CHANGELOG.md

@@ -1,26 +1,5 @@
 # Changelog
 
-## [1.5.1] - 2025-03-30
-### Changed
-- update version to 1.5.1 and improve OTA update handling with task management
-
-
-## [1.4.14] - 2025-03-30
-### Added
-- add auto-tare functionality and update scale handling based on touch sensor connection
-
-### Changed
-- update platformio.ini for version v1.4.14
-
-
-## [1.4.13] - 2025-03-30
-### Changed
-- update platformio.ini for version v1.4.13
-
-### Fixed
-- update touch sensor connection logic to correctly identify connection status
-
-
 ## [1.4.12] - 2025-03-30
 ### Added
 - add touch sensor connection check and update logic

html/waage.html

@@ -55,7 +55,6 @@
                 <h5 class="card-title">Sacle Calibration</h5>
                 <button id="calibrateBtn" class="btn btn-primary">Calibrate Scale</button>
                 <button id="tareBtn" class="btn btn-secondary">Tare Scale</button>
-                &nbsp;&nbsp;&nbsp;Enable Auto-TARE <input type="checkbox" id="autoTareCheckbox" onchange="setAutoTare(this.checked);" {{autoTare}}>
                 <div id="statusMessage" class="mt-3"></div>
             </div>
         </div>
@@ -141,15 +140,6 @@
             }));
         });
 
-        // Add auto-tare function
-        function setAutoTare(enabled) {
-            ws.send(JSON.stringify({
-                type: 'scale',
-                payload: 'setAutoTare',
-                enabled: enabled
-            }));
-        }
-
         // WebSocket-Verbindung beim Laden der Seite initiieren
         connectWebSocket();
     </script>

platformio.ini

@@ -9,8 +9,8 @@
 ; https://docs.platformio.org/page/projectconf.html
 
 [common]
-version = "1.5.1"
-to_old_version = "1.5.0"
+version = "1.4.12"
+to_old_version = "1.4.0"
 
 ##
 [env:esp32dev]

scripts/gzip_files.py

@@ -14,7 +14,7 @@ def copy_file(input_file, output_file):
 
 def should_compress(file):
      # Skip compression for spoolman.html
-    if file == 'spoolman.html' or file == 'waage.html':
+    if file == 'spoolman.html':
         return False
     # Komprimiere nur bestimmte Dateitypen
     return file.endswith(('.js', '.png', '.css', '.html'))

src/api.cpp

@@ -166,7 +166,7 @@ bool updateSpoolTagId(String uidString, const char* payload) {
     BaseType_t result = xTaskCreate(
         sendToApi,                // Task-Funktion
         "SendToApiTask",          // Task-Name
-        6144,                     // Stackgröße in Bytes
+        4096,                     // Stackgröße in Bytes
         (void*)params,            // Parameter
         0,                        // Priorität
         NULL                      // Task-Handle (nicht benötigt)
@@ -204,7 +204,7 @@ uint8_t updateSpoolWeight(String spoolId, uint16_t weight) {
     BaseType_t result = xTaskCreate(
         sendToApi,                // Task-Funktion
         "SendToApiTask",          // Task-Name
-        6144,                     // Stackgröße in Bytes
+        4096,                     // Stackgröße in Bytes
         (void*)params,            // Parameter
         0,                        // Priorität
         NULL                      // Task-Handle (nicht benötigt)
@@ -243,7 +243,7 @@ bool updateSpoolOcto(int spoolId) {
     BaseType_t result = xTaskCreate(
         sendToApi,                // Task-Funktion
         "SendToApiTask",          // Task-Name
-        6144,                     // Stackgröße in Bytes
+        4096,                     // Stackgröße in Bytes
         (void*)params,            // Parameter
         0,                        // Priorität
         NULL                      // Task-Handle (nicht benötigt)
@@ -291,7 +291,7 @@ bool updateSpoolBambuData(String payload) {
     BaseType_t result = xTaskCreate(
         sendToApi,                // Task-Funktion
         "SendToApiTask",          // Task-Name
-        6144,                     // Stackgröße in Bytes
+        4096,                     // Stackgröße in Bytes
         (void*)params,            // Parameter
         0,                        // Priorität
         NULL                      // Task-Handle (nicht benötigt)

src/main.cpp

@@ -48,16 +48,8 @@ void setup() {
   // NFC Reader
   startNfc();
 
-  // Touch Sensor
-  pinMode(TTP223_PIN, INPUT_PULLUP);
-  if (digitalRead(TTP223_PIN) == LOW) 
-  {
-    Serial.println("Touch Sensor is connected");
-    touchSensorConnected = true;
-  }
-
   // Scale
-  start_scale(touchSensorConnected);
+  start_scale();
 
   // WDT initialisieren mit 10 Sekunden Timeout
   bool panic = true; // Wenn true, löst ein WDT-Timeout einen System-Panik aus
@@ -65,6 +57,19 @@ void setup() {
 
   // Aktuellen Task (loopTask) zum Watchdog hinzufügen
   esp_task_wdt_add(NULL);
+
+  // Touch Sensor
+  pinMode(TTP223_PIN, INPUT_PULLUP);
+  if (digitalRead(TTP223_PIN) == HIGH) 
+  {
+    Serial.println("Touch Sensor is not connected");
+    touchSensorConnected = false;
+  } 
+  else 
+  {
+    Serial.println("Touch Sensor is connected");
+    touchSensorConnected
+  }
 }
 
 
@@ -179,19 +184,8 @@ void loop() {
   {
     lastWeightReadTime = currentMillis;
 
-    // Prüfen ob die Waage korrekt genullt ist
-    // Abweichung von 2g ignorieren
-    if (autoTare && (weight > 2 && weight < 7) || weight < -2)
-    {
-      scale_tare_counter++;
-    }
-    else
-    {
-      scale_tare_counter = 0;
-    }
-
     // Prüfen ob das Gewicht gleich bleibt und dann senden
-    if (abs(weight - lastWeight) <= 2 && weight > 5)
+    if (weight == lastWeight && weight > 5)
     {
       weigthCouterToApi++;
     } 

src/ota.cpp

@@ -1,10 +1,6 @@
 #include <Arduino.h>
 #include <website.h>
 #include <commonFS.h>
-#include "scale.h"
-#include "bambu.h"
-#include "nfc.h"
-
 
 // Globale Variablen für Config Backups hinzufügen
 String bambuCredentialsBackup;
@@ -155,25 +151,6 @@ void handleUpdate(AsyncWebServer &server) {
 
     updateHandler->onUpload([](AsyncWebServerRequest *request, String filename,
                              size_t index, uint8_t *data, size_t len, bool final) {
-
-        // Disable all Tasks
-        if (BambuMqttTask != NULL) 
-        {
-            Serial.println("Delete BambuMqttTask");
-            vTaskDelete(BambuMqttTask);
-            BambuMqttTask = NULL;
-        }
-        if (ScaleTask) {
-            Serial.println("Delete ScaleTask");
-            vTaskDelete(ScaleTask);
-            ScaleTask = NULL;
-        }
-        if (RfidReaderTask) {
-            Serial.println("Delete RfidReaderTask");
-            vTaskDelete(RfidReaderTask);
-            RfidReaderTask = NULL;
-        }
-
         if (!index) {
             updateTotalSize = request->contentLength();
             updateWritten = 0;
@@ -182,9 +159,9 @@ void handleUpdate(AsyncWebServer &server) {
             if (isSpiffsUpdate) {
                 // Backup vor dem Update
                 sendUpdateProgress(0, "backup", "Backing up configurations...");
-                vTaskDelay(200 / portTICK_PERIOD_MS);
+                delay(200);
                 backupJsonConfigs();
-                vTaskDelay(200 / portTICK_PERIOD_MS);
+                delay(200);
                 
                 const esp_partition_t *partition = esp_partition_find_first(ESP_PARTITION_TYPE_DATA, ESP_PARTITION_SUBTYPE_DATA_SPIFFS, NULL);
                 if (!partition || !Update.begin(partition->size, U_SPIFFS)) {
@@ -192,14 +169,14 @@ void handleUpdate(AsyncWebServer &server) {
                     return;
                 }
                 sendUpdateProgress(5, "starting", "Starting SPIFFS update...");
-                vTaskDelay(200 / portTICK_PERIOD_MS);
+                delay(200);
             } else {
                 if (!Update.begin(updateTotalSize)) {
                     request->send(400, "application/json", "{\"success\":false,\"message\":\"Update initialization failed\"}");
                     return;
                 }
                 sendUpdateProgress(0, "starting", "Starting firmware update...");
-                vTaskDelay(200 / portTICK_PERIOD_MS);
+                delay(200);
             }
         }
 
@@ -225,7 +202,7 @@ void handleUpdate(AsyncWebServer &server) {
             if (currentProgress != lastProgress && (currentProgress % 10 == 0 || final)) {
                 sendUpdateProgress(currentProgress, "uploading");
                 oledShowMessage("Update: " + String(currentProgress) + "%");
-                vTaskDelay(50 / portTICK_PERIOD_MS);
+                delay(50);
                 lastProgress = currentProgress;
             }
         }

src/scale.cpp

@@ -14,7 +14,6 @@ TaskHandle_t ScaleTask;
 int16_t weight = 0;
 
 uint8_t weigthCouterToApi = 0;
-uint8_t scale_tare_counter = 0;
 bool scaleTareRequest = false;
 uint8_t pauseMainTask = 0;
 uint8_t scaleCalibrated = 1;
@@ -22,23 +21,8 @@ uint8_t scaleCalibrated = 1;
 Preferences preferences;
 const char* NVS_NAMESPACE = "scale";
 const char* NVS_KEY_CALIBRATION = "cal_value";
-const char* NVS_KEY_AUTOTARE = "auto_tare";
-bool autoTare = true;
 
 // ##### Funktionen für Waage #####
-uint8_t setAutoTare(bool autoTareValue) {
-  Serial.print("Set AutoTare to ");
-  Serial.println(autoTareValue);
-  autoTare = autoTareValue;
-
-  // Speichern mit NVS
-  preferences.begin(NVS_NAMESPACE, false); // false = readwrite
-  preferences.putBool(NVS_KEY_AUTOTARE, autoTare);
-  preferences.end();
-
-  return 1;
-}
-
 uint8_t tareScale() {
   Serial.println("Tare scale");
   scale.tare();
@@ -54,14 +38,6 @@ void scale_loop(void * parameter) {
   for(;;) {
     if (scale.is_ready()) 
     {
-      // Waage automatisch Taren, wenn zu lange Abweichung
-      if (autoTare && scale_tare_counter >= 5) 
-      {
-        Serial.println("Auto Tare scale");
-        scale.tare();
-        scale_tare_counter = 0;
-      }
-
       // Waage manuell Taren
       if (scaleTareRequest == true) 
       {
@@ -81,20 +57,13 @@ void scale_loop(void * parameter) {
   }
 }
 
-void start_scale(bool touchSensorConnected) {
+void start_scale() {
   Serial.println("Prüfe Calibration Value");
   float calibrationValue;
 
   // NVS lesen
   preferences.begin(NVS_NAMESPACE, true); // true = readonly
   calibrationValue = preferences.getFloat(NVS_KEY_CALIBRATION, defaultScaleCalibrationValue);
-  
-  // auto Tare
-  // Wenn Touch Sensor verbunden, dann autoTare auf false setzen
-  // Danach prüfen was in NVS gespeichert ist
-  autoTare = (touchSensorConnected) ? false : true;
-  autoTare = preferences.getBool(NVS_KEY_AUTOTARE, autoTare);
-
   preferences.end();
 
   Serial.print("Read Scale Calibration Value ");

src/scale.h

@@ -4,19 +4,17 @@
 #include <Arduino.h>
 #include "HX711.h"
 
-uint8_t setAutoTare(bool autoTareValue);
-uint8_t start_scale(bool touchSensorConnected);
+
+uint8_t start_scale();
 uint8_t calibrate_scale();
 uint8_t tareScale();
 
 extern HX711 scale;
 extern int16_t weight;
 extern uint8_t weigthCouterToApi;
-extern uint8_t scale_tare_counter;
 extern uint8_t scaleTareRequest;
 extern uint8_t pauseMainTask;
 extern uint8_t scaleCalibrated;
-extern bool autoTare;
 
 extern TaskHandle_t ScaleTask;
 

src/website.cpp

@@ -75,10 +75,6 @@ void onWsEvent(AsyncWebSocket *server, AsyncWebSocketClient *client, AwsEventTyp
                 success = calibrate_scale();
             }
 
-            if (doc["payload"] == "setAutoTare") {
-                success = setAutoTare(doc["enabled"].as<bool>());
-            }
-
             if (success) {
                 ws.textAll("{\"type\":\"scale\",\"payload\":\"success\"}");
             } else {
@@ -207,14 +203,10 @@ void setupWebserver(AsyncWebServer &server) {
     // Route für Waage
     server.on("/waage", HTTP_GET, [](AsyncWebServerRequest *request){
         Serial.println("Anfrage für /waage erhalten");
-        //AsyncWebServerResponse *response = request->beginResponse(LittleFS, "/waage.html.gz", "text/html");
-        //response->addHeader("Content-Encoding", "gzip");
-        //response->addHeader("Cache-Control", CACHE_CONTROL);
-
-        String html = loadHtmlWithHeader("/waage.html");
-        html.replace("{{autoTare}}", (autoTare) ? "checked" : "");
-
-        request->send(200, "text/html", html);
+        AsyncWebServerResponse *response = request->beginResponse(LittleFS, "/waage.html.gz", "text/html");
+        response->addHeader("Content-Encoding", "gzip");
+        response->addHeader("Cache-Control", CACHE_CONTROL);
+        request->send(response);
     });
 
     // Route für RFID