sdcard & rgbled fixes

This commit is contained in:
cyberman54 2022-10-31 16:04:09 +01:00
parent ef68179b85
commit 8bb2c75338
15 changed files with 210 additions and 288 deletions

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@ -5,7 +5,9 @@
#include <Arduino.h> #include <Arduino.h>
// Time functions // Time functions
#ifdef HAS_RTC
#include <RtcDateTime.h> #include <RtcDateTime.h>
#endif
#include <Ticker.h> #include <Ticker.h>
// std::set for unified array functions // std::set for unified array functions

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@ -1,8 +1,9 @@
#ifndef _LED_H #ifndef _LED_H
#define _LED_H #define _LED_H
#ifdef RGB_LED_COUNT #ifdef HAS_RGB_LED
#include <SmartLeds.h> #include <FastLED.h>
#include "libpax_helpers.h"
#endif #endif
#ifdef HAS_LORA #ifdef HAS_LORA
#include "lorawan.h" #include "lorawan.h"
@ -12,39 +13,13 @@
#define RGB_LED_COUNT 1 #define RGB_LED_COUNT 1
#endif #endif
// value for HSL color
// see http://www.workwithcolor.com/blue-color-hue-range-01.htm
#define COLOR_RED 0
#define COLOR_ORANGE 30
#define COLOR_ORANGE_YELLOW 45
#define COLOR_YELLOW 60
#define COLOR_YELLOW_GREEN 90
#define COLOR_GREEN 120
#define COLOR_GREEN_CYAN 165
#define COLOR_CYAN 180
#define COLOR_CYAN_BLUE 210
#define COLOR_BLUE 240
#define COLOR_BLUE_MAGENTA 275
#define COLOR_MAGENTA 300
#define COLOR_PINK 350
#define COLOR_WHITE 360
#define COLOR_NONE 999
struct RGBColor {
uint8_t R;
uint8_t G;
uint8_t B;
};
enum led_states { LED_OFF, LED_ON }; enum led_states { LED_OFF, LED_ON };
extern TaskHandle_t ledLoopTask; extern TaskHandle_t ledLoopTask;
// Exported Functions void rgb_led_init(void);
void rgb_set_color(uint16_t hue); void led_sethue(uint8_t hue);
void blink_LED(uint16_t set_color, uint16_t set_blinkduration);
void ledLoop(void *parameter); void ledLoop(void *parameter);
void switch_LED(uint8_t state); void switch_LED(led_states state);
void switch_LED1(uint8_t state); void switch_LED1(led_states state);
#endif #endif

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@ -33,6 +33,10 @@
#elif HAS_SDCARD == 2 // MMC interface #elif HAS_SDCARD == 2 // MMC interface
#include "driver/sdmmc_host.h" #include "driver/sdmmc_host.h"
#ifndef SDCARD_SLOTCONFIG
#define SDCARD_SLOTCONFIG SDMMC_SLOT_CONFIG_DEFAULT()
#endif
#ifndef SDCARD_SLOTWIDTH #ifndef SDCARD_SLOTWIDTH
#define SDCARD_SLOTWIDTH 1 #define SDCARD_SLOTWIDTH 1
#endif #endif

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@ -0,0 +1,62 @@
[board]
halfile = ttgotdongles3.h
;halfile = ttgotdongledisplays3.h
[platformio]
; upload firmware to board with usb cable
default_envs = usb
description = Paxcounter is a device for metering passenger flows in realtime. It counts how many mobile devices are around.
[common]
; for release_version use max. 10 chars total, use any decimal format like "a.b.c"
release_version = 3.3.2
; DEBUG LEVEL: For production run set to 0, otherwise device will leak RAM while running!
; 0=None, 1=Error, 2=Warn, 3=Info, 4=Debug, 5=Verbose
debug_level = 5
extra_scripts = pre:build.py
otakeyfile = ota.conf
lorakeyfile = loraconf.h
lmicconfigfile = lmic_config.h
platform_espressif32 = espressif32@5.2.0
monitor_speed = 115200
upload_speed = 115200 ; set by build.py and taken from hal file
lib_deps_all =
bitbank2/BitBang_I2C@^2.2.1
https://github.com/bitbank2/bb_spi_lcd.git
;https://github.com/RoboticsBrno/SmartLeds.git
;greyrook/libpax @ ^1.0.1
https://github.com/cyberman54/libpax.git
https://github.com/SukkoPera/Arduino-Rokkit-Hash.git
bblanchon/ArduinoJson @ ^6
spacehuhn/SimpleButton
256dpi/MQTT @ ^2.5.0
build_flags_basic =
-include "src/hal/${board.halfile}"
-include "src/paxcounter.conf"
'-DCORE_DEBUG_LEVEL=${common.debug_level}'
'-DLOG_LOCAL_LEVEL=${common.debug_level}'
'-DPROGVERSION="${common.release_version}"'
'-D LIBPAX_WIFI'
'-D LIBPAX_BLE'
'-D LIBPAX_ARDUINO'
build_flags_all =
${common.build_flags_basic}
-mfix-esp32-psram-cache-issue
[env]
framework = arduino
board = ESP32-S3-DevKitC-1
board_build.partitions = min_spiffs.csv
build_type = release
upload_speed = ${common.upload_speed}
;upload_port = COM6
platform = ${common.platform_espressif32}
lib_deps = ${common.lib_deps_all}
build_flags = ${common.build_flags_all}
upload_protocol = ${common.upload_protocol}
extra_scripts = ${common.extra_scripts}
monitor_speed = ${common.monitor_speed}
monitor_filters = time, esp32_exception_decoder, default
[env:usb]
upload_protocol = esptool

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@ -1,24 +0,0 @@
// clang-format off
// upload_speed 1500000
// board ESP32-S3-DevKitC-1
#ifndef _TTGOTDISPLAYS3_H
#define _TTGOTDISPLAYS3_H
#include <stdint.h>
#define HAS_LED NOT_A_PIN
#define HAS_BUTTON 14 // on board button (right side)
// power management settings
//#define BAT_MEASURE_ADC ADC1_GPIO4_CHANNEL // battery probe GPIO pin -> ADC1_CHANNEL_6
//#define BAT_VOLTAGE_DIVIDER 2.605f // voltage divider
// Display Settings
#define HAS_DISPLAY 2 // TFT-LCD parallel
#define TFT_TYPE DISPLAY_T_DISPLAY_S3
#define MY_DISPLAY_FLIP 1 // use if display is rotated
#define MY_DISPLAY_WIDTH 172
#define MY_DISPLAY_HEIGHT 320
#endif

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@ -0,0 +1,31 @@
// clang-format off
// upload_speed 1500000
// board ESP32-S3-DevKitC-1
// see https://github.com/Xinyuan-LilyGO/T-Dongle-S3
#ifndef _TTGOTDONGLES3_H
#define _TTGOTDONGLES3_H
#include <stdint.h>
#define HAS_LED NOT_A_PIN
#define HAS_BUTTON 0
#define HAS_SDCARD 2 // this board has a SD MMC card-reader/writer
#define SDCARD_SLOTWIDTH 4 // 4-line interface
#define HAS_DISPLAY 2 // TFT-LCD
#define TFT_TYPE DISPLAY_TDONGLE_S3
#define MY_DISPLAY_FLIP 1 // use if display is rotated
#define MY_DISPLAY_WIDTH 80
#define MY_DISPLAY_HEIGHT 160
#define TFT_CS_PIN 4
#define TFT_SDA_PIN 3
#define TFT_SCL_PIN 5
#define TFT_DC_PIN 2
#define TFT_RES_PIN 1
#define TFT_LEDA_PIN 38
#endif

21
src/hal/ttgotdongles3.h Normal file
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@ -0,0 +1,21 @@
// clang-format off
// upload_speed 1500000
// board ESP32-S3-DevKitC-1
// for pinouts see https://github.com/Xinyuan-LilyGO/T-Dongle-S3
#ifndef _TTGOTDONGLES3_H
#define _TTGOTDONGLES3_H
#include <stdint.h>
#define HAS_LED NOT_A_PIN
#define RGB_LED_COUNT 1
#define HAS_RGB_LED FastLED.addLeds<APA102, 40, 39, BGR>(leds, RGB_LED_COUNT)
#define FASTLED_INTERNAL
#define HAS_BUTTON 0 // dongle button is on GPIO0
#define HAS_SDCARD 2 // dongle has a SD MMC card-reader/writer
#define SDCARD_SLOTWIDTH 4 // dongle has 4 line interface
#define SDCARD_SLOTCONFIG { .clk = GPIO_NUM_12, .cmd = GPIO_NUM_16, .d0 = GPIO_NUM_14, .d1 = GPIO_NUM_17, .d2 = GPIO_NUM_21, .d3 = GPIO_NUM_18, .cd = SDMMC_SLOT_NO_CD, .wp = SDMMC_SLOT_NO_WP, .width = 4, .flags = 0, }
#endif

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@ -2,94 +2,44 @@
#include "globals.h" #include "globals.h"
#include "led.h" #include "led.h"
led_states LEDState = LED_OFF; // LED state global for state machine static led_states LEDState = LED_OFF; // LED state global for state machine
led_states previousLEDState =
LED_ON; // This will force LED to be off at boot since State is OFF
TaskHandle_t ledLoopTask; TaskHandle_t ledLoopTask;
static uint16_t LEDBlinkDuration = 0; // state machine variables
uint16_t LEDColor = COLOR_NONE, LEDBlinkDuration = 0; // state machine variables static unsigned long LEDBlinkStarted =
unsigned long LEDBlinkStarted = 0; // When (in millis() led blink started) 0; // When (in millis() led blink started)
#ifdef HAS_RGB_LED #ifdef HAS_RGB_LED
CRGB leds[RGB_LED_COUNT];
// RGB Led instance
HAS_RGB_LED;
float rgb_CalcColor(float p, float q, float t) {
if (t < 0.0f)
t += 1.0f;
if (t > 1.0f)
t -= 1.0f;
if (t < 1.0f / 6.0f)
return p + (q - p) * 6.0f * t;
if (t < 0.5f)
return q;
if (t < 2.0f / 3.0f)
return p + ((q - p) * (2.0f / 3.0f - t) * 6.0f);
return p;
}
// ------------------------------------------------------------------------
// Hue, Saturation, Lightness color members
// HslColor using H, S, L values (0.0 - 1.0)
// L should be limited to between (0.0 - 0.5)
// ------------------------------------------------------------------------
RGBColor rgb_hsl2rgb(float h, float s, float l) {
RGBColor RGB_color;
float r;
float g;
float b;
if (s == 0.0f || l == 0.0f) {
r = g = b = l; // achromatic or black
} else {
float q = l < 0.5f ? l * (1.0f + s) : l + s - (l * s);
float p = 2.0f * l - q;
r = rgb_CalcColor(p, q, h + 1.0f / 3.0f);
g = rgb_CalcColor(p, q, h);
b = rgb_CalcColor(p, q, h - 1.0f / 3.0f);
}
RGB_color.R = (uint8_t)(r * 255.0f);
RGB_color.G = (uint8_t)(g * 255.0f);
RGB_color.B = (uint8_t)(b * 255.0f);
return RGB_color;
}
void rgb_set_color(uint16_t hue) {
if (hue == COLOR_NONE) {
// set Off
for (int i = 0; i < RGB_LED_COUNT; i++)
rgb_led[i] = Rgb(0, 0, 0);
} else {
// see http://www.workwithcolor.com/blue-color-hue-range-01.htm
// H (is color from 0..360) should be between 0.0 and 1.0
// S is saturation keep it to 1
// L is brightness should be between 0.0 and 0.5
// cfg.rgblum is between 0 and 100 (percent)
RGBColor target = rgb_hsl2rgb(hue / 360.0f, 1.0f, 0.005f * cfg.rgblum);
// uint32_t color = target.R<<16 | target.G<<8 | target.B;
for (int i = 0; i < RGB_LED_COUNT; i++)
rgb_led[i] = Rgb(target.R, target.G, target.B);
}
// Show
rgb_led.show();
}
#else
// No RGB LED empty functions
void rgb_set_color(uint16_t hue) {}
#endif #endif
void switch_LED(uint8_t state) { void led_setcolor(CRGB color) {
#ifdef HAS_RGB_LED
for (int i = 0; i < RGB_LED_COUNT; i++)
leds[i] = color;
FastLED.show();
#endif
}
void led_sethue(uint8_t hue) {
#ifdef HAS_RGB_LED
for (int i = 0; i < RGB_LED_COUNT; i++)
leds[i] = CHSV(hue, 0XFF, 100);
FastLED.show();
#endif
}
void rgb_led_init(void) {
#ifdef HAS_RGB_LED
HAS_RGB_LED;
led_setcolor(CRGB::Green);
#endif
}
void switch_LED(led_states state) {
static led_states previousLEDState = LED_OFF;
// led need to change state? avoid digitalWrite() for nothing
if (state != previousLEDState) {
previousLEDState = state;
#if (HAS_LED != NOT_A_PIN) #if (HAS_LED != NOT_A_PIN)
if (state == LED_ON) { if (state == LED_ON) {
// switch LED on // switch LED on
@ -98,6 +48,7 @@ void switch_LED(uint8_t state) {
#else #else
digitalWrite(HAS_LED, HIGH); digitalWrite(HAS_LED, HIGH);
#endif #endif
led_setcolor(CRGB::White);
} else if (state == LED_OFF) { } else if (state == LED_OFF) {
// switch LED off // switch LED off
#ifdef LED_ACTIVE_LOW #ifdef LED_ACTIVE_LOW
@ -105,37 +56,35 @@ void switch_LED(uint8_t state) {
#else #else
digitalWrite(HAS_LED, LOW); digitalWrite(HAS_LED, LOW);
#endif #endif
led_setcolor(CRGB::Black);
} }
#endif #endif
}
} }
void switch_LED1(uint8_t state) { void switch_LED1(led_states state) {
#ifdef HAS_TWO_LED static led_states previousLEDState = LED_OFF;
// led need to change state? avoid digitalWrite() for nothing
if (state != previousLEDState) {
previousLEDState = state;
#if (HAS_LED != NOT_A_PIN)
if (state == LED_ON) { if (state == LED_ON) {
// switch LED on // switch LED on
#ifdef LED1_ACTIVE_LOW #ifdef LED_ACTIVE_LOW
digitalWrite(HAS_TWO_LED, LOW); digitalWrite(HAS_TWO_LED, LOW);
#else #else
digitalWrite(HAS_TWO_LED, HIGH); digitalWrite(HAS_TWO_LED, HIGH);
#endif #endif
} else if (state == LED_OFF) { } else if (state == LED_OFF) {
// switch LED off // switch LED off
#ifdef LED1_ACTIVE_LOW #ifdef LED_ACTIVE_LOW
digitalWrite(HAS_TWO_LED, HIGH); digitalWrite(HAS_TWO_LED, HIGH);
#else #else
digitalWrite(HAS_TWO_LED, LOW); digitalWrite(HAS_TWO_LED, LOW);
#endif #endif
} }
#endif // HAS_TWO_LED
}
void blink_LED(uint16_t set_color, uint16_t set_blinkduration) {
#if (HAS_LED != NOT_A_PIN) || defined(HAS_RGB_LED)
LEDColor = set_color; // set color for RGB LED
LEDBlinkDuration = set_blinkduration; // duration
LEDBlinkStarted = millis(); // Time Start here
LEDState = LED_ON; // Let main set LED on
#endif #endif
}
} }
#if (HAS_LED != NOT_A_PIN) || defined(HAS_RGB_LED) #if (HAS_LED != NOT_A_PIN) || defined(HAS_RGB_LED)
@ -151,7 +100,7 @@ void ledLoop(void *parameter) {
LEDState = LED_OFF; LEDState = LED_OFF;
LEDBlinkStarted = 0; LEDBlinkStarted = 0;
LEDBlinkDuration = 0; LEDBlinkDuration = 0;
LEDColor = COLOR_NONE; led_setcolor(CRGB::Black);
} else { } else {
// In case of LoRaWAN led management blinked off // In case of LoRaWAN led management blinked off
LEDState = LED_ON; LEDState = LED_ON;
@ -161,7 +110,7 @@ void ledLoop(void *parameter) {
#if (HAS_LORA) #if (HAS_LORA)
// LED indicators for viusalizing LoRaWAN state // LED indicators for viusalizing LoRaWAN state
if (LMIC.opmode & (OP_JOINING | OP_REJOIN)) { if (LMIC.opmode & (OP_JOINING | OP_REJOIN)) {
LEDColor = COLOR_YELLOW; led_setcolor(CRGB::Yellow);
// quick blink 20ms on each 1/5 second // quick blink 20ms on each 1/5 second
LEDState = LEDState =
((millis() % 200) < 20) ? LED_ON : LED_OFF; // TX data pending ((millis() % 200) < 20) ? LED_ON : LED_OFF; // TX data pending
@ -169,13 +118,13 @@ void ledLoop(void *parameter) {
// select color to blink by message port // select color to blink by message port
switch (LMIC.pendTxPort) { switch (LMIC.pendTxPort) {
case STATUSPORT: case STATUSPORT:
LEDColor = COLOR_PINK; led_setcolor(CRGB::Pink);
break; break;
case CONFIGPORT: case CONFIGPORT:
LEDColor = COLOR_CYAN; led_setcolor(CRGB::Cyan);
break; break;
default: default:
LEDColor = COLOR_BLUE; led_setcolor(CRGB::Blue);
break; break;
} }
// small blink 10ms on each 1/2sec (not when joining) // small blink 10ms on each 1/2sec (not when joining)
@ -183,33 +132,23 @@ void ledLoop(void *parameter) {
// This should not happen so indicate a problem // This should not happen so indicate a problem
} else if (LMIC.opmode & } else if (LMIC.opmode &
((OP_TXDATA | OP_TXRXPEND | OP_JOINING | OP_REJOIN) == 0)) { ((OP_TXDATA | OP_TXRXPEND | OP_JOINING | OP_REJOIN) == 0)) {
LEDColor = COLOR_RED; led_setcolor(CRGB::Red);
// heartbeat long blink 200ms on each 2 seconds // heartbeat long blink 200ms on each 2 seconds
LEDState = ((millis() % 2000) < 200) ? LED_ON : LED_OFF; LEDState = ((millis() % 2000) < 200) ? LED_ON : LED_OFF;
} else } else
#elif (defined(HAS_RGB_LED) && ((WIFICOUNTER) || (BLECOUNTER)))
struct count_payload_t count;
libpax_counter_count(&count);
led_sethue(count.pax);
#endif // HAS_LORA #endif // HAS_LORA
{ {
// led off // led off
LEDColor = COLOR_NONE;
LEDState = LED_OFF; LEDState = LED_OFF;
} }
} }
// led need to change state? avoid digitalWrite() for nothing
if (LEDState != previousLEDState) { switch_LED(LEDState);
if (LEDState == LED_ON) {
rgb_set_color(LEDColor);
// if we have only single LED we use it to blink for status
#ifndef HAS_RGB_LED
switch_LED(LED_ON);
#endif
} else {
rgb_set_color(COLOR_NONE);
#ifndef HAS_RGB_LED
switch_LED(LED_OFF);
#endif
}
previousLEDState = LEDState;
}
// give yield to CPU // give yield to CPU
delay(5); delay(5);
} // while(1) } // while(1)

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@ -1,88 +0,0 @@
#ifndef __LORACONF_H__
#define __LORACONF_H__
#if (HAS_LORA)
/************************************************************
* LMIC LoRaWAN configuration
*
* Read the values from TTN console (or whatever applies), insert them here,
* and rename this file to src/loraconf.h
*
* You can configure OTAA or ABP Activation. In order to use ABP, uncomment
* (enable) the following line, but you should only do so, if you have good
* reasons for not using OTAA.
*
*************************************************************/
//#define LORA_ABP
#ifndef LORA_ABP
/************************************************************
* OTAA configuration
*
* DEVEUI, APPEUI and APPKEY should all be specified in MSB format as
* displayed in TTN console, so you can cut & paste from there. This is different
* from standard LMIC-Arduino which expects DEVEUI and APPEUI in LSB format.
* For TTN, APPEUI in MSB format always starts with 0x70, 0xB3, 0xD5.
* Set your DEVEUI here, if your device has have a fixed one.
* If you leave this untouched, then the DEVEUI will be derived from device's
* MAC adress during startup and will be displayed on device's screen as well as
* on serial console, if you set 'verbose 1' in paxcounter.conf and
* 'debug_level 3' in platformio.ini.
* If using a board with Microchip 24AA02E64 Uinique ID for deveui, the DEVEUI
* will be overwritten by the one contained in the Microchip module.
*
************************************************************/
static const u1_t DEVEUI[8] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
static const u1_t APPEUI[8] = {0x70, 0xB3, 0xD5, 0x00, 0x00, 0x00, 0x00, 0x00};
static const u1_t APPKEY[16] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
#endif
#ifdef LORA_ABP
/************************************************************
* ABP configuration (for development)
*
* Get your
* - Network Session Key (NWKSKEY)
* - App Session Key and your (APPSKEY)
* - Device Address (DEVADDR)
* from e.g. TTN console and replace the example values below.
*
* NOTE: Use MSB format (as displayed in TTN console, so you can cut & paste
* from there)
*
* NOTE: You may also need to adjust lorawan_abp.cpp in order to configure
* different channels and data rate channels to match your country's regulations
* and your network's settings.
*
************************************************************/
// ID of LoRaAlliance assigned Network (for a list, see e.g. here
// https://www.thethingsnetwork.org/docs/lorawan/prefix-assignments.html)
static const u1_t NETID = 0x13; // TTN
static const u1_t NWKSKEY[16] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00};
static const u1_t APPSKEY[16] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00};
static const u4_t DEVADDR =
0x00000000; // <-- Change this address for every node!
// set additional ABP parameters in loraconf_abp.cpp
void setABPParameters();
#endif
#endif // HAS_LORA
#endif // __LORACONF_H__

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@ -201,26 +201,26 @@ void setup() {
#endif #endif
// initialize leds // initialize leds
#ifdef HAS_RGB_LED
rgb_led_init();
strcat_P(features, " RGB");
#endif
#if (HAS_LED != NOT_A_PIN) #if (HAS_LED != NOT_A_PIN)
pinMode(HAS_LED, OUTPUT); pinMode(HAS_LED, OUTPUT);
strcat_P(features, " LED"); strcat_P(features, " LED");
#ifdef LED_POWER_SW #ifdef LED_POWER_SW
pinMode(LED_POWER_SW, OUTPUT); pinMode(LED_POWER_SW, OUTPUT);
digitalWrite(LED_POWER_SW, LED_POWER_ON); digitalWrite(LED_POWER_SW, LED_POWER_ON);
#endif #endif
#ifdef HAS_TWO_LED #ifdef HAS_TWO_LED
pinMode(HAS_TWO_LED, OUTPUT); pinMode(HAS_TWO_LED, OUTPUT);
strcat_P(features, " LED2"); strcat_P(features, " LED2");
#endif #endif
// use LED for power display if we have additional RGB LED, else for status
#ifdef HAS_RGB_LED #ifdef HAS_RGB_LED
// use simple LED for power display if we have additional RGB LED, else for status
switch_LED(LED_ON); switch_LED(LED_ON);
strcat_P(features, " RGB");
#endif #endif
#endif // HAS_LED #endif // HAS_LED
#if (HAS_LED != NOT_A_PIN) || defined(HAS_RGB_LED) #if (HAS_LED != NOT_A_PIN) || defined(HAS_RGB_LED)

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@ -132,7 +132,7 @@ bool sdcard_init(bool create) {
// has these signals. // has these signals.
// Default config for SDMMC_HOST_DEFAULT (4-bit bus width, slot 1) // Default config for SDMMC_HOST_DEFAULT (4-bit bus width, slot 1)
// https://docs.espressif.com/projects/esp-idf/en/latest/esp32/api-reference/peripherals/sdmmc_host.html // https://docs.espressif.com/projects/esp-idf/en/latest/esp32/api-reference/peripherals/sdmmc_host.html
sdmmc_slot_config_t slot_config = SDMMC_SLOT_CONFIG_DEFAULT(); sdmmc_slot_config_t slot_config = SDCARD_SLOTCONFIG;
// Set 1-line or 4-line SD mode (default is 1-line) // Set 1-line or 4-line SD mode (default is 1-line)
slot_config.width = SDCARD_SLOTWIDTH; slot_config.width = SDCARD_SLOTWIDTH;