (drawing || lockRedraw) return;
#endif
lockRedraw = true;
// Turn the display back on
if (!wakeDisplay()) clear();
@ -786,10 +928,12 @@ class FourLineDisplayUsermod : public Usermod {
* Allows you to show Akemi WLED logo overlay for a period of time.
* Clears the screen and prints.
*/
void overlayLogo(long showHowLong) {
void FourLineDisplayUsermod::overlayLogo(long showHowLong) {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
unsigned long now = millis();
while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing
if (drawing) return;
if (drawing || lockRedraw) return;
#endif
lockRedraw = true;
// Turn the display back on
if (!wakeDisplay()) clear();
@ -848,10 +992,12 @@ class FourLineDisplayUsermod : public Usermod {
* Clears the screen and prints.
* Used in Auto Save usermod
*/
void overlay(const char* line1, const char* line2, long showHowLong) {
void FourLineDisplayUsermod::overlay(const char* line1, const char* line2, long showHowLong) {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
unsigned long now = millis();
while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing
if (drawing) return;
if (drawing || lockRedraw) return;
#endif
lockRedraw = true;
// Turn the display back on
if (!wakeDisplay()) clear();
@ -870,10 +1016,12 @@ class FourLineDisplayUsermod : public Usermod {
lockRedraw = false;
}
void networkOverlay(const char* line1, long showHowLong) {
void FourLineDisplayUsermod::networkOverlay(const char* line1, long showHowLong) {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
unsigned long now = millis();
while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing
if (drawing) return;
if (drawing || lockRedraw) return;
#endif
lockRedraw = true;
String line;
@ -915,7 +1063,7 @@ class FourLineDisplayUsermod : public Usermod {
* will prevent button working in a default way.
* Replicating button.cpp
*/
bool handleButton(uint8_t b) {
bool FourLineDisplayUsermod::handleButton(uint8_t b) {
yield();
if (!enabled
|| b // butto 0 only
@ -989,8 +1137,8 @@ class FourLineDisplayUsermod : public Usermod {
#else
#define ARDUINO_RUNNING_CORE 1
#endif
void onUpdateBegin(bool init) {
#ifdef ARDUINO_ARCH_ESP32
void FourLineDisplayUsermod::onUpdateBegin(bool init) {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
if (init && Display_Task) {
vTaskSuspend(Display_Task); // update is about to begin, disable task to prevent crash
} else {
@ -1026,7 +1174,7 @@ class FourLineDisplayUsermod : public Usermod {
* Creating an "u" object allows you to add custom key/value pairs to the Info section of the WLED web UI.
* Below it is shown how this could be used for e.g. a light sensor
*/
//void addToJsonInfo(JsonObject& root) {
//void FourLineDisplayUsermod::addToJsonInfo(JsonObject& root) {
//JsonObject user = root["u"];
//if (user.isNull()) user = root.createNestedObject("u");
//JsonArray data = user.createNestedArray(F("4LineDisplay"));
@ -1037,18 +1185,18 @@ class FourLineDisplayUsermod : public Usermod {
* addToJsonState() can be used to add custom entries to the /json/state part of the JSON API (state object).
* Values in the state object may be modified by connected clients
*/
//void addToJsonState(JsonObject& root) {
//void FourLineDisplayUsermod::addToJsonState(JsonObject& root) {
//}
/*
* readFromJsonState() can be used to receive data clients send to the /json/state part of the JSON API (state object).
* Values in the state object may be modified by connected clients
*/
//void readFromJsonState(JsonObject& root) {
//void FourLineDisplayUsermod::readFromJsonState(JsonObject& root) {
// if (!initDone) return; // prevent crash on boot applyPreset()
//}
void appendConfigData() {
void FourLineDisplayUsermod::appendConfigData() {
oappend(SET_F("dd=addDropdown('4LineDisplay','type');"));
oappend(SET_F("addOption(dd,'None',0);"));
oappend(SET_F("addOption(dd,'SSD1306',1);"));
@ -1058,11 +1206,11 @@ class FourLineDisplayUsermod : public Usermod {
oappend(SET_F("addOption(dd,'SSD1305 128x64',5);"));
oappend(SET_F("addOption(dd,'SSD1306 SPI',6);"));
oappend(SET_F("addOption(dd,'SSD1306 SPI 128x64',7);"));
oappend(SET_F("addInfo('4LineDisplay:pin[]',0,'<i>-1 use global</i>','I2C/SPI CLK');"));
oappend(SET_F("addInfo('4LineDisplay:pin[]',1,'<i>-1 use global</i>','I2C/SPI DTA');"));
oappend(SET_F("addInfo('4LineDisplay:pin[]',2,'','SPI CS');"));
oappend(SET_F("addInfo('4LineDisplay:pin[]',3,'','SPI DC');"));
oappend(SET_F("addInfo('4LineDisplay:pin[]',4,'','SPI RST');"));
oappend(SET_F("addOption(dd,'SSD1309 SPI 128x64',8);"));
oappend(SET_F("addInfo('4LineDisplay:type',1,'<br><i class=\"warn\">Change may require reboot</i>','');"));
oappend(SET_F("addInfo('4LineDisplay:pin[]',0,'','SPI CS');"));
oappend(SET_F("addInfo('4LineDisplay:pin[]',1,'','SPI DC');"));
oappend(SET_F("addInfo('4LineDisplay:pin[]',2,'','SPI RST');"));
}
/*
@ -1079,27 +1227,13 @@ class FourLineDisplayUsermod : public Usermod {
*
* I highly recommend checking out the basics of ArduinoJson serialization and deserialization in order to use custom settings!
*/
void addToConfig(JsonObject& root) {
// determine if we are using global HW pins (data & clock)
int8_t hw_dta, hw_clk;
if ((type == SSD1306_SPI || type == SSD1306_SPI64)) {
hw_clk = spi_sclk<0 ? HW_PIN_CLOCKSPI : spi_sclk;
hw_dta = spi_mosi<0 ? HW_PIN_DATASPI : spi_mosi;
} else {
hw_clk = i2c_scl<0 ? HW_PIN_SCL : i2c_scl;
hw_dta = i2c_sda<0 ? HW_PIN_SDA : i2c_sda;
}
void FourLineDisplayUsermod::addToConfig(JsonObject& root) {
JsonObject top = root.createNestedObject(FPSTR(_name));
top[FPSTR(_enabled)] = enabled;
JsonArray io_pin = top.createNestedArray("pin");
for (int i=0; i<5; i++) {
if (i==0 && ioPin[i]==hw_clk) io_pin.add(-1); // do not store global HW pin
else if (i==1 && ioPin[i]==hw_dta) io_pin.add(-1); // do not store global HW pin
else io_pin.add(ioPin[i]);
}
top["type"] = type;
JsonArray io_pin = top.createNestedArray("pin");
for (int i=0; i<3; i++) io_pin.add(ioPin[i]);
top[FPSTR(_flip)] = (bool) flip;
top[FPSTR(_contrast)] = contrast;
top[FPSTR(_contrastFix)] = (bool) contrastFix;
@ -1122,10 +1256,10 @@ class FourLineDisplayUsermod : public Usermod {
* but also that if you want to write persistent values to a dynamic buffer, you'd need to allocate it here instead of in setup.
* If you don't know what that is, don't fret. It most likely doesn't affect your use case :)
*/
bool readFromConfig(JsonObject& root) {
bool FourLineDisplayUsermod::readFromConfig(JsonObject& root) {
bool needsRedraw = false;
DisplayType newType = type;
int8_t oldPin[5]; for (byte i=0; i<5; i++) oldPin[i] = ioPin[i];
int8_t oldPin[3]; for (byte i=0; i<3; i++) oldPin[i] = ioPin[i];
JsonObject top = root[FPSTR(_name)];
if (top.isNull()) {
@ -1136,7 +1270,7 @@ class FourLineDisplayUsermod : public Usermod {
enabled = top[FPSTR(_enabled)] | enabled;
newType = top["type"] | newType;
for (byte i=0; i<5; i++) ioPin[i] = top["pin"][i] | ioPin[i];
for (byte i=0; i<3; i++) ioPin[i] = top["pin"][i] | ioPin[i];
flip = top[FPSTR(_flip)] | flip;
contrast = top[FPSTR(_contrast)] | contrast;
#ifndef ARDUINO_ARCH_ESP32
@ -1162,26 +1296,72 @@ class FourLineDisplayUsermod : public Usermod {
DEBUG_PRINTLN(F(" config (re)loaded."));
// changing parameters from settings page
bool pinsChanged = false;
for (byte i=0; i<5; i++) if (ioPin[i] != oldPin[i]) { pinsChanged = true; break; }
for (byte i=0; i<3; i++) if (ioPin[i] != oldPin[i]) { pinsChanged = true; break; }
if (pinsChanged || type!=newType) {
if (type != NONE) delete u8x8;
PinOwner po = PinOwner::UM_FourLineDisplay;
bool isSPI = (type == SSD1306_SPI || type == SSD1306_SPI64);
bool isSPI = (type == SSD1306_SPI || type == SSD1306_SPI64 || type == SSD1309_SPI64);
bool newSPI = (newType == SSD1306_SPI || newType == SSD1306_SPI64 || newType == SSD1309_SPI64);
if (isSPI) {
pinManager.deallocateMultiplePins((const uint8_t *)(&oldPin[2]), 3, po);
uint8_t hw_sclk = spi_sclk<0 ? HW_PIN_CLOCKSPI : spi_sclk;
uint8_t hw_mosi = spi_mosi<0 ? HW_PIN_DATASPI : spi_mosi;
bool isHW = (oldPin[0]==hw_sclk && oldPin[1]==hw_mosi);
if (isHW) po = PinOwner::HW_SPI;
if (pinsChanged || !newSPI) pinManager.deallocateMultiplePins((const uint8_t*)oldPin, 3, PinOwner::UM_FourLineDisplay);
if (!newSPI) {
// was SPI but is no longer SPI
if (i2c_scl<0 || i2c_sda<0) { newType=NONE; }
} else {
uint8_t hw_scl = i2c_scl<0 ? HW_PIN_SCL : i2c_scl;
uint8_t hw_sda = i2c_sda<0 ? HW_PIN_SDA : i2c_sda;
bool isHW = (oldPin[0]==hw_scl && oldPin[1]==hw_sda);
if (isHW) po = PinOwner::HW_I2C;
// still SPI but pins changed
PinManagerPinType cspins[3] = { { ioPin[0], true }, { ioPin[1], true }, { ioPin[2], true } };
if (ioPin[0]<0 || ioPin[1]<0 || ioPin[1]<0) { newType=NONE; }
else if (!pinManager.allocateMultiplePins(cspins, 3, PinOwner::UM_FourLineDisplay)) { newType=NONE; }
}
} else if (newSPI) {
// was I2C but is now SPI
if (spi_sclk<0 || spi_mosi<0) {
newType=NONE;
} else {
PinManagerPinType pins[3] = { { ioPin[0], true }, { ioPin[1], true }, { ioPin[2], true } };
if (ioPin[0]<0 || ioPin[1]<0 || ioPin[1]<0) { newType=NONE; }
else if (!pinManager.allocateMultiplePins(pins, 3, PinOwner::UM_FourLineDisplay)) { newType=NONE; }
}
} else {
// just I2C type changed
}
pinManager.deallocateMultiplePins((const uint8_t *)oldPin, 2, po);
type = newType;
setup();
switch (type) {
case SSD1306:
u8x8_Setup(u8x8->getU8x8(), u8x8_d_ssd1306_128x32_univision, u8x8_cad_ssd13xx_fast_i2c, u8x8_byte_arduino_hw_i2c, u8x8_gpio_and_delay_arduino);
u8x8_SetPin_HW_I2C(u8x8->getU8x8(), U8X8_PIN_NONE, U8X8_PIN_NONE, U8X8_PIN_NONE);
break;
case SH1106:
u8x8_Setup(u8x8->getU8x8(), u8x8_d_sh1106_128x64_winstar, u8x8_cad_ssd13xx_fast_i2c, u8x8_byte_arduino_hw_i2c, u8x8_gpio_and_delay_arduino);
u8x8_SetPin_HW_I2C(u8x8->getU8x8(), U8X8_PIN_NONE, U8X8_PIN_NONE, U8X8_PIN_NONE);
break;
case SSD1306_64:
u8x8_Setup(u8x8->getU8x8(), u8x8_d_ssd1306_128x64_noname, u8x8_cad_ssd13xx_fast_i2c, u8x8_byte_arduino_hw_i2c, u8x8_gpio_and_delay_arduino);
u8x8_SetPin_HW_I2C(u8x8->getU8x8(), U8X8_PIN_NONE, U8X8_PIN_NONE, U8X8_PIN_NONE);
break;
case SSD1305:
u8x8_Setup(u8x8->getU8x8(), u8x8_d_ssd1305_128x32_adafruit, u8x8_cad_ssd13xx_fast_i2c, u8x8_byte_arduino_hw_i2c, u8x8_gpio_and_delay_arduino);
u8x8_SetPin_HW_I2C(u8x8->getU8x8(), U8X8_PIN_NONE, U8X8_PIN_NONE, U8X8_PIN_NONE);
break;
case SSD1305_64:
u8x8_Setup(u8x8->getU8x8(), u8x8_d_ssd1305_128x64_adafruit, u8x8_cad_ssd13xx_fast_i2c, u8x8_byte_arduino_hw_i2c, u8x8_gpio_and_delay_arduino);
u8x8_SetPin_HW_I2C(u8x8->getU8x8(), U8X8_PIN_NONE, U8X8_PIN_NONE, U8X8_PIN_NONE);
break;
case SSD1306_SPI:
u8x8_Setup(u8x8->getU8x8(), u8x8_d_ssd1306_128x32_univision, u8x8_cad_001, u8x8_byte_arduino_hw_spi, u8x8_gpio_and_delay_arduino);
u8x8_SetPin_4Wire_HW_SPI(u8x8->getU8x8(), ioPin[0], ioPin[1], ioPin[2]); // Pins are cs, dc, reset
break;
case SSD1306_SPI64:
u8x8_Setup(u8x8->getU8x8(), u8x8_d_ssd1306_128x64_noname, u8x8_cad_001, u8x8_byte_arduino_hw_spi, u8x8_gpio_and_delay_arduino);
u8x8_SetPin_4Wire_HW_SPI(u8x8->getU8x8(), ioPin[0], ioPin[1], ioPin[2]); // Pins are cs, dc, reset
break;
case SSD1309_SPI64:
u8x8_Setup(u8x8->getU8x8(), u8x8_d_ssd1309_128x64_noname0, u8x8_cad_001, u8x8_byte_arduino_hw_spi, u8x8_gpio_and_delay_arduino);
u8x8_SetPin_4Wire_HW_SPI(u8x8->getU8x8(), ioPin[0], ioPin[1], ioPin[2]); // Pins are cs, dc, reset
default:
u8x8_Setup(u8x8->getU8x8(), u8x8_d_null_cb, u8x8_cad_empty, u8x8_byte_empty, u8x8_dummy_cb);
enabled = false;
break;
}
startDisplay();
needsRedraw |= true;
} else {
u8x8->setBusClock(ioFrequency); // can be used for SPI too
@ -1196,27 +1376,3 @@ class FourLineDisplayUsermod : public Usermod {
// use "return !top["newestParameter"].isNull();" when updating Usermod with new features
return !top[FPSTR(_contrastFix)].isNull();
}
/*
* getId() allows you to optionally give your V2 usermod an unique ID (please define it in const.h!).
* This could be used in the future for the system to determine whether your usermod is installed.
*/
uint16_t getId() {
return USERMOD_ID_FOUR_LINE_DISP;
}
};
// strings to reduce flash memory usage (used more than twice)
const char FourLineDisplayUsermod::_name[] PROGMEM = "4LineDisplay";
const char FourLineDisplayUsermod::_enabled[] PROGMEM = "enabled";
const char FourLineDisplayUsermod::_contrast[] PROGMEM = "contrast";
const char FourLineDisplayUsermod::_refreshRate[] PROGMEM = "refreshRate-ms";
const char FourLineDisplayUsermod::_screenTimeOut[] PROGMEM = "screenTimeOutSec";
const char FourLineDisplayUsermod::_flip[] PROGMEM = "flip";
const char FourLineDisplayUsermod::_sleepMode[] PROGMEM = "sleepMode";
const char FourLineDisplayUsermod::_clockMode[] PROGMEM = "clockMode";
const char FourLineDisplayUsermod::_showSeconds[] PROGMEM = "showSeconds";
const char FourLineDisplayUsermod::_busClkFrequency[] PROGMEM = "i2c-freq-kHz";
const char FourLineDisplayUsermod::_contrastFix[] PROGMEM = "contrastFix";
FourLineDisplayUsermod *FourLineDisplayUsermod::instance = nullptr;

417
usermods/usermod_v2_rotary_encoder_ui_ALT/usermod_v2_rotary_encoder_ui_ALT.h
View File

@ -45,7 +45,27 @@
#define ENCODER_SW_PIN 19
#endif
// The last UI state, remove color and saturation option if diplay not active(too many options)
#ifndef ENCODER_MAX_DELAY_MS // max delay between polling encoder pins
#define ENCODER_MAX_DELAY_MS 8 // 8 milliseconds => max 120 change impulses in 1 second, for full turn of a 30/30 encoder (4 changes per segment, 30 segments for one turn)
#endif
#ifndef USERMOD_USE_PCF8574
#undef USE_PCF8574
#define USE_PCF8574 false
#else
#undef USE_PCF8574
#define USE_PCF8574 true
#endif
#ifndef PCF8574_ADDRESS
#define PCF8574_ADDRESS 0x20 // some may start at 0x38
#endif
#ifndef PCF8574_INT_PIN
#define PCF8574_INT_PIN -1 // GPIO connected to INT pin on PCF8574
#endif
// The last UI state, remove color and saturation option if display not active (too many options)
#ifdef USERMOD_FOUR_LINE_DISPLAY
#define LAST_UI_STATE 11
#else
@ -113,62 +133,83 @@ static int re_qstringCmp(const void *ap, const void *bp) {
}
static volatile uint8_t pcfPortData = 0; // port expander port state
static volatile uint8_t addrPcf8574 = PCF8574_ADDRESS; // has to be accessible in ISR
// Interrupt routine to read I2C rotary state
// if we are to use PCF8574 port expander we will need to rely on interrupts as polling I2C every 2ms
// is a waste of resources and causes 4LD to fail.
// in such case rely on ISR to read pin values and store them into static variable
static void IRAM_ATTR i2cReadingISR() {
Wire.requestFrom(addrPcf8574, 1U);
if (Wire.available()) {
pcfPortData = Wire.read();
}
}
class RotaryEncoderUIUsermod : public Usermod {
private:
int8_t fadeAmount = 5; // Amount to change every step (brightness)
const int8_t fadeAmount; // Amount to change every step (brightness)
unsigned long loopTime;
unsigned long buttonPressedTime = 0;
unsigned long buttonWaitTime = 0;
bool buttonPressedBefore = false;
bool buttonLongPressed = false;
unsigned long buttonPressedTime;
unsigned long buttonWaitTime;
bool buttonPressedBefore;
bool buttonLongPressed;
int8_t pinA = ENCODER_DT_PIN; // DT from encoder
int8_t pinB = ENCODER_CLK_PIN; // CLK from encoder
int8_t pinC = ENCODER_SW_PIN; // SW from encoder
int8_t pinA; // DT from encoder
int8_t pinB; // CLK from encoder
int8_t pinC; // SW from encoder
unsigned char select_state = 0; // 0: brightness, 1: effect, 2: effect speed, ...
unsigned char select_state; // 0: brightness, 1: effect, 2: effect speed, ...
uint16_t currentHue1 = 16; // default boot color
byte currentSat1 = 255;
uint16_t currentHue1; // default boot color
byte currentSat1;
uint8_t currentCCT;
#ifdef USERMOD_FOUR_LINE_DISPLAY
FourLineDisplayUsermod *display;
#else
void* display = nullptr;
void* display;
#endif
// Pointers the start of the mode names within JSON_mode_names
const char **modes_qstrings = nullptr;
const char **modes_qstrings;
// Array of mode indexes in alphabetical order.
byte *modes_alpha_indexes = nullptr;
byte *modes_alpha_indexes;
// Pointers the start of the palette names within JSON_palette_names
const char **palettes_qstrings = nullptr;
const char **palettes_qstrings;
// Array of palette indexes in alphabetical order.
byte *palettes_alpha_indexes = nullptr;
byte *palettes_alpha_indexes;
unsigned char Enc_A;
unsigned char Enc_B;
unsigned char Enc_A_prev = 0;
struct { // reduce memory footprint
bool Enc_A : 1;
bool Enc_B : 1;
bool Enc_A_prev : 1;
};
bool currentEffectAndPaletteInitialized = false;
uint8_t effectCurrentIndex = 0;
uint8_t effectPaletteIndex = 0;
uint8_t knownMode = 0;
uint8_t knownPalette = 0;
bool currentEffectAndPaletteInitialized;
uint8_t effectCurrentIndex;
uint8_t effectPaletteIndex;
uint8_t knownMode;
uint8_t knownPalette;
uint8_t currentCCT = 128;
byte presetHigh;
byte presetLow;
byte presetHigh = 0;
byte presetLow = 0;
bool applyToAll;
bool applyToAll = true;
bool initDone;
bool enabled;
bool initDone = false;
bool enabled = true;
bool usePcf8574;
int8_t pinIRQ;
// strings to reduce flash memory usage (used more than twice)
static const char _name[];
@ -179,12 +220,179 @@ private:
static const char _presetHigh[];
static const char _presetLow[];
static const char _applyToAll[];
static const char _pcf8574[];
static const char _pcfAddress[];
static const char _pcfINTpin[];
/**
* readPin() - read rotary encoder pin value
*/
byte readPin(uint8_t pin);
/**
* Sort the modes and palettes to the index arrays
* modes_alpha_indexes and palettes_alpha_indexes.
*/
void sortModesAndPalettes() {
void sortModesAndPalettes();
byte *re_initIndexArray(int numModes);
/**
* Return an array of mode or palette names from the JSON string.
* They don't end in '\0', they end in '"'.
*/
const char **re_findModeStrings(const char json[], int numModes);
/**
* Sort either the modes or the palettes using quicksort.
*/
void re_sortModes(const char **modeNames, byte *indexes, int count, int numSkip);
public:
RotaryEncoderUIUsermod()
: fadeAmount(5)
, buttonPressedTime(0)
, buttonWaitTime(0)
, buttonPressedBefore(false)
, buttonLongPressed(false)
, pinA(ENCODER_DT_PIN)
, pinB(ENCODER_CLK_PIN)
, pinC(ENCODER_SW_PIN)
, select_state(0)
, currentHue1(16)
, currentSat1(255)
, currentCCT(128)
, display(nullptr)
, modes_qstrings(nullptr)
, modes_alpha_indexes(nullptr)
, palettes_qstrings(nullptr)
, palettes_alpha_indexes(nullptr)
, currentEffectAndPaletteInitialized(false)
, effectCurrentIndex(0)
, effectPaletteIndex(0)
, knownMode(0)
, knownPalette(0)
, presetHigh(0)
, presetLow(0)
, applyToAll(true)
, initDone(false)
, enabled(true)
, usePcf8574(USE_PCF8574)
, pinIRQ(PCF8574_INT_PIN)
{}
/*
* getId() allows you to optionally give your V2 usermod an unique ID (please define it in const.h!).
* This could be used in the future for the system to determine whether your usermod is installed.
*/
uint16_t getId() { return USERMOD_ID_ROTARY_ENC_UI; }
/**
* Enable/Disable the usermod
*/
inline void enable(bool enable) { if (!(pinA<0 || pinB<0 || pinC<0)) enabled = enable; }
/**
* Get usermod enabled/disabled state
*/
inline bool isEnabled() { return enabled; }
/**
* setup() is called once at boot. WiFi is not yet connected at this point.
* You can use it to initialize variables, sensors or similar.
*/
void setup();
/**
* connected() is called every time the WiFi is (re)connected
* Use it to initialize network interfaces
*/
//void connected();
/**
* loop() is called continuously. Here you can check for events, read sensors, etc.
*/
void loop();
#ifndef WLED_DISABLE_MQTT
//bool onMqttMessage(char* topic, char* payload);
//void onMqttConnect(bool sessionPresent);
#endif
/**
* handleButton() can be used to override default button behaviour. Returning true
* will prevent button working in a default way.
* Replicating button.cpp
*/
//bool handleButton(uint8_t b);
/**
* addToJsonInfo() can be used to add custom entries to the /json/info part of the JSON API.
*/
//void addToJsonInfo(JsonObject &root);
/**
* addToJsonState() can be used to add custom entries to the /json/state part of the JSON API (state object).
* Values in the state object may be modified by connected clients
*/
//void addToJsonState(JsonObject &root);
/**
* readFromJsonState() can be used to receive data clients send to the /json/state part of the JSON API (state object).
* Values in the state object may be modified by connected clients
*/
//void readFromJsonState(JsonObject &root);
/**
* provide the changeable values
*/
void addToConfig(JsonObject &root);
void appendConfigData();
/**
* restore the changeable values
* readFromConfig() is called before setup() to populate properties from values stored in cfg.json
*
* The function should return true if configuration was successfully loaded or false if there was no configuration.
*/
bool readFromConfig(JsonObject &root);
// custom methods
void displayNetworkInfo();
void findCurrentEffectAndPalette();
bool changeState(const char *stateName, byte markedLine, byte markedCol, byte glyph);
void lampUdated();
void changeBrightness(bool increase);
void changeEffect(bool increase);
void changeEffectSpeed(bool increase);
void changeEffectIntensity(bool increase);
void changeCustom(uint8_t par, bool increase);
void changePalette(bool increase);
void changeHue(bool increase);
void changeSat(bool increase);
void changePreset(bool increase);
void changeCCT(bool increase);
};
/**
* readPin() - read rotary encoder pin value
*/
byte RotaryEncoderUIUsermod::readPin(uint8_t pin) {
if (usePcf8574) {
if (pin >= 100) pin -= 100; // PCF I/O ports
return (pcfPortData>>pin) & 1;
} else {
return digitalRead(pin);
}
}
/**
* Sort the modes and palettes to the index arrays
* modes_alpha_indexes and palettes_alpha_indexes.
*/
void RotaryEncoderUIUsermod::sortModesAndPalettes() {
DEBUG_PRINTLN(F("Sorting modes and palettes."));
//modes_qstrings = re_findModeStrings(JSON_mode_names, strip.getModeCount());
modes_qstrings = strip.getModeDataSrc();
modes_alpha_indexes = re_initIndexArray(strip.getModeCount());
@ -200,7 +408,7 @@ private:
re_sortModes(palettes_qstrings, palettes_alpha_indexes, strip.getPaletteCount(), skipPaletteCount);
}
byte *re_initIndexArray(int numModes) {
byte *RotaryEncoderUIUsermod::re_initIndexArray(int numModes) {
byte *indexes = (byte *)malloc(sizeof(byte) * numModes);
for (byte i = 0; i < numModes; i++) {
indexes[i] = i;
@ -212,7 +420,7 @@ private:
* Return an array of mode or palette names from the JSON string.
* They don't end in '\0', they end in '"'.
*/
const char **re_findModeStrings(const char json[], int numModes) {
const char **RotaryEncoderUIUsermod::re_findModeStrings(const char json[], int numModes) {
const char **modeStrings = (const char **)malloc(sizeof(const char *) * numModes);
uint8_t modeIndex = 0;
bool insideQuotes = false;
@ -250,7 +458,7 @@ private:
/**
* Sort either the modes or the palettes using quicksort.
*/
void re_sortModes(const char **modeNames, byte *indexes, int count, int numSkip) {
void RotaryEncoderUIUsermod::re_sortModes(const char **modeNames, byte *indexes, int count, int numSkip) {
if (!modeNames) return;
listBeingSorted = modeNames;
qsort(indexes + numSkip, count - numSkip, sizeof(byte), re_qstringCmp);
@ -258,21 +466,37 @@ private:
}
public:
// public methods
/*
* setup() is called once at boot. WiFi is not yet connected at this point.
* You can use it to initialize variables, sensors or similar.
*/
void setup()
void RotaryEncoderUIUsermod::setup()
{
DEBUG_PRINTLN(F("Usermod Rotary Encoder init."));
if (usePcf8574) {
if (i2c_sda < 0 || i2c_scl < 0 || pinA < 0 || pinB < 0 || pinC < 0) {
DEBUG_PRINTLN(F("I2C and/or PCF8574 pins unused, disabling."));
enabled = false;
return;
} else {
if (pinIRQ >= 0 && pinManager.allocatePin(pinIRQ, false, PinOwner::UM_RotaryEncoderUI)) {
pinMode(pinIRQ, INPUT_PULLUP);
attachInterrupt(pinIRQ, i2cReadingISR, FALLING); // RISING, FALLING, CHANGE, ONLOW, ONHIGH
DEBUG_PRINTLN(F("Interrupt attached."));
} else {
DEBUG_PRINTLN(F("Unable to allocate interrupt pin, disabling."));
pinIRQ = -1;
enabled = false;
return;
}
}
} else {
PinManagerPinType pins[3] = { { pinA, false }, { pinB, false }, { pinC, false } };
if (!pinManager.allocateMultiplePins(pins, 3, PinOwner::UM_RotaryEncoderUI)) {
// BUG: configuring this usermod with conflicting pins
// will cause it to de-allocate pins it does not own
// (at second config)
// This is the exact type of bug solved by pinManager
// tracking the owner tags....
pinA = pinB = pinC = -1;
enabled = false;
return;
@ -284,6 +508,7 @@ public:
pinMode(pinA, USERMOD_ROTARY_ENCODER_GPIO);
pinMode(pinB, USERMOD_ROTARY_ENCODER_GPIO);
pinMode(pinC, USERMOD_ROTARY_ENCODER_GPIO);
}
loopTime = millis();
@ -301,20 +526,11 @@ public:
#endif
initDone = true;
Enc_A = digitalRead(pinA); // Read encoder pins
Enc_B = digitalRead(pinB);
Enc_A = readPin(pinA); // Read encoder pins
Enc_B = readPin(pinB);
Enc_A_prev = Enc_A;
}
/*
* connected() is called every time the WiFi is (re)connected
* Use it to initialize network interfaces
*/
void connected()
{
//Serial.println("Connected to WiFi!");
}
/*
* loop() is called continuously. Here you can check for events, read sensors, etc.
*
@ -325,10 +541,11 @@ public:
* 2. Try to avoid using the delay() function. NEVER use delays longer than 10 milliseconds.
* Instead, use a timer check as shown here.
*/
void loop()
void RotaryEncoderUIUsermod::loop()
{
if (!enabled || strip.isUpdating()) return;
if (!enabled) return;
unsigned long currentTime = millis(); // get the current elapsed time
if (strip.isUpdating() && ((currentTime - loopTime) < ENCODER_MAX_DELAY_MS)) return; // be nice, but not too nice
// Initialize effectCurrentIndex and effectPaletteIndex to
// current state. We do it here as (at least) effectCurrent
@ -339,14 +556,13 @@ public:
}
if (modes_alpha_indexes[effectCurrentIndex] != effectCurrent || palettes_alpha_indexes[effectPaletteIndex] != effectPalette) {
DEBUG_PRINTLN(F("Current mode or palette changed."));
currentEffectAndPaletteInitialized = false;
}
if (currentTime >= (loopTime + 2)) // 2ms since last check of encoder = 500Hz
{
loopTime = currentTime; // Updates loopTime
bool buttonPressed = !digitalRead(pinC); //0=pressed, 1=released
bool buttonPressed = !readPin(pinC); //0=pressed, 1=released
if (buttonPressed) {
if (!buttonPressedBefore) buttonPressedTime = currentTime;
buttonPressedBefore = true;
@ -413,8 +629,8 @@ public:
if (changedState) select_state = newState;
}
Enc_A = digitalRead(pinA); // Read encoder pins
Enc_B = digitalRead(pinB);
Enc_A = readPin(pinA); // Read encoder pins
Enc_B = readPin(pinB);
if ((Enc_A) && (!Enc_A_prev))
{ // A has gone from high to low
if (Enc_B == LOW) //changes to LOW so that then encoder registers a change at the very end of a pulse
@ -453,16 +669,18 @@ public:
}
}
Enc_A_prev = Enc_A; // Store value of A for next time
loopTime = currentTime; // Updates loopTime
}
}
void displayNetworkInfo() {
void RotaryEncoderUIUsermod::displayNetworkInfo() {
#ifdef USERMOD_FOUR_LINE_DISPLAY
display->networkOverlay(PSTR("NETWORK INFO"), 10000);
#endif
}
void findCurrentEffectAndPalette() {
void RotaryEncoderUIUsermod::findCurrentEffectAndPalette() {
DEBUG_PRINTLN(F("Finding current mode and palette."));
currentEffectAndPaletteInitialized = true;
for (uint8_t i = 0; i < strip.getModeCount(); i++) {
if (modes_alpha_indexes[i] == effectCurrent) {
@ -470,6 +688,7 @@ public:
break;
}
}
DEBUG_PRINTLN(F("Found current mode."));
for (uint8_t i = 0; i < strip.getPaletteCount(); i++) {
if (palettes_alpha_indexes[i] == effectPalette) {
@ -477,9 +696,10 @@ public:
break;
}
}
DEBUG_PRINTLN(F("Found palette."));
}
boolean changeState(const char *stateName, byte markedLine, byte markedCol, byte glyph) {
bool RotaryEncoderUIUsermod::changeState(const char *stateName, byte markedLine, byte markedCol, byte glyph) {
#ifdef USERMOD_FOUR_LINE_DISPLAY
if (display != nullptr) {
if (display->wakeDisplay()) {
@ -494,7 +714,7 @@ public:
return true;
}
void lampUdated() {
void RotaryEncoderUIUsermod::lampUdated() {
//call for notifier -> 0: init 1: direct change 2: button 3: notification 4: nightlight 5: other (No notification)
// 6: fx changed 7: hue 8: preset cycle 9: blynk 10: alexa
//setValuesFromFirstSelectedSeg(); //to make transition work on main segment (should no longer be required)
@ -502,7 +722,7 @@ public:
updateInterfaces(CALL_MODE_BUTTON);
}
void changeBrightness(bool increase) {
void RotaryEncoderUIUsermod::changeBrightness(bool increase) {
#ifdef USERMOD_FOUR_LINE_DISPLAY
if (display && display->wakeDisplay()) {
display->redraw(true);
@ -519,7 +739,7 @@ public:
}
void changeEffect(bool increase) {
void RotaryEncoderUIUsermod::changeEffect(bool increase) {
#ifdef USERMOD_FOUR_LINE_DISPLAY
if (display && display->wakeDisplay()) {
display->redraw(true);
@ -548,7 +768,7 @@ public:
}
void changeEffectSpeed(bool increase) {
void RotaryEncoderUIUsermod::changeEffectSpeed(bool increase) {
#ifdef USERMOD_FOUR_LINE_DISPLAY
if (display && display->wakeDisplay()) {
display->redraw(true);
@ -576,7 +796,7 @@ public:
}
void changeEffectIntensity(bool increase) {
void RotaryEncoderUIUsermod::changeEffectIntensity(bool increase) {
#ifdef USERMOD_FOUR_LINE_DISPLAY
if (display && display->wakeDisplay()) {
display->redraw(true);
@ -604,7 +824,7 @@ public:
}
void changeCustom(uint8_t par, bool increase) {
void RotaryEncoderUIUsermod::changeCustom(uint8_t par, bool increase) {
uint8_t val = 0;
#ifdef USERMOD_FOUR_LINE_DISPLAY
if (display && display->wakeDisplay()) {
@ -649,7 +869,7 @@ public:
}
void changePalette(bool increase) {
void RotaryEncoderUIUsermod::changePalette(bool increase) {
#ifdef USERMOD_FOUR_LINE_DISPLAY
if (display && display->wakeDisplay()) {
display->redraw(true);
@ -678,7 +898,7 @@ public:
}
void changeHue(bool increase){
void RotaryEncoderUIUsermod::changeHue(bool increase){
#ifdef USERMOD_FOUR_LINE_DISPLAY
if (display && display->wakeDisplay()) {
display->redraw(true);
@ -708,7 +928,7 @@ public:
#endif
}
void changeSat(bool increase){
void RotaryEncoderUIUsermod::changeSat(bool increase){
#ifdef USERMOD_FOUR_LINE_DISPLAY
if (display && display->wakeDisplay()) {
display->redraw(true);
@ -737,7 +957,7 @@ public:
#endif
}
void changePreset(bool increase) {
void RotaryEncoderUIUsermod::changePreset(bool increase) {
#ifdef USERMOD_FOUR_LINE_DISPLAY
if (display && display->wakeDisplay()) {
display->redraw(true);
@ -769,7 +989,7 @@ public:
}
}
void changeCCT(bool increase){
void RotaryEncoderUIUsermod::changeCCT(bool increase){
#ifdef USERMOD_FOUR_LINE_DISPLAY
if (display && display->wakeDisplay()) {
display->redraw(true);
@ -803,7 +1023,7 @@ public:
* Below it is shown how this could be used for e.g. a light sensor
*/
/*
void addToJsonInfo(JsonObject& root)
void RotaryEncoderUIUsermod::addToJsonInfo(JsonObject& root)
{
int reading = 20;
//this code adds "u":{"Light":[20," lux"]} to the info object
@ -820,7 +1040,7 @@ public:
* Values in the state object may be modified by connected clients
*/
/*
void addToJsonState(JsonObject &root)
void RotaryEncoderUIUsermod::addToJsonState(JsonObject &root)
{
//root["user0"] = userVar0;
}
@ -831,7 +1051,7 @@ public:
* Values in the state object may be modified by connected clients
*/
/*
void readFromJsonState(JsonObject &root)
void RotaryEncoderUIUsermod::readFromJsonState(JsonObject &root)
{
//userVar0 = root["user0"] | userVar0; //if "user0" key exists in JSON, update, else keep old value
//if (root["bri"] == 255) Serial.println(F("Don't burn down your garage!"));
@ -841,7 +1061,7 @@ public:
/**
* addToConfig() (called from set.cpp) stores persistent properties to cfg.json
*/
void addToConfig(JsonObject &root) {
void RotaryEncoderUIUsermod::addToConfig(JsonObject &root) {
// we add JSON object: {"Rotary-Encoder":{"DT-pin":12,"CLK-pin":14,"SW-pin":13}}
JsonObject top = root.createNestedObject(FPSTR(_name)); // usermodname
top[FPSTR(_enabled)] = enabled;
@ -851,15 +1071,23 @@ public:
top[FPSTR(_presetLow)] = presetLow;
top[FPSTR(_presetHigh)] = presetHigh;
top[FPSTR(_applyToAll)] = applyToAll;
top[FPSTR(_pcf8574)] = usePcf8574;
top[FPSTR(_pcfAddress)] = addrPcf8574;
top[FPSTR(_pcfINTpin)] = pinIRQ;
DEBUG_PRINTLN(F("Rotary Encoder config saved."));
}
void RotaryEncoderUIUsermod::appendConfigData() {
oappend(SET_F("addInfo('Rotary-Encoder:PCF8574-address',1,'<i>(not hex!)</i>');"));
oappend(SET_F("d.extra.push({'Rotary-Encoder':{pin:[['P0',100],['P1',101],['P2',102],['P3',103],['P4',104],['P5',105],['P6',106],['P7',107]]}});"));
}
/**
* readFromConfig() is called before setup() to populate properties from values stored in cfg.json
*
* The function should return true if configuration was successfully loaded or false if there was no configuration.
*/
bool readFromConfig(JsonObject &root) {
bool RotaryEncoderUIUsermod::readFromConfig(JsonObject &root) {
// we look for JSON object: {"Rotary-Encoder":{"DT-pin":12,"CLK-pin":14,"SW-pin":13}}
JsonObject top = root[FPSTR(_name)];
if (top.isNull()) {
@ -870,6 +1098,8 @@ public:
int8_t newDTpin = top[FPSTR(_DT_pin)] | pinA;
int8_t newCLKpin = top[FPSTR(_CLK_pin)] | pinB;
int8_t newSWpin = top[FPSTR(_SW_pin)] | pinC;
int8_t newIRQpin = top[FPSTR(_pcfINTpin)] | pinIRQ;
bool oldPcf8574 = usePcf8574;
presetHigh = top[FPSTR(_presetHigh)] | presetHigh;
presetLow = top[FPSTR(_presetLow)] | presetLow;
@ -879,6 +1109,9 @@ public:
enabled = top[FPSTR(_enabled)] | enabled;
applyToAll = top[FPSTR(_applyToAll)] | applyToAll;
usePcf8574 = top[FPSTR(_pcf8574)] | usePcf8574;
addrPcf8574 = top[FPSTR(_pcfAddress)] | addrPcf8574;
DEBUG_PRINT(FPSTR(_name));
if (!initDone) {
// first run: reading from cfg.json
@ -889,10 +1122,20 @@ public:
} else {
DEBUG_PRINTLN(F(" config (re)loaded."));
// changing parameters from settings page
if (pinA!=newDTpin || pinB!=newCLKpin || pinC!=newSWpin) {
if (pinA!=newDTpin || pinB!=newCLKpin || pinC!=newSWpin || pinIRQ!=newIRQpin) {
if (oldPcf8574) {
if (pinIRQ >= 0) {
detachInterrupt(pinIRQ);
pinManager.deallocatePin(pinIRQ, PinOwner::UM_RotaryEncoderUI);
DEBUG_PRINTLN(F("Deallocated old IRQ pin."));
}
pinIRQ = newIRQpin<100 ? newIRQpin : -1; // ignore PCF8574 pins
} else {
pinManager.deallocatePin(pinA, PinOwner::UM_RotaryEncoderUI);
pinManager.deallocatePin(pinB, PinOwner::UM_RotaryEncoderUI);
pinManager.deallocatePin(pinC, PinOwner::UM_RotaryEncoderUI);
DEBUG_PRINTLN(F("Deallocated old pins."));
}
pinA = newDTpin;
pinB = newCLKpin;
pinC = newSWpin;
@ -904,18 +1147,9 @@ public:
}
}
// use "return !top["newestParameter"].isNull();" when updating Usermod with new features
return !top[FPSTR(_applyToAll)].isNull();
return !top[FPSTR(_pcfINTpin)].isNull();
}
/*
* getId() allows you to optionally give your V2 usermod an unique ID (please define it in const.h!).
* This could be used in the future for the system to determine whether your usermod is installed.
*/
uint16_t getId()
{
return USERMOD_ID_ROTARY_ENC_UI;
}
};
// strings to reduce flash memory usage (used more than twice)
const char RotaryEncoderUIUsermod::_name[] PROGMEM = "Rotary-Encoder";
@ -926,3 +1160,6 @@ const char RotaryEncoderUIUsermod::_SW_pin[] PROGMEM = "SW-pin";
const char RotaryEncoderUIUsermod::_presetHigh[] PROGMEM = "preset-high";
const char RotaryEncoderUIUsermod::_presetLow[] PROGMEM = "preset-low";
const char RotaryEncoderUIUsermod::_applyToAll[] PROGMEM = "apply-2-all-seg";
const char RotaryEncoderUIUsermod::_pcf8574[] PROGMEM = "use-PCF8574";
const char RotaryEncoderUIUsermod::_pcfAddress[] PROGMEM = "PCF8574-address";
const char RotaryEncoderUIUsermod::_pcfINTpin[] PROGMEM = "PCF8574-INT-pin";

25
wled00.sln
View File

@ -1,25 +0,0 @@

Microsoft Visual Studio Solution File, Format Version 12.00
# Visual Studio 15
VisualStudioVersion = 15.0.28010.2046
MinimumVisualStudioVersion = 10.0.40219.1
Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "wled00", "wled00\wled00.vcxproj", "{C5F80730-F44F-4478-BDAE-6634EFC2CA88}"
EndProject
Global
GlobalSection(SolutionConfigurationPlatforms) = preSolution
Debug|x86 = Debug|x86
Release|x86 = Release|x86
EndGlobalSection
GlobalSection(ProjectConfigurationPlatforms) = postSolution
{C5F80730-F44F-4478-BDAE-6634EFC2CA88}.Debug|x86.ActiveCfg = Debug|Win32
{C5F80730-F44F-4478-BDAE-6634EFC2CA88}.Debug|x86.Build.0 = Debug|Win32
{C5F80730-F44F-4478-BDAE-6634EFC2CA88}.Release|x86.ActiveCfg = Release|Win32
{C5F80730-F44F-4478-BDAE-6634EFC2CA88}.Release|x86.Build.0 = Release|Win32
EndGlobalSection
GlobalSection(SolutionProperties) = preSolution
HideSolutionNode = FALSE
EndGlobalSection
GlobalSection(ExtensibilityGlobals) = postSolution
SolutionGuid = {9A679C2B-61D3-400B-B96F-06E604E9CED2}
EndGlobalSection
EndGlobal

57
wled00/FX.cpp
View File

@ -278,7 +278,7 @@ uint16_t mode_random_color(void) {
SEGMENT.fill(color_blend(SEGMENT.color_wheel(SEGENV.aux1), SEGMENT.color_wheel(SEGENV.aux0), fade));
return FRAMETIME;
}
static const char _data_FX_MODE_RANDOM_COLOR[] PROGMEM = "Random Colors@!,Fade time;;!";
static const char _data_FX_MODE_RANDOM_COLOR[] PROGMEM = "Random Colors@!,Fade time;;!;01";
/*
@ -433,7 +433,7 @@ uint16_t mode_rainbow(void) {
return FRAMETIME;
}
static const char _data_FX_MODE_RAINBOW[] PROGMEM = "Colorloop@!,Saturation;;!";
static const char _data_FX_MODE_RAINBOW[] PROGMEM = "Colorloop@!,Saturation;;!;01";
/*
@ -2805,7 +2805,7 @@ uint16_t mode_bouncing_balls(void) {
// number of balls based on intensity setting to max of 7 (cycles colors)
// non-chosen color is a random color
uint16_t numBalls = (SEGMENT.intensity * (maxNumBalls - 1)) / 255 + 1; // minimum 1 ball
const float gravity = -9.81; // standard value of gravity
const float gravity = -9.81f; // standard value of gravity
const bool hasCol2 = SEGCOLOR(2);
const unsigned long time = millis();
@ -4175,11 +4175,9 @@ static const char _data_FX_MODE_DANCING_SHADOWS[] PROGMEM = "Dancing Shadows@!,#
By Stefan Seegel
*/
uint16_t mode_washing_machine(void) {
float speed = tristate_square8(strip.now >> 7, 90, 15);
float quot = 32.0f - ((float)SEGMENT.speed / 16.0f);
speed /= quot;
int speed = tristate_square8(strip.now >> 7, 90, 15);
SEGENV.step += (speed * 128.0f);
SEGENV.step += (speed * 2048) / (512 - SEGMENT.speed);
for (int i = 0; i < SEGLEN; i++) {
uint8_t col = sin8(((SEGMENT.intensity / 25 + 1) * 255 * i / SEGLEN) + (SEGENV.step >> 7));
@ -4593,7 +4591,7 @@ uint16_t mode_2DBlackHole(void) { // By: Stepko https://editor.soulma
}
SEGMENT.fadeToBlackBy(16 + (SEGMENT.speed>>3)); // create fading trails
float t = (float)(millis())/128; // timebase
unsigned long t = millis()/128; // timebase
// outer stars
for (size_t i = 0; i < 8; i++) {
x = beatsin8(SEGMENT.custom1>>3, 0, cols - 1, 0, ((i % 2) ? 128 : 0) + t * i);
@ -5097,21 +5095,22 @@ uint16_t mode_2DLissajous(void) { // By: Andrew Tuline
const uint16_t rows = SEGMENT.virtualHeight();
SEGMENT.fadeToBlackBy(SEGMENT.intensity);
uint_fast16_t phase = (millis() * (1 + SEGENV.custom3)) /32; // allow user to control rotation speed
//for (int i=0; i < 4*(cols+rows); i ++) {
for (int i=0; i < 256; i ++) {
//float xlocn = float(sin8(now/4+i*(SEGMENT.speed>>5))) / 255.0f;
//float ylocn = float(cos8(now/4+i*2)) / 255.0f;
uint8_t xlocn = sin8(millis()/4+i*(SEGMENT.speed>>5));
uint8_t ylocn = cos8(millis()/4+i*2);
xlocn = map(xlocn,0,255,0,cols-1);
ylocn = map(ylocn,0,255,0,rows-1);
SEGMENT.setPixelColorXY(xlocn, ylocn, SEGMENT.color_from_palette(millis()/100+i, false, PALETTE_SOLID_WRAP, 0));
uint_fast8_t xlocn = sin8(phase/2 + (i*SEGMENT.speed)/32);
uint_fast8_t ylocn = cos8(phase/2 + i*2);
xlocn = (cols < 2) ? 1 : (map(2*xlocn, 0,511, 0,2*(cols-1)) +1) /2; // softhack007: "(2* ..... +1) /2" for proper rounding
ylocn = (rows < 2) ? 1 : (map(2*ylocn, 0,511, 0,2*(rows-1)) +1) /2; // "rows > 1" is needed to avoid div/0 in map()
SEGMENT.setPixelColorXY((uint8_t)xlocn, (uint8_t)ylocn, SEGMENT.color_from_palette(millis()/100+i, false, PALETTE_SOLID_WRAP, 0));
}
return FRAMETIME;
} // mode_2DLissajous()
static const char _data_FX_MODE_2DLISSAJOUS[] PROGMEM = "Lissajous@X frequency,Fade rate;!;!;2";
static const char _data_FX_MODE_2DLISSAJOUS[] PROGMEM = "Lissajous@X frequency,Fade rate,,,Speed;!;!;2;;c3=15";
///////////////////////
@ -5275,7 +5274,7 @@ uint16_t mode_2DPlasmaball(void) { // By: Stepko https://edito
SEGMENT.fadeToBlackBy(SEGMENT.custom1>>2);
float t = millis() / (33 - SEGMENT.speed/8);
uint_fast32_t t = (millis() * 8) / (256 - SEGMENT.speed); // optimized to avoid float
for (int i = 0; i < cols; i++) {
uint16_t thisVal = inoise8(i * 30, t, t);
uint16_t thisMax = map(thisVal, 0, 255, 0, cols-1);
@ -5878,11 +5877,17 @@ uint16_t mode_2Dscrollingtext(void) {
case 4: letterWidth = 7; letterHeight = 9; break;
case 5: letterWidth = 5; letterHeight = 12; break;
}
const bool zero = SEGMENT.check3;
const int yoffset = map(SEGMENT.intensity, 0, 255, -rows/2, rows/2) + (rows-letterHeight)/2;
char text[33] = {'\0'};
char text[WLED_MAX_SEGNAME_LEN+1] = {'\0'};
if (SEGMENT.name) for (size_t i=0,j=0; i<strlen(SEGMENT.name); i++) if (SEGMENT.name[i]>31 && SEGMENT.name[i]<128) text[j++] = SEGMENT.name[i];
if (!strlen(text) || !strncmp_P(text,PSTR("#DATE"),5) || !strncmp_P(text,PSTR("#DDMM"),5) || !strncmp_P(text,PSTR("#MMDD"),5) || !strncmp_P(text,PSTR("#TIME"),5) || !strncmp_P(text,PSTR("#HHMM"),5)) { // fallback if empty segment name: display date and time
if (!strlen(text)
|| !strncmp_P(text,PSTR("#DATE"),5)
|| !strncmp_P(text,PSTR("#DDMM"),5)
|| !strncmp_P(text,PSTR("#MMDD"),5)
|| !strncmp_P(text,PSTR("#TIME"),5)
|| !strncmp_P(text,PSTR("#HHMM"),5)) { // fallback if empty segment name: display date and time
char sec[5];
byte AmPmHour = hour(localTime);
boolean isitAM = true;
@ -5892,12 +5897,12 @@ uint16_t mode_2Dscrollingtext(void) {
}
if (useAMPM) sprintf_P(sec, PSTR(" %2s"), (isitAM ? "AM" : "PM"));
else sprintf_P(sec, PSTR(":%02d"), second(localTime));
if (!strncmp_P(text,PSTR("#DATE"),5)) sprintf_P(text, PSTR("%d.%d.%d"), day(localTime), month(localTime), year(localTime));
else if (!strncmp_P(text,PSTR("#DDMM"),5)) sprintf_P(text, PSTR("%d.%d"), day(localTime), month(localTime));
else if (!strncmp_P(text,PSTR("#MMDD"),5)) sprintf_P(text, PSTR("%d/%d"), month(localTime), day(localTime));
else if (!strncmp_P(text,PSTR("#TIME"),5)) sprintf_P(text, PSTR("%2d:%02d%s"), AmPmHour, minute(localTime), sec);
else if (!strncmp_P(text,PSTR("#HHMM"),5)) sprintf_P(text, PSTR("%2d:%02d"), AmPmHour, minute(localTime));
else sprintf_P(text, PSTR("%s %d, %d %2d:%02d%s"), monthShortStr(month(localTime)), day(localTime), year(localTime), AmPmHour, minute(localTime), sec);
if (!strncmp_P(text,PSTR("#DATE"),5)) sprintf_P(text, zero?PSTR("%02d.%02d.%04d"):PSTR("%d.%d.%d"), day(localTime), month(localTime), year(localTime));
else if (!strncmp_P(text,PSTR("#DDMM"),5)) sprintf_P(text, zero?PSTR("%02d.%02d"):PSTR("%d.%d"), day(localTime), month(localTime));
else if (!strncmp_P(text,PSTR("#MMDD"),5)) sprintf_P(text, zero?PSTR("%02d/%02d"):PSTR("%d/%d"), month(localTime), day(localTime));
else if (!strncmp_P(text,PSTR("#TIME"),5)) sprintf_P(text, zero?PSTR("%02d:%02d%s"):PSTR("%2d:%02d%s"), AmPmHour, minute(localTime), sec);
else if (!strncmp_P(text,PSTR("#HHMM"),5)) sprintf_P(text, zero?PSTR("%02d:%02d"):PSTR("%d:%02d"), AmPmHour, minute(localTime));
else sprintf_P(text, zero?PSTR("%s %02d, %04d %02d:%02d%s"):PSTR("%s %d, %d %d:%02d%s"), monthShortStr(month(localTime)), day(localTime), year(localTime), AmPmHour, minute(localTime), sec);
}
const int numberOfLetters = strlen(text);
@ -5924,7 +5929,7 @@ uint16_t mode_2Dscrollingtext(void) {
return FRAMETIME;
}
static const char _data_FX_MODE_2DSCROLLTEXT[] PROGMEM = "Scrolling Text@!,Y Offset,Trail,Font size,,Gradient,Overlay;!,!,Gradient;!;2;ix=128,c1=0,rev=0,mi=0,rY=0,mY=0";
static const char _data_FX_MODE_2DSCROLLTEXT[] PROGMEM = "Scrolling Text@!,Y Offset,Trail,Font size,,Gradient,Overlay,0;!,!,Gradient;!;2;ix=128,c1=0,rev=0,mi=0,rY=0,mY=0";
////////////////////////////
@ -6835,7 +6840,7 @@ uint16_t mode_freqmatrix(void) { // Freqmatrix. By Andreas Plesch
return FRAMETIME;
} // mode_freqmatrix()
static const char _data_FX_MODE_FREQMATRIX[] PROGMEM = "Freqmatrix@Time delay,Sound effect,Low bin,High bin,Sensivity;;;1f;m12=3,si=0"; // Corner, Beatsin
static const char _data_FX_MODE_FREQMATRIX[] PROGMEM = "Freqmatrix@Speed,Sound effect,Low bin,High bin,Sensivity;;;1f;m12=3,si=0"; // Corner, Beatsin
//////////////////////
@ -6939,7 +6944,7 @@ uint16_t mode_freqwave(void) { // Freqwave. By Andreas Pleschun
return FRAMETIME;
} // mode_freqwave()
static const char _data_FX_MODE_FREQWAVE[] PROGMEM = "Freqwave@Time delay,Sound effect,Low bin,High bin,Pre-amp;;;1f;m12=2,si=0"; // Circle, Beatsin
static const char _data_FX_MODE_FREQWAVE[] PROGMEM = "Freqwave@Speed,Sound effect,Low bin,High bin,Pre-amp;;;1f;m12=2,si=0"; // Circle, Beatsin
///////////////////////

14
wled00/FX.h
View File

@ -353,7 +353,8 @@ typedef struct Segment {
bool mirror_y : 1; // 8 : mirrored Y (2D)
bool transpose : 1; // 9 : transposed (2D, swapped X & Y)
uint8_t map1D2D : 3; // 10-12 : mapping for 1D effect on 2D (0-use as strip, 1-expand vertically, 2-circular/arc, 3-rectangular/corner, ...)
uint8_t soundSim : 3; // 13-15 : 0-7 sound simulation types
uint8_t soundSim : 1; // 13 : 0-1 sound simulation types ("soft" & "hard" or "on"/"off")
uint8_t set : 2; // 14-15 : 0-3 UI segment sets/groups
};
};
uint8_t grouping, spacing;
@ -486,7 +487,7 @@ typedef struct Segment {
//if (leds) Serial.printf(" [%u]", length()*sizeof(CRGB));
//Serial.println();
//#endif
if (!Segment::_globalLeds && leds) free(leds);
if (!Segment::_globalLeds && leds) { free(leds); leds = nullptr;} // reset to nullptr, to avoid race conditions
if (name) delete[] name;
if (_t) delete _t;
deallocateData();
@ -506,8 +507,8 @@ typedef struct Segment {
inline bool hasRGB(void) const { return _isRGB; }
inline bool hasWhite(void) const { return _hasW; }
inline bool isCCT(void) const { return _isCCT; }
inline uint16_t width(void) const { return stop - start; } // segment width in physical pixels (length if 1D)
inline uint16_t height(void) const { return stopY - startY; } // segment height (if 2D) in physical pixels
inline uint16_t width(void) const { return (stop > start) ? (stop - start) : 0; } // segment width in physical pixels (length if 1D)
inline uint16_t height(void) const { return (stopY > startY) ? (stopY - startY) : 0; } // segment height (if 2D) in physical pixels // softhack007: make sure its always > 0
inline uint16_t length(void) const { return width() * height(); } // segment length (count) in physical pixels
inline uint16_t groupLength(void) const { return grouping + spacing; }
inline uint8_t getLightCapabilities(void) const { return _capabilities; }
@ -515,7 +516,7 @@ typedef struct Segment {
static uint16_t getUsedSegmentData(void) { return _usedSegmentData; }
static void addUsedSegmentData(int len) { _usedSegmentData += len; }
void set(uint16_t i1, uint16_t i2, uint8_t grp=1, uint8_t spc=0, uint16_t ofs=UINT16_MAX, uint16_t i1Y=0, uint16_t i2Y=1);
void setUp(uint16_t i1, uint16_t i2, uint8_t grp=1, uint8_t spc=0, uint16_t ofs=UINT16_MAX, uint16_t i1Y=0, uint16_t i2Y=1);
bool setColor(uint8_t slot, uint32_t c); //returns true if changed
void setCCT(uint16_t k);
void setOpacity(uint8_t o);
@ -709,7 +710,7 @@ class WS2812FX { // 96 bytes
panel.clear();
#endif
customPalettes.clear();
if (useLedsArray && Segment::_globalLeds) free(Segment::_globalLeds);
if (useLedsArray && Segment::_globalLeds) {free(Segment::_globalLeds); Segment::_globalLeds = nullptr;} // reset to nullptr, to avoid race conditions
}
static WS2812FX* getInstance(void) { return instance; }
@ -771,6 +772,7 @@ class WS2812FX { // 96 bytes
getActiveSegmentsNum(void),
getFirstSelectedSegId(void),
getLastActiveSegmentId(void),
getActiveSegsLightCapabilities(bool selectedOnly = false),
setPixelSegment(uint8_t n);
inline uint8_t getBrightness(void) { return _brightness; }

36
wled00/FX_2Dfcn.cpp
View File

@ -191,6 +191,8 @@ uint32_t WS2812FX::getPixelColorXY(uint16_t x, uint16_t y) {
uint16_t /*IRAM_ATTR*/ Segment::XY(uint16_t x, uint16_t y) {
uint16_t width = virtualWidth(); // segment width in logical pixels
uint16_t height = virtualHeight(); // segment height in logical pixels
if (width == 0) return 0; // softhack007 avoid div/0
if (height == 0) return (x%width); // softhack007 avoid div/0
return (x%width) + (y%height) * width;
}
@ -202,7 +204,6 @@ void /*IRAM_ATTR*/ Segment::setPixelColorXY(int x, int y, uint32_t col)
if (leds) leds[XY(x,y)] = col;
uint8_t _bri_t = currentBri(on ? opacity : 0);
if (!_bri_t && !transitional) return;
if (_bri_t < 255) {
byte r = scale8(R(col), _bri_t);
byte g = scale8(G(col), _bri_t);
@ -305,6 +306,7 @@ void Segment::blendPixelColorXY(uint16_t x, uint16_t y, uint32_t color, uint8_t
// Adds the specified color with the existing pixel color perserving color balance.
void Segment::addPixelColorXY(int x, int y, uint32_t color, bool fast) {
if (x >= virtualWidth() || y >= virtualHeight() || x<0 || y<0) return; // if pixel would fall out of virtual segment just exit
uint32_t col = getPixelColorXY(x,y);
uint8_t r = R(col);
uint8_t g = G(col);
@ -329,24 +331,26 @@ void Segment::fadePixelColorXY(uint16_t x, uint16_t y, uint8_t fade) {
// blurRow: perform a blur on a row of a rectangular matrix
void Segment::blurRow(uint16_t row, fract8 blur_amount) {
const uint16_t cols = virtualWidth();
const uint16_t rows = virtualHeight();
const uint_fast16_t cols = virtualWidth();
const uint_fast16_t rows = virtualHeight();
if (row >= rows) return;
// blur one row
uint8_t keep = 255 - blur_amount;
uint8_t seep = blur_amount >> 1;
CRGB carryover = CRGB::Black;
for (uint16_t x = 0; x < cols; x++) {
for (uint_fast16_t x = 0; x < cols; x++) {
CRGB cur = getPixelColorXY(x, row);
CRGB before = cur; // remember color before blur
CRGB part = cur;
part.nscale8(seep);
cur.nscale8(keep);
cur += carryover;
if (x) {
if (x>0) {
CRGB prev = CRGB(getPixelColorXY(x-1, row)) + part;
setPixelColorXY(x-1, row, prev);
}
if (before != cur) // optimization: only set pixel if color has changed
setPixelColorXY(x, row, cur);
carryover = part;
}
@ -354,25 +358,27 @@ void Segment::blurRow(uint16_t row, fract8 blur_amount) {
// blurCol: perform a blur on a column of a rectangular matrix
void Segment::blurCol(uint16_t col, fract8 blur_amount) {
const uint16_t cols = virtualWidth();
const uint16_t rows = virtualHeight();
const uint_fast16_t cols = virtualWidth();
const uint_fast16_t rows = virtualHeight();
if (col >= cols) return;
// blur one column
uint8_t keep = 255 - blur_amount;
uint8_t seep = blur_amount >> 1;
CRGB carryover = CRGB::Black;
for (uint16_t i = 0; i < rows; i++) {
CRGB cur = getPixelColorXY(col, i);
for (uint_fast16_t y = 0; y < rows; y++) {
CRGB cur = getPixelColorXY(col, y);
CRGB part = cur;
CRGB before = cur; // remember color before blur
part.nscale8(seep);
cur.nscale8(keep);
cur += carryover;
if (i) {
CRGB prev = CRGB(getPixelColorXY(col, i-1)) + part;
setPixelColorXY(col, i-1, prev);
if (y>0) {
CRGB prev = CRGB(getPixelColorXY(col, y-1)) + part;
setPixelColorXY(col, y-1, prev);
}
setPixelColorXY(col, i, cur);
if (before != cur) // optimization: only set pixel if color has changed
setPixelColorXY(col, y, cur);
carryover = part;
}
}
@ -391,8 +397,8 @@ void Segment::box_blur(uint16_t i, bool vertical, fract8 blur_amount) {
for (uint16_t j = 0; j < dim1; j++) {
uint16_t x = vertical ? i : j;
uint16_t y = vertical ? j : i;
uint16_t xp = vertical ? x : x-1;
uint16_t yp = vertical ? y-1 : y;
int16_t xp = vertical ? x : x-1; // "signed" to prevent underflow
int16_t yp = vertical ? y-1 : y; // "signed" to prevent underflow
uint16_t xn = vertical ? x : x+1;
uint16_t yn = vertical ? y+1 : y;
CRGB curr = getPixelColorXY(x,y);

131
wled00/FX_fcn.cpp
View File

@ -90,18 +90,18 @@ Segment::Segment(const Segment &orig) {
if (orig.name) { name = new char[strlen(orig.name)+1]; if (name) strcpy(name, orig.name); }
if (orig.data) { if (allocateData(orig._dataLen)) memcpy(data, orig.data, orig._dataLen); }
if (orig._t) { _t = new Transition(orig._t->_dur, orig._t->_briT, orig._t->_cctT, orig._t->_colorT); }
if (orig.leds && !Segment::_globalLeds) { leds = (CRGB*)malloc(sizeof(CRGB)*length()); if (leds) memcpy(leds, orig.leds, sizeof(CRGB)*length()); }
if (orig.leds && !Segment::_globalLeds && length() > 0) { leds = (CRGB*)malloc(sizeof(CRGB)*length()); if (leds) memcpy(leds, orig.leds, sizeof(CRGB)*length()); }
}
// move constructor
Segment::Segment(Segment &&orig) noexcept {
//DEBUG_PRINTLN(F("-- Move segment constructor --"));
memcpy((void*)this, (void*)&orig, sizeof(Segment));
orig.leds = nullptr;
orig.name = nullptr;
orig.data = nullptr;
orig._dataLen = 0;
orig._t = nullptr;
orig.leds = nullptr;
}
// copy assignment
@ -111,7 +111,7 @@ Segment& Segment::operator= (const Segment &orig) {
// clean destination
if (name) delete[] name;
if (_t) delete _t;
if (leds && !Segment::_globalLeds) free(leds);
if (leds && !Segment::_globalLeds) {free(leds); leds=nullptr;}
deallocateData();
// copy source
memcpy((void*)this, (void*)&orig, sizeof(Segment));
@ -125,7 +125,7 @@ Segment& Segment::operator= (const Segment &orig) {
if (orig.name) { name = new char[strlen(orig.name)+1]; if (name) strcpy(name, orig.name); }
if (orig.data) { if (allocateData(orig._dataLen)) memcpy(data, orig.data, orig._dataLen); }
if (orig._t) { _t = new Transition(orig._t->_dur, orig._t->_briT, orig._t->_cctT, orig._t->_colorT); }
if (orig.leds && !Segment::_globalLeds) { leds = (CRGB*)malloc(sizeof(CRGB)*length()); if (leds) memcpy(leds, orig.leds, sizeof(CRGB)*length()); }
if (orig.leds && !Segment::_globalLeds && length() > 0) { leds = (CRGB*)malloc(sizeof(CRGB)*length()); if (leds) memcpy(leds, orig.leds, sizeof(CRGB)*length()); }
}
return *this;
}
@ -137,7 +137,7 @@ Segment& Segment::operator= (Segment &&orig) noexcept {
if (name) delete[] name; // free old name
deallocateData(); // free old runtime data
if (_t) delete _t;
if (leds && !Segment::_globalLeds) free(leds);
if (leds && !Segment::_globalLeds) {free(leds); leds=nullptr;}
memcpy((void*)this, (void*)&orig, sizeof(Segment));
orig.name = nullptr;
orig.data = nullptr;
@ -152,12 +152,12 @@ bool Segment::allocateData(size_t len) {
if (data && _dataLen == len) return true; //already allocated
deallocateData();
if (Segment::getUsedSegmentData() + len > MAX_SEGMENT_DATA) return false; //not enough memory
// if possible use SPI RAM on ESP32
#if defined(ARDUINO_ARCH_ESP32) && defined(WLED_USE_PSRAM)
if (psramFound())
data = (byte*) ps_malloc(len);
else
#endif
// do not use SPI RAM on ESP32 since it is slow
//#if defined(ARDUINO_ARCH_ESP32) && defined(BOARD_HAS_PSRAM) && defined(WLED_USE_PSRAM)
//if (psramFound())
// data = (byte*) ps_malloc(len);
//else
//#endif
data = (byte*) malloc(len);
if (!data) return false; //allocation failed
Segment::addUsedSegmentData(len);
@ -184,7 +184,7 @@ void Segment::deallocateData() {
void Segment::resetIfRequired() {
if (reset) {
if (leds && !Segment::_globalLeds) { free(leds); leds = nullptr; }
if (transitional && _t) { transitional = false; delete _t; _t = nullptr; }
//if (transitional && _t) { transitional = false; delete _t; _t = nullptr; }
deallocateData();
next_time = 0; step = 0; call = 0; aux0 = 0; aux1 = 0;
reset = false; // setOption(SEG_OPTION_RESET, false);
@ -305,23 +305,26 @@ CRGBPalette16 &Segment::loadPalette(CRGBPalette16 &targetPalette, uint8_t pal) {
}
void Segment::startTransition(uint16_t dur) {
if (transitional || _t) return; // already in transition no need to store anything
if (!dur) {
transitional = false;
if (_t) {
delete _t;
_t = nullptr;
}
return;
}
if (transitional && _t) return; // already in transition no need to store anything
// starting a transition has to occur before change so we get current values 1st
uint8_t _briT = currentBri(on ? opacity : 0);
uint8_t _cctT = currentBri(cct, true);
CRGBPalette16 _palT = CRGBPalette16(DEFAULT_COLOR); loadPalette(_palT, palette);
uint8_t _modeP = mode;
uint32_t _colorT[NUM_COLORS];
for (size_t i=0; i<NUM_COLORS; i++) _colorT[i] = currentColor(i, colors[i]);
if (!_t) _t = new Transition(dur); // no previous transition running
_t = new Transition(dur); // no previous transition running
if (!_t) return; // failed to allocate data
_t->_briT = _briT;
_t->_cctT = _cctT;
CRGBPalette16 _palT = CRGBPalette16(DEFAULT_COLOR); loadPalette(_palT, palette);
_t->_briT = on ? opacity : 0;
_t->_cctT = cct;
_t->_palT = _palT;
_t->_modeP = _modeP;
for (size_t i=0; i<NUM_COLORS; i++) _t->_colorT[i] = _colorT[i];
_t->_modeP = mode;
for (size_t i=0; i<NUM_COLORS; i++) _t->_colorT[i] = colors[i];
transitional = true; // setOption(SEG_OPTION_TRANSITIONAL, true);
}
@ -334,10 +337,10 @@ uint16_t Segment::progress() {
}
uint8_t Segment::currentBri(uint8_t briNew, bool useCct) {
if (transitional && _t) {
uint32_t prog = progress() + 1;
if (useCct) return ((briNew * prog) + _t->_cctT * (0x10000 - prog)) >> 16;
else return ((briNew * prog) + _t->_briT * (0x10000 - prog)) >> 16;
uint32_t prog = progress();
if (transitional && _t && prog < 0xFFFFU) {
if (useCct) return ((briNew * prog) + _t->_cctT * (0xFFFFU - prog)) >> 16;
else return ((briNew * prog) + _t->_briT * (0xFFFFU - prog)) >> 16;
} else {
return briNew;
}
@ -367,19 +370,18 @@ CRGBPalette16 &Segment::currentPalette(CRGBPalette16 &targetPalette, uint8_t pal
void Segment::handleTransition() {
if (!transitional) return;
unsigned long maxWait = millis() + 20;
if (mode == FX_MODE_STATIC && next_time > maxWait) next_time = maxWait;
if (progress() == 0xFFFFU) {
if (_t) {
if (_t->_modeP != mode) markForReset();
uint16_t _progress = progress();
if (_progress == 0xFFFFU) transitional = false; // finish transitioning segment
if (_t) { // thanks to @nXm AKA https://github.com/NMeirer
if (_progress >= 32767U && _t->_modeP != mode) markForReset();
if (_progress == 0xFFFFU) {
delete _t;
_t = nullptr;
}
transitional = false; // finish transitioning segment
}
}
void Segment::set(uint16_t i1, uint16_t i2, uint8_t grp, uint8_t spc, uint16_t ofs, uint16_t i1Y, uint16_t i2Y) {
void Segment::setUp(uint16_t i1, uint16_t i2, uint8_t grp, uint8_t spc, uint16_t ofs, uint16_t i1Y, uint16_t i2Y) {
//return if neither bounds nor grouping have changed
bool boundsUnchanged = (start == i1 && stop == i2);
#ifndef WLED_DISABLE_2D
@ -474,7 +476,7 @@ void Segment::setMode(uint8_t fx, bool loadDefaults) {
sOpt = extractModeDefaults(fx, "o2"); check2 = (sOpt >= 0) ? (bool)sOpt : false;
sOpt = extractModeDefaults(fx, "o3"); check3 = (sOpt >= 0) ? (bool)sOpt : false;
sOpt = extractModeDefaults(fx, "m12"); if (sOpt >= 0) map1D2D = constrain(sOpt, 0, 7);
sOpt = extractModeDefaults(fx, "si"); if (sOpt >= 0) soundSim = constrain(sOpt, 0, 7);
sOpt = extractModeDefaults(fx, "si"); if (sOpt >= 0) soundSim = constrain(sOpt, 0, 1);
sOpt = extractModeDefaults(fx, "rev"); if (sOpt >= 0) reverse = (bool)sOpt;
sOpt = extractModeDefaults(fx, "mi"); if (sOpt >= 0) mirror = (bool)sOpt; // NOTE: setting this option is a risky business
sOpt = extractModeDefaults(fx, "rY"); if (sOpt >= 0) reverse_y = (bool)sOpt;
@ -545,6 +547,7 @@ uint16_t Segment::virtualLength() const {
}
#endif
uint16_t groupLen = groupLength();
if (groupLen < 1) groupLen = 1; // prevent division by zero - better safe than sorry ...
uint16_t vLength = (length() + groupLen - 1) / groupLen;
if (mirror) vLength = (vLength + 1) /2; // divide by 2 if mirror, leave at least a single LED
return vLength;
@ -623,7 +626,6 @@ void IRAM_ATTR Segment::setPixelColor(int i, uint32_t col)
uint16_t len = length();
uint8_t _bri_t = currentBri(on ? opacity : 0);
if (!_bri_t && !transitional && fadeTransition) return; // if _bri_t == 0 && segment is not transitionig && transitions are enabled then save a few CPU cycles
if (_bri_t < 255) {
byte r = scale8(R(col), _bri_t);
byte g = scale8(G(col), _bri_t);
@ -728,7 +730,7 @@ uint32_t Segment::getPixelColor(int i)
i += start;
/* offset/phase */
i += offset;
if (i >= stop) i -= length();
if ((i >= stop) && (stop>0)) i -= length(); // avoids negative pixel index (stop = 0 is a possible value)
return strip.getPixelColor(i);
}
@ -750,7 +752,7 @@ uint8_t Segment::differs(Segment& b) const {
if (startY != b.startY) d |= SEG_DIFFERS_BOUNDS;
if (stopY != b.stopY) d |= SEG_DIFFERS_BOUNDS;
//bit pattern: (msb first) sound:3, mapping:3, transposed, mirrorY, reverseY, [transitional, reset,] paused, mirrored, on, reverse, [selected]
//bit pattern: (msb first) set:2, sound:1, mapping:3, transposed, mirrorY, reverseY, [transitional, reset,] paused, mirrored, on, reverse, [selected]
if ((options & 0b1111111110011110U) != (b.options & 0b1111111110011110U)) d |= SEG_DIFFERS_OPT;
if ((options & 0x0001U) != (b.options & 0x0001U)) d |= SEG_DIFFERS_SEL;
for (uint8_t i = 0; i < NUM_COLORS; i++) if (colors[i] != b.colors[i]) d |= SEG_DIFFERS_COL;
@ -885,6 +887,7 @@ void Segment::fade_out(uint8_t rate) {
// fades all pixels to black using nscale8()
void Segment::fadeToBlackBy(uint8_t fadeBy) {
if (fadeBy == 0) return; // optimization - no scaling to apply
const uint16_t cols = is2D() ? virtualWidth() : virtualLength();
const uint16_t rows = virtualHeight(); // will be 1 for 1D
@ -899,23 +902,26 @@ void Segment::fadeToBlackBy(uint8_t fadeBy) {
*/
void Segment::blur(uint8_t blur_amount)
{
if (blur_amount == 0) return; // optimization: 0 means "don't blur"
#ifndef WLED_DISABLE_2D
if (is2D()) {
// compatibility with 2D
const uint16_t cols = virtualWidth();
const uint16_t rows = virtualHeight();
for (uint16_t i = 0; i < rows; i++) blurRow(i, blur_amount); // blur all rows
for (uint16_t k = 0; k < cols; k++) blurCol(k, blur_amount); // blur all columns
const uint_fast16_t cols = virtualWidth();
const uint_fast16_t rows = virtualHeight();
for (uint_fast16_t i = 0; i < rows; i++) blurRow(i, blur_amount); // blur all rows
for (uint_fast16_t k = 0; k < cols; k++) blurCol(k, blur_amount); // blur all columns
return;
}
#endif
uint8_t keep = 255 - blur_amount;
uint8_t seep = blur_amount >> 1;
CRGB carryover = CRGB::Black;
for(uint16_t i = 0; i < virtualLength(); i++)
uint_fast16_t vlength = virtualLength();
for(uint_fast16_t i = 0; i < vlength; i++)
{
CRGB cur = CRGB(getPixelColor(i));
CRGB part = cur;
CRGB before = cur; // remember color before blur
part.nscale8(seep);
cur.nscale8(keep);
cur += carryover;
@ -924,9 +930,10 @@ void Segment::blur(uint8_t blur_amount)
uint8_t r = R(c);
uint8_t g = G(c);
uint8_t b = B(c);
setPixelColor(i-1, qadd8(r, part.red), qadd8(g, part.green), qadd8(b, part.blue));
setPixelColor((uint16_t)(i-1), qadd8(r, part.red), qadd8(g, part.green), qadd8(b, part.blue));
}
setPixelColor(i,cur.red, cur.green, cur.blue);
if (before != cur) // optimization: only set pixel if color has changed
setPixelColor((uint16_t)i,cur.red, cur.green, cur.blue);
carryover = part;
}
}
@ -1076,7 +1083,7 @@ void WS2812FX::finalizeInit(void)
//else
//#endif
Segment::_globalLeds = (CRGB*) malloc(arrSize);
memset(Segment::_globalLeds, 0, arrSize);
if (Segment::_globalLeds && (arrSize > 0)) memset(Segment::_globalLeds, 0, arrSize);
}
//segments are created in makeAutoSegments();
@ -1095,6 +1102,8 @@ void WS2812FX::service() {
_isServicing = true;
_segment_index = 0;
for (segment &seg : _segments) {
// process transition (mode changes in the middle of transition)
seg.handleTransition();
// reset the segment runtime data if needed
seg.resetIfRequired();
@ -1123,8 +1132,6 @@ void WS2812FX::service() {
delay = (*_mode[seg.currentMode(seg.mode)])();
if (seg.mode != FX_MODE_HALLOWEEN_EYES) seg.call++;
if (seg.transitional && delay > FRAMETIME) delay = FRAMETIME; // force faster updates during transition
seg.handleTransition();
}
seg.next_time = nowUp + delay;
@ -1221,7 +1228,8 @@ void WS2812FX::estimateCurrentAndLimitBri() {
}
uint32_t powerSum0 = powerSum;
powerSum *= _brightness;
//powerSum *= _brightness; // for NPBrightnessBus
powerSum *= 255; // no need to scale down powerSum - NPB-LG getPixelColor returns colors scaled down by brightness
if (powerSum > powerBudget) //scale brightness down to stay in current limit
{
@ -1229,11 +1237,14 @@ void WS2812FX::estimateCurrentAndLimitBri() {
uint16_t scaleI = scale * 255;
uint8_t scaleB = (scaleI > 255) ? 255 : scaleI;
uint8_t newBri = scale8(_brightness, scaleB);
busses.setBrightness(newBri); //to keep brightness uniform, sets virtual busses too
currentMilliamps = (powerSum0 * newBri) / puPerMilliamp;
// to keep brightness uniform, sets virtual busses too - softhack007: apply reductions immediately
if (scaleB < 255) busses.setBrightness(scaleB, true); // NPB-LG has already applied brightness, so its suffifient to post-apply scaling ==> use scaleB instead of newBri
busses.setBrightness(newBri, false); // set new brightness for next frame
//currentMilliamps = (powerSum0 * newBri) / puPerMilliamp; // for NPBrightnessBus
currentMilliamps = (powerSum0 * scaleB) / puPerMilliamp; // for NPBus-LG
} else {
currentMilliamps = powerSum / puPerMilliamp;
busses.setBrightness(_brightness);
busses.setBrightness(_brightness, false); // set new brightness for next frame
}
currentMilliamps += MA_FOR_ESP; //add power of ESP back to estimate
currentMilliamps += pLen; //add standby power back to estimate
@ -1330,6 +1341,14 @@ void WS2812FX::setBrightness(uint8_t b, bool direct) {
}
}
uint8_t WS2812FX::getActiveSegsLightCapabilities(bool selectedOnly) {
uint8_t totalLC = 0;
for (segment &seg : _segments) {
if (seg.isActive() && (!selectedOnly || seg.isSelected())) totalLC |= seg.getLightCapabilities();
}
return totalLC;
}
uint8_t WS2812FX::getFirstSelectedSegId(void)
{
size_t i = 0;
@ -1427,7 +1446,7 @@ Segment& WS2812FX::getSegment(uint8_t id) {
void WS2812FX::setSegment(uint8_t n, uint16_t i1, uint16_t i2, uint8_t grouping, uint8_t spacing, uint16_t offset, uint16_t startY, uint16_t stopY) {
if (n >= _segments.size()) return;
_segments[n].set(i1, i2, grouping, spacing, offset, startY, stopY);
_segments[n].setUp(i1, i2, grouping, spacing, offset, startY, stopY);
}
void WS2812FX::restartRuntime() {
@ -1583,7 +1602,7 @@ void WS2812FX::setRange(uint16_t i, uint16_t i2, uint32_t col) {
}
void WS2812FX::setTransitionMode(bool t) {
for (segment &seg : _segments) if (!seg.transitional) seg.startTransition(t ? _transitionDur : 0);
for (segment &seg : _segments) seg.startTransition(t ? _transitionDur : 0);
}
#ifdef WLED_DEBUG

14
wled00/NodeStruct.h
View File

@ -9,9 +9,9 @@
#include <IPAddress.h>
#define NODE_TYPE_ID_UNDEFINED 0
#define NODE_TYPE_ID_ESP8266 82
#define NODE_TYPE_ID_ESP32 32
#define NODE_TYPE_ID_ESP32S2 33
#define NODE_TYPE_ID_ESP8266 82 // should be 1
#define NODE_TYPE_ID_ESP32 32 // should be 2
#define NODE_TYPE_ID_ESP32S2 33 // etc
#define NODE_TYPE_ID_ESP32S3 34
#define NODE_TYPE_ID_ESP32C3 35
@ -23,7 +23,13 @@ struct NodeStruct
String nodeName;
IPAddress ip;
uint8_t age;
uint8_t nodeType;
union {
uint8_t nodeType; // a waste of space as we only have 5 types
struct {
uint8_t type : 7; // still a waste of space (4 bits would be enough and future-proof)
bool on : 1;
};
};
uint32_t build;
NodeStruct() : age(0), nodeType(0), build(0)

7
wled00/alexa.cpp
View File

@ -105,8 +105,15 @@ void onAlexaChange(EspalexaDevice* dev)
uint16_t k = 1000000 / ct; //mireds to kelvin
if (strip.hasCCTBus()) {
bool hasManualWhite = strip.getActiveSegsLightCapabilities(true) & SEG_CAPABILITY_W;
strip.setCCT(k);
if (hasManualWhite) {
rgbw[0] = 0; rgbw[1] = 0; rgbw[2] = 0; rgbw[3] = 255;
} else {
rgbw[0] = 255; rgbw[1] = 255; rgbw[2] = 255; rgbw[3] = 0;
dev->setValue(255);
}
} else if (strip.hasWhiteChannel()) {
switch (ct) { //these values empirically look good on RGBW
case 199: rgbw[0]=255; rgbw[1]=255; rgbw[2]=255; rgbw[3]=255; break;

10
wled00/bus_manager.cpp
View File

@ -126,15 +126,15 @@ bool BusDigital::canShow() {
return PolyBus::canShow(_busPtr, _iType);
}
void BusDigital::setBrightness(uint8_t b) {
void BusDigital::setBrightness(uint8_t b, bool immediate) {
//Fix for turning off onboard LED breaking bus
#ifdef LED_BUILTIN
if (_bri == 0 && b > 0) {
if (_pins[0] == LED_BUILTIN || _pins[1] == LED_BUILTIN) PolyBus::begin(_busPtr, _iType, _pins);
}
#endif
Bus::setBrightness(b);
PolyBus::setBrightness(_busPtr, _iType, b);
Bus::setBrightness(b, immediate);
PolyBus::setBrightness(_busPtr, _iType, b, immediate);
}
//If LEDs are skipped, it is possible to use the first as a status LED.
@ -515,9 +515,9 @@ void IRAM_ATTR BusManager::setPixelColor(uint16_t pix, uint32_t c, int16_t cct)
}
}
void BusManager::setBrightness(uint8_t b) {
void BusManager::setBrightness(uint8_t b, bool immediate) {
for (uint8_t i = 0; i < numBusses; i++) {
busses[i]->setBrightness(b);
busses[i]->setBrightness(b, immediate);
}
}

6
wled00/bus_manager.h
View File

@ -108,7 +108,7 @@ class Bus {
virtual void setStatusPixel(uint32_t c) {}
virtual void setPixelColor(uint16_t pix, uint32_t c) = 0;
virtual uint32_t getPixelColor(uint16_t pix) { return 0; }
virtual void setBrightness(uint8_t b) { _bri = b; };
virtual void setBrightness(uint8_t b, bool immediate=false) { _bri = b; };
virtual void cleanup() = 0;
virtual uint8_t getPins(uint8_t* pinArray) { return 0; }
virtual uint16_t getLength() { return _len; }
@ -181,7 +181,7 @@ class BusDigital : public Bus {
bool canShow();
void setBrightness(uint8_t b);
void setBrightness(uint8_t b, bool immediate);
void setStatusPixel(uint32_t c);
@ -345,7 +345,7 @@ class BusManager {
void setPixelColor(uint16_t pix, uint32_t c, int16_t cct=-1);
void setBrightness(uint8_t b);
void setBrightness(uint8_t b, bool immediate=false); // immediate=true is for use in ABL, it applies brightness immediately (warning: inefficient)
void setSegmentCCT(int16_t cct, bool allowWBCorrection = false);

137
wled00/bus_wrapper.h
View File

@ -122,6 +122,9 @@
#define I_SS_LPO_3 48
// In the following NeoGammaNullMethod can be replaced with NeoGammaWLEDMethod to perform Gamma correction implicitly
// unfortunately that may apply Gamma correction to pre-calculated palettes which is undesired
/*** ESP8266 Neopixel methods ***/
#ifdef ESP8266
//RGB
@ -247,7 +250,11 @@
#define B_SS_LPO_3 NeoPixelBusLg<Lpd6803GrbFeature, Lpd6803Method, NeoGammaNullMethod>
//WS2801
#ifdef WLED_USE_ETHERNET
#define B_HS_WS1_3 NeoPixelBusLg<NeoRbgFeature, Ws2801MethodBase<TwoWireHspiImple<SpiSpeedHz>>, NeoGammaNullMethod>
#else
#define B_HS_WS1_3 NeoPixelBusLg<NeoRbgFeature, Ws2801SpiHzMethod, NeoGammaNullMethod>
#endif
#define B_SS_WS1_3 NeoPixelBusLg<NeoRbgFeature, Ws2801Method, NeoGammaNullMethod>
//P9813
@ -799,101 +806,101 @@ class PolyBus {
case I_SS_P98_3: (static_cast<B_SS_P98_3*>(busPtr))->SetPixelColor(pix, RgbColor(col)); break;
}
};
static void setBrightness(void* busPtr, uint8_t busType, uint8_t b) {
static void setBrightness(void* busPtr, uint8_t busType, uint8_t b, bool immediate) { // immediate=true is for use in ABL, it applies brightness immediately (warning: inefficient)
switch (busType) {
case I_NONE: break;
#ifdef ESP8266
case I_8266_U0_NEO_3: (static_cast<B_8266_U0_NEO_3*>(busPtr))->SetLuminance(b); break;
case I_8266_U1_NEO_3: (static_cast<B_8266_U1_NEO_3*>(busPtr))->SetLuminance(b); break;
case I_8266_DM_NEO_3: (static_cast<B_8266_DM_NEO_3*>(busPtr))->SetLuminance(b); break;
case I_8266_BB_NEO_3: (static_cast<B_8266_BB_NEO_3*>(busPtr))->SetLuminance(b); break;
case I_8266_U0_NEO_4: (static_cast<B_8266_U0_NEO_4*>(busPtr))->SetLuminance(b); break;
case I_8266_U1_NEO_4: (static_cast<B_8266_U1_NEO_4*>(busPtr))->SetLuminance(b); break;
case I_8266_DM_NEO_4: (static_cast<B_8266_DM_NEO_4*>(busPtr))->SetLuminance(b); break;
case I_8266_BB_NEO_4: (static_cast<B_8266_BB_NEO_4*>(busPtr))->SetLuminance(b); break;
case I_8266_U0_400_3: (static_cast<B_8266_U0_400_3*>(busPtr))->SetLuminance(b); break;
case I_8266_U1_400_3: (static_cast<B_8266_U1_400_3*>(busPtr))->SetLuminance(b); break;
case I_8266_DM_400_3: (static_cast<B_8266_DM_400_3*>(busPtr))->SetLuminance(b); break;
case I_8266_BB_400_3: (static_cast<B_8266_BB_400_3*>(busPtr))->SetLuminance(b); break;
case I_8266_U0_TM1_4: (static_cast<B_8266_U0_TM1_4*>(busPtr))->SetLuminance(b); break;
case I_8266_U1_TM1_4: (static_cast<B_8266_U1_TM1_4*>(busPtr))->SetLuminance(b); break;
case I_8266_DM_TM1_4: (static_cast<B_8266_DM_TM1_4*>(busPtr))->SetLuminance(b); break;
case I_8266_BB_TM1_4: (static_cast<B_8266_BB_TM1_4*>(busPtr))->SetLuminance(b); break;
case I_8266_U0_TM2_3: (static_cast<B_8266_U0_TM2_4*>(busPtr))->SetLuminance(b); break;
case I_8266_U1_TM2_3: (static_cast<B_8266_U1_TM2_4*>(busPtr))->SetLuminance(b); break;
case I_8266_DM_TM2_3: (static_cast<B_8266_DM_TM2_4*>(busPtr))->SetLuminance(b); break;
case I_8266_BB_TM2_3: (static_cast<B_8266_BB_TM2_4*>(busPtr))->SetLuminance(b); break;
case I_8266_U0_UCS_3: (static_cast<B_8266_U0_UCS_3*>(busPtr))->SetLuminance(b); break;
case I_8266_U1_UCS_3: (static_cast<B_8266_U1_UCS_3*>(busPtr))->SetLuminance(b); break;
case I_8266_DM_UCS_3: (static_cast<B_8266_DM_UCS_3*>(busPtr))->SetLuminance(b); break;
case I_8266_BB_UCS_3: (static_cast<B_8266_BB_UCS_3*>(busPtr))->SetLuminance(b); break;
case I_8266_U0_UCS_4: (static_cast<B_8266_U0_UCS_4*>(busPtr))->SetLuminance(b); break;
case I_8266_U1_UCS_4: (static_cast<B_8266_U1_UCS_4*>(busPtr))->SetLuminance(b); break;
case I_8266_DM_UCS_4: (static_cast<B_8266_DM_UCS_4*>(busPtr))->SetLuminance(b); break;
case I_8266_BB_UCS_4: (static_cast<B_8266_BB_UCS_4*>(busPtr))->SetLuminance(b); break;
case I_8266_U0_NEO_3: (static_cast<B_8266_U0_NEO_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_U0_NEO_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_U1_NEO_3: (static_cast<B_8266_U1_NEO_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_U1_NEO_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_DM_NEO_3: (static_cast<B_8266_DM_NEO_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_DM_NEO_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_BB_NEO_3: (static_cast<B_8266_BB_NEO_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_BB_NEO_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_U0_NEO_4: (static_cast<B_8266_U0_NEO_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_U0_NEO_4*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_U1_NEO_4: (static_cast<B_8266_U1_NEO_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_U1_NEO_4*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_DM_NEO_4: (static_cast<B_8266_DM_NEO_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_DM_NEO_4*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_BB_NEO_4: (static_cast<B_8266_BB_NEO_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_BB_NEO_4*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_U0_400_3: (static_cast<B_8266_U0_400_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_U0_400_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_U1_400_3: (static_cast<B_8266_U1_400_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_U1_400_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_DM_400_3: (static_cast<B_8266_DM_400_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_DM_400_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_BB_400_3: (static_cast<B_8266_BB_400_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_BB_400_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_U0_TM1_4: (static_cast<B_8266_U0_TM1_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_U0_TM1_4*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_U1_TM1_4: (static_cast<B_8266_U1_TM1_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_U1_TM1_4*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_DM_TM1_4: (static_cast<B_8266_DM_TM1_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_DM_TM1_4*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_BB_TM1_4: (static_cast<B_8266_BB_TM1_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_BB_TM1_4*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_U0_TM2_3: (static_cast<B_8266_U0_TM2_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_U0_TM2_4*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_U1_TM2_3: (static_cast<B_8266_U1_TM2_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_U1_TM2_4*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_DM_TM2_3: (static_cast<B_8266_DM_TM2_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_DM_TM2_4*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_BB_TM2_3: (static_cast<B_8266_BB_TM2_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_BB_TM2_4*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_U0_UCS_3: (static_cast<B_8266_U0_UCS_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_U0_UCS_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_U1_UCS_3: (static_cast<B_8266_U1_UCS_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_U1_UCS_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_DM_UCS_3: (static_cast<B_8266_DM_UCS_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_DM_UCS_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_BB_UCS_3: (static_cast<B_8266_BB_UCS_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_BB_UCS_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_U0_UCS_4: (static_cast<B_8266_U0_UCS_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_U0_UCS_4*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_U1_UCS_4: (static_cast<B_8266_U1_UCS_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_U1_UCS_4*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_DM_UCS_4: (static_cast<B_8266_DM_UCS_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_DM_UCS_4*>(busPtr))->ApplyPostAdjustments(); break;
case I_8266_BB_UCS_4: (static_cast<B_8266_BB_UCS_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_8266_BB_UCS_4*>(busPtr))->ApplyPostAdjustments(); break;
#endif
#ifdef ARDUINO_ARCH_ESP32
case I_32_RN_NEO_3: (static_cast<B_32_RN_NEO_3*>(busPtr))->SetLuminance(b); break;
case I_32_RN_NEO_3: (static_cast<B_32_RN_NEO_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_RN_NEO_3*>(busPtr))->ApplyPostAdjustments(); break;
#ifndef WLED_NO_I2S0_PIXELBUS
case I_32_I0_NEO_3: (static_cast<B_32_I0_NEO_3*>(busPtr))->SetLuminance(b); break;
case I_32_I0_NEO_3: (static_cast<B_32_I0_NEO_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_I0_NEO_3*>(busPtr))->ApplyPostAdjustments(); break;
#endif
#ifndef WLED_NO_I2S1_PIXELBUS
case I_32_I1_NEO_3: (static_cast<B_32_I1_NEO_3*>(busPtr))->SetLuminance(b); break;
case I_32_I1_NEO_3: (static_cast<B_32_I1_NEO_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_I1_NEO_3*>(busPtr))->ApplyPostAdjustments(); break;
#endif
// case I_32_BB_NEO_3: (static_cast<B_32_BB_NEO_3*>(busPtr))->SetLuminance(b); break;
case I_32_RN_NEO_4: (static_cast<B_32_RN_NEO_4*>(busPtr))->SetLuminance(b); break;
// case I_32_BB_NEO_3: (static_cast<B_32_BB_NEO_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_BB_NEO_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_32_RN_NEO_4: (static_cast<B_32_RN_NEO_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_RN_NEO_4*>(busPtr))->ApplyPostAdjustments(); break;
#ifndef WLED_NO_I2S0_PIXELBUS
case I_32_I0_NEO_4: (static_cast<B_32_I0_NEO_4*>(busPtr))->SetLuminance(b); break;
case I_32_I0_NEO_4: (static_cast<B_32_I0_NEO_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_I0_NEO_4*>(busPtr))->ApplyPostAdjustments(); break;
#endif
#ifndef WLED_NO_I2S1_PIXELBUS
case I_32_I1_NEO_4: (static_cast<B_32_I1_NEO_4*>(busPtr))->SetLuminance(b); break;
case I_32_I1_NEO_4: (static_cast<B_32_I1_NEO_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_I1_NEO_4*>(busPtr))->ApplyPostAdjustments(); break;
#endif
// case I_32_BB_NEO_4: (static_cast<B_32_BB_NEO_4*>(busPtr))->SetLuminance(b); break;
case I_32_RN_400_3: (static_cast<B_32_RN_400_3*>(busPtr))->SetLuminance(b); break;
// case I_32_BB_NEO_4: (static_cast<B_32_BB_NEO_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_BB_NEO_4*>(busPtr))->ApplyPostAdjustments(); break;
case I_32_RN_400_3: (static_cast<B_32_RN_400_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_RN_400_3*>(busPtr))->ApplyPostAdjustments(); break;
#ifndef WLED_NO_I2S0_PIXELBUS
case I_32_I0_400_3: (static_cast<B_32_I0_400_3*>(busPtr))->SetLuminance(b); break;
case I_32_I0_400_3: (static_cast<B_32_I0_400_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_I0_400_3*>(busPtr))->ApplyPostAdjustments(); break;
#endif
#ifndef WLED_NO_I2S1_PIXELBUS
case I_32_I1_400_3: (static_cast<B_32_I1_400_3*>(busPtr))->SetLuminance(b); break;
case I_32_I1_400_3: (static_cast<B_32_I1_400_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_I1_400_3*>(busPtr))->ApplyPostAdjustments(); break;
#endif
// case I_32_BB_400_3: (static_cast<B_32_BB_400_3*>(busPtr))->SetLuminance(b); break;
case I_32_RN_TM1_4: (static_cast<B_32_RN_TM1_4*>(busPtr))->SetLuminance(b); break;
case I_32_RN_TM2_3: (static_cast<B_32_RN_TM2_3*>(busPtr))->SetLuminance(b); break;
// case I_32_BB_400_3: (static_cast<B_32_BB_400_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_BB_400_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_32_RN_TM1_4: (static_cast<B_32_RN_TM1_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_RN_TM1_4*>(busPtr))->ApplyPostAdjustments(); break;
case I_32_RN_TM2_3: (static_cast<B_32_RN_TM2_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_RN_TM2_3*>(busPtr))->ApplyPostAdjustments(); break;
#ifndef WLED_NO_I2S0_PIXELBUS
case I_32_I0_TM1_4: (static_cast<B_32_I0_TM1_4*>(busPtr))->SetLuminance(b); break;
case I_32_I0_TM2_3: (static_cast<B_32_I0_TM2_3*>(busPtr))->SetLuminance(b); break;
case I_32_I0_TM1_4: (static_cast<B_32_I0_TM1_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_I0_TM1_4*>(busPtr))->ApplyPostAdjustments(); break;
case I_32_I0_TM2_3: (static_cast<B_32_I0_TM2_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_I0_TM2_3*>(busPtr))->ApplyPostAdjustments(); break;
#endif
#ifndef WLED_NO_I2S1_PIXELBUS
case I_32_I1_TM1_4: (static_cast<B_32_I1_TM1_4*>(busPtr))->SetLuminance(b); break;
case I_32_I1_TM2_3: (static_cast<B_32_I1_TM2_3*>(busPtr))->SetLuminance(b); break;
case I_32_I1_TM1_4: (static_cast<B_32_I1_TM1_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_I1_TM1_4*>(busPtr))->ApplyPostAdjustments(); break;
case I_32_I1_TM2_3: (static_cast<B_32_I1_TM2_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_I1_TM2_3*>(busPtr))->ApplyPostAdjustments(); break;
#endif
case I_32_RN_UCS_3: (static_cast<B_32_RN_UCS_3*>(busPtr))->SetLuminance(b); break;
case I_32_RN_UCS_3: (static_cast<B_32_RN_UCS_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_RN_UCS_3*>(busPtr))->ApplyPostAdjustments(); break;
#ifndef WLED_NO_I2S0_PIXELBUS
case I_32_I0_UCS_3: (static_cast<B_32_I0_UCS_3*>(busPtr))->SetLuminance(b); break;
case I_32_I0_UCS_3: (static_cast<B_32_I0_UCS_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_I0_UCS_3*>(busPtr))->ApplyPostAdjustments(); break;
#endif
#ifndef WLED_NO_I2S1_PIXELBUS
case I_32_I1_UCS_3: (static_cast<B_32_I1_UCS_3*>(busPtr))->SetLuminance(b); break;
case I_32_I1_UCS_3: (static_cast<B_32_I1_UCS_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_I1_UCS_3*>(busPtr))->ApplyPostAdjustments(); break;
#endif
// case I_32_BB_UCS_3: (static_cast<B_32_BB_UCS_3*>(busPtr))->SetLuminance(b); break;
case I_32_RN_UCS_4: (static_cast<B_32_RN_UCS_4*>(busPtr))->SetLuminance(b); break;
// case I_32_BB_UCS_3: (static_cast<B_32_BB_UCS_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_BB_UCS_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_32_RN_UCS_4: (static_cast<B_32_RN_UCS_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_RN_UCS_4*>(busPtr))->ApplyPostAdjustments(); break;
#ifndef WLED_NO_I2S0_PIXELBUS
case I_32_I0_UCS_4: (static_cast<B_32_I0_UCS_4*>(busPtr))->SetLuminance(b); break;
case I_32_I0_UCS_4: (static_cast<B_32_I0_UCS_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_I0_UCS_4*>(busPtr))->ApplyPostAdjustments(); break;
#endif
#ifndef WLED_NO_I2S1_PIXELBUS
case I_32_I1_UCS_4: (static_cast<B_32_I1_UCS_4*>(busPtr))->SetLuminance(b); break;
case I_32_I1_UCS_4: (static_cast<B_32_I1_UCS_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_I1_UCS_4*>(busPtr))->ApplyPostAdjustments(); break;
#endif
// case I_32_BB_UCS_4: (static_cast<B_32_BB_UCS_4*>(busPtr))->SetLuminance(b); break;
// case I_32_BB_UCS_4: (static_cast<B_32_BB_UCS_4*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_32_BB_UCS_4*>(busPtr))->ApplyPostAdjustments(); break;
#endif
case I_HS_DOT_3: (static_cast<B_HS_DOT_3*>(busPtr))->SetLuminance(b); break;
case I_SS_DOT_3: (static_cast<B_SS_DOT_3*>(busPtr))->SetLuminance(b); break;
case I_HS_LPD_3: (static_cast<B_HS_LPD_3*>(busPtr))->SetLuminance(b); break;
case I_SS_LPD_3: (static_cast<B_SS_LPD_3*>(busPtr))->SetLuminance(b); break;
case I_HS_LPO_3: (static_cast<B_HS_LPO_3*>(busPtr))->SetLuminance(b); break;
case I_SS_LPO_3: (static_cast<B_SS_LPO_3*>(busPtr))->SetLuminance(b); break;
case I_HS_WS1_3: (static_cast<B_HS_WS1_3*>(busPtr))->SetLuminance(b); break;
case I_SS_WS1_3: (static_cast<B_SS_WS1_3*>(busPtr))->SetLuminance(b); break;
case I_HS_P98_3: (static_cast<B_HS_P98_3*>(busPtr))->SetLuminance(b); break;
case I_SS_P98_3: (static_cast<B_SS_P98_3*>(busPtr))->SetLuminance(b); break;
case I_HS_DOT_3: (static_cast<B_HS_DOT_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_HS_DOT_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_SS_DOT_3: (static_cast<B_SS_DOT_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_SS_DOT_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_HS_LPD_3: (static_cast<B_HS_LPD_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_HS_LPD_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_SS_LPD_3: (static_cast<B_SS_LPD_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_SS_LPD_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_HS_LPO_3: (static_cast<B_HS_LPO_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_HS_LPO_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_SS_LPO_3: (static_cast<B_SS_LPO_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_SS_LPO_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_HS_WS1_3: (static_cast<B_HS_WS1_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_HS_WS1_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_SS_WS1_3: (static_cast<B_SS_WS1_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_SS_WS1_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_HS_P98_3: (static_cast<B_HS_P98_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_HS_P98_3*>(busPtr))->ApplyPostAdjustments(); break;
case I_SS_P98_3: (static_cast<B_SS_P98_3*>(busPtr))->SetLuminance(b); if (immediate) (static_cast<B_SS_P98_3*>(busPtr))->ApplyPostAdjustments(); break;
}
};
static uint32_t getPixelColor(void* busPtr, uint8_t busType, uint16_t pix, uint8_t co) {

22
wled00/button.cpp
View File

@ -227,9 +227,8 @@ void handleButton()
static unsigned long lastRun = 0UL;
unsigned long now = millis();
//if (strip.isUpdating()) return; // don't interfere with strip updates. Our button will still be there in 1ms (next cycle)
if (strip.isUpdating() && (millis() - lastRun < 400)) return; // be niced, but avoid button starvation
lastRun = millis();
if (strip.isUpdating() && (now - lastRun < 400)) return; // don't interfere with strip update (unless strip is updating continuously, e.g. very long strips)
lastRun = now;
for (uint8_t b=0; b<WLED_MAX_BUTTONS; b++) {
#ifdef ESP8266
@ -257,6 +256,15 @@ void handleButton()
// momentary button logic
if (isButtonPressed(b)) { // pressed
// if all macros are the same, fire action immediately on rising edge
if (macroButton[b] && macroButton[b] == macroLongPress[b] && macroButton[b] == macroDoublePress[b]) {
if (!buttonPressedBefore[b])
shortPressAction(b);
buttonPressedBefore[b] = true;
buttonPressedTime[b] = now; // continually update (for debouncing to work in release handler)
return;
}
if (!buttonPressedBefore[b]) buttonPressedTime[b] = now;
buttonPressedBefore[b] = true;
@ -270,8 +278,14 @@ void handleButton()
}
} else if (!isButtonPressed(b) && buttonPressedBefore[b]) { //released
long dur = now - buttonPressedTime[b];
// released after rising-edge short press action
if (macroButton[b] && macroButton[b] == macroLongPress[b] && macroButton[b] == macroDoublePress[b]) {
if (dur > WLED_DEBOUNCE_THRESHOLD) buttonPressedBefore[b] = false; // debounce, blocks button for 50 ms once it has been released
return;
}
if (dur < WLED_DEBOUNCE_THRESHOLD) {buttonPressedBefore[b] = false; continue;} // too short "press", debounce
bool doublePress = buttonWaitTime[b]; //did we have a short press before?
buttonWaitTime[b] = 0;

24
wled00/cfg.cpp
View File

@ -297,9 +297,11 @@ bool deserializeConfig(JsonObject doc, bool fromFS) {
PinManagerPinType i2c[2] = { { i2c_sda, true }, { i2c_scl, true } };
if (i2c_scl >= 0 && i2c_sda >= 0 && pinManager.allocateMultiplePins(i2c, 2, PinOwner::HW_I2C)) {
#ifdef ESP32
Wire.setPins(i2c_sda, i2c_scl); // this will fail if Wire is initilised (Wire.begin() called prior)
if (!Wire.setPins(i2c_sda, i2c_scl)) { i2c_scl = i2c_sda = -1; } // this will fail if Wire is initilised (Wire.begin() called prior)
else Wire.begin();
#else
Wire.begin(i2c_sda, i2c_scl);
#endif
Wire.begin();
} else {
i2c_sda = -1;
i2c_scl = -1;
@ -336,7 +338,7 @@ bool deserializeConfig(JsonObject doc, bool fromFS) {
if (light_gc_col > 1.0f) gammaCorrectCol = true;
else gammaCorrectCol = false;
if (gammaCorrectVal > 1.0f && gammaCorrectVal <= 3) {
if (gammaCorrectVal != 2.8f) calcGammaTable(gammaCorrectVal);
if (gammaCorrectVal != 2.8f) NeoGammaWLEDMethod::calcGammaTable(gammaCorrectVal);
} else {
gammaCorrectVal = 1.0f; // no gamma correction
gammaCorrectBri = false;
@ -438,8 +440,16 @@ bool deserializeConfig(JsonObject doc, bool fromFS) {
getStringFromJson(mqttDeviceTopic, if_mqtt[F("topics")][F("device")], 33); // "wled/test"
getStringFromJson(mqttGroupTopic, if_mqtt[F("topics")][F("group")], 33); // ""
CJSON(retainMqttMsg, if_mqtt[F("rtn")]);
#endif
#ifndef WLED_DISABLE_ESPNOW
JsonObject remote = doc["remote"];
CJSON(enable_espnow_remote, remote[F("remote_enabled")]);
getStringFromJson(linked_remote, remote[F("linked_remote")], 13);
#endif
#ifndef WLED_DISABLE_HUESYNC
JsonObject if_hue = interfaces["hue"];
CJSON(huePollingEnabled, if_hue["en"]);
@ -885,12 +895,20 @@ void serializeConfig() {
if_mqtt[F("user")] = mqttUser;
if_mqtt[F("pskl")] = strlen(mqttPass);
if_mqtt[F("cid")] = mqttClientID;
if_mqtt[F("rtn")] = retainMqttMsg;
JsonObject if_mqtt_topics = if_mqtt.createNestedObject(F("topics"));
if_mqtt_topics[F("device")] = mqttDeviceTopic;
if_mqtt_topics[F("group")] = mqttGroupTopic;
#endif
#ifndef WLED_DISABLE_ESPNOW
JsonObject remote = doc.createNestedObject(F("remote"));
remote[F("remote_enabled")] = enable_espnow_remote;
remote[F("linked_remote")] = linked_remote;
#endif
#ifndef WLED_DISABLE_HUESYNC
JsonObject if_hue = interfaces.createNestedObject("hue");
if_hue["en"] = huePollingEnabled;

21
wled00/colors.cpp
View File

@ -302,7 +302,7 @@ uint16_t approximateKelvinFromRGB(uint32_t rgb) {
}
//gamma 2.8 lookup table used for color correction
static byte gammaT[] = {
uint8_t NeoGammaWLEDMethod::gammaT[256] = {
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1,
1, 1, 1, 1, 1, 1, 1, 1, 1, 2, 2, 2, 2, 2, 2, 2,
@ -320,27 +320,22 @@ static byte gammaT[] = {
177,180,182,184,186,189,191,193,196,198,200,203,205,208,210,213,
215,218,220,223,225,228,231,233,236,239,241,244,247,249,252,255 };
uint8_t gamma8_cal(uint8_t b, float gamma)
{
return (int)(powf((float)b / 255.0f, gamma) * 255.0f + 0.5f);
}
// re-calculates & fills gamma table
void calcGammaTable(float gamma)
void NeoGammaWLEDMethod::calcGammaTable(float gamma)
{
for (uint16_t i = 0; i < 256; i++) {
gammaT[i] = gamma8_cal(i, gamma);
for (size_t i = 0; i < 256; i++) {
gammaT[i] = (int)(powf((float)i / 255.0f, gamma) * 255.0f + 0.5f);
}
}
// used for individual channel or brightness gamma correction
uint8_t gamma8(uint8_t b)
uint8_t NeoGammaWLEDMethod::Correct(uint8_t value)
{
return gammaT[b];
if (!gammaCorrectCol) return value;
return gammaT[value];
}
// used for color gamma correction
uint32_t gamma32(uint32_t color)
uint32_t NeoGammaWLEDMethod::Correct32(uint32_t color)
{
if (!gammaCorrectCol) return color;
uint8_t w = W(color);

43
wled00/const.h
View File

@ -12,6 +12,7 @@
#define DEFAULT_AP_SSID "WLED-AP"
#define DEFAULT_AP_PASS "wled1234"
#define DEFAULT_OTA_PASS "wledota"
#define DEFAULT_MDNS_NAME "x"
//increase if you need more
#ifndef WLED_MAX_USERMODS
@ -90,6 +91,21 @@
#endif
#endif
#ifndef WLED_MAX_SEGNAME_LEN
#ifdef ESP8266
#define WLED_MAX_SEGNAME_LEN 32
#else
#define WLED_MAX_SEGNAME_LEN 64
#endif
#else
#if WLED_MAX_SEGNAME_LEN<32
#undef WLED_MAX_SEGNAME_LEN
#define WLED_MAX_SEGNAME_LEN 32
#else
#warning WLED UI does not support modified maximum segment name length!
#endif
#endif
//Usermod IDs
#define USERMOD_ID_RESERVED 0 //Unused. Might indicate no usermod present
#define USERMOD_ID_UNSPECIFIED 1 //Default value for a general user mod that does not specify a custom ID
@ -319,7 +335,8 @@
// WLED Error modes
#define ERR_NONE 0 // All good :)
#define ERR_EEP_COMMIT 2 // Could not commit to EEPROM (wrong flash layout?)
#define ERR_DENIED 1 // Permission denied
#define ERR_EEP_COMMIT 2 // Could not commit to EEPROM (wrong flash layout?) OBSOLETE
#define ERR_NOBUF 3 // JSON buffer was not released in time, request cannot be handled at this time
#define ERR_JSON 9 // JSON parsing failed (input too large?)
#define ERR_FS_BEGIN 10 // Could not init filesystem (no partition?)
@ -337,6 +354,23 @@
#define NL_MODE_COLORFADE 2 //Fade to target brightness and secondary color gradually
#define NL_MODE_SUN 3 //Sunrise/sunset. Target brightness is set immediately, then Sunrise effect is started. Max 60 min.
// Settings sub page IDs
#define SUBPAGE_MENU 0
#define SUBPAGE_WIFI 1
#define SUBPAGE_LEDS 2
#define SUBPAGE_UI 3
#define SUBPAGE_SYNC 4
#define SUBPAGE_TIME 5
#define SUBPAGE_SEC 6
#define SUBPAGE_DMX 7
#define SUBPAGE_UM 8
#define SUBPAGE_UPDATE 9
#define SUBPAGE_2D 10
#define SUBPAGE_LOCK 251
#define SUBPAGE_PINREQ 252
#define SUBPAGE_CSS 253
#define SUBPAGE_JS 254
#define SUBPAGE_WELCOME 255
#define NTP_PACKET_SIZE 48
@ -369,7 +403,7 @@
#ifdef ESP8266
#define SETTINGS_STACK_BUF_SIZE 2048
#else
#define SETTINGS_STACK_BUF_SIZE 3096
#define SETTINGS_STACK_BUF_SIZE 3608 // warning: quite a large value for stack
#endif
#ifdef WLED_USE_ETHERNET
@ -441,7 +475,10 @@
#define DEFAULT_LED_COUNT 30
#endif
#define INTERFACE_UPDATE_COOLDOWN 2000 //time in ms to wait between websockets, alexa, and MQTT updates
#define INTERFACE_UPDATE_COOLDOWN 1000 // time in ms to wait between websockets, alexa, and MQTT updates
#define PIN_RETRY_COOLDOWN 3000 // time in ms after an incorrect attempt PIN and OTA pass will be rejected even if correct
#define PIN_TIMEOUT 900000 // time in ms after which the PIN will be required again, 15 minutes
// HW_PIN_SCL & HW_PIN_SDA are used for information in usermods settings page and usermods themselves
// which GPIO pins are actually used in a hardwarea layout (controller board)

2
wled00/data/404.htm
View File

@ -42,6 +42,6 @@
<img alt="" src="data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAACAAAAAgCAMAAABEpIrGAAAAAXNSR0IArs4c6QAAAARnQU1BAACxjwv8YQUAAAAbUExURQAAAAB81gCU/zKq/////9bW1oCAgGhoaAAAAGPLX8AAAAAJdFJOU///////////AFNPeBIAAAAJcEhZcwAADsAAAA7AAWrWiQkAAACdSURBVDhPxc9bDoUgEANQebP/FUuHMjBGY/B+3EYR7RH0qC/ZBc6HwCljgHO+xZIVSI2sYgHaG7EBWh8jWoxTrCBFdDJ+BD4lbIHxAcz8APAVLTsrZE4eQD5qzt3cAFTYokC4YCN9Gybgu4yAQtBFLQXHuHABA7JMeOEC/E0W5uy9gv4vo5QHK2i7yq2C8UABM4HmL+CSTXCTF1DrCX6+Gp9zB5dsAAAAAElFTkSuQmCC">
<h1>404 Not Found</h1>
<b>Akemi does not know where you are headed...</b><br><br>
<button onclick="window.location.href='/sliders'">Back to controls</button>
<button onclick="window.location.href='../?sliders'">Back to controls</button>
</body>
</html>

127
wled00/data/index.css
View File

@ -134,7 +134,7 @@ button {
.off {
color: var(--c-6) !important;
cursor: default !important;
/* cursor: default !important; */
}
.top .icons, .bot .icons {
@ -174,37 +174,62 @@ button {
}
.slider-icon {
/*transform: translate(3px,3px);*/
position: absolute;
left: 8px;
bottom: 5px;
}
.e-icon {
transform: translateY(3px);
}
.sel-icon {
transform: translateX(3px);
}
.e-icon, .sel-icon, .slider-icon {
.e-icon, .g-icon, .sel-icon, .slider-icon {
cursor: pointer;
color: var(--c-d);
}
.g-icon {
font-style: normal;
position: absolute;
top: 8px;
right: 8px;
}
/* pop-up container */
.pop {
position: absolute;
display: inline-block;
top: 0;
right: 0;
}
/* pop-up content (segment sets) */
.pop-c {
position: absolute;
background-color: var(--c-2);
border: 1px solid var(--c-8);
border-radius: 20px;
z-index: 1;
top: 3px;
right: 35px;
padding: 3px 8px 1px;
font-size: 24px;
line-height: 24px;
}
.pop-c span {
padding: 2px 6px;
}
.search-icon {
position: absolute;
top: 8px;
left: 12px;
/*pointer-events: none;*/
width: 24px;
height: 24px;
}
.clear-icon {
position: absolute;
display: none;
top: 8px;
right: 9px;
cursor: pointer;
@ -232,14 +257,12 @@ button {
#liveview {
height: 4px;
display: none;
width: 100%;
border: 0px;
}
#liveview2D {
height: 90%;
display: none;
width: 90%;
border: 0px;
position: absolute;
@ -387,6 +410,7 @@ button {
position: -webkit-sticky;
position: sticky;
bottom: 0;
max-width: 300px;
}
#sliders .labels {
@ -395,7 +419,7 @@ button {
}
.slider {
max-width: 300px;
/*max-width: 300px;*/
/* margin: 5px auto; add 5px; if you want some vertical space but looks ugly */
border-radius: 24px;
position: relative;
@ -411,12 +435,16 @@ button {
z-index: 0;
}
#sliders .slider {
padding-right: 64px; /* offset for bubble */
}
#sliders .slider, #info .slider {
background-color: var(--c-2);
}
#sliders .sliderwrap, .sbs .sliderwrap {
left: 16px; /* offset for icon */
left: 32px; /* offset for icon */
}
.filter, .option {
@ -482,13 +510,6 @@ button {
opacity: 1;
}
#pql, .edit-icon {
display: none;
}
.hide {
display: none !important;
}
.fade {
visibility: hidden; /* hide it */
opacity: 0; /* make it transparent */
@ -567,7 +588,6 @@ button {
position: fixed;
top: calc(var(--th) + 5px);
left: 1px;
display: none;
cursor: pointer;
}
@ -662,24 +682,27 @@ img {
#wbal .sliderdisplay { background: linear-gradient(90deg, #ff8f1f 0%, #fff 50%, #cbdbff); }
/* wrapper divs hidden by default */
#rgbwrap, #swrap, #hwrap, #kwrap, #wwrap, #wbal, #qcs-w, #hexw {
#liveview, #liveview2D, #roverstar, #pql
#rgbwrap, #swrap, #hwrap, #kwrap, #wwrap, #wbal, #qcs-w, #hexw,
.clear-icon, .edit-icon, .ptxt {
display: none;
}
.sliderbubble {
width: 24px;
position: relative;
position: absolute;
display: inline-block;
border-radius: 10px;
border-radius: 16px;
background: var(--c-3);
color: var(--c-f);
padding: 2px 4px;
padding: 4px;
font-size: 14px;
right: 3px;
transition: visibility 0.25s ease, opacity 0.25s ease;
right: 6px;
transition: visibility .25s ease,opacity .25s ease;
opacity: 0;
visibility: hidden;
left: 8px;
/* left: 8px; */
top: 4px;
}
output.sliderbubbleshow {
@ -771,8 +794,8 @@ input[type=range]::-moz-range-thumb {
-webkit-transform:translate3d(0,0,0);
backface-visibility: hidden;
transform:translate3d(0,0,0);
overflow: clip;
text-overflow: clip;
overflow: hidden;
text-overflow: ellipsis;
border: 1px solid var(--c-3);
background-color: var(--c-3);
}
@ -803,6 +826,7 @@ input[type=range]::-moz-range-thumb {
.btn-xs, .btn-pl-del, .btn-pl-add {
width: 42px !important;
height: 42px !important;
text-overflow: clip;
}
.btn-xs {
margin: 2px 0 0 0;
@ -980,23 +1004,25 @@ textarea {
.ptxt {
margin: -1px 4px 8px !important;
display: none;
}
.stxt {
width: 50px !important;
}
.segname, .pname {
.segname, .pname, .bname {
white-space: nowrap;
text-align: center;
overflow: clip;
overflow: hidden;
text-overflow: ellipsis;
line-height: 24px;
padding: 8px 24px;
max-width: 170px;
position: relative;
}
.bname {
padding: 0 24px;
}
.segname .flr, .pname .flr {
transform: rotate(0deg);
@ -1005,8 +1031,9 @@ textarea {
/* segment power wrapper */
.sbs {
padding: 1px 0 1px 20px;
/*padding: 1px 0 1px 20px;*/
display: var(--sgp);
width: 100%;
}
.pname {
@ -1048,11 +1075,9 @@ textarea {
#csl .xxs {
border: 2px solid var(--c-d) !important;
/*box-shadow: 0 0 0 2px var(--c-d);*/
}
#csl .xxs-w {
border-width: 5px !important;
/*box-shadow: 0 0 0 5px var(--c-d);*/
}
.qcs, #namelabel { /* text shadow for name to be legible on grey backround */
@ -1066,7 +1091,6 @@ textarea {
.pwr {
color: var(--c-6);
transform: translate(1px, 1px);
cursor: pointer;
}
@ -1081,18 +1105,13 @@ textarea {
}
.frz {
left: 32px;
left: 10px;
position: absolute;
top: -3px;
top: 8px;
cursor: pointer;
padding: 8px;
z-index: 1;
}
.expanded .frz {
display: none;
}
/* radiobuttons and checkmarks */
.check, .radio {
display: block;
@ -1234,7 +1253,6 @@ TD .checkmark, TD .radiomark {
.lbl-s {
display: inline-block;
/* margin: 10px 4px 0 0; */
margin-top: 6px;
font-size: 13px;
width: 48%;
@ -1284,10 +1302,6 @@ TD .checkmark, TD .radiomark {
background-color: var(--c-3);
}
/*.selected .radiomark {
border: 1px solid var(--c-3);
}*/
/* selected list item */
.lstI.selected {
top: 0;
@ -1405,7 +1419,7 @@ TD .checkmark, TD .radiomark {
.expanded {
display: inline-block !important;
}
.expanded .segin.hide, .expanded .presin.hide, .expanded .sbs.hide {
.hide, .expanded .segin.hide, .expanded .presin.hide, .expanded .sbs.hide, .expanded .frz, .expanded .g-icon {
display: none !important;
}
@ -1534,18 +1548,17 @@ TD .checkmark, TD .radiomark {
#sliders .sliderbubble {
display: none;
}
.sliderwrap {
width: calc(100% - 28px);
#sliders .sliderwrap, .sbs .sliderwrap {
width: calc(100% - 42px);
}
#sliders .slider {
padding-right: 0;
}
#sliders .sliderwrap {
left: 12px;
}
.segname {
padding: 8px 16px;
max-width: 140px;
}
.segname, .pname {
max-width: 134px;
max-width: calc(100% - 110px);
}
.segt TD {
padding: 0 !important;

14
wled00/data/index.htm
View File

@ -67,12 +67,12 @@
<button id="buttonSr" onclick="toggleLiveview()"><i class="icons">&#xe410;</i><p class="tab-label">Peek</p></button>
<button id="buttonI" onclick="toggleInfo()"><i class="icons">&#xe066;</i><p class="tab-label">Info</p></button>
<button id="buttonNodes" onclick="toggleNodes()"><i class="icons">&#xe22d;</i><p class="tab-label">Nodes</p></button>
<button onclick="window.location.href='/settings';"><i class="icons">&#xe0a2;</i><p class="tab-label">Config</p></button>
<button onclick="window.location.href=getURL('/settings');"><i class="icons">&#xe0a2;</i><p class="tab-label">Config</p></button>
<button id="buttonPcm" onclick="togglePcMode(true)"><i class="icons">&#xe23d;</i><p class="tab-label">PC Mode</p></button>
</div>
<div id="briwrap">
<p class="hd">Brightness</p>
<div class="slider" style="left:24px;">
<div class="slider" style="padding-right:32px;">
<i class="icons slider-icon" onclick="tglTheme()" style="transform: translate(-32px,5px);">&#xe2a6;</i>
<div class="sliderwrap il">
<input id="sliderBri" onchange="setBri()" oninput="updateTrail(this)" max="255" min="1" type="range" value="128" />
@ -88,7 +88,7 @@
<div class ="container">
<div id="Colors" class="tabcontent">
<div id="picker" class="noslide"></div>
<div id="hwrap" class="slider">
<div id="hwrap" class="slider" style="margin-top: 20px;">
<div class="sliderwrap il">
<input id="sliderH" class="noslide" oninput="fromH()" onchange="setColor(0)" max="359" min="0" type="range" value="0" step="any">
<div class="sliderdisplay" style="background: linear-gradient(90deg, #f00 2%, #ff0 19%, #0f0 35%, #0ff 52%, #00f 68%, #f0f 85%, #f00)"></div>
@ -199,7 +199,7 @@
</div>
</div>
<div style="padding-bottom: 10px;">
<button class="btn btn-xs" type="button" onclick="window.location.href=(loc?'http://'+locip:'')+'/cpal.htm'"><i class="icons btn-icon">&#xe18a;</i></button>
<button class="btn btn-xs" type="button" onclick="window.location.href=getURL('/cpal.htm')"><i class="icons btn-icon">&#xe18a;</i></button>
<button class="btn btn-xs" type="button" onclick="palettesData=null;localStorage.removeItem('wledPalx');requestJson({rmcpal:true});setTimeout(loadPalettes,250,loadPalettesData);"><i class="icons btn-icon">&#xe037;</i></button>
</div>
</div>
@ -363,7 +363,7 @@
<div>
<button class="btn infobtn" onclick="requestJson()">Refresh</button>
<button class="btn infobtn" onclick="toggleNodes()">Instance List</button>
<button class="btn infobtn" onclick="window.open('/update','_self');">Update WLED</button>
<button class="btn infobtn" onclick="window.open(getURL('/update'),'_self');">Update WLED</button>
<button class="btn infobtn" id="resetbtn" onclick="cnfReset()">Reboot WLED</button>
</div>
<br>
@ -379,8 +379,8 @@
</div>
</div>
<div id="mliveview2D" class="modal">
<div id="kliveview2D" style="width:100%; height:100%">Loading...</div><br>
<div id="mlv2D" class="modal">
<div id="klv2D" style="width:100%; height:100%">Loading...</div>
</div>
<div id="rover" class="modal">

209
wled00/data/index.js
View File

@ -1,5 +1,5 @@
//page js
var loc = false, locip;
var loc = false, locip, locproto = "http:";
var isOn = false, nlA = false, isLv = false, isInfo = false, isNodes = false, syncSend = false, syncTglRecv = true;
var hasWhite = false, hasRGB = false, hasCCT = false;
var nlDur = 60, nlTar = 0;
@ -22,11 +22,12 @@ var pN = "", pI = 0, pNum = 0;
var pmt = 1, pmtLS = 0, pmtLast = 0;
var lastinfo = {};
var isM = false, mw = 0, mh=0;
var ws, cpick, ranges;
var ws, cpick, ranges, wsRpt=0;
var cfg = {
theme:{base:"dark", bg:{url:""}, alpha:{bg:0.6,tab:0.8}, color:{bg:""}},
comp :{colors:{picker: true, rgb: false, quick: true, hex: false},
labels:true, pcmbot:false, pid:true, seglen:false, segpwr:false, segexp:false, css:true, hdays:false}
labels:true, pcmbot:false, pid:true, seglen:false, segpwr:false, segexp:false,
css:true, hdays:false, fxdef:true}
};
var hol = [
[0,11,24,4,"https://aircoookie.github.io/xmas.png"], // christmas
@ -193,21 +194,39 @@ function loadSkinCSS(cId)
l.id = cId;
l.rel = 'stylesheet';
l.type = 'text/css';
l.href = (loc?`http://${locip}`:'.') + '/skin.css';
l.href = getURL('/skin.css');
l.media = 'all';
h.appendChild(l);
}
}
function getURL(path) {
return (loc ? locproto + "//" + locip : "") + path;
}
function onLoad()
{
if (window.location.protocol == "file:") {
let l = window.location;
if (l.protocol == "file:") {
loc = true;
locip = localStorage.getItem('locIp');
if (!locip) {
locip = prompt("File Mode. Please enter WLED IP!");
localStorage.setItem('locIp', locip);
}
} else {
// detect reverse proxy and/or HTTPS
let pathn = l.pathname;
let paths = pathn.slice(1,pathn.endsWith('/')?-1:undefined).split("/");
//if (paths[0]==="sliders") paths.shift();
//while (paths[0]==="") paths.shift();
locproto = l.protocol;
locip = l.hostname + (l.port ? ":" + l.port : "");
if (paths.length > 0 && paths[0]!=="") {
loc = true;
locip += "/" + paths[0];
} else if (locproto==="https:") {
loc = true;
}
}
var sett = localStorage.getItem('wledUiCfg');
if (sett) cfg = mergeDeep(cfg, JSON.parse(sett));
@ -217,7 +236,7 @@ function onLoad()
if (localStorage.getItem('pcm') == "true" || (!/Mobi/.test(navigator.userAgent) && localStorage.getItem('pcm') == null)) togglePcMode(true);
applyCfg();
if (cfg.comp.hdays) { //load custom holiday list
fetch((loc?`http://${locip}`:'.') + "/holidays.json", { // may be loaded from external source
fetch(getURL("/holidays.json"), { // may be loaded from external source
method: 'get'
})
.then((res)=>{
@ -433,9 +452,7 @@ function loadPresets(callback = null)
// afterwards
if (!callback && pmt == pmtLast) return;
var url = (loc?`http://${locip}`:'') + '/presets.json';
fetch(url, {
fetch(getURL('/presets.json'), {
method: 'get'
})
.then(res => {
@ -459,9 +476,7 @@ function loadPresets(callback = null)
function loadPalettes(callback = null)
{
var url = (loc?`http://${locip}`:'') + '/json/palettes';
fetch(url, {
fetch(getURL('/json/palettes'), {
method: 'get'
})
.then((res)=>{
@ -483,9 +498,7 @@ function loadPalettes(callback = null)
function loadFX(callback = null)
{
var url = (loc?`http://${locip}`:'') + '/json/effects';
fetch(url, {
fetch(getURL('/json/effects'), {
method: 'get'
})
.then((res)=>{
@ -497,6 +510,7 @@ function loadFX(callback = null)
populateEffects();
})
.catch((e)=>{
//setTimeout(loadFX, 250); // retry
showToast(e, true);
})
.finally(()=>{
@ -507,9 +521,7 @@ function loadFX(callback = null)
function loadFXData(callback = null)
{
var url = (loc?`http://${locip}`:'') + '/json/fxdata';
fetch(url, {
fetch(getURL('/json/fxdata'), {
method: 'get'
})
.then((res)=>{
@ -524,6 +536,7 @@ function loadFXData(callback = null)
})
.catch((e)=>{
fxdata = [];
//setTimeout(loadFXData, 250); // retry
showToast(e, true);
})
.finally(()=>{
@ -702,6 +715,14 @@ function populateSegments(s)
let sg = gId(`seg${i}`);
let exp = sg ? (sg.classList.contains('expanded') || (i===0 && cfg.comp.segexp)) : false;
// segment set icon color
let cG = "var(--c-b)";
switch (inst.set) {
case 1: cG = "var(--c-r)"; break;
case 2: cG = "var(--c-g)"; break;
case 3: cG = "var(--c-l)"; break;
}
let segp = `<div id="segp${i}" class="sbs">`+
`<i class="icons slider-icon pwr ${inst.on ? "act":""}" id="seg${i}pwr" onclick="setSegPwr(${i})">&#xe08f;</i>`+
`<div class="sliderwrap il">`+
@ -713,10 +734,11 @@ function populateSegments(s)
let stoX = inst.stop;
let staY = inst.startY;
let stoY = inst.stopY;
let isMSeg = isM && staX<mw*mh; // 2D matrix segment
let rvXck = `<label class="check revchkl">Reverse ${isM?'':'direction'}<input type="checkbox" id="seg${i}rev" onchange="setRev(${i})" ${inst.rev?"checked":""}><span class="checkmark"></span></label>`;
let miXck = `<label class="check revchkl">Mirror<input type="checkbox" id="seg${i}mi" onchange="setMi(${i})" ${inst.mi?"checked":""}><span class="checkmark"></span></label>`;
let rvYck = "", miYck ="";
if (isM && staX<mw*mh) {
if (isMSeg) {
rvYck = `<label class="check revchkl">Reverse<input type="checkbox" id="seg${i}rY" onchange="setRevY(${i})" ${inst.rY?"checked":""}><span class="checkmark"></span></label>`;
miYck = `<label class="check revchkl">Mirror<input type="checkbox" id="seg${i}mY" onchange="setMiY(${i})" ${inst.mY?"checked":""}><span class="checkmark"></span></label>`;
}
@ -732,36 +754,38 @@ function populateSegments(s)
`<div class="sel-p"><select class="sel-p" id="seg${i}si" onchange="setSi(${i})">`+
`<option value="0" ${inst.si==0?' selected':''}>BeatSin</option>`+
`<option value="1" ${inst.si==1?' selected':''}>WeWillRockYou</option>`+
`<option value="2" ${inst.si==2?' selected':''}>U10_3</option>`+
`<option value="3" ${inst.si==3?' selected':''}>U14_3</option>`+
`</select></div>`+
`</div>`;
cn += `<div class="seg lstI ${i==s.mainseg ? 'selected' : ''} ${exp ? "expanded":""}" id="seg${i}">`+
cn += `<div class="seg lstI ${i==s.mainseg ? 'selected' : ''} ${exp ? "expanded":""}" id="seg${i}" data-set="${inst.set}">`+
`<label class="check schkl">`+
`<input type="checkbox" id="seg${i}sel" onchange="selSeg(${i})" ${inst.sel ? "checked":""}>`+
`<span class="checkmark"></span>`+
`</label>`+
`<i class="icons e-icon frz" id="seg${i}frz" onclick="event.preventDefault();tglFreeze(${i});">&#x${inst.frz ? (li.live && li.liveseg==i?'e410':'e0e8') : 'e325'};</i>`+
`<div class="segname" onclick="selSegEx(${i})">`+
`<i class="icons e-icon frz" id="seg${i}frz" onclick="event.preventDefault();tglFreeze(${i});">&#x${inst.frz ? (li.live && li.liveseg==i?'e410':'e0e8') : 'e325'};</i>`+
(inst.n ? inst.n : "Segment "+i) +
`<div class="pop hide" onclick="event.preventDefault();event.stopPropagation();">`+
`<i class="icons g-icon" style="color:${cG};" onclick="this.nextElementSibling.classList.toggle('hide');">&#x278${String.fromCharCode(inst.set+"A".charCodeAt(0))};</i>`+
`<div class="pop-c hide"><span style="color:var(--c-f);" onclick="setGrp(${i},0);">&#x278A;</span><span style="color:var(--c-r);" onclick="setGrp(${i},1);">&#x278B;</span><span style="color:var(--c-g);" onclick="setGrp(${i},2);">&#x278C;</span><span style="color:var(--c-l);" onclick="setGrp(${i},3);">&#x278D;</span></div>`+
`</div> `+
`<i class="icons edit-icon flr" id="seg${i}nedit" onclick="tglSegn(${i})">&#xe2c6;</i>`+
`</div>`+
`<i class="icons e-icon flr" id="sege${i}" onclick="expand(${i})">&#xe395;</i>`+
(cfg.comp.segpwr ? segp : '') +
`<div class="segin" id="seg${i}in">`+
`<input type="text" class="ptxt" id="seg${i}t" autocomplete="off" maxlength=32 value="${inst.n?inst.n:""}" placeholder="Enter name..."/>`+
`<input type="text" class="ptxt" id="seg${i}t" autocomplete="off" maxlength=${li.arch=="esp8266"?32:64} value="${inst.n?inst.n:""}" placeholder="Enter name..."/>`+
`<table class="infot segt">`+
`<tr>`+
`<td>${isM&&staX<mw*mh?'Start X':'Start LED'}</td>`+
`<td>${isM&&staX<mw*mh?(cfg.comp.seglen?"Width":"Stop X"):(cfg.comp.seglen?"LED count":"Stop LED")}</td>`+
`<td>${isM&&staX<mw*mh?'':'Offset'}</td>`+
`<td>${isMSeg?'Start X':'Start LED'}</td>`+
`<td>${isMSeg?(cfg.comp.seglen?"Width":"Stop X"):(cfg.comp.seglen?"LED count":"Stop LED")}</td>`+
`<td>${isMSeg?'':'Offset'}</td>`+
`</tr>`+
`<tr>`+
`<td><input class="segn" id="seg${i}s" type="number" min="0" max="${(isM&&staX<mw*mh?mw:ledCount)-1}" value="${staX}" oninput="updateLen(${i})" onkeydown="segEnter(${i})"></td>`+
`<td><input class="segn" id="seg${i}e" type="number" min="0" max="${(isM&&staX<mw*mh?mw:ledCount)}" value="${stoX-(cfg.comp.seglen?staX:0)}" oninput="updateLen(${i})" onkeydown="segEnter(${i})"></td>`+
`<td style="text-align:revert;">${isM&&staX<mw*mh?miXck+'<br>'+rvXck:''}<input class="segn ${isM&&staX<mw*mh?'hide':''}" id="seg${i}of" type="number" value="${inst.of}" oninput="updateLen(${i})"></td>`+
`<td><input class="segn" id="seg${i}s" type="number" min="0" max="${(isMSeg?mw:ledCount)-1}" value="${staX}" oninput="updateLen(${i})" onkeydown="segEnter(${i})"></td>`+
`<td><input class="segn" id="seg${i}e" type="number" min="0" max="${(isMSeg?mw:ledCount)}" value="${stoX-(cfg.comp.seglen?staX:0)}" oninput="updateLen(${i})" onkeydown="segEnter(${i})"></td>`+
`<td ${isMSeg?'style="text-align:revert;"':''}>${isMSeg?miXck+'<br>'+rvXck:''}<input class="segn ${isMSeg?'hide':''}" id="seg${i}of" type="number" value="${inst.of}" oninput="updateLen(${i})"></td>`+
`</tr>`+
(isM && staX<mw*mh ? '<tr><td>Start Y</td><td>'+(cfg.comp.seglen?'Height':'Stop Y')+'</td><td></td></tr>'+
(isMSeg ? '<tr><td>Start Y</td><td>'+(cfg.comp.seglen?'Height':'Stop Y')+'</td><td></td></tr>'+
'<tr>'+
'<td><input class="segn" id="seg'+i+'sY" type="number" min="0" max="'+(mh-1)+'" value="'+staY+'" oninput="updateLen('+i+')" onkeydown="segEnter('+i+')"></td>'+
'<td><input class="segn" id="seg'+i+'eY" type="number" min="0" max="'+mh+'" value="'+(stoY-(cfg.comp.seglen?staY:0))+'" oninput="updateLen('+i+')" onkeydown="segEnter('+i+')"></td>'+
@ -775,15 +799,15 @@ function populateSegments(s)
`<tr>`+
`<td><input class="segn" id="seg${i}grp" type="number" min="1" max="255" value="${inst.grp}" oninput="updateLen(${i})" onkeydown="segEnter(${i})"></td>`+
`<td><input class="segn" id="seg${i}spc" type="number" min="0" max="255" value="${inst.spc}" oninput="updateLen(${i})" onkeydown="segEnter(${i})"></td>`+
`<td style="text-align:revert;"><button class="btn btn-xs" onclick="setSeg(${i})"><i class="icons btn-icon" id="segc${i}">&#xe390;</i></button></td>`+
`<td><button class="btn btn-xs" onclick="setSeg(${i})"><i class="icons btn-icon" id="segc${i}">&#xe390;</i></button></td>`+
`</tr>`+
`</table>`+
`<div class="h bp" id="seg${i}len"></div>`+
(!(isM&&staX<mw*mh) ? rvXck : '') +
(isM&&staX<mw*mh&&stoY-staY>1&&stoX-staX>1 ? map2D : '') +
(!isMSeg ? rvXck : '') +
(isMSeg&&stoY-staY>1&&stoX-staX>1 ? map2D : '') +
(s.AudioReactive && s.AudioReactive.on ? "" : sndSim) +
`<label class="check revchkl" id="seg${i}lbtm">`+
(isM&&staX<mw*mh?'Transpose':'Mirror effect') + (isM&&staX<mw*mh ?
(isMSeg?'Transpose':'Mirror effect') + (isMSeg ?
'<input type="checkbox" id="seg'+i+'tp" onchange="setTp('+i+')" '+(inst.tp?"checked":"")+'>':
'<input type="checkbox" id="seg'+i+'mi" onchange="setMi('+i+')" '+(inst.mi?"checked":"")+'>') +
`<span class="checkmark"></span>`+
@ -802,6 +826,7 @@ function populateSegments(s)
resetUtil(noNewSegs);
if (gId('selall')) gId('selall').checked = true;
for (var i = 0; i <= lSeg; i++) {
if (!gId(`seg${i}`)) continue;
updateLen(i);
updateTrail(gId(`seg${i}bri`));
gId(`segr${i}`).classList.add("hide");
@ -811,7 +836,7 @@ function populateSegments(s)
gId(`segd${lSeg}`).classList.add("hide");
gId(`segp0`).classList.add("hide");
}
if (!isM && !noNewSegs && (cfg.comp.seglen?parseInt(gId(`seg${lSeg}s`).value):0)+parseInt(gId(`seg${lSeg}e`).value)<ledCount) gId(`segr${lSeg}`).style.display = "inline";
if (!isM && !noNewSegs && (cfg.comp.seglen?parseInt(gId(`seg${lSeg}s`).value):0)+parseInt(gId(`seg${lSeg}e`).value)<ledCount) gId(`segr${lSeg}`).classList.remove("hide");
gId('segutil2').style.display = (segCount > 1) ? "block":"none"; // rsbtn parent
if (Array.isArray(li.maps) && li.maps.length>1) {
@ -966,7 +991,7 @@ function genPalPrevCss(id)
function generateListItemHtml(listName, id, name, clickAction, extraHtml = '', effectPar = '')
{
return `<div class="lstI${id==0?' sticky':''}" data-id="${id}" ${effectPar===''?'':'data-opt="'+effectPar+'" '}onClick="${clickAction}(${id})">`+
`<label class="radio schkl" onclick="event.preventDefault()">`+
`<label title="(${id})" class="radio schkl" onclick="event.preventDefault()">`+ // (#1984)
`<input type="radio" value="${id}" name="${listName}">`+
`<span class="radiomark"></span>`+
`<div class="lstIcontent">`+
@ -980,10 +1005,15 @@ function generateListItemHtml(listName, id, name, clickAction, extraHtml = '', e
function btype(b)
{
switch (b) {
case 2:
case 32: return "ESP32";
case 3:
case 33: return "ESP32-S2";
case 4:
case 34: return "ESP32-S3";
case 5:
case 35: return "ESP32-C3";
case 1:
case 82: return "ESP8266";
}
return "?";
@ -1004,8 +1034,9 @@ function populateNodes(i,n)
n.nodes.sort((a,b) => (a.name).localeCompare(b.name));
for (var o of n.nodes) {
if (o.name) {
var url = `<button class="btn" title="${o.ip}" onclick="location.assign('http://${o.ip}');">${bname(o)}</button>`;
urows += inforow(url,`${btype(o.type)}<br><i>${o.vid==0?"N/A":o.vid}</i>`);
let onoff = `<i class="icons e-icon flr ${o.type&0x80?'':'off'}" onclick="rmtTgl('${o.ip}',this);"">&#xe08f;</i>`;
var url = `<button class="btn" title="${o.ip}" onclick="location.assign('http://${o.ip}');"><div class="bname">${bname(o)}</div>${o.vid<2307130?'':onoff}</button>`;
urows += inforow(url,`${btype(o.type&0x7F)}<br><i>${o.vid==0?"N/A":o.vid}</i>`);
nnodes++;
}
}
@ -1021,8 +1052,7 @@ function populateNodes(i,n)
function loadNodes()
{
var url = (loc?`http://${locip}`:'') + '/json/nodes';
fetch(url, {
fetch(getURL('/json/nodes'), {
method: 'get'
})
.then((res)=>{
@ -1242,6 +1272,7 @@ function updateSelectedFx()
// hide non-0D effects if segment only has 1 pixel (0D)
var fxs = parent.querySelectorAll('.lstI');
for (const fx of fxs) {
if (!fx.dataset.opt) continue;
let opts = fx.dataset.opt.split(";");
if (fx.dataset.id>0) {
if (segLmax==0) fx.classList.add('hide'); // none of the segments selected (hide all effects)
@ -1256,7 +1287,7 @@ function updateSelectedFx()
var segs = gId("segcont").querySelectorAll(`div[data-map="map2D"]`);
for (const seg of segs) if (selectedName.indexOf("\u25A6")<0) seg.classList.remove('hide'); else seg.classList.add('hide');
var segs = gId("segcont").querySelectorAll(`div[data-snd="si"]`);
for (const seg of segs) if (selectedName.indexOf("\u266A")<0 && selectedName.indexOf("\266B")<0) seg.classList.add('hide'); else seg.classList.remove('hide'); // also "♫ "?
for (const seg of segs) if (selectedName.indexOf("\u266A")<0 && selectedName.indexOf("\u266B")<0) seg.classList.add('hide'); else seg.classList.remove('hide'); // also "♫ "?
}
}
@ -1282,7 +1313,8 @@ function cmpP(a, b)
function makeWS() {
if (ws || lastinfo.ws < 0) return;
ws = new WebSocket((window.location.protocol == "https:"?"wss":"ws")+'://'+(loc?locip:window.location.hostname)+'/ws');
let url = loc ? getURL('/ws').replace("http","ws") : "ws://"+window.location.hostname+"/ws";
ws = new WebSocket(url);
ws.binaryType = "arraybuffer";
ws.onmessage = (e)=>{
if (e.data instanceof ArrayBuffer) return; // liveview packet
@ -1306,11 +1338,12 @@ function makeWS() {
};
ws.onclose = (e)=>{
gId('connind').style.backgroundColor = "var(--c-r)";
setTimeout(makeWS,1500); // retry WS connection
if (wsRpt++ < 5) setTimeout(makeWS,1500); // retry WS connection
ws = null;
}
ws.onopen = (e)=>{
//ws.send("{'v':true}"); // unnecessary (https://github.com/Aircoookie/WLED/blob/master/wled00/ws.cpp#L18)
wsRpt = 0;
reqsLegal = true;
}
}
@ -1368,6 +1401,8 @@ function readState(s,command=false)
return true;
}
if (s.seg.length>2) d.querySelectorAll(".pop").forEach((e)=>{e.classList.remove("hide");});
var cd = gId('csl').children;
for (let e = cd.length-1; e >= 0; e--) {
cd[e].dataset.r = i.col[e][0];
@ -1559,7 +1594,6 @@ function requestJson(command=null)
if (command && !reqsLegal) return; // stop post requests from chrome onchange event on page restore
if (!jsonTimeout) jsonTimeout = setTimeout(()=>{if (ws) ws.close(); ws=null; showErrorToast()}, 3000);
var req = null;
var url = (loc?`http://${locip}`:'') + '/json/si';
var useWs = (ws && ws.readyState === WebSocket.OPEN);
var type = command ? 'post':'get';
if (command) {
@ -1580,7 +1614,7 @@ function requestJson(command=null)
return;
}
fetch(url, {
fetch(getURL('/json/si'), {
method: type,
headers: {
"Content-type": "application/json; charset=UTF-8"
@ -1611,6 +1645,7 @@ function requestJson(command=null)
//load presets and open websocket sequentially
if (!pJson || isEmpty(pJson)) setTimeout(()=>{
loadPresets(()=>{
wsRpt = 0;
if (!(ws && ws.readyState === WebSocket.OPEN)) makeWS();
});
},25);
@ -1658,27 +1693,22 @@ function toggleSync()
function toggleLiveview()
{
//WLEDSR adding liveview2D support
if (isInfo && isM) toggleInfo();
if (isNodes && isM) toggleNodes();
isLv = !isLv;
let wsOn = ws && ws.readyState === WebSocket.OPEN;
var lvID = "liveview";
if (isM) {
lvID = "liveview2D"
if (isLv) {
var cn = '<iframe id="liveview2D" src="about:blank"></iframe>';
d.getElementById('kliveview2D').innerHTML = cn;
}
gId('mliveview2D').style.transform = (isLv) ? "translateY(0px)":"translateY(100%)";
if (isM && wsOn) {
lvID += "2D";
if (isLv) gId('klv2D').innerHTML = `<iframe id="${lvID}" src="about:blank"></iframe>`;
gId('mlv2D').style.transform = (isLv) ? "translateY(0px)":"translateY(100%)";
}
gId(lvID).style.display = (isLv) ? "block":"none";
var url = (loc?`http://${locip}`:'') + "/" + lvID;
gId(lvID).src = (isLv) ? url:"about:blank";
gId('buttonSr').className = (isLv) ? "active":"";
if (!isLv && ws && ws.readyState === WebSocket.OPEN) ws.send('{"lv":false}');
gId(lvID).src = (isLv) ? getURL("/" + lvID + ((wsOn) ? "?ws":"")):"about:blank";
gId('buttonSr').classList.toggle("active");
if (!isLv && wsOn) ws.send('{"lv":false}');
size();
}
@ -1749,9 +1779,13 @@ function makeSeg()
function resetUtil(off=false)
{
gId('segutil').innerHTML = `<div class="seg btn btn-s ${off?'off':''}" style="border-radius:24px;padding:0;">`
gId('segutil').innerHTML = `<div class="seg btn btn-s${off?' off':''}" style="padding:0;">`
+ '<label class="check schkl"><input type="checkbox" id="selall" onchange="selSegAll(this)"><span class="checkmark"></span></label>'
+ `<div class="segname" ${off?'':'onclick="makeSeg()"'}><i class="icons btn-icon">&#xe18a;</i>Add segment</div></div>`;
+ `<div class="segname" ${off?'':'onclick="makeSeg()"'}><i class="icons btn-icon">&#xe18a;</i>Add segment</div>`
+ '<div class="pop hide" onclick="event.stopPropagation();">'
+ `<i class="icons g-icon" onclick="this.nextElementSibling.classList.toggle('hide');">&#xE34B;</i>`
+ '<div class="pop-c hide"><span style="color:var(--c-f);" onclick="selGrp(0);">&#x278A;</span><span style="color:var(--c-r);" onclick="selGrp(1);">&#x278B;</span><span style="color:var(--c-g);" onclick="selGrp(2);">&#x278C;</span><span style="color:var(--c-l);" onclick="selGrp(3);">&#x278D;</span></div>'
+ '</div></div>';
}
function makePlSel(el, incPl=false)
@ -2018,14 +2052,14 @@ function tglSegn(s)
function selSegAll(o)
{
var obj = {"seg":[]};
for (let i=0; i<=lSeg; i++) obj.seg.push({"id":i,"sel":o.checked});
for (let i=0; i<=lSeg; i++) if (gId(`seg${i}`)) obj.seg.push({"id":i,"sel":o.checked});
requestJson(obj);
}
function selSegEx(s)
{
var obj = {"seg":[]};
for (let i=0; i<=lSeg; i++) obj.seg.push({"id":i,"sel":(i==s)});
for (let i=0; i<=lSeg; i++) if (gId(`seg${i}`)) obj.seg.push({"id":i,"sel":(i==s)});
obj.mainseg = s;
requestJson(obj);
}
@ -2037,6 +2071,20 @@ function selSeg(s)
requestJson(obj);
}
function selGrp(g)
{
event.preventDefault();
event.stopPropagation();
var sel = gId(`segcont`).querySelectorAll(`div[data-set="${g}"]`);
var obj = {"seg":[]};
for (let i=0; i<=lSeg; i++) if (gId(`seg${i}`)) obj.seg.push({"id":i,"sel":false});
if (sel) for (let s of sel||[]) {
let i = parseInt(s.id.substring(3));
obj.seg[i] = {"id":i,"sel":true};
}
if (obj.seg.length) requestJson(obj);
}
function rptSeg(s)
{
//TODO: 2D support
@ -2157,6 +2205,14 @@ function setTp(s)
requestJson(obj);
}
function setGrp(s, g)
{
event.preventDefault();
event.stopPropagation();
var obj = {"seg": {"id": s, "set": g}};
requestJson(obj);
}
function setSegPwr(s)
{
var pwr = gId(`seg${s}pwr`).classList.contains('act');
@ -2188,8 +2244,7 @@ function setFX(ind = null)
} else {
d.querySelector(`#fxlist input[name="fx"][value="${ind}"]`).checked = true;
}
var obj = {"seg": {"fx": parseInt(ind),"fxdef":1}}; // fxdef sets effect parameters to default values, TODO add client setting
var obj = {"seg": {"fx": parseInt(ind), "fxdef": cfg.comp.fxdef}}; // fxdef sets effect parameters to default values
requestJson(obj);
}
@ -2523,6 +2578,24 @@ function setBalance(b)
requestJson(obj);
}
function rmtTgl(ip,i) {
event.preventDefault();
event.stopPropagation();
fetch(`http://${ip}/win&T=2`, {method: 'get'})
.then((r)=>{
return r.text();
})
.then((t)=>{
let c = (new window.DOMParser()).parseFromString(t, "text/xml");
// perhaps just i.classList.toggle("off"); would be enough
if (c.getElementsByTagName('ac')[0].textContent === "0") {
i.classList.add("off");
} else {
i.classList.remove("off");
}
});
}
var hc = 0;
setInterval(()=>{
if (!isInfo) return;
@ -2545,7 +2618,7 @@ function cnfReset()
bt.innerHTML = "Confirm Reboot";
cnfr = true; return;
}
window.location.href = "/reset";
window.location.href = getURL("/reset");
}
var cnfrS = false;
@ -2599,9 +2672,7 @@ function loadPalettesData(callback = null)
function getPalettesData(page, callback)
{
var url = (loc?`http://${locip}`:'') + `/json/palx?page=${page}`;
fetch(url, {
fetch(getURL(`/json/palx?page=${page}`), {
method: 'get',
headers: {
"Content-type": "application/json; charset=UTF-8"

59
wled00/data/liveview.htm
View File

@ -17,21 +17,17 @@
position: absolute;
}
</style>
</head>
<body>
<div id="canv" />
<script>
update();
var ws;
var tmout = null;
function update()
function update() // via HTTP (/json/live)
{
if (document.hidden) {
clearTimeout(tmout);
tmout = setTimeout(update, 250);
return;
}
fetch('/json/live')
fetch('./json/live')
.then(res => {
if (!res.ok) {
clearTimeout(tmout);
@ -57,8 +53,57 @@
clearTimeout(tmout);
tmout = setTimeout(update, 2500);
})
}
function S() { // Startup function (onload)
let wsOn = (window.location.href.indexOf("?ws") > 0);
if (!wsOn) {update(); return;}
// Initialize WebSocket connection
try {
ws = top.window.ws;
} catch (e) {}
if (ws && ws.readyState === WebSocket.OPEN) {
//console.info("Peek uses top WS");
ws.send("{'lv':true}");
} else {
//console.info("Peek WS opening");
let l = window.location;
let pathn = l.pathname;
let paths = pathn.slice(1,pathn.endsWith('/')?-1:undefined).split("/");
let url = l.origin.replace("http","ws");
if (paths.length > 1) {
url += "/" + paths[0];
}
ws = new WebSocket(url+"/ws");
ws.onopen = function () {
//console.info("Peek WS open");
ws.send("{'lv':true}");
}
}
ws.binaryType = "arraybuffer";
ws.addEventListener('message', (e) => {
try {
if (toString.call(e.data) === '[object ArrayBuffer]') {
let leds = new Uint8Array(event.data);
if (leds[0] != 76) return; //'L'
let str = "linear-gradient(90deg,";
let len = leds.length;
let start = leds[1]==2 ? 4 : 2; // 1 = 1D, 2 = 1D/2D (leds[2]=w, leds[3]=h)
for (i = start; i < len; i+=3) {
str += `rgb(${leds[i]},${leds[i+1]},${leds[i+2]})`;
if (i < len -3) str += ","
}
str += ")";
document.getElementById("canv").style.background = str;
}
} catch (err) {
console.error("Peek WS error:",err);
}
});
}
</script>
</head>
<body onload="S()">
<div id="canv"></div>
</body>
</html>

61
wled00/data/liveviewws.htm
View File

@ -1,61 +0,0 @@
<!DOCTYPE html>
<html>
<head>
<meta name="viewport" content="width=device-width, initial-scale=1, minimum-scale=1">
<meta charset="utf-8">
<meta name="theme-color" content="#222222">
<title>WLED Live Preview</title>
<style>
body {
margin: 0;
}
#canv {
background: black;
filter: brightness(175%);
width: 100%;
height: 100%;
position: absolute;
}
</style>
</head>
<body>
<div id="canv"></div>
<script>
var ws;
try {
ws = top.window.ws;
} catch (e) {}
if (ws && ws.readyState === WebSocket.OPEN) {
//console.info("Peek uses top WS");
ws.send("{'lv':true}");
} else {
console.info("Peek WS opening");
ws = new WebSocket((window.location.protocol == "https:"?"wss":"ws")+"://"+document.location.host+"/ws");
ws.onopen = function () {
//console.info("Peek WS open");
ws.send("{'lv':true}");
}
}
ws.binaryType = "arraybuffer";
ws.addEventListener('message', (e) => {
try {
if (toString.call(e.data) === '[object ArrayBuffer]') {
let leds = new Uint8Array(event.data);
if (leds[0] != 76) return; //'L'
let str = "linear-gradient(90deg,";
let len = leds.length;
let start = leds[1]==2 ? 4 : 2; // 1 = 1D, 2 = 1D/2D (leds[2]=w, leds[3]=h)
for (i = start; i < len; i+=3) {
str += `rgb(${leds[i]},${leds[i+1]},${leds[i+2]})`;
if (i < len -3) str += ","
}
str += ")";
document.getElementById("canv").style.background = str;
}
} catch (err) {
console.error("Peek WS error:",err);
}
});
</script>
</body>
</html>

9
wled00/data/liveviewws2D.htm
View File

@ -33,7 +33,14 @@
if (ws && ws.readyState === WebSocket.OPEN) {
ws.send("{'lv':true}");
} else {
ws = new WebSocket((window.location.protocol == "https:"?"wss":"ws")+"://"+document.location.host+"/ws");
let l = window.location;
let pathn = l.pathname;
let paths = pathn.slice(1,pathn.endsWith('/')?-1:undefined).split("/");
let url = l.origin.replace("http","ws");
if (paths.length > 1) {
url += "/" + paths[0];
}
ws = new WebSocket(url+"/ws");
ws.onopen = ()=>{
ws.send("{'lv':true}");
}

4
wled00/data/msg.htm
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@ -6,8 +6,8 @@
<title>WLED Message</title>
<script>
function B() { window.history.back() };
function RS() { window.location = "/settings"; }
function RP() { top.location.href = "/"; }
function RS() { window.location = "../settings"; }
function RP() { top.location.href = "../"; }
</script>
<style>
@import url("style.css");

2026
wled00/data/pxmagic/pxmagic.htm Normal file
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40
wled00/data/settings.htm
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@ -6,7 +6,7 @@
<title>WLED Settings</title>
<script>
var d=document;
var loc = false, locip;
var loc = false, locip, locproto = "http:";
function gId(n){return d.getElementById(n);}
// https://www.educative.io/edpresso/how-to-dynamically-load-a-js-file-in-javascript
function loadJS(FILE_URL, async = true) {
@ -27,16 +27,28 @@
});
}
function S() {
if (window.location.protocol == "file:") {
let l = window.location;
if (l.protocol == "file:") {
loc = true;
locip = localStorage.getItem('locIp');
if (!locip) {
locip = prompt("File Mode. Please enter WLED IP!");
localStorage.setItem('locIp', locip);
}
} else {
// detect reverse proxy
let path = l.pathname;
let paths = path.slice(1,path.endsWith('/')?-1:undefined).split("/");
if (paths.length > 1) {
locproto = l.protocol;
loc = true;
locip = l.hostname + (l.port ? ":" + l.port : "") + "/" + paths[0];
}
var url = (loc?`http://${locip}`:'') + '/settings/s.js?p=0';
loadJS(url, false); // If we set async false, file is loaded and executed, then next statement is processed
}
loadJS(getURL('/settings/s.js?p=0'), false); // If we set async false, file is loaded and executed, then next statement is processed
}
function getURL(path) {
return (loc ? locproto + "//" + locip : "") + path;
}
</script>
<style>
@ -65,15 +77,15 @@
</style>
</head>
<body onload="S()">
<button type=submit id="b" onclick="window.location='/'">Back</button>
<button type="submit" onclick="window.location='./settings/wifi'">WiFi Setup</button>
<button type="submit" onclick="window.location='./settings/leds'">LED Preferences</button>
<button id="2dbtn" style="display:none;" type="submit" onclick="window.location='./settings/2D'">2D Configuration</button>
<button type="submit" onclick="window.location='./settings/ui'">User Interface</button>
<button id="dmxbtn" style="display:none;" type="submit" onclick="window.location='./settings/dmx'">DMX Output</button>
<button type="submit" onclick="window.location='./settings/sync'">Sync Interfaces</button>
<button type="submit" onclick="window.location='./settings/time'">Time & Macros</button>
<button type="submit" onclick="window.location='./settings/um'">Usermods</button>
<button type="submit" onclick="window.location='./settings/sec'">Security & Updates</button>
<button type=submit id="b" onclick="window.location=getURL('/')">Back</button>
<button type="submit" onclick="window.location=getURL('/settings/wifi')">WiFi Setup</button>
<button type="submit" onclick="window.location=getURL('/settings/leds')">LED Preferences</button>
<button id="2dbtn" style="display:none;" type="submit" onclick="window.location=getURL('/settings/2D')">2D Configuration</button>
<button type="submit" onclick="window.location=getURL('/settings/ui')">User Interface</button>
<button id="dmxbtn" style="display:none;" type="submit" onclick="window.location=getURL('/settings/dmx')">DMX Output</button>
<button type="submit" onclick="window.location=getURL('/settings/sync')">Sync Interfaces</button>
<button type="submit" onclick="window.location=getURL('/settings/time')">Time & Macros</button>
<button type="submit" onclick="window.location=getURL('/settings/um')">Usermods</button>
<button type="submit" onclick="window.location=getURL('/settings/sec')">Security & Updates</button>
</body>
</html>

25
wled00/data/settings_2D.htm
View File

@ -7,11 +7,11 @@
<title>2D Set-up</title>
<script>
var d=document;
var loc = false, locip;
var loc = false, locip, locproto = "http:";
var maxPanels=64;
var ctx = null; // WLEDMM
function H(){window.open("https://kno.wled.ge/features/2D");}
function B(){window.open("/settings","_self");}
function B(){window.open(getURL("/settings"),"_self");}
function gId(n){return d.getElementById(n);}
function fS(){d.Sf.submit();} // <button type=submit> sometimes didn't work
// https://www.educative.io/edpresso/how-to-dynamically-load-a-js-file-in-javascript
@ -35,16 +35,29 @@
});
}
function S() {
if (window.location.protocol == "file:") {
let l = window.location;
if (l.protocol == "file:") {
loc = true;
locip = localStorage.getItem('locIp');
if (!locip) {
locip = prompt("File Mode. Please enter WLED IP!");
localStorage.setItem('locIp', locip);
}
} else {
// detect reverse proxy
let path = l.pathname;
let paths = path.slice(1,path.endsWith('/')?-1:undefined).split("/");
if (paths.length > 2) {
locproto = l.protocol;
loc = true;
locip = l.hostname + (l.port ? ":" + l.port : "") + "/" + paths[0];
}
var url = (loc?`http://${locip}`:'') + '/settings/s.js?p=10';
loadJS(url, false); // If we set async false, file is loaded and executed, then next statement is processed
}
loadJS(getURL('/settings/s.js?p=10'), false); // If we set async false, file is loaded and executed, then next statement is processed
if (loc) d.Sf.action = getURL('/settings/2D');
}
function getURL(path) {
return (loc ? locproto + "//" + locip : "") + path;
}
function UI() {
@ -322,7 +335,7 @@ Y:<input name="P${i}Y" type="number" min="0" max="255" value="0" oninput="UI()">
<option value="1">Vertical</option>
</select><br>
Serpentine: <input type="checkbox" name="PS"><br>
<i style="color:#fa0;">Pressing Populate will create LED panel layout with pre-arranged matrix.<br>Values above <i>will not</i> affect final layout.<br>
<i class="warn">Pressing Populate will create LED panel layout with pre-arranged matrix.<br>Values above <i>will not</i> affect final layout.<br>
WARNING: You may need to update each panel parameters after they are generated.</i><br>
<button type="button" onclick="gen();expand(gId('expGen'),gId('mxGen'));">Populate</button>
</div>

23
wled00/data/settings_dmx.htm
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@ -7,9 +7,9 @@
<title>DMX Settings</title>
<script>
var d=document;
var loc = false, locip;
var loc = false, locip, locproto = "http:";
function H(){window.open("https://github.com/Aircoookie/WLED/wiki/DMX");}
function B(){window.history.back();}
function B(){window.open(getURL("/settings"),"_self");}
function GCH(num) {
d.getElementById('dmxchannels').innerHTML += "";
for (i=0;i<num;i++) {
@ -54,16 +54,29 @@
});
}
function S(){
if (window.location.protocol == "file:") {
let l = window.location;
if (l.protocol == "file:") {
loc = true;
locip = localStorage.getItem('locIp');
if (!locip) {
locip = prompt("File Mode. Please enter WLED IP!");
localStorage.setItem('locIp', locip);
}
} else {
// detect reverse proxy
let path = l.pathname;
let paths = path.slice(1,path.endsWith('/')?-1:undefined).split("/");
if (paths.length > 2) {
locproto = l.protocol;
loc = true;
locip = l.hostname + (l.port ? ":" + l.port : "") + "/" + paths[0];
}
var url = (loc?`http://${locip}`:'') + '/settings/s.js?p=7';
loadJS(url, false); // If we set async false, file is loaded and executed, then next statement is processed
}
loadJS(getURL('/settings/s.js?p=7'), false); // If we set async false, file is loaded and executed, then next statement is processed
if (loc) d.Sf.action = getURL('/settings/dmx');
}
function getURL(path) {
return (loc ? locproto + "//" + locip : "") + path;
}
</script>
<style>@import url("style.css");</style>

233
wled00/data/settings_leds.htm
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@ -10,11 +10,11 @@
d.um_p = [];
d.rsvd = [];
d.ro_gpio = [];
d.max_gpio = 39;
d.max_gpio = 50;
var customStarts=false,startsDirty=[],maxCOOverrides=5;
var loc = false, locip;
var loc = false, locip, locproto = "http:";
function H(){window.open("https://kno.wled.ge/features/settings/#led-settings");}
function B(){window.open("/settings","_self");}
function B(){window.open(getURL("/settings"),"_self");}
function gId(n){return d.getElementById(n);}
function off(n){d.getElementsByName(n)[0].value = -1;}
// https://www.educative.io/edpresso/how-to-dynamically-load-a-js-file-in-javascript
@ -26,8 +26,12 @@
d.body.appendChild(scE);
// success event
scE.addEventListener("load", () => {
GetV();checkSi();setABL();
GetV();
checkSi();
setABL();
d.Sf.addEventListener("submit", trySubmit);
if (d.um_p[0]==-1) d.um_p.shift();
pinDropdowns();
});
// error event
scE.addEventListener("error", (ev) => {
@ -49,7 +53,7 @@
maxB = b; maxV = v; maxM = m; maxPB = p; maxL = l;
}
function pinsOK() {
var LCs = d.getElementsByTagName("input");
var LCs = d.Sf.querySelectorAll("#mLC input[name^=L]"); // input fields
for (i=0; i<LCs.length; i++) {
var nm = LCs[i].name.substring(0,2);
// ignore IP address
@ -59,23 +63,36 @@
if (t>=80) continue;
}
//check for pin conflicts
if (nm=="L0" || nm=="L1" || nm=="L2" || nm=="L3" || nm=="L4" || nm=="RL" || nm=="BT" || nm=="IR")
if (nm=="L0" || nm=="L1" || nm=="L2" || nm=="L3" || nm=="L4"/* || nm=="RL" || nm=="BT" || nm=="IR"*/)
if (LCs[i].value!="" && LCs[i].value!="-1") {
var p = []; // used pin array
for (k=0;k<d.rsvd.length;k++) p.push(d.rsvd[k]); // fill with reservations
for (k=0;k<d.um_p.length;k++) p.push(d.um_p[k]); // fill with usermod pins
if (p.some((e)=>e==parseInt(LCs[i].value,10))) {alert(`Sorry, pins ${JSON.stringify(p)} can't be used.`);LCs[i].value="";LCs[i].focus();return false;}
else if (!(nm == "IR" || nm=="BT") && d.ro_gpio.some((e)=>e==parseInt(LCs[i].value,10))) {alert(`Sorry, pins ${JSON.stringify(d.ro_gpio)} are input only.`);LCs[i].value="";LCs[i].focus();return false;}
for (j=i+1; j<LCs.length; j++)
{
var p = d.rsvd.concat(d.um_p); // used pin array
d.Sf.querySelectorAll("select.pin").forEach((e)=>{if(e.value>-1)p.push(parseInt(e.value));}) // buttons, IR & relay
if (p.some((e)=>e==parseInt(LCs[i].value))) {
alert(`Sorry, pins ${JSON.stringify(p)} can't be used.`);
LCs[i].value="";
LCs[i].focus();
return false;
}
else if (/*!(nm == "IR" || nm=="BT") &&*/ d.ro_gpio.some((e)=>e==parseInt(LCs[i].value))) {
alert(`Sorry, pins ${JSON.stringify(d.ro_gpio)} are input only.`);
LCs[i].value="";
LCs[i].focus();
return false;
}
for (j=i+1; j<LCs.length; j++) {
var n2 = LCs[j].name.substring(0,2);
if (n2=="L0" || n2=="L1" || n2=="L2" || n2=="L3" || n2=="L4" || n2=="RL" || n2=="BT" || n2=="IR") {
if (n2=="L0" || n2=="L1" || n2=="L2" || n2=="L3" || n2=="L4"/* || n2=="RL" || n2=="BT" || n2=="IR"*/) {
if (n2.substring(0,1)==="L") {
var m = LCs[j].name.substring(2);
var t2 = parseInt(d.getElementsByName("LT"+m)[0].value, 10);
if (t2>=80) continue;
}
if (LCs[j].value!="" && LCs[i].value==LCs[j].value) {alert(`Pin conflict between ${LCs[i].name}/${LCs[j].name}!`);LCs[j].value="";LCs[j].focus();return false;}
if (LCs[j].value!="" && LCs[i].value==LCs[j].value) {
alert(`Pin conflict between ${LCs[i].name}/${LCs[j].name}!`);
LCs[j].value="";
LCs[j].focus();
return false;
}
}
}
}
@ -96,6 +113,7 @@
gId('abl').style.display = (en) ? 'inline':'none';
gId('psu2').style.display = (en) ? 'inline':'none';
if (d.Sf.LA.value > 0) setABL();
UI();
}
function enLA()
{
@ -117,28 +135,28 @@
default: gId('LAdis').style.display = 'inline';
}
gId('m1').innerHTML = maxM;
d.getElementsByName("Sf")[0].addEventListener("submit", trySubmit);
UI();
}
//returns mem usage
function getMem(t, n) {
let len = parseInt(d.getElementsByName("LC"+n)[0].value);
len += parseInt(d.getElementsByName("SL"+n)[0].value); // skipped LEDs are allocated too
let dbl = 0;
if (d.Sf.LD.checked) dbl = len * 3; // double buffering
if (t < 32) {
if (t==26 || t==29) len *= 2; // 16 bit LEDs
if (maxM < 10000 && d.getElementsByName("L0"+n)[0].value == 3) { //8266 DMA uses 5x the mem
if (t > 28) return len*20; //RGBW
return len*15;
if (t > 28) return len*20 + dbl; //RGBW
return len*15 + dbl;
} else if (maxM >= 10000) //ESP32 RMT uses double buffer?
{
if (t > 28) return len*8; //RGBW
return len*6;
if (t > 28) return len*8 + dbl; //RGBW
return len*6 + dbl;
}
if (t > 28) return len*4; //RGBW
return len*3;
if (t > 28) return len*4 + dbl; //RGBW
return len*3 + dbl;
}
if (t > 31 && t < 48) return 5;
return len*3;
if (t > 31 && t < 48) return 5; // analog
return len*3 + dbl;
}
function UI(change=false)
@ -151,15 +169,13 @@
else if (d.Sf.LA.value > 0) laprev = d.Sf.LA.value;
// enable/disable LED fields
var s = d.getElementsByTagName("select");
for (i=0; i<s.length; i++) {
d.Sf.querySelectorAll("#mLC select[name^=LT]").forEach((s)=>{
// is the field a LED type?
if (s[i].name.substring(0,2)=="LT") {
var n = s[i].name.substring(2);
var t = parseInt(s[i].value,10);
var n = s.name.substring(2);
var t = parseInt(s.value);
gId("p0d"+n).innerHTML = (t>=80 && t<96) ? "IP address:" : (t > 49) ? "Data GPIO:" : (t > 41) ? "GPIOs:" : "GPIO:";
gId("p1d"+n).innerHTML = (t> 49 && t<64) ? "Clk GPIO:" : "";
var LK = d.getElementsByName("L1"+n)[0]; // clock pin
//var LK = d.getElementsByName("L1"+n)[0]; // clock pin
memu += getMem(t, n); // calc memory
@ -196,8 +212,7 @@
gId("dig"+n+"l").style.display = (t > 48 && t < 64) ? "inline":"none"; // bus clock speed
gId("rev"+n).innerHTML = (t >= 40 && t < 48) ? "Inverted output":"Reversed (rotated 180°)"; // change reverse text for analog
gId("psd"+n).innerHTML = (t >= 40 && t < 48) ? "Index:":"Start:"; // change analog start description
}
}
});
// display global white channel overrides
gId("wc").style.display = (gRGBW) ? 'inline':'none';
if (!gRGBW) {
@ -205,7 +220,7 @@
d.Sf.CR.checked = false;
}
// check for pin conflicts
var LCs = d.getElementsByTagName("input");
var LCs = d.Sf.querySelectorAll("#mLC input[name^=L]"); // input fields
var sLC = 0, sPC = 0, maxLC = 0;
for (i=0; i<LCs.length; i++) {
var nm = LCs[i].name.substring(0,2); // field name
@ -243,15 +258,14 @@
}
}
// check for pin conflicts
if (nm=="L0" || nm=="L1" || nm=="L2" || nm=="L3" || nm=="L4" || nm=="RL" || nm=="BT" || nm=="IR")
if (nm=="L0" || nm=="L1" || nm=="L2" || nm=="L3" || nm=="L4"/* || nm=="RL" || nm=="BT" || nm=="IR"*/)
if (LCs[i].value!="" && LCs[i].value!="-1") {
var p = []; // used pin array
for (k=0;k<d.rsvd.length;k++) p.push(d.rsvd[k]); // fill with reservations
for (k=0;k<d.um_p.length;k++) p.push(d.um_p[k]); // fill with usermod pins
var p = d.rsvd.concat(d.um_p); // used pin array
d.Sf.querySelectorAll("select.pin").forEach((e)=>{if(e.value>-1)p.push(parseInt(e.value));}) // buttons, IR & relay
for (j=0; j<LCs.length; j++) {
if (i==j) continue;
var n2 = LCs[j].name.substring(0,2);
if (n2=="L0" || n2=="L1" || n2=="L2" || n2=="L3" || n2=="L4" || n2=="RL" || n2=="BT" || n2=="IR") {
if (n2=="L0" || n2=="L1" || n2=="L2" || n2=="L3" || n2=="L4"/* || n2=="RL" || n2=="BT" || n2=="IR"*/) {
if (n2.substring(0,1)==="L") {
var m = LCs[j].name.substring(2);
var t2 = parseInt(d.getElementsByName("LT"+m)[0].value, 10);
@ -261,13 +275,13 @@
}
}
// now check for conflicts
if (p.some((e)=>e==parseInt(LCs[i].value,10))) LCs[i].style.color="red"; else LCs[i].style.color=d.ro_gpio.some((e)=>e==parseInt(LCs[i].value,10))?"orange":"#fff";
if (p.some((e)=>e==parseInt(LCs[i].value))) LCs[i].style.color="red"; else LCs[i].style.color=d.ro_gpio.some((e)=>e==parseInt(LCs[i].value))?"orange":"#fff";
}
// check buttons, IR & relay
if (nm=="IR" || nm=="BT" || nm=="RL") {
LCs[i].max = d.max_gpio;
LCs[i].min = -1;
}
//if (nm=="IR" || nm=="BT" || nm=="RL") {
// LCs[i].max = d.max_gpio;
// LCs[i].min = -1;
//}
}
// update total led count
gId("lc").textContent = sLC;
@ -366,11 +380,11 @@ ${i+1}:
<span id="psd${i}">Start:</span> <input type="number" name="LS${i}" id="ls${i}" class="l starts" min="0" max="8191" value="${lastEnd(i)}" oninput="startsDirty[${i}]=true;UI();" required />&nbsp;
<div id="dig${i}c" style="display:inline">Length: <input type="number" name="LC${i}" class="l" min="1" max="${maxPB}" value="1" required oninput="UI()" /></div><br>
</div>
<span id="p0d${i}">GPIO:</span> <input type="number" name="L0${i}" required class="s" onchange="UI()"/>
<span id="p1d${i}"></span><input type="number" name="L1${i}" class="s" onchange="UI()"/>
<span id="p2d${i}"></span><input type="number" name="L2${i}" class="s" onchange="UI()"/>
<span id="p3d${i}"></span><input type="number" name="L3${i}" class="s" onchange="UI()"/>
<span id="p4d${i}"></span><input type="number" name="L4${i}" class="s" onchange="UI()"/>
<span id="p0d${i}">GPIO:</span><input type="number" name="L0${i}" required class="s" onchange="UI();pinUpd(this);"/>
<span id="p1d${i}"></span><input type="number" name="L1${i}" class="s" onchange="UI();pinUpd(this);"/>
<span id="p2d${i}"></span><input type="number" name="L2${i}" class="s" onchange="UI();pinUpd(this);"/>
<span id="p3d${i}"></span><input type="number" name="L3${i}" class="s" onchange="UI();pinUpd(this);"/>
<span id="p4d${i}"></span><input type="number" name="L4${i}" class="s" onchange="UI();pinUpd(this);"/>
<div id="dig${i}r" style="display:inline"><br><span id="rev${i}">Reversed</span>: <input type="checkbox" name="CV${i}"></div>
<div id="dig${i}s" style="display:inline"><br>Skip first LEDs: <input type="number" name="SL${i}" min="0" max="255" value="0" oninput="UI()"></div>
<div id="dig${i}f" style="display:inline"><br>Off Refresh: <input id="rf${i}" type="checkbox" name="RF${i}"></div>
@ -546,17 +560,126 @@ Length: <input type="number" name="XC${i}" id="xc${i}" class="l" min="1" max="65
}
}
}
function pinDropdowns() {
let fields = ["IR","RL"]; // IR & relay
gId("btns").querySelectorAll('input[type="number"]').forEach((e)=>{fields.push(e.name);}) // buttons
for (let i of d.Sf.elements) {
if (i.type === "number" && fields.includes(i.name)) { //select all pin select elements
let v = parseInt(i.value);
let sel = addDropdown(i.name,0);
for (var j = -1; j <= d.max_gpio; j++) {
if (d.rsvd.includes(j)) continue;
let foundPin = d.um_p.indexOf(j);
let txt = (j === -1) ? "unused" : `${j}`;
if (foundPin >= 0 && j !== v) txt += ` used`; // already reserved pin
if (d.ro_gpio.includes(j)) txt += " (R/O)";
let opt = addOption(sel, txt, j);
if (j === v) opt.selected = true; // this is "our" pin
else if (d.um_p.includes(j)) opt.disabled = true; // someone else's pin
}
}
}
// update select options
d.Sf.querySelectorAll("select.pin").forEach((e)=>{pinUpd(e);});
// add dataset values for LED GPIO pins
d.Sf.querySelectorAll(".iST input.s[name^=L]").forEach((i)=>{
if (i.value!=="" && i.value>=0)
i.dataset.val = i.value;
});
}
function pinUpd(e) {
// update changed select options across all usermods
let oldV = parseInt(e.dataset.val);
e.dataset.val = e.value;
let txt = e.name;
let pins = [];
d.Sf.querySelectorAll(".iST input.s[name^=L]").forEach((i)=>{
if (i.value!=="" && i.value>=0 && i.max<255)
pins.push(i.value);
});
let selects = d.Sf.querySelectorAll("select.pin");
for (let sel of selects) {
if (sel == e) continue
Array.from(sel.options).forEach((i)=>{
let led = pins.includes(i.value);
if (!(i.value==oldV || i.value==e.value || led)) return;
if (i.value == -1) {
i.text = "unused";
return
}
i.text = i.value;
if (i.value==oldV) {
i.disabled = false;
}
if (i.value==e.value || led) {
i.disabled = true;
i.text += ` ${led?'LED':txt}`;
}
if (d.ro_gpio.includes(parseInt(i.value))) i.text += " (R/O)";
});
}
}
// https://stackoverflow.com/questions/39729741/javascript-change-input-text-to-select-option
function addDropdown(field) {
let sel = d.createElement('select');
sel.classList.add("pin");
let inp = d.getElementsByName(field)[0];
if (inp && inp.tagName === "INPUT" && (inp.type === "text" || inp.type === "number")) { // may also use nodeName
let v = inp.value;
let n = inp.name;
// copy the existing input element's attributes to the new select element
for (var i = 0; i < inp.attributes.length; ++ i) {
var att = inp.attributes[i];
// type and value don't apply, so skip them
// ** you might also want to skip style, or others -- modify as needed **
if (att.name != 'type' && att.name != 'value' && att.name != 'class' && att.name != 'style') {
sel.setAttribute(att.name, att.value);
}
}
sel.setAttribute("data-val", v);
sel.setAttribute("onchange", "pinUpd(this)");
// finally, replace the old input element with the new select element
inp.parentElement.replaceChild(sel, inp);
return sel;
}
return null;
}
function addOption(sel,txt,val) {
if (sel===null) return; // select object missing
let opt = d.createElement("option");
opt.value = val;
opt.text = txt;
sel.appendChild(opt);
for (let i=0; i<sel.childNodes.length; i++) {
let c = sel.childNodes[i];
if (c.value == sel.dataset.val) sel.selectedIndex = i;
}
return opt;
}
function S() {
if (window.location.protocol == "file:") {
let l = window.location;
if (l.protocol == "file:") {
loc = true;
locip = localStorage.getItem('locIp');
if (!locip) {
locip = prompt("File Mode. Please enter WLED IP!");
localStorage.setItem('locIp', locip);
}
} else {
// detect reverse proxy
let path = l.pathname;
let paths = path.slice(1,path.endsWith('/')?-1:undefined).split("/");
if (paths.length > 2) {
locproto = l.protocol;
loc = true;
locip = l.hostname + (l.port ? ":" + l.port : "") + "/" + paths[0];
}
var url = (loc?`http://${locip}`:'') + '/settings/s.js?p=2';
loadJS(url, false); // If we set async false, file is loaded and executed, then next statement is processed
}
loadJS(getURL('/settings/s.js?p=2'), false); // If we set async false, file is loaded and executed, then next statement is processed
if (loc) d.Sf.action = getURL('/settings/leds');
}
function getURL(path) {
return (loc ? locproto + "//" + locip : "") + path;
}
</script>
<style>@import url("style.css");</style>
@ -576,7 +699,7 @@ Length: <input type="number" name="XC${i}" id="xc${i}" class="l" min="1" max="65
Enable automatic brightness limiter: <input type="checkbox" name="ABen" onchange="enABL()" id="able"><br>
<div id="abl">
Maximum Current: <input name="MA" type="number" class="l" min="250" max="65000" oninput="UI()" required> mA<br>
<div id="ampwarning" style="color: orange; display: none;">
<div id="ampwarning" class="warn" style="display: none;">
&#9888; Your power supply provides high current.<br>
To improve the safety of your setup,<br>
please use thick cables,<br>
@ -604,14 +727,14 @@ Length: <input type="number" name="XC${i}" id="xc${i}" class="l" min="1" max="65
<button type="button" id="-" onclick="addLEDs(-1,false)">-</button><br>
LED Memory Usage: <span id="m0">0</span> / <span id="m1">?</span> B<br>
<div id="dbar" style="display:inline-block; width: 100px; height: 10px; border-radius: 20px;"></div><br>
<div id="ledwarning" style="color: orange; display: none;">
<div id="ledwarning" class="warn" style="display: none;">
&#9888; You might run into stability or lag issues.<br>
Use less than <span id="wreason">800 LEDs per output</span> for the best experience!<br>
</div>
<hr class="sml">
Make a segment for each output: <input type="checkbox" name="MS"><br>
Custom bus start indices: <input type="checkbox" onchange="tglSi(this.checked)" id="si"><br>
Use global LED buffer: <input type="checkbox" name="LD"><br>
Use global LED buffer: <input type="checkbox" name="LD" onchange="UI()"><br>
<hr class="sml">
<div id="color_order_mapping">
Color Order Override:

2
wled00/data/settings_pin.htm
View File

@ -7,7 +7,7 @@
<title>PIN required</title>
<script>
var d = document;
function B() { window.open("/settings","_self"); }
function B() { window.open("../settings","_self"); }
</script>
<style>
@import url("style.css");

37
wled00/data/settings_sec.htm
View File

@ -7,10 +7,10 @@
<title>Misc Settings</title>
<script>
var d = document;
var loc = false, locip;
var loc = false, locip, locproto = "http:";
function H() { window.open("https://kno.wled.ge/features/settings/#security-settings"); }
function B() { window.open("/settings","_self"); }
function U() { window.open("/update","_self"); }
function B() { window.open(getURL("/settings"),"_self"); }
function U() { window.open(getURL("/update"),"_self"); }
function gId(s) { return d.getElementById(s); }
function isObj(o) { return (o && typeof o === 'object' && !Array.isArray(o)); }
// https://www.educative.io/edpresso/how-to-dynamically-load-a-js-file-in-javascript
@ -47,7 +47,7 @@
var req = new XMLHttpRequest();
req.addEventListener('load', function(){showToast(this.responseText,this.status >= 400)});
req.addEventListener('error', function(e){showToast(e.stack,true);});
req.open("POST", "/upload");
req.open("POST", getURL("/upload"));
var formData = new FormData();
formData.append("data", fO.files[0], name);
req.send(formData);
@ -65,16 +65,33 @@
x.setAttribute("download","wled_" + x.getAttribute("download") + (sd=="WLED"?"":("_" +sd)));
}
function S() {
if (window.location.protocol == "file:") {
let l = window.location;
if (l.protocol == "file:") {
loc = true;
locip = localStorage.getItem('locIp');
if (!locip) {
locip = prompt("File Mode. Please enter WLED IP!");
localStorage.setItem('locIp', locip);
}
} else {
// detect reverse proxy
let path = l.pathname;
let paths = path.slice(1,path.endsWith('/')?-1:undefined).split("/");
if (paths.length > 2) {
locproto = l.protocol;
loc = true;
locip = l.hostname + (l.port ? ":" + l.port : "") + "/" + paths[0];
}
var url = (loc?`http://${locip}`:'') + '/settings/s.js?p=6';
loadJS(url, false); // If we set async false, file is loaded and executed, then next statement is processed
}
if (loc) {
gId("bckcfg").setAttribute('href',getURL(gId("bckcfg").pathname));
gId("bckpresets").setAttribute('href',getURL(gId("bckpresets").pathname));
}
loadJS(getURL('/settings/s.js?p=6'), false); // If we set async false, file is loaded and executed, then next statement is processed
if (loc) d.Sf.action = getURL('/settings/sec');
}
function getURL(path) {
return (loc ? locproto + "//" + locip : "") + path;
}
</script>
<style>
@ -89,7 +106,7 @@
</div>
<h2>Security & Update setup</h2>
Settings PIN: <input type="password" id="PIN" name="PIN" size="4" maxlength="4" minlength="4" onkeydown="checkNum(this)" pattern="[0-9]*" inputmode="numeric" title="Please enter a 4 digit number"><br>
<div style="color: #fa0;">&#9888; Unencrypted transmission. Be prudent when selecting PIN, do NOT use your banking, door, SIM, etc. pin!</div><br>
<div class="warn">&#9888; Unencrypted transmission. Be prudent when selecting PIN, do NOT use your banking, door, SIM, etc. pin!</div><br>
Lock wireless (OTA) software update: <input type="checkbox" name="NO"><br>
Passphrase: <input type="password" name="OP" maxlength="32"><br>
To enable OTA, for security reasons you need to also enter the correct password!<br>
@ -99,7 +116,7 @@
Deny access to WiFi settings if locked: <input type="checkbox" name="OW"><br><br>
Factory reset: <input type="checkbox" name="RS"><br>
All settings and presets will be erased.<br><br>
<div style="color: #fa0;">&#9888; Unencrypted transmission. An attacker on the same network can intercept form data!</div>
<div class="warn">&#9888; Unencrypted transmission. An attacker on the same network can intercept form data!</div>
<hr>
<h3>Software Update</h3>
<button type="button" onclick="U()">Manual OTA Update</button><br>
@ -110,7 +127,7 @@
<div>Restore presets<br><input type="file" name="data" accept=".json"> <button type="button" onclick="uploadFile(d.Sf.data,'/presets.json');">Upload</button><br></div><br>
<a class="btn lnk" id="bckpresets" href="/cfg.json" download="cfg">Backup configuration</a><br>
<div>Restore configuration<br><input type="file" name="data2" accept=".json"> <button type="button" onclick="uploadFile(d.Sf.data2,'/cfg.json');">Upload</button><br></div>
<div style="color: #fa0;">&#9888; Restoring presets/configuration will OVERWRITE your current presets/configuration.<br>
<div class="warn">&#9888; Restoring presets/configuration will OVERWRITE your current presets/configuration.<br>
Incorrect configuration may require a factory reset or re-flashing of your ESP.</div>
For security reasons, passwords are not backed up.
<hr>

31
wled00/data/settings_sync.htm
View File

@ -6,11 +6,11 @@
<meta charset="utf-8">
<title>Sync Settings</title>
<script>var d=document;
var loc = false, locip;
var loc = false, locip, locproto = "http:";
function gId(s){return d.getElementById(s);}
function toggle(el){gId(el).classList.toggle("hide"); gId('No'+el).classList.toggle("hide");}
function H(){window.open("https://kno.wled.ge/interfaces/udp-notifier/");}
function B(){window.open("/settings","_self");}
function B(){window.open(getURL("/settings"),"_self");}
function adj(){if (d.Sf.DI.value == 6454) {if (d.Sf.EU.value == 1) d.Sf.EU.value = 0;}
else if (d.Sf.DI.value == 5568) {if (d.Sf.DA.value == 0) d.Sf.DA.value = 1; if (d.Sf.EU.value == 0) d.Sf.EU.value = 1;} }
// https://www.educative.io/edpresso/how-to-dynamically-load-a-js-file-in-javascript
@ -56,16 +56,28 @@
function SP(){var p = d.Sf.DI.value; gId("xp").style.display = (p > 0)?"none":"block"; if (p > 0) d.Sf.EP.value = p;}
function SetVal(){switch(parseInt(d.Sf.EP.value)){case 5568: d.Sf.DI.value = 5568; break; case 6454: d.Sf.DI.value = 6454; break; case 4048: d.Sf.DI.value = 4048; break; }; SP();FC();}
function S(){
if (window.location.protocol == "file:") {
let l = window.location;
if (l.protocol == "file:") {
loc = true;
locip = localStorage.getItem('locIp');
if (!locip) {
locip = prompt("File Mode. Please enter WLED IP!");
localStorage.setItem('locIp', locip);
}
} else {
// detect reverse proxy
let paths = l.pathname.slice(1,l.pathname.endsWith('/')?-1:undefined).split("/");
if (paths.length > 2) {
locproto = l.protocol;
loc = true;
locip = l.hostname + (l.port ? ":" + l.port : "") + "/" + paths[0];
}
var url = (loc?`http://${locip}`:'') + '/settings/s.js?p=4';
loadJS(url, false); // If we set async false, file is loaded and executed, then next statement is processed
}
loadJS(getURL('/settings/s.js?p=4'), false); // If we set async false, file is loaded and executed, then next statement is processed
if (loc) d.Sf.action = getURL('/settings/sync');
}
function getURL(path) {
return (loc ? locproto + "//" + locip : "") + path;
}
</script>
<style>@import url("style.css");</style>
@ -172,7 +184,7 @@ Realtime LED offset: <input name="WO" type="number" min="-255" max="255" require
<hr class="sml">
<h3>Alexa Voice Assistant</h3>
<div id="NoAlexa" class="hide">
<em style="color:#fa0;">This firmware build does not include Alexa support.<br></em><br>
<i class="warn">This firmware build does not include Alexa support.<br></i><br>
</div>
<div id="Alexa">
Emulate Alexa device: <input type="checkbox" name="AL"><br>
@ -180,7 +192,7 @@ Alexa invocation name: <input type="text" name="AI" maxlength="32"><br>
Also emulate devices to call the first <input name="AP" type="number" class="s" min="0" max="9" required> presets<br><br>
</div>
<hr class="sml">
<div style="color: #fa0;">&#9888; <b>MQTT and Hue sync all connect to external hosts!<br>
<div class="warn">&#9888; <b>MQTT and Hue sync all connect to external hosts!<br>
This may impact the responsiveness of WLED.</b><br>
</div>
For best results, only use one of these services at a time.<br>
@ -188,7 +200,7 @@ For best results, only use one of these services at a time.<br>
<hr class="sml">
<h3>MQTT</h3>
<div id="NoMQTT" class="hide">
<em style="color:#fa0;">This firmware build does not include MQTT support.<br></em>
<i class="warn">This firmware build does not include MQTT support.<br></i>
</div>
<div id="MQTT">
Enable MQTT: <input type="checkbox" name="MQ"><br>
@ -202,11 +214,12 @@ Client ID: <input type="text" name="MQCID" maxlength="40"><br>
Device Topic: <input type="text" name="MD" maxlength="32"><br>
Group Topic: <input type="text" name="MG" maxlength="32"><br>
Publish on button press: <input type="checkbox" name="BM"><br>
Retain brightness & color messages: <input type="checkbox" name="RT"><br>
<i>Reboot required to apply changes. </i><a href="https://kno.wled.ge/interfaces/mqtt/" target="_blank">MQTT info</a>
</div>
<h3>Philips Hue</h3>
<div id="NoHue" class="hide">
<em style="color:#fa0;">This firmware build does not include Philips Hue support.<br></em>
<em class="warn">This firmware build does not include Philips Hue support.<br></em>
</div>
<div id="Hue">
<i>You can find the bridge IP and the light number in the 'About' section of the hue app.</i><br>

23
wled00/data/settings_time.htm
View File

@ -7,11 +7,11 @@
<title>Time Settings</title>
<script>
var d=document;
var loc = false, locip;
var loc = false, locip, locproto = "http:";
var el=false;
var ms=["Jan","Feb","Mar","Apr","May","Jun","Jul","Aug","Sep","Oct","Nov","Dec"];
function H() { window.open("https://kno.wled.ge/features/settings/#time-settings"); }
function B() { window.open("/settings","_self"); }
function B() { window.open(getURL("/settings"),"_self"); }
function gId(s) { return d.getElementById(s); }
function gN(s) { return d.getElementsByName(s)[0]; }
// https://www.educative.io/edpresso/how-to-dynamically-load-a-js-file-in-javascript
@ -33,16 +33,29 @@
});
}
function S() {
if (window.location.protocol == "file:") {
let l = window.location;
if (l.protocol == "file:") {
loc = true;
locip = localStorage.getItem('locIp');
if (!locip) {
locip = prompt("File Mode. Please enter WLED IP!");
localStorage.setItem('locIp', locip);
}
} else {
// detect reverse proxy
let path = l.pathname;
let paths = path.slice(1,path.endsWith('/')?-1:undefined).split("/");
if (paths.length > 2) {
locproto = l.protocol;
loc = true;
locip = l.hostname + (l.port ? ":" + l.port : "") + "/" + paths[0];
}
var url = (loc?`http://${locip}`:'') + '/settings/s.js?p=5';
loadJS(url, false); // If we set async false, file is loaded and executed, then next statement is processed
}
loadJS(getURL('/settings/s.js?p=5'), false); // If we set async false, file is loaded and executed, then next statement is processed
if (loc) d.Sf.action = getURL('/settings/time');
}
function getURL(path) {
return (loc ? locproto + "//" + locip : "") + path;
}
function expand(o,i)
{

31
wled00/data/settings_ui.htm
View File

@ -7,7 +7,7 @@
<title>UI Settings</title>
<script>
var d = document;
var loc = false, locip;
var loc = false, locip, locproto = "http:";
var initial_ds, initial_st, initial_su;
var sett = null;
var l = {
@ -26,7 +26,8 @@
"segpwr": "Hide segment power &amp; brightness",
"segexp" : "Always expand first segment",
"css": "Enable custom CSS",
"hdays": "Enable custom Holidays list"
"hdays": "Enable custom Holidays list",
"fxdef": "Use effect default parameters"
},
"theme":{
"alpha": {
@ -185,21 +186,33 @@
alert("Loading of configuration script failed.\nIncomplete page data!");
});
}
function S()
{
if (window.location.protocol == "file:") {
function S() {
let l = window.location;
if (l.protocol == "file:") {
loc = true;
locip = localStorage.getItem('locIp');
if (!locip) {
locip = prompt("File Mode. Please enter WLED IP!");
localStorage.setItem('locIp', locip);
}
} else {
// detect reverse proxy
let path = l.pathname;
let paths = path.slice(1,path.endsWith('/')?-1:undefined).split("/");
if (paths.length > 2) {
locproto = l.protocol;
loc = true;
locip = l.hostname + (l.port ? ":" + l.port : "") + "/" + paths[0];
}
var url = (loc?`http://${locip}`:'') + '/settings/s.js?p=3';
loadJS(url, false); // If we set async false, file is loaded and executed, then next statement is processed
}
loadJS(getURL('/settings/s.js?p=3'), false); // If we set async false, file is loaded and executed, then next statement is processed
if (loc) d.Sf.action = getURL('/settings/ui');
}
function getURL(path) {
return (loc ? locproto + "//" + locip : "") + path;
}
function H() { window.open("https://kno.wled.ge/features/settings/#user-interface-settings"); }
function B() { window.open("/settings","_self"); }
function B() { window.open(getURL("/settings"),"_self"); }
function UI()
{
gId('idonthateyou').style.display = (gId('dm').checked) ? 'inline':'none';
@ -249,7 +262,7 @@
Server description: <input type="text" name="DS" maxlength="32"><br>
Sync button toggles both send and receive: <input type="checkbox" name="ST"><br>
<div id="NoSimple" class="hide">
<em style="color:#fa0;">This firmware build does not include simplified UI support.<br></em>
<i class="warn">This firmware build does not include simplified UI support.<br></i>
</div>
<div id="Simple">Enable simplified UI: <input type="checkbox" name="SU"><br></div>
<i>The following UI customization settings are unique both to the WLED device and this browser.<br>

130
wled00/data/settings_um.htm
View File

@ -7,19 +7,20 @@
<title>Usermod Settings</title>
<script>
var d = document;
d.max_gpio = 39;
d.max_gpio = 50;
d.um_p = [];
d.rsvd = [];
d.ro_gpio = [];
d.extra = [];
var umCfg = {};
var pins = [], pinO = [], owner;
var loc = false, locip;
var loc = false, locip, locproto = "http:";
var urows;
var numM = 0;
function gId(s) { return d.getElementById(s); }
function isO(i) { return (i && typeof i === 'object' && !Array.isArray(i)); }
function H() { window.open("https://github.com/Aircoookie/WLED/wiki/Settings#usermod-settings"); }
function B() { window.open("/settings","_self"); }
function B() { window.open(getURL("/settings"),"_self"); }
// https://www.educative.io/edpresso/how-to-dynamically-load-a-js-file-in-javascript
function loadJS(FILE_URL, async = true) {
let scE = d.createElement("script");
@ -30,15 +31,11 @@
// success event
scE.addEventListener("load", () => {
GetV();
for (let k=0; k<d.rsvd.length; k++) { pins.push(d.rsvd[k]); pinO.push("rsvd"); }
if (d.um_p[0]==-1) d.um_p.shift();
d.Sf.SDA.max = d.max_gpio;
d.Sf.SCL.max = d.max_gpio;
d.Sf.MOSI.max = d.max_gpio;
d.Sf.SCLK.max = d.max_gpio;
d.Sf.MISO.max = d.max_gpio;
let inp = d.getElementsByTagName("input");
for (let i of inp) if (i.type === "number" && i.name.replace("[]","").substr(-3) === "pin") i.max = d.max_gpio;
for (let r of d.rsvd) { pins.push(r); pinO.push("rsvd"); } // reserved pins
if (d.um_p[0]==-1) d.um_p.shift(); // remove filler
d.Sf.SDA.max = d.Sf.SCL.max = d.Sf.MOSI.max = d.Sf.SCLK.max = d.Sf.MISO.max = d.max_gpio;
//for (let i of d.getElementsByTagName("input")) if (i.type === "number" && i.name.replace("[]","").substr(-3) === "pin") i.max = d.max_gpio;
pinDropdowns(); // convert INPUT to SELECT for pins
});
// error event
scE.addEventListener("error", (ev) => {
@ -47,21 +44,36 @@
});
}
function S() {
if (window.location.protocol == "file:") {
let l = window.location;
if (l.protocol == "file:") {
loc = true;
locip = localStorage.getItem('locIp');
if (!locip) {
locip = prompt("File Mode. Please enter WLED IP!");
localStorage.setItem('locIp', locip);
}
} else {
// detect reverse proxy
let path = l.pathname;
let paths = path.slice(1,path.endsWith('/')?-1:undefined).split("/");
if (paths.length > 2) {
locproto = l.protocol;
loc = true;
locip = l.hostname + (l.port ? ":" + l.port : "") + "/" + paths[0];
}
}
ldS();
if (!numM) gId("um").innerHTML = "No Usermods installed.";
if (loc) d.Sf.action = getURL('/settings/um');
}
function getURL(path) {
return (loc ? locproto + "//" + locip : "") + path;
}
// https://stackoverflow.com/questions/3885817/how-do-i-check-that-a-number-is-float-or-integer
function isF(n) { return n === +n && n !== (n|0); }
function isI(n) { return n === +n && n === (n|0); }
function check(o,k) { // input object, pin owner key
/* no longer necessary with pin dropdown fields
var n = o.name.replace("[]","").substr(-3);
if (o.type=="number" && n.substr(0,3)=="pin") {
for (var i=0; i<pins.length; i++) {
@ -84,13 +96,16 @@
if (o.value==pins[i] || o.value<-1 || o.value>d.max_gpio) { o.style.color="red"; break; } else o.style.color=d.ro_gpio.some((e)=>e==parseInt(o.value,10))?"orange":"#fff";
}
}
*/
}
function getPins(o) {
if (isO(o)) {
for (const [k,v] of Object.entries(o)) {
if (isO(v)) {
let oldO = owner; // keep parent name
owner = k;
getPins(v);
owner = oldO;
continue;
}
if (k.replace("[]","").substr(-3)=="pin") {
@ -149,11 +164,76 @@
urows += `<input type="${t==="int"?"number":t}" name="${k}:${f}${a?"[]":""}" ${c} oninput="check(this,'${k.substr(k.indexOf(":")+1)}')"><br>`;
}
}
function pinDropdowns() {
for (let i of d.Sf.elements) {
if (i.type === "number" && (i.name.includes("pin") || ["SDA","SCL","MOSI","MISO","SCLK"].includes(i.name))) { //select all pin select elements
let v = parseInt(i.value);
let sel = addDropdown(i.name,0);
for (var j = -1; j <= d.max_gpio; j++) {
if (d.rsvd.includes(j)) continue;
let foundPin = pins.indexOf(j);
let txt = (j === -1) ? "unused" : `${j}`;
if (foundPin >= 0 && j !== v) txt += ` ${pinO[foundPin]=="if"?"global":pinO[foundPin]}`; // already reserved pin
if (d.ro_gpio.includes(j)) txt += " (R/O)";
let opt = addOption(sel, txt, j);
if (j === v) opt.selected = true; // this is "our" pin
else if (pins.includes(j)) opt.disabled = true; // someone else's pin
}
let um = i.name.split(":")[0];
d.extra.forEach((o)=>{
if (o[um] && o[um].pin) o[um].pin.forEach((e)=>{
let opt = addOption(sel,e[0],e[1]);
if (e[1]==v) opt.selected = true;
});
});
}
}
}
function UI(e) {
// update changed select options across all usermods
let oldV = parseInt(e.dataset.val);
e.dataset.val = e.value;
let txt = e.name.split(":")[e.name.split(":").length-2];
let selects = d.Sf.querySelectorAll("select[class='pin']");
for (let sel of selects) {
if (sel == e) continue
Array.from(sel.options).forEach((i)=>{
if (!(i.value==oldV || i.value==e.value)) return;
if (i.value == -1) {
i.text = "unused";
return
}
if (i.value<100) { // TODO remove this hack and use d.extra
i.text = i.value;
if (i.value==oldV) {
i.disabled = false;
}
if (i.value==e.value) {
i.disabled = true;
i.text += ` ${txt}`;
}
if (d.ro_gpio.includes(parseInt(i.value))) i.text += " (R/O)";
}
});
}
}
// https://stackoverflow.com/questions/39729741/javascript-change-input-text-to-select-option
function addDropdown(um,fld) {
let sel = d.createElement('select');
let arr = d.getElementsByName(um+":"+fld);
let inp = arr[1]; // assume 1st field to be hidden (type)
if (typeof(fld) === "string") { // parameter from usermod (field name)
if (fld.includes("pin")) sel.classList.add("pin");
um += ":"+fld;
} else if (typeof(fld) === "number") sel.classList.add("pin"); // a hack to add a class
let arr = d.getElementsByName(um);
let idx = arr[0].type==="hidden"?1:0; // ignore hidden field
if (arr.length > 2) {
// we have array of values (usually pins)
for (let i of arr) {
if (i.type === "number") break;
idx++;
}
}
let inp = arr[idx];
if (inp && inp.tagName === "INPUT" && (inp.type === "text" || inp.type === "number")) { // may also use nodeName
let v = inp.value;
let n = inp.name;
@ -162,11 +242,12 @@
var att = inp.attributes[i];
// type and value don't apply, so skip them
// ** you might also want to skip style, or others -- modify as needed **
if (att.name != 'type' && att.name != 'value' && att.name != 'class' && att.name != 'style') {
if (att.name != 'type' && att.name != 'value' && att.name != 'class' && att.name != 'style' && att.name != 'oninput' && att.name != 'max' && att.name != 'min') {
sel.setAttribute(att.name, att.value);
}
}
sel.setAttribute("data-val", v);
sel.setAttribute("onchange", "UI(this)");
// finally, replace the old input element with the new select element
inp.parentElement.replaceChild(sel, inp);
return sel;
@ -183,6 +264,7 @@
let c = sel.childNodes[i];
if (c.value == sel.dataset.val) sel.selectedIndex = i;
}
return opt;
}
// https://stackoverflow.com/questions/26440494/insert-text-after-this-input-element-with-javascript
function addInfo(name,el,txt, txt2="") {
@ -194,10 +276,13 @@
if (txt2!="") obj[el].insertAdjacentHTML('beforebegin', txt2 + '&nbsp;'); //add pre texts
}
}
// add Help Button
function addHB(um) {
addInfo(um + ':help',0,`<button onclick="location.href='https://kno.wled.ge/usermods/${um}'" type="button">?</button>`);
}
// load settings and insert values into DOM
function ldS() {
var url = (loc?`http://${locip}`:'') + '/cfg.json';
fetch(url, {
fetch(getURL('/cfg.json'), {
method: 'get'
})
.then(res => {
@ -216,8 +301,7 @@
}
if (urows==="") urows = "Usermods configuration not found.<br>Press <i>Save</i> to initialize defaults.";
gId("um").innerHTML = urows;
var url = (loc?`http://${locip}`:'') + '/settings/s.js?p=8';
loadJS(url, false); // If we set async false, file is loaded and executed, then next statement is processed
loadJS(getURL('/settings/s.js?p=8'), false); // If we set async false, file is loaded and executed, then next statement is processed
})
.catch((error)=>{
gId('lserr').style.display = "inline";
@ -242,15 +326,17 @@
</div>
<h2>Usermod Setup</h2>
Global I<sup>2</sup>C GPIOs (HW)<br>
<i style="color: orange;">(only changable on ESP32, change requires reboot!)</i><br>
<i class="warn">(change requires reboot!)</i><br>
SDA:<input type="number" min="-1" max="48" name="SDA" onchange="check(this,'if')" class="s" placeholder="SDA">
SCL:<input type="number" min="-1" max="48" name="SCL" onchange="check(this,'if')" class="s" placeholder="SCL">
<hr class="sml">
Global SPI GPIOs (HW)<br>
<i style="color: orange;">(only changable on ESP32, change requires reboot!)</i><br>
<i class="warn">(only changable on ESP32, change requires reboot!)</i><br>
MOSI:<input type="number" min="-1" max="48" name="MOSI" onchange="check(this,'if')" class="s" placeholder="MOSI">
MISO:<input type="number" min="-1" max="48" name="MISO" onchange="check(this,'if')" class="s" placeholder="MISO">
SCLK:<input type="number" min="-1" max="48" name="SCLK" onchange="check(this,'if')" class="s" placeholder="SCLK">
<hr class="sml">
Reboot after save? <input type="checkbox" name="RBT"><br>
<div id="um">Loading settings...</div>
<hr><button type="button" onclick="B()">Back</button><button type="submit">Save</button>
</form>

54
wled00/data/settings_wifi.htm
View File

@ -7,21 +7,19 @@
<title>WiFi Settings</title>
<script>
var d = document;
var loc = false, locip;
var loc = false, locip, locproto = "http:";
var scanLoops = 0, preScanSSID = "";
function gId(e) { return d.getElementById(e); }
function cE(e) { return d.createElement(e); }
function H(){window.open("https://kno.wled.ge/features/settings/#wifi-settings");}
function B(){window.open("/settings","_self");}
function B(){window.open(getURL("/settings"),"_self");}
function N() {
const url = (loc?`http://${locip}`:"") + "/json/net";
const button = gId("scan");
button.disabled = true;
button.innerHTML = "Scanning...";
button.textContent = "Scanning...";
fetch(url).then((response) => {
fetch(getURL("/json/net")).then((response) => {
return response.json();
}).then((json) => {
// Get the list of networks only, defaulting to an empty array.
@ -70,7 +68,7 @@
const option = cE("option");
option.setAttribute("value", networks[i].ssid);
option.innerHTML = `${networks[i].ssid} (${networks[i].rssi} dBm)`;
option.textContent = `${networks[i].ssid} (${networks[i].rssi} dBm)`;
if (networks[i].ssid === cs.value) {
option.setAttribute("selected", "selected");
@ -81,14 +79,14 @@
const option = cE("option");
option.setAttribute("value", "!Cs");
option.innerHTML = `Other network...`;
option.textContent = `Other network...`;
select.appendChild(option);
cs.replaceWith(select);
}
button.disabled = false;
button.innerHTML = "Scan";
button.textContent = "Scan";
});
}
// replace WiFi select with custom SSID input field again
@ -122,16 +120,29 @@
});
}
function S() {
if (window.location.protocol == "file:") {
let l = window.location;
if (l.protocol == "file:") {
loc = true;
locip = localStorage.getItem("locIp");
locip = localStorage.getItem('locIp');
if (!locip) {
locip = prompt("File Mode. Please enter WLED IP!");
localStorage.setItem("locIp", locip);
localStorage.setItem('locIp', locip);
}
} else {
// detect reverse proxy
let path = l.pathname;
let paths = path.slice(1,path.endsWith('/')?-1:undefined).split("/");
if (paths.length > 2) {
locproto = l.protocol;
loc = true;
locip = l.hostname + (l.port ? ":" + l.port : "") + "/" + paths[0];
}
}
let url = (loc?`http://${locip}`:'') + '/settings/s.js?p=1';
loadJS(url, false); // If we set async false, file is loaded and executed, then next statement is processed
loadJS(getURL('/settings/s.js?p=1'), false); // If we set async false, file is loaded and executed, then next statement is processed
if (loc) d.Sf.action = getURL('/settings/wifi');
}
function getURL(path) {
return (loc ? locproto + "//" + locip : "") + path;
}
</script>
<style>@import url("style.css");</style>
@ -182,15 +193,26 @@
Disable WiFi sleep: <input type="checkbox" name="WS"><br>
<i>Can help with connectivity issues.<br>
Do not enable if WiFi is working correctly, increases power consumption.</i>
<div id="remd">
<h3>Wireless Remote</h3>
<i>Listen for events over ESP-NOW<br>
Keep disabled if not using a remote, increases power consumption.<br></i>
Enable Remote: <input type="checkbox" name="RE"><br>
Hardware MAC: <input type="text" name="RMAC"><br>
Last Seen: <span class="rlid">None</span> <br>
</div>
<div id="ethd">
<h3>Ethernet Type</h3>
<select name="ETH">
<option value="0">None</option>
<option value="9">ABC! WLED V43 Controller & compatible</option>
<option value="9">ABC! WLED V43 & compatible</option>
<option value="2">ESP32-POE</option>
<option value="6">ESP32Deux</option>
<option value="7">KIT-VE</option>
<option value="8">QuinLED-Dig-Octa</option>
<option value="8">QuinLED-Dig-Octa & T-ETH-POE</option>
<option value="4">QuinLED-ESP32</option>
<option value="10">Serg74-ETH32</option>
<option value="5">TwilightLord-ESP32</option>

58
wled00/data/simple.js
View File

@ -1,5 +1,5 @@
//page js
var loc = false, locip;
var loc = false, locip, locproto = "http:";
var noNewSegs = false;
var isOn = false, isInfo = false, isNodes = false, isRgbw = false, cct = false;
var whites = [0,0,0];
@ -148,22 +148,39 @@ function loadSkinCSS(cId)
l.id = cId;
l.rel = 'stylesheet';
l.type = 'text/css';
l.href = (loc?`http://${locip}`:'.') + '/skin.css';
l.href = getURL('/skin.css');
l.media = 'all';
h.appendChild(l);
}
}
function getURL(path) {
return (loc ? locproto + "//" + locip : "") + path;
}
async function onLoad()
{
if (window.location.protocol == "file:") {
let l = window.location;
if (l.protocol == "file:") {
loc = true;
locip = localStorage.getItem('locIp');
if (!locip)
{
if (!locip) {
locip = prompt("File Mode. Please enter WLED IP!");
localStorage.setItem('locIp', locip);
}
} else {
// detect reverse proxy and/or HTTPS
let pathn = l.pathname;
let paths = pathn.slice(1,pathn.endsWith('/')?-1:undefined).split("/");
if (paths[0]==="sliders") paths.shift();
//while (paths[0]==="") paths.shift();
locproto = l.protocol;
locip = l.hostname + (l.port ? ":" + l.port : "");
if (paths.length > 0 && paths[0]!=="") {
loc = true;
locip += "/" + paths[0];
} else if (locproto==="https:") {
loc = true;
}
}
var sett = localStorage.getItem('wledUiCfg');
if (sett) cfg = mergeDeep(cfg, JSON.parse(sett));
@ -173,7 +190,7 @@ async function onLoad()
applyCfg();
if (cfg.theme.bg.url=="" || cfg.theme.bg.url === "https://picsum.photos/1920/1080") {
var iUrl = cfg.theme.bg.url;
fetch((loc?`http://${locip}`:'.') + "/holidays.json", {
fetch(getURL("/holidays.json"), {
method: 'get'
})
.then((res)=>{
@ -330,9 +347,7 @@ function loadPresets(callback = null)
pmtLast = pmt;
var url = (loc?`http://${locip}`:'') + '/presets.json';
fetch(url, {
fetch(getURL('/presets.json'), {
method: 'get'
})
.then(res => {
@ -355,9 +370,7 @@ function loadPresets(callback = null)
function loadPalettes(callback = null)
{
var url = (loc?`http://${locip}`:'') + '/json/palettes';
fetch(url, {
fetch(getURL('/json/palettes'), {
method: 'get'
})
.then(res => {
@ -379,9 +392,7 @@ function loadPalettes(callback = null)
function loadFX(callback = null)
{
var url = (loc?`http://${locip}`:'') + '/json/effects';
fetch(url, {
fetch(getURL('/json/effects'), {
method: 'get'
})
.then(res => {
@ -403,9 +414,7 @@ function loadFX(callback = null)
function loadFXData(callback = null)
{
var url = (loc?`http://${locip}`:'') + '/json/fxdata';
fetch(url, {
fetch(getURL('/json/fxdata'), {
method: 'get'
})
.then(res => {
@ -611,8 +620,7 @@ function populateNodes(i,n)
function loadNodes()
{
var url = (loc?`http://${locip}`:'') + '/json/nodes';
fetch(url, {
fetch(getURL('/json/nodes'), {
method: 'get'
})
.then(res => {
@ -855,7 +863,8 @@ function cmpP(a, b)
function makeWS() {
if (ws) return;
ws = new WebSocket('ws://'+(loc?locip:window.location.hostname)+'/ws');
let url = loc ? getURL('/ws').replace("http","ws") : "ws://"+window.location.hostname+"/ws";
ws = new WebSocket(url);
ws.onmessage = (e)=>{
var json = JSON.parse(e.data);
if (json.leds) return; //liveview packet
@ -974,7 +983,6 @@ function requestJson(command=null)
if (command && !reqsLegal) return; //stop post requests from chrome onchange event on page restore
if (!jsonTimeout) jsonTimeout = setTimeout(showErrorToast, 3000);
var req = null;
var url = (loc?`http://${locip}`:'') + '/json/si';
var useWs = (ws && ws.readyState === WebSocket.OPEN);
var type = command ? 'post':'get';
if (command) {
@ -991,7 +999,7 @@ function requestJson(command=null)
setTimeout(requestJson,200);
}
fetch(url, {
fetch(getURL('/json/si'), {
method: type,
headers: {
"Content-type": "application/json; charset=UTF-8"
@ -1314,9 +1322,7 @@ function loadPalettesData(callback = null)
function getPalettesData(page, callback)
{
var url = (loc?`http://${locip}`:'') + `/json/palx?page=${page}`;
fetch(url, {
fetch(getURL(`/json/palx?page=${page}`), {
method: 'get',
headers: {
"Content-type": "application/json; charset=UTF-8"

10
wled00/data/style.css
View File

@ -61,6 +61,12 @@ button.sml {
.hide {
display: none;
}
.err {
color: #f00;
}
.warn {
color: #fa0;
}
input {
background: #333;
color: #fff;
@ -114,6 +120,10 @@ select {
font-family: Verdana, sans-serif;
border: 0.5ch solid #333;
}
select.pin {
max-width: 120px;
text-overflow: ellipsis;
}
tr {
line-height: 100%;
}

2
wled00/data/update.htm
View File

@ -15,7 +15,7 @@
<body onload="GetV()">
<h2>WLED Software Update</h2>
<form method='POST' action='/update' id='uf' enctype='multipart/form-data' onsubmit="U()">
<form method='POST' action='./update' id='uf' enctype='multipart/form-data' onsubmit="U()">
Installed version: <span class="sip">##VERSION##</span><br>
Download the latest binary: <a href="https://github.com/Aircoookie/WLED/releases" target="_blank">
<img src="https://img.shields.io/github/release/Aircoookie/WLED.svg?style=flat-square"></a><br>

4
wled00/data/welcome.htm
View File

@ -55,9 +55,9 @@
<h3>Thank you for installing my application!</h3>
<b>Next steps:</b><br><br>
Connect the module to your local WiFi here!<br>
<button onclick="window.location.href='/settings/wifi'">WiFi settings</button><br>
<button onclick="window.location.href='./settings/wifi'">WiFi settings</button><br>
<i>Just trying this out in AP mode?</i><br>
<button onclick="window.location.href='/sliders'">To the controls!</button><br>
<button onclick="window.location.href='./?sliders'">To the controls!</button><br>
</div>
</body>
</html>

2
wled00/e131.cpp
View File

@ -25,7 +25,7 @@ void handleDDPPacket(e131_packet_t* p) {
}
}
uint8_t ddpChannelsPerLed = (p->dataType == DDP_TYPE_RGBW32) ? 4 : 3; // data type 0x1A is RGBW (type 3, 8 bit/channel)
uint8_t ddpChannelsPerLed = ((p->dataType & 0b00111000)>>3 == 0b011) ? 4 : 3; // data type 0x1B (formerly 0x1A) is RGBW (type 3, 8 bit/channel)
uint32_t start = htonl(p->channelOffset) / ddpChannelsPerLed;
start += DMXAddress / ddpChannelsPerLed;

42
wled00/fcn_declare.h
View File

@ -50,6 +50,18 @@ bool getJsonValue(const JsonVariant& element, DestType& destination, const Defau
//colors.cpp
// similar to NeoPixelBus NeoGammaTableMethod but allows dynamic changes (superseded by NPB::NeoGammaDynamicTableMethod)
class NeoGammaWLEDMethod {
public:
static uint8_t Correct(uint8_t value); // apply Gamma to single channel
static uint32_t Correct32(uint32_t color); // apply Gamma to RGBW32 color (WLED specific, not used by NPB)
static void calcGammaTable(float gamma); // re-calculates & fills gamma table
static inline uint8_t rawGamma8(uint8_t val) { return gammaT[val]; } // get value from Gamma table (WLED specific, not used by NPB)
private:
static uint8_t gammaT[];
};
#define gamma32(c) NeoGammaWLEDMethod::Correct32(c)
#define gamma8(c) NeoGammaWLEDMethod::rawGamma8(c)
uint32_t color_blend(uint32_t,uint32_t,uint16_t,bool b16=false);
uint32_t color_add(uint32_t,uint32_t);
inline uint32_t colorFromRgbw(byte* rgbw) { return uint32_t((byte(rgbw[3]) << 24) | (byte(rgbw[0]) << 16) | (byte(rgbw[1]) << 8) | (byte(rgbw[2]))); }
@ -63,10 +75,6 @@ bool colorFromHexString(byte* rgb, const char* in);
uint32_t colorBalanceFromKelvin(uint16_t kelvin, uint32_t rgb);
uint16_t approximateKelvinFromRGB(uint32_t rgb);
void setRandomColor(byte* rgb);
uint8_t gamma8_cal(uint8_t b, float gamma);
void calcGammaTable(float gamma);
uint8_t gamma8(uint8_t b);
uint32_t gamma32(uint32_t);
//dmx.cpp
void initDMX();
@ -96,10 +104,20 @@ void sendHuePoll();
void onHueData(void* arg, AsyncClient* client, void *data, size_t len);
//improv.cpp
enum ImprovRPCType {
Command_Wifi = 0x01,
Request_State = 0x02,
Request_Info = 0x03,
Request_Scan = 0x04
};
void handleImprovPacket();
void sendImprovRPCResult(ImprovRPCType type, uint8_t n_strings = 0, const char **strings = nullptr);
void sendImprovStateResponse(uint8_t state, bool error = false);
void sendImprovInfoResponse();
void sendImprovRPCResponse(uint8_t commandId);
void startImprovWifiScan();
void handleImprovWifiScan();
void sendImprovIPRPCResult(ImprovRPCType type);
//ir.cpp
void applyRepeatActions();
@ -129,8 +147,8 @@ bool deserializeState(JsonObject root, byte callMode = CALL_MODE_DIRECT_CHANGE,
void serializeSegment(JsonObject& root, Segment& seg, byte id, bool forPreset = false, bool segmentBounds = true);
void serializeState(JsonObject root, bool forPreset = false, bool includeBri = true, bool segmentBounds = true, bool selectedSegmentsOnly = false);
void serializeInfo(JsonObject root);
void serializeModeNames(JsonArray arr, const char *qstring);
void serializeModeData(JsonObject root);
void serializeModeNames(JsonArray root);
void serializeModeData(JsonArray root);
void serveJson(AsyncWebServerRequest* request);
#ifdef WLED_ENABLE_JSONLIVE
bool serveLiveLeds(AsyncWebServerRequest* request, uint32_t wsClient = 0);
@ -152,9 +170,11 @@ void handleTransitions();
void handleNightlight();
byte scaledBri(byte in);
#ifdef WLED_ENABLE_LOXONE
//lx_parser.cpp
bool parseLx(int lxValue, byte* rgbw);
void parseLxJson(int lxValue, byte segId, bool secondary);
#endif
//mqtt.cpp
bool initMqtt();
@ -190,12 +210,16 @@ void serializePlaylist(JsonObject obj);
void initPresetsFile();
void handlePresets();
bool applyPreset(byte index, byte callMode = CALL_MODE_DIRECT_CHANGE);
void applyPresetWithFallback(uint8_t presetID, uint8_t callMode, uint8_t effectID = 0, uint8_t paletteID = 0);
inline bool applyTemporaryPreset() {return applyPreset(255);};
void savePreset(byte index, const char* pname = nullptr, JsonObject saveobj = JsonObject());
inline void saveTemporaryPreset() {savePreset(255);};
void deletePreset(byte index);
bool getPresetName(byte index, String& name);
//remote.cpp
void handleRemote();
//set.cpp
bool isAsterisksOnly(const char* str, byte maxLen);
void handleSettingsSet(AsyncWebServerRequest *request, byte subPage);
@ -203,7 +227,7 @@ bool handleSet(AsyncWebServerRequest *request, const String& req, bool apply=tru
//udp.cpp
void notify(byte callMode, bool followUp=false);
uint8_t realtimeBroadcast(uint8_t type, IPAddress client, uint16_t length, byte *buffer, uint8_t bri=255, bool isRGBW=false);
uint8_t realtimeBroadcast(uint8_t type, IPAddress client, uint16_t length, uint8_t *buffer, uint8_t bri=255, bool isRGBW=false);
void realtimeLock(uint32_t timeoutMs, byte md = REALTIME_MODE_GENERIC);
void exitRealtime();
void handleNotifications();
@ -325,6 +349,7 @@ void releaseJSONBufferLock();
uint8_t extractModeName(uint8_t mode, const char *src, char *dest, uint8_t maxLen);
uint8_t extractModeSlider(uint8_t mode, uint8_t slider, char *dest, uint8_t maxLen, uint8_t *var = nullptr);
int16_t extractModeDefaults(uint8_t mode, const char *segVar);
void checkSettingsPIN(const char *pin);
uint16_t crc16(const unsigned char* data_p, size_t length);
um_data_t* simulateSound(uint8_t simulationId);
void enumerateLedmaps();
@ -372,7 +397,6 @@ void serveIndexOrWelcome(AsyncWebServerRequest *request);
void serveIndex(AsyncWebServerRequest* request);
String msgProcessor(const String& var);
void serveMessage(AsyncWebServerRequest* request, uint16_t code, const String& headl, const String& subl="", byte optionT=255);
String settingsProcessor(const String& var);
String dmxProcessor(const String& var);
void serveSettings(AsyncWebServerRequest* request, bool post = false);
void serveSettingsJS(AsyncWebServerRequest* request);

2104
wled00/html_other.h
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File diff suppressed because it is too large Load Diff

549
wled00/html_pxmagic.h Normal file
View File

@ -0,0 +1,549 @@
/*
* Binary array for the Web UI.
* gzip is used for smaller size and improved speeds.
*
* Please see https://kno.wled.ge/advanced/custom-features/#changing-web-ui
* to find out how to easily modify the web UI source!
*/
// Autogenerated from wled00/data/pxmagic/pxmagic.htm, do not edit!!
const uint16_t PAGE_pxmagic_L = 8581;
const uint8_t PAGE_pxmagic[] PROGMEM = {
0x1f, 0x8b, 0x08, 0x00, 0x00, 0x00, 0x00, 0x00, 0x02, 0x0a, 0xbd, 0x7d, 0xdb, 0x76, 0xdb, 0x46,
0xb2, 0xe8, 0x3b, 0xbf, 0x02, 0x86, 0x3d, 0x0e, 0x61, 0x81, 0x20, 0xa9, 0x5b, 0x14, 0x50, 0x90,
0x26, 0xb1, 0x9d, 0x89, 0xf7, 0xf2, 0x24, 0x39, 0xb1, 0x66, 0xf6, 0x64, 0x69, 0x6b, 0xc5, 0x4d,
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0x81, 0x78, 0xc4, 0x1f, 0x63, 0x8b, 0xc1, 0xcb, 0x07, 0xdf, 0x30, 0xf4, 0x50, 0x8c, 0x35, 0xdf,
0xc2, 0x32, 0x73, 0x78, 0x81, 0x9e, 0x1f, 0xfe, 0xb2, 0x90, 0x6d, 0x78, 0xf6, 0x94, 0x58, 0x7a,
0x2c, 0x64, 0x8a, 0xc9, 0x1f, 0x02, 0x4e, 0x52, 0xb3, 0x09, 0x5b, 0xa8, 0x8f, 0xfa, 0x76, 0xc0,
0x85, 0xbf, 0xac, 0x64, 0x40, 0xa5, 0x6b, 0x8f, 0xd1, 0x46, 0x71, 0x0f, 0x35, 0x30, 0x00, 0xa5,
0x8e, 0x0b, 0xcb, 0x43, 0x25, 0x23, 0x4b, 0x5e, 0xfb, 0x10, 0xdf, 0xf1, 0xc0, 0xb3, 0x48, 0xef,
0xe4, 0xc1, 0xb1, 0x48, 0xbf, 0x8d, 0xe3, 0xbe, 0x2c, 0xfb, 0x77, 0x55, 0xd9, 0xb1, 0x6b, 0xe9,
0x5a, 0x56, 0x5b, 0xb2, 0x71, 0x12, 0x3c, 0x1b, 0x95, 0x7e, 0xb6, 0xbd, 0x06, 0x15, 0x48, 0x52,
0xdb, 0x4f, 0xd8, 0x75, 0xb4, 0x60, 0x30, 0x87, 0x87, 0xbf, 0x5b, 0xbd, 0x01, 0x67, 0xf9, 0xfe,
0xbe, 0x6a, 0x03, 0x82, 0xa7, 0xef, 0x55, 0xbb, 0x73, 0x6e, 0xbf, 0x05, 0x56, 0x00, 0x19, 0x5e,
0xad, 0x85, 0xf5, 0xdf, 0xff, 0xd7, 0x12, 0x98, 0x41, 0x63, 0xf9, 0x7f, 0xff, 0xbf, 0x34, 0x12,
0x10, 0x71, 0x5f, 0x2c, 0xa3, 0xcc, 0x9a, 0x47, 0x3c, 0x0e, 0x2d, 0xb8, 0x29, 0xbf, 0x61, 0xd0,
0x76, 0xb5, 0x92, 0xd1, 0x32, 0x65, 0x89, 0xdb, 0x03, 0xcc, 0x8b, 0x8c, 0x63, 0x4d, 0xc3, 0xa5,
0xc6, 0xc8, 0x95, 0x74, 0xbb, 0x9e, 0xe5, 0x2a, 0x51, 0x4c, 0xf0, 0x67, 0x78, 0x18, 0x28, 0x82,
0x9c, 0x32, 0x34, 0x13, 0x01, 0xa1, 0xad, 0x44, 0xf3, 0xa4, 0x22, 0xac, 0xaa, 0xec, 0xa3, 0x10,
0x62, 0x05, 0xb8, 0xe0, 0x21, 0xa5, 0x08, 0x40, 0xdb, 0x51, 0x36, 0x9e, 0xa8, 0x46, 0x71, 0xad,
0x22, 0xe4, 0xfd, 0xbd, 0xe6, 0x15, 0xb3, 0xd5, 0xd9, 0xc2, 0x52, 0x63, 0xe9, 0x3f, 0x17, 0x22,
0x10, 0x9e, 0x8c, 0x4f, 0x7f, 0x14, 0x21, 0x2f, 0x60, 0x9a, 0x0c, 0xa4, 0xf6, 0x19, 0x40, 0x8d,
0xd1, 0xec, 0x3f, 0x11, 0x60, 0x50, 0x96, 0x7d, 0x07, 0xa6, 0xa2, 0x6a, 0x6e, 0x9a, 0x08, 0x4d,
0xfa, 0xcb, 0x97, 0x23, 0xba, 0xa7, 0xf3, 0x0e, 0x25, 0xef, 0x0e, 0x12, 0xba, 0x21, 0x02, 0xea,
0x67, 0x3b, 0x6c, 0xa7, 0x54, 0x7f, 0xbc, 0x3c, 0x19, 0x25, 0xd5, 0xfa, 0x77, 0x99, 0x57, 0xbf,
0xbf, 0xa7, 0x4a, 0x38, 0xc4, 0x0f, 0x30, 0x4f, 0xd9, 0xc8, 0x54, 0xc5, 0x4e, 0x5e, 0xe7, 0x87,
0xbe, 0x5d, 0xff, 0x65, 0x0f, 0x34, 0xd6, 0xa0, 0x0c, 0x77, 0x59, 0xf2, 0xb6, 0x81, 0x6d, 0x8c,
0x76, 0xf3, 0x86, 0xf9, 0xc0, 0x21, 0xa4, 0x7a, 0x30, 0x55, 0x12, 0x80, 0x17, 0x02, 0x28, 0xa3,
0x84, 0xd0, 0xb6, 0x4b, 0x94, 0x9a, 0x9b, 0x4c, 0x1e, 0x01, 0x2f, 0xd6, 0xc7, 0xa8, 0x09, 0xe4,
0xa2, 0xa0, 0xee, 0x40, 0x2f, 0x25, 0x45, 0xf9, 0x9b, 0x85, 0x6d, 0x05, 0xa5, 0x7f, 0xc5, 0x10,
0x64, 0x13, 0x58, 0xac, 0x2d, 0x54, 0x30, 0xfe, 0xc1, 0xd1, 0x62, 0xbd, 0x6b, 0x64, 0x5b, 0x1c,
0xeb, 0xdf, 0x04, 0x80, 0x79, 0xa2, 0x13, 0x2e, 0x49, 0x6f, 0x45, 0x43, 0xfa, 0x82, 0x68, 0xce,
0x53, 0xd9, 0x38, 0x31, 0x4a, 0x48, 0x20, 0x56, 0x31, 0xfb, 0xe3, 0x79, 0x52, 0x5e, 0x73, 0x45,
0x3e, 0x52, 0x3a, 0xc4, 0xc2, 0x72, 0xb2, 0xf2, 0xdb, 0xf8, 0x67, 0x1f, 0x5d, 0x43, 0x67, 0x3c,
0xbc, 0x17, 0x0a, 0xb2, 0x94, 0x9e, 0x56, 0x2b, 0xa9, 0xb8, 0xab, 0xd0, 0x87, 0xd1, 0x0f, 0xd4,
0xa2, 0xd6, 0x04, 0x74, 0xc7, 0x86, 0xcd, 0xb0, 0xcb, 0x93, 0x95, 0xcb, 0x28, 0x65, 0x89, 0xb3,
0xad, 0xef, 0x53, 0xbf, 0x7c, 0xda, 0x4e, 0x65, 0x72, 0xb1, 0xde, 0xd3, 0xfe, 0x13, 0x9f, 0x5d,
0xd8, 0x93, 0x3a, 0xca, 0xaa, 0xe4, 0x7f, 0xab, 0xe6, 0xdb, 0xd9, 0x8d, 0xc6, 0xaa, 0xec, 0xa9,
0xa3, 0x32, 0xc9, 0xac, 0x13, 0xc9, 0x1f, 0x53, 0x35, 0x56, 0x3b, 0x93, 0x2d, 0x3e, 0x5b, 0xb8,
0x04, 0xfe, 0x4c, 0x55, 0x47, 0xc6, 0x8a, 0x46, 0x11, 0xd3, 0x84, 0xe9, 0x3a, 0x32, 0xfb, 0x83,
0x51, 0x32, 0x66, 0xe9, 0xc2, 0xf9, 0x50, 0x55, 0x87, 0xd9, 0x4f, 0x39, 0x81, 0x69, 0xe0, 0x09,
0x3f, 0x14, 0x78, 0x3c, 0x76, 0xca, 0x44, 0x9f, 0x59, 0x8b, 0x5b, 0x7d, 0x3d, 0xd9, 0x59, 0x8c,
0xab, 0x02, 0x44, 0x7e, 0xae, 0x8a, 0x2d, 0x64, 0x39, 0xa3, 0x79, 0x5c, 0xe6, 0x3e, 0x1b, 0x39,
0x7e, 0xad, 0xc5, 0x28, 0x97, 0xf9, 0xdc, 0xb9, 0xda, 0xb6, 0x70, 0xeb, 0xe7, 0xeb, 0x58, 0x48,
0x83, 0x15, 0xaa, 0x54, 0xc2, 0xb0, 0x6b, 0x49, 0xa7, 0xc9, 0x30, 0xcd, 0x2f, 0x35, 0x9e, 0xc4,
0x31, 0x1d, 0x27, 0xdb, 0xe0, 0x76, 0x48, 0x66, 0x55, 0xe4, 0x57, 0x94, 0x2d, 0x8d, 0xef, 0x4c,
0xaf, 0xe4, 0xdd, 0xa4, 0x51, 0xce, 0x29, 0x2b, 0xad, 0xeb, 0xa1, 0xd5, 0xb9, 0x9b, 0x8d, 0x8d,
0x10, 0xf3, 0xae, 0x23, 0xf9, 0xdd, 0xd5, 0xac, 0x02, 0xce, 0xa0, 0x77, 0x39, 0x77, 0xe8, 0xf1,
0x5b, 0x3e, 0x7b, 0x2d, 0x53, 0x05, 0x98, 0x58, 0x5d, 0xdf, 0xd9, 0x4f, 0x9b, 0xaa, 0x55, 0x89,
0xda, 0xc0, 0x51, 0xe3, 0xc3, 0x0f, 0xe7, 0x33, 0xba, 0x69, 0x57, 0xed, 0x76, 0xfb, 0xf8, 0x3f,
0xef, 0xaa, 0xff, 0x68, 0xa4, 0xd8, 0x6c, 0x12, 0x4b, 0x7b, 0x8f, 0x6a, 0x57, 0xde, 0x00, 0xf7,
0x3b, 0xe8, 0x0c, 0xa0, 0x5f, 0x0b, 0x7e, 0x70, 0x5e, 0x23, 0xa7, 0x71, 0xba, 0xf6, 0x44, 0x3d,
0xa8, 0x8f, 0x05, 0x93, 0xae, 0xe3, 0x40, 0x55, 0x5b, 0xa5, 0xcf, 0xf3, 0x32, 0x43, 0xff, 0xed,
0x3e, 0xc4, 0x9b, 0xe8, 0x7a, 0x26, 0x56, 0x56, 0x3b, 0x65, 0x26, 0xac, 0x7a, 0xbb, 0x8f, 0x84,
0xd4, 0x2c, 0xd2, 0xcf, 0xbe, 0xbb, 0x7b, 0x8d, 0xe6, 0x18, 0x13, 0x61, 0xed, 0x02, 0x88, 0xe4,
0x41, 0xf0, 0x26, 0x46, 0xe5, 0x75, 0xee, 0x54, 0x11, 0x56, 0x95, 0xcf, 0x40, 0x7f, 0xa6, 0xe1,
0x1a, 0xcb, 0x14, 0x69, 0x72, 0x6e, 0xe3, 0xcf, 0x6f, 0x81, 0x53, 0x48, 0x4e, 0x57, 0xd1, 0x10,
0xa5, 0xc6, 0xaf, 0x32, 0x74, 0x6d, 0x8c, 0x9c, 0xd9, 0x1d, 0x14, 0xe8, 0x3a, 0xb8, 0x35, 0xcd,
0x90, 0x0c, 0x28, 0x93, 0xd3, 0x60, 0xff, 0xe8, 0xe8, 0x3c, 0xf1, 0xe1, 0xaf, 0x81, 0xe1, 0x72,
0xc3, 0xaa, 0xa1, 0x1b, 0xb0, 0x2f, 0x80, 0x49, 0xed, 0xa9, 0x0b, 0x30, 0xbd, 0x68, 0x62, 0x2e,
0xaa, 0xab, 0x5f, 0xfe, 0xac, 0x3d, 0x7e, 0x34, 0x39, 0xeb, 0x15, 0x29, 0x49, 0x47, 0x40, 0xd4,
0x34, 0xf1, 0x49, 0x47, 0xc1, 0x1a, 0xff, 0x72, 0x9b, 0x5c, 0x72, 0x39, 0x84, 0xac, 0x79, 0x77,
0xe0, 0xa7, 0xed, 0x7f, 0x57, 0xe0, 0x65, 0x22, 0xaf, 0x7d, 0x80, 0xf4, 0xc5, 0x42, 0xd2, 0x75,
0x26, 0xa5, 0x4d, 0x9a, 0x49, 0xcc, 0x3f, 0x21, 0x1d, 0x0f, 0x8b, 0x45, 0xad, 0x6c, 0xe0, 0x8b,
0xb7, 0x51, 0x2f, 0x42, 0x48, 0x3a, 0x2b, 0x26, 0xf4, 0xb6, 0xd8, 0xd3, 0xb6, 0xc5, 0xce, 0xfb,
0x9a, 0x82, 0x07, 0xed, 0xe0, 0x98, 0x76, 0x08, 0xb6, 0x5a, 0x77, 0x19, 0xef, 0x88, 0x9f, 0x9d,
0xc6, 0xf6, 0x0d, 0x17, 0xe1, 0x8b, 0x37, 0x6f, 0xba, 0x1b, 0x9d, 0x5b, 0x67, 0x6d, 0xce, 0x76,
0x6b, 0x27, 0x94, 0x4f, 0x40, 0x47, 0x76, 0xde, 0x97, 0x66, 0xf1, 0xab, 0x77, 0x73, 0xeb, 0x4e,
0x6c, 0xac, 0x1b, 0x96, 0x00, 0xaf, 0xc7, 0xb1, 0xa5, 0x7e, 0xfa, 0xcf, 0xfc, 0x18, 0x1d, 0xe3,
0x73, 0xf0, 0x36, 0x72, 0x94, 0x0a, 0x7b, 0x64, 0x7f, 0xe5, 0xda, 0xea, 0x07, 0x64, 0x6d, 0x17,
0x3f, 0xda, 0xc0, 0x82, 0x4a, 0x9e, 0x7f, 0x9b, 0x83, 0xb3, 0x38, 0x85, 0x00, 0x16, 0x76, 0x42,
0x9f, 0x00, 0xdb, 0xae, 0x5d, 0x7d, 0xe4, 0xeb, 0xec, 0xc0, 0x79, 0x29, 0x56, 0x07, 0x80, 0xfd,
0xcf, 0xcc, 0xf3, 0x88, 0x6f, 0x89, 0x77, 0xe6, 0x3d, 0x4a, 0xc2, 0x36, 0x29, 0x68, 0x7e, 0x08,
0xfc, 0x39, 0xdf, 0xc8, 0xe2, 0x2d, 0x7f, 0x31, 0xdf, 0xe1, 0x2f, 0x9a, 0x04, 0xd4, 0x79, 0x6a,
0x97, 0x3d, 0x50, 0xd2, 0x69, 0x94, 0x7b, 0x96, 0xdf, 0x8f, 0x3a, 0x66, 0x20, 0x00, 0x21, 0xfc,
0x0e, 0x4f, 0x32, 0xd9, 0x91, 0x87, 0x62, 0xf5, 0x44, 0x5b, 0x7e, 0xbe, 0x23, 0xd5, 0xa9, 0xbc,
0xc9, 0x8e, 0x9a, 0x48, 0xa0, 0x49, 0xd6, 0x4d, 0xb6, 0xfa, 0x10, 0xe8, 0x09, 0x48, 0xc5, 0xdf,
0xac, 0x91, 0x9f, 0x60, 0xe2, 0x0f, 0x39, 0xd2, 0xff, 0xb9, 0xd8, 0xff, 0x07, 0xff, 0x03, 0x8d,
0x05, 0x6d, 0x6c, 0x00, 0x00
};

4205
wled00/html_settings.h
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File diff suppressed because it is too large Load Diff

2243
wled00/html_simple.h
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File diff suppressed because it is too large Load Diff

3955
wled00/html_ui.h
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167
wled00/improv.cpp
View File

@ -10,6 +10,11 @@
#define DIMPROV_PRINTF(x...)
#endif
#if defined(CONFIG_IDF_TARGET_ESP32S2) || defined(CONFIG_IDF_TARGET_ESP32C3) || defined(CONFIG_IDF_TARGET_ESP32S3)
#undef WLED_DISABLE_IMPROV_WIFISCAN
#define WLED_DISABLE_IMPROV_WIFISCAN
#endif
#define IMPROV_VERSION 1
void parseWiFiCommand(char *rpcData);
@ -28,20 +33,14 @@ enum ImprovPacketByte {
RPC_CommandType = 9
};
enum ImprovRPCType {
Command_Wifi = 0x01,
Request_State = 0x02,
Request_Info = 0x03
};
//File dbgf;
#ifndef WLED_DISABLE_IMPROV_WIFISCAN
static bool improvWifiScanRunning = false;
#endif
//blocking function to parse an Improv Serial packet
void handleImprovPacket() {
uint8_t header[6] = {'I','M','P','R','O','V'};
//dbgf = WLED_FS.open("/improv.log","a");
bool timeout = false;
uint8_t waitTime = 25;
uint16_t packetByte = 0;
@ -62,12 +61,11 @@ void handleImprovPacket() {
byte next = Serial.read();
DIMPROV_PRINT("Received improv byte: "); DIMPROV_PRINTF("%x\r\n",next);
//f.write(next);
switch (packetByte) {
case ImprovPacketByte::Version: {
if (next != IMPROV_VERSION) {
DIMPROV_PRINTLN(F("Invalid version"));
//dbgf.close();
return;
}
break;
@ -75,7 +73,6 @@ void handleImprovPacket() {
case ImprovPacketByte::PacketType: {
if (next != ImprovPacketType::RPC_Command) {
DIMPROV_PRINTF("Non RPC-command improv packet type %i\n",next);
//dbgf.close();
return;
}
if (!improvActive) improvActive = 1;
@ -89,7 +86,6 @@ void handleImprovPacket() {
if (checksum != next) {
DIMPROV_PRINTF("Got RPC checksum %i, expected %i",next,checksum);
sendImprovStateResponse(0x01, true);
//dbgf.close();
return;
}
@ -100,22 +96,23 @@ void handleImprovPacket() {
if (WLED_WIFI_CONFIGURED) improvState = 0x03; //provisioning
if (Network.isConnected()) improvState = 0x04; //provisioned
sendImprovStateResponse(improvState, false);
if (improvState == 0x04) sendImprovRPCResponse(ImprovRPCType::Request_State);
if (improvState == 0x04) sendImprovIPRPCResult(ImprovRPCType::Request_State);
break;
}
case ImprovRPCType::Request_Info: sendImprovInfoResponse(); break;
#ifndef WLED_DISABLE_IMPROV_WIFISCAN
case ImprovRPCType::Request_Scan: startImprovWifiScan(); break;
#endif
default: {
DIMPROV_PRINTF("Unknown RPC command %i\n",next);
sendImprovStateResponse(0x02, true);
}
}
//dbgf.close();
return;
}
if (packetByte < 6) { //check header
if (next != header[packetByte]) {
DIMPROV_PRINTLN(F("Invalid improv header"));
//dbgf.close();
return;
}
} else if (packetByte > 9) { //RPC data
@ -128,7 +125,6 @@ void handleImprovPacket() {
checksum += next;
packetByte++;
}
//dbgf.close();
}
void sendImprovStateResponse(uint8_t state, bool error) {
@ -147,79 +143,116 @@ void sendImprovStateResponse(uint8_t state, bool error) {
Serial.write('\n');
}
void sendImprovRPCResponse(byte commandId) {
// used by sendImprovIPRPCResult(), sendImprovInfoResponse(), and handleImprovWifiScan()
void sendImprovRPCResult(ImprovRPCType type, uint8_t n_strings, const char **strings) {
if (improvError > 0 && improvError < 3) sendImprovStateResponse(0x00, true);
uint8_t packetLen = 12;
char out[64] = {'I','M','P','R','O','V'};
char out[256] = {'I','M','P','R','O','V'};
out[6] = IMPROV_VERSION;
out[7] = ImprovPacketType::RPC_Response;
out[8] = 2; //Length (set below)
out[9] = commandId;
out[10] = 0; //Data len (set below)
out[11] = '\0'; //URL len (set below)
//out[8] = 2; //Length (set below)
out[9] = type;
//out[10] = 0; //Data len (set below)
uint16_t pos = 11;
if (Network.isConnected())
{
IPAddress localIP = Network.localIP();
uint8_t len = sprintf(out+12, "http://%d.%d.%d.%d", localIP[0], localIP[1], localIP[2], localIP[3]);
if (len > 24) return; //sprintf fail?
out[11] = len;
out[10] = 1 + len;
out[8] = 3 + len; //RPC command type + data len + url len + url
packetLen = 13 + len;
for (uint8_t s = 0; s < n_strings; s++) {
size_t len = strlen(strings[s]);
if (pos + len > 254) continue; // simple buffer overflow guard
out[pos++] = len;
strcpy(out + pos, strings[s]);
pos += len;
}
packetLen = pos +1;
out[8] = pos -9; // Length of packet (excluding first 9 header bytes and final checksum byte)
out[10] = pos -11; // Data len
uint8_t checksum = 0;
for (uint8_t i = 0; i < packetLen -1; i++) checksum += out[i];
out[packetLen -1] = checksum;
Serial.write((uint8_t*)out, packetLen);
Serial.write('\n');
DIMPROV_PRINT("RPC result checksum");
DIMPROV_PRINTLN(checksum);
}
void sendImprovIPRPCResult(ImprovRPCType type) {
if (Network.isConnected())
{
char urlStr[64];
IPAddress localIP = Network.localIP();
uint8_t len = sprintf(urlStr, "http://%d.%d.%d.%d", localIP[0], localIP[1], localIP[2], localIP[3]);
if (len > 24) return; //sprintf fail?
const char *str[1] = {urlStr};
sendImprovRPCResult(type, 1, str);
} else {
sendImprovRPCResult(type, 0);
}
improvActive = 1; //no longer provisioning
}
void sendImprovInfoResponse() {
if (improvError > 0 && improvError < 3) sendImprovStateResponse(0x00, true);
uint8_t packetLen = 12;
char out[128] = {'I','M','P','R','O','V'};
out[6] = IMPROV_VERSION;
out[7] = ImprovPacketType::RPC_Response;
//out[8] = 2; //Length (set below)
out[9] = ImprovRPCType::Request_Info;
//out[10] = 0; //Data len (set below)
out[11] = 4; //Firmware len ("WLED")
out[12] = 'W'; out[13] = 'L'; out[14] = 'E'; out[15] = 'D';
uint8_t lengthSum = 17;
uint8_t vlen = sprintf_P(out+lengthSum,PSTR("0.14.0-b2/%i"),VERSION);
out[16] = vlen; lengthSum += vlen;
uint8_t hlen = 7;
const char* bString =
#ifdef ESP8266
strcpy(out+lengthSum+1,"esp8266");
#else
hlen = 5;
strcpy(out+lengthSum+1,"esp32");
"esp8266"
#elif CONFIG_IDF_TARGET_ESP32C3
"esp32-c3"
#elif CONFIG_IDF_TARGET_ESP32S2
"esp32-s2"
#elif CONFIG_IDF_TARGET_ESP32S3
"esp32-s3";
#else // ESP32
"esp32";
#endif
out[lengthSum] = hlen;
lengthSum += hlen + 1;
;
//Use serverDescription if it has been changed from the default "WLED", else mDNS name
bool useMdnsName = (strcmp(serverDescription, "WLED") == 0 && strlen(cmDNS) > 0);
strcpy(out+lengthSum+1,useMdnsName ? cmDNS : serverDescription);
uint8_t nlen = strlen(useMdnsName ? cmDNS : serverDescription);
out[lengthSum] = nlen;
lengthSum += nlen + 1;
char vString[20];
sprintf_P(vString, PSTR("0.14.0-b3/%i"), VERSION);
const char *str[4] = {"WLED", vString, bString, useMdnsName ? cmDNS : serverDescription};
packetLen = lengthSum +1;
out[8] = lengthSum -9;
out[10] = lengthSum -11;
uint8_t checksum = 0;
for (uint8_t i = 0; i < packetLen -1; i++) checksum += out[i];
out[packetLen -1] = checksum;
Serial.write((uint8_t*)out, packetLen);
Serial.write('\n');
DIMPROV_PRINT("Info checksum");
DIMPROV_PRINTLN(checksum);
sendImprovRPCResult(ImprovRPCType::Request_Info, 4, str);
}
#ifndef WLED_DISABLE_IMPROV_WIFISCAN
void startImprovWifiScan() {
if (improvWifiScanRunning) return;
WiFi.scanNetworks(true);
improvWifiScanRunning = true;
}
void handleImprovWifiScan() {
if (!improvWifiScanRunning) return;
int16_t status = WiFi.scanComplete();
if (status == WIFI_SCAN_RUNNING) return;
// here scan completed or failed (-2)
improvWifiScanRunning = false;
for (int i = 0; i < status; i++) {
char rssiStr[8];
sprintf(rssiStr, "%d", WiFi.RSSI(i));
#ifdef ESP8266
bool isOpen = WiFi.encryptionType(i) == ENC_TYPE_NONE;
#else
bool isOpen = WiFi.encryptionType(i) == WIFI_AUTH_OPEN;
#endif
char ssidStr[33];
strcpy(ssidStr, WiFi.SSID(i).c_str());
const char *str[3] = {ssidStr, rssiStr, isOpen ? "NO":"YES"};
sendImprovRPCResult(ImprovRPCType::Request_Scan, 3, str);
}
sendImprovRPCResult(ImprovRPCType::Request_Scan, 0);
WiFi.scanDelete();
}
#else
void startImprovWifiScan() {}
void handleImprovWifiScan() {}
#endif
void parseWiFiCommand(char* rpcData) {
uint8_t len = rpcData[0];
if (!len || len > 126) return;

6
wled00/ir.cpp
View File

@ -70,13 +70,9 @@ void decBrightness()
}
}
// apply preset or fallback to a effect and palette if it doesn't exist
void presetFallback(uint8_t presetID, uint8_t effectID, uint8_t paletteID)
{
applyPreset(presetID, CALL_MODE_BUTTON_PRESET);
//these two will be overwritten if preset exists in handlePresets()
effectCurrent = effectID;
effectPalette = paletteID;
applyPresetWithFallback(presetID, CALL_MODE_BUTTON_PRESET, effectID, paletteID);
}
byte relativeChange(byte property, int8_t amount, byte lowerBoundary, byte higherBoundary)

65
wled00/json.cpp
View File

@ -9,6 +9,7 @@
#define JSON_PATH_PALETTES 5
#define JSON_PATH_FXDATA 6
#define JSON_PATH_NETWORKS 7
#define JSON_PATH_EFFECTS 8
/*
* JSON API (De)serialization
@ -33,7 +34,7 @@ bool deserializeSegment(JsonObject elem, byte it, byte presetId)
uint16_t start = elem["start"] | seg.start;
if (stop < 0) {
uint16_t len = elem["len"];
int len = elem["len"];
stop = (len > 0) ? start + len : seg.stop;
}
// 2D segments
@ -69,9 +70,10 @@ bool deserializeSegment(JsonObject elem, byte it, byte presetId)
const char * name = elem["n"].as<const char*>();
size_t len = 0;
if (name != nullptr) len = strlen(name);
if (len > 0 && len < 33) {
if (len > 0) {
if (len > WLED_MAX_SEGNAME_LEN) len = WLED_MAX_SEGNAME_LEN;
seg.name = new char[len+1];
if (seg.name) strlcpy(seg.name, name, 33);
if (seg.name) strlcpy(seg.name, name, WLED_MAX_SEGNAME_LEN+1);
} else {
// but is empty (already deleted above)
elem.remove("n");
@ -93,7 +95,10 @@ bool deserializeSegment(JsonObject elem, byte it, byte presetId)
if ((spc>0 && spc!=seg.spacing) || seg.map1D2D!=map1D2D) seg.fill(BLACK); // clear spacing gaps
seg.map1D2D = constrain(map1D2D, 0, 7);
seg.soundSim = constrain(soundSim, 0, 7);
seg.soundSim = constrain(soundSim, 0, 1);
uint8_t set = elem[F("set")] | seg.set;
seg.set = constrain(set, 0, 3);
uint16_t len = 1;
if (stop > start) len = stop - start;
@ -105,7 +110,7 @@ bool deserializeSegment(JsonObject elem, byte it, byte presetId)
of = offsetAbs;
}
if (stop > start && of > len -1) of = len -1;
seg.set(start, stop, grp, spc, of, startY, stopY);
seg.setUp(start, stop, grp, spc, of, startY, stopY);
if (seg.reset && seg.stop == 0) return true; // segment was deleted & is marked for reset, no need to change anything else
@ -127,6 +132,8 @@ bool deserializeSegment(JsonObject elem, byte it, byte presetId)
JsonArray colarr = elem["col"];
if (!colarr.isNull())
{
if (seg.getLightCapabilities() & 3) {
// segment has RGB or White
for (size_t i = 0; i < 3; i++)
{
int rgbw[] = {0,0,0,0};
@ -158,6 +165,11 @@ bool deserializeSegment(JsonObject elem, byte it, byte presetId)
seg.setColor(i, RGBW32(rgbw[0],rgbw[1],rgbw[2],rgbw[3]));
if (seg.mode == FX_MODE_STATIC) strip.trigger(); //instant refresh
}
} else {
// non RGB & non White segment (usually On/Off bus)
seg.setColor(0, ULTRAWHITE);
seg.setColor(1, BLACK);
}
}
// lx parser
@ -199,7 +211,9 @@ bool deserializeSegment(JsonObject elem, byte it, byte presetId)
getVal(elem["ix"], &seg.intensity);
uint8_t pal = seg.palette;
if (seg.getLightCapabilities() & 1) { // ignore palette for White and On/Off segments
if (getVal(elem["pal"], &pal)) seg.setPalette(pal);
}
getVal(elem["c1"], &seg.custom1);
getVal(elem["c2"], &seg.custom2);
@ -412,7 +426,7 @@ bool deserializeState(JsonObject root, byte callMode, byte presetId)
// a) already applied preset content (requires "seg" or "win" but will ignore the rest)
if (!root["pd"].isNull() && stateChanged) {
currentPreset = root[F("pd")] | currentPreset;
if (root["win"].isNull()) presetCycCurr = currentPreset;
if (root["win"].isNull()) presetCycCurr = currentPreset; // otherwise it was set in handleSet() [set.cpp]
presetToRestore = currentPreset; // stateUpdated() will clear the preset, so we need to restore it after
//unloadPlaylist(); // applying a preset unloads the playlist, may be needed here too?
} else if (!root["ps"].isNull()) {
@ -459,7 +473,7 @@ void serializeSegment(JsonObject& root, Segment& seg, byte id, bool forPreset, b
root[F("stopY")] = seg.stopY;
}
}
if (!forPreset) root["len"] = seg.stop - seg.start;
if (!forPreset) root["len"] = (seg.stop >= seg.start) ? (seg.stop - seg.start) : 0;
root["grp"] = seg.grouping;
root[F("spc")] = seg.spacing;
root[F("of")] = seg.offset;
@ -468,6 +482,7 @@ void serializeSegment(JsonObject& root, Segment& seg, byte id, bool forPreset, b
byte segbri = seg.opacity;
root["bri"] = (segbri) ? segbri : 255;
root["cct"] = seg.cct;
root[F("set")] = seg.set;
if (segmentBounds && seg.name != nullptr) root["n"] = reinterpret_cast<const char *>(seg.name); //not good practice, but decreases required JSON buffer
@ -709,7 +724,7 @@ void serializeInfo(JsonObject root)
#endif
root[F("freeheap")] = ESP.getFreeHeap();
#if defined(ARDUINO_ARCH_ESP32) && defined(WLED_USE_PSRAM)
#if defined(ARDUINO_ARCH_ESP32) && defined(BOARD_HAS_PSRAM)
if (psramFound()) root[F("psram")] = ESP.getFreePsram();
#endif
root[F("uptime")] = millis()/1000 + rolloverMillis*4294967;
@ -799,7 +814,7 @@ void setPaletteColors(JsonArray json, byte* tcp)
}
}
void serializePalettes(JsonObject root, AsyncWebServerRequest* request)
void serializePalettes(JsonObject root, int page)
{
byte tcp[72];
#ifdef ESP8266
@ -808,11 +823,6 @@ void serializePalettes(JsonObject root, AsyncWebServerRequest* request)
int itemPerPage = 8;
#endif
int page = 0;
if (request->hasParam("page")) {
page = request->getParam("page")->value().toInt();
}
int palettesCount = strip.getPaletteCount();
int customPalettes = strip.customPalettes.size();
@ -988,6 +998,7 @@ void serveJson(AsyncWebServerRequest* request)
else if (url.indexOf("info") > 0) subJson = JSON_PATH_INFO;
else if (url.indexOf("si") > 0) subJson = JSON_PATH_STATE_INFO;
else if (url.indexOf("nodes") > 0) subJson = JSON_PATH_NODES;
else if (url.indexOf("eff") > 0) subJson = JSON_PATH_EFFECTS;
else if (url.indexOf("palx") > 0) subJson = JSON_PATH_PALETTES;
else if (url.indexOf("fxda") > 0) subJson = JSON_PATH_FXDATA;
else if (url.indexOf("net") > 0) subJson = JSON_PATH_NETWORKS;
@ -997,20 +1008,6 @@ void serveJson(AsyncWebServerRequest* request)
return;
}
#endif
else if (url.indexOf(F("eff")) > 0) {
// this serves just effect names without FX data extensions in names
if (requestJSONBufferLock(19)) {
AsyncJsonResponse* response = new AsyncJsonResponse(&doc, true); // array document
JsonArray lDoc = response->getRoot();
serializeModeNames(lDoc); // remove WLED-SR extensions from effect names
response->setLength();
request->send(response);
releaseJSONBufferLock();
} else {
request->send(503, "application/json", F("{\"error\":3}"));
}
return;
}
else if (url.indexOf("pal") > 0) {
request->send_P(200, "application/json", JSON_palette_names);
return;
@ -1027,7 +1024,7 @@ void serveJson(AsyncWebServerRequest* request)
request->send(503, "application/json", F("{\"error\":3}"));
return;
}
AsyncJsonResponse *response = new AsyncJsonResponse(&doc, subJson==6);
AsyncJsonResponse *response = new AsyncJsonResponse(&doc, subJson==JSON_PATH_FXDATA || subJson==JSON_PATH_EFFECTS); // will clear and convert JsonDocument into JsonArray if necessary
JsonVariant lDoc = response->getRoot();
@ -1040,9 +1037,11 @@ void serveJson(AsyncWebServerRequest* request)
case JSON_PATH_NODES:
serializeNodes(lDoc); break;
case JSON_PATH_PALETTES:
serializePalettes(lDoc, request); break;
serializePalettes(lDoc, request->hasParam("page") ? request->getParam("page")->value().toInt() : 0); break;
case JSON_PATH_EFFECTS:
serializeModeNames(lDoc); break;
case JSON_PATH_FXDATA:
serializeModeData(lDoc.as<JsonArray>()); break;
serializeModeData(lDoc); break;
case JSON_PATH_NETWORKS:
serializeNetworks(lDoc); break;
default: //all
@ -1061,7 +1060,9 @@ void serveJson(AsyncWebServerRequest* request)
DEBUG_PRINTF("JSON buffer size: %u for request: %d\n", lDoc.memoryUsage(), subJson);
response->setLength();
size_t len = response->setLength();
DEBUG_PRINT(F("JSON content length: ")); DEBUG_PRINTLN(len);
request->send(response);
releaseJSONBufferLock();
}

7
wled00/led.cpp
View File

@ -37,8 +37,8 @@ void applyValuesToSelectedSegs()
if (effectSpeed != selsegPrev.speed) {seg.speed = effectSpeed; stateChanged = true;}
if (effectIntensity != selsegPrev.intensity) {seg.intensity = effectIntensity; stateChanged = true;}
if (effectPalette != selsegPrev.palette) {seg.palette = effectPalette; stateChanged = true;}
if (effectCurrent != selsegPrev.mode) {strip.setMode(i, effectCurrent); stateChanged = true;}
if (effectPalette != selsegPrev.palette) {seg.setPalette(effectPalette); stateChanged = true;}
if (effectCurrent != selsegPrev.mode) {seg.setMode(effectCurrent); stateChanged = true;}
uint32_t col0 = RGBW32( col[0], col[1], col[2], col[3]);
uint32_t col1 = RGBW32(colSec[0], colSec[1], colSec[2], colSec[3]);
if (col0 != selsegPrev.colors[0]) {seg.setColor(0, col0); stateChanged = true;}
@ -104,6 +104,7 @@ void stateUpdated(byte callMode) {
if (stateChanged) currentPreset = 0; //something changed, so we are no longer in the preset
if (callMode != CALL_MODE_NOTIFICATION && callMode != CALL_MODE_NO_NOTIFY) notify(callMode);
if (bri != briOld && nodeBroadcastEnabled) sendSysInfoUDP(); // update on state
//set flag to update ws and mqtt
interfaceUpdateCallMode = callMode;
@ -146,7 +147,7 @@ void stateUpdated(byte callMode) {
if (transitionActive) {
briOld = briT;
tperLast = 0;
}
} else
strip.setTransitionMode(true); // force all segments to transition mode
transitionActive = true;
transitionStartTime = millis();

2
wled00/lx_parser.cpp
View File

@ -5,7 +5,7 @@
/*
* Parser for Loxone formats
*/
bool parseLx(int lxValue, byte rgbw[4])
bool parseLx(int lxValue, byte* rgbw)
{
DEBUG_PRINT(F("LX: Lox = "));
DEBUG_PRINTLN(lxValue);

10
wled00/mqtt.cpp
View File

@ -9,8 +9,8 @@
void parseMQTTBriPayload(char* payload)
{
if (strstr(payload, "ON") || strstr(payload, "on") || strstr(payload, "true")) {bri = briLast; stateUpdated(1);}
else if (strstr(payload, "T" ) || strstr(payload, "t" )) {toggleOnOff(); stateUpdated(1);}
if (strstr(payload, "ON") || strstr(payload, "on") || strstr(payload, "true")) {bri = briLast; stateUpdated(CALL_MODE_DIRECT_CHANGE);}
else if (strstr(payload, "T" ) || strstr(payload, "t" )) {toggleOnOff(); stateUpdated(CALL_MODE_DIRECT_CHANGE);}
else {
uint8_t in = strtoul(payload, NULL, 10);
if (in == 0 && bri > 0) briLast = bri;
@ -142,12 +142,12 @@ void publishMqtt()
sprintf_P(s, PSTR("%u"), bri);
strlcpy(subuf, mqttDeviceTopic, 33);
strcat_P(subuf, PSTR("/g"));
mqtt->publish(subuf, 0, true, s); // retain message
mqtt->publish(subuf, 0, retainMqttMsg, s); // optionally retain message (#2263)
sprintf_P(s, PSTR("#%06X"), (col[3] << 24) | (col[0] << 16) | (col[1] << 8) | (col[2]));
strlcpy(subuf, mqttDeviceTopic, 33);
strcat_P(subuf, PSTR("/c"));
mqtt->publish(subuf, 0, true, s); // retain message
mqtt->publish(subuf, 0, retainMqttMsg, s); // optionally retain message (#2263)
strlcpy(subuf, mqttDeviceTopic, 33);
strcat_P(subuf, PSTR("/status"));
@ -157,7 +157,7 @@ void publishMqtt()
XML_response(nullptr, apires);
strlcpy(subuf, mqttDeviceTopic, 33);
strcat_P(subuf, PSTR("/v"));
mqtt->publish(subuf, 0, false, apires); // do not retain message
mqtt->publish(subuf, 0, retainMqttMsg, apires); // optionally retain message (#2263)
#endif
}

1
wled00/my_config_sample.h
View File

@ -23,3 +23,4 @@
*/
//#define MAX_LEDS 1500 // Maximum total LEDs. More than 1500 might create a low memory situation on ESP8266.
//#define MDNS_NAME "wled" // mDNS hostname, ie: *.local

7
wled00/network.cpp
View File

@ -152,16 +152,13 @@ int getSignalQuality(int rssi)
//handle Ethernet connection event
void WiFiEvent(WiFiEvent_t event)
{
#ifdef WLED_USE_ETHERNET
char hostname[25];
#endif
switch (event) {
#if defined(ARDUINO_ARCH_ESP32) && defined(WLED_USE_ETHERNET)
case SYSTEM_EVENT_ETH_START:
DEBUG_PRINTLN(F("ETH Started"));
break;
case SYSTEM_EVENT_ETH_CONNECTED:
{
DEBUG_PRINTLN(F("ETH Connected"));
if (!apActive) {
WiFi.disconnect(true);
@ -172,10 +169,12 @@ void WiFiEvent(WiFiEvent_t event)
ETH.config(INADDR_NONE, INADDR_NONE, INADDR_NONE);
}
// convert the "serverDescription" into a valid DNS hostname (alphanumeric)
char hostname[64];
prepareHostname(hostname);
ETH.setHostname(hostname);
showWelcomePage = false;
break;
}
case SYSTEM_EVENT_ETH_DISCONNECTED:
DEBUG_PRINTLN(F("ETH Disconnected"));
// This doesn't really affect ethernet per se,

16
wled00/presets.cpp
View File

@ -52,7 +52,7 @@ static void doSaveState() {
size_t len = measureJson(*fileDoc) + 1;
DEBUG_PRINTLN(len);
// if possible use SPI RAM on ESP32
#ifdef WLED_USE_PSRAM
#if defined(BOARD_HAS_PSRAM) && defined(WLED_USE_PSRAM)
if (psramFound())
tmpRAMbuffer = (char*) ps_malloc(len);
else
@ -120,6 +120,15 @@ bool applyPreset(byte index, byte callMode)
return true;
}
// apply preset or fallback to a effect and palette if it doesn't exist
void applyPresetWithFallback(uint8_t index, uint8_t callMode, uint8_t effectID, uint8_t paletteID)
{
applyPreset(index, callMode);
//these two will be overwritten if preset exists in handlePresets()
effectCurrent = effectID;
effectPalette = paletteID;
}
void handlePresets()
{
if (presetToSave) {
@ -167,10 +176,11 @@ void handlePresets()
changePreset = true;
} else {
if (!fdo["seg"].isNull() || !fdo["on"].isNull() || !fdo["bri"].isNull() || !fdo["nl"].isNull() || !fdo["ps"].isNull() || !fdo[F("playlist")].isNull()) changePreset = true;
fdo.remove("ps"); //remove load request for presets to prevent recursive crash
if (!(tmpMode == CALL_MODE_BUTTON_PRESET && fdo["ps"].is<const char *>() && strchr(fdo["ps"].as<const char *>(),'~') != strrchr(fdo["ps"].as<const char *>(),'~')))
fdo.remove("ps"); // remove load request for presets to prevent recursive crash (if not called by button and contains preset cycling string "1~5~")
deserializeState(fdo, CALL_MODE_NO_NOTIFY, tmpPreset); // may change presetToApply by calling applyPreset()
}
if (!errorFlag && tmpPreset < 255 && changePreset) presetCycCurr = currentPreset = tmpPreset;
if (!errorFlag && tmpPreset < 255 && changePreset) currentPreset = tmpPreset;
#if defined(ARDUINO_ARCH_ESP32)
//Aircoookie recommended not to delete buffer

200
wled00/remote.cpp Normal file
View File

@ -0,0 +1,200 @@
#include "wled.h"
#define ESP_NOW_STATE_UNINIT 0
#define ESP_NOW_STATE_ON 1
#define ESP_NOW_STATE_ERROR 2
#define NIGHT_MODE_DEACTIVATED -1
#define NIGHT_MODE_BRIGHTNESS 5
#define WIZMOTE_BUTTON_ON 1
#define WIZMOTE_BUTTON_OFF 2
#define WIZMOTE_BUTTON_NIGHT 3
#define WIZMOTE_BUTTON_ONE 16
#define WIZMOTE_BUTTON_TWO 17
#define WIZMOTE_BUTTON_THREE 18
#define WIZMOTE_BUTTON_FOUR 19
#define WIZMOTE_BUTTON_BRIGHT_UP 9
#define WIZMOTE_BUTTON_BRIGHT_DOWN 8
#ifdef WLED_DISABLE_ESPNOW
void handleRemote(){}
#else
// This is kind of an esoteric strucure because it's pulled from the "Wizmote"
// product spec. That remote is used as the baseline for behavior and availability
// since it's broadly commercially available and works out of the box as a drop-in
typedef struct message_structure {
uint8_t program; // 0x91 for ON button, 0x81 for all others
uint8_t seq[4]; // Incremetal sequence number 32 bit unsigned integer LSB first
uint8_t byte5 = 32; // Unknown
uint8_t button; // Identifies which button is being pressed
uint8_t byte8 = 1; // Unknown, but always 0x01
uint8_t byte9 = 100; // Unnkown, but always 0x64
uint8_t byte10; // Unknown, maybe checksum
uint8_t byte11; // Unknown, maybe checksum
uint8_t byte12; // Unknown, maybe checksum
uint8_t byte13; // Unknown, maybe checksum
} message_structure;
static int esp_now_state = ESP_NOW_STATE_UNINIT;
static uint32_t last_seq = -1;
static int brightnessBeforeNightMode = NIGHT_MODE_DEACTIVATED;
static message_structure incoming;
// Pulled from the IR Remote logic but reduced to 10 steps with a constant of 3
const byte brightnessSteps[] = {
6, 9, 14, 22, 33, 50, 75, 113, 170, 255
};
const size_t numBrightnessSteps = sizeof(brightnessSteps) / sizeof(uint8_t);
bool nightModeActive() {
return brightnessBeforeNightMode != NIGHT_MODE_DEACTIVATED;
}
void activateNightMode() {
brightnessBeforeNightMode = bri;
bri = NIGHT_MODE_BRIGHTNESS;
}
bool resetNightMode() {
if (!nightModeActive()) {
return false;
}
bri = brightnessBeforeNightMode;
brightnessBeforeNightMode = NIGHT_MODE_DEACTIVATED;
return true;
}
// increment `bri` to the next `brightnessSteps` value
void brightnessUp() {
if (nightModeActive()) { return; }
// dumb incremental search is efficient enough for so few items
for (uint8_t index = 0; index < numBrightnessSteps; ++index) {
if (brightnessSteps[index] > bri) {
bri = brightnessSteps[index];
break;
}
}
}
// decrement `bri` to the next `brightnessSteps` value
void brightnessDown() {
if (nightModeActive()) { return; }
// dumb incremental search is efficient enough for so few items
for (int index = numBrightnessSteps - 1; index >= 0; --index) {
if (brightnessSteps[index] < bri) {
bri = brightnessSteps[index];
break;
}
}
}
void setOn() {
if (resetNightMode()) {
stateUpdated(CALL_MODE_BUTTON);
}
if (!bri) {
toggleOnOff();
}
}
void setOff() {
if (resetNightMode()) {
stateUpdated(CALL_MODE_BUTTON);
}
if (bri) {
toggleOnOff();
}
}
void presetWithFallback(uint8_t presetID, uint8_t effectID, uint8_t paletteID) {
applyPresetWithFallback(presetID, CALL_MODE_BUTTON_PRESET, effectID, paletteID);
}
// Callback function that will be executed when data is received
#ifdef ESP8266
void OnDataRecv(uint8_t * mac, uint8_t *incomingData, uint8_t len) {
#else
void OnDataRecv(const uint8_t * mac, const uint8_t *incomingData, int len) {
#endif
sprintf (last_signal_src, "%02x%02x%02x%02x%02x%02x",
mac [0], mac [1], mac [2], mac [3], mac [4], mac [5]);
if (strcmp(last_signal_src, linked_remote) != 0) {
DEBUG_PRINT(F("ESP Now Message Received from Unlinked Sender: "));
DEBUG_PRINTLN(last_signal_src);
return;
}
if (len != sizeof(incoming)) {
DEBUG_PRINT(F("Unknown incoming ESP Now message received of length "));
DEBUG_PRINTLN(len);
return;
}
memcpy(&(incoming.program), incomingData, sizeof(incoming));
uint32_t cur_seq = incoming.seq[0] | (incoming.seq[1] << 8) | (incoming.seq[2] << 16) | (incoming.seq[3] << 24);
if (cur_seq == last_seq) {
return;
}
DEBUG_PRINT(F("Incoming ESP Now Packet["));
DEBUG_PRINT(cur_seq);
DEBUG_PRINT(F("] from sender["));
DEBUG_PRINT(last_signal_src);
DEBUG_PRINT(F("] button: "));
DEBUG_PRINTLN(incoming.button);
switch (incoming.button) {
case WIZMOTE_BUTTON_ON : setOn(); stateUpdated(CALL_MODE_BUTTON); break;
case WIZMOTE_BUTTON_OFF : setOff(); stateUpdated(CALL_MODE_BUTTON); break;
case WIZMOTE_BUTTON_ONE : presetWithFallback(1, FX_MODE_STATIC, 0); resetNightMode(); break;
case WIZMOTE_BUTTON_TWO : presetWithFallback(2, FX_MODE_BREATH, 0); resetNightMode(); break;
case WIZMOTE_BUTTON_THREE : presetWithFallback(3, FX_MODE_FIRE_FLICKER, 0); resetNightMode(); break;
case WIZMOTE_BUTTON_FOUR : presetWithFallback(4, FX_MODE_RAINBOW, 0); resetNightMode(); break;
case WIZMOTE_BUTTON_NIGHT : activateNightMode(); stateUpdated(CALL_MODE_BUTTON); break;
case WIZMOTE_BUTTON_BRIGHT_UP : brightnessUp(); stateUpdated(CALL_MODE_BUTTON); break;
case WIZMOTE_BUTTON_BRIGHT_DOWN : brightnessDown(); stateUpdated(CALL_MODE_BUTTON); break;
default: break;
}
last_seq = cur_seq;
}
void handleRemote() {
if (enable_espnow_remote) {
if (esp_now_state == ESP_NOW_STATE_UNINIT) {
DEBUG_PRINTLN(F("Initializing ESP_NOW listener"));
// Init ESP-NOW
if (esp_now_init() != 0) {
DEBUG_PRINTLN(F("Error initializing ESP-NOW"));
esp_now_state = ESP_NOW_STATE_ERROR;
}
#ifdef ESP8266
esp_now_set_self_role(ESP_NOW_ROLE_SLAVE);
#endif
esp_now_register_recv_cb(OnDataRecv);
esp_now_state = ESP_NOW_STATE_ON;
}
} else {
if (esp_now_state == ESP_NOW_STATE_ON) {
DEBUG_PRINTLN(F("Disabling ESP-NOW Remote Listener"));
if (esp_now_deinit() != 0) {
DEBUG_PRINTLN(F("Error de-initializing ESP-NOW"));
}
esp_now_state = ESP_NOW_STATE_UNINIT;
} else if (esp_now_state == ESP_NOW_STATE_ERROR) {
//Clear any error states (allows retrying by cycling)
esp_now_state = ESP_NOW_STATE_UNINIT;
}
}
}
#endif

73
wled00/set.cpp
View File

@ -7,11 +7,9 @@
//called upon POST settings form submit
void handleSettingsSet(AsyncWebServerRequest *request, byte subPage)
{
// PIN code request
if (subPage == 252)
if (subPage == SUBPAGE_PINREQ)
{
correctPIN = (strlen(settingsPIN)==0 || strncmp(settingsPIN, request->arg(F("PIN")).c_str(), 4)==0);
lastEditTime = millis();
checkSettingsPIN(request->arg(F("PIN")).c_str());
return;
}
@ -19,7 +17,7 @@ void handleSettingsSet(AsyncWebServerRequest *request, byte subPage)
if (subPage < 1 || subPage > 10 || !correctPIN) return;
//WIFI SETTINGS
if (subPage == 1)
if (subPage == SUBPAGE_WIFI)
{
strlcpy(clientSSID,request->arg(F("CS")).c_str(), 33);
@ -36,6 +34,14 @@ void handleSettingsSet(AsyncWebServerRequest *request, byte subPage)
noWifiSleep = request->hasArg(F("WS"));
#ifndef WLED_DISABLE_ESPNOW
enable_espnow_remote = request->hasArg(F("RE"));
strlcpy(linked_remote,request->arg(F("RMAC")).c_str(), 13);
//Normalize MAC format to lowercase
strlcpy(linked_remote,strlwr(linked_remote), 13);
#endif
#ifdef WLED_USE_ETHERNET
ethernetType = request->arg(F("ETH")).toInt();
WLED::instance().initEthernet();
@ -58,7 +64,7 @@ void handleSettingsSet(AsyncWebServerRequest *request, byte subPage)
}
//LED SETTINGS
if (subPage == 2)
if (subPage == SUBPAGE_LEDS)
{
int t = 0;
@ -233,7 +239,7 @@ void handleSettingsSet(AsyncWebServerRequest *request, byte subPage)
gammaCorrectCol = request->hasArg(F("GC"));
gammaCorrectVal = request->arg(F("GV")).toFloat();
if (gammaCorrectVal > 1.0f && gammaCorrectVal <= 3)
calcGammaTable(gammaCorrectVal);
NeoGammaWLEDMethod::calcGammaTable(gammaCorrectVal);
else {
gammaCorrectVal = 1.0f; // no gamma correction
gammaCorrectBri = false;
@ -262,7 +268,7 @@ void handleSettingsSet(AsyncWebServerRequest *request, byte subPage)
}
//UI
if (subPage == 3)
if (subPage == SUBPAGE_UI)
{
strlcpy(serverDescription, request->arg(F("DS")).c_str(), 33);
syncToggleReceive = request->hasArg(F("ST"));
@ -280,7 +286,7 @@ void handleSettingsSet(AsyncWebServerRequest *request, byte subPage)
}
//SYNC
if (subPage == 4)
if (subPage == SUBPAGE_SYNC)
{
int t = request->arg(F("UP")).toInt();
if (t > 0) udpPort = t;
@ -350,6 +356,7 @@ void handleSettingsSet(AsyncWebServerRequest *request, byte subPage)
strlcpy(mqttDeviceTopic, request->arg(F("MD")).c_str(), 33);
strlcpy(mqttGroupTopic, request->arg(F("MG")).c_str(), 33);
buttonPublishMqtt = request->hasArg(F("BM"));
retainMqttMsg = request->hasArg(F("RT"));
#endif
#ifndef WLED_DISABLE_HUESYNC
@ -378,7 +385,7 @@ void handleSettingsSet(AsyncWebServerRequest *request, byte subPage)
}
//TIME
if (subPage == 5)
if (subPage == SUBPAGE_TIME)
{
ntpEnabled = request->hasArg(F("NT"));
strlcpy(ntpServerName, request->arg(F("NS")).c_str(), 33);
@ -452,7 +459,7 @@ void handleSettingsSet(AsyncWebServerRequest *request, byte subPage)
}
//SECURITY
if (subPage == 6)
if (subPage == SUBPAGE_SEC)
{
if (request->hasArg(F("RS"))) //complete factory reset
{
@ -461,7 +468,7 @@ void handleSettingsSet(AsyncWebServerRequest *request, byte subPage)
clearEEPROM();
#endif
serveMessage(request, 200, F("All Settings erased."), F("Connect to WLED-AP to setup again"),255);
doReboot = true;
doReboot = true; // may reboot immediately on dual-core system (race condition) which is desireable in this case
}
if (request->hasArg(F("PIN"))) {
@ -483,7 +490,7 @@ void handleSettingsSet(AsyncWebServerRequest *request, byte subPage)
if (otaLock && strcmp(otaPass,request->arg(F("OP")).c_str()) == 0)
{
// brute force protection: do not unlock even if correct if last save was less than 3 seconds ago
if (millis() - lastEditTime > 3000) pwdCorrect = true;
if (millis() - lastEditTime > PIN_RETRY_COOLDOWN) pwdCorrect = true;
}
if (!otaLock && request->arg(F("OP")).length() > 0)
{
@ -501,7 +508,7 @@ void handleSettingsSet(AsyncWebServerRequest *request, byte subPage)
}
#ifdef WLED_ENABLE_DMX // include only if DMX is enabled
if (subPage == 7)
if (subPage == SUBPAGE_DMX)
{
int t = request->arg(F("PU")).toInt();
if (t >= 0 && t <= 63999) e131ProxyUniverse = t;
@ -531,34 +538,31 @@ void handleSettingsSet(AsyncWebServerRequest *request, byte subPage)
#endif
//USERMODS
if (subPage == 8)
if (subPage == SUBPAGE_UM)
{
if (!requestJSONBufferLock(5)) return;
// global I2C & SPI pins
int8_t hw_sda_pin = !request->arg(F("SDA")).length() ? -1 : (int)request->arg(F("SDA")).toInt();
int8_t hw_scl_pin = !request->arg(F("SCL")).length() ? -1 : (int)request->arg(F("SCL")).toInt();
#ifdef ESP8266
// cannot change pins on ESP8266
if (hw_sda_pin >= 0 && hw_sda_pin != HW_PIN_SDA) hw_sda_pin = HW_PIN_SDA;
if (hw_scl_pin >= 0 && hw_scl_pin != HW_PIN_SCL) hw_scl_pin = HW_PIN_SCL;
#endif
if (i2c_sda != hw_sda_pin || i2c_scl != hw_scl_pin) {
// only if pins changed
uint8_t old_i2c[2] = { static_cast<uint8_t>(i2c_scl), static_cast<uint8_t>(i2c_sda) };
pinManager.deallocateMultiplePins(old_i2c, 2, PinOwner::HW_I2C); // just in case deallocation of old pins
PinManagerPinType i2c[2] = { { hw_sda_pin, true }, { hw_scl_pin, true } };
if (hw_sda_pin >= 0 && hw_scl_pin >= 0 && pinManager.allocateMultiplePins(i2c, 2, PinOwner::HW_I2C)) {
i2c_sda = hw_sda_pin;
i2c_scl = hw_scl_pin;
#ifdef ESP32
Wire.setPins(i2c_sda, i2c_scl); // this will fail if Wire is initilised (Wire.begin() called)
#endif
Wire.begin();
// no bus re-initialisation as usermods do not get any notification
//Wire.begin(i2c_sda, i2c_scl);
} else {
// there is no Wire.end()
DEBUG_PRINTLN(F("Could not allocate I2C pins."));
uint8_t i2c[2] = { static_cast<uint8_t>(i2c_scl), static_cast<uint8_t>(i2c_sda) };
pinManager.deallocateMultiplePins(i2c, 2, PinOwner::HW_I2C); // just in case deallocation of old pins
i2c_sda = -1;
i2c_scl = -1;
}
}
int8_t hw_mosi_pin = !request->arg(F("MOSI")).length() ? -1 : (int)request->arg(F("MOSI")).toInt();
int8_t hw_miso_pin = !request->arg(F("MISO")).length() ? -1 : (int)request->arg(F("MISO")).toInt();
int8_t hw_sclk_pin = !request->arg(F("SCLK")).length() ? -1 : (int)request->arg(F("SCLK")).toInt();
@ -568,6 +572,10 @@ void handleSettingsSet(AsyncWebServerRequest *request, byte subPage)
if (hw_miso_pin >= 0 && hw_miso_pin != HW_PIN_MISOSPI) hw_mosi_pin = HW_PIN_MISOSPI;
if (hw_sclk_pin >= 0 && hw_sclk_pin != HW_PIN_CLOCKSPI) hw_sclk_pin = HW_PIN_CLOCKSPI;
#endif
if (spi_mosi != hw_mosi_pin || spi_miso != hw_miso_pin || spi_sclk != hw_sclk_pin) {
// only if pins changed
uint8_t old_spi[3] = { static_cast<uint8_t>(spi_mosi), static_cast<uint8_t>(spi_miso), static_cast<uint8_t>(spi_sclk) };
pinManager.deallocateMultiplePins(old_spi, 3, PinOwner::HW_SPI); // just in case deallocation of old pins
PinManagerPinType spi[3] = { { hw_mosi_pin, true }, { hw_miso_pin, true }, { hw_sclk_pin, true } };
if (hw_mosi_pin >= 0 && hw_sclk_pin >= 0 && pinManager.allocateMultiplePins(spi, 3, PinOwner::HW_SPI)) {
spi_mosi = hw_mosi_pin;
@ -583,12 +591,11 @@ void handleSettingsSet(AsyncWebServerRequest *request, byte subPage)
} else {
//SPI.end();
DEBUG_PRINTLN(F("Could not allocate SPI pins."));
uint8_t spi[3] = { static_cast<uint8_t>(spi_mosi), static_cast<uint8_t>(spi_miso), static_cast<uint8_t>(spi_sclk) };
pinManager.deallocateMultiplePins(spi, 3, PinOwner::HW_SPI); // just in case deallocation of old pins
spi_mosi = -1;
spi_miso = -1;
spi_sclk = -1;
}
}
JsonObject um = doc.createNestedObject("um");
@ -671,7 +678,7 @@ void handleSettingsSet(AsyncWebServerRequest *request, byte subPage)
#ifndef WLED_DISABLE_2D
//2D panels
if (subPage == 10)
if (subPage == SUBPAGE_2D)
{
strip.isMatrix = request->arg(F("SOMP")).toInt();
strip.panel.clear(); // release memory if allocated
@ -707,9 +714,11 @@ void handleSettingsSet(AsyncWebServerRequest *request, byte subPage)
#endif
lastEditTime = millis();
if (subPage != 2 && !doReboot) doSerializeConfig = true; //serializeConfig(); //do not save if factory reset or LED settings (which are saved after LED re-init)
// do not save if factory reset or LED settings (which are saved after LED re-init)
doSerializeConfig = subPage != SUBPAGE_LEDS && !(subPage == SUBPAGE_SEC && doReboot);
if (subPage == SUBPAGE_UM) doReboot = request->hasArg(F("RBT")); // prevent race condition on dual core system (set reboot here, after doSerializeConfig has been set)
#ifndef WLED_DISABLE_ALEXA
if (subPage == 4) alexaInit();
if (subPage == SUBPAGE_SYNC) alexaInit();
#endif
}
@ -788,7 +797,7 @@ bool handleSet(AsyncWebServerRequest *request, const String& req, bool apply)
if (pos > 0) {
spcI = getNumVal(&req, pos);
}
selseg.set(startI, stopI, grpI, spcI, UINT16_MAX, startY, stopY);
selseg.setUp(startI, stopI, grpI, spcI, UINT16_MAX, startY, stopY);
pos = req.indexOf(F("RV=")); //Segment reverse
if (pos > 0) selseg.reverse = req.charAt(pos+3) != '0';

4
wled00/src/dependencies/e131/ESPAsyncE131.h
View File

@ -53,8 +53,8 @@ typedef struct ip_addr ip4_addr_t;
#define DDP_PUSH_FLAG 0x01
#define DDP_TIMECODE_FLAG 0x10
#define DDP_TYPE_RGB24 0x0A
#define DDP_TYPE_RGBW32 0x1A
#define DDP_TYPE_RGB24 0x0B // 00 001 011 (RGB , 8 bits per channel, 3 channels)
#define DDP_TYPE_RGBW32 0x1B // 00 011 011 (RGBW, 8 bits per channel, 4 channels)
#define ARTNET_OPCODE_OPDMX 0x5000
#define ARTNET_OPCODE_OPPOLL 0x2000

7
wled00/udp.cpp
View File

@ -362,7 +362,7 @@ void handleNotifications()
uint16_t stopY = 1, stop = (udpIn[3+ofs] << 8 | udpIn[4+ofs]);
uint16_t offset = (udpIn[7+ofs] << 8 | udpIn[8+ofs]);
if (!receiveSegmentOptions) {
selseg.set(start, stop, selseg.grouping, selseg.spacing, offset, startY, stopY);
selseg.setUp(start, stop, selseg.grouping, selseg.spacing, offset, startY, stopY);
continue;
}
//for (size_t j = 1; j<4; j++) selseg.setOption(j, (udpIn[9 +ofs] >> j) & 0x01); //only take into account mirrored, on, reversed; ignore selected
@ -396,9 +396,9 @@ void handleNotifications()
stopY = (udpIn[34+ofs] << 8 | udpIn[35+ofs]);
}
if (receiveSegmentBounds) {
selseg.set(start, stop, udpIn[5+ofs], udpIn[6+ofs], offset, startY, stopY);
selseg.setUp(start, stop, udpIn[5+ofs], udpIn[6+ofs], offset, startY, stopY);
} else {
selseg.set(selseg.start, selseg.stop, udpIn[5+ofs], udpIn[6+ofs], selseg.offset, selseg.startY, selseg.stopY);
selseg.setUp(selseg.start, selseg.stop, udpIn[5+ofs], udpIn[6+ofs], selseg.offset, selseg.startY, selseg.stopY);
}
}
stateChanged = true;
@ -669,6 +669,7 @@ void sendSysInfoUDP()
#else
data[38] = NODE_TYPE_ID_UNDEFINED;
#endif
if (bri) data[38] |= 0x80U; // add on/off state
data[39] = ip[3]; // unit ID == last IP number
uint32_t build = VERSION;

25
wled00/util.cpp
View File

@ -373,6 +373,16 @@ int16_t extractModeDefaults(uint8_t mode, const char *segVar)
}
void checkSettingsPIN(const char* pin) {
if (!pin) return;
if (!correctPIN && millis() - lastEditTime < PIN_RETRY_COOLDOWN) return; // guard against PIN brute force
bool correctBefore = correctPIN;
correctPIN = (strlen(settingsPIN) == 0 || strncmp(settingsPIN, pin, 4) == 0);
if (correctBefore != correctPIN) createEditHandler(correctPIN);
lastEditTime = millis();
}
uint16_t crc16(const unsigned char* data_p, size_t length) {
uint8_t x;
uint16_t crc = 0xFFFF;
@ -390,11 +400,12 @@ uint16_t crc16(const unsigned char* data_p, size_t length) {
// Begin simulateSound (to enable audio enhanced effects to display something)
///////////////////////////////////////////////////////////////////////////////
// Currently 4 types defined, to be fine tuned and new types added
// (only 2 used as stored in 1 bit in segment options, consider switching to a single global simulation type)
typedef enum UM_SoundSimulations {
UMS_BeatSin = 0,
UMS_WeWillRockYou,
UMS_10_3,
UMS_14_3
UMS_WeWillRockYou
//UMS_10_13,
//UMS_14_3
} um_soundSimulations_t;
um_data_t* simulateSound(uint8_t simulationId)
@ -479,7 +490,7 @@ um_data_t* simulateSound(uint8_t simulationId)
fftResult[i] = 0;
}
break;
case UMS_10_3:
/*case UMS_10_3:
for (int i = 0; i<16; i++)
fftResult[i] = inoise8(beatsin8(90 / (i+1), 0, 200)*15 + (ms>>10), ms>>3);
volumeSmth = fftResult[8];
@ -488,12 +499,12 @@ um_data_t* simulateSound(uint8_t simulationId)
for (int i = 0; i<16; i++)
fftResult[i] = inoise8(beatsin8(120 / (i+1), 10, 30)*10 + (ms>>14), ms>>3);
volumeSmth = fftResult[8];
break;
break;*/
}
samplePeak = random8() > 250;
FFT_MajorPeak = volumeSmth;
maxVol = 10; // this gets feedback fro UI
FFT_MajorPeak = 21 + (volumeSmth*volumeSmth) / 8.0f; // walk thru full range of 21hz...8200hz
maxVol = 31; // this gets feedback fro UI
binNum = 8; // this gets feedback fro UI
volumeRaw = volumeSmth;
my_magnitude = 10000.0 / 8.0f; //no idea if 10000 is a good value for FFT_Magnitude ???

68
wled00/wled.cpp
View File

@ -46,7 +46,9 @@ void WLED::loop()
handleIR(); // 2nd call to function needed for ESP32 to return valid results -- should be good for ESP8266, too
#endif
handleConnection();
handleRemote();
handleSerial();
handleImprovWifiScan();
handleNotifications();
handleTransitions();
#ifdef WLED_ENABLE_DMX
@ -73,13 +75,6 @@ void WLED::loop()
handleAlexa();
#endif
yield();
if (doSerializeConfig) serializeConfig();
if (doReboot && !doInitBusses) // if busses have to be inited & saved, wait until next iteration
reset();
if (doCloseFile) {
closeFile();
yield();
@ -145,7 +140,7 @@ void WLED::loop()
}
// 15min PIN time-out
if (strlen(settingsPIN)>0 && millis() - lastEditTime > 900000) {
if (strlen(settingsPIN)>0 && correctPIN && millis() - lastEditTime > PIN_TIMEOUT) {
correctPIN = false;
createEditHandler(false);
}
@ -169,13 +164,14 @@ void WLED::loop()
strip.finalizeInit(); // also loads default ledmap if present
if (aligned) strip.makeAutoSegments();
else strip.fixInvalidSegments();
yield();
serializeConfig();
doSerializeConfig = true;
}
if (loadLedmap >= 0) {
if (!strip.deserializeMap(loadLedmap) && strip.isMatrix && loadLedmap == 0) strip.setUpMatrix();
loadLedmap = -1;
}
yield();
if (doSerializeConfig) serializeConfig();
yield();
handleWs();
@ -188,12 +184,11 @@ void WLED::loop()
DEBUG_PRINT(F("Runtime: ")); DEBUG_PRINTLN(millis());
DEBUG_PRINT(F("Unix time: ")); toki.printTime(toki.getTime());
DEBUG_PRINT(F("Free heap: ")); DEBUG_PRINTLN(ESP.getFreeHeap());
#if defined(ARDUINO_ARCH_ESP32) && defined(WLED_USE_PSRAM)
#if defined(ARDUINO_ARCH_ESP32) && defined(BOARD_HAS_PSRAM)
if (psramFound()) {
DEBUG_PRINT(F("Total PSRAM: ")); DEBUG_PRINT(ESP.getPsramSize()/1024); DEBUG_PRINTLN("kB");
DEBUG_PRINT(F("Free PSRAM: ")); DEBUG_PRINT(ESP.getFreePsram()/1024); DEBUG_PRINTLN("kB");
} else
DEBUG_PRINTLN(F("No PSRAM"));
}
#endif
DEBUG_PRINT(F("Wifi state: ")); DEBUG_PRINTLN(WiFi.status());
@ -230,6 +225,9 @@ void WLED::loop()
ESP.wdtFeed();
#endif
#endif
if (doReboot && (!doInitBusses || !doSerializeConfig)) // if busses have to be inited & saved, wait until next iteration
reset();
}
void WLED::enableWatchdog() {
@ -321,25 +319,33 @@ void WLED::setup()
#endif
DEBUG_PRINT(F("heap ")); DEBUG_PRINTLN(ESP.getFreeHeap());
#if defined(ARDUINO_ARCH_ESP32) && defined(WLED_USE_PSRAM)
if (psramFound()) {
#if !defined(CONFIG_IDF_TARGET_ESP32C3) && !defined(CONFIG_IDF_TARGET_ESP32S2) && !defined(CONFIG_IDF_TARGET_ESP32S3)
#if defined(ARDUINO_ARCH_ESP32) && defined(BOARD_HAS_PSRAM)
#if defined(CONFIG_IDF_TARGET_ESP32S3)
// S3: reserve GPIO 33-37 for "octal" PSRAM
managed_pin_type pins[] = { {33, true}, {34, true}, {35, true}, {36, true}, {37, true} };
pinManager.allocateMultiplePins(pins, sizeof(pins)/sizeof(managed_pin_type), PinOwner::SPI_RAM);
#elif defined(CONFIG_IDF_TARGET_ESP32S2)
// S2: reserve GPIO 26-32 for PSRAM (may fail due to isPinOk() but that will also prevent other allocation)
managed_pin_type pins[] = { {26, true}, {27, true}, {28, true}, {29, true}, {30, true}, {31, true}, {32, true} };
pinManager.allocateMultiplePins(pins, sizeof(pins)/sizeof(managed_pin_type), PinOwner::SPI_RAM);
#elif defined(CONFIG_IDF_TARGET_ESP32C3)
// C3: reserve GPIO 12-17 for PSRAM (may fail due to isPinOk() but that will also prevent other allocation)
managed_pin_type pins[] = { {12, true}, {13, true}, {14, true}, {15, true}, {16, true}, {17, true} };
pinManager.allocateMultiplePins(pins, sizeof(pins)/sizeof(managed_pin_type), PinOwner::SPI_RAM);
#else
// GPIO16/GPIO17 reserved for SPI RAM
managed_pin_type pins[2] = { {16, true}, {17, true} };
pinManager.allocateMultiplePins(pins, 2, PinOwner::SPI_RAM);
#elif defined(CONFIG_IDF_TARGET_ESP32S3)
// S3: add GPIO 33-37 for "octal" PSRAM
managed_pin_type pins[5] = { {33, true}, {34, true}, {35, true}, {36, true}, {37, true} };
pinManager.allocateMultiplePins(pins, 5, PinOwner::SPI_RAM);
managed_pin_type pins[] = { {16, true}, {17, true} };
pinManager.allocateMultiplePins(pins, sizeof(pins)/sizeof(managed_pin_type), PinOwner::SPI_RAM);
#endif
#if defined(WLED_USE_PSRAM)
if (psramFound()) {
DEBUG_PRINT(F("Total PSRAM: ")); DEBUG_PRINT(ESP.getPsramSize()/1024); DEBUG_PRINTLN("kB");
DEBUG_PRINT(F("Free PSRAM : ")); DEBUG_PRINT(ESP.getFreePsram()/1024); DEBUG_PRINTLN("kB");
} else
DEBUG_PRINTLN(F("No PSRAM found."));
#endif
#if defined(ARDUINO_ARCH_ESP32) && defined(BOARD_HAS_PSRAM) && !defined(WLED_USE_PSRAM)
}
#else
DEBUG_PRINTLN(F("PSRAM not used."));
#endif
#endif
//DEBUG_PRINT(F("LEDs inited. heap usage ~"));
//DEBUG_PRINTLN(heapPreAlloc - ESP.getFreeHeap());
@ -429,8 +435,6 @@ void WLED::setup()
if (Serial.available() > 0 && Serial.peek() == 'I') handleImprovPacket();
#endif
strip.service(); // why?
#ifndef WLED_DISABLE_OTA
if (aOtaEnabled) {
ArduinoOTA.onStart([]() {
@ -480,7 +484,10 @@ void WLED::beginStrip()
if (briS > 0) bri = briS;
else if (bri == 0) bri = 128;
} else {
// fix for #3196
briLast = briS; bri = 0;
strip.fill(BLACK);
strip.show();
}
if (bootPreset > 0) {
applyPreset(bootPreset, CALL_MODE_INIT);
@ -640,7 +647,6 @@ void WLED::initConnection()
ws.onEvent(wsEvent);
#endif
WiFi.disconnect(true); // close old connections
#ifdef ESP8266
WiFi.setPhyMode(WIFI_PHY_MODE_11N);
@ -718,8 +724,6 @@ void WLED::initInterfaces()
ArduinoOTA.begin();
#endif
strip.service();
// Set up mDNS responder:
if (strlen(cmDNS) > 0) {
// "end" must be called before "begin" is called a 2nd time
@ -841,7 +845,7 @@ void WLED::handleConnection()
if (improvActive) {
if (improvError == 3) sendImprovStateResponse(0x00, true);
sendImprovStateResponse(0x04);
if (improvActive > 1) sendImprovRPCResponse(0x01);
if (improvActive > 1) sendImprovIPRPCResult(ImprovRPCType::Command_Wifi);
}
initInterfaces();
userConnected();

30
wled00/wled.h
View File

@ -3,12 +3,12 @@
/*
Main sketch, global variable declarations
@title WLED project sketch
@version 0.14.0-b2
@version 0.14.0-b3
@author Christian Schwinne
*/
// version code in format yymmddb (b = daily build)
#define VERSION 2305090
#define VERSION 2307130
//uncomment this if you have a "my_config.h" file you'd like to use
//#define WLED_USE_MY_CONFIG
@ -36,7 +36,7 @@
#undef WLED_ENABLE_ADALIGHT // disable has priority over enable
#endif
//#define WLED_ENABLE_DMX // uses 3.5kb (use LEDPIN other than 2)
//#define WLED_ENABLE_JSONLIVE // peek LED output via /json/live (WS binary peek is always enabled)
#define WLED_ENABLE_JSONLIVE // peek LED output via /json/live (WS binary peek is always enabled)
#ifndef WLED_DISABLE_LOXONE
#define WLED_ENABLE_LOXONE // uses 1.2kb
#endif
@ -44,6 +44,8 @@
#define WLED_ENABLE_WEBSOCKETS
#endif
//#define WLED_DISABLE_ESPNOW // Removes dependence on esp now
#define WLED_ENABLE_FS_EDITOR // enable /edit page for editing FS content. Will also be disabled with OTA lock
// to toggle usb serial debug (un)comment the following line
@ -73,6 +75,9 @@
{
#include <user_interface.h>
}
#ifndef WLED_DISABLE_ESPNOW
#include <espnow.h>
#endif
#else // ESP32
#include <HardwareSerial.h> // ensure we have the correct "Serial" on new MCUs (depends on ARDUINO_USB_MODE and ARDUINO_USB_CDC_ON_BOOT)
#include <WiFi.h>
@ -89,6 +94,10 @@
#include <LittleFS.h>
#endif
#include "esp_task_wdt.h"
#ifndef WLED_DISABLE_ESPNOW
#include <esp_now.h>
#endif
#endif
#include <Wire.h>
#include <SPI.h>
@ -145,7 +154,7 @@
// The following is a construct to enable code to compile without it.
// There is a code thet will still not use PSRAM though:
// AsyncJsonResponse is a derived class that implements DynamicJsonDocument (AsyncJson-v6.h)
#if defined(ARDUINO_ARCH_ESP32) && defined(WLED_USE_PSRAM)
#if defined(ARDUINO_ARCH_ESP32) && defined(BOARD_HAS_PSRAM) && defined(WLED_USE_PSRAM)
struct PSRAM_Allocator {
void* allocate(size_t size) {
if (psramFound()) return ps_malloc(size); // use PSRAM if it exists
@ -179,6 +188,10 @@ using PSRAMDynamicJsonDocument = BasicJsonDocument<PSRAM_Allocator>;
#define CLIENT_PASS ""
#endif
#ifndef MDNS_NAME
#define MDNS_NAME DEFAULT_MDNS_NAME
#endif
#if defined(WLED_AP_PASS) && !defined(WLED_AP_SSID)
#error WLED_AP_PASS is defined but WLED_AP_SSID is still the default. \
Please change WLED_AP_SSID to something unique.
@ -289,7 +302,7 @@ WLED_GLOBAL char ntpServerName[33] _INIT("0.wled.pool.ntp.org"); // NTP server
// 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 cmDNS[33] _INIT(MDNS_NAME); // mDNS address (*.local, replaced by wledXXXXXX if default is used)
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
@ -421,6 +434,7 @@ WLED_GLOBAL char mqttUser[41] _INIT(""); // optional: username
WLED_GLOBAL char mqttPass[65] _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 retainMqttMsg _INIT(false); // retain brightness and color
#define WLED_MQTT_CONNECTED (mqtt != nullptr && mqtt->connected())
#else
#define WLED_MQTT_CONNECTED false
@ -439,6 +453,12 @@ WLED_GLOBAL bool hueApplyColor _INIT(true);
WLED_GLOBAL uint16_t serialBaud _INIT(1152); // serial baud rate, multiply by 100
#ifndef WLED_DISABLE_ESPNOW
WLED_GLOBAL bool enable_espnow_remote _INIT(false);
WLED_GLOBAL char linked_remote[13] _INIT("");
WLED_GLOBAL char last_signal_src[13] _INIT("");
#endif
// 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

243
wled00/wled00.vcxproj
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387
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4
wled00/wled00.vcxproj.user
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@ -1,4 +0,0 @@
<?xml version="1.0" encoding="utf-8"?>
<Project ToolsVersion="15.0" xmlns="http://schemas.microsoft.com/developer/msbuild/2003">
<PropertyGroup />
</Project>

160
wled00/wled_server.cpp
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@ -9,6 +9,9 @@
#ifdef WLED_ENABLE_PIXART
#include "html_pixart.h"
#endif
#ifndef WLED_DISABLE_PXMAGIC
#include "html_pxmagic.h"
#endif
#include "html_cpal.h"
/*
@ -113,14 +116,6 @@ void initServer()
DefaultHeaders::Instance().addHeader(F("Access-Control-Allow-Headers"), "*");
#ifdef WLED_ENABLE_WEBSOCKETS
server.on("/liveview", HTTP_GET, [](AsyncWebServerRequest *request){
if (handleIfNoneMatchCacheHeader(request)) return;
AsyncWebServerResponse *response = request->beginResponse_P(200, "text/html", PAGE_liveviewws, PAGE_liveviewws_length);
response->addHeader(FPSTR(s_content_enc),"gzip");
setStaticContentCacheHeaders(response);
request->send(response);
//request->send_P(200, "text/html", PAGE_liveviewws);
});
#ifndef WLED_DISABLE_2D
server.on("/liveview2D", HTTP_GET, [](AsyncWebServerRequest *request){
if (handleIfNoneMatchCacheHeader(request)) return;
@ -128,19 +123,16 @@ void initServer()
response->addHeader(FPSTR(s_content_enc),"gzip");
setStaticContentCacheHeaders(response);
request->send(response);
//request->send_P(200, "text/html", PAGE_liveviewws);
});
#endif
#else
#endif
server.on("/liveview", HTTP_GET, [](AsyncWebServerRequest *request){
if (handleIfNoneMatchCacheHeader(request)) return;
AsyncWebServerResponse *response = request->beginResponse_P(200, "text/html", PAGE_liveview, PAGE_liveview_length);
response->addHeader(FPSTR(s_content_enc),"gzip");
setStaticContentCacheHeaders(response);
request->send(response);
//request->send_P(200, "text/html", PAGE_liveview);
});
#endif
//settings page
server.on("/settings", HTTP_GET, [](AsyncWebServerRequest *request){
@ -164,10 +156,6 @@ void initServer()
}
});
server.on("/sliders", HTTP_GET, [](AsyncWebServerRequest *request){
serveIndex(request);
});
server.on("/welcome", HTTP_GET, [](AsyncWebServerRequest *request){
serveSettings(request);
});
@ -195,9 +183,11 @@ void initServer()
JsonObject root = doc.as<JsonObject>();
if (error || root.isNull()) {
releaseJSONBufferLock();
request->send(400, "application/json", F("{\"error\":9}"));
request->send(400, "application/json", F("{\"error\":9}")); // ERR_JSON
return;
}
if (root.containsKey("pin")) checkSettingsPIN(root["pin"].as<const char*>());
const String& url = request->url();
isConfig = url.indexOf("cfg") > -1;
if (!isConfig) {
@ -210,6 +200,11 @@ void initServer()
*/
verboseResponse = deserializeState(root);
} else {
if (!correctPIN && strlen(settingsPIN)>0) {
request->send(403, "application/json", F("{\"error\":1}")); // ERR_DENIED
releaseJSONBufferLock();
return;
}
verboseResponse = deserializeConfig(root); //use verboseResponse to determine whether cfg change should be saved immediately
}
releaseJSONBufferLock();
@ -237,19 +232,15 @@ void initServer()
request->send(200, "text/plain", (String)ESP.getFreeHeap());
});
#ifdef WLED_ENABLE_USERMOD_PAGE
server.on("/u", HTTP_GET, [](AsyncWebServerRequest *request){
if (handleIfNoneMatchCacheHeader(request)) return;
AsyncWebServerResponse *response = request->beginResponse_P(200, "text/html", PAGE_usermod, PAGE_usermod_length);
response->addHeader(FPSTR(s_content_enc),"gzip");
setStaticContentCacheHeaders(response);
request->send(response);
//request->send_P(200, "text/html", PAGE_usermod);
});
//Deprecated, use of /json/state and presets recommended instead
server.on("/url", HTTP_GET, [](AsyncWebServerRequest *request){
URL_response(request);
});
#endif
server.on("/teapot", HTTP_GET, [](AsyncWebServerRequest *request){
serveMessage(request, 418, F("418. I'm a teapot."), F("(Tangible Embedded Advanced Project Of Twinkling)"), 254);
@ -346,9 +337,14 @@ void initServer()
serveMessage(request, 501, "Not implemented", F("DMX support is not enabled in this build."), 254);
});
#endif
server.on("/", HTTP_GET, [](AsyncWebServerRequest *request){
if (captivePortal(request)) return;
serveIndexOrWelcome(request);
if (!showWelcomePage || request->hasArg(F("sliders"))){
serveIndex(request);
} else {
serveSettings(request);
}
});
#ifdef WLED_ENABLE_PIXART
@ -362,6 +358,17 @@ void initServer()
});
#endif
#ifndef WLED_DISABLE_PXMAGIC
server.on("/pxmagic.htm", HTTP_GET, [](AsyncWebServerRequest *request){
if (handleFileRead(request, "/pxmagic.htm")) return;
if (handleIfNoneMatchCacheHeader(request)) return;
AsyncWebServerResponse *response = request->beginResponse_P(200, "text/html", PAGE_pxmagic, PAGE_pxmagic_L);
response->addHeader(FPSTR(s_content_enc),"gzip");
setStaticContentCacheHeaders(response);
request->send(response);
});
#endif
server.on("/cpal.htm", HTTP_GET, [](AsyncWebServerRequest *request){
if (handleFileRead(request, "/cpal.htm")) return;
if (handleIfNoneMatchCacheHeader(request)) return;
@ -399,20 +406,9 @@ void initServer()
response->addHeader(FPSTR(s_content_enc),"gzip");
setStaticContentCacheHeaders(response);
request->send(response);
//request->send_P(404, "text/html", PAGE_404);
});
}
void serveIndexOrWelcome(AsyncWebServerRequest *request)
{
if (!showWelcomePage){
serveIndex(request);
} else {
serveSettings(request);
}
}
bool handleIfNoneMatchCacheHeader(AsyncWebServerRequest* request)
{
AsyncWebHeader* header = request->getHeader("If-None-Match");
@ -554,64 +550,62 @@ void serveSettings(AsyncWebServerRequest* request, bool post)
if (url.indexOf("sett") >= 0)
{
if (url.indexOf(".js") > 0) subPage = 254;
else if (url.indexOf(".css") > 0) subPage = 253;
else if (url.indexOf("wifi") > 0) subPage = 1;
else if (url.indexOf("leds") > 0) subPage = 2;
else if (url.indexOf("ui") > 0) subPage = 3;
else if (url.indexOf("sync") > 0) subPage = 4;
else if (url.indexOf("time") > 0) subPage = 5;
else if (url.indexOf("sec") > 0) subPage = 6;
else if (url.indexOf("dmx") > 0) subPage = 7;
else if (url.indexOf("um") > 0) subPage = 8;
else if (url.indexOf("2D") > 0) subPage = 10;
else if (url.indexOf("lock") > 0) subPage = 251;
if (url.indexOf(".js") > 0) subPage = SUBPAGE_JS;
else if (url.indexOf(".css") > 0) subPage = SUBPAGE_CSS;
else if (url.indexOf("wifi") > 0) subPage = SUBPAGE_WIFI;
else if (url.indexOf("leds") > 0) subPage = SUBPAGE_LEDS;
else if (url.indexOf("ui") > 0) subPage = SUBPAGE_UI;
else if (url.indexOf("sync") > 0) subPage = SUBPAGE_SYNC;
else if (url.indexOf("time") > 0) subPage = SUBPAGE_TIME;
else if (url.indexOf("sec") > 0) subPage = SUBPAGE_SEC;
else if (url.indexOf("dmx") > 0) subPage = SUBPAGE_DMX;
else if (url.indexOf("um") > 0) subPage = SUBPAGE_UM;
else if (url.indexOf("2D") > 0) subPage = SUBPAGE_2D;
else if (url.indexOf("lock") > 0) subPage = SUBPAGE_LOCK;
}
else if (url.indexOf("/update") >= 0) subPage = 9; // update page, for PIN check
else if (url.indexOf("/update") >= 0) subPage = SUBPAGE_UPDATE; // update page, for PIN check
//else if (url.indexOf("/edit") >= 0) subPage = 10;
else subPage = 255; // welcome page
else subPage = SUBPAGE_WELCOME;
if (!correctPIN && strlen(settingsPIN) > 0 && (subPage > 0 && subPage < 11)) {
originalSubPage = subPage;
subPage = 252; // require PIN
subPage = SUBPAGE_PINREQ; // require PIN
}
// if OTA locked or too frequent PIN entry requests fail hard
if ((subPage == 1 && wifiLock && otaLock) || (post && !correctPIN && millis()-lastEditTime < 3000))
if ((subPage == SUBPAGE_WIFI && wifiLock && otaLock) || (post && !correctPIN && millis()-lastEditTime < PIN_RETRY_COOLDOWN))
{
serveMessage(request, 500, "Access Denied", FPSTR(s_unlock_ota), 254); return;
}
if (post) { //settings/set POST request, saving
if (subPage != 1 || !(wifiLock && otaLock)) handleSettingsSet(request, subPage);
if (subPage != SUBPAGE_WIFI || !(wifiLock && otaLock)) handleSettingsSet(request, subPage);
char s[32];
char s2[45] = "";
switch (subPage) {
case 1: strcpy_P(s, PSTR("WiFi")); strcpy_P(s2, PSTR("Please connect to the new IP (if changed)")); forceReconnect = true; break;
case 2: strcpy_P(s, PSTR("LED")); break;
case 3: strcpy_P(s, PSTR("UI")); break;
case 4: strcpy_P(s, PSTR("Sync")); break;
case 5: strcpy_P(s, PSTR("Time")); break;
case 6: strcpy_P(s, PSTR("Security")); if (doReboot) strcpy_P(s2, PSTR("Rebooting, please wait ~10 seconds...")); break;
case 7: strcpy_P(s, PSTR("DMX")); break;
case 8: strcpy_P(s, PSTR("Usermods")); break;
case 10: strcpy_P(s, PSTR("2D")); break;
case 252: strcpy_P(s, correctPIN ? PSTR("PIN accepted") : PSTR("PIN rejected")); break;
case SUBPAGE_WIFI : strcpy_P(s, PSTR("WiFi")); strcpy_P(s2, PSTR("Please connect to the new IP (if changed)")); forceReconnect = true; break;
case SUBPAGE_LEDS : strcpy_P(s, PSTR("LED")); break;
case SUBPAGE_UI : strcpy_P(s, PSTR("UI")); break;
case SUBPAGE_SYNC : strcpy_P(s, PSTR("Sync")); break;
case SUBPAGE_TIME : strcpy_P(s, PSTR("Time")); break;
case SUBPAGE_SEC : strcpy_P(s, PSTR("Security")); if (doReboot) strcpy_P(s2, PSTR("Rebooting, please wait ~10 seconds...")); break;
case SUBPAGE_DMX : strcpy_P(s, PSTR("DMX")); break;
case SUBPAGE_UM : strcpy_P(s, PSTR("Usermods")); break;
case SUBPAGE_2D : strcpy_P(s, PSTR("2D")); break;
case SUBPAGE_PINREQ : strcpy_P(s, correctPIN ? PSTR("PIN accepted") : PSTR("PIN rejected")); break;
}
if (subPage == 252) {
createEditHandler(correctPIN);
} else
strcat_P(s, PSTR(" settings saved."));
if (subPage != SUBPAGE_PINREQ) strcat_P(s, PSTR(" settings saved."));
if (subPage == 252 && correctPIN) {
if (subPage == SUBPAGE_PINREQ && correctPIN) {
subPage = originalSubPage; // on correct PIN load settings page the user intended
} else {
if (!s2[0]) strcpy_P(s2, s_redirecting);
serveMessage(request, 200, s, s2, (subPage == 1 || (subPage == 6 && doReboot)) ? 129 : (correctPIN ? 1 : 3));
bool redirectAfter9s = (subPage == SUBPAGE_WIFI || ((subPage == SUBPAGE_SEC || subPage == SUBPAGE_UM) && doReboot));
serveMessage(request, 200, s, s2, redirectAfter9s ? 129 : (correctPIN ? 1 : 3));
return;
}
}
@ -619,30 +613,30 @@ void serveSettings(AsyncWebServerRequest* request, bool post)
AsyncWebServerResponse *response;
switch (subPage)
{
case 1: response = request->beginResponse_P(200, "text/html", PAGE_settings_wifi, PAGE_settings_wifi_length); break;
case 2: response = request->beginResponse_P(200, "text/html", PAGE_settings_leds, PAGE_settings_leds_length); break;
case 3: response = request->beginResponse_P(200, "text/html", PAGE_settings_ui, PAGE_settings_ui_length); break;
case 4: response = request->beginResponse_P(200, "text/html", PAGE_settings_sync, PAGE_settings_sync_length); break;
case 5: response = request->beginResponse_P(200, "text/html", PAGE_settings_time, PAGE_settings_time_length); break;
case 6: response = request->beginResponse_P(200, "text/html", PAGE_settings_sec, PAGE_settings_sec_length); break;
case SUBPAGE_WIFI : response = request->beginResponse_P(200, "text/html", PAGE_settings_wifi, PAGE_settings_wifi_length); break;
case SUBPAGE_LEDS : response = request->beginResponse_P(200, "text/html", PAGE_settings_leds, PAGE_settings_leds_length); break;
case SUBPAGE_UI : response = request->beginResponse_P(200, "text/html", PAGE_settings_ui, PAGE_settings_ui_length); break;
case SUBPAGE_SYNC : response = request->beginResponse_P(200, "text/html", PAGE_settings_sync, PAGE_settings_sync_length); break;
case SUBPAGE_TIME : response = request->beginResponse_P(200, "text/html", PAGE_settings_time, PAGE_settings_time_length); break;
case SUBPAGE_SEC : response = request->beginResponse_P(200, "text/html", PAGE_settings_sec, PAGE_settings_sec_length); break;
#ifdef WLED_ENABLE_DMX
case 7: response = request->beginResponse_P(200, "text/html", PAGE_settings_dmx, PAGE_settings_dmx_length); break;
case SUBPAGE_DMX : response = request->beginResponse_P(200, "text/html", PAGE_settings_dmx, PAGE_settings_dmx_length); break;
#endif
case 8: response = request->beginResponse_P(200, "text/html", PAGE_settings_um, PAGE_settings_um_length); break;
case 9: response = request->beginResponse_P(200, "text/html", PAGE_update, PAGE_update_length); break;
case SUBPAGE_UM : response = request->beginResponse_P(200, "text/html", PAGE_settings_um, PAGE_settings_um_length); break;
case SUBPAGE_UPDATE : response = request->beginResponse_P(200, "text/html", PAGE_update, PAGE_update_length); break;
#ifndef WLED_DISABLE_2D
case 10: response = request->beginResponse_P(200, "text/html", PAGE_settings_2D, PAGE_settings_2D_length); break;
case SUBPAGE_2D : response = request->beginResponse_P(200, "text/html", PAGE_settings_2D, PAGE_settings_2D_length); break;
#endif
case 251: {
case SUBPAGE_LOCK : {
correctPIN = !strlen(settingsPIN); // lock if a pin is set
createEditHandler(correctPIN);
serveMessage(request, 200, strlen(settingsPIN) > 0 ? PSTR("Settings locked") : PSTR("No PIN set"), FPSTR(s_redirecting), 1);
return;
}
case 252: response = request->beginResponse_P(200, "text/html", PAGE_settings_pin, PAGE_settings_pin_length); break;
case 253: response = request->beginResponse_P(200, "text/css", PAGE_settingsCss, PAGE_settingsCss_length); break;
case 254: serveSettingsJS(request); return;
case 255: response = request->beginResponse_P(200, "text/html", PAGE_welcome, PAGE_welcome_length); break;
case SUBPAGE_PINREQ : response = request->beginResponse_P(200, "text/html", PAGE_settings_pin, PAGE_settings_pin_length); break;
case SUBPAGE_CSS : response = request->beginResponse_P(200, "text/css", PAGE_settingsCss, PAGE_settingsCss_length); break;
case SUBPAGE_JS : serveSettingsJS(request); return;
case SUBPAGE_WELCOME : response = request->beginResponse_P(200, "text/html", PAGE_welcome, PAGE_welcome_length); break;
default: response = request->beginResponse_P(200, "text/html", PAGE_settings, PAGE_settings_length); break;
}
response->addHeader(FPSTR(s_content_enc),"gzip");

9
wled00/ws.cpp
View File

@ -54,14 +54,15 @@ void wsEvent(AsyncWebSocket * server, AsyncWebSocketClient * client, AwsEventTyp
}
releaseJSONBufferLock(); // will clean fileDoc
// force broadcast in 500ms after updating client
if (!interfaceUpdateCallMode) { // individual client response only needed if no WS broadcast soon
if (verboseResponse) {
sendDataWs(client);
lastInterfaceUpdate = millis() - (INTERFACE_UPDATE_COOLDOWN -500);
} else {
// we have to send something back otherwise WS connection closes
client->text(F("{\"success\":true}"));
lastInterfaceUpdate = millis() - (INTERFACE_UPDATE_COOLDOWN -500);
}
// force broadcast in 500ms after updating client
//lastInterfaceUpdate = millis() - (INTERFACE_UPDATE_COOLDOWN -500); // ESP8266 does not like this
}
}
} else {
@ -78,7 +79,7 @@ void wsEvent(AsyncWebSocket * server, AsyncWebSocketClient * client, AwsEventTyp
if((info->index + len) == info->len){
if(info->final){
if(info->message_opcode == WS_TEXT) {
client->text(F("{\"error\":9}")); //we do not handle split packets right now
client->text(F("{\"error\":9}")); // ERR_JSON we do not handle split packets right now
}
}
}

97
wled00/xml.cpp
View File

@ -72,55 +72,6 @@ void XML_response(AsyncWebServerRequest *request, char* dest)
if (request != nullptr) request->send(200, "text/xml", obuf);
}
//Deprecated, use of /json/state and presets recommended instead
void URL_response(AsyncWebServerRequest *request)
{
char sbuf[256];
char s2buf[100];
obuf = s2buf;
olen = 0;
char s[16];
oappend(SET_F("http://"));
IPAddress localIP = Network.localIP();
sprintf(s, "%d.%d.%d.%d", localIP[0], localIP[1], localIP[2], localIP[3]);
oappend(s);
oappend(SET_F("/win&A="));
oappendi(bri);
oappend(SET_F("&CL=h"));
for (int i = 0; i < 3; i++)
{
sprintf(s,"%02X", col[i]);
oappend(s);
}
oappend(SET_F("&C2=h"));
for (int i = 0; i < 3; i++)
{
sprintf(s,"%02X", colSec[i]);
oappend(s);
}
oappend(SET_F("&FX="));
oappendi(effectCurrent);
oappend(SET_F("&SX="));
oappendi(effectSpeed);
oappend(SET_F("&IX="));
oappendi(effectIntensity);
oappend(SET_F("&FP="));
oappendi(effectPalette);
obuf = sbuf;
olen = 0;
oappend(SET_F("<html><body><a href=\""));
oappend(s2buf);
oappend(SET_F("\" target=\"_blank\">"));
oappend(s2buf);
oappend(SET_F("</a></body></html>"));
if (request != nullptr) request->send(200, "text/html", obuf);
}
void extractPin(JsonObject &obj, const char *key) {
if (obj[key].is<JsonArray>()) {
JsonArray pins = obj[key].as<JsonArray>();
@ -197,7 +148,7 @@ void appendGPIOinfo() {
#elif defined(CONFIG_IDF_TARGET_ESP32C3)
oappend(SET_F("d.rsvd=[11,12,13,14,15,16,17"));
#elif defined(ESP32)
oappend(SET_F("d.rsvd=[6,7,8,9,10,11,24,28,29,30,31"));
oappend(SET_F("d.rsvd=[6,7,8,9,10,11,24,28,29,30,31,37,38"));
#else
oappend(SET_F("d.rsvd=[6,7,8,9,10,11"));
#endif
@ -212,7 +163,7 @@ void appendGPIOinfo() {
//Note: Using pin 3 (RX) disables Adalight / Serial JSON
#if defined(ARDUINO_ARCH_ESP32) && defined(WLED_USE_PSRAM)
#if defined(ARDUINO_ARCH_ESP32) && defined(BOARD_HAS_PSRAM)
#if !defined(CONFIG_IDF_TARGET_ESP32S2) && !defined(CONFIG_IDF_TARGET_ESP32S3) && !defined(CONFIG_IDF_TARGET_ESP32C3)
if (psramFound()) oappend(SET_F(",16,17")); // GPIO16 & GPIO17 reserved for SPI RAM on ESP32 (not on S2, S3 or C3)
#elif defined(CONFIG_IDF_TARGET_ESP32S3)
@ -285,7 +236,7 @@ void getSettingsJS(byte subPage, char* dest)
if (subPage <0 || subPage >10) return;
if (subPage == 0)
if (subPage == SUBPAGE_MENU)
{
#ifndef WLED_DISABLE_2D // include only if 2D is compiled in
oappend(PSTR("gId('2dbtn').style.display='';"));
@ -295,7 +246,7 @@ void getSettingsJS(byte subPage, char* dest)
#endif
}
if (subPage == 1)
if (subPage == SUBPAGE_WIFI)
{
sappends('s',SET_F("CS"),clientSSID);
@ -328,6 +279,14 @@ void getSettingsJS(byte subPage, char* dest)
sappend('v',SET_F("AC"),apChannel);
sappend('c',SET_F("WS"),noWifiSleep);
#ifndef WLED_DISABLE_ESPNOW
sappend('c',SET_F("RE"),enable_espnow_remote);
sappends('s',SET_F("RMAC"),linked_remote);
#else
//hide remote settings if not compiled
oappend(SET_F("document.getElementById('remd').style.display='none';"));
#endif
#ifdef WLED_USE_ETHERNET
sappend('v',SET_F("ETH"),ethernetType);
#else
@ -360,9 +319,22 @@ void getSettingsJS(byte subPage, char* dest)
{
sappends('m',SET_F("(\"sip\")[1]"),(char*)F("Not active"));
}
#ifndef WLED_DISABLE_ESPNOW
if (last_signal_src[0] != 0) //Have seen an ESP-NOW Remote
{
sappends('m',SET_F("(\"rlid\")[0]"),last_signal_src);
} else if (!enable_espnow_remote)
{
sappends('m',SET_F("(\"rlid\")[0]"),(char*)F("(Enable remote to listen)"));
} else
{
sappends('m',SET_F("(\"rlid\")[0]"),(char*)F("None"));
}
#endif
}
if (subPage == 2)
if (subPage == SUBPAGE_LEDS)
{
char nS[32];
@ -493,7 +465,7 @@ void getSettingsJS(byte subPage, char* dest)
sappend('c',SET_F("MSO"),!irApplyToAllSelected);
}
if (subPage == 3)
if (subPage == SUBPAGE_UI)
{
sappends('s',SET_F("DS"),serverDescription);
sappend('c',SET_F("ST"),syncToggleReceive);
@ -504,7 +476,7 @@ void getSettingsJS(byte subPage, char* dest)
#endif
}
if (subPage == 4)
if (subPage == SUBPAGE_SYNC)
{
sappend('v',SET_F("UP"),udpPort);
sappend('v',SET_F("U2"),udpPort2);
@ -561,6 +533,7 @@ void getSettingsJS(byte subPage, char* dest)
sappends('s',"MD",mqttDeviceTopic);
sappends('s',SET_F("MG"),mqttGroupTopic);
sappend('c',SET_F("BM"),buttonPublishMqtt);
sappend('c',SET_F("RT"),retainMqttMsg);
#else
oappend(SET_F("toggle('MQTT');")); // hide MQTT settings
#endif
@ -596,7 +569,7 @@ void getSettingsJS(byte subPage, char* dest)
sappend('v',SET_F("BD"),serialBaud);
}
if (subPage == 5)
if (subPage == SUBPAGE_TIME)
{
sappend('c',SET_F("NT"),ntpEnabled);
sappends('s',SET_F("NS"),ntpServerName);
@ -660,7 +633,7 @@ void getSettingsJS(byte subPage, char* dest)
}
}
if (subPage == 6)
if (subPage == SUBPAGE_SEC)
{
byte l = strlen(settingsPIN);
char fpass[l+1]; //fill PIN field with 0000
@ -682,7 +655,7 @@ void getSettingsJS(byte subPage, char* dest)
}
#ifdef WLED_ENABLE_DMX // include only if DMX is enabled
if (subPage == 7)
if (subPage == SUBPAGE_DMX)
{
sappend('v',SET_F("PU"),e131ProxyUniverse);
@ -709,7 +682,7 @@ void getSettingsJS(byte subPage, char* dest)
}
#endif
if (subPage == 8) //usermods
if (subPage == SUBPAGE_UM) //usermods
{
appendGPIOinfo();
oappend(SET_F("numM="));
@ -728,7 +701,7 @@ void getSettingsJS(byte subPage, char* dest)
usermods.appendConfigData();
}
if (subPage == 9) // update
if (subPage == SUBPAGE_UPDATE) // update
{
sappends('m',SET_F("(\"sip\")[0]"),(char*)F("WLED "));
olen -= 2; //delete ";
@ -744,7 +717,7 @@ void getSettingsJS(byte subPage, char* dest)
oappend(SET_F(")\";"));
}
if (subPage == 10) // 2D matrices
if (subPage == SUBPAGE_2D) // 2D matrices
{
sappend('v',SET_F("SOMP"),strip.isMatrix);
#ifndef WLED_DISABLE_2D