working now?

debug
2020-11-25 10:08:20 +01:00 · 2020-11-25 10:02:38 +01:00 · 2020-11-25 09:16:00 +01:00 · 2020-11-25 08:58:59 +01:00 · 2020-11-25 08:55:54 +01:00 · 2020-11-24 22:57:33 +01:00
14 changed files with 380 additions and 248 deletions
--- a/cube/Core/Src/spi.c
+++ b/cube/Core/Src/spi.c
@ -80,8 +80,8 @@ void MX_SPI3_Init(void)
  hspi3.Init.Mode = SPI_MODE_MASTER;
  hspi3.Init.Direction = SPI_DIRECTION_2LINES;
  hspi3.Init.DataSize = SPI_DATASIZE_8BIT;
-  hspi3.Init.CLKPolarity = SPI_POLARITY_HIGH;
+  hspi3.Init.CLKPolarity = SPI_POLARITY_LOW;
-  hspi3.Init.CLKPhase = SPI_PHASE_2EDGE;
+  hspi3.Init.CLKPhase = SPI_PHASE_1EDGE;
  hspi3.Init.NSS = SPI_NSS_SOFT;
  hspi3.Init.BaudRatePrescaler = SPI_BAUDRATEPRESCALER_2;
  hspi3.Init.FirstBit = SPI_FIRSTBIT_MSB;
--- a/cube/Core/Src/stm32f1xx_it.c
+++ b/cube/Core/Src/stm32f1xx_it.c
@ -261,6 +261,9 @@ void UART4_IRQHandler(void)
  /* USER CODE END UART4_IRQn 1 */
 }
 void mbusCommISR();
 /**
  * @brief This function handles UART5 global interrupt.
  */
@ -269,9 +272,11 @@ void UART5_IRQHandler(void)
  /* USER CODE BEGIN UART5_IRQn 0 */
  /* USER CODE END UART5_IRQn 0 */
-  HAL_UART_IRQHandler(&huart5);
+  // HAL_UART_IRQHandler(&huart5);
  /* USER CODE BEGIN UART5_IRQn 1 */
  mbusCommISR();
  /* USER CODE END UART5_IRQn 1 */
 }
--- a/cube/Drivers/STM32F1xx_HAL_Driver/Src/stm32f1xx_hal_uart.c
+++ b/cube/Drivers/STM32F1xx_HAL_Driver/Src/stm32f1xx_hal_uart.c
@ -2014,6 +2014,10 @@ HAL_StatusTypeDef HAL_UART_AbortReceive_IT(UART_HandleTypeDef *huart)
  return HAL_OK;
 }
 inline void dts(uint8_t v) {
      while (v--) HAL_GPIO_TogglePin(GPIOB, GPIO_PIN_10);
 }
 /**
  * @brief  This function handles UART interrupt request.
  * @param  huart  Pointer to a UART_HandleTypeDef structure that contains
@ -2022,6 +2026,8 @@ HAL_StatusTypeDef HAL_UART_AbortReceive_IT(UART_HandleTypeDef *huart)
  */
 void HAL_UART_IRQHandler(UART_HandleTypeDef *huart)
 {
  HAL_GPIO_TogglePin(GPIOE, GPIO_PIN_12);
  uint32_t isrflags   = READ_REG(huart->Instance->SR);
  uint32_t cr1its     = READ_REG(huart->Instance->CR1);
  uint32_t cr3its     = READ_REG(huart->Instance->CR3);
@ -2035,6 +2041,7 @@ void HAL_UART_IRQHandler(UART_HandleTypeDef *huart)
     /* UART in mode Receiver -------------------------------------------------*/
    if (((isrflags & USART_SR_RXNE) != RESET) && ((cr1its & USART_CR1_RXNEIE) != RESET))
    {
 dts(1);
      UART_Receive_IT(huart);
      return;
    }
@ -2043,6 +2050,7 @@ void HAL_UART_IRQHandler(UART_HandleTypeDef *huart)
  /* If some errors occur */
  if ((errorflags != RESET) && (((cr3its & USART_CR3_EIE) != RESET) || ((cr1its & (USART_CR1_RXNEIE | USART_CR1_PEIE)) != RESET)))
  {
 dts(2);
    /* UART parity error interrupt occurred ----------------------------------*/
    if (((isrflags & USART_SR_PE) != RESET) && ((cr1its & USART_CR1_PEIE) != RESET))
    {
@ -2070,10 +2078,14 @@ void HAL_UART_IRQHandler(UART_HandleTypeDef *huart)
    /* Call UART Error Call back function if need be --------------------------*/
    if (huart->ErrorCode != HAL_UART_ERROR_NONE)
    {
 dts(3);
      /* UART in mode Receiver -----------------------------------------------*/
      if (((isrflags & USART_SR_RXNE) != RESET) && ((cr1its & USART_CR1_RXNEIE) != RESET))
      {
        dts(4);
        UART_Receive_IT(huart);
      } else {
        dts(5);
      }
      /* If Overrun error occurs, or if any error occurs in DMA mode reception,
--- a/cube/User/Inc/eeprom.h
+++ b/cube/User/Inc/eeprom.h
@ -18,5 +18,4 @@ void eepromRead(uint16_t addr, uint8_t *buf, uint8_t len);
 void eepromSpiTxCpltCallback(SPI_HandleTypeDef *hspi);
 t_deviceStats* getGlobalDeviceStats();
 #endif /* EEPROM_H_ */
--- a/cube/User/Inc/mbusComm.h
+++ b/cube/User/Inc/mbusComm.h
@ -26,15 +26,20 @@ typedef enum {
 } e_mbusCommRequestResult;
 typedef struct {
-  uint32_t requestCnt;
+  uint32_t mbusRequestCnt;
-  uint32_t errorCnt;
+  uint32_t mbusErrorCnt;
  uint32_t uartOverrunCnt;
  uint32_t uartFramingErrCnt;
  uint32_t uartParityErrCnt;
 } t_mbusCommStats;
 // e_mbusCommRequestResult mbusCommRequest(t_mbusDevice *mbusDevice);
 void mbusCommInit();
 void mbusCommExec();
 void mbusCommEnable(bool enable);
 void mbusCommTxCpltCallback(UART_HandleTypeDef *huart);
 void mbusCommRxCpltCallback(UART_HandleTypeDef *huart);
 void mbusCommErrorCallback(UART_HandleTypeDef *huart);
 void mbusCommSetStats(t_mbusCommStats stats);
 t_mbusCommStats *mbusCommGetStats();
--- a/cube/User/Src/cmdHandler.c
+++ b/cube/User/Src/cmdHandler.c
@ -44,7 +44,7 @@ typedef struct {
 // clear statistics
 bool clearCmd(uint8_t argc, char **args) {
-    t_mbusCommStats zeroedStats = { .requestCnt = 0, .errorCnt = 0 };
+    t_mbusCommStats zeroedStats = { .mbusRequestCnt = 0, .mbusErrorCnt = 0, .uartOverrunCnt = 0, .uartFramingErrCnt = 0, .uartParityErrCnt = 0 };
    mbusCommSetStats(zeroedStats);
    coloredMsg(LOG_YELLOW, true, "ch cc global statistics cleared");
    return true;
@ -55,9 +55,13 @@ bool globalStatsCmd(uint8_t argc, char **args) {
    char buf[256];
    sprintf(buf, \
      "Global statistics\n\r" \
-      "  Requests: %ld\n\r" \
+      "  Meterbus Requests: %ld\n\r" \
-      "  Errors:   %ld\n\r",
+      "  Meterbus Errors:   %ld\n\r" \
-      stats->requestCnt, stats->errorCnt
+      "  UART Overruns:     %ld\n\r" \
      "  UART Framing Errs: %ld\n\r" \
      "  UART Parity Errs:  %ld\n\r",
      stats->mbusRequestCnt, stats->mbusErrorCnt,
      stats->uartOverrunCnt, stats->uartFramingErrCnt, stats->uartParityErrCnt
    );
    send(CMD_SOCK, (uint8_t*)buf, strlen(buf));
    return true;
--- a/cube/User/Src/eeprom.c
+++ b/cube/User/Src/eeprom.c
@ -20,7 +20,7 @@ static const uint8_t EEPROM_WREN = 0x06;
 // static const uint8_t EEPROM_WRSR = 0x01;
-static const uint32_t EEPROM_MAGIC = 0xaffe0006;
+static const uint32_t EEPROM_MAGIC = 0xaffe0008;
 typedef union {
@ -114,8 +114,8 @@ static void eepromHourlyUpdateDeviceStats(void *handle) {
  t_mbusCommStats *stats = mbusCommGetStats();
-  deviceStats.s.totalRequests = stats->requestCnt;
+  deviceStats.s.totalRequests += stats->mbusRequestCnt;
-  deviceStats.s.totalFailures = stats->errorCnt;
+  deviceStats.s.totalFailures += stats->mbusErrorCnt;
  logMsg("eeHUDS, about to write updated device stats");
  logMsg("eeHUDS, total powercycles so far: %d", deviceStats.s.totalPowercycles);
@ -179,9 +179,6 @@ void eepromInit() {
  logMsg("eeI, total requests so far: %d", deviceStats.s.totalRequests);
  logMsg("eeI, total failures so far: %d", deviceStats.s.totalFailures);
  t_mbusCommStats stats = { .requestCnt = deviceStats.s.totalRequests, .errorCnt = deviceStats.s.totalFailures};
  mbusCommSetStats(stats);
  deviceStats.s.totalPowercycles += 1;
  logMsg("eeI, about to write device stats with updated power cycles counter");
  eepromWrite(DEVICE_STATS_ADDR, deviceStats.b, sizeof(deviceStats));
--- a/cube/User/Src/frontend.c
+++ b/cube/User/Src/frontend.c
@ -37,7 +37,7 @@ void frontendDisable() {
 void frontendAdcCallback(ADC_HandleTypeDef* hadc) {
    static int32_t holdValue = 0;
-    show(DEBUG_2, TOGGLE);
+    // show(DEBUG_2, TOGGLE);
    if (frontendEnabled) {
        int32_t currentValue = (int32_t) HAL_ADC_GetValue(hadc);
--- a/cube/User/Src/main2.c
+++ b/cube/User/Src/main2.c
@ -64,13 +64,15 @@ void my_setup_2() {
 }
 void my_loop() {
-    show(DEBUG_1, TOGGLE);
+    show(DEBUG_2, TOGGLE);
    schExec();
 #ifndef LOGGER_OUTPUT_BY_INTERRUPT
    logExec();
 #endif //LOGGER_OUTPUT_BY_INTERRUPT
    mbusCommExec();
 }
 void SYSTICK_Callback() {
@ -90,22 +92,13 @@ void HAL_ADC_ConvCpltCallback(ADC_HandleTypeDef* hadc) {
 }
 void HAL_UART_TxCpltCallback(UART_HandleTypeDef *huart) {
    if (huart == &mbusUart) {
        mbusCommTxCpltCallback(huart);
    } 
 #ifdef LOGGER_OUTPUT_BY_INTERRUPT   
-    else if (huart == &debugUart) {
+    if (huart == &debugUart) {
        debugTxCpltCallback(huart);
    }
 #endif //LOGGER_OUTPUT_BY_INTERRUPT    
 }
 void HAL_UART_RxCpltCallback(UART_HandleTypeDef *huart) {
    if (huart == &mbusUart) {
        mbusCommRxCpltCallback(huart);
    }
 }
 void HAL_SPI_TxCpltCallback(SPI_HandleTypeDef *hspi) {
    if (hspi == &eepromSpi) {
        eepromSpiTxCpltCallback(hspi);
--- a/cube/User/Src/mbusComm.c
+++ b/cube/User/Src/mbusComm.c
@ -16,6 +16,8 @@
 #include <mbusParserExt.h>
 #include <mqttComm.h>
 #include <oled.h>
 #include <ringbuffer.h>
 #include <mbus/mbus-protocol.h>
@ -77,25 +79,33 @@ typedef struct {
  uint8_t stop;
 } t_longframe;
 typedef struct {
    uint16_t size;
    uint16_t readIdx;
    uint16_t writeIdx;
    uint8_t *buffer;
 } linearBuffer_t;
 typedef struct {
    uint32_t requestId;
    e_mbusCommState state;
    uint8_t retryCnt;
    uint8_t cmd;
    uint8_t addr;
-    uint8_t sendBuf[5];
+    linearBuffer_t sendBuffer;
    linearBuffer_t receiveBuffer;
    uint32_t startTime;
    uint8_t receiveCnt;
-    uint8_t receivedOctet;
+    bool waitForOctet;
    bool receiving;
    e_mbusCommResult result;
    t_longframe frame;
    t_mbusDevice *device;
 } t_mbusCommHandle;
-static t_mbusCommHandle mbusCommHandle = { .requestId = 0, .state = MBCS_IDLE, .retryCnt = 0, .cmd = 0, .addr = 0, .receiveCnt = 0, .receivedOctet = 0, .receiving = false };
+static t_mbusCommHandle mbusCommHandle = { .requestId = 0, .state = MBCS_IDLE, .retryCnt = 0, .cmd = 0, .addr = 0, .startTime = 0, .receiveCnt = 0, .waitForOctet = false };
-static t_mbusCommStats mbusCommStats = { .requestCnt = 0, .errorCnt = 0 };
+static t_mbusCommStats mbusCommStats = { .mbusRequestCnt = 0, .mbusErrorCnt = 0, .uartOverrunCnt = 0, .uartFramingErrCnt = 0, .uartParityErrCnt = 0 };
 static bool mbusCommEnabled = true;
@ -108,21 +118,21 @@ t_mbusCommStats *mbusCommGetStats() {
 }
-static void printError(t_mbusCommHandle *localMbusCommHandle) {
+static void printError() {
-    float errorRatio = ((float) localMbusCommHandle->device->failures) / ((float) localMbusCommHandle->device->requests);
+    float errorRatio = ((float) mbusCommHandle.device->failures) / ((float) mbusCommHandle.device->requests);
    coloredMsg(LOG_YELLOW, true, "mbc pe [%d] Error ratio is %.2f", 
-               localMbusCommHandle->requestId,
+               mbusCommHandle.requestId,
               errorRatio);
    mqttPublishf(MBUS_TOPIC, "{\"Status\":\"Error\", \"RequestId\":\"%d\", \"Device\":\"%s\", \"Errors\":\"%d\", \"Requests\":\"%d\", \"ErrorRatio\":\"%.2f\"}", 
-                 localMbusCommHandle->requestId, localMbusCommHandle->device->deviceName,
+                 mbusCommHandle.requestId, mbusCommHandle.device->deviceName,
-                 localMbusCommHandle->device->failures, localMbusCommHandle->device->requests, errorRatio);
+                 mbusCommHandle.device->failures, mbusCommHandle.device->requests, errorRatio);
-    oledPrintf(OLED_SCREEN0, "Err:%d/%d", localMbusCommHandle->device->failures, localMbusCommHandle->device->requests);
+    oledPrintf(OLED_SCREEN0, "Err:%d/%d %.2f", mbusCommHandle.device->failures, mbusCommHandle.device->requests, errorRatio);
 }
-static void parseAndPrintFrame(t_mbusCommHandle *localMbusCommHandle) {
+static void parseAndPrintFrame() {
-    t_longframe *frame = &(localMbusCommHandle->frame);
+    t_longframe *frame = &(mbusCommHandle.frame);
    mbus_frame reply;
    memset(&reply, 0, sizeof(reply));
@ -147,30 +157,30 @@ static void parseAndPrintFrame(t_mbusCommHandle *localMbusCommHandle) {
    int r = mbus_frame_data_parse(&reply, &frame_data);
    if (r == 0) {
        mbus_data_variable *data_var = &(frame_data.data_var);
-        coloredMsg(LOG_YELLOW, false, "mbc papf [%d] sts: %02x", localMbusCommHandle->requestId, data_var->header.status);
+        coloredMsg(LOG_YELLOW, false, "mbc papf [%d] sts: %02x", mbusCommHandle.requestId, data_var->header.status);
        if ((data_var->header.status & 0x01)) {
-            coloredMsg(LOG_RED, true, "mbc papf [%d] sts: Application Busy", localMbusCommHandle->requestId);
+            coloredMsg(LOG_RED, true, "mbc papf [%d] sts: Application Busy", mbusCommHandle.requestId);
        }
        if ((data_var->header.status & 0x02)) {
-            coloredMsg(LOG_RED, true, "mbc papf [%d] sts: Any Application Error", localMbusCommHandle->requestId);
+            coloredMsg(LOG_RED, true, "mbc papf [%d] sts: Any Application Error", mbusCommHandle.requestId);
        }
        if ((data_var->header.status & 0x04)) {
-            coloredMsg(LOG_RED, true, "mbc papf [%d] sts: Power Low", localMbusCommHandle->requestId);
+            coloredMsg(LOG_RED, true, "mbc papf [%d] sts: Power Low", mbusCommHandle.requestId);
        }
        if ((data_var->header.status & 0x08)) {
-            coloredMsg(LOG_RED, true, "mbc papf [%d] sts: Permanent Error", localMbusCommHandle->requestId);
+            coloredMsg(LOG_RED, true, "mbc papf [%d] sts: Permanent Error", mbusCommHandle.requestId);
        }
        if ((data_var->header.status & 0x10)) {
-            coloredMsg(LOG_RED, true, "mbc papf [%d] sts: Temporary Error", localMbusCommHandle->requestId);
+            coloredMsg(LOG_RED, true, "mbc papf [%d] sts: Temporary Error", mbusCommHandle.requestId);
        }
        if ((data_var->header.status & 0x20)) {
-            coloredMsg(LOG_RED, true, "mbc papf [%d] sts: Specific to manufacturer Error 1", localMbusCommHandle->requestId);
+            coloredMsg(LOG_RED, true, "mbc papf [%d] sts: Specific to manufacturer Error 1", mbusCommHandle.requestId);
        }
        if ((data_var->header.status & 0x40)) {
-            coloredMsg(LOG_RED, true, "mbc papf [%d] sts: Specific to manufacturer Error 2", localMbusCommHandle->requestId);
+            coloredMsg(LOG_RED, true, "mbc papf [%d] sts: Specific to manufacturer Error 2", mbusCommHandle.requestId);
        }
        if ((data_var->header.status & 0x80)) {
-            coloredMsg(LOG_RED, true, "mbc papf [%d] sts: Specific to manufacturer Error 3", localMbusCommHandle->requestId);
+            coloredMsg(LOG_RED, true, "mbc papf [%d] sts: Specific to manufacturer Error 3", mbusCommHandle.requestId);
        }
        mbus_data_record *record;
        int i;
@ -181,24 +191,24 @@ static void parseAndPrintFrame(t_mbusCommHandle *localMbusCommHandle) {
             record;
             record = record->next, i++) {
            for (uint8_t j = 0; j < MBUSDEVICE_NUM_OF_CONSIDEREDFIELDS; j++) {
-                if (localMbusCommHandle->device->consideredField[j] == i) {
+                if (mbusCommHandle.device->consideredField[j] == i) {
                    parsedVIB_t parsedVIB = parseVIB(record->drh.vib);
                    coloredMsg(LOG_YELLOW, false, "mbc papf [%d] parsed VIB N: %s, U: %s, E: %d",
-                               localMbusCommHandle->requestId,
+                               mbusCommHandle.requestId,
                               parsedVIB.name, parsedVIB.unit, parsedVIB.exponent);
                    if (parsedVIB.found) {
                        uint32_t value = strtol(mbus_data_record_value(record), NULL, 10);
                        float weightedValue = ((float) value) * powf(10.0, ((float) parsedVIB.exponent));
                        coloredMsg(LOG_YELLOW, true, "mbc papf [%d] %s is %.1f %s (%d * 10^%d)",
-                                   localMbusCommHandle->requestId, parsedVIB.name, weightedValue, parsedVIB.unit,
+                                   mbusCommHandle.requestId, parsedVIB.name, weightedValue, parsedVIB.unit,
                                   value, parsedVIB.exponent);
                        keys[numOfConsideredFields] = parsedVIB.name;
                        values[numOfConsideredFields] = weightedValue;
                        numOfConsideredFields++;
                    } else {
                        coloredMsg(LOG_YELLOW, true, "mbc papf [%d] L:%d, VIF: 0x%02x U:%s V:%s", 
-                                   localMbusCommHandle->requestId,
+                                   mbusCommHandle.requestId,
-                                   localMbusCommHandle->device->consideredField[j],
+                                   mbusCommHandle.device->consideredField[j],
                                   record->drh.vib.vif,
                                   mbus_data_record_unit(record),
                                   mbus_data_record_value(record));
@ -207,296 +217,305 @@ static void parseAndPrintFrame(t_mbusCommHandle *localMbusCommHandle) {
                }
            }
        }
-        float errorRatio = ((float) localMbusCommHandle->device->failures) / ((float) localMbusCommHandle->device->requests);
+        float errorRatio = ((float) mbusCommHandle.device->failures) / ((float) mbusCommHandle.device->requests);
        coloredMsg(LOG_YELLOW, true, "mbc papf [%d] Error ratio is %.2f", 
-                                   localMbusCommHandle->requestId,
+                                   mbusCommHandle.requestId,
                                   errorRatio);
        if (numOfConsideredFields == 1) {
            mqttPublishf(MBUS_TOPIC, "{\"Status\":\"Ok\", \"RequestId\":\"%d\", \"Device\":\"%s\", \"Errors\":\"%d\", \"Requests\":\"%d\", \"ErrorRatio\":\"%.2f\", " \
                                     "\"Values\":{\"%s\":\"%.1f\"}}", 
-                         localMbusCommHandle->requestId, localMbusCommHandle->device->deviceName,
+                         mbusCommHandle.requestId, mbusCommHandle.device->deviceName,
-                         localMbusCommHandle->device->failures, localMbusCommHandle->device->requests, errorRatio,
+                         mbusCommHandle.device->failures, mbusCommHandle.device->requests, errorRatio,
                         keys[0], values[0]);
        } else if (numOfConsideredFields == 2) {
            mqttPublishf(MBUS_TOPIC, "{\"Status\":\"Ok\", \"RequestId\":\"%d\", \"Device\":\"%s\", \"Errors\":\"%d\", \"Requests\":\"%d\", \"ErrorRatio\":\"%.2f\", " \
                                     "\"Values\":{\"%s\":\"%.1f\", \"%s\":\"%.1f\"}}", 
-                         localMbusCommHandle->requestId, localMbusCommHandle->device->deviceName,
+                         mbusCommHandle.requestId, mbusCommHandle.device->deviceName,
-                         localMbusCommHandle->device->failures, localMbusCommHandle->device->requests, errorRatio,
+                         mbusCommHandle.device->failures, mbusCommHandle.device->requests, errorRatio,
                         keys[0], values[0], keys[1], values[1]);
        } else if (numOfConsideredFields == 3) {
            mqttPublishf(MBUS_TOPIC, "{\"Status\":\"Ok\", \"RequestId\":\"%d\", \"Device\":\"%s\", \"Errors\":\"%d\", \"Requests\":\"%d\", \"ErrorRatio\":\"%.2f\", " \
                                     "\"Values\":{\"%s\":\"%.1f\", \"%s\":\"%.1f\", \"%s\":\"%.1f\"}}", 
-                         localMbusCommHandle->requestId, localMbusCommHandle->device->deviceName,
+                         mbusCommHandle.requestId, mbusCommHandle.device->deviceName,
-                         localMbusCommHandle->device->failures, localMbusCommHandle->device->requests, errorRatio,
+                         mbusCommHandle.device->failures, mbusCommHandle.device->requests, errorRatio,
                         keys[0], values[0], keys[1], values[1], keys[2], values[2]);
        } else if (numOfConsideredFields == 4) {
            mqttPublishf(MBUS_TOPIC, "{\"Status\":\"Ok\", \"RequestId\":\"%d\", \"Device\":\"%s\", \"Errors\":\"%d\", \"Requests\":\"%d\", \"ErrorRatio\":\"%.2f\", " \
                                     "\"Values\":{\"%s\":\"%.1f\", \"%s\":\"%.1f\", \"%s\":\"%.1f\", \"%s\":\"%.1f\"}}", 
-                         localMbusCommHandle->requestId, localMbusCommHandle->device->deviceName,
+                         mbusCommHandle.requestId, mbusCommHandle.device->deviceName,
-                         localMbusCommHandle->device->failures, localMbusCommHandle->device->requests, errorRatio,
+                         mbusCommHandle.device->failures, mbusCommHandle.device->requests, errorRatio,
                         keys[0], values[0], keys[1], values[1], keys[2], values[2], keys[3], values[3]);
        }
-        oledPrintf(OLED_SCREEN0, "Ok:%d/%d", localMbusCommHandle->device->failures, localMbusCommHandle->device->requests);
+        oledPrintf(OLED_SCREEN0, "Ok:%d/%d %.2f", mbusCommHandle.device->failures, mbusCommHandle.device->requests, errorRatio);
        mbus_data_record_free(data_var->record);
    } else {
-        coloredMsg(LOG_RED, true, "mbc papf [%d] err: unable to parse frame", localMbusCommHandle->requestId);
+        coloredMsg(LOG_RED, true, "mbc papf [%d] err: unable to parse frame", mbusCommHandle.requestId);
    }
 }
-static void handleRequestEngine(void *handle);
+
-static void timeoutHandler(void *handle) {
+void mbusCommISR() {
-    t_mbusCommHandle *localMbusCommHandle = (t_mbusCommHandle*) handle;
+    show(DEBUG_1, TOGGLE);
-    // coloredMsg(LOG_RED, true, "mbc th [%d] timeout", localMbusCommHandle->requestId);
+
-    localMbusCommHandle->state = MBCS_TIMEOUT;
+    uint32_t isrflags   = READ_REG(mbusUart.Instance->SR);
-    localMbusCommHandle->receiving = false;
+
-    handleRequestEngine(handle);
+    if (((isrflags & USART_SR_RXNE) != RESET) || ((isrflags & USART_SR_ORE) != RESET)) {
        if ((isrflags & USART_SR_ORE) != RESET) {
            mbusCommStats.uartOverrunCnt += 1;
        }
        // it is required to read the DR in any case here, not only when the buffer has space
        // otherwise the interrupt flag won't be disabled, particularly important in case of
        // ORE
        uint8_t data = (uint8_t)(mbusUart.Instance->DR & (uint8_t)0x00FF);
        if (mbusCommHandle.receiveBuffer.writeIdx < mbusCommHandle.receiveBuffer.size) {
            mbusCommHandle.receiveBuffer.buffer[mbusCommHandle.receiveBuffer.writeIdx] = data;
            mbusCommHandle.receiveBuffer.writeIdx += 1;
        }
        return;
    } else {
        if ((isrflags & USART_SR_FE) != RESET) {
            mbusCommStats.uartFramingErrCnt += 1;
        }
        if ((isrflags & USART_SR_PE) != RESET) {
            mbusCommStats.uartParityErrCnt += 1;
        }
    }
 }
 static void receiveNext(t_mbusCommHandle *localMbusCommHandle) {
    localMbusCommHandle->receiving = true;
    HAL_UART_Receive_IT(&mbusUart, &(localMbusCommHandle->receivedOctet), 1);
 }
 static void handleRequestEngine(void *handle) {
    t_mbusCommHandle *localMbusCommHandle = (t_mbusCommHandle*) handle;
 void mbusCommExec() {
    static uint8_t userdataIdx = 0;
    static uint8_t calculatedChksum = 0;
    uint8_t receivedOctet = 0;
-    switch (localMbusCommHandle->state) {
+    if ((mbusCommHandle.startTime != 0) && ((mbusCommHandle.startTime + 2500) < HAL_GetTick())) {
        coloredMsg(LOG_RED, false, "TIMEOUT!! %d %ld %ld", mbusCommHandle.state, mbusCommHandle.startTime, HAL_GetTick());
        mbusCommHandle.startTime = 0;
        mbusCommHandle.state = MBCS_TIMEOUT;
    } else if (mbusCommHandle.waitForOctet) {
        if (mbusCommHandle.receiveBuffer.readIdx >= mbusCommHandle.receiveBuffer.writeIdx) {
            return;
        }
        receivedOctet = mbusCommHandle.receiveBuffer.buffer[mbusCommHandle.receiveBuffer.readIdx];
        mbusCommHandle.receiveBuffer.readIdx += 1;
        mbusCommHandle.waitForOctet = false;
    }
    switch (mbusCommHandle.state) {
        case MBCS_IDLE:
-        coloredMsg(LOG_YELLOW, false, "mbc hre [%d] state IDLE", localMbusCommHandle->requestId);
+        // coloredMsg(LOG_YELLOW, false, "mbc hre [%d] state IDLE", mbusCommHandle.requestId);
        break;
        case MBCS_SEND:
-        // coloredMsg(LOG_YELLOW, false, "mbc hre [%d] state SEND", localMbusCommHandle->requestId);
+        coloredMsg(LOG_YELLOW, false, "mbc hre [%d] state SEND", mbusCommHandle.requestId);
-        localMbusCommHandle->sendBuf[0] = 0x10;
+        mbusCommHandle.sendBuffer.buffer[0] = 0x10;
-        localMbusCommHandle->sendBuf[1] = localMbusCommHandle->cmd;
+        mbusCommHandle.sendBuffer.buffer[1] = mbusCommHandle.cmd;
-        localMbusCommHandle->sendBuf[2] = localMbusCommHandle->addr;
+        mbusCommHandle.sendBuffer.buffer[2] = mbusCommHandle.addr;
-        localMbusCommHandle->sendBuf[3] = localMbusCommHandle->cmd + localMbusCommHandle->addr; // checksum
+        mbusCommHandle.sendBuffer.buffer[3] = mbusCommHandle.cmd + mbusCommHandle.addr; // checksum
-        localMbusCommHandle->sendBuf[4] = 0x16;
+        mbusCommHandle.sendBuffer.buffer[4] = 0x16;
-        localMbusCommHandle->state = MBCS_SEND_CONTINUED;
+        mbusCommHandle.sendBuffer.readIdx = 0;
        mbusCommHandle.sendBuffer.writeIdx = 5;
        mbusCommHandle.state = MBCS_SEND_CONTINUED;
        // no break !!
        case MBCS_SEND_CONTINUED:
-        // coloredMsg(LOG_YELLOW, false, "mbc hre [%d] state SEND_CONTINUED", localMbusCommHandle->requestId);
+        coloredMsg(LOG_YELLOW, false, "mbc hre [%d] state SEND_CONTINUED", mbusCommHandle.requestId);
        show(LED_RED, OFF);
        if (! loopActive) {
-            coloredMsg(LOG_YELLOW, true, "mbc hre [%d] enabling loop, try %d", localMbusCommHandle->requestId, localMbusCommHandle->retryCnt);
+            coloredMsg(LOG_YELLOW, true, "mbc hre [%d] enabling loop, try %d", mbusCommHandle.requestId, mbusCommHandle.retryCnt);
-            localMbusCommHandle->retryCnt++;
+            mbusCommHandle.retryCnt++;
            loopEnable();
-            schAdd(handleRequestEngine, handle, 100, 0); // give 100ms to settled the loop
+            // FIXME somehow manage to delay for about 100ms
        } else {
-            localMbusCommHandle->retryCnt = 0;
+            mbusCommHandle.retryCnt = 0;
-            HAL_UART_Transmit_IT(&mbusUart, localMbusCommHandle->sendBuf, 5);
+            // FIXME sending possibly needs to be done in a different way
            HAL_UART_Transmit(&mbusUart, mbusCommHandle.sendBuffer.buffer, 5, HAL_MAX_DELAY);
            // transition from here to SENDING_DONE is initiate by mbusCommTxCpltCallback
            // interrupt callback
-            localMbusCommHandle->state = MBCS_SENDING_DONE;
+            mbusCommHandle.state = MBCS_SENDING_DONE;
        }
        break;
        case MBCS_SENDING_DONE:
-        // coloredMsg(LOG_YELLOW, false, "mbc hre [%d] state SENDING_DONE", localMbusCommHandle->requestId);
+        coloredMsg(LOG_YELLOW, false, "mbc hre [%d] state SENDING_DONE", mbusCommHandle.requestId);
-        localMbusCommHandle->state = MBCS_ENABLE_FRONTEND;
+        mbusCommHandle.state = MBCS_ENABLE_FRONTEND;
-        schAdd(handleRequestEngine, handle, 3, 0);
+        // FIXME somehow manage to delay for about 3ms
        break;
        case MBCS_ENABLE_FRONTEND:
-        // coloredMsg(LOG_YELLOW, false, "mbc hre [%d] state ENABLE_FRONTEND", localMbusCommHandle->requestId);
+        coloredMsg(LOG_YELLOW, false, "mbc hre [%d] state ENABLE_FRONTEND", mbusCommHandle.requestId);
        frontendEnable();
        schAdd(timeoutHandler, handle, 2500, 0);
        calculatedChksum = 0;
        userdataIdx = 0;
-        localMbusCommHandle->state = MBCS_START1;
+        mbusCommHandle.receiveBuffer.readIdx = 0;
-        receiveNext(localMbusCommHandle);
+        mbusCommHandle.receiveBuffer.writeIdx = 0;
        mbusCommHandle.waitForOctet = true; // start receiver
        mbusCommHandle.startTime = HAL_GetTick(); // start receiver timeout
        mbusCommHandle.state = MBCS_START1;
        break;
        case MBCS_START1:
-        if (localMbusCommHandle->receivedOctet == 0x68) {
+        if (receivedOctet == 0x68) {
-            localMbusCommHandle->frame.start1 = localMbusCommHandle->receivedOctet;
+            mbusCommHandle.frame.start1 = receivedOctet;
-            localMbusCommHandle->state = MBCS_LENGTH1;
+            mbusCommHandle.waitForOctet = true;
-            receiveNext(localMbusCommHandle);
+            mbusCommHandle.state = MBCS_LENGTH1;
        } else {
-            coloredMsg(LOG_RED, true, "mbc hre [%d] err: invalid start1 symbol %02x", localMbusCommHandle->requestId, localMbusCommHandle->receivedOctet);
+            coloredMsg(LOG_RED, true, "mbc hre [%d] err: invalid start1 symbol %02x", mbusCommHandle.requestId, receivedOctet);
-            localMbusCommHandle->result = MBCR_ERROR_STATE_ENGINE__START1;
+            mbusCommHandle.result = MBCR_ERROR_STATE_ENGINE__START1;
-            localMbusCommHandle->state = MBCS_ERROR;
+            mbusCommHandle.state = MBCS_ERROR;
            schAdd(handleRequestEngine, handle, 0, 0);
        }
        break;
        case MBCS_LENGTH1:
-        if (localMbusCommHandle->receivedOctet <= 3) {
+        if (receivedOctet <= 3) {
-            coloredMsg(LOG_RED, true, "mbc hre [%d] err: length to small %02x", localMbusCommHandle->requestId, localMbusCommHandle->receivedOctet);
+            coloredMsg(LOG_RED, true, "mbc hre [%d] err: length to small %02x", mbusCommHandle.requestId, receivedOctet);
-            localMbusCommHandle->result = MBCR_ERROR_STATE_ENGINE__LENGTH1;
+            mbusCommHandle.result = MBCR_ERROR_STATE_ENGINE__LENGTH1;
-            localMbusCommHandle->state = MBCS_ERROR;
+            mbusCommHandle.state = MBCS_ERROR;
            schAdd(handleRequestEngine, handle, 0, 0);
        } else {
-            localMbusCommHandle->frame.length1 = localMbusCommHandle->receivedOctet;
+            mbusCommHandle.frame.length1 = receivedOctet;
-            localMbusCommHandle->frame.userdata = (uint8_t*) malloc(localMbusCommHandle->frame.length1 - 3);
+            mbusCommHandle.frame.userdata = (uint8_t*) malloc(mbusCommHandle.frame.length1 - 3);
-            if (! localMbusCommHandle->frame.userdata) {
+            if (! mbusCommHandle.frame.userdata) {
-                coloredMsg(LOG_RED, true, "mbc hre [%d] err: unable to allocate memory for userdata", localMbusCommHandle->requestId);
+                coloredMsg(LOG_RED, true, "mbc hre [%d] err: unable to allocate memory for userdata", mbusCommHandle.requestId);
-                localMbusCommHandle->result = MBCR_ERROR_OUT_OF_MEMORY__USERDATA;
+                mbusCommHandle.result = MBCR_ERROR_OUT_OF_MEMORY__USERDATA;
-                localMbusCommHandle->state = MBCS_ERROR;
+                mbusCommHandle.state = MBCS_ERROR;
                schAdd(handleRequestEngine, handle, 0, 0);
            } else {
-                localMbusCommHandle->state = MBCS_LENGTH2;
+                mbusCommHandle.waitForOctet = true;
-                receiveNext(localMbusCommHandle);
+                mbusCommHandle.state = MBCS_LENGTH2;
            }
        }
        break;
        case MBCS_LENGTH2:
-        if (localMbusCommHandle->frame.length1 != localMbusCommHandle->receivedOctet) {
+        if (mbusCommHandle.frame.length1 != receivedOctet) {
            coloredMsg(LOG_RED, true, "mbc hre [%d] err: invalid length2 %02x vs. %02x", 
-                       localMbusCommHandle->requestId, localMbusCommHandle->frame.length1, localMbusCommHandle->receivedOctet);
+                       mbusCommHandle.requestId, mbusCommHandle.frame.length1, receivedOctet);
-            localMbusCommHandle->result = MBCR_ERROR_STATE_ENGINE__LENGTH2;
+            mbusCommHandle.result = MBCR_ERROR_STATE_ENGINE__LENGTH2;
-            localMbusCommHandle->state = MBCS_ERROR;
+            mbusCommHandle.state = MBCS_ERROR;
            schAdd(handleRequestEngine, handle, 0, 0);
        } else {
-            localMbusCommHandle->frame.length2 = localMbusCommHandle->receivedOctet;
+            mbusCommHandle.frame.length2 = receivedOctet;
-            localMbusCommHandle->state = MBCS_START2;
+            mbusCommHandle.waitForOctet = true;
-            receiveNext(localMbusCommHandle);
+            mbusCommHandle.state = MBCS_START2;
        }
        break;
        case MBCS_START2:
-        if (localMbusCommHandle->receivedOctet == 0x68) {
+        if (receivedOctet == 0x68) {
-            localMbusCommHandle->frame.start2 = localMbusCommHandle->receivedOctet;
+            mbusCommHandle.frame.start2 = receivedOctet;
-            localMbusCommHandle->state = MBCS_C_FIELD;
+            mbusCommHandle.waitForOctet = true;
-            receiveNext(localMbusCommHandle);
+            mbusCommHandle.state = MBCS_C_FIELD;
        } else {
            coloredMsg(LOG_RED, true, "mbc hre [%d] err: invalid start2 symbol %02x", 
-                       localMbusCommHandle->requestId, localMbusCommHandle->receivedOctet);
+                       mbusCommHandle.requestId, receivedOctet);
-            localMbusCommHandle->result = MBCR_ERROR_STATE_ENGINE__START2;
+            mbusCommHandle.result = MBCR_ERROR_STATE_ENGINE__START2;
-            localMbusCommHandle->state = MBCS_ERROR;
+            mbusCommHandle.state = MBCS_ERROR;
            schAdd(handleRequestEngine, handle, 0, 0);
        }
        break;
        case MBCS_C_FIELD:
-        localMbusCommHandle->frame.c = localMbusCommHandle->receivedOctet;
+        mbusCommHandle.frame.c = receivedOctet;
-        calculatedChksum += localMbusCommHandle->receivedOctet;
+        calculatedChksum += receivedOctet;
-        localMbusCommHandle->state = MBCS_A_FIELD;
+        mbusCommHandle.waitForOctet = true;
-        receiveNext(localMbusCommHandle);
+        mbusCommHandle.state = MBCS_A_FIELD;
        break;
        case MBCS_A_FIELD:
-        localMbusCommHandle->frame.a = localMbusCommHandle->receivedOctet;
+        mbusCommHandle.frame.a = receivedOctet;
-        calculatedChksum += localMbusCommHandle->receivedOctet;
+        calculatedChksum += receivedOctet;
-        localMbusCommHandle->state = MBCS_CI_FIELD;
+        mbusCommHandle.waitForOctet = true;
-        receiveNext(localMbusCommHandle);
+        mbusCommHandle.state = MBCS_CI_FIELD;
        break;
        case MBCS_CI_FIELD:
-        localMbusCommHandle->frame.ci = localMbusCommHandle->receivedOctet;
+        mbusCommHandle.frame.ci = receivedOctet;
-        calculatedChksum += localMbusCommHandle->receivedOctet;
+        calculatedChksum += receivedOctet;
-        localMbusCommHandle->state = MBCS_USERDATA;
+        mbusCommHandle.waitForOctet = true;
-        receiveNext(localMbusCommHandle);
+        mbusCommHandle.state = MBCS_USERDATA;
        break;
        case MBCS_USERDATA:
-        localMbusCommHandle->frame.userdata[userdataIdx] = localMbusCommHandle->receivedOctet;
+        mbusCommHandle.frame.userdata[userdataIdx] = receivedOctet;
-        calculatedChksum += localMbusCommHandle->receivedOctet;
+        calculatedChksum += receivedOctet;
        userdataIdx++;
-        if (userdataIdx == (localMbusCommHandle->frame.length1 - 3)) {
+        mbusCommHandle.waitForOctet = true;
-            localMbusCommHandle->state = MBCS_CHKSUM;
+        if (userdataIdx == (mbusCommHandle.frame.length1 - 3)) {
            mbusCommHandle.state = MBCS_CHKSUM;
        }
        receiveNext(localMbusCommHandle);
        break;
        case MBCS_CHKSUM:
-        if (localMbusCommHandle->receivedOctet != calculatedChksum) {
+        if (receivedOctet != calculatedChksum) {
            coloredMsg(LOG_RED, true, "mbc hre [%d] err: invalid checksum %02x vs %02x", 
-                       localMbusCommHandle->requestId, calculatedChksum, localMbusCommHandle->receivedOctet);
+                       mbusCommHandle.requestId, calculatedChksum, receivedOctet);
-            localMbusCommHandle->result = MBCR_ERROR_STATE_ENGINE__INVALID_CHKSUM;
+            mbusCommHandle.result = MBCR_ERROR_STATE_ENGINE__INVALID_CHKSUM;
-            localMbusCommHandle->state = MBCS_ERROR;
+            mbusCommHandle.state = MBCS_ERROR;
            schAdd(handleRequestEngine, handle, 0, 0);
        } else {
-            localMbusCommHandle->frame.chksum = localMbusCommHandle->receivedOctet;
+            mbusCommHandle.frame.chksum = receivedOctet;
-            localMbusCommHandle->state = MBCS_STOP;
+            mbusCommHandle.waitForOctet = true;
-            receiveNext(localMbusCommHandle);
+            mbusCommHandle.state = MBCS_STOP;
        }
        break;
        case MBCS_STOP:
-        if (localMbusCommHandle->receivedOctet == 0x16) {
+        if (receivedOctet == 0x16) {
-            localMbusCommHandle->frame.stop = localMbusCommHandle->receivedOctet;
+            mbusCommHandle.frame.stop = receivedOctet;
-            localMbusCommHandle->state = MBCS_DONE;
+            mbusCommHandle.state = MBCS_DONE;
            schAdd(handleRequestEngine, handle, 0, 0);
        } else {
            coloredMsg(LOG_RED, true, "mbc hre [%d] err: invalid stop symbol %02x", 
-                       localMbusCommHandle->requestId, localMbusCommHandle->receivedOctet);
+                       mbusCommHandle.requestId, receivedOctet);
-            localMbusCommHandle->result = MBCR_ERROR_STATE_ENGINE__STOP;
+            mbusCommHandle.result = MBCR_ERROR_STATE_ENGINE__STOP;
-            localMbusCommHandle->state = MBCS_ERROR;
+            mbusCommHandle.state = MBCS_ERROR;
            schAdd(handleRequestEngine, handle, 0, 0);
        }
        break;
        case MBCS_DONE:
-        // coloredMsg(LOG_YELLOW, false, "mbc hre [%d] state DONE", localMbusCommHandle->requestId);
+        // coloredMsg(LOG_YELLOW, false, "mbc hre [%d] state DONE", mbusCommHandle.requestId);
-        parseAndPrintFrame(localMbusCommHandle);
+        parseAndPrintFrame();
-        if (localMbusCommHandle->frame.userdata != NULL) {
+        if (mbusCommHandle.frame.userdata != NULL) {
-            free(localMbusCommHandle->frame.userdata);
+            free(mbusCommHandle.frame.userdata);
-            localMbusCommHandle->frame.userdata = NULL;
+            mbusCommHandle.frame.userdata = NULL;
        }
-        localMbusCommHandle->result = MBCR_SUCCESS;
+        mbusCommHandle.result = MBCR_SUCCESS;
-        localMbusCommHandle->state = MBCS_DISABLE_FRONTEND;
+        mbusCommHandle.state = MBCS_DISABLE_FRONTEND;
        schDel(timeoutHandler, handle);
        schAdd(handleRequestEngine, handle, 0, 0);
        break;
        case MBCS_ERROR:
-        coloredMsg(LOG_RED, false, "mbc hre [%d] state ERROR", localMbusCommHandle->requestId);
+        coloredMsg(LOG_RED, false, "mbc hre [%d] state ERROR", mbusCommHandle.requestId);
        show(LED_RED, ON);
-        localMbusCommHandle->state = MBCS_ERROR_CONTINUED;
+        mbusCommHandle.state = MBCS_ERROR_CONTINUED;
        // no break
        case MBCS_ERROR_CONTINUED:
-        receiveNext(localMbusCommHandle);
+        // stay here until timeout occurs
        break;
        case MBCS_TIMEOUT:
-        coloredMsg(LOG_RED, false, "mbc hre [%d] state TIMEOUT", localMbusCommHandle->requestId);
+        coloredMsg(LOG_RED, false, "mbc hre [%d] state TIMEOUT", mbusCommHandle.requestId);
-        mbusCommStats.errorCnt += 1;
+        mbusCommStats.mbusErrorCnt += 1;
-        localMbusCommHandle->device->failures += 1;
+        mbusCommHandle.device->failures += 1;
-        printError(localMbusCommHandle);
+        mbusCommHandle.startTime = 0; // disable timeout
-        localMbusCommHandle->receiving = false;        
+        mbusCommHandle.waitForOctet = false; // disable receiver
-        if (localMbusCommHandle->frame.userdata != NULL) {
+        printError();
-            free(localMbusCommHandle->frame.userdata);
+        if (mbusCommHandle.frame.userdata != NULL) {
-            localMbusCommHandle->frame.userdata = NULL;
+            free(mbusCommHandle.frame.userdata);
            mbusCommHandle.frame.userdata = NULL;
        }
        HAL_UART_AbortReceive(&mbusUart);
        uint8_t kitchenSink[16];
        memset(kitchenSink, 0, 16);
        HAL_StatusTypeDef r = HAL_UART_Receive(&mbusUart, kitchenSink, 16, 100);
        coloredMsg(LOG_RED, false, "mbc hre [%d] abort, last receive result: %02x", localMbusCommHandle->requestId, r);
        // no break
        case MBCS_DISABLE_FRONTEND:
-        // coloredMsg(LOG_YELLOW, false, "mbc hre [%d] state DISABLE_FRONTEND", localMbusCommHandle->requestId);
+        // coloredMsg(LOG_YELLOW, false, "mbc hre [%d] state DISABLE_FRONTEND", mbusCommHandle.requestId);
        frontendDisable();
-        localMbusCommHandle->state = MBCS_IDLE;
+        mbusCommHandle.startTime = 0; // disable timeout
        mbusCommHandle.state = MBCS_IDLE;
        break;
        default:
-        localMbusCommHandle->state = MBCS_IDLE;
+        mbusCommHandle.state = MBCS_IDLE;
        break;
    }
 }
 void mbusCommTxCpltCallback(UART_HandleTypeDef *huart) {
    schAdd(handleRequestEngine, (void*) &mbusCommHandle, 0, 0);
 }
 void mbusCommRxCpltCallback(UART_HandleTypeDef *huart) {
    if (mbusCommHandle.receiving) {
        schAdd(handleRequestEngine, (void*) &mbusCommHandle, 0, 0);
        mbusCommHandle.receiving = false;
    }
 }
 void mbusCommEnable(bool enable) {
    mbusCommEnabled = enable;
 }
@ -514,19 +533,14 @@ static e_mbusCommRequestResult mbusCommRequest(t_mbusDevice *mbusDevice) {
            mbusCommHandle.device = mbusDevice;
            mbusDevice->requests += 1;
-            coloredMsg(LOG_YELLOW, true, "mbc mcr [%d] new request %s R:%d F:%d GRC:%d GEC:%d", 
+            coloredMsg(LOG_YELLOW, true, "mbc mcr [%d] new request %s", 
                    mbusCommHandle.requestId,
-                    mbusDevice->deviceName, 
+                    mbusDevice->deviceName);
                    mbusDevice->requests, 
                    mbusDevice->failures, 
                    mbusCommStats.requestCnt,
                    mbusCommStats.errorCnt);
            oledPrint(OLED_SCREEN0, mbusDevice->deviceName);
            schAdd(handleRequestEngine, (void*) &mbusCommHandle, 0, 0);
            res = MBCRR_TRIGGERED;   
-            mbusCommStats.requestCnt += 1;
+            mbusCommStats.mbusRequestCnt += 1;
        }
    } else {
        res = MBCRR_DISABLED;
@ -536,6 +550,8 @@ static e_mbusCommRequestResult mbusCommRequest(t_mbusDevice *mbusDevice) {
 }
 #define PERIOD 10
 static uint8_t numOfDevices = 8;
 static t_mbusDevice devices[] = {
    {
@ -544,7 +560,7 @@ static t_mbusDevice devices[] = {
        .consideredField = { 0, 17, -1, -1 },
        .requests = 0,
        .failures = 0,
-        .period = 60,
+        .period = PERIOD,
        .delay = 0,
        .waiting = false
    },
@ -554,7 +570,7 @@ static t_mbusDevice devices[] = {
        .consideredField = { 0, 4, 2, 3 },
        .requests = 0,
        .failures = 0,
-        .period = 60,
+        .period = PERIOD,
        .delay = 0,
        .waiting = false
    },
@ -564,7 +580,7 @@ static t_mbusDevice devices[] = {
        .consideredField = { 0, 4, 2, 3 },
        .requests = 0,
        .failures = 0,
-        .period = 60,
+        .period = PERIOD,
        .delay = 0,
        .waiting = false
    },
@ -574,7 +590,7 @@ static t_mbusDevice devices[] = {
        .consideredField = { 0, 4, 2, 3 },
        .requests = 0,
        .failures = 0,
-        .period = 60,
+        .period = PERIOD,
        .delay = 0,
        .waiting = false
    },
@ -584,7 +600,7 @@ static t_mbusDevice devices[] = {
        .consideredField = { 0, 4, 2, 3 },
        .requests = 0,
        .failures = 0,
-        .period = 60,
+        .period = PERIOD,
        .delay = 0,
        .waiting = false
    },
@ -594,7 +610,7 @@ static t_mbusDevice devices[] = {
        .consideredField = { 0, 4, 2, 3 },
        .requests = 0,
        .failures = 0,
-        .period = 15,
+        .period = PERIOD,
        .delay = 0,
        .waiting = false
    },
@ -604,7 +620,7 @@ static t_mbusDevice devices[] = {
        .consideredField = { 0, 4, 2, 3 },
        .requests = 0,
        .failures = 0,
-        .period = 60,
+        .period = PERIOD,
        .delay = 0,
        .waiting = false
    },
@ -614,7 +630,7 @@ static t_mbusDevice devices[] = {
        .consideredField = { 0, 4, 2, 3 },
        .requests = 0,
        .failures = 0,
-        .period = 60,
+        .period = PERIOD,
        .delay = 0,
        .waiting = false
    }
@ -680,11 +696,40 @@ static void mbusCommScheduler(void *handle) {
                    coloredMsg(LOG_YELLOW, false, "mbc mcs scheduled: %s", devices[i].deviceName);
                }
            }
            // FIXME 
            // state = 3;
            break;
        case 3:
            coloredMsg(LOG_YELLOW, false, "mbc mcs waiting for godot");
            state = 4;
            // no break
        case 4:
            break;
    }
 }
 void mbusCommInit() {
    coloredMsg(LOG_GREEN, true, "mbc mci initializing Meterbus communication");
    // enable receive interrupts
    __HAL_UART_ENABLE_IT(&mbusUart, UART_IT_PE);
    __HAL_UART_ENABLE_IT(&mbusUart, UART_IT_ERR);
    __HAL_UART_ENABLE_IT(&mbusUart, UART_IT_RXNE);
    mbusCommHandle.receiveBuffer.size = 256;
    mbusCommHandle.receiveBuffer.buffer = (uint8_t*) malloc(mbusCommHandle.receiveBuffer.size);
    mbusCommHandle.receiveBuffer.readIdx = 0;
    mbusCommHandle.receiveBuffer.writeIdx = 0;
    mbusCommHandle.sendBuffer.size = 8;
    mbusCommHandle.sendBuffer.buffer = (uint8_t*) malloc(mbusCommHandle.sendBuffer.size);
    mbusCommHandle.sendBuffer.readIdx = 0;
    mbusCommHandle.sendBuffer.writeIdx = 0;
    // FIXME
    schAdd(mbusCommScheduler, NULL, 0, 1000);
 }
--- a/cube/User/Src/mqttComm.c
+++ b/cube/User/Src/mqttComm.c
@ -56,10 +56,11 @@ static void mqttStatusPublisher(void *handle) {
    t_mbusCommStats *mbusCommStats = mbusCommGetStats();
    t_deviceStats* globalDeviceStats = getGlobalDeviceStats();
-    char buf[128];
+    char buf[256];
    uint32_t uptime = HAL_GetTick() / 1000;
-    snprintf(buf, sizeof(buf), "{\"uptime\":\"%ld\", \"runningHours\":\"%ld\", \"powerCycles\":\"%ld\", \"tasks\":\"%d\", \"requests\":\"%ld\", \"errors\":\"%ld\"}", 
+    snprintf(buf, sizeof(buf), "{\"uptime\":\"%ld\", \"runningHours\":\"%ld\", \"powerCycles\":\"%ld\", \"tasks\":\"%d\", \"requests\":\"%ld\", \"errors\":\"%ld\", \"overrun\":\"%ld\", \"framing\":\"%ld\", \"parity\":\"%ld\"}", 
-            uptime, globalDeviceStats->totalRunningHours, globalDeviceStats->totalPowercycles, schTaskCnt(), mbusCommStats->requestCnt, mbusCommStats->errorCnt);
+            uptime, globalDeviceStats->totalRunningHours, globalDeviceStats->totalPowercycles, schTaskCnt(), mbusCommStats->mbusRequestCnt, mbusCommStats->mbusErrorCnt, 
            mbusCommStats->uartOverrunCnt, mbusCommStats->uartFramingErrCnt, mbusCommStats->uartParityErrCnt);
    bool res = publish(&mqttClient, StatusTopic, (const uint8_t*)buf, strlen(buf), false);
    coloredMsg(LOG_GREEN, false, "mqch, publish returned %d", res);
@ -69,11 +70,10 @@ static void mqttStatusPublisher(void *handle) {
    oledPrintf(OLED_SCREEN1, "Addr:%d.%d.%d.%d", addr[0], addr[1], addr[2], addr[3]);
    oledPrintf(OLED_SCREEN1, "Network available:%d", isNetworkAvailable());
    oledPrintf(OLED_SCREEN1, "Uptime:%ld", uptime);
    oledPrintf(OLED_SCREEN1, "RunHours:%d", globalDeviceStats->totalRunningHours);
    oledPrintf(OLED_SCREEN1, "PowerCycl:%d", globalDeviceStats->totalPowercycles);
-    oledPrintf(OLED_SCREEN1, "Req:%ld", mbusCommStats->requestCnt);
+    oledPrintf(OLED_SCREEN1, "Req:%ld", mbusCommStats->mbusRequestCnt);
-    oledPrintf(OLED_SCREEN1, "Err:%ld", mbusCommStats->errorCnt);
+    oledPrintf(OLED_SCREEN1, "Err:%ld", mbusCommStats->mbusErrorCnt);
-
+    oledPrintf(OLED_SCREEN1, "Uart:%d", mbusCommStats->uartOverrunCnt + mbusCommStats->uartFramingErrCnt + mbusCommStats->uartParityErrCnt);
 }
 void mqttCommHandler(void *handle) {
--- a/cube/User/Src/ringbuffer.c
+++ b/cube/User/Src/ringbuffer.c
@ -19,6 +19,7 @@ void ringbufferFree(ringbuffer_t *handle) {
    handle->bufferWriteIdx = 0;    
 }
 int ringbufferPut(ringbuffer_t *handle, uint8_t *data, uint32_t dataLen) {
    uint32_t freeSpace = 0;
    if (handle->bufferReadIdx == handle->bufferWriteIdx) {
@ -61,7 +62,7 @@ uint8_t *ringbufferGet(ringbuffer_t *handle, uint32_t dataLen) {
 int ringbufferGetOne(ringbuffer_t *handle) {
    int res = -1;
-    if (! ringbufferEmpty(handle)) {
+    if (handle->bufferReadIdx != handle->bufferWriteIdx) {
        uint8_t r = *(handle->buffer + handle->bufferReadIdx);
        handle->bufferReadIdx += 1;
        if (handle->bufferReadIdx == handle->bufferSize) {
--- a/tests/Makefile
+++ b/tests/Makefile
@ -1,6 +1,6 @@
 CFLAGS=-I../cube/User/Inc -DTEST
-test:	ringbuffer.o logger.o test.o
+test:	ringbuffer.o  test.o
 	gcc -o $@ -lcunit $^
 ringbuffer.o: ../cube/User/Src/ringbuffer.c
--- a/tests/test.c
+++ b/tests/test.c
@ -2,7 +2,7 @@
 #include <stdio.h>
 #include <stdbool.h>
 #include <ringbuffer.h>
-#include <logger.h>
+//#include <logger.h>
 // #define DEBUG
@ -10,6 +10,7 @@
 ringbuffer_t rb;
 void printRingbuffer(ringbuffer_t *rb) {
    printf("Ringbuffer:\n");
    printf("  Size:     %u\n", rb->bufferSize);
@ -817,8 +818,75 @@ void testRingbuffer99() {
 }
 void testRingbuffer100() {
 #ifdef DEBUG    
    printf("Initialize ringbuffer\n");
 #endif
    ringbufferInit(&rb, 16);
 #ifdef DEBUG
    printRingbuffer(&rb);
 #endif
    CU_ASSERT(rb.buffer != NULL);
    CU_ASSERT(rb.bufferSize == 16);
    CU_ASSERT(rb.bufferWriteIdx == 0);
    CU_ASSERT(rb.bufferReadIdx == 0);
    CU_ASSERT(rb.buffer[0] == 0);
    CU_ASSERT(rb.buffer[1] == 0);
    CU_ASSERT(rb.buffer[2] == 0);
    CU_ASSERT(rb.buffer[3] == 0);
    CU_ASSERT(rb.buffer[4] == 0);
    CU_ASSERT(rb.buffer[5] == 0);
    CU_ASSERT(rb.buffer[6] == 0);
    CU_ASSERT(rb.buffer[7] == 0);
    CU_ASSERT(rb.buffer[8] == 0);
    CU_ASSERT(rb.buffer[9] == 0);
    CU_ASSERT(rb.buffer[10] == 0);
    CU_ASSERT(rb.buffer[11] == 0);
    CU_ASSERT(rb.buffer[12] == 0);
    CU_ASSERT(rb.buffer[13] == 0);
    CU_ASSERT(rb.buffer[14] == 0);
    CU_ASSERT(rb.buffer[15] == 0);
 }
 void testRingbuffer101() {
 #ifdef DEBUG
    printf("\nPut 1 chars in buffer\n");
 #endif
    int r = ringbufferPutOne(&rb, 'a');
 #ifdef DEBUG
    printf("r = %d\n", r);
    printRingbuffer(&rb);
 #endif
    CU_ASSERT(r == 0);
    CU_ASSERT(rb.buffer != NULL);
    CU_ASSERT(rb.bufferSize == 16);
    CU_ASSERT(rb.bufferWriteIdx == 1);
    CU_ASSERT(rb.bufferReadIdx == 0);
    CU_ASSERT(rb.buffer[0] == 'a');
    CU_ASSERT(rb.buffer[1] == 0);
    CU_ASSERT(rb.buffer[2] == 0);
    CU_ASSERT(rb.buffer[3] == 0);
    CU_ASSERT(rb.buffer[4] == 0);
    CU_ASSERT(rb.buffer[5] == 0);
    CU_ASSERT(rb.buffer[6] == 0);
    CU_ASSERT(rb.buffer[7] == 0);
    CU_ASSERT(rb.buffer[8] == 0);
    CU_ASSERT(rb.buffer[9] == 0);
    CU_ASSERT(rb.buffer[10] == 0);
    CU_ASSERT(rb.buffer[11] == 0);
    CU_ASSERT(rb.buffer[12] == 0);
    CU_ASSERT(rb.buffer[13] == 0);
    CU_ASSERT(rb.buffer[14] == 0);
    CU_ASSERT(rb.buffer[15] == 0);
 }
 /*
 int init_suite_logger(void) {
    logInit();
    return 0;
@ -949,7 +1017,7 @@ void testLogger2() {
    CU_ASSERT(strcmp(goldValueFullNotOk, buffer) != 0);
    CU_ASSERT(strcmp(goldValueFullOk, buffer) == 0);
 }
-
+*/
 int main() {
@ -980,11 +1048,14 @@ int main() {
        (NULL == CU_add_test(ringbufferSuite, "test 14 of ringbuffer", testRingbuffer15)) ||
        (NULL == CU_add_test(ringbufferSuite, "test 14 of ringbuffer", testRingbuffer16)) ||
        (NULL == CU_add_test(ringbufferSuite, "test 99 of ringbuffer, free", testRingbuffer99)) ||
        (NULL == CU_add_test(ringbufferSuite, "test 100 of ringbuffer, free", testRingbuffer100)) ||
        (NULL == CU_add_test(ringbufferSuite, "test 101 of ringbuffer, free", testRingbuffer101)) ||
        0 ) {
        CU_cleanup_registry();
        return CU_get_error();
    }
 /*
    CU_pSuite loggerSuite = CU_add_suite("Suite_Logger", init_suite_logger, clean_suite_logger);
    if (NULL == loggerSuite) {
        CU_cleanup_registry();
@ -999,7 +1070,7 @@ int main() {
        CU_cleanup_registry();
        return CU_get_error();
    }
-
+*/
    CU_basic_set_mode(CU_BRM_VERBOSE);
    CU_basic_run_tests();
Author	SHA1	Message	Date
Wolfgang Hottgenroth	c14d4fe892	working now?	2020-11-25 10:08:20 +01:00
Wolfgang Hottgenroth	edf1942ad3	working now?	2020-11-25 10:02:38 +01:00
Wolfgang Hottgenroth	7c63579390	debug	2020-11-25 09:16:00 +01:00
Wolfgang Hottgenroth	d171dced70	debug	2020-11-25 08:58:59 +01:00
Wolfgang Hottgenroth	b15321d774	changes	2020-11-25 08:55:54 +01:00
Wolfgang Hottgenroth	a05598d89a	works better now	2020-11-24 22:57:33 +01:00
Wolfgang Hottgenroth	950c7b07d2	not yet working correctly again	2020-11-24 22:43:02 +01:00
Wolfgang Hottgenroth	d5c568a63c	refactoring meterbus	2020-11-24 19:38:52 +01:00
Wolfgang Hottgenroth	14bf178664	refactoring meterbus	2020-11-24 19:36:47 +01:00
Wolfgang Hottgenroth	bdba2a79cd	refactoring meterbus	2020-11-24 15:03:09 +01:00
Wolfgang Hottgenroth	53ccd32a0c	refactoring meterbus	2020-11-24 15:00:56 +01:00
Wolfgang Hottgenroth	f88a4984be	refactoring meterbus	2020-11-24 15:00:36 +01:00
Wolfgang Hottgenroth	9198753e4b	refactoring meterbus	2020-11-24 14:54:57 +01:00
Wolfgang Hottgenroth	6d3b3e12ca	refactoring meterbus	2020-11-24 14:51:05 +01:00
Wolfgang Hottgenroth	ae9c397e85	refactoring meterbus	2020-11-24 14:50:20 +01:00
Wolfgang Hottgenroth	a9b71f481a	refactoring meterbus	2020-11-24 14:47:21 +01:00
Wolfgang Hottgenroth	0397d61e56	refactoring meterbus	2020-11-24 14:31:37 +01:00
Wolfgang Hottgenroth	a1c602a021	refactoring meterbus	2020-11-24 14:21:05 +01:00
Wolfgang Hottgenroth	d2c4efc8db	refactoring meterbus	2020-11-24 14:19:12 +01:00
Wolfgang Hottgenroth	f37361b659	changes	2020-11-24 14:13:51 +01:00
Wolfgang Hottgenroth	7a088f19f2	refactoring meterbus	2020-11-24 13:50:06 +01:00
Wolfgang Hottgenroth	eb47d41e5a	refactoring meterbus	2020-11-24 13:48:19 +01:00
Wolfgang Hottgenroth	7d816f6ed0	refactoring meterbus	2020-11-24 13:46:51 +01:00
Wolfgang Hottgenroth	89edf7f7bb	refactoring meterbus	2020-11-24 13:42:26 +01:00
Wolfgang Hottgenroth	5cae5a1de3	refactoring meterbus	2020-11-24 13:18:18 +01:00
Wolfgang Hottgenroth	c1949f4cd3	start refactoring 2	2020-11-23 22:23:53 +01:00
Wolfgang Hottgenroth	491a60f515	start refactoring	2020-11-23 19:30:57 +01:00
Wolfgang Hottgenroth	b8513b2112	additional debug output	2020-11-23 19:14:22 +01:00
Wolfgang Hottgenroth	04405d1b84	faster requests	2020-11-23 18:50:03 +01:00
Wolfgang Hottgenroth	3dd954d379	log all meterbus uart errors	2020-11-22 22:59:41 +01:00
Wolfgang Hottgenroth	bd435dd5d6	overrun error in meterbus uart handled	2020-11-22 21:23:52 +01:00
Wolfgang Hottgenroth	3fd30aaa36	debug failing receive process	2020-11-21 18:23:16 +01:00
Wolfgang Hottgenroth	eea6b7de3b	meterbus debug	2020-11-20 22:05:46 +01:00
Wolfgang Hottgenroth	1408c4942c	spi settings for display	2020-11-20 17:25:17 +01:00