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view Small_CPU/Src/uartProtocol_O2.c @ 895:94535e672583 Evo_2_23
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author | heinrichsweikamp |
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date | Wed, 18 Sep 2024 14:31:06 +0200 |
parents | f8a112c5e71d |
children | 4832981f9af8 |
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/** ****************************************************************************** * @file uartProtocol_O2.c * @author heinrichs weikamp gmbh * @version V0.0.1 * @date 16-Jun-2023 * @brief Interface functionality to external, UART based O2 sensors * @verbatim @endverbatim ****************************************************************************** * @attention * * <h2><center>© COPYRIGHT(c) 2023 heinrichs weikamp</center></h2> * ****************************************************************************** */ /* Includes ------------------------------------------------------------------*/ #include <string.h> #include "uart.h" #include "uartProtocol_O2.h" #include "externalInterface.h" const uint8_t errorStr[] = "#ERRO"; static uint32_t lastReceiveTick = 0; static uartO2RxState_t rxState = O2RX_IDLE; static uint8_t digO2Connected = 0; /* Binary indicator if a sensor is connected or not */ static SSensorDataDiveO2 tmpSensorDataDiveO2; /* intermediate storage for additional sensor data */ static uint8_t activeSensor = 0; static uint8_t respondErrorDetected = 0; void uartO2_InitData() { digO2Connected = 0; } void uartO2_SetupCmd(uint8_t O2State, uint8_t *cmdString, uint8_t *cmdLength) { switch (O2State) { case UART_O2_CHECK: *cmdLength = snprintf((char*)cmdString, 10, "#LOGO"); break; case UART_O2_REQ_INFO: *cmdLength = snprintf((char*)cmdString, 10, "#VERS"); break; case UART_O2_REQ_ID: *cmdLength = snprintf((char*)cmdString, 10, "#IDNR"); break; case UART_O2_REQ_O2: *cmdLength = snprintf((char*)cmdString, 10, "#DOXY"); break; case UART_O2_REQ_RAW: *cmdLength = snprintf((char*)cmdString, 10, "#DRAW"); break; default: *cmdLength = 0; break; } if(*cmdLength != 0) { cmdString[*cmdLength] = 0x0D; *cmdLength = *cmdLength + 1; cmdString[*cmdLength] = 0x0A; *cmdLength = *cmdLength + 1; cmdString[*cmdLength] = 0; *cmdLength = *cmdLength + 1; } } static uint8_t cmdLength = 0; static uint8_t cmdString[10]; void uartO2_Control(void) { static uint8_t lastComState = 0; static uint8_t lastActiveSensor = 0xFF; uint8_t activeSensor = externalInterface_GetActiveUartSensor(); uartO2Status_t localComState = externalInterface_GetSensorState(activeSensor + EXT_INTERFACE_MUX_OFFSET); externalInterface_GetSensorData(activeSensor + EXT_INTERFACE_MUX_OFFSET, (uint8_t*)&tmpSensorDataDiveO2); if(lastActiveSensor != activeSensor) { lastActiveSensor = activeSensor; if(localComState != UART_O2_ERROR) { lastComState = localComState; } else { lastComState = UART_O2_IDLE; } if(localComState == UART_O2_CHECK) { localComState = UART_O2_IDLE; } UART_FlushRxBuffer(); } if(localComState == UART_O2_INIT) { memset((char*) &tmpSensorDataDiveO2, 0, sizeof(tmpSensorDataDiveO2)); externalInterface_SetSensorData(0xFF,(uint8_t*)&tmpSensorDataDiveO2); localComState = UART_O2_CHECK; lastComState = UART_O2_CHECK; uartO2_SetupCmd(localComState,cmdString,&cmdLength); rxState = O2RX_CONFIRM; respondErrorDetected = 0; digO2Connected = 0; UART_StartDMA_Receiption(); } else { if(localComState == UART_O2_ERROR) { localComState = lastComState; } lastComState = localComState; if(localComState == UART_O2_IDLE) /* cyclic request of o2 value */ { if((activeSensor != MAX_MUX_CHANNEL) && (tmpSensorDataDiveO2.sensorId == 0)) { localComState = UART_O2_REQ_ID; } else { localComState = UART_O2_REQ_RAW; } } rxState = O2RX_CONFIRM; uartO2_SetupCmd(localComState,cmdString,&cmdLength); UART_SendCmdString(cmdString); } externalInterface_SetSensorState(activeSensor + EXT_INTERFACE_MUX_OFFSET,localComState); } void uartO2_ProcessData(uint8_t data) { static uint8_t cmdReadIndex = 0; static uint8_t errorReadIndex = 0; static char tmpRxBuf[30]; static uint8_t tmpRxIdx = 0; uint32_t tmpO2 = 0; uint32_t tmpData = 0; uint32_t tick = HAL_GetTick(); uartO2Status_t localComState = externalInterface_GetSensorState(activeSensor + EXT_INTERFACE_MUX_OFFSET); lastReceiveTick = tick; switch(rxState) { case O2RX_CONFIRM: if(data == '#') { cmdReadIndex = 0; errorReadIndex = 0; } if(errorReadIndex < sizeof(errorStr)-1) { if(data == errorStr[errorReadIndex]) { errorReadIndex++; } else { errorReadIndex = 0; } } else { respondErrorDetected = 1; errorReadIndex = 0; if(localComState != UART_O2_IDLE) { localComState = UART_O2_ERROR; } } if(data == cmdString[cmdReadIndex]) { cmdReadIndex++; if(cmdReadIndex == cmdLength - 3) { errorReadIndex = 0; if((activeSensor == MAX_MUX_CHANNEL)) { if(respondErrorDetected) { digO2Connected = 0; /* the multiplexer mirrors the incoming message and does not generate an error information => no mux connected */ } else { digO2Connected = 1; } } else /* handle sensors which should respond with an error message after channel switch */ { digO2Connected = 1; } tmpRxIdx = 0; memset((char*) tmpRxBuf, 0, sizeof(tmpRxBuf)); cmdReadIndex = 0; switch (localComState) { case UART_O2_CHECK: localComState = UART_O2_IDLE; rxState = O2RX_IDLE; break; case UART_O2_REQ_ID: rxState = O2RX_GETNR; break; case UART_O2_REQ_INFO: rxState = O2RX_GETTYPE; break; case UART_O2_REQ_RAW: case UART_O2_REQ_O2: rxState = O2RX_GETO2; break; default: localComState = UART_O2_IDLE; rxState = O2RX_IDLE; break; } } } else { cmdReadIndex = 0; } break; case O2RX_GETSTATUS: case O2RX_GETTEMP: case O2RX_GETTYPE: case O2RX_GETVERSION: case O2RX_GETCHANNEL: case O2RX_GETSUBSENSORS: case O2RX_GETO2: case O2RX_GETNR: case O2RX_GETDPHI: case O2RX_INTENSITY: case O2RX_AMBIENTLIGHT: case O2RX_PRESSURE: case O2RX_HUMIDITY: if(data != 0x0D) { if(data != ' ') /* the following data entities are placed within the data stream => no need to store data at the end */ { tmpRxBuf[tmpRxIdx++] = data; } else { if(tmpRxIdx != 0) { switch(rxState) { case O2RX_GETCHANNEL: StringToInt(tmpRxBuf,&tmpData); rxState = O2RX_GETVERSION; break; case O2RX_GETVERSION: StringToInt(tmpRxBuf,&tmpData); rxState = O2RX_GETSUBSENSORS; break; case O2RX_GETTYPE: StringToInt(tmpRxBuf,&tmpData); rxState = O2RX_GETCHANNEL; break; case O2RX_GETO2: StringToInt(tmpRxBuf,&tmpO2); setExternalInterfaceChannel(activeSensor + EXT_INTERFACE_MUX_OFFSET,(float)(tmpO2 / 10000.0)); rxState = O2RX_GETTEMP; break; case O2RX_GETTEMP: StringToInt(tmpRxBuf,(uint32_t*)&tmpSensorDataDiveO2.temperature); rxState = O2RX_GETSTATUS; break; case O2RX_GETSTATUS: StringToInt(tmpRxBuf,&tmpSensorDataDiveO2.status); /* raw data cycle */ rxState = O2RX_GETDPHI; break; case O2RX_GETDPHI: /* ignored to save memory and most likly irrelevant for diver */ rxState = O2RX_INTENSITY; break; case O2RX_INTENSITY: StringToInt(tmpRxBuf,(uint32_t*)&tmpSensorDataDiveO2.intensity); /* raw data cycle */ rxState = O2RX_AMBIENTLIGHT; break; case O2RX_AMBIENTLIGHT: StringToInt(tmpRxBuf,(uint32_t*)&tmpSensorDataDiveO2.ambient); /* raw data cycle */ rxState = O2RX_PRESSURE; break; case O2RX_PRESSURE: StringToInt(tmpRxBuf,(uint32_t*)&tmpSensorDataDiveO2.pressure); /* raw data cycle */ rxState = O2RX_HUMIDITY; break; default: break; } memset((char*) tmpRxBuf, 0, tmpRxIdx); tmpRxIdx = 0; } } } else { /* the following data items are the last of a sensor respond => store temporal data */ switch (rxState) { case O2RX_GETSTATUS: StringToInt(tmpRxBuf,&tmpSensorDataDiveO2.status); externalInterface_SetSensorData(activeSensor + EXT_INTERFACE_MUX_OFFSET,(uint8_t*)&tmpSensorDataDiveO2); localComState = UART_O2_IDLE; rxState = O2RX_IDLE; break; case O2RX_GETSUBSENSORS: StringToInt(tmpRxBuf,&tmpData); localComState = UART_O2_IDLE; rxState = O2RX_IDLE; break; case O2RX_HUMIDITY: StringToInt(tmpRxBuf,(uint32_t*)&tmpSensorDataDiveO2.humidity); /* raw data cycle */ externalInterface_SetSensorData(activeSensor + EXT_INTERFACE_MUX_OFFSET,(uint8_t*)&tmpSensorDataDiveO2); localComState = UART_O2_IDLE; rxState = O2RX_IDLE; break; case O2RX_GETNR: StringToUInt64((char*)tmpRxBuf,&tmpSensorDataDiveO2.sensorId); externalInterface_SetSensorData(activeSensor + EXT_INTERFACE_MUX_OFFSET,(uint8_t*)&tmpSensorDataDiveO2); localComState = UART_O2_IDLE; rxState = O2RX_IDLE; break; default: localComState = UART_O2_IDLE; rxState = O2RX_IDLE; break; } } break; default: rxState = O2RX_IDLE; break; } externalInterface_SetSensorState(activeSensor + EXT_INTERFACE_MUX_OFFSET,localComState); } uint8_t uartO2_isSensorConnected() { return digO2Connected; } void uartO2_SetChannel(uint8_t channel) { if(channel <= MAX_MUX_CHANNEL) { activeSensor = channel; } }