ostc4: Small_CPU/Src/uart.c comparison

comparison Small_CPU/Src/uart.c @ 742:e23fe82cbf8c

Update Sentinel protocol: The Sentinel protocol is now supported by autodetection. Added Autodetection indicator: In the previous version no indicator showed that an auto detection is running. A new pseudo sensor type has been introduced which now causes the auto detection string to be displayed while the detection is running in the background.

author	Ideenmodellierer
date	Sun, 19 Feb 2023 21:43:24 +0100
parents	2a801cfe23ab
children	df0d43da1614

comparison

equal deleted inserted replaced

-:6a35e2e97bfb
+:e23fe82cbf8c
 static uint8_t rxReadIndex;								/* Index at which new data is stared */
 static uint8_t lastCmdIndex;							/* Index of last command which has not been completly received */
 static uint8_t dmaActive;								/* Indicator if DMA reception needs to be started */
 static uint8_t digO2Connected = 0;						/* Binary indicator if a sensor is connected or not */
 static uint8_t CO2Connected = 0;						/* Binary indicator if a sensor is connected or not */
+static uint8_t SentinelConnected = 0;					/* Binary indicator if a sensor is connected or not */
 static uint8_t ppO2TargetChannel = 0;					/* The OSTC4 supports three slots for visualization of the ppo2. This one is reserved for the digital sensor */
 static SSensorDataDiveO2 sensorDataDiveO2;		/* intermediate storage for additional sensor data */
 char tmpRxBuf[30];
 lastCmdIndex = 0;
 rxWriteIndex = 0;
 dmaActive = 0;
 digO2Connected = 0;
 CO2Connected = 0;
+SentinelConnected = 0;
 Comstatus_O2 = UART_O2_INIT;
 }
 void MX_USART1_UART_DeInit(void)
 {
 		str[digitCnt--]= digit;
 		worker = worker / 16;
 	}
 }
+void UART_StartDMA_Receiption()
+{
+	if(HAL_OK == HAL_UART_Receive_DMA (&huart1, &rxBuffer[rxWriteIndex], CHUNK_SIZE))
+	{
+		dmaActive = 1;
+	}
+}
 #ifdef ENABLE_CO2_SUPPORT
 void UART_HandleCO2Data(void)
 {
 	uint8_t localRX = rxReadIndex;
 			if(rxState != RX_Data0)	/* reset state machine because message in wrong format */
 			{
 				rxState = RX_Ready;
 			}
 		}
+		rxBuffer[localRX] = 0;
 		localRX++;
 		rxReadIndex++;
 		if(rxReadIndex >= CHUNK_SIZE * CHUNKS_PER_BUFFER)
 		{
 			localRX = 0;
 		CO2Connected = 0;
 	}
 	if((dmaActive == 0)	&& (externalInterface_isEnabledPower33()))	/* Should never happen in normal operation => restart in case of communication error */
 	{
-		if(HAL_OK == HAL_UART_Receive_DMA (&huart1, &rxBuffer[rxWriteIndex], CHUNK_SIZE))
+		UART_StartDMA_Receiption();
-		{
-			dmaActive = 1;
-		}
 	}
 }
 #endif
 #ifdef ENABLE_SENTINEL_MODE
 	static receiveState_t rxState = RX_Ready;
 	static uint32_t lastReceiveTick = 0;
 	static uint8_t lastAlive = 0;
 	static uint8_t curAlive = 0;
 	static uint8_t checksum = 0;
-	char checksum_str[]="00";
+	static char checksum_str[]="00";
-	while(localRX != rxWriteIndex)
+	while((rxBuffer[localRX]!=0))
 	{
 		lastReceiveTick = HAL_GetTick();
 		switch(rxState)
 		{
 			case RX_DataComplete:	if(rxBuffer[localRX] == checksum_str[1])
 									{
 										setExternalInterfaceChannel(0,(float)(dataValue[0] / 10.0));
 										setExternalInterfaceChannel(1,(float)(dataValue[1] / 10.0));
 										setExternalInterfaceChannel(2,(float)(dataValue[2] / 10.0));
+										SentinelConnected = 1;
 									}
 									rxState = RX_Ready;
 				break;
 			default:				rxState = RX_Ready;
 				break;
 		}
 		localRX++;
 		rxReadIndex++;
 		if(rxReadIndex >= CHUNK_SIZE * CHUNKS_PER_BUFFER)
 		{
 			localRX = 0;
 		if(curAlive == lastAlive)
 		{
 			setExternalInterfaceChannel(0,0.0);
 			setExternalInterfaceChannel(1,0.0);
 			setExternalInterfaceChannel(2,0.0);
+			SentinelConnected = 0;
 		}
 		lastAlive = curAlive;
 	}
 	if((dmaActive == 0)	&& (externalInterface_isEnabledPower33()))	/* Should never happen in normal operation => restart in case of communication error */
 	{
-		if(HAL_OK == HAL_UART_Receive_DMA (&huart1, &rxBuffer[rxWriteIndex], CHUNK_SIZE))
+		UART_StartDMA_Receiption();
-		{
-			dmaActive = 1;
-		}
 	}
 }
 #endif
 		rxState = O2RX_CONFIRM;
 		cmdReadIndex = 0;
 		lastO2ReqTick = tick;
-		if(HAL_OK == HAL_UART_Receive_DMA (&huart1, &rxBuffer[rxWriteIndex], CHUNK_SIZE))
+		UART_StartDMA_Receiption();
-		{
-			dmaActive = 1;
-		}
 	}
 	if(time_elapsed_ms(lastO2ReqTick,tick) > 1000)		/* repeat request once per second */
 	{
 		lastO2ReqTick = tick;
 		if(Comstatus_O2 == UART_O2_IDLE)				/* cyclic request of o2 value */
 		{
 			setExternalInterfaceChannel(ppO2TargetChannel,0.0);
 		}
 		lastAlive = curAlive;
 	}
 	if((dmaActive == 0)	&& (externalInterface_isEnabledPower33()))	/* Should never happen in normal operation => restart in case of communication error */
 	{
-		if(HAL_OK == HAL_UART_Receive_DMA (&huart1, &rxBuffer[rxWriteIndex], CHUNK_SIZE))
+		UART_StartDMA_Receiption();
-		{
-			dmaActive = 1;
-		}
 	}
 }
 uint8_t UART_isDigO2Connected()
 {
 }
 uint8_t UART_isCO2Connected()
 {
 	return CO2Connected;
 }
+uint8_t UART_isSentinelConnected()
+{
+	return SentinelConnected;
+}
 void UART_setTargetChannel(uint8_t channel)
 {
 		ppO2TargetChannel = channel;
 }
 	if((rxWriteIndex / CHUNK_SIZE) != (rxReadIndex / CHUNK_SIZE))	/* start next transfer if we did not catch up with read index */
 	{
 		if(externalInterface_isEnabledPower33())
 		{
 			memset((char*)&rxBuffer[rxWriteIndex],(int)0,CHUNK_SIZE);
-				if(HAL_OK == HAL_UART_Receive_DMA (&huart1, &rxBuffer[rxWriteIndex], CHUNK_SIZE))
+				UART_StartDMA_Receiption();
-				{
-					dmaActive = 1;
-				}
 		}
 	}
 }
 }

Mercurial > public > ostc4

comparison Small_CPU/Src/uart.c @ 742:e23fe82cbf8c