ostc4: Small_CPU/Src/externalInterface.c comparison

comparison Small_CPU/Src/externalInterface.c @ 798:e9eba334b942

Migrated CO2 protocol implementation to new format: The previous implementation was a monolithic protocol implementation which was not usable together with the multiplexer. The new implementation moves the CO2 implementation into a separate C file and decoubles the upper layer external interface, which is not able to handle DiveO2 and CO2 sensors in parallel without restriction to port assignments.

author	Ideenmodellierer
date	Mon, 07 Aug 2023 20:29:44 +0200
parents	bb37d4f3e50e
children	391b3d420a39

comparison

equal deleted inserted replaced

-:acf6614dc396
+:e9eba334b942
 #include "scheduler.h"
 #include "uart.h"
 #include "data_exchange.h"
 #include "pressure.h"
 #include "uartProtocol_O2.h"
+#include "uartProtocol_Co2.h"
 extern SGlobal global;
 extern UART_HandleTypeDef huart1;
 #define ADC_ANSWER_LENGTH	(5u)		/* 3424 will provide addr + 4 data bytes */
 	for(index = 0; index < MAX_ADC_CHANNEL; index++)
 	{
 		externalChannel_mV[index] = 0.0;
 	}
-	memset(externalInterface_SensorState,UART_O2_INIT,sizeof(externalInterface_SensorState));
+	memset(externalInterface_SensorState,UART_COMMON_INIT,sizeof(externalInterface_SensorState));
 }
 uint8_t externalInterface_StartConversion(uint8_t channel)
 {
 		case 0:
 		case (EXT_INTERFACE_UART_CO2 >> 8):
 		case (EXT_INTERFACE_UART_O2 >> 8):
 		case (EXT_INTERFACE_UART_SENTINEL >> 8):
 				if((externalAutoDetect <= DETECTION_START)
-															|| ((protocol == EXT_INTERFACE_UART_O2 >> 8) && (externalAutoDetect == DETECTION_DIGO2_0))
+					|| ((protocol == EXT_INTERFACE_UART_O2 >> 8) && (externalAutoDetect >= DETECTION_UARTMUX) && (externalAutoDetect <= DETECTION_DIGO2_3))
-															|| ((protocol == EXT_INTERFACE_UART_O2 >> 8) && (externalAutoDetect == DETECTION_DIGO2_1))
-															|| ((protocol == EXT_INTERFACE_UART_O2 >> 8) && (externalAutoDetect == DETECTION_DIGO2_2))
-															|| ((protocol == EXT_INTERFACE_UART_O2 >> 8) && (externalAutoDetect == DETECTION_DIGO2_3))
-															|| ((protocol == EXT_INTERFACE_UART_O2 >> 8) && (externalAutoDetect == DETECTION_UARTMUX))
 #ifdef ENABLE_CO2_SUPPORT
-															|| ((protocol == EXT_INTERFACE_UART_CO2 >> 8) && (externalAutoDetect == DETECTION_CO2))
+					|| ((externalAutoDetect >= DETECTION_CO2_0) && (externalAutoDetect <= DETECTION_CO2_3))
 #endif
 #ifdef ENABLE_SENTINEL_MODE
 														   || ((protocol == EXT_INTERFACE_UART_SENTINEL >> 8) && (externalAutoDetect == DETECTION_SENTINEL))
 #endif
 					)
 	static uint8_t uartMuxChannel = 0;
 	uint8_t index = 0;
 	uint8_t index2 = 0;
 	uint8_t cntSensor = 0;
 	uint8_t cntUARTSensor = 0;
+#ifdef ENABLE_CO2_SUPPORT
 	uint8_t cmdString[10];
 	uint8_t cmdLength = 0;
+#endif
 	if(externalAutoDetect != DETECTION_OFF)
 	{
 		switch(externalAutoDetect)
 		{
 									tmpSensorMap[2] = SENSOR_OPTIC;
 									tmpSensorMap[3] = SENSOR_NONE;
 									tmpSensorMap[4] = SENSOR_NONE;
 									memset(foundSensorMap, SENSOR_NONE, sizeof(foundSensorMap));
-									memset(externalInterface_SensorState,UART_O2_INIT,sizeof(externalInterface_SensorState));
+									memset(externalInterface_SensorState,UART_COMMON_INIT,sizeof(externalInterface_SensorState));
 									memset(Mux2ADCMap,0, sizeof(Mux2ADCMap));
 									if(externalInterfacePresent)
 									{
 										externalInterface_SwitchPower33(0);
 										else
 										{
 											tmpSensorMap[EXT_INTERFACE_SENSOR_CNT-1] = SENSOR_NONE;
 										}
 										externalAutoDetect = DETECTION_DIGO2_0;
-										externalInterface_SwitchUART(EXT_INTERFACE_UART_O2 >> 8);
 										UART_MUX_SelectAddress(0);
 										uartO2_SetChannel(0);
 										activeUartChannel = 0;
 										tmpSensorMap[EXT_INTERFACE_MUX_OFFSET] = SENSOR_DIGO2;
-										externalInterface_SensorState[EXT_INTERFACE_MUX_OFFSET] = UART_O2_INIT;
+										externalInterface_SensorState[EXT_INTERFACE_MUX_OFFSET] = UART_COMMON_INIT;
 										externalInterface_SwitchUART(EXT_INTERFACE_UART_O2 >> 8);
 				break;
 			case DETECTION_DIGO2_0:
 			case DETECTION_DIGO2_1:
 			case DETECTION_DIGO2_2:
 									if(uartMuxChannel)
 									{
 										externalInterface_SwitchUART(EXT_INTERFACE_UART_O2 >> 8);
 										UART_MUX_SelectAddress(uartMuxChannel);
-										externalInterface_SensorState[uartMuxChannel + EXT_INTERFACE_MUX_OFFSET] = UART_O2_INIT;
+										externalInterface_SensorState[uartMuxChannel + EXT_INTERFACE_MUX_OFFSET] = UART_COMMON_INIT;
 										uartO2_SetChannel(uartMuxChannel);
 										activeUartChannel = uartMuxChannel;
 										tmpSensorMap[uartMuxChannel - 1 + EXT_INTERFACE_MUX_OFFSET] = SENSOR_NONE;
 										tmpSensorMap[uartMuxChannel + EXT_INTERFACE_MUX_OFFSET] = SENSOR_DIGO2;
 									{
 										externalAutoDetect = DETECTION_DIGO2_3; /* skip detection of other serial sensors */
 									}
 									externalAutoDetect++;
 #ifdef ENABLE_CO2_SUPPORT
-									if(externalAutoDetect == DETECTION_CO2)
+									if(externalAutoDetect == DETECTION_CO2_0)
 									{
+										UART_MUX_SelectAddress(0);
+										activeUartChannel = 0;
+										tmpSensorMap[uartMuxChannel - 1 + EXT_INTERFACE_MUX_OFFSET] = SENSOR_NONE;
+										uartMuxChannel = 1;
+										tmpSensorMap[EXT_INTERFACE_MUX_OFFSET] = SENSOR_CO2;
+										externalInterface_SensorState[EXT_INTERFACE_MUX_OFFSET] = UART_COMMON_INIT;
 										externalInterface_SwitchUART(EXT_INTERFACE_UART_CO2 >> 8);
 										if(tmpSensorMap[EXT_INTERFACE_SENSOR_CNT-1] == SENSOR_MUX)		/* switch sensor operation mode depending on HW config */
 										{
-											DigitalCO2_SendCmd(CO2CMD_MODE_POLL, cmdString, &cmdLength);
+											uartCo2_SendCmd(CO2CMD_MODE_POLL, cmdString, &cmdLength);
 										}
 										else
 										{
-											DigitalCO2_SendCmd(CO2CMD_MODE_STREAM, cmdString, &cmdLength);
+											uartCo2_SendCmd(CO2CMD_MODE_STREAM, cmdString, &cmdLength);
 										}
 									}
 				break;
-			case DETECTION_CO2:		if(UART_isCO2Connected())
+			case DETECTION_CO2_0:
-									{
+			case DETECTION_CO2_1:
-										for(index = 0; index < 3; index++)	/* lookup a channel which may be used by CO2*/
+			case DETECTION_CO2_2:
-										{
+			case DETECTION_CO2_3:	if(uartCo2_isSensorConnected())
-											if(tmpSensorMap[index] == SENSOR_NONE)
+									{
-											{
+										foundSensorMap[EXT_INTERFACE_MUX_OFFSET + activeUartChannel] = SENSOR_CO2;
-												break;
+										externalAutoDetect = DETECTION_DONE;	/* only one CO2 sensor supported */
-											}
+									}
-										}
+									else if(foundSensorMap[EXT_INTERFACE_SENSOR_CNT-1] == SENSOR_MUX)
-										if(index == 3)
+									{
-										{
+										externalInterface_SwitchUART(EXT_INTERFACE_UART_O2 >> 8);
-											tmpSensorMap[sensorIndex++] = SENSOR_CO2;  /* place Co2 sensor behind O2 sensors (not visible) */
+										UART_MUX_SelectAddress(uartMuxChannel);
-										}
+										activeUartChannel = uartMuxChannel;
-										else
+										tmpSensorMap[uartMuxChannel - 1 + EXT_INTERFACE_MUX_OFFSET] = SENSOR_NONE;
-										{
+										tmpSensorMap[EXT_INTERFACE_MUX_OFFSET + uartMuxChannel] = SENSOR_CO2;
-											tmpSensorMap[index] = SENSOR_CO2;
+										externalInterface_SensorState[EXT_INTERFACE_MUX_OFFSET + uartMuxChannel] = UART_COMMON_INIT;
-										}
+										externalInterface_SwitchUART(EXT_INTERFACE_UART_CO2 >> 8);
+										uartCo2_SendCmd(CO2CMD_MODE_POLL, cmdString, &cmdLength);
-									}
+										externalAutoDetect++;
-									externalAutoDetect++;
+										uartMuxChannel++;
+									}
+									else
+									{
+										externalAutoDetect = DETECTION_DONE;
+									}
 #endif
 #ifdef ENABLE_SENTINEL_MODE
 									if(externalAutoDetect == DETECTION_SENTINEL)
 									{
 										externalInterface_SwitchUART(EXT_INTERFACE_UART_SENTINEL >> 8);
 									activeUartChannel = 0xFF;
 									cntSensor = 0;
 									cntUARTSensor = 0;
 									for(index = 0; index < EXT_INTERFACE_SENSOR_CNT-1; index++)
 									{
-										if((foundSensorMap[index] >= SENSOR_ANALOG) && (foundSensorMap[index] < SENSOR_TYPE_O2_END))
+										if((foundSensorMap[index] >= SENSOR_ANALOG) && (foundSensorMap[index] < SENSOR_MUX))
 										{
 											cntSensor++;
 										}
 										if((foundSensorMap[index] == SENSOR_DIGO2) || (foundSensorMap[index] == SENSOR_CO2))
 													break;
 												}
 											}
 										}
 									}
+									for(index = 0; index < EXT_INTERFACE_SENSOR_CNT-1; index++)
+									{
+										if(foundSensorMap[index] == SENSOR_CO2)
+										{
+											for(index2 = 0; index2 < MAX_ADC_CHANNEL; index2++)
+											{
+												if(foundSensorMap[index2] == SENSOR_NONE)
+												{
+													foundSensorMap[index2] = SENSOR_CO2M;		/* store a mirror instance needed for visualization */
+													Mux2ADCMap[index2] = index;
+													break;
+												}
+											}
+										}
+									}
 									externalInterfaceMuxReqIntervall = 0xFFFF;
 									if(cntSensor == 0)		/* return default sensor map if no sensor at all has been detected */
 									{
 										foundSensorMap[0] = SENSOR_OPTIC;
 										foundSensorMap[1] = SENSOR_OPTIC;
 										{
 											externalInterfaceMuxReqIntervall = REQUEST_INT_SENSOR_MS / cntUARTSensor;
 										}
 									}
 									memcpy(SensorMap, foundSensorMap, sizeof(foundSensorMap));
-									memset(externalInterface_SensorState,UART_O2_INIT,sizeof(externalInterface_SensorState));
+									memset(externalInterface_SensorState, UART_COMMON_INIT, sizeof(externalInterface_SensorState));
 				break;
 			default:
 				break;
 		}
 	}
 										for(index = 0; index < 3; index++)
 										{
 											SensorMap[index] = SENSOR_SEARCH;
 										}
 			break;
-		case EXT_INTERFACE_CO2_CALIB:	cmdLength = snprintf(cmdString, 10, "G\r\n");
+		case EXT_INTERFACE_CO2_CALIB:	for(index = 0; index < EXT_INTERFACE_SENSOR_CNT; index++)
+										{
+											if(SensorMap[index] == SENSOR_CO2)
+											{
+												externalInterface_SensorState[index] = UART_CO2_CALIBRATE;
+												break;
+											}
+										}
 			break;
 		case EXT_INTERFACE_COPY_SENSORMAP:	if(externalAutoDetect == DETECTION_OFF)
 											{
 												memcpy(SensorMap, MasterSensorMap, sizeof(MasterSensorMap));
 												for(index = 0; index < EXT_INTERFACE_SENSOR_CNT; index++)
 	} while(index != currentChannel);
 	return newChannel;
 }
+void externalInterface_CheckBaudrate(uint8_t sensorType)
+{
+	static uint32_t lastBaudRate = 0;
+	uint32_t newBaudrate = 0;
+	switch(sensorType)
+	{
+			case SENSOR_CO2:		newBaudrate = 9600;
+				break;
+			case SENSOR_DIGO2:
+		default:	newBaudrate = 19200;
+			break;
+	}
+	if(lastBaudRate != newBaudrate)
+	{
+		UART_ChangeBaudrate(newBaudrate);
+		lastBaudRate = newBaudrate;
+	}
+}
 void externalInterface_HandleUART()
 {
 	static uint8_t retryRequest = 0;
 	static uint32_t lastRequestTick = 0;
 	static uint32_t TriggerTick = 0;
 		uartO2_SetChannel(activeUartChannel);
 		if(pmap[EXT_INTERFACE_SENSOR_CNT-1] == SENSOR_MUX)
 		{
 			UART_MUX_SelectAddress(activeUartChannel);
 		}
+		externalInterface_CheckBaudrate(pmap[activeUartChannel + EXT_INTERFACE_MUX_OFFSET]);
 		UART_FlushRxBuffer();
 	}
 	if(externalInterfaceMuxReqIntervall != 0xFFFF)
 	{
-		if(externalInterface_SensorState[activeSensorId] == UART_O2_INIT)
+		if(externalInterface_SensorState[activeSensorId] == UART_COMMON_INIT)
 		{
 			lastRequestTick = tick;
 			TriggerTick = tick - 10;	/* just to make sure control is triggered */
 			timeToTrigger = 1;
 			retryRequest = 0;
 			TriggerTick = tick;
 			retryRequest = 0;
 			timeToTrigger = 1;
 			if((externalInterface_SensorState[activeSensorId] == UART_O2_REQ_O2)		/* timeout */
-					|| (externalInterface_SensorState[activeSensorId] == UART_O2_REQ_RAW))
+					|| (externalInterface_SensorState[activeSensorId] == UART_O2_REQ_RAW)
-			{
+					|| (externalInterface_SensorState[activeSensorId] == UART_CO2_OPERATING))
-				setExternalInterfaceChannel(activeSensorId,0.0);
+			{
+				switch(pmap[activeSensorId])
+				{
+					case SENSOR_DIGO2: setExternalInterfaceChannel(activeSensorId,0.0);
+						break;
+					case SENSOR_CO2: externalInterface_SetCO2Value(0.0);
+									 externalInterface_SetCO2State(0);
+						break;
+					default:
+						break;
+				}
 			}
 			if(pmap[EXT_INTERFACE_SENSOR_CNT-1] == SENSOR_MUX) /* select next sensor if mux is connected */
 			{
 				if(activeUartChannel < MAX_MUX_CHANNEL)
 					index = ExternalInterface_SelectUsedMuxChannel(activeUartChannel);
 					if(index != activeUartChannel)
 					{
 						timeToTrigger = 100;
 						activeUartChannel = index;
-						if(pmap[index + EXT_INTERFACE_MUX_OFFSET] == SENSOR_DIGO2)
+						if((pmap[index + EXT_INTERFACE_MUX_OFFSET] == SENSOR_DIGO2)
+								|| (pmap[index + EXT_INTERFACE_MUX_OFFSET] == SENSOR_CO2))
 						{
 							uartO2_SetChannel(activeUartChannel);
+							externalInterface_CheckBaudrate(SENSOR_MUX);
 							UART_MUX_SelectAddress(activeUartChannel);
+							externalInterface_CheckBaudrate(pmap[activeUartChannel + EXT_INTERFACE_MUX_OFFSET]);
 						}
 					}
 				}
 			}
 			else
 			switch (pmap[activeSensorId])
 			{
 				case SENSOR_MUX:
 				case SENSOR_DIGO2:	uartO2_Control();
 					break;
-			//	case SENSOR_CO2:	uartCO2_Control();
+#ifdef ENABLE_CO2_SUPPORT
+				case SENSOR_CO2:	uartCo2_Control();
 					break;
+#endif
 				default:
 					break;
 			}
 		}
 	}
 #if 0
-#ifdef ENABLE_CO2_SUPPORT
-		if(externalInterface_GetUARTProtocol() & (EXT_INTERFACE_UART_CO2 >> 8))
-		{
-			UART_HandleCO2Data();
-		}
-#endif
 #ifdef ENABLE_SENTINEL_MODE
 		if(externalInterface_GetUARTProtocol() & (EXT_INTERFACE_UART_SENTINEL >> 8))
 		{
 			UART_HandleSentinelData();
 		}
 #endif
-		if(externalInterface_GetUARTProtocol() & (EXT_INTERFACE_UART_O2 >> 8))
-		{
-			UART_HandleDigitalO2();
-		}
 #endif
 }

Mercurial > public > ostc4

comparison Small_CPU/Src/externalInterface.c @ 798:e9eba334b942