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Updated [env] for Universal Wemos Shield board (#2049)

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* Added support for H803FW controller

* Create usermod_bme280.cpp

* Create usermod_bme280.cpp

* Added BME280 sensor

* Update readme.md

* Update usermod_bme280.cpp

* Update platformio.ini

* Update for lightweight sensor

* Added travis build badge

* Update readme.md

* Update readme.md

* Update .gitignore

* Changed ldscript for a file system

* Update NpbWrapper.h

* Update .gitignore

* Delete wled-ci.yml

* Added usermod for ST7789 display

Functionality tested with ESP32. Works with main WLED and @blazoncek fork.

* fixes

* Update .gitignore

* Firmware updates!!!

Updated official @Aircoookie firmware to v0.12.0-b4 build 2103290 and developer @blazoncek firmware to latest v0.12.0-b3 build 2103282.

* Updated platformio.ini for Universal Wemos Shield board
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17
platformio.ini
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@ -417,11 +417,21 @@ lib_ignore =
[env:wemos_shield_esp32]
board = esp32dev
platform = espressif32@3.2
upload_port = /dev/cu.SLAB_USBtoUART
monitor_port = /dev/cu.SLAB_USBtoUART
upload_speed = 460800
build_unflags = ${common.build_unflags}
build_flags = ${common.build_flags_esp32} -D LEDPIN=16 -D RLYPIN=19 -D BTNPIN=17
build_flags = ${common.build_flags_esp32}
-D LEDPIN=16
-D RLYPIN=19
-D BTNPIN=17
-D UWLED_USE_MY_CONFIG
; -D USERMOD_DALLASTEMPERATURE
; -D USERMOD_DALLASTEMPERATURE_CELCIUS
; -D USERMOD_FOUR_LINE_DISPLAY
; -D TEMPERATURE_PIN=21
lib_deps = ${env.lib_deps}
; OneWire@~2.3.5
; milesburton/DallasTemperature@^3.9.0
; U8g2@~2.27.2
lib_ignore =
ESPAsyncTCP
ESPAsyncUDP
@ -511,3 +521,4 @@ monitor_filters = esp32_exception_decoder
lib_ignore =
ESPAsyncTCP
ESPAsyncUDP

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readme.md
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@ -9,7 +9,6 @@
<a href="https://gitpod.io/#https://github.com/Aircoookie/WLED"><img src="https://img.shields.io/badge/Gitpod-ready--to--code-blue?style=flat-square&logo=gitpod"></a>
</p>
# Welcome to my project WLED! ✨
A fast and feature-rich implementation of an ESP8266/ESP32 webserver to control NeoPixel (WS2812B, WS2811, SK6812) LEDs or also SPI based chipsets like the WS2801 and APA102!

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# ST7789 TFT IPS Color display 240x240pxwith ESP32 boards
This usermod allow to use 240x240 display to display following:
* Network SSID;
* IP address;
* Brightness;
* Chosen effect;
* Chosen palette;
* Estimated current in mA;
## Hardware
***
![Hardware](images/ST7789_guide.jpg)
## Library used
[Bodmer/TFT_eSPI](https://github.com/Bodmer/TFT_eSPI)
## Setup
***
### Platformio.ini changes
In the `platformio.ini` file, uncomment the `TFT_eSPI` line within the [common] section, under `lib_deps`:
```ini
# platformio.ini
...
[common]
...
lib_deps =
...
#For use of the TTGO T-Display ESP32 Module with integrated TFT display uncomment the following line
#TFT_eSPI
...
```
Also, while in the `platformio.ini` file, you must change the environment setup to build for just the esp32dev platform as follows:
Add lines to section:
```ini
default_envs = esp32dev
build_flags = ${common.build_flags_esp32}
-D USERMOD_ST7789_DISPLAY
```
Save the `platformio.ini` file. Once this is saved, the required library files should be automatically downloaded for modifications in a later step.
### TFT_eSPI Library Adjustments
We need to modify a file in the `TFT_eSPI` library. If you followed the directions to modify and save the `platformio.ini` file above, the `User_Setup_Select.h` file can be found in the `/.pio/libdeps/esp32dev/TFT_eSPI` folder.
Modify the `User_Setup_Select.h` file as follows:
* Comment out the following line (which is the 'default' setup file):
```ini
//#include <User_Setup.h> // Default setup is root library folder
```
* Add following line:
```ini
#include <User_Setups/Setup_ST7789_Display.h> // Setup file for ESP32 ST7789V SPI bus TFT
```
* Copy file `"Setup_ST7789_Display.h"` from usermod folder to `/.pio/libdeps/esp32dev/TFT_eSPI/User_Setups`

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usermods/ST7789_display/ST7789_display.h Normal file
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// Credits to @mrVanboy, @gwaland and my dearest friend @westward
// Also for @spiff72 for usermod TTGO-T-Display
// 210217
#pragma once
#include "wled.h"
#include <TFT_eSPI.h>
#include <SPI.h>
#define USERMOD_ST7789_DISPLAY 97
#ifndef TFT_DISPOFF
#define TFT_DISPOFF 0x28
#endif
#ifndef TFT_SLPIN
#define TFT_SLPIN 0x10
#endif
#define TFT_MOSI 21
#define TFT_SCLK 22
#define TFT_DC 18
#define TFT_RST 5
#define TFT_BL 26 // Display backlight control pin
TFT_eSPI tft = TFT_eSPI(240, 240); // Invoke custom library
// How often we are redrawing screen
#define USER_LOOP_REFRESH_RATE_MS 1000
//class name. Use something descriptive and leave the ": public Usermod" part :)
class St7789DisplayUsermod : public Usermod {
private:
//Private class members. You can declare variables and functions only accessible to your usermod here
unsigned long lastTime = 0;
bool displayTurnedOff = false;
long lastRedraw = 0;
// needRedraw marks if redraw is required to prevent often redrawing.
bool needRedraw = true;
// Next variables hold the previous known values to determine if redraw is required.
String knownSsid = "";
IPAddress knownIp;
uint8_t knownBrightness = 0;
uint8_t knownMode = 0;
uint8_t knownPalette = 0;
uint8_t tftcharwidth = 19; // Number of chars that fit on screen with text size set to 2
long lastUpdate = 0;
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()
{
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.
tft.fillScreen(TFT_BLACK);
tft.setTextColor(TFT_RED);
tft.setCursor(60, 100);
tft.setTextDatum(MC_DATUM);
tft.setTextSize(2);
tft.print("Loading...");
if (TFT_BL > 0)
{ // TFT_BL has been set in the TFT_eSPI library
pinMode(TFT_BL, OUTPUT); // Set backlight pin to output mode
digitalWrite(TFT_BL, HIGH); // Turn backlight on.
}
}
/*
* 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.
*
* Tips:
* 1. You can use "if (WLED_CONNECTED)" to check for a successful network connection.
* Additionally, "if (WLED_MQTT_CONNECTED)" is available to check for a connection to an MQTT broker.
*
* 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() {
// Check if we time interval for redrawing passes.
if (millis() - lastUpdate < USER_LOOP_REFRESH_RATE_MS)
{
return;
}
lastUpdate = millis();
// Turn off display after 5 minutes with no change.
if(!displayTurnedOff && millis() - lastRedraw > 5*60*1000)
{
digitalWrite(TFT_BL, LOW); // Turn backlight off.
displayTurnedOff = true;
}
// Check if values which are shown on display changed from the last time.
if (((apActive) ? String(apSSID) : WiFi.SSID()) != knownSsid)
{
needRedraw = true;
}
else if (knownIp != (apActive ? IPAddress(4, 3, 2, 1) : WiFi.localIP()))
{
needRedraw = true;
}
else if (knownBrightness != bri)
{
needRedraw = true;
}
else if (knownMode != strip.getMode())
{
needRedraw = true;
}
else if (knownPalette != strip.getSegment(0).palette)
{
needRedraw = true;
}
if (!needRedraw)
{
return;
}
needRedraw = false;
if (displayTurnedOff)
{
digitalWrite(TFT_BL, TFT_BACKLIGHT_ON); // Turn backlight on.
displayTurnedOff = false;
}
lastRedraw = millis();
// Update last known values.
#if defined(ESP8266)
knownSsid = apActive ? WiFi.softAPSSID() : WiFi.SSID();
#else
knownSsid = WiFi.SSID();
#endif
knownIp = apActive ? IPAddress(4, 3, 2, 1) : WiFi.localIP();
knownBrightness = bri;
knownMode = strip.getMode();
knownPalette = strip.getSegment(0).palette;
tft.fillScreen(TFT_BLACK);
tft.setTextSize(2);
// First row with Wifi name
tft.setTextColor(TFT_SILVER);
tft.setCursor(3, 40);
tft.print(knownSsid.substring(0, tftcharwidth > 1 ? tftcharwidth - 1 : 0));
// Print `~` char to indicate that SSID is longer, than our dicplay
if (knownSsid.length() > tftcharwidth)
tft.print("~");
// Second row with AP IP and Password or IP
tft.setTextColor(TFT_GREEN);
tft.setTextSize(2);
tft.setCursor(3, 64);
// Print AP IP and password in AP mode or knownIP if AP not active.
if (apActive)
{
tft.setTextColor(TFT_YELLOW);
tft.print("AP IP: ");
tft.print(knownIp);
tft.setCursor(3,86);
tft.setTextColor(TFT_YELLOW);
tft.print("AP Pass:");
tft.print(apPass);
}
else
{
tft.setTextColor(TFT_GREEN);
tft.print("IP: ");
tft.print(knownIp);
tft.setCursor(3,86);
//tft.print("Signal Strength: ");
//tft.print(i.wifi.signal);
tft.setTextColor(TFT_WHITE);
tft.print("Bri: ");
tft.print(((float(bri)/255)*100),0);
tft.print("%");
}
// Third row with mode name
tft.setCursor(3, 108);
uint8_t qComma = 0;
bool insideQuotes = false;
uint8_t printedChars = 0;
char singleJsonSymbol;
// Find the mode name in JSON
for (size_t i = 0; i < strlen_P(JSON_mode_names); i++)
{
singleJsonSymbol = pgm_read_byte_near(JSON_mode_names + i);
switch (singleJsonSymbol)
{
case '"':
insideQuotes = !insideQuotes;
break;
case '[':
case ']':
break;
case ',':
qComma++;
default:
if (!insideQuotes || (qComma != knownMode))
break;
tft.setTextColor(TFT_MAGENTA);
tft.print(singleJsonSymbol);
printedChars++;
}
if ((qComma > knownMode) || (printedChars > tftcharwidth - 1))
break;
}
// Fourth row with palette name
tft.setTextColor(TFT_YELLOW);
tft.setCursor(3, 130);
qComma = 0;
insideQuotes = false;
printedChars = 0;
// Looking for palette name in JSON.
for (size_t i = 0; i < strlen_P(JSON_palette_names); i++)
{
singleJsonSymbol = pgm_read_byte_near(JSON_palette_names + i);
switch (singleJsonSymbol)
{
case '"':
insideQuotes = !insideQuotes;
break;
case '[':
case ']':
break;
case ',':
qComma++;
default:
if (!insideQuotes || (qComma != knownPalette))
break;
tft.print(singleJsonSymbol);
printedChars++;
}
// The following is modified from the code from the u8g2/u8g8 based code (knownPalette was knownMode)
if ((qComma > knownPalette) || (printedChars > tftcharwidth - 1))
break;
}
// Fifth row with estimated mA usage
tft.setTextColor(TFT_SILVER);
tft.setCursor(3, 152);
// Print estimated milliamp usage (must specify the LED type in LED prefs for this to be a reasonable estimate).
tft.print("Current: ");
tft.print(strip.currentMilliamps);
tft.print("mA");
}
/*
* 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)
{
int reading = 20;
//this code adds "u":{"Light":[20," lux"]} to the info object
JsonObject user = root["u"];
if (user.isNull()) user = root.createNestedObject("u");
JsonArray lightArr = user.createNestedArray("Light"); //name
lightArr.add(reading); //value
lightArr.add(" lux"); //unit
}
*/
/*
* 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)
{
//root["user0"] = userVar0;
}
/*
* 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)
{
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!"));
}
/*
* 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)
{
JsonObject top = root.createNestedObject("exampleUsermod");
top["great"] = userVar0; //save this var persistently whenever settings are saved
}
/*
* 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 :)
*/
void readFromConfig(JsonObject& root)
{
JsonObject top = root["top"];
userVar0 = top["great"] | 42; //The value right of the pipe "|" is the default value in case your setting was not present in cfg.json (e.g. first boot)
}
/*
* 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_ST7789_DISPLAY;
}
//More methods can be added in the future, this example will then be extended.
//Your usermod will remain compatible as it does not need to implement all methods from the Usermod base class!
};

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// Setup for the ESP32 board with 1.5" 240x240 display
// See SetupX_Template.h for all options available
#define ST7789_DRIVER
#define TFT_SDA_READ // Display has a bidirectionsl SDA pin
#define TFT_WIDTH 240
#define TFT_HEIGHT 240
#define CGRAM_OFFSET // Library will add offsets required
//#define TFT_MISO -1
#define TFT_MOSI 21
#define TFT_SCLK 22
//#define TFT_CS 5
#define TFT_DC 18
#define TFT_RST 5
#define TFT_BL 26 // Display backlight control pin
#define TFT_BACKLIGHT_ON HIGH // HIGH or LOW are options
#define LOAD_GLCD
#define LOAD_FONT2
#define LOAD_FONT4
#define LOAD_FONT6
#define LOAD_FONT7
#define LOAD_FONT8
#define LOAD_GFXFF
//#define SMOOTH_FONT
//#define SPI_FREQUENCY 27000000
#define SPI_FREQUENCY 40000000 // Maximum for ILI9341
#define SPI_READ_FREQUENCY 6000000 // 6 MHz is the maximum SPI read speed for the ST7789V

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