Mercurial > public > ostc4
view Small_CPU/Src/GNSS.c @ 932:effadaa3a1f7 Evo_2_23
Cleanup Gnss UART implementation:
The first draft of the internal UART implementation was just a copy of the external UART handling. To avoid duplicated code and maintainance issue both UARTs (external/internal 6/1) share the same functions. To enable this a control structure has to be used as function input which defines the none shared resources like DMA control and rx/tx buffers
| author | Ideenmodellierer |
|---|---|
| date | Sat, 07 Dec 2024 21:28:08 +0100 |
| parents | 5a9bc2e6112d |
| children |
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/* * GNSS.c * * Created on: 03.10.2020 * Author: SimpleMethod * *Copyright 2020 SimpleMethod * *Permission is hereby granted, free of charge, to any person obtaining a copy of *this software and associated documentation files (the "Software"), to deal in *the Software without restriction, including without limitation the rights to *use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies *of the Software, and to permit persons to whom the Software is furnished to do *so, subject to the following conditions: * *The above copyright notice and this permission notice shall be included in all *copies or substantial portions of the Software. * *THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR *IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, *FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE *AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER *LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, *OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN *THE SOFTWARE. ****************************************************************************** */ #include <string.h> #include "GNSS.h" union u_Short uShort; union i_Short iShort; union u_Long uLong; union i_Long iLong; /*! * Structure initialization. * @param GNSS Pointer to main GNSS structure. * @param huart Pointer to uart handle. */ void GNSS_Init(GNSS_StateHandle *GNSS, UART_HandleTypeDef *huart) { GNSS->huart = huart; GNSS->year = 0; GNSS->month = 0; GNSS->day = 0; GNSS->hour = 0; GNSS->min = 0; GNSS->sec = 0; GNSS->fixType = 0; GNSS->lon = 0; GNSS->lat = 0; GNSS->height = 0; GNSS->hMSL = 0; GNSS->hAcc = 0; GNSS->vAcc = 0; GNSS->gSpeed = 0; GNSS->headMot = 0; } /*! * Parse data to unique chip ID standard. * Look at: 32.19.1.1 u-blox 8 Receiver description * @param GNSS Pointer to main GNSS structure. */ void GNSS_ParseUniqID(GNSS_StateHandle *GNSS) { for (int var = 0; var < 5; ++var) { GNSS->uniqueID[var] = GNSS_Handle.uartWorkingBuffer[10 + var]; } } /*! * Parse data to navigation position velocity time solution standard. * Look at: 32.17.15.1 u-blox 8 Receiver description. * @param GNSS Pointer to main GNSS structure. */ void GNSS_ParsePVTData(GNSS_StateHandle *GNSS) { static float searchCnt = 1.0; uShort.bytes[0] = GNSS_Handle.uartWorkingBuffer[10]; GNSS->yearBytes[0]=GNSS_Handle.uartWorkingBuffer[10]; uShort.bytes[1] = GNSS_Handle.uartWorkingBuffer[11]; GNSS->yearBytes[1]=GNSS_Handle.uartWorkingBuffer[11]; GNSS->year = uShort.uShort; GNSS->month = GNSS_Handle.uartWorkingBuffer[12]; GNSS->day = GNSS_Handle.uartWorkingBuffer[13]; GNSS->hour = GNSS_Handle.uartWorkingBuffer[14]; GNSS->min = GNSS_Handle.uartWorkingBuffer[15]; GNSS->sec = GNSS_Handle.uartWorkingBuffer[16]; GNSS->fixType = GNSS_Handle.uartWorkingBuffer[26]; for (int var = 0; var < 4; ++var) { iLong.bytes[var] = GNSS_Handle.uartWorkingBuffer[var + 30]; GNSS->lonBytes[var]= GNSS_Handle.uartWorkingBuffer[var + 30]; } GNSS->lon = iLong.iLong; GNSS->fLon=(float)iLong.iLong/10000000.0; for (int var = 0; var < 4; ++var) { iLong.bytes[var] = GNSS_Handle.uartWorkingBuffer[var + 34]; GNSS->latBytes[var]=GNSS_Handle.uartWorkingBuffer[var + 34]; } GNSS->lat = iLong.iLong; GNSS->fLat=(float)iLong.iLong/10000000.0; for (int var = 0; var < 4; ++var) { iLong.bytes[var] = GNSS_Handle.uartWorkingBuffer[var + 38]; } GNSS->height = iLong.iLong; for (int var = 0; var < 4; ++var) { iLong.bytes[var] = GNSS_Handle.uartWorkingBuffer[var + 42]; GNSS->hMSLBytes[var] = GNSS_Handle.uartWorkingBuffer[var + 42]; } GNSS->hMSL = iLong.iLong; for (int var = 0; var < 4; ++var) { uLong.bytes[var] = GNSS_Handle.uartWorkingBuffer[var + 46]; } GNSS->hAcc = uLong.uLong; for (int var = 0; var < 4; ++var) { uLong.bytes[var] = GNSS_Handle.uartWorkingBuffer[var + 50]; } GNSS->vAcc = uLong.uLong; for (int var = 0; var < 4; ++var) { iLong.bytes[var] = GNSS_Handle.uartWorkingBuffer[var + 66]; GNSS->gSpeedBytes[var] = GNSS_Handle.uartWorkingBuffer[var + 66]; } GNSS->gSpeed = iLong.iLong; for (int var = 0; var < 4; ++var) { iLong.bytes[var] = GNSS_Handle.uartWorkingBuffer[var + 70]; } GNSS->headMot = iLong.iLong * 1e-5; // todo I'm not sure this good options. if((GNSS->fLat == 0.0) && (GNSS->fLon == 0.0)) { GNSS->fLat = searchCnt++; } } /*! * Parse data to UTC time solution standard. * Look at: 32.17.30.1 u-blox 8 Receiver description. * @param GNSS Pointer to main GNSS structure. */ void GNSS_ParseNavSatData(GNSS_StateHandle *GNSS) { uint8_t loop = 0; uint8_t searchIndex = 0; uint8_t statIndex = 0; /* only 4 state information will be forwarded */ uint8_t signalQuality = 0; GNSS->numSat = GNSS_Handle.uartWorkingBuffer[11]; memset(GNSS->statSat, 0, sizeof(GNSS->statSat)); if(GNSS->numSat > 0) { searchIndex = 0; while((searchIndex < GNSS->numSat) && (statIndex < 4)) /* get good signal quality */ { signalQuality = (GNSS_Handle.uartWorkingBuffer[22 + searchIndex * 12] & 0x7); if(signalQuality > 4) { GNSS->statSat[statIndex++] = signalQuality; } if(statIndex == 4) break; searchIndex++; } searchIndex = 0; while((searchIndex < GNSS->numSat) && (statIndex < 4)) /* get medium signal quality */ { signalQuality = (GNSS_Handle.uartWorkingBuffer[22 + searchIndex * 12] & 0x7); if((signalQuality > 2) && (signalQuality <= 4)) { GNSS->statSat[statIndex++] = signalQuality; } if(statIndex == 4) break; searchIndex++; } searchIndex = 0; while((searchIndex < GNSS->numSat) && (statIndex < 4)) /* get poor signal quality */ { signalQuality = (GNSS_Handle.uartWorkingBuffer[22 + searchIndex * 12] & 0x7); if(signalQuality <= 2) { GNSS->statSat[statIndex++] = signalQuality; } if(statIndex == 4) break; searchIndex++; } loop++; } } void GNSS_ParseNavigatorData(GNSS_StateHandle *GNSS) { uShort.bytes[0] = GNSS_Handle.uartWorkingBuffer[18]; uShort.bytes[1] = GNSS_Handle.uartWorkingBuffer[19]; GNSS->year = uShort.uShort; GNSS->month = GNSS_Handle.uartWorkingBuffer[20]; GNSS->day = GNSS_Handle.uartWorkingBuffer[21]; GNSS->hour = GNSS_Handle.uartWorkingBuffer[22]; GNSS->min = GNSS_Handle.uartWorkingBuffer[23]; GNSS->sec = GNSS_Handle.uartWorkingBuffer[24]; } /*! * Parse data to geodetic position solution standard. * Look at: 32.17.14.1 u-blox 8 Receiver description. * @param GNSS Pointer to main GNSS structure. */ void GNSS_ParsePOSLLHData(GNSS_StateHandle *GNSS) { for (int var = 0; var < 4; ++var) { iLong.bytes[var] = GNSS_Handle.uartWorkingBuffer[var + 10]; } GNSS->lon = iLong.iLong; GNSS->fLon=(float)iLong.iLong/10000000.0; for (int var = 0; var < 4; ++var) { iLong.bytes[var] = GNSS_Handle.uartWorkingBuffer[var + 14]; } GNSS->lat = iLong.iLong; GNSS->fLat=(float)iLong.iLong/10000000.0; for (int var = 0; var < 4; ++var) { iLong.bytes[var] = GNSS_Handle.uartWorkingBuffer[var + 18]; } GNSS->height = iLong.iLong; for (int var = 0; var < 4; ++var) { iLong.bytes[var] = GNSS_Handle.uartWorkingBuffer[var + 22]; } GNSS->hMSL = iLong.iLong; for (int var = 0; var < 4; ++var) { uLong.bytes[var] = GNSS_Handle.uartWorkingBuffer[var + 26]; } GNSS->hAcc = uLong.uLong; for (int var = 0; var < 4; ++var) { uLong.bytes[var] = GNSS_Handle.uartWorkingBuffer[var + 30]; } GNSS->vAcc = uLong.uLong; }