Merge branch 'dev' of https://github.com/proddy/EMS-ESP32 into dev

boards/c3_mini_4M.json

@@ -5,6 +5,7 @@
       },
       "core": "esp32",
       "extra_flags": [
+        "-DTASMOTA_SDK",
         "-DARDUINO_LOLIN_C3_MINI",
         "-DARDUINO_USB_MODE=1",
         "-DARDUINO_USB_CDC_ON_BOOT=1"

interface/src/app/main/types.ts

@@ -21,6 +21,7 @@ export interface Settings {
   dallas_gpio: number;
   dallas_parasite: boolean;
   led_gpio: number;
+  led_type: number;
   hide_led: boolean;
   low_clock: boolean;
   notoken_api: boolean;
@@ -262,6 +263,7 @@ export const BOARD_PROFILES: BoardProfiles = {
 export interface BoardProfile {
   board_profile: string;
   led_gpio: number;
+  led_type: number;
   dallas_gpio: number;
   rx_gpio: number;
   tx_gpio: number;

interface/src/app/settings/ApplicationSettings.tsx

@@ -550,6 +550,23 @@ const ApplicationSettings = () => {
                   margin="normal"
                 />
               </Grid>
+              {data.led_gpio !== 0 && (
+                <Grid>
+                <TextField
+                  name="led_type"
+                  label={'LED ' + LL.TYPE()}
+                  value={data.led_type}
+                  fullWidth
+                  variant="outlined"
+                  onChange={updateFormValue}
+                  margin="normal"
+                  select
+                >
+                  <MenuItem value={0}>LED</MenuItem>
+                  <MenuItem value={1}>RGB-LED</MenuItem>
+                </TextField>
+                </Grid>
+              )}
               <Grid>
                 <TextField
                   name="phy_type"

interface/src/app/status/SystemLog.tsx

@@ -101,6 +101,7 @@ const SystemLog = () => {
   const [readOpen, setReadOpen] = useState(false);
   const [logEntries, setLogEntries] = useState<LogEntry[]>([]);
   const [autoscroll, setAutoscroll] = useState(true);
+  const [lastId, setLastId] = useState<number>(-1);
 
   const ALPHA_NUMERIC_DASH_REGEX = /^[a-fA-F0-9 ]+$/;
 
@@ -118,7 +119,10 @@ const SystemLog = () => {
     .onMessage((message: { data: string }) => {
       const rawData = message.data;
       const logentry = JSON.parse(rawData) as LogEntry;
-      setLogEntries((log) => [...log, logentry]);
+      if (lastId < logentry.i) {
+        setLogEntries((log) => [...log, logentry]);
+        setLastId(logentry.i);
+      }
     })
     .onError(() => {
       toast.error('No connection to Log service');

interface/src/i18n/sk/index.ts

@@ -343,10 +343,10 @@ const sk: Translation = {
   DEVELOPER_MODE: 'Režim vývojára',
   DUPLICATE: 'Duplicitné',
   UPGRADE: 'Inovovať',
-  DASHBOARD_1: 'All EMS entities that are active and marked as Favorite, plus all Custom Entities, Schedules and external Sensors data are displayed below.', // TODO translate
+  DASHBOARD_1: 'Všetky entity EMS, ktoré sú aktívne a označené ako obľúbené, plus všetky vlastné entity, plány a údaje externých senzorov sú zobrazené nižšie.',
-  NO_DATA_1: 'No favourite EMS entities found. Use the', // TODO translate
+  NO_DATA_1: 'Nenašli sa žiadne obľúbené entity EMS. Použite',
-  NO_DATA_2: 'module to mark them.', // TODO translate
+  NO_DATA_2: 'modul na ich označenie.',
-  NO_DATA_3: 'To see all available entities go to' // TODO translate
+  NO_DATA_3: 'Ak chcete zobraziť všetky dostupné entity, prejdite na'
 };
 
 export default sk;

platformio.ini

@@ -180,10 +180,7 @@ extends = espressif32_base_T_4M
 board = c3_mini_4M
 build_flags =
   ${common.build_flags}
-  -DTASMOTA_SDK
   -DBOARD_C3_MINI_V1
-  -DARDUINO_USB_MODE=1
-  -DARDUINO_USB_CDC_ON_BOOT=1
 
 ; 
 ; Building and testing natively, standalone without an ESP32.

src/core/locale_translations.h

@@ -762,10 +762,10 @@ MAKE_TRANSLATION(vacations5, "vacations5", "vacation dates 5", "Urlaubstage 5",
 MAKE_TRANSLATION(vacations6, "vacations6", "vacation dates 6", "Urlaubstage 6", "Vakantiedagen 6", "Semesterdatum 6", "urlop 6", "feriedager 6", "dates vacances 6", "izin günleri 6", "date vacanze 6", "termíny dovolenky 6", "data prázdnin 6")
 MAKE_TRANSLATION(vacations7, "vacations7", "vacation dates 7", "Urlaubstage 7", "Vakantiedagen 7", "Semesterdatum 7", "urlop 7", "feriedager 7", "dates vacances 7", "izin günleri 7", "date vacanze 7", "termíny dovolenky 7", "data prázdnin 7")
 MAKE_TRANSLATION(vacations8, "vacations8", "vacation dates 8", "Urlaubstage 8", "Vakantiedagen 8", "Semesterdatum 8", "urlop 8", "feriedager 8", "dates vacances 8", "izin günleri 8", "date vacanze 8", "termíny dovolenky 8", "data prázdnin 8")
-MAKE_TRANSLATION(absent, "absent", "absent", "Abwesend", "", "Frånvarande", "", "", "", "", "", "chýnajúci", "") // TODO translate
+MAKE_TRANSLATION(absent, "absent", "absent", "Abwesend", "", "Frånvarande", "", "", "", "", "", "chýbajúci", "") // TODO translate
 MAKE_TRANSLATION(redthreshold, "redthreshold", "reduction threshold", "Absenkschwelle", "", "Tröskel för sänkning", "", "", "", "", "", "zníženie tresholdu", "") // TODO translate
-MAKE_TRANSLATION(solarinfl, "solarinfl", "solar influence", "Solareinfluß", "", "", "", "", "", "", "", "", "") // TODO translate
+MAKE_TRANSLATION(solarinfl, "solarinfl", "solar influence", "Solareinfluß", "", "", "", "", "", "", "", "slnečný vplyv", "") // TODO translate
-MAKE_TRANSLATION(currsolarinfl, "currsolarinfl", "curent solar influence", "akt. Solareinfluß", "", "", "", "", "", "", "", "", "") // TODO translate
+MAKE_TRANSLATION(currsolarinfl, "currsolarinfl", "curent solar influence", "akt. Solareinfluß", "", "", "", "", "", "", "", "aktuálny slnečný vplyv", "") // TODO translate
 
 MAKE_TRANSLATION(hpmode, "hpmode", "HP Mode", "WP-Modus", "Modus warmtepomp", "Värmepumpsläge", "tryb pracy pompy ciepła", "", "", "yüksek güç modu", "Modalità Termopompa", "Režim TČ", "režim tepelného čerpadla") // TODO translate
 MAKE_TRANSLATION(dewoffset, "dewoffset", "dew point offset", "Taupunktdifferenz", "Offset dauwpunt", "Daggpunktsförskjutning", "przesunięcie punktu rosy", "", "", "çiğ noktası göreli", "differenza del punto di rugiada", "posun rosného bodu", "offset rosného bodu") // TODO translate

src/core/system.cpp

@@ -381,6 +381,7 @@ void System::reload_settings() {
         analog_enabled_ = settings.analog_enabled;
         low_clock_      = settings.low_clock;
         hide_led_       = settings.hide_led;
+        led_type_       = settings.led_type;
         led_gpio_       = settings.led_gpio;
         board_profile_  = settings.board_profile;
         telnet_enabled_ = settings.telnet_enabled;
@@ -551,13 +552,13 @@ void System::led_init(bool refresh) {
     }
 
     if ((led_gpio_ != 0) && is_valid_gpio(led_gpio_)) {
-#if defined(ARDUINO_LOLIN_C3_MINI) && !defined(BOARD_C3_MINI_V1)
+        if (led_type_) {
-        // rgb LED WS2812B, use Adafruit Neopixel
+            // rgb LED WS2812B, use Adafruit Neopixel
-        neopixelWrite(led_gpio_, 0, 0, 0);
+            neopixelWrite(led_gpio_, 0, 0, 0);
-#else
+        } else {
-        pinMode(led_gpio_, OUTPUT);       // 0 means disabled
+            pinMode(led_gpio_, OUTPUT);       // 0 means disabled
-        digitalWrite(led_gpio_, !LED_ON); // start with LED off
+            digitalWrite(led_gpio_, !LED_ON); // start with LED off
-#endif
+        }
     }
 }
 
@@ -686,7 +687,7 @@ void System::heartbeat_json(JsonObject output) {
     output["freemem"]   = getHeapMem();
     output["max_alloc"] = getMaxAllocMem();
 #if CONFIG_IDF_TARGET_ESP32S3 || CONFIG_IDF_TARGET_ESP32C3 || CONFIG_IDF_TARGET_ESP32S2 || CONFIG_IDF_TARGET_ESP32
-    output["temperature"] = temperature_;
+    output["temperature"] = (int)temperature_;
 #endif
 #endif
 
@@ -810,20 +811,12 @@ void System::system_check() {
             if (healthcheck_ == 0) {
                 // everything is healthy, show LED permanently on or off depending on setting
                 if (led_gpio_) {
-#if defined(ARDUINO_LOLIN_C3_MINI) && !defined(BOARD_C3_MINI_V1)
+                    led_type_ ? neopixelWrite(led_gpio_, 0, hide_led_ ? 0 : 128, 0) : digitalWrite(led_gpio_, hide_led_ ? !LED_ON : LED_ON);
-                    neopixelWrite(led_gpio_, 0, hide_led_ ? 0 : 128, 0);
-#else
-                    digitalWrite(led_gpio_, hide_led_ ? !LED_ON : LED_ON);
-#endif
                 }
             } else {
                 // turn off LED so we're ready to the flashes
                 if (led_gpio_) {
-#if defined(ARDUINO_LOLIN_C3_MINI) && !defined(BOARD_C3_MINI_V1)
+                    led_type_ ? neopixelWrite(led_gpio_, 0, 0, 0) : digitalWrite(led_gpio_, !LED_ON);
-                    neopixelWrite(led_gpio_, 0, 0, 0);
-#else
-                    digitalWrite(led_gpio_, !LED_ON);
-#endif
                 }
             }
         }
@@ -883,60 +876,51 @@ void System::led_monitor() {
             // reset the whole sequence
             led_long_timer_ = uuid::get_uptime();
             led_flash_step_ = 0;
-#if defined(ARDUINO_LOLIN_C3_MINI) && !defined(BOARD_C3_MINI_V1)
+            led_type_ ? neopixelWrite(led_gpio_, 0, 0, 0) : digitalWrite(led_gpio_, !LED_ON); // LED off
-            neopixelWrite(led_gpio_, 0, 0, 0);
-#else
-            digitalWrite(led_gpio_, !LED_ON); // LED off
-#endif
         } else if (led_flash_step_ % 2) {
             // handle the step events (on odd numbers 3,5,7,etc). see if we need to turn on a LED
             //  1 flash is the EMS bus is not connected
             //  2 flashes if the network (wifi or ethernet) is not connected
             //  3 flashes is both the bus and the network are not connected. Then you know you're truly f*cked.
 
-#if defined(ARDUINO_LOLIN_C3_MINI) && !defined(BOARD_C3_MINI_V1)
+            if (led_type_) {
-            if (led_flash_step_ == 3) {
+                if (led_flash_step_ == 3) {
-                if ((healthcheck_ & HEALTHCHECK_NO_NETWORK) == HEALTHCHECK_NO_NETWORK) {
+                    if ((healthcheck_ & HEALTHCHECK_NO_NETWORK) == HEALTHCHECK_NO_NETWORK) {
+                        neopixelWrite(led_gpio_, 128, 0, 0); // red
+                    } else if ((healthcheck_ & HEALTHCHECK_NO_BUS) == HEALTHCHECK_NO_BUS) {
+                        neopixelWrite(led_gpio_, 0, 0, 128); // blue
+                    }
+                }
+                if (led_flash_step_ == 5 && (healthcheck_ & HEALTHCHECK_NO_NETWORK) == HEALTHCHECK_NO_NETWORK) {
                     neopixelWrite(led_gpio_, 128, 0, 0); // red
-                } else if ((healthcheck_ & HEALTHCHECK_NO_BUS) == HEALTHCHECK_NO_BUS) {
+                }
+                if ((led_flash_step_ == 7) && ((healthcheck_ & HEALTHCHECK_NO_NETWORK) == HEALTHCHECK_NO_NETWORK)
+                    && ((healthcheck_ & HEALTHCHECK_NO_BUS) == HEALTHCHECK_NO_BUS)) {
                     neopixelWrite(led_gpio_, 0, 0, 128); // blue
                 }
-            }
+            } else {
-            if (led_flash_step_ == 5 && (healthcheck_ & HEALTHCHECK_NO_NETWORK) == HEALTHCHECK_NO_NETWORK) {
+                if ((led_flash_step_ == 3)
-                neopixelWrite(led_gpio_, 128, 0, 0); // red
+                    && (((healthcheck_ & HEALTHCHECK_NO_NETWORK) == HEALTHCHECK_NO_NETWORK) || ((healthcheck_ & HEALTHCHECK_NO_BUS) == HEALTHCHECK_NO_BUS))) {
-            }
+                    led_on_ = true;
-            if ((led_flash_step_ == 7) && ((healthcheck_ & HEALTHCHECK_NO_NETWORK) == HEALTHCHECK_NO_NETWORK)
+                }
-                && ((healthcheck_ & HEALTHCHECK_NO_BUS) == HEALTHCHECK_NO_BUS)) {
-                neopixelWrite(led_gpio_, 0, 0, 128); // blue
-            }
-#else
 
-            if ((led_flash_step_ == 3)
+                if ((led_flash_step_ == 5) && ((healthcheck_ & HEALTHCHECK_NO_NETWORK) == HEALTHCHECK_NO_NETWORK)) {
-                && (((healthcheck_ & HEALTHCHECK_NO_NETWORK) == HEALTHCHECK_NO_NETWORK) || ((healthcheck_ & HEALTHCHECK_NO_BUS) == HEALTHCHECK_NO_BUS))) {
+                    led_on_ = true;
-                led_on_ = true;
+                }
-            }
 
-            if ((led_flash_step_ == 5) && ((healthcheck_ & HEALTHCHECK_NO_NETWORK) == HEALTHCHECK_NO_NETWORK)) {
+                if ((led_flash_step_ == 7) && ((healthcheck_ & HEALTHCHECK_NO_NETWORK) == HEALTHCHECK_NO_NETWORK)
-                led_on_ = true;
+                    && ((healthcheck_ & HEALTHCHECK_NO_BUS) == HEALTHCHECK_NO_BUS)) {
-            }
+                    led_on_ = true;
+                }
 
-            if ((led_flash_step_ == 7) && ((healthcheck_ & HEALTHCHECK_NO_NETWORK) == HEALTHCHECK_NO_NETWORK)
+                if (led_on_) {
-                && ((healthcheck_ & HEALTHCHECK_NO_BUS) == HEALTHCHECK_NO_BUS)) {
+                    digitalWrite(led_gpio_, LED_ON); // LED off
-                led_on_ = true;
+                }
             }
-
-            if (led_on_) {
-                digitalWrite(led_gpio_, LED_ON); // LED off
-            }
-#endif
         } else {
             // turn the led off after the flash, on even number count
             if (led_on_) {
-#if defined(ARDUINO_LOLIN_C3_MINI) && !defined(BOARD_C3_MINI_V1)
+                led_type_ ? neopixelWrite(led_gpio_, 0, 0, 0) : digitalWrite(led_gpio_, !LED_ON);
-                neopixelWrite(led_gpio_, 0, 0, 0);
-#else
-                digitalWrite(led_gpio_, !LED_ON); // LED off
-#endif
                 led_on_ = false;
             }
         }
@@ -1725,6 +1709,7 @@ bool System::command_info(const char * value, const int8_t id, JsonObject output
             node["dallasGPIO"]  = settings.dallas_gpio;
             node["pbuttonGPIO"] = settings.pbutton_gpio;
             node["ledGPIO"]     = settings.led_gpio;
+            node["ledType"]     = settings.led_type;
         }
         node["hideLed"]         = settings.hide_led;
         node["noTokenApi"]      = settings.notoken_api;
@@ -1837,29 +1822,33 @@ bool System::command_test(const char * value, const int8_t id) {
 //  3 = RMII clock output from GPIO17, for 50hz inverted clock
 bool System::load_board_profile(std::vector<int8_t> & data, const std::string & board_profile) {
     if (board_profile == "S32") {
-        data = {2, 18, 23, 5, 0, PHY_type::PHY_TYPE_NONE, 0, 0, 0}; // BBQKees Gateway S32
+        data = {2, 18, 23, 5, 0, PHY_type::PHY_TYPE_NONE, 0, 0, 0, 0}; // BBQKees Gateway S32
     } else if (board_profile == "E32") {
-        data = {2, 4, 5, 17, 33, PHY_type::PHY_TYPE_LAN8720, 16, 1, 0}; // BBQKees Gateway E32
+        data = {2, 4, 5, 17, 33, PHY_type::PHY_TYPE_LAN8720, 16, 1, 0, 0}; // BBQKees Gateway E32
     } else if (board_profile == "E32V2") {
-        data = {2, 14, 4, 5, 34, PHY_type::PHY_TYPE_LAN8720, 15, 0, 1}; // BBQKees Gateway E32 V2
+        data = {2, 14, 4, 5, 34, PHY_type::PHY_TYPE_LAN8720, 15, 0, 1, 0}; // BBQKees Gateway E32 V2
     } else if (board_profile == "MH-ET") {
-        data = {2, 18, 23, 5, 0, PHY_type::PHY_TYPE_NONE, 0, 0, 0}; // MH-ET Live D1 Mini
+        data = {2, 18, 23, 5, 0, PHY_type::PHY_TYPE_NONE, 0, 0, 0, 0}; // MH-ET Live D1 Mini
     } else if (board_profile == "NODEMCU") {
-        data = {2, 18, 23, 5, 0, PHY_type::PHY_TYPE_NONE, 0, 0, 0}; // NodeMCU 32S
+        data = {2, 18, 23, 5, 0, PHY_type::PHY_TYPE_NONE, 0, 0, 0, 0}; // NodeMCU 32S
     } else if (board_profile == "LOLIN") {
-        data = {2, 18, 17, 16, 0, PHY_type::PHY_TYPE_NONE, 0, 0, 0}; // Lolin D32
+        data = {2, 18, 17, 16, 0, PHY_type::PHY_TYPE_NONE, 0, 0, 0, 0}; // Lolin D32
     } else if (board_profile == "OLIMEX") {
-        data = {0, 0, 36, 4, 34, PHY_type::PHY_TYPE_LAN8720, -1, 0, 0}; // Olimex ESP32-EVB (uses U1TXD/U1RXD/BUTTON, no LED or Temperature sensor)
+        data = {0, 0, 36, 4, 34, PHY_type::PHY_TYPE_LAN8720, -1, 0, 0, 0}; // Olimex ESP32-EVB (uses U1TXD/U1RXD/BUTTON, no LED or Temperature sensor)
     } else if (board_profile == "OLIMEXPOE") {
-        data = {0, 0, 36, 4, 34, PHY_type::PHY_TYPE_LAN8720, 12, 0, 3}; // Olimex ESP32-POE
+        data = {0, 0, 36, 4, 34, PHY_type::PHY_TYPE_LAN8720, 12, 0, 3, 0}; // Olimex ESP32-POE
     } else if (board_profile == "C3MINI") {
-        data = {7, 1, 4, 5, 9, PHY_type::PHY_TYPE_NONE, 0, 0, 0}; // Lolin C3 Mini
+#if defined(BOARD_C3_MINI_V1)
+        data = {7, 1, 4, 5, 9, PHY_type::PHY_TYPE_NONE, 0, 0, 0, 0}; // Lolin C3 Mini V1
+#else
+        data = {7, 1, 4, 5, 9, PHY_type::PHY_TYPE_NONE, 0, 0, 0, 1}; // Lolin C3 Mini with RGB Led
+#endif
     } else if (board_profile == "S2MINI") {
-        data = {15, 7, 11, 12, 0, PHY_type::PHY_TYPE_NONE, 0, 0, 0}; // Lolin S2 Mini
+        data = {15, 7, 11, 12, 0, PHY_type::PHY_TYPE_NONE, 0, 0, 0, 0}; // Lolin S2 Mini
     } else if (board_profile == "S3MINI") {
-        data = {17, 18, 8, 5, 0, PHY_type::PHY_TYPE_NONE, 0, 0, 0}; // Liligo S3
+        data = {17, 18, 8, 5, 0, PHY_type::PHY_TYPE_NONE, 0, 0, 0, 0}; // Liligo S3
     } else if (board_profile == "S32S3") {
-        data = {2, 18, 5, 17, 0, PHY_type::PHY_TYPE_NONE, 0, 0, 0}; // BBQKees Gateway S3
+        data = {2, 18, 5, 17, 0, PHY_type::PHY_TYPE_NONE, 0, 0, 0, 0}; // BBQKees Gateway S3
     } else if (board_profile == "CUSTOM") {
         // send back current values
         data = {(int8_t)EMSESP::system_.led_gpio_,
@@ -1870,7 +1859,8 @@ bool System::load_board_profile(std::vector<int8_t> & data, const std::string &
                 (int8_t)EMSESP::system_.phy_type_,
                 EMSESP::system_.eth_power_,
                 (int8_t)EMSESP::system_.eth_phy_addr_,
-                (int8_t)EMSESP::system_.eth_clock_mode_};
+                (int8_t)EMSESP::system_.eth_clock_mode_,
+                (int8_t)EMSESP::system_.led_type_};
     } else {
         LOG_DEBUG("Couldn't identify board profile %s", board_profile.c_str());
         return false; // unknown, return false
@@ -2064,9 +2054,7 @@ bool System::uploadFirmwareURL(const char * url) {
     // TODO do we need to stop the UART first with EMSuart::stop() ?
 
     // set a callback so we can monitor progress in the WebUI
-    Update.onProgress([](size_t progress, size_t total) {
+    Update.onProgress([](size_t progress, size_t total) { EMSESP::system_.systemStatus(SYSTEM_STATUS::SYSTEM_STATUS_UPLOADING + (progress * 100 / total)); });
-        EMSESP::system_.systemStatus(SYSTEM_STATUS::SYSTEM_STATUS_UPLOADING+(progress * 100 / total));
-    });
 
     // get tcp stream and send it to Updater
     WiFiClient * stream = http.getStreamPtr();

src/core/system.h

@@ -394,6 +394,7 @@ class System {
     std::string hostname_;
     String      locale_;
     bool        hide_led_;
+    uint8_t     led_type_;
     uint8_t     led_gpio_;
     bool        analog_enabled_;
     bool        low_clock_;

src/web/WebSettingsService.cpp

@@ -59,6 +59,7 @@ void WebSettings::read(WebSettings & settings, JsonObject root) {
     root["dallas_parasite"]       = settings.dallas_parasite;
     root["led_gpio"]              = settings.led_gpio;
     root["hide_led"]              = settings.hide_led;
+    root["led_type"]              = settings.led_type;
     root["low_clock"]             = settings.low_clock;
     root["telnet_enabled"]        = settings.telnet_enabled;
     root["notoken_api"]           = settings.notoken_api;
@@ -103,6 +104,7 @@ StateUpdateResult WebSettings::update(JsonObject root, WebSettings & settings) {
 #endif
 
     // get the current board profile saved in the settings file
+    String org_board_profile = settings.board_profile;
     settings.board_profile   = root["board_profile"] | EMSESP_DEFAULT_BOARD_PROFILE; // this is set at compile time in platformio.ini, other it's "default"
     String old_board_profile = settings.board_profile;
 
@@ -133,7 +135,12 @@ StateUpdateResult WebSettings::update(JsonObject root, WebSettings & settings) {
                         (int8_t)(root["phy_type"] | PHY_type::PHY_TYPE_NONE),
                         (int8_t)(root["eth_power"] | 0),
                         (int8_t)(root["eth_phy_addr"] | 0),
-                        (int8_t)(root["eth_clock_mode"] | 0)};
+                        (int8_t)(root["eth_clock_mode"] | 0),
+#if defined(ARDUINO_LOLIN_C3_MINI) && !defined(BOARD_C3_MINI_V1)
+                        (int8_t)(root["led_type"] | 1)};
+#else
+                        (int8_t)(root["led_type"] | 0)};
+#endif
             }
             // check valid pins in this board profile
             if (!System::is_valid_gpio(data[0], psram) || !System::is_valid_gpio(data[1], psram) || !System::is_valid_gpio(data[2], psram)
@@ -180,11 +187,11 @@ StateUpdateResult WebSettings::update(JsonObject root, WebSettings & settings) {
 
         // override if we know the target from the build config like C3, S2, S3 etc..
 #elif CONFIG_IDF_TARGET_ESP32C3
-        settings.board_profile = "C3MINI";
+            settings.board_profile = "C3MINI";
 #elif CONFIG_IDF_TARGET_ESP32S2
-        settings.board_profile = "S2MINI";
+            settings.board_profile = "S2MINI";
 #elif CONFIG_IDF_TARGET_ESP32S3
-        settings.board_profile = "S32S3"; // BBQKees Gateway S3
+            settings.board_profile = "S32S3"; // BBQKees Gateway S3
 #endif
 
         // apply the new board profile setting
@@ -194,8 +201,9 @@ StateUpdateResult WebSettings::update(JsonObject root, WebSettings & settings) {
     if (old_board_profile != settings.board_profile) {
         // see if need to override the set board profile (e.g. forced by NVS boot string)
         EMSESP::logger().info("Setting new Board profile %s (was %s)", settings.board_profile.c_str(), old_board_profile.c_str());
-    } else {
+    } else if (org_board_profile != settings.board_profile) {
-        EMSESP::logger().info("Board profile set to %s", settings.board_profile.c_str());
+        // EMSESP::logger().info("Board profile set to %s", settings.board_profile.c_str());
+        EMSESP::logger().info("Setting new Board profile %s (was %s)", settings.board_profile.c_str(), org_board_profile.c_str());
     }
 
     int prev;
@@ -229,6 +237,9 @@ StateUpdateResult WebSettings::update(JsonObject root, WebSettings & settings) {
     prev                    = settings.eth_clock_mode;
     settings.eth_clock_mode = data[8];
     check_flag(prev, settings.eth_clock_mode, ChangeFlags::RESTART);
+    prev              = settings.led_type;
+    settings.led_type = data[9];
+    check_flag(prev, settings.led_type, ChangeFlags::LED);
 
     // tx_mode, rx and tx pins
     prev             = settings.tx_mode;
@@ -304,6 +315,7 @@ StateUpdateResult WebSettings::update(JsonObject root, WebSettings & settings) {
     settings.low_clock = root["low_clock"];
     check_flag(prev, settings.low_clock, ChangeFlags::RESTART);
 
+    // Modbus settings
     prev                    = settings.modbus_enabled;
     settings.modbus_enabled = root["modbus_enabled"] | EMSESP_DEFAULT_MODBUS_ENABLED;
     check_flag(prev, settings.modbus_enabled, ChangeFlags::RESTART);
@@ -455,6 +467,7 @@ void WebSettingsService::board_profile(AsyncWebServerRequest * request) {
         root["eth_power"]      = data[6];
         root["eth_phy_addr"]   = data[7];
         root["eth_clock_mode"] = data[8];
+        root["led_type"]       = data[9];
 
         response->setLength();
         request->send(response);

src/web/WebSettingsService.h

@@ -54,6 +54,7 @@ class WebSettings {
     bool     dallas_parasite;
     uint8_t  led_gpio;
     bool     hide_led;
+    uint8_t  led_type;
     bool     low_clock;
     bool     telnet_enabled;
     bool     notoken_api;