Mercurial > public > ostc4
view Small_CPU/Src/uartProtocol_GNSS.c @ 942:06aaccaf2e02 Evo_2_23
Power down gnss module during dive:
The gnss modul will now be send to powerdown at the start of the dive. After end of dive the module returns to normal operation.
For development / test purpose a new simulated dive profile has been added.
author | Ideenmodellierer |
---|---|
date | Mon, 16 Dec 2024 19:09:00 +0100 |
parents | f41974734268 |
children |
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/** ****************************************************************************** * @file uartProtocol_GNSS.c * @author heinrichs weikamp gmbh * @version V0.0.1 * @date 30-Sep-2024 * @brief Interface functionality operation of GNSS devices * @verbatim @endverbatim ****************************************************************************** * @attention * * <h2><center>© COPYRIGHT(c) 2024 heinrichs weikamp</center></h2> * ****************************************************************************** */ /* Includes ------------------------------------------------------------------*/ #include <string.h> #include "scheduler.h" #include <uartProtocol_GNSS.h> #include "uart.h" #include "GNSS.h" #include "configuration.h" #include "externalInterface.h" #if defined ENABLE_GNSS || defined ENABLE_GNSS_SUPPORT || defined ENABLE_GPIO_V2 static uartGnssStatus_t gnssState = UART_GNSS_INIT; static gnssRequest_s activeRequest = {0,0}; static receiveStateGnss_t rxState = GNSSRX_READY; static uint8_t GnssConnected = 0; /* Binary indicator if a sensor is connected or not */ static uint8_t writeIndex = 0; static uint8_t dataToRead = 0; static uint8_t ReqPowerDown = 0; void ConvertByteToHexString(uint8_t byte, char* str) { uint8_t worker = 0; uint8_t digit = 0; uint8_t digitCnt = 1; worker = byte; while((worker!=0) && (digitCnt != 255)) { digit = worker % 16; if( digit < 10) { digit += '0'; } else { digit += 'A' - 10; } str[digitCnt--]= digit; worker = worker / 16; } } void uartGnss_ReqPowerDown(uint8_t request) { if(GnssConnected) { ReqPowerDown = request; } } uint8_t uartGnss_isPowerDownRequested() { return ReqPowerDown; } uartGnssStatus_t uartGnss_GetState() { return gnssState; } void uartGnss_SetState(uartGnssStatus_t newState) { gnssState = newState; } void UART_Gnss_SendCmd(uint8_t GnssCmd) { const uint8_t* pData; uint8_t txLength = 0; switch (GnssCmd) { case GNSSCMD_LOADCONF_0: pData = configUBX; txLength = sizeof(configUBX) / sizeof(uint8_t); break; case GNSSCMD_LOADCONF_1: pData = setNMEA410; txLength = sizeof(setNMEA410) / sizeof(uint8_t); break; case GNSSCMD_LOADCONF_2: pData = setGNSS; txLength = sizeof(setGNSS) / sizeof(uint8_t); break; case GNSSCMD_SETMOBILE: pData = setPortableMode; txLength = sizeof(setPortableMode) / sizeof(uint8_t); break; case GNSSCMD_GET_PVT_DATA: pData = getPVTData; txLength = sizeof(getPVTData) / sizeof(uint8_t); break; case GNSSCMD_GET_NAV_DATA: pData = getNavigatorData; txLength = sizeof(getNavigatorData) / sizeof(uint8_t); break; case GNSSCMD_GET_NAVSAT_DATA: pData = getNavSat; txLength = sizeof(getNavSat) / sizeof(uint8_t); break; case GNSSCMD_MODE_PWS: pData = setPowerLow; txLength = sizeof(setPowerLow) / sizeof(uint8_t); break; case GNSSCMD_MODE_NORMAL: pData = setPowerNormal; txLength = sizeof(setPowerNormal) / sizeof(uint8_t); break; case GNSSCMD_SET_CONFIG: pData = setConfig; txLength = sizeof(setConfig) / sizeof(uint8_t); break; default: break; } if(txLength != 0) { activeRequest.class = pData[2]; activeRequest.id = pData[3]; UART_SendCmdUbx(pData, txLength); } } void uartGnss_Control(void) { static uint32_t warmupTick = 0; static uint8_t dataToggle = 0; uint8_t activeSensor = 0; sUartComCtrl* pUartCtrl = UART_GetGnssCtrl(); if(pUartCtrl == &Uart1Ctrl) { activeSensor = externalInterface_GetActiveUartSensor(); gnssState = externalInterface_GetSensorState(activeSensor + EXT_INTERFACE_MUX_OFFSET); } switch (gnssState) { case UART_GNSS_INIT: gnssState = UART_GNSS_WARMUP; warmupTick = HAL_GetTick(); UART_clearRxBuffer(pUartCtrl); break; case UART_GNSS_WARMUP: if(time_elapsed_ms(warmupTick,HAL_GetTick()) > 1000) { gnssState = UART_GNSS_LOADCONF_0; } break; case UART_GNSS_LOADCONF_0: UART_Gnss_SendCmd(GNSSCMD_LOADCONF_0); rxState = GNSSRX_DETECT_ACK_0; break; case UART_GNSS_LOADCONF_1: UART_Gnss_SendCmd(GNSSCMD_LOADCONF_1); rxState = GNSSRX_DETECT_ACK_0; break; case UART_GNSS_LOADCONF_2: UART_Gnss_SendCmd(GNSSCMD_LOADCONF_2); rxState = GNSSRX_DETECT_ACK_0; break; case UART_GNSS_SETMODE_MOBILE: UART_Gnss_SendCmd(GNSSCMD_LOADCONF_2); rxState = GNSSRX_DETECT_ACK_0; break; case UART_GNSS_PWRDOWN: UART_Gnss_SendCmd(GNSSCMD_MODE_PWS); rxState = GNSSRX_DETECT_ACK_0; break; case UART_GNSS_PWRUP: UART_Gnss_SendCmd(GNSSCMD_MODE_NORMAL); rxState = GNSSRX_DETECT_ACK_0; gnssState = UART_GNSS_PWRUP; break; case UART_GNSS_SETCONF: UART_Gnss_SendCmd(GNSSCMD_SET_CONFIG); rxState = GNSSRX_DETECT_ACK_0; break; case UART_GNSS_IDLE: if(ReqPowerDown) { UART_Gnss_SendCmd(GNSSCMD_MODE_PWS); gnssState = UART_GNSS_PWRDOWN; rxState = GNSSRX_DETECT_ACK_0; } else { if(dataToggle) { UART_Gnss_SendCmd(GNSSCMD_GET_PVT_DATA); gnssState = UART_GNSS_GET_PVT; rxState = GNSSRX_DETECT_HEADER_0; dataToggle = 0; } else { UART_Gnss_SendCmd(GNSSCMD_GET_NAVSAT_DATA); gnssState = UART_GNSS_GET_SAT; rxState = GNSSRX_DETECT_HEADER_0; dataToggle = 1; } } break; default: break; } if(pUartCtrl == &Uart1Ctrl) { externalInterface_SetSensorState(activeSensor + EXT_INTERFACE_MUX_OFFSET,gnssState); } } void uartGnss_ProcessData(uint8_t data) { static uint16_t rxLength = 0; static uint8_t ck_A = 0; static uint8_t ck_B = 0; static uint8_t ck_A_Ref = 0; static uint8_t ck_B_Ref = 0; uint8_t activeSensor = 0; sUartComCtrl* pUartCtrl = UART_GetGnssCtrl(); if(pUartCtrl == &Uart1Ctrl) { activeSensor = externalInterface_GetActiveUartSensor(); gnssState = externalInterface_GetSensorState(activeSensor + EXT_INTERFACE_MUX_OFFSET); } GNSS_Handle.uartWorkingBuffer[writeIndex++] = data; if((rxState >= GNSSRX_DETECT_HEADER_2) && (rxState < GNSSRX_READ_CK_A)) { ck_A += data; ck_B += ck_A; } switch(rxState) { case GNSSRX_DETECT_ACK_0: case GNSSRX_DETECT_HEADER_0: if(data == 0xB5) { writeIndex = 0; memset(GNSS_Handle.uartWorkingBuffer,0xff, sizeof(GNSS_Handle.uartWorkingBuffer)); GNSS_Handle.uartWorkingBuffer[writeIndex++] = data; rxState++; ck_A = 0; ck_B = 0; } break; case GNSSRX_DETECT_ACK_1: case GNSSRX_DETECT_HEADER_1: if(data == 0x62) { rxState++; } else { rxState = GNSSRX_DETECT_HEADER_0; } break; case GNSSRX_DETECT_ACK_2: if(data == 0x05) { rxState++; } else { rxState = GNSSRX_DETECT_HEADER_0; } break; case GNSSRX_DETECT_ACK_3: if((data == 0x01)) { rxState = GNSSRX_READY; switch(gnssState) { case UART_GNSS_PWRUP: gnssState = UART_GNSS_IDLE; break; case UART_GNSS_PWRDOWN: rxState = GNSSRX_DETECT_ACK_0; UART_Gnss_SendCmd(GNSSCMD_SET_CONFIG); gnssState = UART_GNSS_SETCONF; break; case UART_GNSS_SETCONF: gnssState = UART_GNSS_INACTIVE; break; case UART_GNSS_LOADCONF_0: case UART_GNSS_LOADCONF_1: gnssState++; break; case UART_GNSS_LOADCONF_2: gnssState = UART_GNSS_SETMODE_MOBILE; break; case UART_GNSS_SETMODE_MOBILE: gnssState = UART_GNSS_IDLE; break; default: break; } GnssConnected = 1; } else { rxState = GNSSRX_DETECT_HEADER_0; } break; case GNSSRX_DETECT_HEADER_2: if(data == activeRequest.class) { rxState++; } else { rxState = GNSSRX_DETECT_HEADER_0; } break; case GNSSRX_DETECT_HEADER_3: if(data == activeRequest.id) { rxState = GNSSRX_DETECT_LENGTH_0; } else { rxState = GNSSRX_DETECT_HEADER_0; } break; case GNSSRX_DETECT_LENGTH_0: rxLength = GNSS_Handle.uartWorkingBuffer[4]; rxState = GNSSRX_DETECT_LENGTH_1; break; case GNSSRX_DETECT_LENGTH_1: rxLength += (GNSS_Handle.uartWorkingBuffer[5] << 8); rxState = GNSSRX_READ_DATA; dataToRead = rxLength; break; case GNSSRX_READ_DATA: if(dataToRead > 0) { dataToRead--; } if(dataToRead == 0) { rxState = GNSSRX_READ_CK_A; } break; case GNSSRX_READ_CK_A: ck_A_Ref = data; rxState++; break; case GNSSRX_READ_CK_B: ck_B_Ref = data; if((ck_A_Ref == ck_A) && (ck_B_Ref == ck_B)) { switch(gnssState) { case UART_GNSS_GET_PVT:GNSS_ParsePVTData(&GNSS_Handle); break; case UART_GNSS_GET_SAT: GNSS_ParseNavSatData(&GNSS_Handle); break; default: break; } } rxState = GNSSRX_DETECT_HEADER_0; gnssState = UART_GNSS_IDLE; break; default: rxState = GNSSRX_READY; break; } if(pUartCtrl == &Uart1Ctrl) { externalInterface_SetSensorState(activeSensor + EXT_INTERFACE_MUX_OFFSET,gnssState); } } uint8_t uartGnss_isSensorConnected() { return GnssConnected; } #endif