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| Rev | Author | Line No. | Line |
|---|---|---|---|
| 426 | killagreg | 1 | #include <inttypes.h> |
| 2 | #include "ubx.h" |
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| 3 | #include "timer0.h" |
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| 4 | #include "uart0.h" |
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| 5 | |||
| 6 | |||
| 7 | // ------------------------------------------------------------------------------------------------ |
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| 8 | // defines |
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| 9 | |||
| 10 | #define DAYS_FROM_JAN01YEAR0001_TO_JAN6_1980 722819 // the year 0 does not exist! |
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| 11 | #define DAYS_PER_YEAR 365 |
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| 12 | #define DAYS_PER_LEAPYEAR 366 |
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| 13 | #define DAYS_PER_4YEARS 1461 //((3 * DAYS_PER_YEAR) + DAYS_PER_LEAPYEAR) // years dividable by 4 are leap years |
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| 14 | #define DAYS_PER_100YEARS 36524 //((25 * DAYS_PER_4YEARS) - 1) // years dividable by 100 are no leap years |
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| 15 | #define DAYS_PER_400YEARS 146097 //((4 * DAYS_PER_100YEARS) + 1L) // but years dividable by 400 are leap years |
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| 16 | #define SECONDS_PER_MINUTE 60 |
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| 17 | #define MINUTES_PER_HOUR 60 |
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| 18 | #define HOURS_PER_DAY 24 |
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| 19 | #define DAYS_PER_WEEK 7 |
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| 20 | #define SECONDS_PER_HOUR 3600 //(SECONDS_PER_MINUTE * MINUTES_PER_HOUR) |
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| 21 | #define SECONDS_PER_DAY 86400 //(SECONDS_PER_HOUR * HOURS_PER_DAY) |
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| 22 | #define SECONDS_PER_WEEK 604800 //(SECONDS_PER_DAY * DAYS_PER_WEEK) |
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| 23 | |||
| 24 | // days per month in normal and leap years |
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| 25 | const uint32_t Leap[ 13 ] = { 0, 31, 60, 91, 121, 152, 182, 213, 244, 274, 305, 335, 366 }; |
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| 26 | const uint32_t Normal[ 13 ] = { 0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334, 365 }; |
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| 27 | |||
| 28 | #define LEAP_SECONDS_FROM_1980 15 // the last one was on the Dec 31th 2008 |
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| 29 | |||
| 30 | // message sync bytes |
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| 31 | #define UBX_SYNC1_CHAR 0xB5 |
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| 32 | #define UBX_SYNC2_CHAR 0x62 |
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| 33 | // protocoll identifier |
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| 34 | #define UBX_CLASS_NAV 0x01 |
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| 35 | // message id |
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| 36 | #define UBX_ID_POSLLH 0x02 |
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| 37 | #define UBX_ID_SOL 0x06 |
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| 38 | #define UBX_ID_VELNED 0x12 |
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| 39 | |||
| 40 | // ------------------------------------------------------------------------------------------------ |
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| 41 | // typedefs |
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| 42 | |||
| 43 | |||
| 44 | // ubx parser state |
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| 45 | typedef enum |
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| 46 | { |
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| 47 | UBXSTATE_IDLE, |
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| 48 | UBXSTATE_SYNC1, |
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| 49 | UBXSTATE_SYNC2, |
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| 50 | UBXSTATE_CLASS, |
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| 51 | UBXSTATE_LEN1, |
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| 52 | UBXSTATE_LEN2, |
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| 53 | UBXSTATE_DATA, |
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| 54 | UBXSTATE_CKA, |
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| 55 | UBXSTATE_CKB |
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| 56 | } ubxState_t; |
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| 57 | |||
| 58 | typedef struct |
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| 59 | { |
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| 60 | uint32_t itow; // ms GPS Millisecond Time of Week |
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| 61 | int32_t frac; // ns remainder of rounded ms above |
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| 62 | int16_t week; // GPS week |
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| 63 | uint8_t GPSfix; // GPSfix Type, range 0..6 |
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| 64 | uint8_t Flags; // Navigation Status Flags |
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| 65 | int32_t ECEF_X; // cm ECEF X coordinate |
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| 66 | int32_t ECEF_Y; // cm ECEF Y coordinate |
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| 67 | int32_t ECEF_Z; // cm ECEF Z coordinate |
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| 68 | int32_t PAcc; // cm 3D Position Accuracy Estimate |
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| 69 | int32_t ECEFVX; // cm/s ECEF X velocity |
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| 70 | int32_t ECEFVY; // cm/s ECEF Y velocity |
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| 71 | int32_t ECEFVZ; // cm/s ECEF Z velocity |
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| 72 | uint32_t SAcc; // cm/s Speed Accuracy Estimate |
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| 73 | uint16_t PDOP; // 0.01 Position DOP |
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| 74 | uint8_t res1; // reserved |
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| 75 | uint8_t numSV; // Number of SVs used in navigation solution |
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| 76 | uint32_t res2; // reserved |
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| 77 | uint8_t Status; // invalid/newdata/processed |
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| 78 | } __attribute__((packed)) ubx_nav_sol_t; |
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| 79 | |||
| 80 | |||
| 81 | typedef struct |
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| 82 | { |
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| 83 | uint32_t itow; // ms GPS Millisecond Time of Week |
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| 84 | int32_t VEL_N; // cm/s NED north velocity |
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| 85 | int32_t VEL_E; // cm/s NED east velocity |
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| 86 | int32_t VEL_D; // cm/s NED down velocity |
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| 87 | int32_t Speed; // cm/s Speed (3-D) |
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| 88 | int32_t GSpeed; // cm/s Ground Speed (2-D) |
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| 89 | int32_t Heading; // 1e-05 deg Heading 2-D |
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| 90 | uint32_t SAcc; // cm/s Speed Accuracy Estimate |
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| 91 | uint32_t CAcc; // deg Course / Heading Accuracy Estimate |
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| 92 | uint8_t Status; // invalid/newdata/processed |
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| 93 | } __attribute__((packed)) ubx_nav_velned_t; |
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| 94 | |||
| 95 | typedef struct |
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| 96 | { |
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| 97 | uint32_t itow; // ms GPS Millisecond Time of Week |
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| 98 | int32_t LON; // 1e-07 deg Longitude |
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| 99 | int32_t LAT; // 1e-07 deg Latitude |
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| 100 | int32_t HEIGHT; // mm Height above Ellipsoid |
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| 101 | int32_t HMSL; // mm Height above mean sea level |
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| 102 | uint32_t Hacc; // mm Horizontal Accuracy Estimate |
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| 103 | uint32_t Vacc; // mm Vertical Accuracy Estimate |
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| 104 | uint8_t Status; // invalid/newdata/processed |
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| 105 | } __attribute__((packed)) ubx_nav_posllh_t; |
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| 106 | |||
| 107 | |||
| 108 | |||
| 109 | //------------------------------------------------------------------------------------ |
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| 110 | // global variables |
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| 111 | |||
| 112 | // local buffers for the incomming ubx messages |
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| 113 | volatile ubx_nav_sol_t UbxSol = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, INVALID}; |
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| 114 | volatile ubx_nav_posllh_t UbxPosLlh = {0,0,0,0,0,0,0, INVALID}; |
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| 115 | volatile ubx_nav_velned_t UbxVelNed = {0,0,0,0,0,0,0,0,0, INVALID}; |
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| 116 | |||
| 117 | uint16_t CheckGPSOkay = 0; |
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| 118 | |||
| 119 | // shared buffer |
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| 120 | gps_data_t GPSData = {{0,0,0,INVALID},0,0,0,0,0,0,0, INVALID}; |
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| 121 | |||
| 122 | //------------------------------------------------------------------------------------ |
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| 123 | // functions |
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| 124 | |||
| 125 | uint8_t IsLeapYear(uint16_t year) |
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| 126 | { |
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| 127 | if((year%400 == 0) || ( (year%4 == 0) && (year%100 != 0) ) ) return 1; |
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| 128 | else return 0; |
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| 129 | } |
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| 130 | |||
| 131 | /********************************************************/ |
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| 132 | /* Calculates the UTC Time from the GPS week and tow */ |
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| 133 | /********************************************************/ |
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| 134 | void SetGPSTime(DateTime_t * pTimeStruct) |
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| 135 | { |
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| 136 | uint32_t Days, Seconds, Week; |
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| 137 | uint16_t YearPart; |
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| 138 | uint32_t * MonthDayTab = 0; |
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| 139 | uint8_t i; |
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| 140 | |||
| 141 | |||
| 142 | |||
| 143 | // if GPS data show valid time data |
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| 144 | if((UbxSol.Status != INVALID) && (UbxSol.Flags & FLAG_WKNSET) && (UbxSol.Flags & FLAG_TOWSET) ) |
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| 145 | { |
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| 146 | Seconds = UbxSol.itow / 1000L; |
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| 147 | Week = (uint32_t)UbxSol.week; |
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| 148 | // correct leap seconds since 1980 |
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| 149 | if(Seconds < LEAP_SECONDS_FROM_1980) |
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| 150 | { |
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| 151 | Week--; |
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| 152 | Seconds = SECONDS_PER_WEEK - LEAP_SECONDS_FROM_1980 + Seconds; |
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| 153 | } |
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| 154 | else Seconds -= LEAP_SECONDS_FROM_1980; |
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| 155 | |||
| 156 | Days = DAYS_FROM_JAN01YEAR0001_TO_JAN6_1980; |
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| 157 | Days += (Week * DAYS_PER_WEEK); |
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| 158 | Days += Seconds / SECONDS_PER_DAY; // seperate days from GPS seconds of week |
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| 159 | |||
| 160 | pTimeStruct->Year = 1; |
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| 161 | YearPart = (uint16_t)(Days / DAYS_PER_400YEARS); |
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| 162 | pTimeStruct->Year += YearPart * 400; |
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| 163 | Days = Days % DAYS_PER_400YEARS; |
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| 164 | YearPart = (uint16_t)(Days / DAYS_PER_100YEARS); |
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| 165 | pTimeStruct->Year += YearPart * 100; |
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| 166 | Days = Days % DAYS_PER_100YEARS; |
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| 167 | YearPart = (uint16_t)(Days / DAYS_PER_4YEARS); |
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| 168 | pTimeStruct->Year += YearPart * 4; |
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| 169 | Days = Days % DAYS_PER_4YEARS; |
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| 170 | if(Days < (3* DAYS_PER_YEAR)) YearPart = (uint16_t)(Days / DAYS_PER_YEAR); |
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| 171 | else YearPart = 3; |
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| 172 | pTimeStruct->Year += YearPart; |
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| 173 | // calculate remaining days of year |
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| 174 | Days -= (uint32_t)(YearPart * DAYS_PER_YEAR); |
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| 175 | Days += 1; |
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| 176 | // check if current year is a leap year |
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| 177 | if(IsLeapYear(pTimeStruct->Year)) MonthDayTab = (uint32_t*)Leap; |
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| 178 | else MonthDayTab = (uint32_t*)Normal; |
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| 179 | // seperate month and day from days of year |
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| 180 | for ( i = 0; i < 12; i++ ) |
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| 181 | { |
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| 182 | if ( (MonthDayTab[i]< Days) && (Days <= MonthDayTab[i+1]) ) |
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| 183 | { |
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| 184 | pTimeStruct->Month = i+1; |
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| 185 | pTimeStruct->Day = Days - MonthDayTab[i]; |
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| 186 | i = 12; |
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| 187 | } |
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| 188 | } |
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| 189 | Seconds = Seconds % SECONDS_PER_DAY; // remaining seconds of current day |
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| 190 | pTimeStruct->Hour = (uint8_t)(Seconds / SECONDS_PER_HOUR); |
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| 191 | Seconds = Seconds % SECONDS_PER_HOUR; // remaining seconds of current hour |
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| 192 | pTimeStruct->Min = (uint8_t)(Seconds / SECONDS_PER_MINUTE); |
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| 193 | Seconds = Seconds % SECONDS_PER_MINUTE; // remaining seconds of current minute |
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| 194 | pTimeStruct->Sec = (uint8_t)(Seconds); |
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| 195 | pTimeStruct->mSec = (uint16_t)(UbxSol.itow % 1000L); |
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| 196 | pTimeStruct->Valid = 1; |
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| 197 | } |
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| 198 | else |
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| 199 | { |
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| 200 | pTimeStruct->Valid = 0; |
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| 201 | } |
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| 202 | } |
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| 203 | |||
| 204 | |||
| 205 | |||
| 206 | /********************************************************/ |
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| 207 | /* Initialize UBX Parser */ |
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| 208 | /********************************************************/ |
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| 209 | void UBX_Init(void) |
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| 210 | { |
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| 434 | killagreg | 211 | printf("\r\n UBX init..."); |
| 426 | killagreg | 212 | // mark msg buffers invalid |
| 213 | UbxSol.Status = INVALID; |
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| 214 | UbxPosLlh.Status = INVALID; |
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| 215 | UbxVelNed.Status = INVALID; |
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| 216 | GPSData.Status = INVALID; |
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| 434 | killagreg | 217 | printf("ok"); |
| 426 | killagreg | 218 | } |
| 219 | |||
| 220 | /********************************************************/ |
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| 221 | /* Upate GPS data stcructure */ |
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| 222 | /********************************************************/ |
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| 223 | void Update_GPSData (void) |
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| 224 | { |
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| 225 | static uint16_t Ubx_Timeout = 0; |
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| 226 | static uint8_t Msg_Count = 0; |
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| 227 | |||
| 228 | // the timeout is used to detect the delay between two message sets |
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| 229 | // and is used for synchronisation so that always a set is collected |
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| 230 | // that belongs together |
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| 231 | // _______NAVSOL|POSLLH|VELNED|___________________NAVSOL|POSLLH|VELNED|_____________ |
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| 232 | // | 8ms | 8ms | 184 ms | | | |
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| 233 | // msg_count: 0 1 2 0 1 2 |
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| 234 | |||
| 235 | if(CheckDelay(Ubx_Timeout)) Msg_Count = 0; |
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| 236 | else Msg_Count++; |
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| 237 | Ubx_Timeout = SetDelay(100); // reset ubx msg timeout |
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| 238 | |||
| 239 | // if a new set of ubx messages was collected |
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| 240 | if((Msg_Count >= 2)) |
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| 241 | { // if set is complete |
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| 242 | if((UbxSol.Status == NEWDATA) && (UbxPosLlh.Status == NEWDATA) && (UbxVelNed.Status == NEWDATA)) |
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| 243 | { |
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| 244 | CheckGPSOkay++; |
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| 245 | // update GPS data only if the status is INVALID or PROCESSED and the last ubx message was received within less than 100 ms |
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| 246 | if(GPSData.Status != NEWDATA) // if last data were processed |
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| 247 | { // wait for new data at all neccesary ubx messages |
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| 248 | GPSData.Status = INVALID; |
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| 249 | // NAV SOL |
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| 250 | GPSData.Flags = UbxSol.Flags; |
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| 251 | GPSData.NumOfSats = UbxSol.numSV; |
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| 252 | GPSData.SatFix = UbxSol.GPSfix; |
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| 253 | GPSData.Position_Accuracy = UbxSol.PAcc; |
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| 254 | GPSData.Speed_Accuracy = UbxSol.SAcc; |
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| 255 | SetGPSTime(&SystemTime); // update system time |
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| 256 | // NAV POSLLH |
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| 257 | GPSData.Position.Status = INVALID; |
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| 258 | GPSData.Position.Longitude = UbxPosLlh.LON; |
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| 259 | GPSData.Position.Latitude = UbxPosLlh.LAT; |
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| 260 | GPSData.Position.Altitude = UbxPosLlh.HMSL; |
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| 261 | GPSData.Position.Status = NEWDATA; |
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| 262 | // NAV VELNED |
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| 263 | GPSData.Speed_East = UbxVelNed.VEL_E; |
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| 264 | GPSData.Speed_North = UbxVelNed.VEL_N; |
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| 265 | GPSData.Speed_Top = -UbxVelNed.VEL_D; |
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| 266 | GPSData.Speed_Ground = UbxVelNed.GSpeed; |
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| 267 | GPSData.Heading = UbxVelNed.Heading; |
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| 268 | |||
| 269 | GPSData.Status = NEWDATA; // new data available |
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| 270 | } // EOF if(GPSData.Status != NEWDATA) |
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| 271 | } // EOF all ubx messages received |
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| 272 | // set state to collect new data |
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| 273 | UbxSol.Status = PROCESSED; // ready for new data |
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| 274 | UbxPosLlh.Status = PROCESSED; // ready for new data |
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| 275 | UbxVelNed.Status = PROCESSED; // ready for new data |
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| 276 | } |
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| 277 | } |
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| 278 | |||
| 279 | |||
| 280 | /********************************************************/ |
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| 281 | /* UBX Parser */ |
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| 282 | /********************************************************/ |
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| 283 | void UBX_Parser(uint8_t c) |
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| 284 | { |
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| 285 | static ubxState_t ubxState = UBXSTATE_IDLE; |
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| 286 | static uint16_t msglen; |
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| 287 | static uint8_t cka, ckb; |
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| 288 | static uint8_t *ubxP, *ubxEp, *ubxSp; // pointers to data currently transfered |
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| 289 | |||
| 290 | |||
| 291 | //state machine |
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| 292 | switch (ubxState) // ubx message parser |
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| 293 | { |
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| 294 | case UBXSTATE_IDLE: // check 1st sync byte |
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| 295 | if (c == UBX_SYNC1_CHAR) ubxState = UBXSTATE_SYNC1; |
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| 296 | else ubxState = UBXSTATE_IDLE; // out of synchronization |
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| 297 | break; |
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| 298 | |||
| 299 | case UBXSTATE_SYNC1: // check 2nd sync byte |
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| 300 | if (c == UBX_SYNC2_CHAR) ubxState = UBXSTATE_SYNC2; |
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| 301 | else ubxState = UBXSTATE_IDLE; // out of synchronization |
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| 302 | break; |
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| 303 | |||
| 304 | case UBXSTATE_SYNC2: // check msg class to be NAV |
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| 305 | if (c == UBX_CLASS_NAV) ubxState = UBXSTATE_CLASS; |
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| 306 | else ubxState = UBXSTATE_IDLE; // unsupported message class |
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| 307 | break; |
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| 308 | |||
| 309 | case UBXSTATE_CLASS: // check message identifier |
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| 310 | switch(c) |
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| 311 | { |
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| 312 | case UBX_ID_POSLLH: // geodetic position |
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| 313 | ubxP = (uint8_t *)&UbxPosLlh; // data start pointer |
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| 314 | ubxEp = (uint8_t *)(&UbxPosLlh + 1); // data end pointer |
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| 315 | ubxSp = (uint8_t *)&UbxPosLlh.Status; // status pointer |
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| 316 | break; |
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| 317 | |||
| 318 | case UBX_ID_SOL: // navigation solution |
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| 319 | ubxP = (uint8_t *)&UbxSol; // data start pointer |
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| 320 | ubxEp = (uint8_t *)(&UbxSol + 1); // data end pointer |
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| 321 | ubxSp = (uint8_t *)&UbxSol.Status; // status pointer |
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| 322 | break; |
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| 323 | |||
| 324 | case UBX_ID_VELNED: // velocity vector in tangent plane |
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| 325 | ubxP = (uint8_t *)&UbxVelNed; // data start pointer |
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| 326 | ubxEp = (uint8_t *)(&UbxVelNed + 1); // data end pointer |
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| 327 | ubxSp = (uint8_t *)&UbxVelNed.Status; // status pointer |
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| 328 | break; |
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| 329 | |||
| 330 | default: // unsupported identifier |
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| 331 | ubxState = UBXSTATE_IDLE; |
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| 332 | break; |
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| 333 | } |
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| 334 | if (ubxState != UBXSTATE_IDLE) |
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| 335 | { |
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| 336 | ubxState = UBXSTATE_LEN1; |
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| 337 | cka = UBX_CLASS_NAV + c; |
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| 338 | ckb = UBX_CLASS_NAV + cka; |
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| 339 | } |
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| 340 | break; |
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| 341 | |||
| 342 | case UBXSTATE_LEN1: // 1st message length byte |
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| 343 | msglen = (uint16_t)c; // lowbyte first |
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| 344 | cka += c; |
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| 345 | ckb += cka; |
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| 346 | ubxState = UBXSTATE_LEN2; |
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| 347 | break; |
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| 348 | |||
| 349 | case UBXSTATE_LEN2: // 2nd message length byte |
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| 350 | msglen += ((uint16_t)c)<<8; // high byte last |
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| 351 | cka += c; |
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| 352 | ckb += cka; |
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| 353 | // if the old data are not processed so far then break parsing now |
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| 354 | // to avoid writing new data in ISR during reading by another function |
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| 355 | if ( *ubxSp == NEWDATA ) |
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| 356 | { |
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| 357 | ubxState = UBXSTATE_IDLE; |
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| 358 | Update_GPSData(); //update GPS info respectively |
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| 359 | } |
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| 360 | else // data invalid or allready processd |
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| 361 | { |
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| 362 | *ubxSp = INVALID; // mark invalid during buffer filling |
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| 363 | ubxState = UBXSTATE_DATA; |
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| 364 | } |
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| 365 | break; |
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| 366 | |||
| 367 | case UBXSTATE_DATA: // collecting data |
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| 368 | if (ubxP < ubxEp) |
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| 369 | { |
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| 370 | *ubxP++ = c; // copy curent data byte if any space is left |
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| 371 | cka += c; |
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| 372 | ckb += cka; |
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| 373 | if (--msglen == 0) ubxState = UBXSTATE_CKA; // switch to next state if all data was read |
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| 374 | } |
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| 375 | else // rx buffer overrun |
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| 376 | { |
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| 377 | ubxState = UBXSTATE_IDLE; |
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| 378 | } |
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| 379 | break; |
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| 380 | |||
| 381 | case UBXSTATE_CKA: |
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| 382 | if (c == cka) ubxState = UBXSTATE_CKB; |
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| 383 | else |
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| 384 | { |
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| 385 | *ubxSp = INVALID; |
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| 386 | ubxState = UBXSTATE_IDLE; |
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| 387 | } |
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| 388 | break; |
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| 389 | |||
| 390 | case UBXSTATE_CKB: |
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| 391 | if (c == ckb) |
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| 392 | { |
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| 393 | *ubxSp = NEWDATA; // new data are valid |
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| 394 | Update_GPSData(); //update GPS info respectively |
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| 395 | } |
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| 396 | else |
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| 397 | { // if checksum not match then set data invalid |
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| 398 | *ubxSp = INVALID; |
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| 399 | } |
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| 400 | ubxState = UBXSTATE_IDLE; // ready to parse new data |
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| 401 | break; |
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| 402 | |||
| 403 | default: // unknown ubx state |
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| 404 | ubxState = UBXSTATE_IDLE; |
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| 405 | break; |
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| 406 | |||
| 407 | } |
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| 408 | DebugOut.Analog[9] = GPSData.Speed_North; |
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| 409 | DebugOut.Analog[10] = GPSData.Speed_East; |
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| 410 | DebugOut.Analog[11] = GPSData.Speed_Top; |
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| 411 | DebugOut.Analog[12] = GPSData.NumOfSats; |
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| 412 | DebugOut.Analog[13] = GPSData.Position.Longitude; |
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| 413 | DebugOut.Analog[14] = GPSData.Position.Latitude; |
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| 414 | DebugOut.Analog[15] = GPSData.Position.Altitude; |
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| 415 | } |