updated and fixed charts

RotaxMonitor/.vscode/extensions.json

@@ -1,8 +1,7 @@
 {
     "recommendations": [
         "Jason2866.esp-decoder",
-        "pioarduino.pioarduino-ide",
-        "platformio.platformio-ide"
+        "pioarduino.pioarduino-ide"
     ],
     "unwantedRecommendations": [
         "ms-vscode.cpptools-extension-pack"

RotaxMonitor/data/index.html

@@ -17,90 +17,196 @@
         </div>
     </header>
 
-    <div id="loadingIndicator" class="loading-indicator">
-        <span class="spinner"></span> Waiting for data...
+    <!-- TAB BUTTONS -->
+    <div class="tabs">
+        <button class="tab-button active" onclick="openTab('tab1')">Monitor</button>
+        <button class="tab-button" onclick="openTab('tab2')">Grafico</button>
     </div>
 
-    <div style="max-width: 900px; margin: 0 auto; text-align: left;">
-        <p><strong>Timestamp:</strong> <span id="timestamp">-</span></p>
-        <p><strong>Data Valid:</strong> <span id="datavalid">-</span></p>
-        <p><strong>Generator voltage:</strong> <span id="volts_gen">-</span></p>
-        <p><strong>Engine RPM:</strong> <span id="eng_rpm">-</span></p>
-        <p><strong>ADC read time:</strong> <span id="adc_read_time">-</span></p>
-        <p><strong>Queue errors:</strong> <span id="n_queue_errors">-</span></p>
+    <!-- TAB 1 (contenuto attuale) -->
+    <div id="tab1" class="tab-content active">
 
-        <table>
-            <thead>
-                <tr>
-                    <th>Property</th>
-                    <th>Pickup 12</th>
-                    <th>Pickup 34</th>
-                </tr>
-            </thead>
-            <tbody>
-                <tr>
-                    <td>Spark delay</td>
-                    <td id="coils12_spark_delay">-</td>
-                    <td id="coils34_spark_delay">-</td>
-                </tr>
-                <tr>
-                    <td>Spark status</td>
-                    <td id="coils12_spark_status">-</td>
-                    <td id="coils34_spark_status">-</td>
-                </tr>
-                <tr>
-                    <td>Soft start status</td>
-                    <td id="coils12_sstart_status">-</td>
-                    <td id="coils34_sstart_status">-</td>
-                </tr>
-                <tr>
-                    <td>Peak P in</td>
-                    <td id="coils12_peak_p_in">-</td>
-                    <td id="coils34_peak_p_in">-</td>
-                </tr>
-                <tr>
-                    <td>Peak N in</td>
-                    <td id="coils12_peak_n_in">-</td>
-                    <td id="coils34_peak_n_in">-</td>
-                </tr>
-                <tr>
-                    <td>Peak P out</td>
-                    <td id="coils12_peak_p_out">-</td>
-                    <td id="coils34_peak_p_out">-</td>
-                </tr>
-                <tr>
-                    <td>Peak N out</td>
-                    <td id="coils12_peak_n_out">-</td>
-                    <td id="coils34_peak_n_out">-</td>
-                </tr>
-                <tr>
-                    <td>Level spark</td>
-                    <td id="coils12_level_spark">-</td>
-                    <td id="coils34_level_spark">-</td>
-                </tr>
-                <tr>
-                    <td>Spark Events</td>
-                    <td id="coils12_n_events">-</td>
-                    <td id="coils34_n_events">-</td>
-                </tr>
-                <tr>
-                    <td>Missed Events</td>
-                    <td id="coils12_n_missed_firing">-</td>
-                    <td id="coils34_n_missed_firing">-</td>
-                </tr>
-            </tbody>
-        </table>
+        <div id="loadingIndicator" class="loading-indicator">
+            <span class="spinner"></span> Waiting for data...
+        </div>
+
+        <div class="tables-container">
+            <div class="box">
+                <h2>Box_A</h2>
+                <div class="box-data">
+                    <p><strong>Timestamp:</strong> <span id="a_timestamp">-</span></p>
+                    <p><strong>Data Valid:</strong> <span id="a_datavalid">-</span></p>
+                    <p><strong>Generator voltage:</strong> <span id="a_volts_gen">-</span></p>
+                    <p><strong>ADC read time:</strong> <span id="a_adc_read_time">-</span></p>
+                    <p><strong>Queue errors:</strong> <span id="a_n_queue_errors">-</span></p>
+                </div>
+                <div class="rpm-highlight">
+                    <strong>Engine RPM:</strong> <span id="a_eng_rpm">-</span>
+                </div>
+                <table>
+                    <thead>
+                        <tr>
+                            <th>Property</th>
+                            <th>Pickup 12</th>
+                            <th>Pickup 34</th>
+                        </tr>
+                    </thead>
+                    <tbody>
+                        <tr>
+                            <td>Spark delay</td>
+                            <td id="a_coils12_spark_delay">-</td>
+                            <td id="a_coils34_spark_delay">-</td>
+                        </tr>
+                        <tr>
+                            <td>Spark status</td>
+                            <td id="a_coils12_spark_status">-</td>
+                            <td id="a_coils34_spark_status">-</td>
+                        </tr>
+                        <tr>
+                            <td>Soft start status</td>
+                            <td id="a_coils12_sstart_status">-</td>
+                            <td id="a_coils34_sstart_status">-</td>
+                        </tr>
+                        <tr>
+                            <td>Peak P in</td>
+                            <td id="a_coils12_peak_p_in">-</td>
+                            <td id="a_coils34_peak_p_in">-</td>
+                        </tr>
+                        <tr>
+                            <td>Peak N in</td>
+                            <td id="a_coils12_peak_n_in">-</td>
+                            <td id="a_coils34_peak_n_in">-</td>
+                        </tr>
+                        <tr>
+                            <td>Peak P out</td>
+                            <td id="a_coils12_peak_p_out">-</td>
+                            <td id="a_coils34_peak_p_out">-</td>
+                        </tr>
+                        <tr>
+                            <td>Peak N out</td>
+                            <td id="a_coils12_peak_n_out">-</td>
+                            <td id="a_coils34_peak_n_out">-</td>
+                        </tr>
+                        <tr>
+                            <td>Level spark</td>
+                            <td id="a_coils12_level_spark">-</td>
+                            <td id="a_coils34_level_spark">-</td>
+                        </tr>
+                        <tr>
+                            <td>Spark Events</td>
+                            <td id="a_coils12_n_events">-</td>
+                            <td id="a_coils34_n_events">-</td>
+                        </tr>
+                        <tr>
+                            <td>Missed Events</td>
+                            <td id="a_coils12_n_missed_firing">-</td>
+                            <td id="a_coils34_n_missed_firing">-</td>
+                        </tr>
+                    </tbody>
+                </table>
+            </div>
+
+            <div class="box">
+                <h2>Box_B</h2>
+                <div class="box-data">
+                    <p><strong>Timestamp:</strong> <span id="b_timestamp">-</span></p>
+                    <p><strong>Data Valid:</strong> <span id="b_datavalid">-</span></p>
+                    <p><strong>Generator voltage:</strong> <span id="b_volts_gen">-</span></p>
+                    <p><strong>ADC read time:</strong> <span id="b_adc_read_time">-</span></p>
+                    <p><strong>Queue errors:</strong> <span id="b_n_queue_errors">-</span></p>
+                </div>
+                <div class="rpm-highlight">
+                    <strong>Engine RPM:</strong> <span id="b_eng_rpm">-</span>
+                </div>
+                <table>
+                    <thead>
+                        <tr>
+                            <th>Property</th>
+                            <th>Pickup 12</th>
+                            <th>Pickup 34</th>
+                        </tr>
+                    </thead>
+                    <tbody>
+                        <tr>
+                            <td>Spark delay</td>
+                            <td id="b_coils12_spark_delay">-</td>
+                            <td id="b_coils34_spark_delay">-</td>
+                        </tr>
+                        <tr>
+                            <td>Spark status</td>
+                            <td id="b_coils12_spark_status">-</td>
+                            <td id="b_coils34_spark_status">-</td>
+                        </tr>
+                        <tr>
+                            <td>Soft start status</td>
+                            <td id="b_coils12_sstart_status">-</td>
+                            <td id="b_coils34_sstart_status">-</td>
+                        </tr>
+                        <tr>
+                            <td>Peak P in</td>
+                            <td id="b_coils12_peak_p_in">-</td>
+                            <td id="b_coils34_peak_p_in">-</td>
+                        </tr>
+                        <tr>
+                            <td>Peak N in</td>
+                            <td id="b_coils12_peak_n_in">-</td>
+                            <td id="b_coils34_peak_n_in">-</td>
+                        </tr>
+                        <tr>
+                            <td>Peak P out</td>
+                            <td id="b_coils12_peak_p_out">-</td>
+                            <td id="b_coils34_peak_p_out">-</td>
+                        </tr>
+                        <tr>
+                            <td>Peak N out</td>
+                            <td id="b_coils12_peak_n_out">-</td>
+                            <td id="b_coils34_peak_n_out">-</td>
+                        </tr>
+                        <tr>
+                            <td>Level spark</td>
+                            <td id="b_coils12_level_spark">-</td>
+                            <td id="b_coils34_level_spark">-</td>
+                        </tr>
+                        <tr>
+                            <td>Spark Events</td>
+                            <td id="b_coils12_n_events">-</td>
+                            <td id="b_coils34_n_events">-</td>
+                        </tr>
+                        <tr>
+                            <td>Missed Events</td>
+                            <td id="b_coils12_n_missed_firing">-</td>
+                            <td id="b_coils34_n_missed_firing">-</td>
+                        </tr>
+                    </tbody>
+                </table>
+            </div>
+        </div>
+    </div> <!-- END TAB1 -->
+
+    <!-- TAB 2 (grafico) -->
+    <div id="tab2" class="tab-content">
+        <div class="chart-container">
+            <h3>Box A</h3>
+            <canvas id="chartA" height="100"></canvas>
+        </div>
+
+        <div class="chart-container">
+            <h3>Box B</h3>
+            <canvas id="chartB" height="100"></canvas>
+        </div>
     </div>
 
-    <div class="upload-section">
-        <h3>Upload file to Flash</h3>
-        <p>Select a file and upload it to Flash.</p>
-        <input type="file" id="littlefsFile">
-        <button onclick="uploadLittleFS()">Upload</button>
-        <div id="uploadStatus" class="upload-status">No file uploaded yet.</div>
-    </div>
-
-    <script src="script.js"></script>
 </body>
 
+<div class="upload-section">
+    <h3>Upload file to Flash</h3>
+    <p>Select a file and upload it to Flash.</p>
+    <input type="file" id="littlefsFile">
+    <button onclick="uploadLittleFS()">Upload</button>
+    <div id="uploadStatus" class="upload-status">No file uploaded yet.</div>
+</div>
+
+<script src="chart.js"></script>
+<script src="script.js"></script>
+
 </html>

RotaxMonitor/data/script.js

@@ -3,6 +3,26 @@ let lastMessageTimestamp = 0;
 const IDLE_THRESHOLD_MS = 1000;
 const loadingIndicator = document.getElementById("loadingIndicator");
 
+let chartA, chartB;
+
+let dataA = {
+    labels: [],
+    datasets: [
+        { label: "RPM", data: [] },
+        { label: "Coils12 Delay", data: [] },
+        { label: "Coils34 Delay", data: [] }
+    ]
+};
+
+let dataB = {
+    labels: [],
+    datasets: [
+        { label: "RPM", data: [] },
+        { label: "Coils12 Delay", data: [] },
+        { label: "Coils34 Delay", data: [] }
+    ]
+};
+
 function setLoadingIndicator(visible) {
     if (!loadingIndicator) {
         return;
@@ -25,6 +45,11 @@ function connectWS() {
         console.log("WebSocket connesso");
         lastMessageTimestamp = Date.now();
         setLoadingIndicator(false);
+
+        ws.send(JSON.stringify({
+            cmd: "setTime",
+            time: Math.floor(Date.now() / 1000)
+        }));
     };
 
     ws.onclose = () => {
@@ -46,39 +71,125 @@ function connectWS() {
         lastMessageTimestamp = Date.now();
         setLoadingIndicator(false);
 
-        document.getElementById("datavalid").textContent = data.datavalid ?? "-";
-        document.getElementById("timestamp").textContent = data.timestamp ?? "-";
-        document.getElementById("volts_gen").textContent = data.volts_gen ?? "-";
-        document.getElementById("eng_rpm").textContent = data.eng_rpm ?? "-";
-        document.getElementById("adc_read_time").textContent = data.adc_read_time ?? "-";
-        document.getElementById("n_queue_errors").textContent = data.n_queue_errors ?? "-";
+        updateCharts(data)
 
-        const coils12 = data.coils12 || {};
-        const coils34 = data.coils34 || {};
+        // Update Box_A
+        if (data.box_a) {
+            const boxA = data.box_a;
+            document.getElementById("a_datavalid").textContent = boxA.datavalid ?? "-";
+            document.getElementById("a_timestamp").textContent = boxA.timestamp ?? "-";
+            document.getElementById("a_volts_gen").textContent = boxA.volts_gen ?? "-";
+            document.getElementById("a_eng_rpm").textContent = boxA.eng_rpm ?? "-";
+            document.getElementById("a_adc_read_time").textContent = boxA.adc_read_time ?? "-";
+            document.getElementById("a_n_queue_errors").textContent = boxA.n_queue_errors ?? "-";
 
-        document.getElementById("coils12_spark_delay").textContent = coils12.spark_delay ?? "-";
-        document.getElementById("coils34_spark_delay").textContent = coils34.spark_delay ?? "-";
-        document.getElementById("coils12_spark_status").textContent = coils12.spark_status ?? "-";
-        document.getElementById("coils34_spark_status").textContent = coils34.spark_status ?? "-";
-        document.getElementById("coils12_sstart_status").textContent = coils12.sstart_status ?? "-";
-        document.getElementById("coils34_sstart_status").textContent = coils34.sstart_status ?? "-";
-        document.getElementById("coils12_peak_p_in").textContent = coils12.peak_p_in ?? "-";
-        document.getElementById("coils34_peak_p_in").textContent = coils34.peak_p_in ?? "-";
-        document.getElementById("coils12_peak_n_in").textContent = coils12.peak_n_in ?? "-";
-        document.getElementById("coils34_peak_n_in").textContent = coils34.peak_n_in ?? "-";
-        document.getElementById("coils12_peak_p_out").textContent = coils12.peak_p_out ?? "-";
-        document.getElementById("coils34_peak_p_out").textContent = coils34.peak_p_out ?? "-";
-        document.getElementById("coils12_peak_n_out").textContent = coils12.peak_n_out ?? "-";
-        document.getElementById("coils34_peak_n_out").textContent = coils34.peak_n_out ?? "-";
-        document.getElementById("coils12_level_spark").textContent = coils12.level_spark ?? "-";
-        document.getElementById("coils34_level_spark").textContent = coils34.level_spark ?? "-";
-        document.getElementById("coils12_n_events").textContent = coils12.n_events ?? "-";
-        document.getElementById("coils34_n_events").textContent = coils34.n_events ?? "-";
-        document.getElementById("coils12_n_missed_firing").textContent = coils12.n_missed_firing ?? "-";
-        document.getElementById("coils34_n_missed_firing").textContent = coils34.n_missed_firing ?? "-";
+            const coils12A = boxA.coils12 || {};
+            const coils34A = boxA.coils34 || {};
+
+            document.getElementById("a_coils12_spark_delay").textContent = coils12A.spark_delay ?? "-";
+            document.getElementById("a_coils34_spark_delay").textContent = coils34A.spark_delay ?? "-";
+            document.getElementById("a_coils12_spark_status").textContent = coils12A.spark_status ?? "-";
+            document.getElementById("a_coils34_spark_status").textContent = coils34A.spark_status ?? "-";
+            document.getElementById("a_coils12_sstart_status").textContent = coils12A.sstart_status ?? "-";
+            document.getElementById("a_coils34_sstart_status").textContent = coils34A.sstart_status ?? "-";
+            document.getElementById("a_coils12_peak_p_in").textContent = coils12A.peak_p_in ?? "-";
+            document.getElementById("a_coils34_peak_p_in").textContent = coils34A.peak_p_in ?? "-";
+            document.getElementById("a_coils12_peak_n_in").textContent = coils12A.peak_n_in ?? "-";
+            document.getElementById("a_coils34_peak_n_in").textContent = coils34A.peak_n_in ?? "-";
+            document.getElementById("a_coils12_peak_p_out").textContent = coils12A.peak_p_out ?? "-";
+            document.getElementById("a_coils34_peak_p_out").textContent = coils34A.peak_p_out ?? "-";
+            document.getElementById("a_coils12_peak_n_out").textContent = coils12A.peak_n_out ?? "-";
+            document.getElementById("a_coils34_peak_n_out").textContent = coils34A.peak_n_out ?? "-";
+            document.getElementById("a_coils12_level_spark").textContent = coils12A.level_spark ?? "-";
+            document.getElementById("a_coils34_level_spark").textContent = coils34A.level_spark ?? "-";
+            document.getElementById("a_coils12_n_events").textContent = coils12A.n_events ?? "-";
+            document.getElementById("a_coils34_n_events").textContent = coils34A.n_events ?? "-";
+            document.getElementById("a_coils12_n_missed_firing").textContent = coils12A.n_missed_firing ?? "-";
+            document.getElementById("a_coils34_n_missed_firing").textContent = coils34A.n_missed_firing ?? "-";
+        }
+
+        // Update Box_B
+        if (data.box_b) {
+            const boxB = data.box_b;
+            document.getElementById("b_datavalid").textContent = boxB.datavalid ?? "-";
+            document.getElementById("b_timestamp").textContent = boxB.timestamp ?? "-";
+            document.getElementById("b_volts_gen").textContent = boxB.volts_gen ?? "-";
+            document.getElementById("b_eng_rpm").textContent = boxB.eng_rpm ?? "-";
+            document.getElementById("b_adc_read_time").textContent = boxB.adc_read_time ?? "-";
+            document.getElementById("b_n_queue_errors").textContent = boxB.n_queue_errors ?? "-";
+
+            const coils12B = boxB.coils12 || {};
+            const coils34B = boxB.coils34 || {};
+
+            document.getElementById("b_coils12_spark_delay").textContent = coils12B.spark_delay ?? "-";
+            document.getElementById("b_coils34_spark_delay").textContent = coils34B.spark_delay ?? "-";
+            document.getElementById("b_coils12_spark_status").textContent = coils12B.spark_status ?? "-";
+            document.getElementById("b_coils34_spark_status").textContent = coils34B.spark_status ?? "-";
+            document.getElementById("b_coils12_sstart_status").textContent = coils12B.sstart_status ?? "-";
+            document.getElementById("b_coils34_sstart_status").textContent = coils34B.sstart_status ?? "-";
+            document.getElementById("b_coils12_peak_p_in").textContent = coils12B.peak_p_in ?? "-";
+            document.getElementById("b_coils34_peak_p_in").textContent = coils34B.peak_p_in ?? "-";
+            document.getElementById("b_coils12_peak_n_in").textContent = coils12B.peak_n_in ?? "-";
+            document.getElementById("b_coils34_peak_n_in").textContent = coils34B.peak_n_in ?? "-";
+            document.getElementById("b_coils12_peak_p_out").textContent = coils12B.peak_p_out ?? "-";
+            document.getElementById("b_coils34_peak_p_out").textContent = coils34B.peak_p_out ?? "-";
+            document.getElementById("b_coils12_peak_n_out").textContent = coils12B.peak_n_out ?? "-";
+            document.getElementById("b_coils34_peak_n_out").textContent = coils34B.peak_n_out ?? "-";
+            document.getElementById("b_coils12_level_spark").textContent = coils12B.level_spark ?? "-";
+            document.getElementById("b_coils34_level_spark").textContent = coils34B.level_spark ?? "-";
+            document.getElementById("b_coils12_n_events").textContent = coils12B.n_events ?? "-";
+            document.getElementById("b_coils34_n_events").textContent = coils34B.n_events ?? "-";
+            document.getElementById("b_coils12_n_missed_firing").textContent = coils12B.n_missed_firing ?? "-";
+            document.getElementById("b_coils34_n_missed_firing").textContent = coils34B.n_missed_firing ?? "-";
+        }
     };
 }
 
+function updateCharts(data) {
+
+    const t = new Date().toLocaleTimeString();
+
+    // ===== BOX A =====
+    dataA.labels.push(t);
+    if (data.box_a) {
+        dataA.datasets[0].data.push(data.box_a.eng_rpm / 10);
+        dataA.datasets[1].data.push(data.box_a.coils12.spark_delay);
+        dataA.datasets[2].data.push(data.box_a.coils34.spark_delay);
+    } else {
+        dataA.datasets[0].data.push(undefined);
+        dataA.datasets[1].data.push(undefined);
+        dataA.datasets[2].data.push(undefined);
+    }
+
+    // ===== BOX B =====
+    dataB.labels.push(t);
+    if (data.box_b) {
+        dataB.datasets[0].data.push(data.box_b.eng_rpm / 10);
+        dataB.datasets[1].data.push(data.box_b.coils12.spark_delay);
+        dataB.datasets[2].data.push(data.box_b.coils34.spark_delay);
+    } else {
+        dataB.datasets[0].data.push(undefined);
+        dataB.datasets[1].data.push(undefined);
+        dataB.datasets[2].data.push(undefined);
+    }
+
+    // limite buffer
+    const maxPoints = 100;
+
+    if (dataA.labels.length > maxPoints) {
+        dataA.labels.shift();
+        dataA.datasets.forEach(d => d.data.shift());
+    }
+
+    if (dataB.labels.length > maxPoints) {
+        dataB.labels.shift();
+        dataB.datasets.forEach(d => d.data.shift());
+    }
+
+    chartA.update();
+    chartB.update();
+}
+
 function start() {
     fetch("/start");
 }
@@ -121,5 +232,61 @@ function uploadLittleFS() {
         });
 }
 
+function openTab(tabId) {
+    document.querySelectorAll('.tab-content').forEach(tab => {
+        tab.classList.remove('active');
+    });
+
+    document.querySelectorAll('.tab-button').forEach(btn => {
+        btn.classList.remove('active');
+    });
+
+    document.getElementById(tabId).classList.add('active');
+
+    event.target.classList.add('active');
+}
+
+function initCharts() {
+    const ctxA = document.getElementById('chartA').getContext('2d');
+    const ctxB = document.getElementById('chartB').getContext('2d');
+
+    chartA = new Chart(ctxA, {
+        type: 'line',
+        data: dataA,
+        options: {
+            animation: false,
+            responsive: true,
+            scales: {
+                x: {
+                    display: true
+                },
+                y: {
+                    beginAtZero: true
+                }
+            }
+        }
+    });
+    chartB = new Chart(ctxB, {
+        type: 'line',
+        data: dataB,
+        options: {
+            animation: false,
+            responsive: true,
+            scales: {
+                x: {
+                    display: true
+                },
+                y: {
+                    beginAtZero: true
+                }
+            }
+        }
+    });
+}
+
+window.onload = () => {
+    initCharts();
+};
+
 setInterval(updateLoadingState, 200);
 connectWS();

RotaxMonitor/data/style.css

@@ -35,10 +35,13 @@ body {
 .logo {
     height: 50px;
     width: auto;
+    margin: auto;
 }
 
 .page-header h1 {
-    margin: 5px;
+    margin: auto;
+    margin-top: 20px;
+    text-align: center;
     font-size: 28px;
     font-weight: 600;
 }
@@ -159,24 +162,98 @@ button:hover {
     }
 }
 
-/* Data section */
-div[style*="max-width: 900px"] {
+.tables-container {
+    display: flex;
+    gap: 20px;
+    max-width: 1800px;
+    margin: 0 auto;
+    padding: 0 20px;
+}
+
+.box {
+    flex: 1;
     background: white;
     padding: 20px;
     border-radius: 6px;
     box-shadow: 0 1px 3px rgba(0, 0, 0, 0.08);
+}
+
+.box h2 {
+    margin-top: 0;
+    margin-bottom: 16px;
+    color: var(--primary-blue);
+    font-size: 18px;
+    font-weight: 700;
+    text-align: center;
+}
+
+.box-data {
     margin-bottom: 20px;
 }
 
-div[style*="max-width: 900px"] p {
+.box-data p {
     margin: 8px 0;
     font-size: 14px;
 }
 
-div[style*="max-width: 900px"] strong {
+.box-data strong {
+    color: var(--primary-blue);
+}
+
+.rpm-highlight {
+    background: #c6e4fa;
+    border: 3px double var(--primary-blue);
+    border-radius: 8px;
+    padding: 12px 16px;
+    margin-bottom: 20px;
+    text-align: center;
+    font-size: 18px;
+    font-weight: bold;
+    color: var(--text-dark);
+}
+
+.rpm-highlight strong {
     color: var(--primary-blue);
 }
 
 span {
     color: var(--text-dark);
 }
+
+/* TABS */
+.tabs {
+    display: flex;
+    justify-content: center;
+    margin: 20px;
+}
+
+.tab-button {
+    padding: 10px 20px;
+    margin: 0 5px;
+    border: none;
+    cursor: pointer;
+    background: var(--border-color);
+    border-radius: 4px;
+}
+
+.tab-button.active {
+    background: var(--primary-blue);
+    color: white;
+}
+
+.tab-content {
+    display: none;
+}
+
+.tab-content.active {
+    display: block;
+}
+
+.chart-container {
+    max-width: 1000px;
+    margin: 20px auto;
+    background: white;
+    padding: 20px;
+    border-radius: 6px;
+    box-shadow: 0 1px 3px rgba(0,0,0,0.08);
+}

RotaxMonitor/lib/led/led.cpp

@@ -0,0 +1,32 @@
+#include <led.h>
+
+RGBled::RGBled(const uint8_t pin) : m_led(pin)
+{
+    pinMode(m_led, OUTPUT);
+    writeStatus(RGBled::ERROR);
+}
+
+RGBled::~RGBled()
+{
+    pinMode(m_led, INPUT);
+}
+
+void RGBled::setStatus(const LedStatus s)
+{
+    if (m_status == s)
+        return;
+    std::lock_guard<std::mutex> lock(m_mutex);
+    m_status = s;
+    writeStatus(m_status);
+}
+
+const RGBled::LedStatus RGBled::getSatus(void)
+{
+    return m_status;
+}
+
+void RGBled::writeStatus(const RGBled::LedStatus s)
+{
+    RGBled::color_u u{.status = s};
+    rgbLedWrite(m_led, u.color.r, u.color.g, u.color.b);
+}

RotaxMonitor/lib/led/led.h

@@ -0,0 +1,63 @@
+#pragma once
+
+// System Inlcudes
+#include <Arduino.h>
+#include <mutex>
+
+#define RED 0x00FF00
+#define GREEN 0xFF0000
+#define BLUE 0x0000FF
+#define WHITE 0xFFFFFF
+#define YELLOW 0xFFFF00
+#define CYAN 0xFF00FF
+#define MAGENTA 0x00FFFF
+#define ORANGE 0xA5FF00
+#define PURPLE 0x008080
+#define PINK 0x69FFB4
+#define LIME 0xCD3232
+#define SKY_BLUE 0xCE87EB
+#define GOLD 0xD7FF00
+#define TURQUOISE 0xE040D0
+#define INDIGO 0x004B82
+#define GRAY 0x808080
+
+class RGBled
+{
+public:
+    enum LedStatus
+    {
+        OK = GREEN,
+        ERROR = RED,
+        INIT = YELLOW,
+        DATA_A = CYAN,
+        DATA_B = MAGENTA,
+        DATA_ALL = ORANGE,
+        IDLE = GRAY
+    };
+
+    struct color_t
+    {
+        uint8_t a, r, g, b;
+    };
+
+    union color_u
+    {
+        uint32_t status;
+        color_t color;
+    };
+
+public:
+    RGBled(const uint8_t pin = 48);
+    ~RGBled();
+
+    void setStatus(const LedStatus s);
+    const LedStatus getSatus(void);
+
+private:
+    void writeStatus(const LedStatus s);
+
+private:
+    LedStatus m_status = LedStatus::IDLE;
+    std::mutex m_mutex;
+    const uint8_t m_led;
+};

RotaxMonitor/platformio.ini

@@ -20,23 +20,22 @@ lib_deps =
 	hideakitai/PCA95x5@^0.1.3
 	me-no-dev/AsyncTCP@^3.3.2
 	me-no-dev/ESPAsyncWebServer@^3.6.0
+	adafruit/Adafruit NeoPixel@^1.15.4
 upload_protocol = esptool
-upload_port = COM8
+upload_port = /dev/ttyACM1
 upload_speed = 921600
-monitor_port = COM4
+monitor_port = /dev/ttyACM0
 monitor_speed = 921600
 build_type = release
 build_flags = 
 	-DCORE_DEBUG_LEVEL=1
 	-DARDUINO_USB_CDC_ON_BOOT=0
 	-DARDUINO_USB_MODE=0
-	-DCONFIG_FREERTOS_GENERATE_RUN_TIME_STATS=1
-	-DCONFIG_FREERTOS_USE_TRACE_FACILITY=1
 	-DCONFIG_ASYNC_TCP_MAX_ACK_TIME=5000
-	-DCONFIG_ASYNC_TCP_PRIORITY=20
-	-DCONFIG_ASYNC_TCP_QUEUE_SIZE=128
+	-DCONFIG_ASYNC_TCP_PRIORITY=21
+	-DCONFIG_ASYNC_TCP_QUEUE_SIZE=64
 	-DCONFIG_ASYNC_TCP_RUNNING_CORE=1
-	-DCONFIG_ASYNC_TCP_STACK_SIZE=8192
+	-DCONFIG_ASYNC_TCP_STACK_SIZE=4096
 	-fstack-protector-all
 
 [env:esp32-s3-devkitc1-n16r8-debug]
@@ -47,10 +46,11 @@ platform = ${env:esp32-s3-devkitc1-n16r8.platform}
 framework = ${env:esp32-s3-devkitc1-n16r8.framework}
 lib_deps = 
 	${env:esp32-s3-devkitc1-n16r8.lib_deps}
+	adafruit/Adafruit NeoPixel@^1.15.4
 upload_protocol = esptool
-upload_port = COM8
+upload_port = /dev/ttyACM1
 upload_speed = 921600
-monitor_port = COM4
+monitor_port = /dev/ttyACM0
 monitor_speed = 921600
 debug_tool = esp-builtin
 debug_speed = 15000
@@ -62,10 +62,8 @@ build_flags =
 	-DCORE_DEBUG_LEVEL=3
 	-DARDUINO_USB_CDC_ON_BOOT=0
 	-DARDUINO_USB_MODE=0
-	-DCONFIG_FREERTOS_GENERATE_RUN_TIME_STATS=1
-	-DCONFIG_FREERTOS_USE_TRACE_FACILITY=1
 	-DCONFIG_ASYNC_TCP_MAX_ACK_TIME=5000
-	-DCONFIG_ASYNC_TCP_PRIORITY=20
+	-DCONFIG_ASYNC_TCP_PRIORITY=21
 	-DCONFIG_ASYNC_TCP_QUEUE_SIZE=128
 	-DCONFIG_ASYNC_TCP_RUNNING_CORE=1
 	-DCONFIG_ASYNC_TCP_STACK_SIZE=8192

RotaxMonitor/src/datasave.cpp

@@ -1,7 +1,7 @@
 #include "datasave.h"
 #include <math.h>
 
-static const size_t min_free = 1024 * 1024; // minimum free space in LittleFS to allow saving history (1MB)
+
 
 LITTLEFSGuard::LITTLEFSGuard()
 {
@@ -22,26 +22,26 @@ LITTLEFSGuard::~LITTLEFSGuard()
     LOG_INFO("LittleFS unmounted successfully");
 }
 
-void ignitionBoxStatusAverage::filter(int32_t &old, const int32_t value, const uint32_t k)
+void ignitionBoxStatusFiltered::filter(int32_t &old, const int32_t value, const uint32_t k)
 {
     float alpha = 1.0f / (float)k;
     old = old + (int32_t)(alpha * (float)(value - old));
 }
 
-void ignitionBoxStatusAverage::filter(float &old, const float value, const uint32_t k)
+void ignitionBoxStatusFiltered::filter(float &old, const float value, const uint32_t k)
 {
     float alpha = 1.0f / (float)k;
     old = old + (float)(alpha * (float)(value - old));
 }
 
-void ignitionBoxStatusAverage::reset()
+void ignitionBoxStatusFiltered::reset()
 {
     m_last = ignitionBoxStatus();
     m_count = 0;
     m_data_valid = false;
 }
 
-void ignitionBoxStatusAverage::update(const ignitionBoxStatus &new_status)
+void ignitionBoxStatusFiltered::update(const ignitionBoxStatus &new_status)
 {
     if (m_count == 0 && !m_data_valid)
     {
@@ -81,7 +81,7 @@ void ignitionBoxStatusAverage::update(const ignitionBoxStatus &new_status)
     }
 }
 
-const bool ignitionBoxStatusAverage::get(ignitionBoxStatus &status) const
+const bool ignitionBoxStatusFiltered::get(ignitionBoxStatus &status) const
 {
     if (m_data_valid)
     {
@@ -90,7 +90,7 @@ const bool ignitionBoxStatusAverage::get(ignitionBoxStatus &status) const
     return m_data_valid;
 }
 
-const ArduinoJson::JsonDocument ignitionBoxStatusAverage::toJson() const
+const ArduinoJson::JsonDocument ignitionBoxStatusFiltered::toJson() const
 {
     ArduinoJson::JsonDocument doc;
     if (m_data_valid)
@@ -125,97 +125,3 @@ const ArduinoJson::JsonDocument ignitionBoxStatusAverage::toJson() const
     return doc;
 }
 
-void saveHistoryTask(void *pvParameters)
-{
-    const auto *params = static_cast<dataSaveParams *>(pvParameters);
-    const auto &history = *params->history;
-    const auto &file_path = params->file_path;
-    if (!params)
-    {
-        LOG_ERROR("Invalid parameters for saveHistoryTask");
-        return;
-    }
-    LOG_DEBUG("Starting saving: ", file_path.c_str());
-    save_history(history, file_path);
-    vTaskDelete(NULL);
-}
-
-void save_history(const PSRAMVector<ignitionBoxStatus> &history, const std::filesystem::path &file_name)
-{
-    // Initialize SPIFFS
-    if (!SAVE_HISTORY_TO_LITTLEFS)
-        return;
-
-    auto littlefs_guard = LITTLEFSGuard(); // use RAII guard to ensure LittleFS is properly mounted and unmounted
-
-    if (LittleFS.totalBytes() - LittleFS.usedBytes() < min_free) // check if at least 1MB is free for saving history
-    {
-        LOG_ERROR("Not enough space in SPIFFS to save history");
-        return;
-    }
-
-    std::filesystem::path file_path = file_name;
-    if (file_name.root_path() != "/littlefs")
-        file_path = std::filesystem::path("/littlefs") / file_name;
-
-    auto save_flags = std::ios::out;
-    if (first_save && LittleFS.exists(file_path.c_str()))
-    {
-        first_save = false;
-        save_flags |= std::ios::trunc;      // overwrite existing file
-        LittleFS.remove(file_path.c_str()); // ensure file is removed before saving to avoid issues with appending to existing file in SPIFFS
-        LOG_INFO("Saving history to LittleFS, new file:", file_path.c_str());
-    }
-    else
-    {
-        save_flags |= std::ios::app; // append to new file
-        LOG_INFO("Saving history to LittleFS, appending to existing file:", file_path.c_str());
-    }
-
-    std::ofstream ofs(file_path, save_flags);
-    if (ofs.fail())
-    {
-        LOG_ERROR("Failed to open file for writing");
-        return;
-    }
-
-    // write csv header
-    if (first_save)
-    {
-        ofs << "TS,\
-        EVENTS_12,DLY_12,STAT_12,V_12_1,V_12_2,V_12_3,V_12_4,IGNITION_MODE_12,\
-        EVENTS_34,DLY_34,STAT_34,V_34_1,V_34_2,V_34_3,V_34_4,IGNITION_MODE_34,\
-        ENGINE_RPM,ADC_READTIME,N_QUEUE_ERRORS"
-            << std::endl;
-        ofs.flush();
-    }
-
-    for (const auto &entry : history)
-    {
-        ofs << std::to_string(entry.timestamp) << ","
-            << std::to_string(entry.coils12.n_events) << ","
-            << std::to_string(entry.coils12.spark_delay) << ","
-            << std::string(sparkStatusNames.at(entry.coils12.spark_status)) << ","
-            << std::to_string(entry.coils12.peak_p_in) << ","
-            << std::to_string(entry.coils12.peak_n_in) << ","
-            << std::to_string(entry.coils12.peak_p_out) << ","
-            << std::to_string(entry.coils12.peak_n_out) << ","
-            << std::string(softStartStatusNames.at(entry.coils12.sstart_status)) << ","
-            << std::to_string(entry.coils34.n_events) << ","
-            << std::to_string(entry.coils34.spark_delay) << ","
-            << std::string(sparkStatusNames.at(entry.coils34.spark_status)) << ","
-            << std::to_string(entry.coils34.peak_p_in) << ","
-            << std::to_string(entry.coils34.peak_n_in) << ","
-            << std::to_string(entry.coils34.peak_p_out) << ","
-            << std::to_string(entry.coils34.peak_n_out) << ","
-            << std::string(softStartStatusNames.at(entry.coils34.sstart_status)) << ","
-            << std::to_string(entry.eng_rpm) << ","
-            << std::to_string(entry.adc_read_time) << ","
-            << std::to_string(entry.n_queue_errors);
-        ofs << std::endl;
-        ofs.flush();
-    }
-
-    ofs.close();
-    LOG_INFO("Ignition A history saved to LittleFS, records written: ", history.size());
-}

RotaxMonitor/src/datasave.h

@@ -15,14 +15,6 @@
 #include "psvector.h"
 
 const uint32_t max_history = 256;
-const bool SAVE_HISTORY_TO_LITTLEFS = false; // Set to true to enable saving history to LittleFS, false to disable
-static bool first_save = true;               // flag to indicate if this is the first save (to write header)
-
-struct dataSaveParams
-{
-    const PSRAMVector<ignitionBoxStatus> *history;
-    const std::filesystem::path file_path;
-};
 
 class LITTLEFSGuard
 {
@@ -31,7 +23,7 @@ public:
     ~LITTLEFSGuard();
 };
 
-class ignitionBoxStatusAverage
+class ignitionBoxStatusFiltered
 {
 private:
     ignitionBoxStatus m_last;
@@ -40,8 +32,8 @@ private:
     bool m_data_valid = false;  // flag to indicate if the average data is valid (i.e. at least one sample has been added)
 
 public:
-    ignitionBoxStatusAverage() = default;
-    ignitionBoxStatusAverage(const uint32_t max_count) : m_max_count(max_count)
+    ignitionBoxStatusFiltered() = default;
+    ignitionBoxStatusFiltered(const uint32_t max_count) : m_max_count(max_count)
     {
         m_data_valid = false;
         m_count = 0;
@@ -56,7 +48,3 @@ private:
     void filter(int32_t &old, const int32_t value, const uint32_t k);
     void filter(float &old, const float value, const uint32_t k);
 };
-
-// Task and function declarations
-void saveHistoryTask(void *pvParameters);
-void save_history(const PSRAMVector<ignitionBoxStatus> &history, const std::filesystem::path &file_path);

RotaxMonitor/src/datastruct.h

@@ -1,6 +1,7 @@
 #pragma once
 #include <Arduino.h>
 #include <map>
+#include <psvector.h>
 
 // =====================
 // Event Flags (bitmask)
@@ -88,3 +89,7 @@ struct ignitionBoxStatus
     uint32_t n_queue_errors = 0;
     int32_t adc_read_time = 0;
 };
+
+
+template <typename T>
+using PSRAMVector = std::vector<T, PSRAMAllocator<T>>;

RotaxMonitor/src/devices.h

@@ -3,33 +3,53 @@
 // Library defines
 #define ADS1256_SPI_ALREADY_STARTED
 
+// System Includes
+#include <memory>
+
 // Device Libraries
 #include <ADS1256.h>
 #include <AD5292.h>
 #include <PCA95x5.h>
 
 // ADC Channel mapping
-#define ADC_CH_PEAK_12P_IN      SING_0
-#define ADC_CH_PEAK_12N_IN      SING_1
-#define ADC_CH_PEAK_34P_IN      SING_2
-#define ADC_CH_PEAK_34N_IN      SING_3
-#define ADC_CH_PEAK_12P_OUT     SING_4
-#define ADC_CH_PEAK_12N_OUT     SING_5
-#define ADC_CH_PEAK_34P_OUT     SING_6
-#define ADC_CH_PEAK_34N_OUT     SING_7
+#define ADC_CH_PEAK_12P_IN SING_0
+#define ADC_CH_PEAK_12N_IN SING_1
+#define ADC_CH_PEAK_34P_IN SING_2
+#define ADC_CH_PEAK_34N_IN SING_3
+#define ADC_CH_PEAK_12P_OUT SING_4
+#define ADC_CH_PEAK_12N_OUT SING_5
+#define ADC_CH_PEAK_34P_OUT SING_6
+#define ADC_CH_PEAK_34N_OUT SING_7
 
 // Device Pointer structs for tasks
-struct Devices {
-  AD5292 *pot_a = NULL, *pot_b = NULL;
-  ADS1256 *adc_a = NULL, *adc_b = NULL; 
-  PCA9555* io = NULL;
+struct Devices
+{
+    std::unique_ptr<SPIClass> m_spi_a = nullptr;
+    std::unique_ptr<SPIClass> m_spi_b = nullptr;
+
+    std::unique_ptr<AD5292> m_pot_a = nullptr;
+    std::unique_ptr<AD5292> m_pot_b = nullptr;
+
+    std::unique_ptr<ADS1256> m_adc_a = nullptr;
+    std::unique_ptr<ADS1256> m_adc_b = nullptr;
+
+    std::unique_ptr<PCA9555> m_expander_a = nullptr;
+    std::unique_ptr<PCA9555> m_expander_b = nullptr;
+    std::unique_ptr<PCA9555> m_expander_inputs_ab = nullptr;
+
+    std::mutex m_spi_a_mutex;
+    std::mutex m_spi_b_mutex;
+
+    std::mutex m_i2c_mutex;
 };
 
 // Adc read channel wrapper to selet mux before reading
-inline float adcReadChannel(ADS1256* adc, const uint8_t ch){
+inline float adcReadChannel(ADS1256 *adc, const uint8_t ch)
+{
     adc->setMUX(ch);
     // scarta 3 conversioni
-    for (int i = 0; i < 3; i++) {
+    for (int i = 0; i < 3; i++)
+    {
         adc->readSingle();
     }
     // ora lettura valida a 30kSPS → ~100 µs di settling

RotaxMonitor/src/isr.cpp

@@ -4,7 +4,7 @@
 // ISR (Pass return bitmask to ISR management function)
 // one function for each wake up pin conncted to a trigger
 // =====================
-void trig_isr(void *arg)
+void trig_isr_A(void *arg)
 {
     const int64_t time_us = esp_timer_get_time();
 
@@ -50,4 +50,53 @@ void trig_isr(void *arg)
 
     if (xHigherPriorityTaskWoken)
         portYIELD_FROM_ISR();
-}
+}
+
+
+void trig_isr_B(void *arg)
+{
+    const int64_t time_us = esp_timer_get_time();
+
+    // exit if invalid args
+    if (!arg)
+        return;
+
+    BaseType_t xHigherPriorityTaskWoken = pdFALSE;
+    isrParams *params = (isrParams *)arg;
+    ignitionBoxStatus *box = params->ign_stat;
+    TaskHandle_t task_handle = params->rt_handle_ptr;
+
+    // exit if task not running
+    if (!task_handle)
+        return;
+
+    switch (params->flag)
+    {
+    case TRIG_FLAG_12P:
+    case TRIG_FLAG_12N:
+        // only on first trigger to avoid multiple firing due to noise, to be fixed with hardware debounce
+        box->coils12.trig_time = time_us;
+        xTaskNotifyFromISR(task_handle, params->flag, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
+        break;
+    case TRIG_FLAG_34P:
+    case TRIG_FLAG_34N:
+        // only on first trigger to avoid multiple firing due to noise, to be fixed with hardware debounce
+        box->coils34.trig_time = time_us;
+        xTaskNotifyFromISR(task_handle, params->flag, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
+        break;
+    case SPARK_FLAG_12:
+
+        box->coils12.spark_time = time_us;
+        xTaskNotifyFromISR(task_handle, params->flag, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
+        break;
+    case SPARK_FLAG_34:
+        box->coils34.spark_time = time_us;
+        xTaskNotifyFromISR(task_handle, params->flag, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
+        break;
+    default:
+        break;
+    }
+
+    if (xHigherPriorityTaskWoken)
+        portYIELD_FROM_ISR();
+}

RotaxMonitor/src/isr.h

@@ -16,8 +16,8 @@
 
 #define CORE_0 0
 #define CORE_1 1
-#define RT_TASK_STACK 4096                          // in words
-#define RT_TASK_PRIORITY (configMAX_PRIORITIES - 4) // highest priority after wifi tasks
+#define RT_TASK_STACK 2048                          // in words
+#define RT_TASK_PRIORITY (configMAX_PRIORITIES - 5) // highest priority after wifi tasks
 
 struct isrParams
 {
@@ -26,4 +26,5 @@ struct isrParams
     TaskHandle_t rt_handle_ptr;
 };
 
-void IRAM_ATTR trig_isr(void *arg);
+void IRAM_ATTR trig_isr_A(void *arg);
+void IRAM_ATTR trig_isr_B(void *arg);

RotaxMonitor/src/main.cpp

@@ -14,13 +14,11 @@
 #include <datasave.h>
 #include <webserver.h>
 #include <ui.h>
+#include <led.h>
 
-// FreeRTOS directives
-#include "freertos/FreeRTOS.h"
-#include "freertos/task.h"
-
-// #define CH_B_ENABLE
-#define TEST
+// Defines to enable channel B
+#define CH_B_ENABLE
+// #define TEST
 
 // Debug Defines
 #define WIFI_SSID "AstroRotaxMonitor"
@@ -33,7 +31,7 @@ void setup()
 
     // Setup Logger
     LOG_ATTACH_SERIAL(Serial);
-    LOG_SET_LEVEL(DebugLogLevel::LVL_INFO);
+    LOG_SET_LEVEL(DebugLogLevel::LVL_DEBUG);
 
     // Print Processor Info
     LOG_DEBUG("ESP32 Chip:", ESP.getChipModel());
@@ -54,6 +52,7 @@ void setup()
     IPAddress gateway(10, 11, 12, 1);
     IPAddress subnet(255, 255, 255, 0);
     WiFi.softAPConfig(local_IP, gateway, subnet);
+    WiFi.setTxPower(WIFI_POWER_13dBm); // reduce wifi power
     if (WiFi.softAP(WIFI_SSID, WIFI_PASSWORD))
     {
         LOG_INFO("WiFi AP Mode Started");
@@ -75,80 +74,28 @@ void setup()
     initSparkPinInputs();
 }
 
+////////////////////// MAIN LOOP //////////////////////
 void loop()
 {
     // global variables
+    RGBled led;
+    led.setStatus(RGBled::LedStatus::INIT);
     bool running = true;
-    const uint32_t max_queue = 128;
-    const uint32_t filter_k = 10;
-    PSRAMVector<ignitionBoxStatus> ignA_history_0(max_history);
-    PSRAMVector<ignitionBoxStatus> ignA_history_1(max_history);
-    auto *active_history = &ignA_history_0;
-    auto *writable_history = &ignA_history_1;
+    std::mutex fs_mutex;
+    LITTLEFSGuard fsGuard;
 
-    // Resources Initialization
-    Devices dev;
-    // Task handle
-    TaskHandle_t trigA_TaskHandle = NULL;
-    TaskHandle_t trigB_TaskHandle = NULL;
-    // Data Queue for real time task to main loop communication
-    QueueHandle_t rt_taskA_queue = xQueueCreate(max_queue, sizeof(ignitionBoxStatus));
-    QueueHandle_t rt_taskB_queue = xQueueCreate(max_queue, sizeof(ignitionBoxStatus));
-    rtTaskParams taskA_params{
-        .rt_running = true,
-        .dev = &dev,
-        .rt_handle_ptr = &trigA_TaskHandle,
-        .rt_queue = rt_taskA_queue,
-        .rt_int = rtTaskInterrupts{
-            .isr_ptr = trig_isr,
-            .trig_pin_12p = TRIG_PIN_A12P,
-            .trig_pin_12n = TRIG_PIN_A12N,
-            .trig_pin_34p = TRIG_PIN_A34P,
-            .trig_pin_34n = TRIG_PIN_A34N,
-            .spark_pin_12 = SPARK_PIN_A12,
-            .spark_pin_34 = SPARK_PIN_A34},
-        .rt_resets = rtTaskResets{.rst_io_peak= RST_EXT_PEAK_DETECT, .rst_io_sh = RST_EXT_SAMPLE_HOLD}};
-
-    if (!rt_taskA_queue || !rt_taskB_queue)
-    {
-        LOG_ERROR("Unable To Create task queues");
-        LOG_ERROR("5 seconds to restart...");
-        vTaskDelay(pdMS_TO_TICKS(5000));
-        esp_restart();
-    }
-    else
-        LOG_DEBUG("Task Variables OK");
-
-#ifdef CH_B_ENABLE
-    QueueHandle_t rt_taskB_queue = xQueueCreate(max_queue, sizeof(ignitionBoxStatus));
-    rtTaskParams taskB_params{
-        .rt_running = true,
-        .dev = &dev,
-        .rt_handle_ptr = &trigB_TaskHandle,
-        .rt_queue = rt_taskB_queue,
-        .rt_int = rtTaskInterrupts{
-            .isr_ptr = trig_isr,
-            .trig_pin_12p = TRIG_PIN_B12P,
-            .trig_pin_12n = TRIG_PIN_B12N,
-            .trig_pin_34p = TRIG_PIN_B34P,
-            .trig_pin_34n = TRIG_PIN_B34N,
-            .spark_pin_12 = SPARK_PIN_B12,
-            .spark_pin_34 = SPARK_PIN_B34},
-        .rt_resets = rtTaskResets{.rst_io_12p = RST_EXT_B12P, .rst_io_12n = RST_EXT_B12N, .rst_io_34p = RST_EXT_B34P, .rst_io_34n = RST_EXT_B34N}};
-#endif
-
-    // Spi ok flags
+    //////// INIT SPI PORTS ////////
     bool spiA_ok = true;
     bool spiB_ok = true;
     // Init 2 SPI interfaces
-    SPIClass SPI_A(FSPI);
-    spiA_ok = SPI_A.begin(SPI_A_SCK, SPI_A_MISO, SPI_A_MOSI);
-    SPI_A.setDataMode(SPI_MODE1); // ADS1256 requires SPI mode 1
-#ifdef CH_B_ENABLE
-    SPIClass SPI_B(HSPI);
-    spiB_ok = SPI_B.begin(SPI_B_SCK, SPI_B_MISO, SPI_B_MOSI);
-    SPI_B.setDataMode(SPI_MODE1); // ADS1256 requires SPI mode 1
-#endif
+//     SPIClass SPI_A(FSPI);
+//     spiA_ok = SPI_A.begin(SPI_A_SCK, SPI_A_MISO, SPI_A_MOSI);
+//     SPI_A.setDataMode(SPI_MODE1); // ADS1256 requires SPI mode 1
+// #ifdef CH_B_ENABLE
+//     SPIClass SPI_B(HSPI);
+//     spiB_ok = SPI_B.begin(SPI_B_SCK, SPI_B_MISO, SPI_B_MOSI);
+//     SPI_B.setDataMode(SPI_MODE1); // ADS1256 requires SPI mode 1
+// #endif
     if (!spiA_ok || !spiB_ok)
     {
         LOG_ERROR("Unable to Initialize SPI Busses");
@@ -158,48 +105,92 @@ void loop()
     }
     LOG_DEBUG("Init SPI OK");
 
-    // Init ADC_A
-    dev.adc_a = new ADS1256(ADC_A_DRDY, ADS1256::PIN_UNUSED, ADS1256::PIN_UNUSED, ADC_A_CS, 2.5, &SPI_A);
-    dev.adc_a->InitializeADC();
-    dev.adc_a->setPGA(PGA_1);
-    dev.adc_a->setDRATE(DRATE_7500SPS);
+    // Resources Initialization
+    std::shared_ptr<Devices> dev = std::make_shared<Devices>();
+    // dev->m_spi_a = std::make_unique<SPIClass>(SPI_A);
+    // dev->m_spi_b = std::make_unique<SPIClass>(SPI_B);
 
-#ifdef CH_B_ENABLE
-    // Init ADC_B
-    dev.adc_a = new ADS1256(ADC_B_DRDY, ADC_B_RST, ADC_B_SYNC, ADC_B_CS, 2.5, &SPI_B);
-    dev.adc_a->InitializeADC();
-    dev.adc_a->setPGA(PGA_1);
-    dev.adc_a->setDRATE(DRATE_1000SPS);
-#endif
+    // // Init ADC_A
+    // dev->m_adc_a = std::make_unique<ADS1256>(ADC_A_DRDY, ADS1256::PIN_UNUSED, ADS1256::PIN_UNUSED, ADC_A_CS, 2.5, &SPI_A);
+    // dev->m_adc_b = std::make_unique<ADS1256>(ADC_B_DRDY, ADS1256::PIN_UNUSED, ADS1256::PIN_UNUSED, ADC_B_CS, 2.5, &SPI_B);
 
-    LOG_DEBUG("Init ADC OK");
+    // dev->m_adc_a->InitializeADC();
+    // dev->m_adc_a->setPGA(PGA_1);
+    // dev->m_adc_a->setDRATE(DRATE_7500SPS);
+
+    // dev->m_adc_b->InitializeADC();
+    // dev->m_adc_b->setPGA(PGA_1);
+    // dev->m_adc_b->setDRATE(DRATE_7500SPS);
+
+    const rtIgnitionTask::rtTaskParams taskA_params{
+        .rt_running = true,
+        .name = "rtIgnTask_A",
+        .rt_stack_size = RT_TASK_STACK,
+        .rt_priority = RT_TASK_PRIORITY,
+        .rt_int = rtIgnitionTask::rtTaskInterruptParams{
+            .isr_ptr = &trig_isr_A,
+            .trig_pin_12p = TRIG_PIN_A12P,
+            .trig_pin_12n = TRIG_PIN_A12N,
+            .trig_pin_34p = TRIG_PIN_A34P,
+            .trig_pin_34n = TRIG_PIN_A34N,
+            .spark_pin_12 = SPARK_PIN_A12,
+            .spark_pin_34 = SPARK_PIN_A34},
+        .rt_io = rtIgnitionTask::rtTaskIOParams{
+            .pot_cs_12 = POT_CS_A12,
+            .pot_cs_34 = POT_CS_A34,
+            .ss_force = SS_FORCE_A,
+            .ss_inhibit_12 = SS_INIBHIT_A12,
+            .ss_inhibit_34 = SS_INHIBIT_A34,
+            .sh_disch_12 = SH_DISCH_A12,
+            .sh_disch_34 = SH_DISCH_A34,
+            .sh_arm_12 = SH_ARM_A12,
+            .sh_arm_34 = SH_ARM_A34,
+            .relay_in_12 = RELAY_IN_A12,
+            .relay_in_34 = RELAY_OUT_A12,
+            .relay_out_12 = RELAY_IN_A34,
+            .relay_out_34 = RELAY_OUT_A34,
+        },
+        .rt_queue = nullptr,
+        .dev = dev};
+
+    const rtIgnitionTask::rtTaskParams taskB_params{
+        .rt_running = true,
+        .name = "rtIgnTask_B",
+        .rt_stack_size = RT_TASK_STACK,
+        .rt_priority = RT_TASK_PRIORITY,
+        .rt_int = rtIgnitionTask::rtTaskInterruptParams{
+            .isr_ptr = &trig_isr_B,
+            .trig_pin_12p = TRIG_PIN_B12P,
+            .trig_pin_12n = TRIG_PIN_B12N,
+            .trig_pin_34p = TRIG_PIN_B34P,
+            .trig_pin_34n = TRIG_PIN_B34N,
+            .spark_pin_12 = SPARK_PIN_B12,
+            .spark_pin_34 = SPARK_PIN_B34},
+        .rt_io = rtIgnitionTask::rtTaskIOParams{
+            .pot_cs_12 = POT_CS_B12,
+            .pot_cs_34 = POT_CS_B34,
+            .ss_force = SS_FORCE_B,
+            .ss_inhibit_12 = SS_INIBHIT_B12,
+            .ss_inhibit_34 = SS_INHIBIT_B34,
+            .sh_disch_12 = SH_DISCH_B12,
+            .sh_disch_34 = SH_DISCH_B34,
+            .sh_arm_12 = SH_ARM_B12,
+            .sh_arm_34 = SH_ARM_B34,
+            .relay_in_12 = RELAY_IN_B12,
+            .relay_in_34 = RELAY_OUT_B12,
+            .relay_out_12 = RELAY_IN_B34,
+            .relay_out_34 = RELAY_OUT_B34,
+        },
+        .rt_queue = nullptr,
+        .dev = dev};
+
+    auto task_A = rtIgnitionTask(taskA_params, 4096, 256, CORE_0, fs_mutex);
+    delay(50);
+    auto task_B = rtIgnitionTask(taskB_params, 4096, 256, CORE_1, fs_mutex);
 
     // Ignition A on Core 0
-    auto ignA_task_success = pdPASS;
-    ignA_task_success = xTaskCreatePinnedToCore(
-        rtIgnitionTask,
-        "rtIgnitionTask_boxA",
-        RT_TASK_STACK,
-        (void *)&taskA_params,
-        RT_TASK_PRIORITY,
-        &trigA_TaskHandle,
-        CORE_0);
-    delay(100); // give some time to the thread to start
-
-    // Ignition B on Core 1
-    auto ignB_task_success = pdPASS;
-#ifdef CH_B_ENABLE
-    ignB_task_success = xTaskCreatePinnedToCore(
-        rtIgnitionTask,
-        "rtIgnitionTask_boxB",
-        RT_TASK_STACK,
-        (void *)&taskB_params,
-        RT_TASK_PRIORITY, // priorità leggermente più alta
-        &trigB_TaskHandle,
-        CORE_1);
-    delay(100); // give some time to the thread to start
-#endif
-
+    auto ignA_task_success = task_A.getStatus() == rtIgnitionTask::OK ? pdPASS : pdFAIL;
+    auto ignB_task_success = task_B.getStatus() == rtIgnitionTask::OK ? pdPASS : pdFAIL;
     if (ignA_task_success != pdPASS || ignB_task_success != pdPASS)
     {
         LOG_ERROR("Unable to initialize ISR task");
@@ -208,65 +199,51 @@ void loop()
         esp_restart();
     }
 
+    const bool tasK_A_rt = task_A.start();
+    delay(50);
+    const bool task_B_rt = task_B.start();
+    if (tasK_A_rt != true || task_B_rt != true)
+    {
+        led.setStatus(RGBled::LedStatus::ERROR);
+        LOG_ERROR("Unable to start realtime tasks");
+    } else 
     LOG_DEBUG("Real Time Tasks A & B initialized");
+    led.setStatus(RGBled::LedStatus::OK);
 
-    ////////////////////// MAIN LOOP //////////////////////
-    bool partial_save = false; // flag to indicate if a partial save has been done after a timeout
-    uint32_t counter = 0;
-    uint32_t wait_count = 0;
-    ignitionBoxStatus ign_info;
-    ignitionBoxStatusAverage ign_info_avg(filter_k);
-    LITTLEFSGuard fsGuard;
-    WebPage webPage(80, LittleFS); // Initialize webserver and Websocket
+    AstroWebServer webPage(80, LittleFS); // Initialize webserver and Websocket
+    ArduinoJson::JsonDocument json_data;
+    bool data_a, data_b;
+    task_A.onMessage([&webPage, &json_data, &data_a](ignitionBoxStatusFiltered sts){
+        json_data["box_a"] = sts.toJson();
+        data_a = true;
+    });
 
+    task_B.onMessage([&webPage, &json_data, &data_b](ignitionBoxStatusFiltered sts){
+        json_data["box_b"] = sts.toJson();
+        data_b = true;
+    });
+
+    // task_A.enableSave(true, "ignitionA_test.csv");
+    // task_B.enableSave(true, "ignitionB_test.csv");
+
+    uint32_t monitor_loop = millis();
+    uint32_t data_loop = monitor_loop;
+    //////////////// INNER LOOP /////////////////////
     while (running)
     {
-        if (counter >= active_history->size()) // not concurrent with write task
+        uint32_t this_loop = millis();
+        if (this_loop - monitor_loop > 2000)
         {
-            counter = 0;
-            partial_save = false; // reset partial save flag on new data cycle
-            auto *temp = active_history;
-            active_history = writable_history; // switch active and writable buffers
-            writable_history = temp;           // ensure writable_history points to the buffer we just filled
-            dataSaveParams save_params{
-                .history = writable_history,
-                .file_path = "ignition_history.csv"};
-            save_history(*writable_history, "ignition_history.csv"); // directly call the save task function to save without delay
+            clearScreen();
+            printRunningTasksMod(Serial);
+            monitor_loop = millis();
         }
+        if ((data_a && data_b) || (this_loop - data_loop > 500)) {
+            webPage.sendWsData(json_data.as<String>());
+            json_data.clear();
+            data_a = data_b = false;
+            data_loop = millis();
+        }
+    } //////////////// INNER LOOP /////////////////////
 
-        if (xQueueReceive(rt_taskA_queue, &ign_info, pdMS_TO_TICKS(1000)) == pdTRUE)
-        {
-            // printInfo(ign_info);
-            auto &hist = *active_history;
-            hist[counter++ % active_history->size()] = ign_info;
-            ign_info_avg.update(ign_info); // update moving average with latest ignition status
-            Serial.printf("\033[2K Data Received: %d/%d\r", counter, hist.size());
-            if ( counter % filter_k == 0) // send data every 10 samples
-            {
-                Serial.println();
-                LOG_DEBUG("Sending average ignition status to websocket clients...");
-                webPage.sendWsData(ign_info_avg.toJson().as<String>());
-            }
-        }
-        else
-        {
-            Serial.printf("[%d] Waiting for data...\r", wait_count++);
-            if (!partial_save && counter > 0) // if timeout occurs but we have unsaved data, save it before next timeout
-            {
-                active_history->resize(counter); // resize active history to actual number of records received to avoid saving empty records
-                save_history(*active_history, "ignition_history.csv");
-                active_history->resize(max_history); // resize back to max history size for next data cycle
-                counter = 0;                         // reset counter after saving
-                partial_save = true;
-                first_save = true;
-            }
-            delay(500);
-        }
-    }
-
-    if (trigA_TaskHandle)
-        vTaskDelete(trigA_TaskHandle);
-    if (trigB_TaskHandle)
-        vTaskDelete(trigB_TaskHandle);
-    ////////////////////// MAIN LOOP //////////////////////
-}
+} ////////////////////// MAIN LOOP //////////////////////

RotaxMonitor/src/pins.h

@@ -80,31 +80,86 @@
 #define SPARK_PIN_B34 2
 
 // =====================
-// PCA9555 (I2C EXPANDER)
+// PCA9555 I/O EXPANDER BOX_A
 // =====================
 
-// --- RESET LINES ---
-#define RST_EXT_PEAK_DETECT 0
-#define RST_EXT_SAMPLE_HOLD 1
-#define BTN_1 2
-#define BTN_2 3
-#define BTN_3 4
-#define BTN_4 5
-#define BTN_5 6
-#define BTN_6 7
+#define EXPANDER_A_ADDR 0x010101
+
+// --- DIGITAL POT CHIP SELECT LINES ---
+#define POT_CS_A12 0
+#define POT_CS_A34 1
+
+// --- SOFT START FORCE LINES ---
+#define SS_FORCE_A 2
+#define SS_INIBHIT_A12 3
+#define SS_INHIBIT_A34 4
+
+// --- SAMPLE AND HOLD ARM AND DISCHARGE ---
+#define SH_DISCH_A12 5
+#define SH_DISCH_A34 6
+#define SH_ARM_A12 7
+#define SH_ARM_A34 8
 
 // --- RELAY ---
-#define A_EXT_RELAY 8
-#define B_EXT_RELAY 9
+#define RELAY_IN_A12 9
+#define RELAY_OUT_A12 10
+#define RELAY_IN_A34 11
+#define RELAY_OUT_A34 12
 
 // --- STATUS / BUTTON ---
-#define BTN_7 10
-#define BTN_8 11
-#define STA_1 12
 #define STA_2 13
 #define STA_3 14
 #define STA_4 15
 
+// =====================
+// PCA9555 I/O EXPANDER BOX_B
+// =====================
+
+#define EXPANDER_B_ADDR 0x101010
+
+// --- DIGITAL POT CHIP SELECT LINES ---
+#define POT_CS_B12 0
+#define POT_CS_B34 1
+
+// --- SOFT START FORCE LINES ---
+#define SS_FORCE_B 2
+#define SS_INIBHIT_B12 3
+#define SS_INHIBIT_B34 4
+
+// --- SAMPLE AND HOLD ARM AND DISCHARGE ---
+#define SH_DISCH_B12 5
+#define SH_DISCH_B34 6
+#define SH_ARM_B12 7
+#define SH_ARM_B34 8
+
+// --- RELAY ---
+#define RELAY_IN_B12 9
+#define RELAY_OUT_B12 10
+#define RELAY_IN_B34 11
+#define RELAY_OUT_B34 12
+
+// --- STATUS / BUTTON ---
+#define STA_2 13
+#define STA_3 14
+#define STA_4 15
+
+// =====================
+// PCA9555 I/O EXPANDER INPUTS A+B
+// =====================
+
+#define EXPANDER_IN_ADDR 0x0a0a0a
+
+#define SS_A12_ON
+#define SS_A12_OFF
+#define SS_A34_ON
+#define SS_A34_OFF
+
+#define SS_B12_ON
+#define SS_B12_OFF
+#define SS_B34_ON
+#define SS_B34_OFF
+
+
 // Init Pin Functions
 inline void initTriggerPinsInputs()
 {

RotaxMonitor/src/pins_test.h

@@ -65,7 +65,7 @@
 #define RST_EXT_A34N    3
 
 // --- RELAY ---
-#define A_EXT_RELAY     8
+#define SH_ARM_A34     8
 
 
 // Init Pin Functions

RotaxMonitor/src/psvector.h

@@ -25,6 +25,3 @@ struct PSRAMAllocator {
         heap_caps_free(p);
     }
 };
-
-template <typename T>
-using PSRAMVector = std::vector<T, PSRAMAllocator<T>>;

RotaxMonitor/src/tasks.cpp

@@ -1,5 +1,8 @@
 #include "tasks.h"
 #include <esp_timer.h>
+#include <datasave.h>
+
+//// GLOBAL STATIC FUNCTIONS
 
 // Timeout callback for microsecond precision
 void spark_timeout_callback(void *arg)
@@ -8,7 +11,18 @@ void spark_timeout_callback(void *arg)
     xTaskNotify(handle, SPARK_FLAG_TIMEOUT, eSetValueWithOverwrite);
 }
 
-void rtIgnitionTask(void *pvParameters)
+// Manages queue receive, save data and callback to external tasks for communication
+void rtIgnitionTask::rtIgnitionTask_manager(void *pvParameters)
+{
+    rtIgnitionTask *cls = (rtIgnitionTask *)pvParameters;
+    while (cls->m_running)
+    {
+        cls->run();
+    }
+}
+
+// Static task function
+void rtIgnitionTask::rtIgnitionTask_realtime(void *pvParameters)
 {
 
     // Invalid real time rt_task_ptr parameters, exit immediate
@@ -17,53 +31,59 @@ void rtIgnitionTask(void *pvParameters)
         LOG_ERROR("Null rt_task_ptr parameters");
         vTaskDelete(NULL);
     }
-    LOG_INFO("rtTask Params OK");
 
     // Task Parameters and Devices
     rtTaskParams *params = (rtTaskParams *)pvParameters;
-    const rtTaskInterrupts rt_int = params->rt_int; // copy to avoid external override
-    const rtTaskResets rt_rst = params->rt_resets;  // copy to avoid external override
+    const rtTaskInterruptParams rt_int = params->rt_int; // copy to avoid external override
+    const rtTaskIOParams rt_rst = params->rt_io;         // copy to avoid external override
     QueueHandle_t rt_queue = params->rt_queue;
-    TaskHandle_t rt_handle_ptr = *params->rt_handle_ptr;
-    Devices *dev = params->dev;
-    ADS1256 *adc = dev->adc_a;
-    PCA9555 *io = dev->io;
+    Devices *dev = params->dev.get();
+    ADS1256 *adc = dev->m_adc_a.get();
+    PCA9555 *io = dev->m_expander_a.get();
+
+    TaskStatus_t rt_task_info;
+    vTaskGetInfo(NULL, &rt_task_info, pdFALSE, eInvalid);
+
+    const auto rt_task_name = pcTaskGetName(rt_task_info.xHandle);
+    LOG_INFO("rtTask Params OK [", rt_task_name, "]");
 
     ignitionBoxStatus ign_box_sts;
 
     // Variables for ISR, static to be fixed in memory locations
-    static isrParams isr_params_t12p{
+    isrParams isr_params_t12p{
         .flag = TRIG_FLAG_12P,
         .ign_stat = &ign_box_sts,
-        .rt_handle_ptr = rt_handle_ptr};
-    static isrParams isr_params_t12n{
+        .rt_handle_ptr = rt_task_info.xHandle};
+    isrParams isr_params_t12n{
         .flag = TRIG_FLAG_12N,
         .ign_stat = &ign_box_sts,
-        .rt_handle_ptr = rt_handle_ptr};
-    static isrParams isr_params_t34p{
+        .rt_handle_ptr = rt_task_info.xHandle};
+    isrParams isr_params_t34p{
         .flag = TRIG_FLAG_34P,
         .ign_stat = &ign_box_sts,
-        .rt_handle_ptr = rt_handle_ptr};
-    static isrParams isr_params_t34n{
+        .rt_handle_ptr = rt_task_info.xHandle};
+    isrParams isr_params_t34n{
         .flag = TRIG_FLAG_34N,
         .ign_stat = &ign_box_sts,
-        .rt_handle_ptr = rt_handle_ptr};
-    static isrParams isr_params_sp12{
+        .rt_handle_ptr = rt_task_info.xHandle};
+    isrParams isr_params_sp12{
         .flag = SPARK_FLAG_12,
         .ign_stat = &ign_box_sts,
-        .rt_handle_ptr = rt_handle_ptr};
-    static isrParams isr_params_sp34{
+        .rt_handle_ptr = rt_task_info.xHandle};
+    isrParams isr_params_sp34{
         .flag = SPARK_FLAG_34,
         .ign_stat = &ign_box_sts,
-        .rt_handle_ptr = rt_handle_ptr};
+        .rt_handle_ptr = rt_task_info.xHandle};
 
-    LOG_INFO("rtTask ISR Params OK");
+    LOG_DEBUG("rtTask HDL Params OK, HDL* [", (uint32_t)rt_task_info.xHandle, "]");
+    LOG_DEBUG("rtTask ISR Params OK, ISR* [", (uint32_t)rt_int.isr_ptr, "]");
+    LOG_DEBUG("rtTask QUE Params OK, QUE* [", (uint32_t)rt_queue, "]");
 
     // Create esp_timer for microsecond precision timeout
     esp_timer_handle_t timeout_timer;
     esp_timer_create_args_t timer_args = {
         .callback = spark_timeout_callback,
-        .arg = (void *)rt_handle_ptr,
+        .arg = (void *)rt_task_info.xHandle,
         .dispatch_method = ESP_TIMER_TASK,
         .name = "spark_timeout"};
     esp_timer_create(&timer_args, &timeout_timer);
@@ -76,7 +96,7 @@ void rtIgnitionTask(void *pvParameters)
     attachInterruptArg(digitalPinToInterrupt(rt_int.spark_pin_12), rt_int.isr_ptr, (void *)&isr_params_sp12, RISING);
     attachInterruptArg(digitalPinToInterrupt(rt_int.spark_pin_34), rt_int.isr_ptr, (void *)&isr_params_sp34, RISING);
 
-    LOG_INFO("rtTask ISR Attach OK");
+    LOG_INFO("rtTask ISR Attach OK [", rt_task_name, "]");
 
     // Global rt_task_ptr variables
     bool first_cycle = true;
@@ -227,17 +247,13 @@ void rtIgnitionTask(void *pvParameters)
                 ign_box_sts.adc_read_time = (int32_t)(esp_timer_get_time() - start_adc_read);
             }
             else // simulate adc read timig
-                vTaskDelay(pdMS_TO_TICKS(1));
+                vTaskDelay(pdMS_TO_TICKS(c_adc_time));
 
             // reset peak detectors + sample and hold
             // outputs on io expander
             if (io)
             {
-                const uint16_t iostat = io->read();
-                const uint16_t rst_bitmask = (0x0001 << rt_rst.rst_io_peak);
-                io->write(iostat | rst_bitmask);
-                vTaskDelay(pdMS_TO_TICKS(1));
-                io->write(iostat & ~rst_bitmask);
+                // [TODO] code to reset sample and hold and arm trigger level detectors
             }
             else
                 vTaskDelay(pdMS_TO_TICKS(1));
@@ -253,7 +269,7 @@ void rtIgnitionTask(void *pvParameters)
     }
     // Delete the timeout timer
     esp_timer_delete(timeout_timer);
-    LOG_WARN("Ending realTime Task");
+    LOG_WARN("rtTask Ending [", rt_task_name, "]");
     // Ignition A Interrupts DETACH
     detachInterrupt(rt_int.trig_pin_12p);
     detachInterrupt(rt_int.trig_pin_12n);
@@ -264,3 +280,253 @@ void rtIgnitionTask(void *pvParameters)
     // delete present task
     vTaskDelete(NULL);
 }
+
+///////////// CLASS MEMBER DEFINITIONS /////////////
+rtIgnitionTask::rtIgnitionTask(const rtTaskParams params, const uint32_t history_size, const uint32_t queue_size, const uint8_t core, std::mutex &fs_mutex, fs::FS &filesystem) : m_params(params), m_filesystem(filesystem), m_fs_mutex(fs_mutex), m_core(core), m_max_history(history_size)
+{
+    // create queue buffers
+    m_queue = xQueueCreate(queue_size, sizeof(ignitionBoxStatus));
+    if (!m_queue)
+    {
+        LOG_ERROR("Unable To Create Task [", params.name.c_str(), "] queues");
+        m_manager_status = rtTaskStatus::ERROR;
+        return;
+    }
+    else
+        m_params.rt_queue = m_queue;
+
+    // create PSram history vectors
+    m_history_0 = PSHistory(history_size);
+    m_history_1 = PSHistory(history_size);
+    // assing active and writable history
+    m_active_history = std::unique_ptr<PSHistory>(&m_history_0);
+    m_save_history = std::unique_ptr<PSHistory>(&m_history_1);
+
+    LOG_WARN("Starting Manager for [", m_params.name.c_str(), "]");
+    // auto task_success = pdPASS;
+    auto task_success = xTaskCreatePinnedToCore(
+        rtIgnitionTask_manager,
+        (std::string("man_") + m_params.name).c_str(),
+        8192,
+        (void *)this,
+        m_params.rt_priority >> 2,
+        &m_manager_handle,
+        m_core);
+
+    if (task_success != pdPASS)
+    {
+        LOG_ERROR("Unable To Create Manager for [", params.name.c_str(), "]");
+        m_manager_status = rtTaskStatus::ERROR;
+        return;
+    }
+
+    // average every 10 samples
+    m_info_filtered = ignitionBoxStatusFiltered(10);
+    m_last_data = millis();
+    m_manager_status = rtTaskStatus::OK;
+}
+
+rtIgnitionTask::~rtIgnitionTask()
+{
+    if (m_rt_handle)
+        vTaskDelete(m_rt_handle);
+    if (m_manager_handle)
+        vTaskDelete(m_manager_handle);
+    if (m_queue)
+        vQueueDelete(m_queue);
+}
+
+void rtIgnitionTask::run()
+{
+    // receive new data from the queue
+    auto new_data = xQueueReceive(m_queue, &m_last_status, 0); // non blocking receive
+
+    if (new_data == pdPASS)
+    {
+        m_last_data = millis();
+        m_manager_status = rtTaskStatus::RUNNING;
+        // if history buffer is full swap buffers and if enabled save history buffer
+        if (m_counter_status >= m_active_history->size())
+        {
+            LOG_DEBUG("Save for Buffer Full: ", m_counter_status);
+            m_counter_status = 0;
+            m_partial_save = false; // reset partial save flag on new data cycle
+            std::swap(m_active_history, m_save_history);
+            if (m_enable_save)
+                saveHistory(*m_save_history, m_history_path); // directly call the save task function to save without delay
+        }
+
+        // update filtered data
+        m_info_filtered.update(m_last_status);
+        (*m_active_history)[m_counter_status] = m_last_status;
+
+        if (m_on_message_cb && m_counter_status % 10 == 0)
+        {
+            m_on_message_cb(m_info_filtered);
+        }
+
+        // update data counter
+        m_counter_status++;
+    }
+    else
+    {
+        if (millis() - m_last_data > c_idle_time)
+        {
+            if (m_counter_status > 0 && !m_partial_save)
+            {
+                LOG_DEBUG("Save Partial: ", m_counter_status);
+                m_active_history->resize(m_counter_status);
+                saveHistory(*m_active_history, m_history_path);
+                m_active_history->resize(m_max_history);
+                m_counter_status = 0;
+                m_partial_save = true;
+            }
+            m_manager_status = rtTaskStatus::IDLE;
+        }
+        delay(5); // yeld to another task
+    }
+}
+
+const bool rtIgnitionTask::start()
+{
+    LOG_WARN("Starting rtTask [", m_params.name.c_str(), "]");
+    auto task_success = xTaskCreatePinnedToCore(
+        rtIgnitionTask_realtime,
+        m_params.name.c_str(),
+        m_params.rt_stack_size,
+        (void *)&m_params,
+        m_params.rt_priority,
+        &m_rt_handle,
+        m_core);
+    const bool success = task_success == pdPASS && m_rt_handle != nullptr;
+    if (success)
+        m_manager_status = rtTaskStatus::IDLE;
+    return success;
+}
+
+const bool rtIgnitionTask::stop()
+{
+    LOG_WARN("Ending Task [", m_params.name.c_str(), "]");
+    if (m_rt_handle)
+    {
+        m_params.rt_running = false;
+        m_rt_handle = nullptr;
+        m_manager_status = rtTaskStatus::STOPPED;
+        return true;
+    }
+    return false;
+}
+
+const ignitionBoxStatus rtIgnitionTask::getLast() const
+{
+    return m_last_status;
+}
+
+const ignitionBoxStatusFiltered rtIgnitionTask::getFiltered() const
+{
+    return m_info_filtered;
+}
+
+const rtIgnitionTask::rtTaskStatus rtIgnitionTask::getStatus() const
+{
+    return m_manager_status;
+}
+
+void rtIgnitionTask::enableSave(const bool enable, const std::filesystem::path filename)
+{
+    m_enable_save = enable;
+    if (enable && !filename.empty())
+    {
+        LOG_WARN("Save History Enabled Task [", m_params.name.c_str(), "]");
+        m_history_path = m_filesystem.mountpoint() / filename;
+    }
+    else
+    {
+        LOG_WARN("Save History Disabled Task [", m_params.name.c_str(), "]");
+    }
+}
+
+void rtIgnitionTask::onMessage(std::function<void(ignitionBoxStatusFiltered)> callaback)
+{
+    m_on_message_cb = callaback;
+}
+
+void rtIgnitionTask::saveHistory(const rtIgnitionTask::PSHistory &history, const std::filesystem::path &file_name)
+{
+    // Lock filesystem mutex to avoid concurrent access
+    std::lock_guard<std::mutex> fs_lock(m_fs_mutex);
+
+    // Check for free space
+    if (LittleFS.totalBytes() - LittleFS.usedBytes() < history.size() * sizeof(ignitionBoxStatus)) // check if at least 1MB is free for saving history
+    {
+        LOG_ERROR("Not enough space in SPIFFS to save history");
+        return;
+    }
+
+    // create complete file path
+    const std::filesystem::path mount_point = std::filesystem::path(m_filesystem.mountpoint());
+    std::filesystem::path file_path = file_name;
+    if (file_name.root_path() != mount_point)
+        file_path = mount_point / file_name;
+
+    // if firt save remove old file and create new
+    auto save_flags = std::ios::out;
+    if (m_first_save)
+    {
+        save_flags |= std::ios::trunc;          // overwrite existing file
+        m_filesystem.remove(file_path.c_str()); // ensure file is removed before saving to avoid issues with appending to existing file in SPIFFS
+        LOG_INFO("Saving history to Flash, new file:", file_path.c_str());
+    }
+    else // else append to existing file
+    {
+        save_flags |= std::ios::app; // append to new file
+        LOG_INFO("Saving history to Flash, appending to existing file:", file_path.c_str());
+    }
+
+    std::ofstream ofs(file_path, save_flags);
+    if (ofs.fail())
+    {
+        LOG_ERROR("Failed to open file for writing");
+        return;
+    }
+
+    // write csv header
+    if (m_first_save)
+    {
+        ofs << "TS,EVENTS_12,DLY_12,STAT_12,V_12_1,V_12_2,V_12_3,V_12_4,IGNITION_MODE_12,"
+            << "EVENTS_34,DLY_34,STAT_34,V_34_1,V_34_2,V_34_3,V_34_4,IGNITION_MODE_34,"
+            << "ENGINE_RPM,ADC_READTIME,N_QUEUE_ERRORS"
+            << std::endl;
+        ofs.flush();
+        m_first_save = false;
+    }
+
+    for (const auto &entry : history)
+    {
+        ofs << std::to_string(entry.timestamp) << ","
+            << std::to_string(entry.coils12.n_events) << ","
+            << std::to_string(entry.coils12.spark_delay) << ","
+            << std::string(sparkStatusNames.at(entry.coils12.spark_status)) << ","
+            << std::to_string(entry.coils12.peak_p_in) << ","
+            << std::to_string(entry.coils12.peak_n_in) << ","
+            << std::to_string(entry.coils12.peak_p_out) << ","
+            << std::to_string(entry.coils12.peak_n_out) << ","
+            << std::string(softStartStatusNames.at(entry.coils12.sstart_status)) << ","
+            << std::to_string(entry.coils34.n_events) << ","
+            << std::to_string(entry.coils34.spark_delay) << ","
+            << std::string(sparkStatusNames.at(entry.coils34.spark_status)) << ","
+            << std::to_string(entry.coils34.peak_p_in) << ","
+            << std::to_string(entry.coils34.peak_n_in) << ","
+            << std::to_string(entry.coils34.peak_p_out) << ","
+            << std::to_string(entry.coils34.peak_n_out) << ","
+            << std::string(softStartStatusNames.at(entry.coils34.sstart_status)) << ","
+            << std::to_string(entry.eng_rpm) << ","
+            << std::to_string(entry.adc_read_time) << ","
+            << std::to_string(entry.n_queue_errors);
+        ofs << std::endl;
+        ofs.flush();
+    }
+
+    ofs.close();
+    LOG_INFO("Ignition Box history saved to Flash, records written: ", history.size());
+}

RotaxMonitor/src/tasks.h

@@ -2,12 +2,19 @@
 #define DEBUGLOG_DEFAULT_LOG_LEVEL_DEBUG
 
 // Serial debug flag
-//#define DEBUG
+// #define DEBUG
 
 // Arduino Libraries
 #include <Arduino.h>
 #include <DebugLog.h>
 #include "utils.h"
+#include <memory>
+#include <mutex>
+#include <filesystem>
+#include <FS.h>
+#include <LittleFS.h>
+#include <datasave.h>
+#include <functional>
 
 // ISR
 #include "isr.h"
@@ -31,34 +38,122 @@ static const std::map<const uint32_t, const char *> names = {
 };
 #endif
 
-// RT task Interrupt parameters
-struct rtTaskInterrupts
+class rtIgnitionTask
 {
-    void (*isr_ptr)(void *);
-    const uint8_t trig_pin_12p;
-    const uint8_t trig_pin_12n;
-    const uint8_t trig_pin_34p;
-    const uint8_t trig_pin_34n;
-    const uint8_t spark_pin_12;
-    const uint8_t spark_pin_34;
-};
+    using PSHistory = PSRAMVector<ignitionBoxStatus>;
 
-// RT Task Peak Detector Reset pins
-struct rtTaskResets
-{
-    const uint8_t rst_io_peak;
-    const uint8_t rst_io_sh;
-};
+public:
+    // RT task Interrupt parameters
+    struct rtTaskInterruptParams
+    {
+        void (*isr_ptr)(void *);
+        const uint8_t trig_pin_12p;
+        const uint8_t trig_pin_12n;
+        const uint8_t trig_pin_34p;
+        const uint8_t trig_pin_34n;
+        const uint8_t spark_pin_12;
+        const uint8_t spark_pin_34;
+    };
 
-// RT task parameters
-struct rtTaskParams
-{
-    bool rt_running; // run flag, false to terminate
-    Devices *dev;
-    TaskHandle_t* rt_handle_ptr;
-    const QueueHandle_t rt_queue;
-    const rtTaskInterrupts rt_int; // interrupt pins to attach
-    const rtTaskResets rt_resets;  // reset ping for peak detectors
-};
+    // RT Task Peak Detector Reset pins
+    struct rtTaskIOParams
+    {
+        const uint32_t expander_addr;
+        const uint8_t pot_cs_12;
+        const uint8_t pot_cs_34;
+        const uint8_t ss_force;
+        const uint8_t ss_inhibit_12;
+        const uint8_t ss_inhibit_34;
+        const uint8_t sh_disch_12;
+        const uint8_t sh_disch_34;
+        const uint8_t sh_arm_12;
+        const uint8_t sh_arm_34;
+        const uint8_t relay_in_12;
+        const uint8_t relay_in_34;
+        const uint8_t relay_out_12;
+        const uint8_t relay_out_34;
+    };
 
-void rtIgnitionTask(void *pvParameters);
+    // RT task parameters
+    struct rtTaskParams
+    {
+        bool rt_running; // run flag, false to terminate
+        const std::string name;
+        const uint32_t rt_stack_size;
+        const uint32_t rt_priority;
+        const rtTaskInterruptParams rt_int; // interrupt pins to attach
+        const rtTaskIOParams rt_io;         // reset ping for peak detectors
+        QueueHandle_t rt_queue;             // queue for task io
+        const std::shared_ptr<Devices> dev;
+    };
+
+    enum rtTaskStatus
+    {
+        INIT,
+        OK,
+        ERROR,
+        RUNNING,
+        IDLE,
+        STOPPED
+    };
+
+public:
+    rtIgnitionTask(const rtTaskParams params, const uint32_t history_size, const uint32_t queue_size, const uint8_t core, std::mutex &fs_mutex, fs::FS &filesystem = LittleFS);
+    ~rtIgnitionTask();
+
+    void run();
+    const bool start();
+    const bool stop();
+
+    const ignitionBoxStatus getLast() const;
+    const ignitionBoxStatusFiltered getFiltered() const;
+
+    const rtTaskStatus getStatus() const;
+
+    void enableSave(const bool enable, const std::filesystem::path filename);
+
+    void onMessage(std::function<void(ignitionBoxStatusFiltered)> callaback);
+
+private:
+    void saveHistory(const rtIgnitionTask::PSHistory &history, const std::filesystem::path &file_name);
+
+private: // static functions for FreeRTOS
+    static void rtIgnitionTask_manager(void *pvParameters);
+    static void rtIgnitionTask_realtime(void *pvParameters);
+
+private:
+    bool m_running = true;
+    rtTaskStatus m_manager_status = INIT;
+
+    rtTaskParams m_params;
+    const uint8_t m_core;
+
+    TaskHandle_t m_rt_handle = nullptr;
+    TaskHandle_t m_manager_handle = nullptr;
+    QueueHandle_t m_queue = nullptr;
+
+    bool m_enable_save = false;
+    std::filesystem::path m_history_path;
+    const uint32_t m_max_history;
+    PSHistory m_history_0;
+    PSHistory m_history_1;
+    std::unique_ptr<PSHistory> m_active_history;
+    std::unique_ptr<PSHistory> m_save_history;
+    fs::FS &m_filesystem;
+    std::mutex &m_fs_mutex;
+
+    bool m_partial_save = false;
+    bool m_first_save = true;
+
+    uint32_t m_counter_status = 0;
+    uint32_t m_last_data = 0;
+    ignitionBoxStatus m_last_status;
+    ignitionBoxStatusFiltered m_info_filtered;
+
+    std::function<void(ignitionBoxStatusFiltered)> m_on_message_cb = nullptr;
+
+    static const uint32_t c_idle_time = 10000;       // in mS
+    static const uint32_t c_spark_timeout_max = 500; // uS
+    static const uint8_t c_adc_time = 4;            // in mS
+    static const uint8_t c_io_time = 2;             // in mS
+};

RotaxMonitor/src/ui.h

@@ -14,191 +14,3 @@ void printField(const char name[], const char *val);
 
 void printInfo(const ignitionBoxStatus &info);
 
-static const std::string htmlTest = R"rawliteral(
-<!DOCTYPE html>
-<html>
-<head>
-    <meta charset="UTF-8">
-    <title>ESP32 Dashboard</title>
-    <style>
-        body {
-            font-family: Arial;
-            text-align: center;
-            margin-top: 40px;
-        }
-
-        table {
-            margin: auto;
-            border-collapse: collapse;
-            width: 100%;
-            max-width: 900px;
-        }
-
-        th, td {
-            border: 1px solid #ccc;
-            padding: 10px;
-            font-size: 16px;
-            text-align: left;
-        }
-
-        th {
-            background-color: #f4f4f4;
-        }
-
-        button {
-            margin: 10px;
-            padding: 10px 20px;
-            font-size: 16px;
-        }
-    </style>
-</head>
-<body>
-
-    <h2>RotaxMonitor realtime data</h2>
-
-    <button onclick="start()">Start</button>
-    <button onclick="stop()">Stop</button>
-
-    <div style="max-width: 900px; margin: 0 auto; text-align: left;">
-        <p><strong>Timestamp:</strong> <span id="timestamp">-</span></p>
-        <p><strong>Data Valid:</strong> <span id="datavalid">-</span></p>
-        <p><strong>Generator voltage:</strong> <span id="volts_gen">-</span></p>
-        <p><strong>Engine RPM:</strong> <span id="eng_rpm">-</span></p>
-        <p><strong>ADC read time:</strong> <span id="adc_read_time">-</span></p>
-        <p><strong>Queue errors:</strong> <span id="n_queue_errors">-</span></p>
-
-        <table>
-            <thead>
-                <tr>
-                    <th>Property</th>
-                    <th>Coils 12</th>
-                    <th>Coils 34</th>
-                </tr>
-            </thead>
-            <tbody>
-                <tr>
-                    <td>Spark delay</td>
-                    <td id="coils12_spark_delay">-</td>
-                    <td id="coils34_spark_delay">-</td>
-                </tr>
-                <tr>
-                    <td>Spark status</td>
-                    <td id="coils12_spark_status">-</td>
-                    <td id="coils34_spark_status">-</td>
-                </tr>
-                <tr>
-                    <td>Soft start status</td>
-                    <td id="coils12_sstart_status">-</td>
-                    <td id="coils34_sstart_status">-</td>
-                </tr>
-                <tr>
-                    <td>Peak P in</td>
-                    <td id="coils12_peak_p_in">-</td>
-                    <td id="coils34_peak_p_in">-</td>
-                </tr>
-                <tr>
-                    <td>Peak N in</td>
-                    <td id="coils12_peak_n_in">-</td>
-                    <td id="coils34_peak_n_in">-</td>
-                </tr>
-                <tr>
-                    <td>Peak P out</td>
-                    <td id="coils12_peak_p_out">-</td>
-                    <td id="coils34_peak_p_out">-</td>
-                </tr>
-                <tr>
-                    <td>Peak N out</td>
-                    <td id="coils12_peak_n_out">-</td>
-                    <td id="coils34_peak_n_out">-</td>
-                </tr>
-                <tr>
-                    <td>Level spark</td>
-                    <td id="coils12_level_spark">-</td>
-                    <td id="coils34_level_spark">-</td>
-                </tr>
-                <tr>
-                    <td>Events</td>
-                    <td id="coils12_n_events">-</td>
-                    <td id="coils34_n_events">-</td>
-                </tr>
-                <tr>
-                    <td>Missed firings</td>
-                    <td id="coils12_n_missed_firing">-</td>
-                    <td id="coils34_n_missed_firing">-</td>
-                </tr>
-            </tbody>
-        </table>
-    </div>
-
-    <script>
-        let ws;
-
-        function connectWS() {
-            ws = new WebSocket("ws://" + location.host + "/ws");
-
-            ws.onopen = () => {
-                console.log("WebSocket connesso");
-            };
-
-            ws.onclose = () => {
-                console.log("WebSocket disconnesso, retry...");
-                setTimeout(connectWS, 5000);
-            };
-
-            ws.onmessage = (event) => {
-                let data;
-
-                try {
-                    data = JSON.parse(event.data);
-                } catch (e) {
-                    console.error("Invalid JSON received", e);
-                    return;
-                }
-
-                document.getElementById("datavalid").textContent = data.datavalid ?? "-";
-                document.getElementById("timestamp").textContent = data.timestamp ?? "-";
-                document.getElementById("volts_gen").textContent = data.volts_gen ?? "-";
-                document.getElementById("eng_rpm").textContent = data.eng_rpm ?? "-";
-                document.getElementById("adc_read_time").textContent = data.adc_read_time ?? "-";
-                document.getElementById("n_queue_errors").textContent = data.n_queue_errors ?? "-";
-
-                const coils12 = data.coils12 || {};
-                const coils34 = data.coils34 || {};
-
-                document.getElementById("coils12_spark_delay").textContent = coils12.spark_delay ?? "-";
-                document.getElementById("coils34_spark_delay").textContent = coils34.spark_delay ?? "-";
-                document.getElementById("coils12_spark_status").textContent = coils12.spark_status ?? "-";
-                document.getElementById("coils34_spark_status").textContent = coils34.spark_status ?? "-";
-                document.getElementById("coils12_sstart_status").textContent = coils12.sstart_status ?? "-";
-                document.getElementById("coils34_sstart_status").textContent = coils34.sstart_status ?? "-";
-                document.getElementById("coils12_peak_p_in").textContent = coils12.peak_p_in ?? "-";
-                document.getElementById("coils34_peak_p_in").textContent = coils34.peak_p_in ?? "-";
-                document.getElementById("coils12_peak_n_in").textContent = coils12.peak_n_in ?? "-";
-                document.getElementById("coils34_peak_n_in").textContent = coils34.peak_n_in ?? "-";
-                document.getElementById("coils12_peak_p_out").textContent = coils12.peak_p_out ?? "-";
-                document.getElementById("coils34_peak_p_out").textContent = coils34.peak_p_out ?? "-";
-                document.getElementById("coils12_peak_n_out").textContent = coils12.peak_n_out ?? "-";
-                document.getElementById("coils34_peak_n_out").textContent = coils34.peak_n_out ?? "-";
-                document.getElementById("coils12_level_spark").textContent = coils12.level_spark ?? "-";
-                document.getElementById("coils34_level_spark").textContent = coils34.level_spark ?? "-";
-                document.getElementById("coils12_n_events").textContent = coils12.n_events ?? "-";
-                document.getElementById("coils34_n_events").textContent = coils34.n_events ?? "-";
-                document.getElementById("coils12_n_missed_firing").textContent = coils12.n_missed_firing ?? "-";
-                document.getElementById("coils34_n_missed_firing").textContent = coils34.n_missed_firing ?? "-";
-            };
-        }
-
-        function start() {
-            fetch("/start");
-        }
-
-        function stop() {
-            fetch("/stop");
-        }
-
-        connectWS();
-    </script>
-
-</body>
-</html>
-)rawliteral";

RotaxMonitor/src/utils.cpp

@@ -1,14 +1,194 @@
 #include "utils.h"
+#include "freertos_stats.h"
+#include "sdkconfig.h"
 
-std::string printBits(uint32_t value) {
+#include "freertos/FreeRTOS.h"
+#include "freertos/portable.h"
+
+#include "esp_heap_caps.h"
+#include "esp_system.h"
+#include "esp_spi_flash.h"
+#include "esp_partition.h"
+#include "LittleFS.h"
+
+#include <vector>
+#include <algorithm>
+#include <functional>
+
+#define FREERTOS_TASK_NUMBER_MAX_NUM 256 // RunTime stats for how many Tasks to be stored
+
+std::string printBits(uint32_t value)
+{
     std::string result;
-    for (int i = 31; i >= 0; i--) {
+    for (int i = 31; i >= 0; i--)
+    {
         // ottieni il singolo bit
         result += ((value >> i) & 1) ? '1' : '0';
         // aggiungi uno spazio ogni 8 bit, tranne dopo l'ultimo
-        if (i % 8 == 0 && i != 0) {
+        if (i % 8 == 0 && i != 0)
+        {
             result += ' ';
         }
     }
     return result;
 }
+
+// ANSI colors
+#define BAR_WIDTH 30
+#define COLOR_RESET "\033[0m"
+#define COLOR_RED "\033[31m"
+#define COLOR_GREEN "\033[32m"
+#define COLOR_BLUE "\033[34m"
+#define COLOR_MAGENTA "\033[35m"
+#define COLOR_CYAN "\033[36m"
+#define COLOR_YELLOW "\033[33m"
+#define COLOR_WHITE "\033[37m"
+#define COLOR_LBLUE "\033[94m"
+
+void printBar(Print &printer, const char *label, size_t used, size_t total, const char *color)
+{
+    float perc = total > 0 ? ((float)used / total) : 0;
+    int filled = perc * BAR_WIDTH;
+
+    printer.printf("%s%-12s [" COLOR_RESET, color, label);
+
+    for (int i = 0; i < BAR_WIDTH; i++)
+    {
+        if (i < filled)
+            printer.printf("%s#%s", color, COLOR_RESET);
+        else
+            printer.printf("-");
+    }
+
+    printer.printf("] %s%6.2f%%%s (%5.3f/%5.3f)MB\n",
+                   color,
+                   perc * 100.0,
+                   COLOR_RESET,
+                   (used / 1024.0f / 1024.0f),
+                   (total / 1024.0f / 1024.0f));
+}
+
+void printRunningTasksMod(Print &printer, std::function<bool(const TaskStatus_t &a, const TaskStatus_t &b)> orderBy)
+{
+    static const char *taskStates[] = {"Running", "Ready", "Blocked", "Suspended", "Deleted", "Invalid"};
+
+    static uint32_t ulRunTimeCounters[FREERTOS_TASK_NUMBER_MAX_NUM];
+    static uint32_t ulLastRunTime = 0;
+    uint32_t ulCurrentRunTime = 0, ulTaskRunTime = 0;
+    uint32_t ulTotalRunTime = 0;
+
+    std::vector<TaskStatus_t> pxTaskStatusArray;
+    UBaseType_t uxArraySize = 0;
+
+    // Take a snapshot of the number of tasks in case it changes while this function is executing.
+    uxArraySize = uxTaskGetNumberOfTasks();
+    pxTaskStatusArray.resize(uxArraySize);
+
+    // Generate raw status information about each task.
+    uxArraySize = uxTaskGetSystemState(pxTaskStatusArray.data(), uxArraySize, &ulTotalRunTime);
+
+    if (orderBy == nullptr)
+        std::sort(pxTaskStatusArray.begin(), pxTaskStatusArray.end(), [](const TaskStatus_t &a, const TaskStatus_t &b)
+                  { return a.xTaskNumber < b.xTaskNumber; });
+    else
+        std::sort(pxTaskStatusArray.begin(), pxTaskStatusArray.end(), orderBy);
+
+    // Compute system total runtime
+    ulCurrentRunTime = ulTotalRunTime - ulLastRunTime;
+    ulLastRunTime = ulTotalRunTime;
+
+    // PRINT MEMORY INFO
+    printer.printf("\033[H");
+    printer.printf(COLOR_LBLUE "===================  ESP32 SYSTEM MONITOR  ===================\n" COLOR_RESET);
+
+    std::string buffer;
+    time_t now = time(nullptr);
+    struct tm *t = localtime(&now);
+    buffer.resize(64);
+    strftime(buffer.data(), sizeof(buffer), "%Y-%m-%d %H:%M:%S", t);
+    printer.printf(COLOR_YELLOW "=============== Datetime: %s ===============\n\n" COLOR_RESET, buffer.c_str());
+
+    // ===== HEAP =====
+    size_t freeHeap = esp_get_free_heap_size();
+    size_t totalHeap = heap_caps_get_total_size(MALLOC_CAP_DEFAULT);
+    printBar(printer, "HEAP", totalHeap - freeHeap, totalHeap, COLOR_GREEN);
+
+    // ===== RAM INTERNA =====
+    size_t freeInternal = heap_caps_get_free_size(MALLOC_CAP_INTERNAL);
+    size_t totalInternal = heap_caps_get_total_size(MALLOC_CAP_INTERNAL);
+    printBar(printer, "INTERNAL", totalInternal - freeInternal, totalInternal, COLOR_BLUE);
+
+    // ===== PSRAM =====
+    size_t totalPsram = heap_caps_get_total_size(MALLOC_CAP_SPIRAM);
+    if (totalPsram > 0)
+    {
+        size_t freePsram = heap_caps_get_free_size(MALLOC_CAP_SPIRAM);
+        printBar(printer, "PSRAM", totalPsram - freePsram, totalPsram, COLOR_MAGENTA);
+    }
+
+    printer.printf("\n");
+
+    // ===== FLASH APP (approssimato) =====
+    const esp_partition_t *app_partition =
+        esp_partition_find_first(ESP_PARTITION_TYPE_APP,
+                                 ESP_PARTITION_SUBTYPE_APP_FACTORY,
+                                 NULL);
+
+    if (app_partition)
+    {
+        size_t totalAPP = app_partition->size; // dimensione reale partizione
+        size_t sketchSize = ESP.getSketchSize();
+        printBar(printer, "FLASH APP", sketchSize, totalAPP, COLOR_CYAN);
+    }
+    else
+    {
+        printer.printf(COLOR_YELLOW "%-12s [NOT FOUND]\n" COLOR_RESET, "FLASH APP");
+    }
+
+    // ===== LITTLEFS (corretto con partition table) =====
+    const esp_partition_t *fs_partition =
+        esp_partition_find_first(ESP_PARTITION_TYPE_DATA,
+                                 ESP_PARTITION_SUBTYPE_DATA_LITTLEFS,
+                                 "littlefs");
+
+    if (fs_partition)
+    {
+        size_t totalFS = fs_partition->size;  // dimensione reale partizione
+        size_t usedFS = LittleFS.usedBytes(); // spazio usato reale
+        printBar(printer, "LITTLEFS", usedFS, totalFS, COLOR_YELLOW);
+    }
+    else
+    {
+        printer.printf(COLOR_YELLOW "%-12s [NOT FOUND]\n" COLOR_RESET, "LITTLEFS");
+    }
+
+    // ===== MIN HEAP =====
+    size_t minHeap = esp_get_minimum_free_heap_size();
+    printer.printf("%s\nMin Heap Ever:%s %u KB\n\n", COLOR_RED, COLOR_RESET, minHeap / 1024);
+
+    // Print Runtime Information
+    printer.printf("Tasks: %u, Runtime: %lus, Period: %luus\r\n", uxArraySize, ulTotalRunTime / 1000000, ulCurrentRunTime);
+
+    // Print Task Headers
+    printer.printf("Num\t            Name\tLoad\tPrio\t Free\tCore\tState\r\n");
+    for (const auto &task : pxTaskStatusArray)
+    {
+
+        ulTaskRunTime = (task.ulRunTimeCounter - ulRunTimeCounters[task.xTaskNumber]);
+        ulRunTimeCounters[task.xTaskNumber] = task.ulRunTimeCounter;
+        ulTaskRunTime = (ulTaskRunTime * 100) / ulCurrentRunTime; // in percentage
+
+        printer.printf(
+            "%3u\t%16s"
+            "\t%3lu%%"
+            "\t%4u\t%5lu"
+            "\t%4c"
+            "\t%s\r\n",
+            task.xTaskNumber, task.pcTaskName,
+            ulTaskRunTime,
+            task.uxCurrentPriority, task.usStackHighWaterMark,
+            (task.xCoreID == tskNO_AFFINITY) ? '*' : ('0' + task.xCoreID),
+            taskStates[task.eCurrentState]);
+    }
+    printer.println();
+}

RotaxMonitor/src/utils.h

@@ -2,5 +2,14 @@
 
 #include <Arduino.h>
 #include <string>
+#include <datastruct.h>
 
 std::string printBits(uint32_t value);
+
+void printRunningTasksMod(Print &printer, std::function<bool(const TaskStatus_t &a, const TaskStatus_t &b)> orderBy = nullptr);
+
+inline void swapHistory(PSRAMVector<ignitionBoxStatus>* active, PSRAMVector<ignitionBoxStatus>* writable) {
+    auto *temp = active;
+    active = writable; // switch active and writable buffers
+    writable = temp;   // ensure writable_history points to the buffer we just filled
+}

RotaxMonitor/src/webserver.cpp

@@ -1,7 +1,22 @@
 #include <webserver.h>
+#include <ArduinoJson.h>
 
-WebPage::WebPage(const uint8_t port, fs::FS &filesystem) : m_port(port), m_webserver(AsyncWebServer(port)), m_websocket(AsyncWebSocket("/ws")), m_filesystem(filesystem)
+static std::map<const std::string, AstroWebServer::c_commandEnum> s_webserverCommands = {
+    {"setTime", AstroWebServer::SET_TIME},
+};
+
+void on_ping(TimerHandle_t xTimer)
 {
+    if (!xTimer)
+        return;
+    auto ws = (AsyncWebSocket *)pvTimerGetTimerID(xTimer);
+    ws->pingAll();
+    ws->cleanupClients();
+}
+
+AstroWebServer::AstroWebServer(const uint8_t port, fs::FS &filesystem) : m_port(port), m_webserver(AsyncWebServer(port)), m_websocket(AsyncWebSocket("/ws")), m_filesystem(filesystem)
+{
+    LOG_DEBUG("Initializing Web Server");
     m_websocket.onEvent([this](AsyncWebSocket *server, AsyncWebSocketClient *client,
                                AwsEventType type, void *arg, uint8_t *data, size_t len)
                         { onWsEvent(server, client, type, arg, data, len); });
@@ -9,61 +24,114 @@ WebPage::WebPage(const uint8_t port, fs::FS &filesystem) : m_port(port), m_webse
     m_webserver.addHandler(&m_websocket);
     m_webserver.serveStatic("/", m_filesystem, "/").setDefaultFile("index.html");
 
-    m_webserver.on("/upload", HTTP_POST, 
-        [this](AsyncWebServerRequest *request)
-        { onUploadRequest(request); },
-        [this](AsyncWebServerRequest *request, const String &filename, size_t index, uint8_t *data, size_t len, bool final)
-        { onUploadHandler(request, filename, index, data, len, final); }
-    );
+    m_webserver.on("/upload", HTTP_POST, [this](AsyncWebServerRequest *request)
+                   { onUploadRequest(request); }, [this](AsyncWebServerRequest *request, const String &filename, size_t index, uint8_t *data, size_t len, bool final)
+                   { onUploadHandler(request, filename, index, data, len, final); });
 
     m_webserver.begin();
+    m_websocket.enable(true);
+
+    m_pingTimer = xTimerCreate("wsPingTimer", pdMS_TO_TICKS(2000), pdTRUE, (void *)&m_websocket, on_ping);
+    LOG_DEBUG("Webserver Init OK");
 }
 
-WebPage::~WebPage()
+AstroWebServer::~AstroWebServer()
 {
+    xTimerDelete(m_pingTimer, pdMS_TO_TICKS(10));
     m_webserver.removeHandler(&m_websocket);
     m_webserver.end();
 }
 
-void WebPage::sendWsData(const String &data){
-    if (m_websocket.count()){
+void AstroWebServer::sendWsData(const String &data)
+{
+    if (m_websocket.count())
+    {
         m_websocket.textAll(data);
     }
 }
 
-void WebPage::onWsEvent(AsyncWebSocket *server, AsyncWebSocketClient *client, AwsEventType type, void *arg, uint8_t *data, size_t len)
+void AstroWebServer::onWsEvent(AsyncWebSocket *server, AsyncWebSocketClient *client, AwsEventType type, void *arg, uint8_t *data, size_t len)
 {
     switch (type)
     {
     case WS_EVT_CONNECT:
-        Serial.printf("WS client IP[%s]-ID[%u] CONNECTED\r\n", client->remoteIP().toString().c_str(), client->id());
+        LOG_DEBUG("WS client IP[", client->remoteIP().toString().c_str(), "]-ID[", client->id(), "] CONNECTED");
         break;
     case WS_EVT_DISCONNECT:
-        Serial.printf("WS client ID[%u] DISCONNECTED\r\n", client->remoteIP().toString().c_str(), client->id());
+        LOG_DEBUG("WS client IP[", client->remoteIP().toString().c_str(), "]-ID[", client->id(), "] DISCONNECTED");
         break;
+    case WS_EVT_PONG:
+        LOG_DEBUG("WS client IP[", client->remoteIP().toString().c_str(), "]-ID[", client->id(), "] PONG");
+        break;
+    case WS_EVT_DATA:
+    {
+        AwsFrameInfo *info = (AwsFrameInfo *)arg;
+        if (info->final && info->index == 0 && info->len == len)
+        {
+            std::string data_str((char *)data, len);
+            ArduinoJson::JsonDocument doc;
+            if (auto rv = ArduinoJson::deserializeJson(doc, data_str) != ArduinoJson::DeserializationError::Ok)
+            {
+                LOG_ERROR("WS Client unable to deserialize Json");
+                return;
+            }
+            if (!doc["cmd"].is<std::string>() || !s_webserverCommands.contains(doc["cmd"]))
+            {
+                LOG_WARN("WS Client Invalid Json command [", doc["cmd"].as<std::string>().c_str(), "]");
+                return;
+            }
+            std::string buffer;
+            switch (s_webserverCommands.at(doc["cmd"]))
+            {
+            case SET_TIME:
+            {
+                auto epoch = doc["time"].as<time_t>();
+                timeval te{
+                    .tv_sec = epoch,
+                    .tv_usec = 0,
+                };
+                timezone tz{
+                    .tz_minuteswest = 0,
+                    .tz_dsttime = DST_MET,
+                };
+                settimeofday(&te, &tz);
+                time_t now = time(nullptr);
+                struct tm *t = localtime(&now);
+                buffer.resize(64);
+                strftime(buffer.data(), sizeof(buffer), "%Y-%m-%d %H:%M:%S", t);
+                LOG_DEBUG("WS Client set Datetime to: ", buffer.c_str());
+                break;
+            }
+
+            default:
+                // call external command callback
+                break;
+            }
+        }
+    }
     }
 }
 
-void WebPage::onUploadRequest(AsyncWebServerRequest *request)
+void AstroWebServer::onUploadRequest(AsyncWebServerRequest *request)
 {
-    if (m_upload_failed)
+    if (m_uploadFailed)
         request->send(500, "text/plain", "Upload failed");
     else
         request->send(200, "text/plain", "Upload successful");
 }
 
-void WebPage::onUploadHandler(AsyncWebServerRequest *request, const String &filename, size_t index, uint8_t *data, size_t len, bool final)
+void AstroWebServer::onUploadHandler(AsyncWebServerRequest *request, const String &filename, size_t index, uint8_t *data, size_t len, bool final)
 {
     if (index == 0) // only on first iteration to open file
     {
-        m_upload_failed = false;
+        m_uploadFailed = false;
         String safeName = filename;
         int slashIndex = safeName.lastIndexOf('/');
         if (slashIndex >= 0)
             safeName = safeName.substring(slashIndex + 1);
         if (safeName.length() == 0)
         {
-            m_upload_failed = true;
+            m_uploadFailed = true;
             LOG_ERROR("Invalid file name");
             return;
         }
@@ -72,27 +140,27 @@ void WebPage::onUploadHandler(AsyncWebServerRequest *request, const String &file
         if (m_filesystem.exists(filePath.c_str()))
             m_filesystem.remove(filePath.c_str());
 
-        m_upload_file = m_filesystem.open(filePath.c_str(), FILE_WRITE);
-        if (!m_upload_file)
+        m_uploadFile = m_filesystem.open(filePath.c_str(), FILE_WRITE);
+        if (!m_uploadFile)
         {
-            m_upload_failed = true;
+            m_uploadFailed = true;
             LOG_ERROR("Failed to open upload file:", filePath.c_str());
             return;
         }
     }
 
     // Actual write of file data
-    if (!m_upload_failed && m_upload_file)
+    if (!m_uploadFailed && m_uploadFile)
     {
-        if (m_upload_file.write(data, len) != len)
-            m_upload_failed = true;
+        if (m_uploadFile.write(data, len) != len)
+            m_uploadFailed = true;
     }
 
     // close the file and save on final call
-    if (final && m_upload_file)
+    if (final && m_uploadFile)
     {
-        m_upload_file.close();
-        if (!m_upload_failed)
+        m_uploadFile.close();
+        if (!m_uploadFailed)
             LOG_INFO("Uploaded file to LittleFS:", filename.c_str());
     }
 }

RotaxMonitor/src/webserver.h

@@ -1,5 +1,5 @@
 #pragma once
-#define DEBUGLOG_DEFAULT_LOG_LEVEL_INFO
+#define DEBUGLOG_DEFAULT_LOG_LEVEL_DEBUG
 
 // System includes
 #include <Arduino.h>
@@ -7,26 +7,22 @@
 #include <ESPAsyncWebServer.h>
 #include <AsyncTCP.h>
 #include <filesystem>
+#include <map>
+
 #include <FS.h>
 
-class WebPage
+class AstroWebServer
 {
-    const uint8_t m_port = 80;
-    fs::FS &m_filesystem;
-    AsyncWebServer m_webserver;
-    AsyncWebSocket m_websocket;
-    bool m_upload_failed = false;
-    fs::File m_upload_file;
 
 public:
-    WebPage(const uint8_t port, fs::FS &filesystem);
-    ~WebPage();
+    AstroWebServer(const uint8_t port, fs::FS &filesystem);
+    ~AstroWebServer();
 
     void sendWsData(const String &data);
 
 private:
     void onWsEvent(AsyncWebSocket *server, AsyncWebSocketClient *client,
-              AwsEventType type, void *arg, uint8_t *data, size_t len);
+                   AwsEventType type, void *arg, uint8_t *data, size_t len);
 
     void onUploadRequest(AsyncWebServerRequest *request);
     void onUploadHandler(AsyncWebServerRequest *request, const String &filename, size_t index, uint8_t *data, size_t len, bool final);
@@ -35,4 +31,18 @@ private:
     void onStop(AsyncWebServerRequest *request);
     void onDownload(AsyncWebServerRequest *request);
 
+private:
+    const uint8_t m_port = 80;
+    fs::FS &m_filesystem;
+    AsyncWebServer m_webserver;
+    AsyncWebSocket m_websocket;
+    bool m_uploadFailed = false;
+    fs::File m_uploadFile;
+    TimerHandle_t m_pingTimer = NULL;
+
+public:
+    enum c_commandEnum
+    {
+        SET_TIME
+    };
 };

RotaxMonitorTester/.vscode/extensions.json

@@ -1,8 +1,7 @@
 {
     "recommendations": [
         "Jason2866.esp-decoder",
-        "pioarduino.pioarduino-ide",
-        "platformio.platformio-ide"
+        "pioarduino.pioarduino-ide"
     ],
     "unwantedRecommendations": [
         "ms-vscode.cpptools-extension-pack"

RotaxMonitorTester/src/main.cpp

@@ -1,3 +1,5 @@
+#define DEBUGLOG_DEFAULT_LOG_LEVEL_DEBUG
+
 #include <Arduino.h>
 #include <DebugLog.h>
 
@@ -16,15 +18,16 @@ static uint32_t count = 0;
 #define SPARK_DLY_MAX 490
 
 #define PAUSE_LONG_MIN 5000
-#define PAUSE_LONG_MAX PAUSE_LONG_MIN*100
+#define PAUSE_LONG_MAX PAUSE_LONG_MIN * 100
 
-#define RPM_MIN 800
+#define RPM_MIN 250
 #define RPM_MAX 5500
 
-void clearScreen(){
-    Serial.print("\033[2J"); // clear screen
-    Serial.print("\033[H");  // cursor home
-    Serial.flush();
+void clearScreen()
+{
+  Serial.print("\033[2J"); // clear screen
+  Serial.print("\033[H");  // cursor home
+  Serial.flush();
 }
 
 static double filtered_rpm = 0;
@@ -46,20 +49,44 @@ static const std::map<const uint32_t, const char *> pin2Name = {
     {State::S_WAIT_10MS, "S_WAIT_10MS"}};
 
 static timerStatus stsA = {
-      .clock_period_us = (uint32_t)PERIOD_US,
-      .pause_long_us = 10000,
-      .pause_short_us = 1000,
-      .coil_pulse_us = 1000,
-      .spark_pulse_us = 100,
-      .spark_delay_us = 50,
-      .main_task = NULL};
+    .clock_period_us = (uint32_t)PERIOD_US,
+    .pause_long_us = 10000,
+    .pause_short_us = 1000,
+    .coil_pulse_us = 1000,
+    .spark_pulse_us = 100,
+    .spark_delay_us = 50,
+    .pins = {
+        .pin_trig_12p = PIN_TRIG_A12P,
+        .pin_trig_12n = PIN_TRIG_A12N,
+        .pin_trig_34p = PIN_TRIG_A34P,
+        .pin_trig_34n = PIN_TRIG_A34N,
+        .pin_spark_12 = SPARK_A12,
+        .pin_spark_34 = SPARK_A34},
+    .main_task = NULL};
 
-static bool isEnabled = false;
+static timerStatus stsB = {
+    .clock_period_us = (uint32_t)PERIOD_US,
+    .pause_long_us = 10000,
+    .pause_short_us = 1000,
+    .coil_pulse_us = 1000,
+    .spark_pulse_us = 100,
+    .spark_delay_us = 50,
+    .pins = {
+        .pin_trig_12p = PIN_TRIG_B12P,
+        .pin_trig_12n = PIN_TRIG_B12N,
+        .pin_trig_34p = PIN_TRIG_B34P,
+        .pin_trig_34n = PIN_TRIG_B34N,
+        .pin_spark_12 = SPARK_B12,
+        .pin_spark_34 = SPARK_B34},
+    .main_task = NULL};
+
+static bool isEnabled_A = false;
+static bool isEnabled_B = false;
 
 void setup()
 {
 
-  Serial.begin(921600);
+  Serial.begin(115200);
   delay(1000);
   LOG_ATTACH_SERIAL(Serial);
 
@@ -80,14 +107,26 @@ void setup()
   pinMode(SPARK_DELAY_POT, ANALOG);
   pinMode(FREQ_POT, ANALOG);
 
-  pinMode(ENABLE_PIN, INPUT_PULLUP);
+  pinMode(ENABLE_PIN_A, INPUT_PULLUP);
+  pinMode(ENABLE_PIN_B, INPUT_PULLUP);
 
+  // get the task handle for the main loop
   stsA.main_task = xTaskGetCurrentTaskHandleForCore(1);
+  stsB.main_task = xTaskGetCurrentTaskHandleForCore(1);
 
+  // Begin timer with preset fixed frequency
   timerA = timerBegin(FREQUENCY);
+  timerB = timerBegin(FREQUENCY);
+
+  // Stop timers because of autostart
   timerStop(timerA);
+  timerStop(timerB);
+
+  // Attach interrupts and call callback every timer expiry
   timerAttachInterruptArg(timerA, &onTimer, (void *)&stsA);
-  timerAlarm(timerA, 1, true, 0);
+  timerAttachInterruptArg(timerB, &onTimer, (void *)&stsB);
+  timerAlarm(timerA, 1, true, 0); // infinite number of reloads
+  timerAlarm(timerB, 1, true, 0);
 
   LOG_INFO("Setup Complete");
 }
@@ -97,34 +136,58 @@ void loop()
   LOG_INFO("Loop: ", count++);
   uint32_t spark_delay = (uint32_t)(map(analogRead(SPARK_DELAY_POT), 0, 4096, SPARK_DLY_MIN, SPARK_DLY_MAX) / PERIOD_US);
   stsA.spark_delay_us = spark_delay * PERIOD_US;
-  if (stsA.spark_delay_us > (SPARK_DLY_MIN + SPARK_DLY_MAX) / 2) {
+  if (stsA.spark_delay_us > (SPARK_DLY_MIN + SPARK_DLY_MAX) / 2)
+  {
     stsA.soft_start = true;
     stsA.spark_delay_us -= (SPARK_DLY_MIN + SPARK_DLY_MAX) / 2;
-  } else {
+  }
+  else
+  {
     stsA.soft_start = false;
   }
+  stsB.soft_start = stsA.soft_start;
+  stsB.spark_delay_us = stsA.spark_delay_us;
 
   double new_rpm = (double)(map(analogRead(FREQ_POT), 0, 4096, RPM_MIN, RPM_MAX));
   filtered_rpm = filtered_rpm + 0.1 * (new_rpm - filtered_rpm);
   stsA.pause_long_us = (uint32_t)(60000000.0f / filtered_rpm / 2.0f);
+  stsB.pause_long_us = stsA.pause_long_us;
 
-  if (isEnabled) {
-    LOG_INFO("==== System is ENABLED ====");
-  } else {
-    LOG_INFO("==== System is DISABLED ====");
-  }
+  if (isEnabled_A)
+    LOG_INFO("==== System A is ENABLED ====");
+  else
+    LOG_INFO("==== System A is DISABLED ====");
+
+  if (isEnabled_B)
+    LOG_INFO("==== System B is ENABLED ====");
+  else
+    LOG_INFO("==== System B is DISABLED ====");
 
   LOG_INFO("Spark Delay uS: ", stsA.spark_delay_us, "\tSoft Start: ", stsA.soft_start ? "TRUE" : "FALSE");
   LOG_INFO("Engine Rpm: ", (uint32_t)(filtered_rpm));
   LOG_INFO("Coil Pulse: ", stsA.coil_pulse_us, "us");
   LOG_INFO("Spark Pulse: ", stsA.spark_pulse_us, "us");
-  
-  if (digitalRead(ENABLE_PIN) == LOW && !isEnabled) {
+
+  if (digitalRead(ENABLE_PIN_A) == LOW && !isEnabled_A)
+  {
     timerStart(timerA);
-    isEnabled = true;
-  } else if (digitalRead(ENABLE_PIN) == HIGH && isEnabled) {
+    isEnabled_A = true;
+  }
+  else if (digitalRead(ENABLE_PIN_A) == HIGH && isEnabled_A)
+  {
     timerStop(timerA);
-    isEnabled = false;
+    isEnabled_A = false;
+  }
+
+  if (digitalRead(ENABLE_PIN_B) == LOW && !isEnabled_B)
+  {
+    timerStart(timerB);
+    isEnabled_B = true;
+  }
+  else if (digitalRead(ENABLE_PIN_B) == HIGH && isEnabled_B)
+  {
+    timerStop(timerB);
+    isEnabled_B = false;
   }
 
   delay(100);

RotaxMonitorTester/src/pins.h

@@ -1,7 +1,8 @@
 #pragma once
 
 // Enable Pin
-#define ENABLE_PIN 16
+#define ENABLE_PIN_A 16
+#define ENABLE_PIN_B 15
 
 ///// Ignition Box A /////
 #define PIN_TRIG_A12P 18

RotaxMonitorTester/src/timer.cpp

@@ -7,20 +7,18 @@ void onTimer(void *arg)
     BaseType_t xHigherPriorityTaskWoken = pdFALSE;
     timerStatus *params = (timerStatus *)(arg);
     TaskHandle_t task = params->main_task;
+    const timerPins pins = params->pins;
 
     // increment state time
     params->state_time += params->clock_period_us;
 
-    digitalWrite(PIN_TRIG_B12P, HIGH);
-
     switch (params->state)
     {
 
     case S_12P:
         if (params->state_time == params->clock_period_us && !params->coil12p_high)
         {
-            // xTaskNotifyFromISR(task, PIN_TRIG_A12P, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
-            digitalWrite(PIN_TRIG_A12P, HIGH);
+            digitalWrite(pins.pin_trig_12p, HIGH);
             params->coil12p_high = true;
             wait_sent = false;
         }
@@ -29,21 +27,18 @@ void onTimer(void *arg)
         {
             if (params->state_time == params->spark_delay_us)
             {
-                // xTaskNotifyFromISR(task, SPARK_A12, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
-                digitalWrite(SPARK_A12, HIGH);
+                digitalWrite(pins.pin_spark_12, HIGH);
             }
 
             if (params->state_time == (params->spark_delay_us + params->spark_pulse_us))
             {
-                // xTaskNotifyFromISR(task, ~SPARK_A12, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
-                digitalWrite(SPARK_A12, LOW);
+                digitalWrite(pins.pin_spark_12, LOW);
             }
         }
 
         if (params->state_time >= params->coil_pulse_us && params->coil12p_high)
         {
-            // xTaskNotifyFromISR(task, ~PIN_TRIG_A12P, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
-            digitalWrite(PIN_TRIG_A12P, LOW);
+            digitalWrite(pins.pin_trig_12p, LOW);
             params->coil12p_high = false;
         }
 
@@ -57,8 +52,7 @@ void onTimer(void *arg)
     case S_12N:
         if (params->state_time == params->clock_period_us && !params->coil12n_high)
         {
-            // xTaskNotifyFromISR(task, PIN_TRIG_A12N, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
-            digitalWrite(PIN_TRIG_A12N, HIGH);
+            digitalWrite(pins.pin_trig_12n, HIGH);
             params->coil12n_high = true;
         }
 
@@ -66,21 +60,18 @@ void onTimer(void *arg)
         {
             if (params->state_time == params->spark_delay_us)
             {
-                // xTaskNotifyFromISR(task, SPARK_A12, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
-                digitalWrite(SPARK_A12, HIGH);
+                digitalWrite(pins.pin_spark_12, HIGH);
             }
 
             if (params->state_time == (params->spark_delay_us + params->spark_pulse_us))
             {
-                // xTaskNotifyFromISR(task, ~SPARK_A12, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
-                digitalWrite(SPARK_A12, LOW);
+                digitalWrite(pins.pin_spark_12, LOW);
             }
         }
 
         if (params->state_time >= params->coil_pulse_us && params->coil12n_high)
         {
-            // xTaskNotifyFromISR(task, ~PIN_TRIG_A12N, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
-            digitalWrite(PIN_TRIG_A12N, LOW);
+            digitalWrite(pins.pin_trig_12n, LOW);
             params->coil12n_high = false;
             params->state = S_WAIT_10MS;
             params->state_time = 0;
@@ -90,7 +81,6 @@ void onTimer(void *arg)
     case S_WAIT_10MS:
         if (!wait_sent)
         {
-            // xTaskNotifyFromISR(task, S_WAIT_10MS, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
             wait_sent = true;
         }
         if (params->state_time >= params->pause_long_us)
@@ -103,8 +93,7 @@ void onTimer(void *arg)
     case S_34P:
         if (params->state_time == params->clock_period_us && !params->coil34p_high)
         {
-            // xTaskNotifyFromISR(task, PIN_TRIG_A34P, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
-            digitalWrite(PIN_TRIG_A34P, HIGH);
+            digitalWrite(pins.pin_trig_34p, HIGH);
             params->coil34p_high = true;;
             wait_sent = false;
         }
@@ -113,21 +102,18 @@ void onTimer(void *arg)
         {
             if (params->state_time == params->spark_delay_us)
             {
-                // xTaskNotifyFromISR(task, SPARK_A34, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
-                digitalWrite(SPARK_A34, HIGH);
+                digitalWrite(pins.pin_spark_34, HIGH);
             }
 
             if (params->state_time == params->spark_delay_us + params->spark_pulse_us)
             {
-                // xTaskNotifyFromISR(task, ~SPARK_A34, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
-                digitalWrite(SPARK_A34, LOW);
+                digitalWrite(pins.pin_spark_34, LOW);
             }
         }
 
         if (params->state_time >= params->coil_pulse_us && params->coil34p_high)
         {
-            // xTaskNotifyFromISR(task, ~PIN_TRIG_A34P, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
-            digitalWrite(PIN_TRIG_A34P, LOW);
+            digitalWrite(pins.pin_trig_34p, LOW);
             params->coil34p_high = false;
         }
 
@@ -141,8 +127,7 @@ void onTimer(void *arg)
     case S_34N:
         if (params->state_time == params->clock_period_us && !params->coil34n_high)
         {
-            // xTaskNotifyFromISR(task, PIN_TRIG_A34N, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
-            digitalWrite(PIN_TRIG_A34N, HIGH);
+            digitalWrite(pins.pin_trig_34n, HIGH);
             params->coil34n_high = true;
         }
 
@@ -150,21 +135,18 @@ void onTimer(void *arg)
         {
             if (params->state_time == params->spark_delay_us)
             {
-                // xTaskNotifyFromISR(task, SPARK_A34, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
-                digitalWrite(SPARK_A34, HIGH);
+                digitalWrite(pins.pin_spark_34, HIGH);
             }
 
             if (params->state_time == params->spark_delay_us + params->spark_pulse_us)
             {
-                // xTaskNotifyFromISR(task, ~SPARK_A34, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
-                digitalWrite(SPARK_A34, LOW);
+                digitalWrite(pins.pin_spark_34, LOW);
             }
         }
 
         if (params->state_time >= params->coil_pulse_us && params->coil34n_high)
         {
-            // xTaskNotifyFromISR(task, ~PIN_TRIG_A34N, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
-            digitalWrite(PIN_TRIG_A34N, LOW);
+            digitalWrite(pins.pin_trig_34n, LOW);
             params->coil34n_high = false;
             params->state = S_WAIT_10MS_END;
             params->state_time = 0;
@@ -174,7 +156,6 @@ void onTimer(void *arg)
     case S_WAIT_10MS_END:
         if (!wait_sent)
         {
-            // xTaskNotifyFromISR(task, S_WAIT_10MS_END, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
             wait_sent = true;
         }
         if (params->state_time >= params->pause_long_us)
@@ -184,9 +165,7 @@ void onTimer(void *arg)
         }
         break;
     }
-
-    digitalWrite(PIN_TRIG_B12P, LOW);
-
+    
     if (xHigherPriorityTaskWoken)
         portYIELD_FROM_ISR();
 }

RotaxMonitorTester/src/timer.h

@@ -1,5 +1,7 @@
 #pragma once
 
+#define DEBUGLOG_DEFAULT_LOG_LEVEL_DEBUG
+
 #include <Arduino.h>
 #include <DebugLog.h>
 #include "pins.h"
@@ -19,6 +21,15 @@ enum State
     S_WAIT_10MS_END
 };
 
+struct timerPins {
+    const uint8_t pin_trig_12p;
+    const uint8_t pin_trig_12n;
+    const uint8_t pin_trig_34p;
+    const uint8_t pin_trig_34n;
+    const uint8_t pin_spark_12;
+    const uint8_t pin_spark_34;
+};
+
 struct timerStatus
 {
     State state = State::S_12P;
@@ -34,6 +45,7 @@ struct timerStatus
     bool coil34p_high = false;
     bool coil12n_high = false;
     bool coil34n_high = false;
+    timerPins pins;
     TaskHandle_t main_task;
 };