First Attempt to print data async, fields not working

Mod to ISR and Tasks ok working
2026-03-31 13:07:02 +02:00 · 2026-03-31 09:19:11 +02:00
8 changed files with 169 additions and 71 deletions
--- a/RotaxMonitor/src/isr.cpp
+++ b/RotaxMonitor/src/isr.cpp
@@ -11,9 +11,11 @@ void trig_isr(void *arg)
    // exit if invalid args
    if (!arg)
        return;
    // FOR TESTING ONLY    
    digitalWrite(POT_A_CS, HIGH);
    BaseType_t xHigherPriorityTaskWoken = pdFALSE;
-    isrParams *params = (isrParams*)arg;
+    isrParams *params = (isrParams *)arg;
    ignitionBoxStatus *box = params->ign_stat;
    TaskHandle_t task_handle = *params->rt_handle_ptr;
@@ -28,10 +30,12 @@ void trig_isr(void *arg)
    switch (params->flag)
    {
    case TRIG_FLAG_12P:
    case TRIG_FLAG_12N:
        box->coils12.trig_time = time_us;
        xTaskNotifyFromISR(task_handle, params->flag, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
        break;
    case TRIG_FLAG_34P:
    case TRIG_FLAG_34N:
        box->coils34.trig_time = time_us;
        xTaskNotifyFromISR(task_handle, params->flag, eSetValueWithOverwrite, &xHigherPriorityTaskWoken);
        break;
@@ -48,6 +52,8 @@ void trig_isr(void *arg)
    default:
        break;
    }
    // FOR TESTING ONLY
    digitalWrite(POT_A_CS, LOW);
    if (xHigherPriorityTaskWoken)
        portYIELD_FROM_ISR();
--- a/RotaxMonitor/src/isr.h
+++ b/RotaxMonitor/src/isr.h
@@ -47,8 +47,8 @@ enum sparkStatus
 enum softStartStatus
 {
-    SOFT_START,
+    NORMAL,
-    NORMAL
+    SOFT_START
 };
 struct coilsStatus
--- a/RotaxMonitor/src/main.cpp
+++ b/RotaxMonitor/src/main.cpp
@@ -10,6 +10,7 @@
 #include <tasks.h>
 #include <channels.h>
 #include <devices.h>
 #include <ui.h>
 void printTaskList()
 {
@@ -58,7 +59,7 @@ void loop()
    QueueHandle_t rt_taskA_queue = xQueueCreate(10, sizeof(ignitionBoxStatus));
    QueueHandle_t rt_taskB_queue = xQueueCreate(10, sizeof(ignitionBoxStatus));
-    rtTaskParams taskA_params {
+    rtTaskParams taskA_params{
        .rt_running = true,
        .dev = &dev,
        .rt_handle_ptr = &trigA_TaskHandle,
@@ -71,15 +72,12 @@ void loop()
            .trig_pin_34n = TRIG_PIN_A34N,
            .spark_pin_12 = SPARK_PIN_A12,
            .spark_pin_34 = SPARK_PIN_A34},
-        .rt_resets = rtTaskResets{
+        .rt_resets = rtTaskResets{.rst_io_12p = RST_EXT_A12P, .rst_io_12n = RST_EXT_A12N, .rst_io_34p = RST_EXT_A34P, .rst_io_34n = RST_EXT_A34N}};
-            .rst_io_12p = RST_EXT_A12P, 
+
-            .rst_io_12n = RST_EXT_A12N, 
+    LOG_INFO("Task Variables OK");
            .rst_io_34p = RST_EXT_A34P, 
            .rst_io_34n = RST_EXT_A34N}
    };
 #ifndef TEST
    QueueHandle_t rt_taskB_queue = xQueueCreate(10, sizeof(ignitionBoxStatus));
-    rtTaskParams taskB_params {
+    rtTaskParams taskB_params{
        .rt_running = true,
        .dev = &dev,
        .rt_queue = rt_taskB_queue,
@@ -92,21 +90,15 @@ void loop()
            .trig_pin_34n = TRIG_PIN_B34N,
            .spark_pin_12 = SPARK_PIN_B12,
            .spark_pin_34 = SPARK_PIN_B34},
-        .rt_resets = rtTaskResets{
+        .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}};
            .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
    // Init 2 SPI interfaces
    bool spiA_ok = true;
    SPIClass SPI_A(FSPI);
    spiA_ok = SPI_A.begin(SPI_A_SCK, SPI_A_MISO, SPI_A_MOSI);
    bool spiB_ok = true;
 #ifndef TEST
    // Init 2 SPI interfaces
    SPIClass SPI_A(FSPI);
    spiA_ok = SPI_A.begin(SPI_A_SCK, SPI_A_MISO, SPI_A_MOSI);
    SPIClass SPI_B(HSPI);
    spiB_ok = SPI_B.begin(SPI_B_SCK, SPI_B_MISO, SPI_B_MOSI);
 #endif
@@ -117,23 +109,23 @@ void loop()
        vTaskDelay(pdMS_TO_TICKS(5000));
        esp_restart();
    }
-    LOG_INFO("Init SPI [OK]");
+    LOG_INFO("Init SPI OK");
 #ifndef TEST
    // Init ADC_A
    dev.adc_a = new ADS1256(ADC_A_DRDY, ADC_A_RST, ADC_A_SYNC, ADC_A_CS, 2.5, &SPI_A);
    dev.adc_a->InitializeADC();
    dev.adc_a->setPGA(PGA_1);
    dev.adc_a->setDRATE(DRATE_1000SPS);
    #ifndef TEST
    // 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
+#endif
-    LOG_INFO("Init ADC [OK]");
+    LOG_INFO("Init ADC OK");
    // Ignition A on Core 0
    auto ignA_task_success = pdPASS;
@@ -151,7 +143,7 @@ void loop()
 #ifndef TEST
    ignB_task_success = xTaskCreatePinnedToCore(
        rtIgnitionTask,
-        "rtIgnitionTask_boxA",
+        "rtIgnitionTask_boxB",
        TASK_STACK,
        (void *)&taskB_params,
        TASK_PRIORITY, // priorità leggermente più alta
@@ -171,10 +163,49 @@ void loop()
    ////////////////////// MAIN LOOP //////////////////////
    uint32_t count(0);
    clearScreen();
    setCursor(0, 0);
    while (running)
    {
-        // printTaskList();
+        ignitionBoxStatus ignA;
-        delay(10000);
+        if (xQueueReceive(rt_taskA_queue, &ignA, pdMS_TO_TICKS(100)) == pdTRUE)
        {
            printField("++ Timestamp", (uint32_t)ignA.timestamp, 0, 0);
            if (firstRun)
                Serial.println("========== Coils 12 =============");
            printField("Pickup Tim", (uint32_t)ignA.coils12.trig_time, 0, 1);
            printField("Spark Tim", (uint32_t)ignA.coils12.spark_time, 0, 2);
            printField("Spark Dly", (uint32_t)ignA.coils12.spark_delay, 0, 3);
            printField("Spark Sts", (uint32_t)ignA.coils12.spark_status, 0, 4);
            printField("Peak P_IN", ignA.coils12.peak_p_in, 0, 5);
            printField("Peak P_OUT", ignA.coils12.peak_p_out, 0, 6);
            printField("Peak N_IN", ignA.coils12.peak_n_in, 0, 7);
            printField("Peak N_OUT", ignA.coils12.peak_n_out, 0, 8);
            printField("SoftStart ", (uint32_t)ignA.coils12.sstart_status, 0, 9);
            if (firstRun)
                Serial.println("========== Coils 34 =============");
            printField("Pickup Tim", (uint32_t)ignA.coils34.trig_time, 0, 11);
            printField("Spark Tim", (uint32_t)ignA.coils34.spark_time, 0, 12);
            printField("Spark Dly", (uint32_t)ignA.coils34.spark_delay, 0, 13);
            printField("Spark Sts", (uint32_t)ignA.coils34.spark_delay, 0, 14);
            printField("Peak P_IN", ignA.coils34.peak_p_in, 0, 15);
            printField("Peak P_OUT", ignA.coils34.peak_p_out, 0, 16);
            printField("Peak N_IN", ignA.coils34.peak_n_in, 0, 17);
            printField("Peak N_OUT", ignA.coils34.peak_n_out, 0, 18);
            printField("SoftStart ", (uint32_t)ignA.coils34.sstart_status, 0, 19);
            if (firstRun)
                Serial.println("========== END =============");
            if (count++ % 10 == 0)
            {
                firstRun = true;
                clearScreen();
                setCursor(0, 0);
            }
            else
                firstRun = false;
        }
    }
    if (trigA_TaskHandle)
--- a/RotaxMonitor/src/tasks.cpp
+++ b/RotaxMonitor/src/tasks.cpp
@@ -9,13 +9,14 @@ 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
    QueueHandle_t rt_queue = params->rt_queue;
-    TaskHandle_t* rt_handle_ptr = params->rt_handle_ptr;
+    TaskHandle_t *rt_handle_ptr = params->rt_handle_ptr;
    Devices *dev = params->dev;
    ADS1256 *adc = dev->adc_a;
    PCA9555 *io = dev->io;
@@ -47,13 +48,19 @@ void rtIgnitionTask(void *pvParameters)
        .ign_stat = &ign_box_sts,
        .rt_handle_ptr = rt_handle_ptr};
    LOG_INFO("rtTask ISR Params OK");
    pinMode(POT_A_CS, OUTPUT);
    // Attach Pin Interrupts
-    attachInterruptArg(rt_int.trig_pin_12p, rt_int.isr_ptr, (void *)&isr_params_t12p, RISING);
+    attachInterruptArg(digitalPinToInterrupt(rt_int.trig_pin_12p), rt_int.isr_ptr, (void *)&isr_params_t12p, RISING);
-    attachInterruptArg(rt_int.trig_pin_12n, rt_int.isr_ptr, (void *)&isr_params_t12n, RISING);
+    attachInterruptArg(digitalPinToInterrupt(rt_int.trig_pin_12n), rt_int.isr_ptr, (void *)&isr_params_t12n, RISING);
-    attachInterruptArg(rt_int.trig_pin_34p, rt_int.isr_ptr, (void *)&isr_params_t34p, RISING);
+    attachInterruptArg(digitalPinToInterrupt(rt_int.trig_pin_34p), rt_int.isr_ptr, (void *)&isr_params_t34p, RISING);
-    attachInterruptArg(rt_int.trig_pin_34n, rt_int.isr_ptr, (void *)&isr_params_t34n, RISING);
+    attachInterruptArg(digitalPinToInterrupt(rt_int.trig_pin_34n), rt_int.isr_ptr, (void *)&isr_params_t34n, RISING);
-    attachInterruptArg(rt_int.spark_pin_12, rt_int.isr_ptr, (void *)&isr_params_sp12, RISING);
+    attachInterruptArg(digitalPinToInterrupt(rt_int.spark_pin_12), rt_int.isr_ptr, (void *)&isr_params_sp12, RISING);
-    attachInterruptArg(rt_int.spark_pin_34, rt_int.isr_ptr, (void *)&isr_params_sp34, RISING);
+    attachInterruptArg(digitalPinToInterrupt(rt_int.spark_pin_34), rt_int.isr_ptr, (void *)&isr_params_sp34, RISING);
    LOG_INFO("rtTask ISR Attach OK");
    // Compute Reset Pin Bitmask
    const uint16_t rst_bitmask = (1 << rt_rst.rst_io_12p) |
@@ -61,28 +68,27 @@ void rtIgnitionTask(void *pvParameters)
                                 (1 << rt_rst.rst_io_34p) |
                                 (1 << rt_rst.rst_io_34n);
    LOG_WARN("rtTask Init Correct");
    // Global rt_task_ptr variables
    uint32_t it = 0;
    uint32_t q_fail_count = 0;
    while (params->rt_running)
    {
        // Global rt_task_ptr variables
        uint32_t pickup_flag = 0;
        uint32_t spark_flag = 0;
 #ifdef DEBUG
        Serial.print("\033[2J"); // clear screen
        Serial.print("\033[H");  // cursor home
        LOG_INFO("Iteration [", it, "]");
 #endif
        // WAIT FOR PICKUP SIGNAL
        xTaskNotifyWait(
-            0x00,         // non pulire all'ingresso
+            ULONG_MAX,    // non pulire all'ingresso
            ULONG_MAX,    // pulisci i primi 8 bit
            &pickup_flag, // valore ricevuto
            portMAX_DELAY);
 #ifdef DEBUG
        LOG_INFO("Iteration [", it++, "]");
        Serial.print("\033[2J"); // clear screen
        Serial.print("\033[H");  // cursor home
        LOG_INFO("Pickup Flags: ", printBits(pickup_flag).c_str());
        if (!names.contains(pickup_flag))
        {
@@ -99,9 +105,12 @@ void rtIgnitionTask(void *pvParameters)
        auto spark_timeout = ulTaskNotifyTake(pdTRUE, pdMS_TO_TICKS(spark_timeout_max));
        if (ign_box_sts.coils12.spark_ok || ign_box_sts.coils34.spark_ok) // otherwise timeout if none is set in the ISR
            spark_flag = ign_box_sts.coils12.spark_ok ? SPARK_FLAG_12 : SPARK_FLAG_34;
        else
            spark_flag == SPARK_FLAG_NIL;
        xTaskNotifyStateClear(NULL);
        ulTaskNotifyValueClear(NULL, 0xFFFFFFFF);
 #ifdef DEBUG
        LOG_INFO("Spark Flags: ", printBits(spark_flag).c_str());
        if (!names.contains(spark_flag))
@@ -135,12 +144,11 @@ void rtIgnitionTask(void *pvParameters)
        bool new_data = false;
        switch (pickup_flag)
        {
        // CASES for NEGATIVE cycle triggering of pickup and sparks 12 & 34
        case TRIG_FLAG_12P:
        case TRIG_FLAG_34P:
        {
            // Timeout not occourred, expected POSITIVE edge spark OCCOURRED
-            if (spark_timeout == pdPASS)
+            if (spark_flag != SPARK_FLAG_NIL)
            {
                coils->spark_delay = coils->spark_time - coils->trig_time;
                coils->sstart_status = softStartStatus::NORMAL;  // because spark on positive edge
@@ -151,12 +159,12 @@ void rtIgnitionTask(void *pvParameters)
 #endif
            }
            // Timeout occourred, expected POSITIVE edge spark NOT OCCOURRED
-            else if (spark_timeout == pdFAIL)
+            else if (spark_flag == SPARK_FLAG_NIL)
            {
                coils->spark_status = sparkStatus::SPARK_NEG_WAIT;
                coils->sstart_status = softStartStatus::NORMAL;
            }
-            new_data = false;
+            new_data = true;
            break; // Do nothing more on positive pulse
        }
        // CASES for NEGATIVE cycle triggering of pickup and sparks 12 & 34
@@ -165,7 +173,7 @@ void rtIgnitionTask(void *pvParameters)
        {
            const bool expected_negative12 = coils->spark_status == sparkStatus::SPARK_NEG_WAIT;
            // Timeout not occourred, expected NEGATIVE edge spark OCCOURRED
-            if (spark_timeout == pdPASS && expected_negative12)
+            if (spark_flag != SPARK_FLAG_NIL && expected_negative12)
            {
                coils->spark_delay = coils->spark_time - coils->trig_time;
                coils->sstart_status = softStartStatus::SOFT_START;
@@ -176,13 +184,13 @@ void rtIgnitionTask(void *pvParameters)
 #endif
            }
            // Timeout occourred, expected POSITIVE edge spark NOT OCCOURRED
-            else if (spark_timeout == pdFAIL && expected_negative12)
+            else if (spark_flag == SPARK_FLAG_NIL && expected_negative12)
            {
                coils->sstart_status = softStartStatus::NORMAL;
                coils->spark_status = sparkStatus::SPARK_NEG_FAIL;
            }
            // Timeout not occouured, unexpected negative edge spark
-            else if (spark_timeout == pdPASS && !expected_negative12)
+            else if (spark_flag != SPARK_FLAG_NIL && !expected_negative12)
            {
                coils->sstart_status = softStartStatus::SOFT_START;
                coils->spark_status = sparkStatus::SPARK_NEG_UNEXPECTED;
@@ -192,7 +200,11 @@ void rtIgnitionTask(void *pvParameters)
            break;
        }
        default:
 #ifdef DEUG
            LOG_ERROR("Invalid Interrupt");
            LOG_ERROR("Pickup Flags: ", printBits(pickup_flag).c_str());
            LOG_ERROR("Spark Flags: ", printBits(spark_flag).c_str());
 #endif
            break;
        }
--- a/RotaxMonitor/src/tasks.h
+++ b/RotaxMonitor/src/tasks.h
@@ -7,9 +7,7 @@
 // Arduino Libraries
 #include <Arduino.h>
 #include <DebugLog.h>
 #ifdef DEBUG
 #include "utils.h"
 #endif
 // ISR
 #include "isr.h"
@@ -23,12 +21,12 @@ const uint8_t spark_timeout_max = 2; // in milliseconds
 // Debug Variables
 #ifdef DEBUG
 static const std::map<const uint32_t, const char *> names = {
-    {TRIG_FLAG_A12P, "TRIG_FLAG_A12P"},
+    {TRIG_FLAG_12P, "TRIG_FLAG_12P"},
-    {TRIG_FLAG_A12N, "TRIG_FLAG_A12N"},
+    {TRIG_FLAG_12N, "TRIG_FLAG_12N"},
-    {TRIG_FLAG_A34P, "TRIG_FLAG_A34P"},
+    {TRIG_FLAG_34P, "TRIG_FLAG_34P"},
-    {TRIG_FLAG_A34N, "TRIG_FLAG_A34N"},
+    {TRIG_FLAG_34N, "TRIG_FLAG_34N"},
-    {SPARK_FLAG_A12, "SPARK_FLAG_A12"},
+    {SPARK_FLAG_12, "SPARK_FLAG_12"},
-    {SPARK_FLAG_A34, "SPARK_FLAG_A34"},
+    {SPARK_FLAG_34, "SPARK_FLAG_34"},
 };
 #endif
--- a/RotaxMonitor/src/ui.h
+++ b/RotaxMonitor/src/ui.h
@@ -0,0 +1,48 @@
 #pragma once
 #include <Arduino.h>
 static bool firstRun = true;
 void clearScreen(){
    Serial.print("\033[2J"); // clear screen
    Serial.print("\033[H");  // cursor home
    Serial.flush();
 }
 void setCursor(const uint8_t x, const uint8_t y) {
    Serial.printf("\033[%d;%d", y, x+1);
    Serial.flush();
 }
 void printField(const char name[], const uint32_t val, const uint8_t x, const uint8_t y) {
    if (firstRun) {
        setCursor(x,y);
        Serial.printf("%15s: %06d\n", name, val);
        return;
    }
    setCursor(x+16, y);
    Serial.print(val);
 }
 void printField(const char name[], const int64_t val, const uint8_t x, const uint8_t y) {
    if (firstRun) {
        setCursor(x,y);
        Serial.printf("%15s: %06u\n", name, (uint64_t)val);
        return;
    }
    setCursor(x+16, y);
    Serial.print((uint64_t)val);
    Serial.flush();
 }
 void printField(const char name[], const float val, const uint8_t x, const uint8_t y) {
    if (firstRun) {
        setCursor(x,y);
        Serial.printf("%15s: %4.2f\n", name, val);
        return;
    }
    setCursor(x+16, y);
    Serial.print(val);
    Serial.flush();
 }
--- a/RotaxMonitor/src/utils.cpp
+++ b/RotaxMonitor/src/utils.cpp
@@ -0,0 +1,14 @@
 #include "utils.h"
 std::string printBits(uint32_t value) {
    std::string result;
    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) {
            result += ' ';
        }
    }
    return result;
 }
--- a/RotaxMonitor/src/utils.h
+++ b/RotaxMonitor/src/utils.h
@@ -3,15 +3,4 @@
 #include <Arduino.h>
 #include <string>
-std::string printBits(uint32_t value) {
+std::string printBits(uint32_t value);
    std::string result;
    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) {
            result += ' ';
        }
    }
    return result;
 }
Author	SHA1	Message	Date
Emanuele Trabattoni	6072a603df	First Attempt to print data async, fields not working	2026-03-31 13:07:02 +02:00
Emanuele Trabattoni	27ad612844	Mod to ISR and Tasks ok working	2026-03-31 09:19:11 +02:00