Rolling 20210913

LICENSE

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-MIT License
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-Copyright (c) 2020 jomjol
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+                       Version 3, 29 June 2007
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+author or copyright holder as a result of your choosing to follow a
+later version.
+
+  15. Disclaimer of Warranty.
+
+  THERE IS NO WARRANTY FOR THE PROGRAM, TO THE EXTENT PERMITTED BY
+APPLICABLE LAW.  EXCEPT WHEN OTHERWISE STATED IN WRITING THE COPYRIGHT
+HOLDERS AND/OR OTHER PARTIES PROVIDE THE PROGRAM "AS IS" WITHOUT WARRANTY
+OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO,
+THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
+PURPOSE.  THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE PROGRAM
+IS WITH YOU.  SHOULD THE PROGRAM PROVE DEFECTIVE, YOU ASSUME THE COST OF
+ALL NECESSARY SERVICING, REPAIR OR CORRECTION.
+
+  16. Limitation of Liability.
+
+  IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING
+WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MODIFIES AND/OR CONVEYS
+THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR DAMAGES, INCLUDING ANY
+GENERAL, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE
+USE OR INABILITY TO USE THE PROGRAM (INCLUDING BUT NOT LIMITED TO LOSS OF
+DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD
+PARTIES OR A FAILURE OF THE PROGRAM TO OPERATE WITH ANY OTHER PROGRAMS),
+EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF
+SUCH DAMAGES.
+
+  17. Interpretation of Sections 15 and 16.
+
+  If the disclaimer of warranty and limitation of liability provided
+above cannot be given local legal effect according to their terms,
+reviewing courts shall apply local law that most closely approximates
+an absolute waiver of all civil liability in connection with the
+Program, unless a warranty or assumption of liability accompanies a
+copy of the Program in return for a fee.
+
+                     END OF TERMS AND CONDITIONS
+
+            How to Apply These Terms to Your New Programs
+
+  If you develop a new program, and you want it to be of the greatest
+possible use to the public, the best way to achieve this is to make it
+free software which everyone can redistribute and change under these terms.
+
+  To do so, attach the following notices to the program.  It is safest
+to attach them to the start of each source file to most effectively
+state the exclusion of warranty; and each file should have at least
+the "copyright" line and a pointer to where the full notice is found.
+
+    <one line to give the program's name and a brief idea of what it does.>
+    Copyright (C) <year>  <name of author>
+
+    This program is free software: you can redistribute it and/or modify
+    it under the terms of the GNU General Public License as published by
+    the Free Software Foundation, either version 3 of the License, or
+    (at your option) any later version.
+
+    This program is distributed in the hope that it will be useful,
+    but WITHOUT ANY WARRANTY; without even the implied warranty of
+    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+    GNU General Public License for more details.
+
+    You should have received a copy of the GNU General Public License
+    along with this program.  If not, see <https://www.gnu.org/licenses/>.
+
+Also add information on how to contact you by electronic and paper mail.
+
+  If the program does terminal interaction, make it output a short
+notice like this when it starts in an interactive mode:
+
+    <program>  Copyright (C) <year>  <name of author>
+    This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
+    This is free software, and you are welcome to redistribute it
+    under certain conditions; type `show c' for details.
+
+The hypothetical commands `show w' and `show c' should show the appropriate
+parts of the General Public License.  Of course, your program's commands
+might be different; for a GUI interface, you would use an "about box".
+
+  You should also get your employer (if you work as a programmer) or school,
+if any, to sign a "copyright disclaimer" for the program, if necessary.
+For more information on this, and how to apply and follow the GNU GPL, see
+<https://www.gnu.org/licenses/>.
+
+  The GNU General Public License does not permit incorporating your program
+into proprietary programs.  If your program is a subroutine library, you
+may consider it more useful to permit linking proprietary applications with
+the library.  If this is what you want to do, use the GNU Lesser General
+Public License instead of this License.  But first, please read
+<https://www.gnu.org/licenses/why-not-lgpl.html>.

README.md

@@ -45,7 +45,15 @@ In other cases you can contact the developer via email: <img src="https://raw.gi
 
 **General remark:** Beside the `firmware.bin`, typically also the content of `/html` needs to be updated!
 
+##### Rolling (2021-09-13)
 
+* Change License to GPL-3.0 License
+
+Rolling (2021-09-12)
+
+* Preparation for external illumination (WS281x)
+* Bug fixing (html, Images of recognized numbers)
+* based on v8.3.0 (2021-09-12)
 
 ##### 8.3.0 - Multi Meter Support (2021-09-12)
 

code/SmartLeds.cpp

@@ -0,0 +1,63 @@
+#include "SmartLeds.h"
+
+IsrCore SmartLed::_interruptCore = CoreCurrent;
+intr_handle_t SmartLed::_interruptHandle = NULL;
+
+SmartLed*& IRAM_ATTR SmartLed::ledForChannel( int channel ) {
+    static SmartLed* table[8] = { nullptr };
+    assert( channel < 8 );
+    return table[ channel ];
+}
+
+void IRAM_ATTR SmartLed::interruptHandler(void*) {
+    for (int channel = 0; channel != 8; channel++) {
+        auto self = ledForChannel( channel );
+
+        if ( RMT.int_st.val & (1 << (24 + channel ) ) ) { // tx_thr_event
+            if ( self )
+                self->copyRmtHalfBlock();
+            RMT.int_clr.val |= 1 << ( 24 + channel );
+        } else if ( RMT.int_st.val & ( 1 << (3 * channel ) ) ) { // tx_end
+            if ( self )
+                xSemaphoreGiveFromISR( self->_finishedFlag, nullptr );
+            RMT.int_clr.val |= 1 << ( 3 * channel );
+        }
+    }
+}
+
+void IRAM_ATTR SmartLed::copyRmtHalfBlock() {
+    int offset = detail::MAX_PULSES * _halfIdx;
+    _halfIdx = !_halfIdx;
+    int len = 3 - _componentPosition + 3 * ( _count - 1 );
+    len = std::min( len, detail::MAX_PULSES / 8 );
+
+    if ( !len ) {
+        for ( int i = 0; i < detail::MAX_PULSES; i++) {
+            RMTMEM.chan[ _channel].data32[i + offset ].val = 0;
+        }
+    }
+
+    int i;
+    for ( i = 0; i != len && _pixelPosition != _count; i++ ) {
+        uint8_t val = _buffer[ _pixelPosition ].getGrb( _componentPosition );
+        for ( int j = 0; j != 8; j++, val <<= 1 ) {
+            int bit = val >> 7;
+            int idx = i * 8 + offset + j;
+            RMTMEM.chan[ _channel ].data32[ idx ].val = _bitToRmt[ bit & 0x01 ].value;
+        }
+        if ( _pixelPosition == _count - 1 && _componentPosition == 2 ) {
+            RMTMEM.chan[ _channel ].data32[ i * 8 + offset + 7 ].duration1 =
+                _timing.TRS / ( detail::RMT_DURATION_NS * detail::DIVIDER );
+        }
+
+        _componentPosition++;
+        if ( _componentPosition == 3 ) {
+            _componentPosition = 0;
+            _pixelPosition++;
+        }
+    }
+
+    for ( i *= 8; i != detail::MAX_PULSES; i++ ) {
+        RMTMEM.chan[ _channel ].data32[ i + offset ].val = 0;
+    }
+}

code/SmartLeds.h

@@ -0,0 +1,530 @@
+#pragma once
+
+/*
+ * A C++ driver for the WS2812 LEDs using the RMT peripheral on the ESP32.
+ *
+ * Jan "yaqwsx" Mrázek <email@honzamrazek.cz>
+ *
+ * Based on the work by Martin F. Falatic - https://github.com/FozzTexx/ws2812-demo
+ */
+
+/*
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in
+ * all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+ * THE SOFTWARE.
+ */
+
+#include <memory>
+#include <cassert>
+#include <cstring>
+
+#if defined ( ARDUINO )
+    extern "C" { // ...someone forgot to put in the includes...
+        #include "esp32-hal.h"
+        #include "esp_intr_alloc.h"
+        #include "esp_ipc.h"
+        #include "driver/gpio.h"
+        #include "driver/periph_ctrl.h"
+        #include "freertos/semphr.h"
+        #include "soc/rmt_struct.h"
+        #include <driver/spi_master.h>
+        #include "esp_idf_version.h"
+#if ESP_IDF_VERSION >= ESP_IDF_VERSION_VAL( 4, 0, 0 )
+        #include "soc/dport_reg.h"
+#endif
+    }
+#elif defined ( ESP_PLATFORM )
+    extern "C" { // ...someone forgot to put in the includes...
+        #include <esp_intr_alloc.h>
+        #include <esp_ipc.h>
+        #include <driver/gpio.h>
+        #include <freertos/FreeRTOS.h>
+        #include <freertos/semphr.h>
+        #include <soc/dport_reg.h>
+        #include <soc/gpio_sig_map.h>
+        #include <soc/rmt_struct.h>
+        #include <driver/spi_master.h>
+    }
+    #include <stdio.h>
+#endif
+
+#include "Color.h"
+
+namespace detail {
+
+struct TimingParams {
+    uint32_t T0H;
+    uint32_t T1H;
+    uint32_t T0L;
+    uint32_t T1L;
+    uint32_t TRS;
+};
+
+union RmtPulsePair {
+    struct {
+        int duration0:15;
+        int level0:1;
+        int duration1:15;
+        int level1:1;
+    };
+    uint32_t value;
+};
+
+static const int DIVIDER = 4; // 8 still seems to work, but timings become marginal
+static const int MAX_PULSES = 32; // A channel has a 64 "pulse" buffer - we use half per pass
+static const double RMT_DURATION_NS = 12.5; // minimum time of a single RMT duration based on clock ns
+
+} // namespace detail
+
+using LedType = detail::TimingParams;
+
+static const LedType LED_WS2812  = { 350, 700, 800, 600, 50000 };
+static const LedType LED_WS2812B = { 400, 850, 850, 400, 50100 };
+static const LedType LED_SK6812  = { 300, 600, 900, 600, 80000 };
+static const LedType LED_WS2813  = { 350, 800, 350, 350, 300000 };
+
+enum BufferType { SingleBuffer = 0, DoubleBuffer };
+
+enum IsrCore { CoreFirst = 0, CoreSecond = 1, CoreCurrent = 2};
+
+class SmartLed {
+public:
+    // The RMT interrupt must not run on the same core as WiFi interrupts, otherwise SmartLeds
+    // can't fill the RMT buffer fast enough, resulting in rendering artifacts.
+    // Usually, that means you have to set isrCore == CoreSecond.
+    //
+    // If you use anything other than CoreCurrent, the FreeRTOS scheduler MUST be already running,
+    // so you can't use it if you define SmartLed as global variable.
+    SmartLed( const LedType& type, int count, int pin, int channel = 0, BufferType doubleBuffer = SingleBuffer, IsrCore isrCore = CoreCurrent)
+        : _timing( type ),
+          _channel( channel ),
+          _count( count ),
+          _firstBuffer( new Rgb[ count ] ),
+          _secondBuffer( doubleBuffer ? new Rgb[ count ] : nullptr ),
+          _finishedFlag( xSemaphoreCreateBinary() )
+    {
+        assert( channel >= 0 && channel < 8 );
+        assert( ledForChannel( channel ) == nullptr );
+
+        xSemaphoreGive( _finishedFlag );
+
+        DPORT_SET_PERI_REG_MASK( DPORT_PERIP_CLK_EN_REG, DPORT_RMT_CLK_EN );
+        DPORT_CLEAR_PERI_REG_MASK( DPORT_PERIP_RST_EN_REG, DPORT_RMT_RST );
+
+        PIN_FUNC_SELECT( GPIO_PIN_MUX_REG[ pin ], 2 );
+        gpio_set_direction( static_cast< gpio_num_t >( pin ), GPIO_MODE_OUTPUT );
+        gpio_matrix_out( static_cast< gpio_num_t >( pin ), RMT_SIG_OUT0_IDX + _channel, 0, 0 );
+        initChannel( _channel );
+
+        RMT.tx_lim_ch[ _channel ].limit = detail::MAX_PULSES;
+        RMT.int_ena.val |= 1 << ( 24 + _channel );
+        RMT.int_ena.val |= 1 << ( 3 * _channel );
+
+        _bitToRmt[ 0 ].level0 = 1;
+        _bitToRmt[ 0 ].level1 = 0;
+        _bitToRmt[ 0 ].duration0 = _timing.T0H / ( detail::RMT_DURATION_NS * detail::DIVIDER );
+        _bitToRmt[ 0 ].duration1 = _timing.T0L / ( detail::RMT_DURATION_NS * detail::DIVIDER );
+
+        _bitToRmt[ 1 ].level0 = 1;
+        _bitToRmt[ 1 ].level1 = 0;
+        _bitToRmt[ 1 ].duration0 = _timing.T1H / ( detail::RMT_DURATION_NS * detail::DIVIDER );
+        _bitToRmt[ 1 ].duration1 = _timing.T1L / ( detail::RMT_DURATION_NS * detail::DIVIDER );
+
+        if ( !anyAlive() ) {
+            _interruptCore = isrCore;
+            if(isrCore != CoreCurrent) {
+                ESP_ERROR_CHECK(esp_ipc_call_blocking(isrCore, registerInterrupt, NULL));
+            } else {
+                registerInterrupt(NULL);
+            }
+        }
+
+        ledForChannel( channel ) = this;
+    }
+
+    ~SmartLed() {
+        ledForChannel( _channel ) = nullptr;
+        if ( !anyAlive() ) {
+            if(_interruptCore != CoreCurrent) {
+                ESP_ERROR_CHECK(esp_ipc_call_blocking(_interruptCore, unregisterInterrupt, NULL));
+            } else {
+                unregisterInterrupt(NULL);
+            }
+        }
+        vSemaphoreDelete( _finishedFlag );
+    }
+
+    Rgb& operator[]( int idx ) {
+        return _firstBuffer[ idx ];
+    }
+
+    const Rgb& operator[]( int idx ) const {
+        return _firstBuffer[ idx ];
+    }
+
+    void show() {
+        _buffer = _firstBuffer.get();
+        startTransmission();
+        swapBuffers();
+    }
+
+    bool wait( TickType_t timeout = portMAX_DELAY ) {
+        if( xSemaphoreTake( _finishedFlag, timeout ) == pdTRUE ) {
+            xSemaphoreGive( _finishedFlag );
+            return true;
+        }
+        return false;
+    }
+
+    int size() const {
+        return _count;
+    }
+
+    Rgb *begin() { return _firstBuffer.get(); }
+    const Rgb *begin() const { return _firstBuffer.get(); }
+    const Rgb *cbegin() const { return _firstBuffer.get(); }
+
+    Rgb *end() { return _firstBuffer.get() + _count; }
+    const Rgb *end() const { return _firstBuffer.get() + _count; }
+    const Rgb *cend() const { return _firstBuffer.get() + _count; }
+
+private:
+    static intr_handle_t _interruptHandle;
+    static IsrCore _interruptCore;
+
+    static void initChannel( int channel ) {
+        RMT.apb_conf.fifo_mask = 1;  //enable memory access, instead of FIFO mode.
+        RMT.apb_conf.mem_tx_wrap_en = 1; //wrap around when hitting end of buffer
+        RMT.conf_ch[ channel ].conf0.div_cnt = detail::DIVIDER;
+        RMT.conf_ch[ channel ].conf0.mem_size = 1;
+        RMT.conf_ch[ channel ].conf0.carrier_en = 0;
+        RMT.conf_ch[ channel ].conf0.carrier_out_lv = 1;
+        RMT.conf_ch[ channel ].conf0.mem_pd = 0;
+
+        RMT.conf_ch[ channel ].conf1.rx_en = 0;
+        RMT.conf_ch[ channel ].conf1.mem_owner = 0;
+        RMT.conf_ch[ channel ].conf1.tx_conti_mode = 0;    //loop back mode.
+        RMT.conf_ch[ channel ].conf1.ref_always_on = 1;    // use apb clock: 80M
+        RMT.conf_ch[ channel ].conf1.idle_out_en = 1;
+        RMT.conf_ch[ channel ].conf1.idle_out_lv = 0;
+    }
+
+    static void registerInterrupt(void *) {
+        ESP_ERROR_CHECK(esp_intr_alloc( ETS_RMT_INTR_SOURCE, 0, interruptHandler, nullptr, &_interruptHandle));
+    }
+
+    static void unregisterInterrupt(void*) {
+        esp_intr_free( _interruptHandle );
+    }
+
+    static SmartLed*& IRAM_ATTR ledForChannel( int channel );
+    static void IRAM_ATTR interruptHandler( void* );
+
+    void IRAM_ATTR copyRmtHalfBlock();
+
+    void swapBuffers() {
+        if ( _secondBuffer )
+            _firstBuffer.swap( _secondBuffer );
+    }
+
+    void startTransmission() {
+        // Invalid use of the library
+        if( xSemaphoreTake( _finishedFlag, 0 ) != pdTRUE )
+            abort();
+
+        _pixelPosition = _componentPosition = _halfIdx = 0;
+        copyRmtHalfBlock();
+        if ( _pixelPosition < _count )
+            copyRmtHalfBlock();
+
+        RMT.conf_ch[ _channel ].conf1.mem_rd_rst = 1;
+        RMT.conf_ch[ _channel ].conf1.tx_start = 1;
+    }
+
+    static bool anyAlive() {
+        for ( int i = 0; i != 8; i++ )
+            if ( ledForChannel( i ) != nullptr ) return true;
+        return false;
+    }
+
+    const LedType& _timing;
+    int _channel;
+    detail::RmtPulsePair _bitToRmt[ 2 ];
+    int _count;
+    std::unique_ptr< Rgb[] > _firstBuffer;
+    std::unique_ptr< Rgb[] > _secondBuffer;
+    Rgb *_buffer;
+
+    xSemaphoreHandle _finishedFlag;
+
+    int _pixelPosition;
+    int _componentPosition;
+    int _halfIdx;
+};
+
+class Apa102 {
+public:
+    struct ApaRgb {
+        ApaRgb( uint8_t r = 0, uint8_t g = 0, uint32_t b = 0, uint32_t v = 0xFF )
+            : v( 0xE0 | v ), b( b ), g( g ), r( r )
+        {}
+
+        ApaRgb& operator=( const Rgb& o ) {
+            r = o.r;
+            g = o.g;
+            b = o.b;
+            return *this;
+        }
+
+        ApaRgb& operator=( const Hsv& o ) {
+            *this = Rgb{ o };
+            return *this;
+        }
+
+        uint8_t v, b, g, r;
+    };
+
+    static const int FINAL_FRAME_SIZE = 4;
+    static const int TRANS_COUNT = 2 + 8;
+
+    Apa102( int count, int clkpin, int datapin, BufferType doubleBuffer = SingleBuffer )
+        : _count( count ),
+          _firstBuffer( new ApaRgb[ count ] ),
+          _secondBuffer( doubleBuffer ? new ApaRgb[ count ] : nullptr ),
+          _initFrame( 0 )
+    {
+        spi_bus_config_t buscfg;
+        memset( &buscfg, 0, sizeof( buscfg ) );
+        buscfg.mosi_io_num = datapin;
+        buscfg.miso_io_num = -1;
+        buscfg.sclk_io_num = clkpin;
+        buscfg.quadwp_io_num = -1;
+        buscfg.quadhd_io_num = -1;
+        buscfg.max_transfer_sz = 65535;
+
+        spi_device_interface_config_t devcfg;
+        memset( &devcfg, 0, sizeof( devcfg ) );
+        devcfg.clock_speed_hz = 1000000;
+        devcfg.mode = 0;
+        devcfg.spics_io_num = -1;
+        devcfg.queue_size = TRANS_COUNT;
+        devcfg.pre_cb = nullptr;
+
+        auto ret = spi_bus_initialize( HSPI_HOST, &buscfg, 1 );
+        assert( ret == ESP_OK );
+
+        ret = spi_bus_add_device( HSPI_HOST, &devcfg, &_spi );
+        assert( ret == ESP_OK );
+
+        std::fill_n( _finalFrame, FINAL_FRAME_SIZE, 0xFFFFFFFF );
+    }
+
+    ~Apa102() {
+        // ToDo
+    }
+
+    ApaRgb& operator[]( int idx ) {
+        return _firstBuffer[ idx ];
+    }
+
+    const ApaRgb& operator[]( int idx ) const {
+        return _firstBuffer[ idx ];
+    }
+
+    void show() {
+        _buffer = _firstBuffer.get();
+        startTransmission();
+        swapBuffers();
+    }
+
+    void wait() {
+        for ( int i = 0; i != _transCount; i++ ) {
+            spi_transaction_t *t;
+            spi_device_get_trans_result( _spi, &t, portMAX_DELAY );
+        }
+    }
+private:
+    void swapBuffers() {
+        if ( _secondBuffer )
+            _firstBuffer.swap( _secondBuffer );
+    }
+
+    void startTransmission() {
+        for ( int i = 0; i != TRANS_COUNT; i++ ) {
+            _transactions[ i ].cmd = 0;
+            _transactions[ i ].addr = 0;
+            _transactions[ i ].flags = 0;
+            _transactions[ i ].rxlength = 0;
+            _transactions[ i ].rx_buffer = nullptr;
+        }
+        // Init frame
+        _transactions[ 0 ].length = 32;
+        _transactions[ 0 ].tx_buffer = &_initFrame;
+        spi_device_queue_trans( _spi, _transactions + 0, portMAX_DELAY );
+        // Data
+        _transactions[ 1 ].length = 32 * _count;
+        _transactions[ 1 ].tx_buffer = _buffer;
+        spi_device_queue_trans( _spi, _transactions + 1, portMAX_DELAY );
+        _transCount = 2;
+        // End frame
+        for ( int i = 0; i != 1 + _count / 32 / FINAL_FRAME_SIZE; i++ ) {
+            _transactions[ 2 + i ].length = 32 * FINAL_FRAME_SIZE;
+            _transactions[ 2 + i ].tx_buffer = _finalFrame;
+            spi_device_queue_trans( _spi, _transactions + 2 + i, portMAX_DELAY );
+            _transCount++;
+        }
+    }
+
+    spi_device_handle_t _spi;
+    int _count;
+    std::unique_ptr< ApaRgb[] > _firstBuffer, _secondBuffer;
+    ApaRgb *_buffer;
+
+    spi_transaction_t _transactions[ TRANS_COUNT ];
+    int _transCount;
+
+    uint32_t _initFrame;
+    uint32_t _finalFrame[ FINAL_FRAME_SIZE ];
+};
+
+class LDP8806 {
+public:
+    struct LDP8806_GRB {
+
+        LDP8806_GRB( uint8_t g_7bit = 0, uint8_t r_7bit = 0, uint32_t b_7bit = 0 )
+            : g( g_7bit ), r( r_7bit ), b( b_7bit )
+        {
+        }
+
+        LDP8806_GRB& operator=( const Rgb& o ) {
+            //Convert 8->7bit colour
+            r = ( o.r * 127 / 256 ) | 0x80;
+            g = ( o.g * 127 / 256 ) | 0x80;
+            b = ( o.b * 127 / 256 ) | 0x80;
+            return *this;
+        }
+
+        LDP8806_GRB& operator=( const Hsv& o ) {
+            *this = Rgb{ o };
+            return *this;
+        }
+
+        uint8_t g, r, b;
+    };
+
+    static const int LED_FRAME_SIZE_BYTES = sizeof( LDP8806_GRB );
+    static const int LATCH_FRAME_SIZE_BYTES = 3;
+    static const int TRANS_COUNT_MAX = 20;//Arbitrary, supports up to 600 LED
+
+    LDP8806( int count, int clkpin, int datapin, BufferType doubleBuffer = SingleBuffer, uint32_t clock_speed_hz = 2000000 )
+        : _count( count ),
+          _firstBuffer( new LDP8806_GRB[ count ] ),
+          _secondBuffer( doubleBuffer ? new LDP8806_GRB[ count ] : nullptr ),
+          // one 'latch'/start-of-data mark frame for every 32 leds
+          _latchFrames( ( count + 31 ) / 32 )
+    {
+        spi_bus_config_t buscfg;
+        memset( &buscfg, 0, sizeof( buscfg ) );
+        buscfg.mosi_io_num = datapin;
+        buscfg.miso_io_num = -1;
+        buscfg.sclk_io_num = clkpin;
+        buscfg.quadwp_io_num = -1;
+        buscfg.quadhd_io_num = -1;
+        buscfg.max_transfer_sz = 65535;
+
+        spi_device_interface_config_t devcfg;
+        memset( &devcfg, 0, sizeof( devcfg ) );
+        devcfg.clock_speed_hz = clock_speed_hz;
+        devcfg.mode = 0;
+        devcfg.spics_io_num = -1;
+        devcfg.queue_size = TRANS_COUNT_MAX;
+        devcfg.pre_cb = nullptr;
+
+        auto ret = spi_bus_initialize( HSPI_HOST, &buscfg, 1 );
+        assert( ret == ESP_OK );
+
+        ret = spi_bus_add_device( HSPI_HOST, &devcfg, &_spi );
+        assert( ret == ESP_OK );
+
+        std::fill_n( _latchBuffer, LATCH_FRAME_SIZE_BYTES, 0x0 );
+    }
+
+    ~LDP8806() {
+        // noop
+    }
+
+    LDP8806_GRB& operator[]( int idx ) {
+        return _firstBuffer[ idx ];
+    }
+
+    const LDP8806_GRB& operator[]( int idx ) const {
+        return _firstBuffer[ idx ];
+    }
+
+    void show() {
+        _buffer = _firstBuffer.get();
+        startTransmission();
+        swapBuffers();
+    }
+
+    void wait() {
+        while ( _transCount-- ) {
+            spi_transaction_t *t;
+            spi_device_get_trans_result( _spi, &t, portMAX_DELAY );
+        }
+    }
+private:
+    void swapBuffers() {
+        if ( _secondBuffer )
+            _firstBuffer.swap( _secondBuffer );
+    }
+
+    void startTransmission() {
+        _transCount = 0;
+        for ( int i = 0; i != TRANS_COUNT_MAX; i++ ) {
+            _transactions[ i ].cmd = 0;
+            _transactions[ i ].addr = 0;
+            _transactions[ i ].flags = 0;
+            _transactions[ i ].rxlength = 0;
+            _transactions[ i ].rx_buffer = nullptr;
+        }
+        // LED Data
+        _transactions[ 0 ].length = ( LED_FRAME_SIZE_BYTES * 8 ) * _count;
+        _transactions[ 0 ].tx_buffer = _buffer;
+        spi_device_queue_trans( _spi, _transactions + _transCount, portMAX_DELAY );
+        _transCount++;
+
+        // 'latch'/start-of-data marker frames
+        for ( int i = 0; i < _latchFrames; i++ ) {
+            _transactions[ _transCount ].length = ( LATCH_FRAME_SIZE_BYTES * 8 );
+            _transactions[ _transCount ].tx_buffer = _latchBuffer;
+            spi_device_queue_trans( _spi, _transactions + _transCount, portMAX_DELAY );
+            _transCount++;
+        }
+    }
+
+    spi_device_handle_t _spi;
+    int _count;
+    std::unique_ptr< LDP8806_GRB[] > _firstBuffer, _secondBuffer;
+    LDP8806_GRB *_buffer;
+
+    spi_transaction_t _transactions[ TRANS_COUNT_MAX ];
+    int _transCount;
+
+    int _latchFrames;
+    uint8_t _latchBuffer[ LATCH_FRAME_SIZE_BYTES ];
+};

code/components/jomjol_controlGPIO/Color.cpp

@@ -0,0 +1,132 @@
+#include "Color.h"
+#include <algorithm>
+#include <cmath>
+#include <cassert>
+
+namespace {
+
+// Int -> fixed point
+int up( int x ) { return x * 255; }
+
+} // namespace
+
+int iRgbSqrt( int num ) {
+    // https://en.wikipedia.org/wiki/Methods_of_computing_square_roots#Binary_numeral_system_.28base_2.29
+    assert( "sqrt input should be non-negative" && num >= 0 );
+    assert( "sqrt input should no exceed 16 bits" && num <= 0xFFFF );
+    int res = 0;
+    int bit = 1 << 16;
+    while ( bit > num )
+        bit >>= 2;
+    while ( bit != 0 ) {
+        if ( num >= res + bit ) {
+            num -= res + bit;
+            res = ( res >> 1 ) + bit;
+        } else
+            res >>= 1;
+        bit >>= 2;
+    }
+    return res;
+}
+
+Rgb::Rgb( Hsv y ) {
+    // https://stackoverflow.com/questions/24152553/hsv-to-rgb-and-back-without-floating-point-math-in-python
+    // greyscale
+    if( y.s == 0 ) {
+        r = g = b = y.v;
+        return;
+    }
+
+    const int region = y.h / 43;
+    const int remainder = ( y.h - ( region * 43 ) ) * 6;
+
+    const int p = ( y.v * ( 255 - y.s ) ) >> 8;
+    const int q = ( y.v * ( 255 - ( ( y.s * remainder ) >> 8 ) ) ) >> 8;
+    const int t = ( y.v * ( 255 - ( ( y.s * (255 -remainder ) ) >> 8 ) ) ) >> 8;
+
+    switch( region ) {
+        case 0: r = y.v; g = t; b = p; break;
+        case 1: r = q; g = y.v; b = p; break;
+        case 2: r = p; g = y.v; b = t; break;
+        case 3: r = p; g = q; b = y.v; break;
+        case 4: r = t; g = p; b = y.v; break;
+        case 5: r = y.v; g = p; b = q; break;
+        default: __builtin_trap();
+    }
+
+    a = y.a;
+}
+
+Rgb& Rgb::operator=( Hsv hsv ) {
+    Rgb r{ hsv };
+    swap( r );
+    return *this;
+}
+
+Rgb Rgb::operator+( Rgb in ) const {
+    auto copy = *this;
+    copy += in;
+    return copy;
+}
+
+Rgb& Rgb::operator+=( Rgb in ) {
+    unsigned int red = r + in.r;
+    r = ( red < 255 ) ? red : 255;
+    unsigned int green = g + in.g;
+    g = ( green < 255 ) ? green : 255;
+    unsigned int blue = b + in.b;
+    b = ( blue < 255 ) ? blue : 255;
+    return *this;
+}
+
+Rgb& Rgb::blend( Rgb in ) {
+    unsigned int inAlpha = in.a * ( 255 - a );
+    unsigned int alpha = a + inAlpha;
+    r = iRgbSqrt( ( ( r * r * a ) + ( in.r * in.r * inAlpha ) ) / alpha );
+    g = iRgbSqrt( ( ( g * g * a ) + ( in.g * in.g * inAlpha ) ) / alpha );
+    b = iRgbSqrt( ( ( b * b * a ) + ( in.b * in.b * inAlpha ) ) / alpha );
+    a = alpha;
+    return *this;
+}
+
+uint8_t IRAM_ATTR Rgb::getGrb( int idx ) {
+    switch ( idx ) {
+        case 0: return g;
+        case 1: return r;
+        case 2: return b;
+    }
+    __builtin_unreachable();
+}
+
+Hsv::Hsv( Rgb r ) {
+    int min = std::min( r.r, std::min( r.g, r.b ) );
+    int max = std::max( r.r, std::max( r.g, r.b ) );
+    int chroma = max - min;
+
+    v = max;
+    if ( chroma == 0 ) {
+        h = s = 0;
+        return;
+    }
+
+    s = up( chroma ) / max;
+    int hh;
+    if ( max == r.r )
+        hh = ( up( int( r.g ) - int( r.b ) ) ) / chroma / 6;
+    else if ( max == r.g )
+        hh = 255 / 3 + ( up( int( r.b ) - int( r.r ) ) ) / chroma / 6;
+    else
+        hh = 2 * 255 / 3 + ( up( int( r.r ) - int( r.g ) ) ) / chroma / 6;
+
+    if ( hh < 0 )
+        hh += 255;
+    h = hh;
+
+    a = r.a;
+}
+
+Hsv& Hsv::operator=( Rgb rgb ) {
+    Hsv h{ rgb };
+    swap( h );
+    return *this;
+}

code/components/jomjol_controlGPIO/Color.h

@@ -0,0 +1,69 @@
+#pragma once
+
+#include <cstdint>
+#include "esp_attr.h"
+union Hsv;
+
+union Rgb {
+    struct __attribute__ ((packed)) {
+        uint8_t r, g, b, a;
+    };
+    uint32_t value;
+
+    Rgb( uint8_t r = 0, uint8_t g = 0, uint8_t b = 0, uint8_t a = 255 ) : r( r ), g( g ), b( b ), a( a ) {}
+    Rgb( Hsv c );
+    Rgb& operator=( Rgb rgb ) { swap( rgb ); return *this; }
+    Rgb& operator=( Hsv hsv );
+    Rgb operator+( Rgb in ) const;
+    Rgb& operator+=( Rgb in );
+    bool operator==( Rgb in ) const { return in.value == value; }
+    Rgb& blend( Rgb in );
+    void swap( Rgb& o ) {  value = o.value; }
+    void linearize() {
+        r = channelGamma(r);
+        g = channelGamma(g);
+        b = channelGamma(b);
+    }
+
+    uint8_t IRAM_ATTR getGrb( int idx );
+
+    void stretchChannels( uint8_t maxR, uint8_t maxG, uint8_t maxB ) {
+        r = stretch( r, maxR );
+        g = stretch( g, maxG );
+        b = stretch( b, maxB );
+    }
+
+    void stretchChannelsEvenly( uint8_t max ) {
+        stretchChannels( max, max, max );
+    }
+
+private:
+    uint8_t stretch( int value, uint8_t max ) {
+        return ( value * max ) >> 8;
+    }
+
+    uint8_t channelGamma( int channel ) {
+        /* The optimal gamma correction is x^2.8. However, this is expensive to
+         * compute. Therefore, we use x^3 for gamma correction. Also, we add a
+         * bias as the WS2812 LEDs do not turn on for values less than 4. */
+        if (channel == 0)
+            return channel;
+        channel = channel * channel * channel * 251;
+        channel >>= 24;
+        return static_cast< uint8_t >( 4 + channel );
+    }
+};
+
+union Hsv {
+    struct __attribute__ ((packed)) {
+        uint8_t h, s, v, a;
+    };
+    uint32_t value;
+
+    Hsv( uint8_t h, uint8_t s = 0, uint8_t v = 0, uint8_t a = 255 ) : h( h ), s( s ), v( v ), a( a ) {}
+    Hsv( Rgb r );
+    Hsv& operator=( Hsv h ) { swap( h ); return *this; }
+    Hsv& operator=( Rgb rgb );
+    bool operator==( Hsv in ) const { return in.value == value; }
+    void swap( Hsv& o ) { value = o.value; }
+};

code/components/jomjol_controlGPIO/SmartLeds.cpp

@@ -0,0 +1,63 @@
+#include "SmartLeds.h"
+
+IsrCore SmartLed::_interruptCore = CoreCurrent;
+intr_handle_t SmartLed::_interruptHandle = NULL;
+
+SmartLed*& IRAM_ATTR SmartLed::ledForChannel( int channel ) {
+    static SmartLed* table[8] = { nullptr };
+    assert( channel < 8 );
+    return table[ channel ];
+}
+
+void IRAM_ATTR SmartLed::interruptHandler(void*) {
+    for (int channel = 0; channel != 8; channel++) {
+        auto self = ledForChannel( channel );
+
+        if ( RMT.int_st.val & (1 << (24 + channel ) ) ) { // tx_thr_event
+            if ( self )
+                self->copyRmtHalfBlock();
+            RMT.int_clr.val |= 1 << ( 24 + channel );
+        } else if ( RMT.int_st.val & ( 1 << (3 * channel ) ) ) { // tx_end
+            if ( self )
+                xSemaphoreGiveFromISR( self->_finishedFlag, nullptr );
+            RMT.int_clr.val |= 1 << ( 3 * channel );
+        }
+    }
+}
+
+void IRAM_ATTR SmartLed::copyRmtHalfBlock() {
+    int offset = detail::MAX_PULSES * _halfIdx;
+    _halfIdx = !_halfIdx;
+    int len = 3 - _componentPosition + 3 * ( _count - 1 );
+    len = std::min( len, detail::MAX_PULSES / 8 );
+
+    if ( !len ) {
+        for ( int i = 0; i < detail::MAX_PULSES; i++) {
+            RMTMEM.chan[ _channel].data32[i + offset ].val = 0;
+        }
+    }
+
+    int i;
+    for ( i = 0; i != len && _pixelPosition != _count; i++ ) {
+        uint8_t val = _buffer[ _pixelPosition ].getGrb( _componentPosition );
+        for ( int j = 0; j != 8; j++, val <<= 1 ) {
+            int bit = val >> 7;
+            int idx = i * 8 + offset + j;
+            RMTMEM.chan[ _channel ].data32[ idx ].val = _bitToRmt[ bit & 0x01 ].value;
+        }
+        if ( _pixelPosition == _count - 1 && _componentPosition == 2 ) {
+            RMTMEM.chan[ _channel ].data32[ i * 8 + offset + 7 ].duration1 =
+                _timing.TRS / ( detail::RMT_DURATION_NS * detail::DIVIDER );
+        }
+
+        _componentPosition++;
+        if ( _componentPosition == 3 ) {
+            _componentPosition = 0;
+            _pixelPosition++;
+        }
+    }
+
+    for ( i *= 8; i != detail::MAX_PULSES; i++ ) {
+        RMTMEM.chan[ _channel ].data32[ i + offset ].val = 0;
+    }
+}

code/components/jomjol_controlGPIO/SmartLeds.h

@@ -0,0 +1,530 @@
+#pragma once
+
+/*
+ * A C++ driver for the WS2812 LEDs using the RMT peripheral on the ESP32.
+ *
+ * Jan "yaqwsx" Mrázek <email@honzamrazek.cz>
+ *
+ * Based on the work by Martin F. Falatic - https://github.com/FozzTexx/ws2812-demo
+ */
+
+/*
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in
+ * all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+ * THE SOFTWARE.
+ */
+
+#include <memory>
+#include <cassert>
+#include <cstring>
+
+#if defined ( ARDUINO )
+    extern "C" { // ...someone forgot to put in the includes...
+        #include "esp32-hal.h"
+        #include "esp_intr_alloc.h"
+        #include "esp_ipc.h"
+        #include "driver/gpio.h"
+        #include "driver/periph_ctrl.h"
+        #include "freertos/semphr.h"
+        #include "soc/rmt_struct.h"
+        #include <driver/spi_master.h>
+        #include "esp_idf_version.h"
+#if ESP_IDF_VERSION >= ESP_IDF_VERSION_VAL( 4, 0, 0 )
+        #include "soc/dport_reg.h"
+#endif
+    }
+#elif defined ( ESP_PLATFORM )
+    extern "C" { // ...someone forgot to put in the includes...
+        #include <esp_intr_alloc.h>
+        #include <esp_ipc.h>
+        #include <driver/gpio.h>
+        #include <freertos/FreeRTOS.h>
+        #include <freertos/semphr.h>
+        #include <soc/dport_reg.h>
+        #include <soc/gpio_sig_map.h>
+        #include <soc/rmt_struct.h>
+        #include <driver/spi_master.h>
+    }
+    #include <stdio.h>
+#endif
+
+#include "Color.h"
+
+namespace detail {
+
+struct TimingParams {
+    uint32_t T0H;
+    uint32_t T1H;
+    uint32_t T0L;
+    uint32_t T1L;
+    uint32_t TRS;
+};
+
+union RmtPulsePair {
+    struct {
+        int duration0:15;
+        int level0:1;
+        int duration1:15;
+        int level1:1;
+    };
+    uint32_t value;
+};
+
+static const int DIVIDER = 4; // 8 still seems to work, but timings become marginal
+static const int MAX_PULSES = 32; // A channel has a 64 "pulse" buffer - we use half per pass
+static const double RMT_DURATION_NS = 12.5; // minimum time of a single RMT duration based on clock ns
+
+} // namespace detail
+
+using LedType = detail::TimingParams;
+
+static const LedType LED_WS2812  = { 350, 700, 800, 600, 50000 };
+static const LedType LED_WS2812B = { 400, 850, 850, 400, 50100 };
+static const LedType LED_SK6812  = { 300, 600, 900, 600, 80000 };
+static const LedType LED_WS2813  = { 350, 800, 350, 350, 300000 };
+
+enum BufferType { SingleBuffer = 0, DoubleBuffer };
+
+enum IsrCore { CoreFirst = 0, CoreSecond = 1, CoreCurrent = 2};
+
+class SmartLed {
+public:
+    // The RMT interrupt must not run on the same core as WiFi interrupts, otherwise SmartLeds
+    // can't fill the RMT buffer fast enough, resulting in rendering artifacts.
+    // Usually, that means you have to set isrCore == CoreSecond.
+    //
+    // If you use anything other than CoreCurrent, the FreeRTOS scheduler MUST be already running,
+    // so you can't use it if you define SmartLed as global variable.
+    SmartLed( const LedType& type, int count, int pin, int channel = 0, BufferType doubleBuffer = SingleBuffer, IsrCore isrCore = CoreCurrent)
+        : _timing( type ),
+          _channel( channel ),
+          _count( count ),
+          _firstBuffer( new Rgb[ count ] ),
+          _secondBuffer( doubleBuffer ? new Rgb[ count ] : nullptr ),
+          _finishedFlag( xSemaphoreCreateBinary() )
+    {
+        assert( channel >= 0 && channel < 8 );
+        assert( ledForChannel( channel ) == nullptr );
+
+        xSemaphoreGive( _finishedFlag );
+
+        DPORT_SET_PERI_REG_MASK( DPORT_PERIP_CLK_EN_REG, DPORT_RMT_CLK_EN );
+        DPORT_CLEAR_PERI_REG_MASK( DPORT_PERIP_RST_EN_REG, DPORT_RMT_RST );
+
+        PIN_FUNC_SELECT( GPIO_PIN_MUX_REG[ pin ], 2 );
+        gpio_set_direction( static_cast< gpio_num_t >( pin ), GPIO_MODE_OUTPUT );
+        gpio_matrix_out( static_cast< gpio_num_t >( pin ), RMT_SIG_OUT0_IDX + _channel, 0, 0 );
+        initChannel( _channel );
+
+        RMT.tx_lim_ch[ _channel ].limit = detail::MAX_PULSES;
+        RMT.int_ena.val |= 1 << ( 24 + _channel );
+        RMT.int_ena.val |= 1 << ( 3 * _channel );
+
+        _bitToRmt[ 0 ].level0 = 1;
+        _bitToRmt[ 0 ].level1 = 0;
+        _bitToRmt[ 0 ].duration0 = _timing.T0H / ( detail::RMT_DURATION_NS * detail::DIVIDER );
+        _bitToRmt[ 0 ].duration1 = _timing.T0L / ( detail::RMT_DURATION_NS * detail::DIVIDER );
+
+        _bitToRmt[ 1 ].level0 = 1;
+        _bitToRmt[ 1 ].level1 = 0;
+        _bitToRmt[ 1 ].duration0 = _timing.T1H / ( detail::RMT_DURATION_NS * detail::DIVIDER );
+        _bitToRmt[ 1 ].duration1 = _timing.T1L / ( detail::RMT_DURATION_NS * detail::DIVIDER );
+
+        if ( !anyAlive() ) {
+            _interruptCore = isrCore;
+            if(isrCore != CoreCurrent) {
+                ESP_ERROR_CHECK(esp_ipc_call_blocking(isrCore, registerInterrupt, NULL));
+            } else {
+                registerInterrupt(NULL);
+            }
+        }
+
+        ledForChannel( channel ) = this;
+    }
+
+    ~SmartLed() {
+        ledForChannel( _channel ) = nullptr;
+        if ( !anyAlive() ) {
+            if(_interruptCore != CoreCurrent) {
+                ESP_ERROR_CHECK(esp_ipc_call_blocking(_interruptCore, unregisterInterrupt, NULL));
+            } else {
+                unregisterInterrupt(NULL);
+            }
+        }
+        vSemaphoreDelete( _finishedFlag );
+    }
+
+    Rgb& operator[]( int idx ) {
+        return _firstBuffer[ idx ];
+    }
+
+    const Rgb& operator[]( int idx ) const {
+        return _firstBuffer[ idx ];
+    }
+
+    void show() {
+        _buffer = _firstBuffer.get();
+        startTransmission();
+        swapBuffers();
+    }
+
+    bool wait( TickType_t timeout = portMAX_DELAY ) {
+        if( xSemaphoreTake( _finishedFlag, timeout ) == pdTRUE ) {
+            xSemaphoreGive( _finishedFlag );
+            return true;
+        }
+        return false;
+    }
+
+    int size() const {
+        return _count;
+    }
+
+    Rgb *begin() { return _firstBuffer.get(); }
+    const Rgb *begin() const { return _firstBuffer.get(); }
+    const Rgb *cbegin() const { return _firstBuffer.get(); }
+
+    Rgb *end() { return _firstBuffer.get() + _count; }
+    const Rgb *end() const { return _firstBuffer.get() + _count; }
+    const Rgb *cend() const { return _firstBuffer.get() + _count; }
+
+private:
+    static intr_handle_t _interruptHandle;
+    static IsrCore _interruptCore;
+
+    static void initChannel( int channel ) {
+        RMT.apb_conf.fifo_mask = 1;  //enable memory access, instead of FIFO mode.
+        RMT.apb_conf.mem_tx_wrap_en = 1; //wrap around when hitting end of buffer
+        RMT.conf_ch[ channel ].conf0.div_cnt = detail::DIVIDER;
+        RMT.conf_ch[ channel ].conf0.mem_size = 1;
+        RMT.conf_ch[ channel ].conf0.carrier_en = 0;
+        RMT.conf_ch[ channel ].conf0.carrier_out_lv = 1;
+        RMT.conf_ch[ channel ].conf0.mem_pd = 0;
+
+        RMT.conf_ch[ channel ].conf1.rx_en = 0;
+        RMT.conf_ch[ channel ].conf1.mem_owner = 0;
+        RMT.conf_ch[ channel ].conf1.tx_conti_mode = 0;    //loop back mode.
+        RMT.conf_ch[ channel ].conf1.ref_always_on = 1;    // use apb clock: 80M
+        RMT.conf_ch[ channel ].conf1.idle_out_en = 1;
+        RMT.conf_ch[ channel ].conf1.idle_out_lv = 0;
+    }
+
+    static void registerInterrupt(void *) {
+        ESP_ERROR_CHECK(esp_intr_alloc( ETS_RMT_INTR_SOURCE, 0, interruptHandler, nullptr, &_interruptHandle));
+    }
+
+    static void unregisterInterrupt(void*) {
+        esp_intr_free( _interruptHandle );
+    }
+
+    static SmartLed*& IRAM_ATTR ledForChannel( int channel );
+    static void IRAM_ATTR interruptHandler( void* );
+
+    void IRAM_ATTR copyRmtHalfBlock();
+
+    void swapBuffers() {
+        if ( _secondBuffer )
+            _firstBuffer.swap( _secondBuffer );
+    }
+
+    void startTransmission() {
+        // Invalid use of the library
+        if( xSemaphoreTake( _finishedFlag, 0 ) != pdTRUE )
+            abort();
+
+        _pixelPosition = _componentPosition = _halfIdx = 0;
+        copyRmtHalfBlock();
+        if ( _pixelPosition < _count )
+            copyRmtHalfBlock();
+
+        RMT.conf_ch[ _channel ].conf1.mem_rd_rst = 1;
+        RMT.conf_ch[ _channel ].conf1.tx_start = 1;
+    }
+
+    static bool anyAlive() {
+        for ( int i = 0; i != 8; i++ )
+            if ( ledForChannel( i ) != nullptr ) return true;
+        return false;
+    }
+
+    const LedType& _timing;
+    int _channel;
+    detail::RmtPulsePair _bitToRmt[ 2 ];
+    int _count;
+    std::unique_ptr< Rgb[] > _firstBuffer;
+    std::unique_ptr< Rgb[] > _secondBuffer;
+    Rgb *_buffer;
+
+    xSemaphoreHandle _finishedFlag;
+
+    int _pixelPosition;
+    int _componentPosition;
+    int _halfIdx;
+};
+
+class Apa102 {
+public:
+    struct ApaRgb {
+        ApaRgb( uint8_t r = 0, uint8_t g = 0, uint32_t b = 0, uint32_t v = 0xFF )
+            : v( 0xE0 | v ), b( b ), g( g ), r( r )
+        {}
+
+        ApaRgb& operator=( const Rgb& o ) {
+            r = o.r;
+            g = o.g;
+            b = o.b;
+            return *this;
+        }
+
+        ApaRgb& operator=( const Hsv& o ) {
+            *this = Rgb{ o };
+            return *this;
+        }
+
+        uint8_t v, b, g, r;
+    };
+
+    static const int FINAL_FRAME_SIZE = 4;
+    static const int TRANS_COUNT = 2 + 8;
+
+    Apa102( int count, int clkpin, int datapin, BufferType doubleBuffer = SingleBuffer )
+        : _count( count ),
+          _firstBuffer( new ApaRgb[ count ] ),
+          _secondBuffer( doubleBuffer ? new ApaRgb[ count ] : nullptr ),
+          _initFrame( 0 )
+    {
+        spi_bus_config_t buscfg;
+        memset( &buscfg, 0, sizeof( buscfg ) );
+        buscfg.mosi_io_num = datapin;
+        buscfg.miso_io_num = -1;
+        buscfg.sclk_io_num = clkpin;
+        buscfg.quadwp_io_num = -1;
+        buscfg.quadhd_io_num = -1;
+        buscfg.max_transfer_sz = 65535;
+
+        spi_device_interface_config_t devcfg;
+        memset( &devcfg, 0, sizeof( devcfg ) );
+        devcfg.clock_speed_hz = 1000000;
+        devcfg.mode = 0;
+        devcfg.spics_io_num = -1;
+        devcfg.queue_size = TRANS_COUNT;
+        devcfg.pre_cb = nullptr;
+
+        auto ret = spi_bus_initialize( HSPI_HOST, &buscfg, 1 );
+        assert( ret == ESP_OK );
+
+        ret = spi_bus_add_device( HSPI_HOST, &devcfg, &_spi );
+        assert( ret == ESP_OK );
+
+        std::fill_n( _finalFrame, FINAL_FRAME_SIZE, 0xFFFFFFFF );
+    }
+
+    ~Apa102() {
+        // ToDo
+    }
+
+    ApaRgb& operator[]( int idx ) {
+        return _firstBuffer[ idx ];
+    }
+
+    const ApaRgb& operator[]( int idx ) const {
+        return _firstBuffer[ idx ];
+    }
+
+    void show() {
+        _buffer = _firstBuffer.get();
+        startTransmission();
+        swapBuffers();
+    }
+
+    void wait() {
+        for ( int i = 0; i != _transCount; i++ ) {
+            spi_transaction_t *t;
+            spi_device_get_trans_result( _spi, &t, portMAX_DELAY );
+        }
+    }
+private:
+    void swapBuffers() {
+        if ( _secondBuffer )
+            _firstBuffer.swap( _secondBuffer );
+    }
+
+    void startTransmission() {
+        for ( int i = 0; i != TRANS_COUNT; i++ ) {
+            _transactions[ i ].cmd = 0;
+            _transactions[ i ].addr = 0;
+            _transactions[ i ].flags = 0;
+            _transactions[ i ].rxlength = 0;
+            _transactions[ i ].rx_buffer = nullptr;
+        }
+        // Init frame
+        _transactions[ 0 ].length = 32;
+        _transactions[ 0 ].tx_buffer = &_initFrame;
+        spi_device_queue_trans( _spi, _transactions + 0, portMAX_DELAY );
+        // Data
+        _transactions[ 1 ].length = 32 * _count;
+        _transactions[ 1 ].tx_buffer = _buffer;
+        spi_device_queue_trans( _spi, _transactions + 1, portMAX_DELAY );
+        _transCount = 2;
+        // End frame
+        for ( int i = 0; i != 1 + _count / 32 / FINAL_FRAME_SIZE; i++ ) {
+            _transactions[ 2 + i ].length = 32 * FINAL_FRAME_SIZE;
+            _transactions[ 2 + i ].tx_buffer = _finalFrame;
+            spi_device_queue_trans( _spi, _transactions + 2 + i, portMAX_DELAY );
+            _transCount++;
+        }
+    }
+
+    spi_device_handle_t _spi;
+    int _count;
+    std::unique_ptr< ApaRgb[] > _firstBuffer, _secondBuffer;
+    ApaRgb *_buffer;
+
+    spi_transaction_t _transactions[ TRANS_COUNT ];
+    int _transCount;
+
+    uint32_t _initFrame;
+    uint32_t _finalFrame[ FINAL_FRAME_SIZE ];
+};
+
+class LDP8806 {
+public:
+    struct LDP8806_GRB {
+
+        LDP8806_GRB( uint8_t g_7bit = 0, uint8_t r_7bit = 0, uint32_t b_7bit = 0 )
+            : g( g_7bit ), r( r_7bit ), b( b_7bit )
+        {
+        }
+
+        LDP8806_GRB& operator=( const Rgb& o ) {
+            //Convert 8->7bit colour
+            r = ( o.r * 127 / 256 ) | 0x80;
+            g = ( o.g * 127 / 256 ) | 0x80;
+            b = ( o.b * 127 / 256 ) | 0x80;
+            return *this;
+        }
+
+        LDP8806_GRB& operator=( const Hsv& o ) {
+            *this = Rgb{ o };
+            return *this;
+        }
+
+        uint8_t g, r, b;
+    };
+
+    static const int LED_FRAME_SIZE_BYTES = sizeof( LDP8806_GRB );
+    static const int LATCH_FRAME_SIZE_BYTES = 3;
+    static const int TRANS_COUNT_MAX = 20;//Arbitrary, supports up to 600 LED
+
+    LDP8806( int count, int clkpin, int datapin, BufferType doubleBuffer = SingleBuffer, uint32_t clock_speed_hz = 2000000 )
+        : _count( count ),
+          _firstBuffer( new LDP8806_GRB[ count ] ),
+          _secondBuffer( doubleBuffer ? new LDP8806_GRB[ count ] : nullptr ),
+          // one 'latch'/start-of-data mark frame for every 32 leds
+          _latchFrames( ( count + 31 ) / 32 )
+    {
+        spi_bus_config_t buscfg;
+        memset( &buscfg, 0, sizeof( buscfg ) );
+        buscfg.mosi_io_num = datapin;
+        buscfg.miso_io_num = -1;
+        buscfg.sclk_io_num = clkpin;
+        buscfg.quadwp_io_num = -1;
+        buscfg.quadhd_io_num = -1;
+        buscfg.max_transfer_sz = 65535;
+
+        spi_device_interface_config_t devcfg;
+        memset( &devcfg, 0, sizeof( devcfg ) );
+        devcfg.clock_speed_hz = clock_speed_hz;
+        devcfg.mode = 0;
+        devcfg.spics_io_num = -1;
+        devcfg.queue_size = TRANS_COUNT_MAX;
+        devcfg.pre_cb = nullptr;
+
+        auto ret = spi_bus_initialize( HSPI_HOST, &buscfg, 1 );
+        assert( ret == ESP_OK );
+
+        ret = spi_bus_add_device( HSPI_HOST, &devcfg, &_spi );
+        assert( ret == ESP_OK );
+
+        std::fill_n( _latchBuffer, LATCH_FRAME_SIZE_BYTES, 0x0 );
+    }
+
+    ~LDP8806() {
+        // noop
+    }
+
+    LDP8806_GRB& operator[]( int idx ) {
+        return _firstBuffer[ idx ];
+    }
+
+    const LDP8806_GRB& operator[]( int idx ) const {
+        return _firstBuffer[ idx ];
+    }
+
+    void show() {
+        _buffer = _firstBuffer.get();
+        startTransmission();
+        swapBuffers();
+    }
+
+    void wait() {
+        while ( _transCount-- ) {
+            spi_transaction_t *t;
+            spi_device_get_trans_result( _spi, &t, portMAX_DELAY );
+        }
+    }
+private:
+    void swapBuffers() {
+        if ( _secondBuffer )
+            _firstBuffer.swap( _secondBuffer );
+    }
+
+    void startTransmission() {
+        _transCount = 0;
+        for ( int i = 0; i != TRANS_COUNT_MAX; i++ ) {
+            _transactions[ i ].cmd = 0;
+            _transactions[ i ].addr = 0;
+            _transactions[ i ].flags = 0;
+            _transactions[ i ].rxlength = 0;
+            _transactions[ i ].rx_buffer = nullptr;
+        }
+        // LED Data
+        _transactions[ 0 ].length = ( LED_FRAME_SIZE_BYTES * 8 ) * _count;
+        _transactions[ 0 ].tx_buffer = _buffer;
+        spi_device_queue_trans( _spi, _transactions + _transCount, portMAX_DELAY );
+        _transCount++;
+
+        // 'latch'/start-of-data marker frames
+        for ( int i = 0; i < _latchFrames; i++ ) {
+            _transactions[ _transCount ].length = ( LATCH_FRAME_SIZE_BYTES * 8 );
+            _transactions[ _transCount ].tx_buffer = _latchBuffer;
+            spi_device_queue_trans( _spi, _transactions + _transCount, portMAX_DELAY );
+            _transCount++;
+        }
+    }
+
+    spi_device_handle_t _spi;
+    int _count;
+    std::unique_ptr< LDP8806_GRB[] > _firstBuffer, _secondBuffer;
+    LDP8806_GRB *_buffer;
+
+    spi_transaction_t _transactions[ TRANS_COUNT_MAX ];
+    int _transCount;
+
+    int _latchFrames;
+    uint8_t _latchBuffer[ LATCH_FRAME_SIZE_BYTES ];
+};

code/components/jomjol_controlGPIO/server_GPIO.cpp

@@ -107,7 +107,8 @@ void GpioPin::init()
     //configure GPIO with the given settings
     gpio_config(&io_conf);
 
-    if (_interruptType != GPIO_INTR_DISABLE) {
+//    if (_interruptType != GPIO_INTR_DISABLE) {                // ohne GPIO_PIN_MODE_EXTERNAL_FLASH_WS281X, wenn das genutzt wird, dann soll auch der Handler hier nicht initialisiert werden, da das dann über SmartLED erfolgt.
+    if ((_interruptType != GPIO_INTR_DISABLE) && (_interruptType != GPIO_PIN_MODE_EXTERNAL_FLASH_WS281X)) {
         //hook isr handler for specific gpio pin
         ESP_LOGD(TAG_SERVERGPIO, "GpioPin::init add isr handler for GPIO %d\r\n", _gpio);
         gpio_isr_handler_add(_gpio, gpio_isr_handler, (void*)&_gpio);
@@ -212,6 +213,8 @@ void GpioHandler::init()
     // printf("wait before start %ldms\r\n", (long) xDelay);
     // vTaskDelay( xDelay );
 
+    printf("*************** Start GPIOHandler_Init *****************\n");
+
     if (gpioMap == NULL) {
         gpioMap = new std::map<gpio_num_t, GpioPin*>();
     } else {
@@ -295,16 +298,24 @@ bool GpioHandler::readConfig()
     std::string line = "";
     bool disabledLine = false;
     bool eof = false;
+    gpio_num_t gpioExtLED = (gpio_num_t) 0;
+    
+//    printf("readConfig - Start 1\n");
         
-    while ((!configFile.GetNextParagraph(line, disabledLine, eof) || (line.compare("[GPIO]") != 0)) && !disabledLine && !eof) {}
+    while ((!configFile.GetNextParagraph(line, disabledLine, eof) || (line.compare("[GPIO]") != 0)) && !eof) {}
     if (eof)
         return false;
-    
+
+//    printf("readConfig - Start 2 line: %s, disabbledLine: %d\n", line.c_str(), (int) disabledLine);
+
+
     _isEnabled = !disabledLine;
 
     if (!_isEnabled)
         return false;
 
+//    printf("readConfig - Start 3\n");
+
 //    std::string mainTopicMQTT = "";
     std::string mainTopicMQTT = GetMQTTMainTopic();
     if (mainTopicMQTT.length() > 0)
@@ -346,10 +357,40 @@ bool GpioHandler::readConfig()
             GpioPin* gpioPin = new GpioPin(gpioNr, gpioName, pinMode, intType,dutyResolution, mqttTopic, httpEnabled);
             (*gpioMap)[gpioNr] = gpioPin;
 
+            if (pinMode == GPIO_PIN_MODE_EXTERNAL_FLASH_WS281X)
+            {
+                printf("Found WS2812 auf GPIO %d\n", gpioNr);
+                gpioExtLED = gpioNr;
+            }
+
             if (intType != GPIO_INTR_DISABLE) {
                 registerISR = true;
             }
         }
+        if (toUpper(zerlegt[0]) == "LEDNUMBERS")
+        {
+            LEDNumbers = stoi(zerlegt[6]);
+        }
+        if (toUpper(zerlegt[0]) == "LEDCOLOR")
+        {
+            uint8_t _r, _g, _b;
+            _r = stoi(zerlegt[1]);
+            _g = stoi(zerlegt[2]);
+            _b = stoi(zerlegt[3]);
+
+            LEDColor = Rgb{_r, _g, _b};
+        }
+        if (toUpper(zerlegt[0]) == "LEDTYPE")
+        {
+            if (zerlegt[1] == "WS2812")
+                LEDType = LED_WS2812;
+            if (zerlegt[1] == "WS2812B")
+                LEDType = LED_WS2812B;
+            if (zerlegt[1] == "SK6812")
+                LEDType = LED_SK6812;
+            if (zerlegt[1] == "WS2813")
+                LEDType = LED_WS2813;
+        }
     }
 
     if (registerISR) {
@@ -357,6 +398,28 @@ bool GpioHandler::readConfig()
         gpio_install_isr_service(ESP_INTR_FLAG_LOWMED | ESP_INTR_FLAG_IRAM);
     }
 
+    if (gpioExtLED > 0)
+    {
+    //    LogFile.WriteToFile("Startsequence 06");      
+//        vTaskDelay( xDelay );   
+//        xDelay = 5000 / portTICK_PERIOD_MS;
+//        printf("main: sleep for : %ldms\n", (long) xDelay);
+
+        SmartLed leds( LED_WS2812, 2, GPIO_NUM_12, 0, DoubleBuffer );
+
+
+        leds[ 0 ] = Rgb{ 255, 0, 0 };
+        leds[ 1 ] = Rgb{ 255, 255, 255 };
+        leds.show();    
+/*
+//        _SmartLED = new SmartLed(LEDType, LEDNumbers, gpioExtLED, 0, DoubleBuffer);
+        _SmartLED = new SmartLed( LED_WS2812, 2, GPIO_NUM_12, 0, DoubleBuffer );
+        (*_SmartLED)[ 0 ] = Rgb{ 255, 0, 0 };
+        (*_SmartLED)[ 1 ] = LEDColor;
+        _SmartLED->show();
+*/
+    }
+
     return true;
 }
 
@@ -498,7 +561,24 @@ void GpioHandler::flashLightEnable(bool value)
                 } else {
                     ESP_LOGE(TAG_SERVERGPIO, "Can't set flash light pin GPIO %d.  Error: %s\r\n", (int)it->first, resp_str.c_str());
                 }
-            }
+            } else 
+                {
+                    if (it->second->getMode() == GPIO_PIN_MODE_EXTERNAL_FLASH_WS281X)
+                    {
+                        SmartLed leds( LEDType, LEDNumbers, it->second->getGPIO(), 0, DoubleBuffer );
+                        if (value)
+                        {
+                            for (int i = 0; i < LEDNumbers; ++i)
+                                leds[i] = LEDColor;
+                        }
+                        else
+                        {
+                            for (int i = 0; i < LEDNumbers; ++i)
+                                leds[i] = Rgb{0, 0, 0};
+                        }
+                        leds.show();   
+                    }
+                }
         }
     }
 }

code/components/jomjol_controlGPIO/server_GPIO.h

@@ -7,6 +7,8 @@
 #include <map>
 #include "driver/gpio.h"
 
+#include "SmartLeds.h"
+
 //#include "ClassControllCamera.h"
 
 typedef enum {
@@ -45,6 +47,7 @@ public:
     void gpioInterrupt(int value);
     gpio_int_type_t getInterruptType() { return _interruptType; }
     gpio_pin_mode_t getMode() { return _mode; }
+    gpio_num_t getGPIO(){return _gpio;};
 
 private:
     gpio_num_t _gpio;
@@ -80,6 +83,11 @@ private:
     TaskHandle_t xHandleTaskGpio = NULL;
     bool _isEnabled = false;
 
+    int LEDNumbers = 2;
+    Rgb LEDColor = Rgb{ 255, 255, 255 };
+    LedType LEDType = LED_WS2812;
+
+
     bool readConfig();
     void clear();
     

code/components/jomjol_controlcamera/ClassControllCamera.cpp

@@ -499,6 +499,7 @@ void CCamera::LightOnOff(bool status)
 {
     GpioHandler* gpioHandler = gpio_handler_get();
     if ((gpioHandler != NULL) && (gpioHandler->isEnabled())) {
+//        printf("Use gpioHandler flashLigh\n");
         gpioHandler->flashLightEnable(status);
     }  else {
         // Init the GPIO

code/components/jomjol_flowcontroll/ClassFlowCNNGeneral.cpp

@@ -600,13 +600,20 @@ std::vector<HTMLInfo*> ClassFlowCNNGeneral::GetHTMLInfo()
                 zw->filename_org = GENERAL[_ana]->name + "_" + GENERAL[_ana]->ROI[i]->name + ".jpg";
             }
 
-            zw->val = GENERAL[_ana]->ROI[i]->result;
+            if (CNNType == Analogue)
+                zw->val = GENERAL[_ana]->ROI[i]->resultklasse;
+            else
+                zw->val = GENERAL[_ana]->ROI[i]->result;
             zw->image = GENERAL[_ana]->ROI[i]->image;
             zw->image_org = GENERAL[_ana]->ROI[i]->image_org;
 
+            printf("Push %s\n", zw->filename.c_str());
+
             result.push_back(zw);
         }
 
+    printf("größe: %d\n", result.size());
+
     return result;
 }
 

code/components/jomjol_flowcontroll/ClassFlowControll.cpp

@@ -83,7 +83,10 @@ std::vector<HTMLInfo*> ClassFlowControll::GetAllDigital()
 */
 
     if (flowdigit)
-        flowdigit->GetHTMLInfo();
+    {
+        printf("ClassFlowControll::GetAllDigital - flowdigit != NULL\n");
+        return flowdigit->GetHTMLInfo();
+    }
 
     std::vector<HTMLInfo*> empty;
     return empty;
@@ -91,17 +94,8 @@ std::vector<HTMLInfo*> ClassFlowControll::GetAllDigital()
 
 std::vector<HTMLInfo*> ClassFlowControll::GetAllAnalog()
 {
-/*
-    for (int i = 0; i < FlowControll.size(); ++i)
-        if (FlowControll[i]->name().compare("ClassFlowAnalog") == 0)
-            return ((ClassFlowAnalog*) (FlowControll[i]))->GetHTMLInfo();
-
-    std::vector<HTMLInfo*> empty;
-    return empty;
-*/
-
     if (flowanalog)
-        flowanalog->GetHTMLInfo();
+        return flowanalog->GetHTMLInfo();
 
     std::vector<HTMLInfo*> empty;
     return empty;

code/components/jomjol_tfliteclass/server_tflite.cpp

@@ -284,8 +284,7 @@ esp_err_t handler_wasserzaehler(httpd_req_t *req)
         httpd_resp_sendstr_chunk(req, txt.c_str()); 
         
         std::vector<HTMLInfo*> htmlinfo;
-        htmlinfo = tfliteflow.GetAllDigital();  
-        printf("Size of htmlinfo: %i\n", htmlinfo.size());
+        htmlinfo = tfliteflow.GetAllDigital(); 
         for (int i = 0; i < htmlinfo.size(); ++i)
         {
             if (tfliteflow.GetTypeDigital() == Digital)

code/main/Color.cpp

@@ -0,0 +1,132 @@
+#include "Color.h"
+#include <algorithm>
+#include <cmath>
+#include <cassert>
+
+namespace {
+
+// Int -> fixed point
+int up( int x ) { return x * 255; }
+
+} // namespace
+
+int iRgbSqrt( int num ) {
+    // https://en.wikipedia.org/wiki/Methods_of_computing_square_roots#Binary_numeral_system_.28base_2.29
+    assert( "sqrt input should be non-negative" && num >= 0 );
+    assert( "sqrt input should no exceed 16 bits" && num <= 0xFFFF );
+    int res = 0;
+    int bit = 1 << 16;
+    while ( bit > num )
+        bit >>= 2;
+    while ( bit != 0 ) {
+        if ( num >= res + bit ) {
+            num -= res + bit;
+            res = ( res >> 1 ) + bit;
+        } else
+            res >>= 1;
+        bit >>= 2;
+    }
+    return res;
+}
+
+Rgb::Rgb( Hsv y ) {
+    // https://stackoverflow.com/questions/24152553/hsv-to-rgb-and-back-without-floating-point-math-in-python
+    // greyscale
+    if( y.s == 0 ) {
+        r = g = b = y.v;
+        return;
+    }
+
+    const int region = y.h / 43;
+    const int remainder = ( y.h - ( region * 43 ) ) * 6;
+
+    const int p = ( y.v * ( 255 - y.s ) ) >> 8;
+    const int q = ( y.v * ( 255 - ( ( y.s * remainder ) >> 8 ) ) ) >> 8;
+    const int t = ( y.v * ( 255 - ( ( y.s * (255 -remainder ) ) >> 8 ) ) ) >> 8;
+
+    switch( region ) {
+        case 0: r = y.v; g = t; b = p; break;
+        case 1: r = q; g = y.v; b = p; break;
+        case 2: r = p; g = y.v; b = t; break;
+        case 3: r = p; g = q; b = y.v; break;
+        case 4: r = t; g = p; b = y.v; break;
+        case 5: r = y.v; g = p; b = q; break;
+        default: __builtin_trap();
+    }
+
+    a = y.a;
+}
+
+Rgb& Rgb::operator=( Hsv hsv ) {
+    Rgb r{ hsv };
+    swap( r );
+    return *this;
+}
+
+Rgb Rgb::operator+( Rgb in ) const {
+    auto copy = *this;
+    copy += in;
+    return copy;
+}
+
+Rgb& Rgb::operator+=( Rgb in ) {
+    unsigned int red = r + in.r;
+    r = ( red < 255 ) ? red : 255;
+    unsigned int green = g + in.g;
+    g = ( green < 255 ) ? green : 255;
+    unsigned int blue = b + in.b;
+    b = ( blue < 255 ) ? blue : 255;
+    return *this;
+}
+
+Rgb& Rgb::blend( Rgb in ) {
+    unsigned int inAlpha = in.a * ( 255 - a );
+    unsigned int alpha = a + inAlpha;
+    r = iRgbSqrt( ( ( r * r * a ) + ( in.r * in.r * inAlpha ) ) / alpha );
+    g = iRgbSqrt( ( ( g * g * a ) + ( in.g * in.g * inAlpha ) ) / alpha );
+    b = iRgbSqrt( ( ( b * b * a ) + ( in.b * in.b * inAlpha ) ) / alpha );
+    a = alpha;
+    return *this;
+}
+
+uint8_t IRAM_ATTR Rgb::getGrb( int idx ) {
+    switch ( idx ) {
+        case 0: return g;
+        case 1: return r;
+        case 2: return b;
+    }
+    __builtin_unreachable();
+}
+
+Hsv::Hsv( Rgb r ) {
+    int min = std::min( r.r, std::min( r.g, r.b ) );
+    int max = std::max( r.r, std::max( r.g, r.b ) );
+    int chroma = max - min;
+
+    v = max;
+    if ( chroma == 0 ) {
+        h = s = 0;
+        return;
+    }
+
+    s = up( chroma ) / max;
+    int hh;
+    if ( max == r.r )
+        hh = ( up( int( r.g ) - int( r.b ) ) ) / chroma / 6;
+    else if ( max == r.g )
+        hh = 255 / 3 + ( up( int( r.b ) - int( r.r ) ) ) / chroma / 6;
+    else
+        hh = 2 * 255 / 3 + ( up( int( r.r ) - int( r.g ) ) ) / chroma / 6;
+
+    if ( hh < 0 )
+        hh += 255;
+    h = hh;
+
+    a = r.a;
+}
+
+Hsv& Hsv::operator=( Rgb rgb ) {
+    Hsv h{ rgb };
+    swap( h );
+    return *this;
+}

code/main/Color.h

@@ -0,0 +1,69 @@
+#pragma once
+
+#include <cstdint>
+#include "esp_attr.h"
+union Hsv;
+
+union Rgb {
+    struct __attribute__ ((packed)) {
+        uint8_t r, g, b, a;
+    };
+    uint32_t value;
+
+    Rgb( uint8_t r = 0, uint8_t g = 0, uint8_t b = 0, uint8_t a = 255 ) : r( r ), g( g ), b( b ), a( a ) {}
+    Rgb( Hsv c );
+    Rgb& operator=( Rgb rgb ) { swap( rgb ); return *this; }
+    Rgb& operator=( Hsv hsv );
+    Rgb operator+( Rgb in ) const;
+    Rgb& operator+=( Rgb in );
+    bool operator==( Rgb in ) const { return in.value == value; }
+    Rgb& blend( Rgb in );
+    void swap( Rgb& o ) {  value = o.value; }
+    void linearize() {
+        r = channelGamma(r);
+        g = channelGamma(g);
+        b = channelGamma(b);
+    }
+
+    uint8_t IRAM_ATTR getGrb( int idx );
+
+    void stretchChannels( uint8_t maxR, uint8_t maxG, uint8_t maxB ) {
+        r = stretch( r, maxR );
+        g = stretch( g, maxG );
+        b = stretch( b, maxB );
+    }
+
+    void stretchChannelsEvenly( uint8_t max ) {
+        stretchChannels( max, max, max );
+    }
+
+private:
+    uint8_t stretch( int value, uint8_t max ) {
+        return ( value * max ) >> 8;
+    }
+
+    uint8_t channelGamma( int channel ) {
+        /* The optimal gamma correction is x^2.8. However, this is expensive to
+         * compute. Therefore, we use x^3 for gamma correction. Also, we add a
+         * bias as the WS2812 LEDs do not turn on for values less than 4. */
+        if (channel == 0)
+            return channel;
+        channel = channel * channel * channel * 251;
+        channel >>= 24;
+        return static_cast< uint8_t >( 4 + channel );
+    }
+};
+
+union Hsv {
+    struct __attribute__ ((packed)) {
+        uint8_t h, s, v, a;
+    };
+    uint32_t value;
+
+    Hsv( uint8_t h, uint8_t s = 0, uint8_t v = 0, uint8_t a = 255 ) : h( h ), s( s ), v( v ), a( a ) {}
+    Hsv( Rgb r );
+    Hsv& operator=( Hsv h ) { swap( h ); return *this; }
+    Hsv& operator=( Rgb rgb );
+    bool operator==( Hsv in ) const { return in.value == value; }
+    void swap( Hsv& o ) { value = o.value; }
+};

code/main/SmartLeds.cpp

@@ -0,0 +1,63 @@
+#include "SmartLeds.h"
+
+IsrCore SmartLed::_interruptCore = CoreCurrent;
+intr_handle_t SmartLed::_interruptHandle = NULL;
+
+SmartLed*& IRAM_ATTR SmartLed::ledForChannel( int channel ) {
+    static SmartLed* table[8] = { nullptr };
+    assert( channel < 8 );
+    return table[ channel ];
+}
+
+void IRAM_ATTR SmartLed::interruptHandler(void*) {
+    for (int channel = 0; channel != 8; channel++) {
+        auto self = ledForChannel( channel );
+
+        if ( RMT.int_st.val & (1 << (24 + channel ) ) ) { // tx_thr_event
+            if ( self )
+                self->copyRmtHalfBlock();
+            RMT.int_clr.val |= 1 << ( 24 + channel );
+        } else if ( RMT.int_st.val & ( 1 << (3 * channel ) ) ) { // tx_end
+            if ( self )
+                xSemaphoreGiveFromISR( self->_finishedFlag, nullptr );
+            RMT.int_clr.val |= 1 << ( 3 * channel );
+        }
+    }
+}
+
+void IRAM_ATTR SmartLed::copyRmtHalfBlock() {
+    int offset = detail::MAX_PULSES * _halfIdx;
+    _halfIdx = !_halfIdx;
+    int len = 3 - _componentPosition + 3 * ( _count - 1 );
+    len = std::min( len, detail::MAX_PULSES / 8 );
+
+    if ( !len ) {
+        for ( int i = 0; i < detail::MAX_PULSES; i++) {
+            RMTMEM.chan[ _channel].data32[i + offset ].val = 0;
+        }
+    }
+
+    int i;
+    for ( i = 0; i != len && _pixelPosition != _count; i++ ) {
+        uint8_t val = _buffer[ _pixelPosition ].getGrb( _componentPosition );
+        for ( int j = 0; j != 8; j++, val <<= 1 ) {
+            int bit = val >> 7;
+            int idx = i * 8 + offset + j;
+            RMTMEM.chan[ _channel ].data32[ idx ].val = _bitToRmt[ bit & 0x01 ].value;
+        }
+        if ( _pixelPosition == _count - 1 && _componentPosition == 2 ) {
+            RMTMEM.chan[ _channel ].data32[ i * 8 + offset + 7 ].duration1 =
+                _timing.TRS / ( detail::RMT_DURATION_NS * detail::DIVIDER );
+        }
+
+        _componentPosition++;
+        if ( _componentPosition == 3 ) {
+            _componentPosition = 0;
+            _pixelPosition++;
+        }
+    }
+
+    for ( i *= 8; i != detail::MAX_PULSES; i++ ) {
+        RMTMEM.chan[ _channel ].data32[ i + offset ].val = 0;
+    }
+}

code/main/SmartLeds.h

@@ -0,0 +1,530 @@
+#pragma once
+
+/*
+ * A C++ driver for the WS2812 LEDs using the RMT peripheral on the ESP32.
+ *
+ * Jan "yaqwsx" Mrázek <email@honzamrazek.cz>
+ *
+ * Based on the work by Martin F. Falatic - https://github.com/FozzTexx/ws2812-demo
+ */
+
+/*
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in
+ * all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+ * THE SOFTWARE.
+ */
+
+#include <memory>
+#include <cassert>
+#include <cstring>
+
+#if defined ( ARDUINO )
+    extern "C" { // ...someone forgot to put in the includes...
+        #include "esp32-hal.h"
+        #include "esp_intr_alloc.h"
+        #include "esp_ipc.h"
+        #include "driver/gpio.h"
+        #include "driver/periph_ctrl.h"
+        #include "freertos/semphr.h"
+        #include "soc/rmt_struct.h"
+        #include <driver/spi_master.h>
+        #include "esp_idf_version.h"
+#if ESP_IDF_VERSION >= ESP_IDF_VERSION_VAL( 4, 0, 0 )
+        #include "soc/dport_reg.h"
+#endif
+    }
+#elif defined ( ESP_PLATFORM )
+    extern "C" { // ...someone forgot to put in the includes...
+        #include <esp_intr_alloc.h>
+        #include <esp_ipc.h>
+        #include <driver/gpio.h>
+        #include <freertos/FreeRTOS.h>
+        #include <freertos/semphr.h>
+        #include <soc/dport_reg.h>
+        #include <soc/gpio_sig_map.h>
+        #include <soc/rmt_struct.h>
+        #include <driver/spi_master.h>
+    }
+    #include <stdio.h>
+#endif
+
+#include "Color.h"
+
+namespace detail {
+
+struct TimingParams {
+    uint32_t T0H;
+    uint32_t T1H;
+    uint32_t T0L;
+    uint32_t T1L;
+    uint32_t TRS;
+};
+
+union RmtPulsePair {
+    struct {
+        int duration0:15;
+        int level0:1;
+        int duration1:15;
+        int level1:1;
+    };
+    uint32_t value;
+};
+
+static const int DIVIDER = 4; // 8 still seems to work, but timings become marginal
+static const int MAX_PULSES = 32; // A channel has a 64 "pulse" buffer - we use half per pass
+static const double RMT_DURATION_NS = 12.5; // minimum time of a single RMT duration based on clock ns
+
+} // namespace detail
+
+using LedType = detail::TimingParams;
+
+static const LedType LED_WS2812  = { 350, 700, 800, 600, 50000 };
+static const LedType LED_WS2812B = { 400, 850, 850, 400, 50100 };
+static const LedType LED_SK6812  = { 300, 600, 900, 600, 80000 };
+static const LedType LED_WS2813  = { 350, 800, 350, 350, 300000 };
+
+enum BufferType { SingleBuffer = 0, DoubleBuffer };
+
+enum IsrCore { CoreFirst = 0, CoreSecond = 1, CoreCurrent = 2};
+
+class SmartLed {
+public:
+    // The RMT interrupt must not run on the same core as WiFi interrupts, otherwise SmartLeds
+    // can't fill the RMT buffer fast enough, resulting in rendering artifacts.
+    // Usually, that means you have to set isrCore == CoreSecond.
+    //
+    // If you use anything other than CoreCurrent, the FreeRTOS scheduler MUST be already running,
+    // so you can't use it if you define SmartLed as global variable.
+    SmartLed( const LedType& type, int count, int pin, int channel = 0, BufferType doubleBuffer = SingleBuffer, IsrCore isrCore = CoreCurrent)
+        : _timing( type ),
+          _channel( channel ),
+          _count( count ),
+          _firstBuffer( new Rgb[ count ] ),
+          _secondBuffer( doubleBuffer ? new Rgb[ count ] : nullptr ),
+          _finishedFlag( xSemaphoreCreateBinary() )
+    {
+        assert( channel >= 0 && channel < 8 );
+        assert( ledForChannel( channel ) == nullptr );
+
+        xSemaphoreGive( _finishedFlag );
+
+        DPORT_SET_PERI_REG_MASK( DPORT_PERIP_CLK_EN_REG, DPORT_RMT_CLK_EN );
+        DPORT_CLEAR_PERI_REG_MASK( DPORT_PERIP_RST_EN_REG, DPORT_RMT_RST );
+
+        PIN_FUNC_SELECT( GPIO_PIN_MUX_REG[ pin ], 2 );
+        gpio_set_direction( static_cast< gpio_num_t >( pin ), GPIO_MODE_OUTPUT );
+        gpio_matrix_out( static_cast< gpio_num_t >( pin ), RMT_SIG_OUT0_IDX + _channel, 0, 0 );
+        initChannel( _channel );
+
+        RMT.tx_lim_ch[ _channel ].limit = detail::MAX_PULSES;
+        RMT.int_ena.val |= 1 << ( 24 + _channel );
+        RMT.int_ena.val |= 1 << ( 3 * _channel );
+
+        _bitToRmt[ 0 ].level0 = 1;
+        _bitToRmt[ 0 ].level1 = 0;
+        _bitToRmt[ 0 ].duration0 = _timing.T0H / ( detail::RMT_DURATION_NS * detail::DIVIDER );
+        _bitToRmt[ 0 ].duration1 = _timing.T0L / ( detail::RMT_DURATION_NS * detail::DIVIDER );
+
+        _bitToRmt[ 1 ].level0 = 1;
+        _bitToRmt[ 1 ].level1 = 0;
+        _bitToRmt[ 1 ].duration0 = _timing.T1H / ( detail::RMT_DURATION_NS * detail::DIVIDER );
+        _bitToRmt[ 1 ].duration1 = _timing.T1L / ( detail::RMT_DURATION_NS * detail::DIVIDER );
+
+        if ( !anyAlive() ) {
+            _interruptCore = isrCore;
+            if(isrCore != CoreCurrent) {
+                ESP_ERROR_CHECK(esp_ipc_call_blocking(isrCore, registerInterrupt, NULL));
+            } else {
+                registerInterrupt(NULL);
+            }
+        }
+
+        ledForChannel( channel ) = this;
+    }
+
+    ~SmartLed() {
+        ledForChannel( _channel ) = nullptr;
+        if ( !anyAlive() ) {
+            if(_interruptCore != CoreCurrent) {
+                ESP_ERROR_CHECK(esp_ipc_call_blocking(_interruptCore, unregisterInterrupt, NULL));
+            } else {
+                unregisterInterrupt(NULL);
+            }
+        }
+        vSemaphoreDelete( _finishedFlag );
+    }
+
+    Rgb& operator[]( int idx ) {
+        return _firstBuffer[ idx ];
+    }
+
+    const Rgb& operator[]( int idx ) const {
+        return _firstBuffer[ idx ];
+    }
+
+    void show() {
+        _buffer = _firstBuffer.get();
+        startTransmission();
+        swapBuffers();
+    }
+
+    bool wait( TickType_t timeout = portMAX_DELAY ) {
+        if( xSemaphoreTake( _finishedFlag, timeout ) == pdTRUE ) {
+            xSemaphoreGive( _finishedFlag );
+            return true;
+        }
+        return false;
+    }
+
+    int size() const {
+        return _count;
+    }
+
+    Rgb *begin() { return _firstBuffer.get(); }
+    const Rgb *begin() const { return _firstBuffer.get(); }
+    const Rgb *cbegin() const { return _firstBuffer.get(); }
+
+    Rgb *end() { return _firstBuffer.get() + _count; }
+    const Rgb *end() const { return _firstBuffer.get() + _count; }
+    const Rgb *cend() const { return _firstBuffer.get() + _count; }
+
+private:
+    static intr_handle_t _interruptHandle;
+    static IsrCore _interruptCore;
+
+    static void initChannel( int channel ) {
+        RMT.apb_conf.fifo_mask = 1;  //enable memory access, instead of FIFO mode.
+        RMT.apb_conf.mem_tx_wrap_en = 1; //wrap around when hitting end of buffer
+        RMT.conf_ch[ channel ].conf0.div_cnt = detail::DIVIDER;
+        RMT.conf_ch[ channel ].conf0.mem_size = 1;
+        RMT.conf_ch[ channel ].conf0.carrier_en = 0;
+        RMT.conf_ch[ channel ].conf0.carrier_out_lv = 1;
+        RMT.conf_ch[ channel ].conf0.mem_pd = 0;
+
+        RMT.conf_ch[ channel ].conf1.rx_en = 0;
+        RMT.conf_ch[ channel ].conf1.mem_owner = 0;
+        RMT.conf_ch[ channel ].conf1.tx_conti_mode = 0;    //loop back mode.
+        RMT.conf_ch[ channel ].conf1.ref_always_on = 1;    // use apb clock: 80M
+        RMT.conf_ch[ channel ].conf1.idle_out_en = 1;
+        RMT.conf_ch[ channel ].conf1.idle_out_lv = 0;
+    }
+
+    static void registerInterrupt(void *) {
+        ESP_ERROR_CHECK(esp_intr_alloc( ETS_RMT_INTR_SOURCE, 0, interruptHandler, nullptr, &_interruptHandle));
+    }
+
+    static void unregisterInterrupt(void*) {
+        esp_intr_free( _interruptHandle );
+    }
+
+    static SmartLed*& IRAM_ATTR ledForChannel( int channel );
+    static void IRAM_ATTR interruptHandler( void* );
+
+    void IRAM_ATTR copyRmtHalfBlock();
+
+    void swapBuffers() {
+        if ( _secondBuffer )
+            _firstBuffer.swap( _secondBuffer );
+    }
+
+    void startTransmission() {
+        // Invalid use of the library
+        if( xSemaphoreTake( _finishedFlag, 0 ) != pdTRUE )
+            abort();
+
+        _pixelPosition = _componentPosition = _halfIdx = 0;
+        copyRmtHalfBlock();
+        if ( _pixelPosition < _count )
+            copyRmtHalfBlock();
+
+        RMT.conf_ch[ _channel ].conf1.mem_rd_rst = 1;
+        RMT.conf_ch[ _channel ].conf1.tx_start = 1;
+    }
+
+    static bool anyAlive() {
+        for ( int i = 0; i != 8; i++ )
+            if ( ledForChannel( i ) != nullptr ) return true;
+        return false;
+    }
+
+    const LedType& _timing;
+    int _channel;
+    detail::RmtPulsePair _bitToRmt[ 2 ];
+    int _count;
+    std::unique_ptr< Rgb[] > _firstBuffer;
+    std::unique_ptr< Rgb[] > _secondBuffer;
+    Rgb *_buffer;
+
+    xSemaphoreHandle _finishedFlag;
+
+    int _pixelPosition;
+    int _componentPosition;
+    int _halfIdx;
+};
+
+class Apa102 {
+public:
+    struct ApaRgb {
+        ApaRgb( uint8_t r = 0, uint8_t g = 0, uint32_t b = 0, uint32_t v = 0xFF )
+            : v( 0xE0 | v ), b( b ), g( g ), r( r )
+        {}
+
+        ApaRgb& operator=( const Rgb& o ) {
+            r = o.r;
+            g = o.g;
+            b = o.b;
+            return *this;
+        }
+
+        ApaRgb& operator=( const Hsv& o ) {
+            *this = Rgb{ o };
+            return *this;
+        }
+
+        uint8_t v, b, g, r;
+    };
+
+    static const int FINAL_FRAME_SIZE = 4;
+    static const int TRANS_COUNT = 2 + 8;
+
+    Apa102( int count, int clkpin, int datapin, BufferType doubleBuffer = SingleBuffer )
+        : _count( count ),
+          _firstBuffer( new ApaRgb[ count ] ),
+          _secondBuffer( doubleBuffer ? new ApaRgb[ count ] : nullptr ),
+          _initFrame( 0 )
+    {
+        spi_bus_config_t buscfg;
+        memset( &buscfg, 0, sizeof( buscfg ) );
+        buscfg.mosi_io_num = datapin;
+        buscfg.miso_io_num = -1;
+        buscfg.sclk_io_num = clkpin;
+        buscfg.quadwp_io_num = -1;
+        buscfg.quadhd_io_num = -1;
+        buscfg.max_transfer_sz = 65535;
+
+        spi_device_interface_config_t devcfg;
+        memset( &devcfg, 0, sizeof( devcfg ) );
+        devcfg.clock_speed_hz = 1000000;
+        devcfg.mode = 0;
+        devcfg.spics_io_num = -1;
+        devcfg.queue_size = TRANS_COUNT;
+        devcfg.pre_cb = nullptr;
+
+        auto ret = spi_bus_initialize( HSPI_HOST, &buscfg, 1 );
+        assert( ret == ESP_OK );
+
+        ret = spi_bus_add_device( HSPI_HOST, &devcfg, &_spi );
+        assert( ret == ESP_OK );
+
+        std::fill_n( _finalFrame, FINAL_FRAME_SIZE, 0xFFFFFFFF );
+    }
+
+    ~Apa102() {
+        // ToDo
+    }
+
+    ApaRgb& operator[]( int idx ) {
+        return _firstBuffer[ idx ];
+    }
+
+    const ApaRgb& operator[]( int idx ) const {
+        return _firstBuffer[ idx ];
+    }
+
+    void show() {
+        _buffer = _firstBuffer.get();
+        startTransmission();
+        swapBuffers();
+    }
+
+    void wait() {
+        for ( int i = 0; i != _transCount; i++ ) {
+            spi_transaction_t *t;
+            spi_device_get_trans_result( _spi, &t, portMAX_DELAY );
+        }
+    }
+private:
+    void swapBuffers() {
+        if ( _secondBuffer )
+            _firstBuffer.swap( _secondBuffer );
+    }
+
+    void startTransmission() {
+        for ( int i = 0; i != TRANS_COUNT; i++ ) {
+            _transactions[ i ].cmd = 0;
+            _transactions[ i ].addr = 0;
+            _transactions[ i ].flags = 0;
+            _transactions[ i ].rxlength = 0;
+            _transactions[ i ].rx_buffer = nullptr;
+        }
+        // Init frame
+        _transactions[ 0 ].length = 32;
+        _transactions[ 0 ].tx_buffer = &_initFrame;
+        spi_device_queue_trans( _spi, _transactions + 0, portMAX_DELAY );
+        // Data
+        _transactions[ 1 ].length = 32 * _count;
+        _transactions[ 1 ].tx_buffer = _buffer;
+        spi_device_queue_trans( _spi, _transactions + 1, portMAX_DELAY );
+        _transCount = 2;
+        // End frame
+        for ( int i = 0; i != 1 + _count / 32 / FINAL_FRAME_SIZE; i++ ) {
+            _transactions[ 2 + i ].length = 32 * FINAL_FRAME_SIZE;
+            _transactions[ 2 + i ].tx_buffer = _finalFrame;
+            spi_device_queue_trans( _spi, _transactions + 2 + i, portMAX_DELAY );
+            _transCount++;
+        }
+    }
+
+    spi_device_handle_t _spi;
+    int _count;
+    std::unique_ptr< ApaRgb[] > _firstBuffer, _secondBuffer;
+    ApaRgb *_buffer;
+
+    spi_transaction_t _transactions[ TRANS_COUNT ];
+    int _transCount;
+
+    uint32_t _initFrame;
+    uint32_t _finalFrame[ FINAL_FRAME_SIZE ];
+};
+
+class LDP8806 {
+public:
+    struct LDP8806_GRB {
+
+        LDP8806_GRB( uint8_t g_7bit = 0, uint8_t r_7bit = 0, uint32_t b_7bit = 0 )
+            : g( g_7bit ), r( r_7bit ), b( b_7bit )
+        {
+        }
+
+        LDP8806_GRB& operator=( const Rgb& o ) {
+            //Convert 8->7bit colour
+            r = ( o.r * 127 / 256 ) | 0x80;
+            g = ( o.g * 127 / 256 ) | 0x80;
+            b = ( o.b * 127 / 256 ) | 0x80;
+            return *this;
+        }
+
+        LDP8806_GRB& operator=( const Hsv& o ) {
+            *this = Rgb{ o };
+            return *this;
+        }
+
+        uint8_t g, r, b;
+    };
+
+    static const int LED_FRAME_SIZE_BYTES = sizeof( LDP8806_GRB );
+    static const int LATCH_FRAME_SIZE_BYTES = 3;
+    static const int TRANS_COUNT_MAX = 20;//Arbitrary, supports up to 600 LED
+
+    LDP8806( int count, int clkpin, int datapin, BufferType doubleBuffer = SingleBuffer, uint32_t clock_speed_hz = 2000000 )
+        : _count( count ),
+          _firstBuffer( new LDP8806_GRB[ count ] ),
+          _secondBuffer( doubleBuffer ? new LDP8806_GRB[ count ] : nullptr ),
+          // one 'latch'/start-of-data mark frame for every 32 leds
+          _latchFrames( ( count + 31 ) / 32 )
+    {
+        spi_bus_config_t buscfg;
+        memset( &buscfg, 0, sizeof( buscfg ) );
+        buscfg.mosi_io_num = datapin;
+        buscfg.miso_io_num = -1;
+        buscfg.sclk_io_num = clkpin;
+        buscfg.quadwp_io_num = -1;
+        buscfg.quadhd_io_num = -1;
+        buscfg.max_transfer_sz = 65535;
+
+        spi_device_interface_config_t devcfg;
+        memset( &devcfg, 0, sizeof( devcfg ) );
+        devcfg.clock_speed_hz = clock_speed_hz;
+        devcfg.mode = 0;
+        devcfg.spics_io_num = -1;
+        devcfg.queue_size = TRANS_COUNT_MAX;
+        devcfg.pre_cb = nullptr;
+
+        auto ret = spi_bus_initialize( HSPI_HOST, &buscfg, 1 );
+        assert( ret == ESP_OK );
+
+        ret = spi_bus_add_device( HSPI_HOST, &devcfg, &_spi );
+        assert( ret == ESP_OK );
+
+        std::fill_n( _latchBuffer, LATCH_FRAME_SIZE_BYTES, 0x0 );
+    }
+
+    ~LDP8806() {
+        // noop
+    }
+
+    LDP8806_GRB& operator[]( int idx ) {
+        return _firstBuffer[ idx ];
+    }
+
+    const LDP8806_GRB& operator[]( int idx ) const {
+        return _firstBuffer[ idx ];
+    }
+
+    void show() {
+        _buffer = _firstBuffer.get();
+        startTransmission();
+        swapBuffers();
+    }
+
+    void wait() {
+        while ( _transCount-- ) {
+            spi_transaction_t *t;
+            spi_device_get_trans_result( _spi, &t, portMAX_DELAY );
+        }
+    }
+private:
+    void swapBuffers() {
+        if ( _secondBuffer )
+            _firstBuffer.swap( _secondBuffer );
+    }
+
+    void startTransmission() {
+        _transCount = 0;
+        for ( int i = 0; i != TRANS_COUNT_MAX; i++ ) {
+            _transactions[ i ].cmd = 0;
+            _transactions[ i ].addr = 0;
+            _transactions[ i ].flags = 0;
+            _transactions[ i ].rxlength = 0;
+            _transactions[ i ].rx_buffer = nullptr;
+        }
+        // LED Data
+        _transactions[ 0 ].length = ( LED_FRAME_SIZE_BYTES * 8 ) * _count;
+        _transactions[ 0 ].tx_buffer = _buffer;
+        spi_device_queue_trans( _spi, _transactions + _transCount, portMAX_DELAY );
+        _transCount++;
+
+        // 'latch'/start-of-data marker frames
+        for ( int i = 0; i < _latchFrames; i++ ) {
+            _transactions[ _transCount ].length = ( LATCH_FRAME_SIZE_BYTES * 8 );
+            _transactions[ _transCount ].tx_buffer = _latchBuffer;
+            spi_device_queue_trans( _spi, _transactions + _transCount, portMAX_DELAY );
+            _transCount++;
+        }
+    }
+
+    spi_device_handle_t _spi;
+    int _count;
+    std::unique_ptr< LDP8806_GRB[] > _firstBuffer, _secondBuffer;
+    LDP8806_GRB *_buffer;
+
+    spi_transaction_t _transactions[ TRANS_COUNT_MAX ];
+    int _transCount;
+
+    int _latchFrames;
+    uint8_t _latchBuffer[ LATCH_FRAME_SIZE_BYTES ];
+};

code/main/main.cpp

@@ -28,6 +28,9 @@
 #include "server_main.h"
 #include "server_camera.h"
 
+// #include "jomjol_WS2812Slow.h"
+#include "SmartLeds.h"
+
 
 #define __SD_USE_ONE_LINE_MODE__
 
@@ -135,8 +138,12 @@ void task_NoSDBlink(void *pvParameter)
     vTaskDelete(NULL); //Delete this task if it exits from the loop above
 }
 
+
 extern "C" void app_main(void)
 {
+    TickType_t xDelay;
+
+
     printf("Do Reset Camera\n");
     PowerResetCamera();
     Camera.InitCam();
@@ -171,7 +178,7 @@ extern "C" void app_main(void)
 
     wifi_init_sta(ssid, passwd, hostname, ip, gateway, netmask, dns);
     
-    TickType_t xDelay;
+
     xDelay = 2000 / portTICK_PERIOD_MS;
     printf("main: sleep for : %ldms\n", (long) xDelay);
 //    LogFile.WriteToFile("Startsequence 06");      
@@ -184,6 +191,9 @@ extern "C" void app_main(void)
     LogFile.WriteToFile("=============================================================================================");
     LogFile.SwitchOnOff(false);
 
+
+
+
     std::string zw = gettimestring("%Y%m%d-%H%M%S");
     printf("time %s\n", zw.c_str());    
 
@@ -206,5 +216,26 @@ extern "C" void app_main(void)
 
     printf("vor dotautostart\n");
     TFliteDoAutoStart();
+
+//////////////////////////  Test SmartLED Liberary //////////////////////////////////////////////
+/*
+    xDelay = 5000 / portTICK_PERIOD_MS;
+    printf("main: sleep for : %ldms\n", (long) xDelay);
+//    LogFile.WriteToFile("Startsequence 06");      
+    vTaskDelay( xDelay );   
+
+    SmartLed leds( LED_WS2812, 2, GPIO_NUM_12, 0, DoubleBuffer );
+
+
+    leds[ 0 ] = Rgb{ 255, 0, 0 };
+    leds[ 1 ] = Rgb{ 255, 255, 255 };
+    leds.show();    
+
+    vTaskDelay( xDelay );   
+
+    leds[ 0 ] = Rgb{ 0, 0, 0 };
+    leds[ 1 ] = Rgb{ 0, 0, 0 };
+    leds.show();    
+*/ 
 }
 

code/main/version.cpp

@@ -1,4 +1,4 @@
-const char* GIT_REV="7fcb5d1";
-const char* GIT_TAG="";
-const char* GIT_BRANCH="master";
-const char* BUILD_TIME="2021-09-12 07:30";
+const char* GIT_REV="19ca0d7";
+const char* GIT_TAG="v8.3.0";
+const char* GIT_BRANCH="rolling";
+const char* BUILD_TIME="2021-09-13 20:03";

code/version.cpp

@@ -1,4 +1,4 @@
-const char* GIT_REV="7fcb5d1";
-const char* GIT_TAG="";
-const char* GIT_BRANCH="master";
-const char* BUILD_TIME="2021-09-12 07:30";
+const char* GIT_REV="19ca0d7";
+const char* GIT_TAG="v8.3.0";
+const char* GIT_BRANCH="rolling";
+const char* BUILD_TIME="2021-09-13 20:03";

sd-card/html/edit_config_param.html

@@ -1028,7 +1028,7 @@ textarea {
 						<option value="output">output</option>
 						<option value="output-pwm" disabled>output pwm (not implemented)</option>
 						<option value="external-flash-pwm" disabled>external flash light pwm controlled (not implemented)</option>
-						<option value="external-flash-ws281x" disabled>external flash light ws281x controlled (not implemented)</option>
+						<option value="external-flash-ws281x">external flash light ws281x controlled (experimental)</option>
 					</select>
 				</td>
 			</td>

sd-card/html/readconfigparam.js

@@ -31,6 +31,7 @@ function ParseConfig() {
      ParamAddValue(param, catname, "ImageQuality");
      ParamAddValue(param, catname, "ImageSize");     
      ParamAddValue(param, catname, "FixedExposure");     
+     ParamAddValue(param, catname, "UseGPIOControlledIllumination");
 
      var catname = "Alignment";
      category[catname] = new Object(); 
@@ -102,6 +103,10 @@ function ParseConfig() {
      ParamAddValue(param, catname, "IO4", 6, false, [null, null, /^[0-9]*$/, null, null, /^[a-zA-Z0-9_-]*$/]);
      ParamAddValue(param, catname, "IO12", 6, false, [null, null, /^[0-9]*$/, null, null, /^[a-zA-Z0-9_-]*$/]);
      ParamAddValue(param, catname, "IO13", 6, false, [null, null, /^[0-9]*$/, null, null, /^[a-zA-Z0-9_-]*$/]);
+     ParamAddValue(param, catname, "LEDType");
+     ParamAddValue(param, catname, "LEDNumbers");
+     ParamAddValue(param, catname, "LEDColor", 3);
+
 
      var catname = "AutoTimer";
      category[catname] = new Object();