Mercurial > public > ostc4
view Small_CPU/Src/uartProtocol_Co2.c @ 888:07af9efd7c13 Evo_2_23
Dev bugfix: Consider decogas in planner independen from calculation setting:
Some time ago the selection if a deco gas is used for live deco calculation or not was introduced. The planner did not consider the option as well causing it to ingnore deco gases in the planning what is not intended. To fix this the calculation flag is set at planer simulation start for all deco gases.
Beside this the cursor is now placed in the bottom line at "next" instead of the first menu item.
| author | Ideenmodellierer |
|---|---|
| date | Tue, 03 Sep 2024 20:46:42 +0200 |
| parents | c3dd461ca3f9 |
| children |
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/** ****************************************************************************** * @file uartProtocol_Co2.c * @author heinrichs weikamp gmbh * @version V0.0.1 * @date 31-Jul-2023 * @brief Interface functionality to external, UART based CO2 sensors * @verbatim @endverbatim ****************************************************************************** * @attention * * <h2><center>© COPYRIGHT(c) 2023 heinrichs weikamp</center></h2> * ****************************************************************************** */ /* Includes ------------------------------------------------------------------*/ #include <string.h> #include <uartProtocol_Co2.h> #include "uart.h" #include "externalInterface.h" #ifdef ENABLE_CO2_SUPPORT static uint8_t CO2Connected = 0; /* Binary indicator if a sensor is connected or not */ static receiveStateCO2_t rxState = CO2RX_Ready; float LED_Level = 0.0; /* Normalized LED value which may be used as indication for the health status of the sensor */ float LED_ZeroOffset = 0.0; float pCO2 = 0.0; void uartCo2_SendCmd(uint8_t CO2Cmd, uint8_t *cmdString, uint8_t *cmdLength) { *cmdLength = 0; switch (CO2Cmd) { case CO2CMD_MODE_POLL: *cmdLength = snprintf((char*)cmdString, 10, "K 2\r\n"); break; case CO2CMD_MODE_STREAM: *cmdLength = snprintf((char*)cmdString, 10, "K 1\r\n"); break; case CO2CMD_CALIBRATE: *cmdLength = snprintf((char*)cmdString, 10, "G\r\n"); break; case CO2CMD_GETDATA: *cmdLength = snprintf((char*)cmdString, 10, "Q\r\n"); break; case CO2CMD_GETSCALE: *cmdLength = snprintf((char*)cmdString, 10, ".\r\n"); break; default: *cmdLength = 0; break; } if(cmdLength != 0) { UART_SendCmdString(cmdString); } } void uartCo2_Control(void) { static uint8_t cmdString[10]; static uint8_t cmdLength = 0; static uint8_t lastComState = 0; uint8_t activeSensor = externalInterface_GetActiveUartSensor(); uartCO2Status_t localComState = externalInterface_GetSensorState(activeSensor + EXT_INTERFACE_MUX_OFFSET); uint8_t *pmap = externalInterface_GetSensorMapPointer(0); if(localComState == UART_CO2_ERROR) { localComState = lastComState; } if(localComState == UART_CO2_INIT) { CO2Connected = 0; externalInterface_SetCO2Scale(0.0); UART_StartDMA_Receiption(); localComState = UART_CO2_SETUP; } if(localComState == UART_CO2_SETUP) { if(externalInterface_GetCO2Scale() == 0.0) { uartCo2_SendCmd(CO2CMD_GETSCALE, cmdString, &cmdLength); } else { localComState = UART_CO2_IDLE; } } else { if(localComState == UART_CO2_CALIBRATE) { uartCo2_SendCmd(CO2CMD_CALIBRATE, cmdString, &cmdLength); localComState = UART_CO2_IDLE; } else if(pmap[EXT_INTERFACE_SENSOR_CNT-1] == SENSOR_MUX) /* sensor is working in polling mode if mux is connected to avoid interference with other sensors */ { //if(cmdLength == 0) /* poll data */ if(localComState == UART_CO2_IDLE) { uartCo2_SendCmd(CO2CMD_GETDATA, cmdString, &cmdLength); localComState = UART_CO2_OPERATING; } else /* resend last command */ { UART_SendCmdString(cmdString); cmdLength = 0; } } else { localComState = UART_CO2_OPERATING; /* sensor in streaming mode if not connected to mux => operating */ UART_StartDMA_Receiption(); } } lastComState = localComState; externalInterface_SetSensorState(activeSensor + EXT_INTERFACE_MUX_OFFSET,localComState); } void uartCo2_ProcessData(uint8_t data) { static uint8_t dataType = 0; static uint32_t dataValue = 0; uint8_t activeSensor = externalInterface_GetActiveUartSensor(); uartCO2Status_t localComState = externalInterface_GetSensorState(activeSensor + EXT_INTERFACE_MUX_OFFSET); if(rxState == CO2RX_Ready) /* identify data content */ { switch(data) { case 'G': case 'l': case 'D': case 'Z': case '.': dataType = data; rxState = CO2RX_Data0; dataValue = 0; break; case '?': localComState = UART_CO2_ERROR; break; default: /* unknown or corrupted => ignore */ break; } } else if((data >= '0') && (data <= '9')) { if((rxState >= CO2RX_Data0) && (rxState <= CO2RX_Data4)) { dataValue = dataValue * 10 + (data - '0'); rxState++; if(rxState == CO2RX_Data5) { rxState = CO2RX_DataComplete; } } else /* protocol error data has max 5 digits */ { if(rxState != CO2RX_DataComplete) /* commands will not answer with number values */ { rxState = CO2RX_Ready; } } } if((data == ' ') || (data == '\n')) /* Abort data detection */ { if(rxState == CO2RX_DataComplete) { CO2Connected = 1; if(localComState == UART_CO2_SETUP) { if(dataType == '.') { localComState = UART_CO2_IDLE; } } else { localComState = UART_CO2_IDLE; } if(externalInterface_GetCO2State() == 0) { externalInterface_SetCO2State(EXT_INTERFACE_33V_ON); } switch(dataType) { case 'D': externalInterface_SetCO2SignalStrength(dataValue); break; case 'l': LED_ZeroOffset = dataValue; break; case 'Z': externalInterface_SetCO2Value(dataValue); break; case '.': externalInterface_SetCO2Scale(dataValue); break; default: rxState = CO2RX_Ready; break; } } if(rxState != CO2RX_Data0) /* reset state machine because message in wrong format */ { rxState = CO2RX_Ready; } } externalInterface_SetSensorState(activeSensor + EXT_INTERFACE_MUX_OFFSET,localComState); } uint8_t uartCo2_isSensorConnected() { return CO2Connected; } #endif