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#include <inttypes.h>
#include "ubx.h"
#include "timer0.h"
#include "uart0.h"
// ------------------------------------------------------------------------------------------------
// defines
#define DAYS_FROM_JAN01YEAR0001_TO_JAN6_1980 722819 // the year 0 does not exist!
#define DAYS_PER_YEAR 365
#define DAYS_PER_LEAPYEAR 366
#define DAYS_PER_4YEARS 1461 //((3 * DAYS_PER_YEAR) + DAYS_PER_LEAPYEAR) // years dividable by 4 are leap years
#define DAYS_PER_100YEARS 36524 //((25 * DAYS_PER_4YEARS) - 1) // years dividable by 100 are no leap years
#define DAYS_PER_400YEARS 146097 //((4 * DAYS_PER_100YEARS) + 1L) // but years dividable by 400 are leap years
#define SECONDS_PER_MINUTE 60
#define MINUTES_PER_HOUR 60
#define HOURS_PER_DAY 24
#define DAYS_PER_WEEK 7
#define SECONDS_PER_HOUR 3600 //(SECONDS_PER_MINUTE * MINUTES_PER_HOUR)
#define SECONDS_PER_DAY 86400 //(SECONDS_PER_HOUR * HOURS_PER_DAY)
#define SECONDS_PER_WEEK 604800 //(SECONDS_PER_DAY * DAYS_PER_WEEK)
// days per month in normal and leap years
const uint32_t Leap
[ 13 ] = { 0, 31, 60, 91, 121, 152, 182, 213, 244, 274, 305, 335, 366 };
const uint32_t Normal
[ 13 ] = { 0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334, 365 };
#define LEAP_SECONDS_FROM_1980 15 // the last one was on the Dec 31th 2008
// message sync bytes
#define UBX_SYNC1_CHAR 0xB5
#define UBX_SYNC2_CHAR 0x62
// protocoll identifier
#define UBX_CLASS_NAV 0x01
// message id
#define UBX_ID_POSLLH 0x02
#define UBX_ID_SOL 0x06
#define UBX_ID_VELNED 0x12
// ------------------------------------------------------------------------------------------------
// typedefs
// ubx parser state
typedef enum
{
UBXSTATE_IDLE
,
UBXSTATE_SYNC1
,
UBXSTATE_SYNC2
,
UBXSTATE_CLASS
,
UBXSTATE_LEN1
,
UBXSTATE_LEN2
,
UBXSTATE_DATA
,
UBXSTATE_CKA
,
UBXSTATE_CKB
} ubxState_t
;
typedef struct
{
uint32_t itow
; // ms GPS Millisecond Time of Week
int32_t frac
; // ns remainder of rounded ms above
int16_t week
; // GPS week
uint8_t GPSfix
; // GPSfix Type, range 0..6
uint8_t Flags
; // Navigation Status Flags
int32_t ECEF_X
; // cm ECEF X coordinate
int32_t ECEF_Y
; // cm ECEF Y coordinate
int32_t ECEF_Z
; // cm ECEF Z coordinate
int32_t PAcc
; // cm 3D Position Accuracy Estimate
int32_t ECEFVX
; // cm/s ECEF X velocity
int32_t ECEFVY
; // cm/s ECEF Y velocity
int32_t ECEFVZ
; // cm/s ECEF Z velocity
uint32_t SAcc
; // cm/s Speed Accuracy Estimate
uint16_t PDOP
; // 0.01 Position DOP
uint8_t res1
; // reserved
uint8_t numSV
; // Number of SVs used in navigation solution
uint32_t res2
; // reserved
uint8_t Status
; // invalid/newdata/processed
} __attribute__
((packed
)) ubx_nav_sol_t
;
typedef struct
{
uint32_t itow
; // ms GPS Millisecond Time of Week
int32_t VEL_N
; // cm/s NED north velocity
int32_t VEL_E
; // cm/s NED east velocity
int32_t VEL_D
; // cm/s NED down velocity
int32_t Speed
; // cm/s Speed (3-D)
int32_t GSpeed
; // cm/s Ground Speed (2-D)
int32_t Heading
; // 1e-05 deg Heading 2-D
uint32_t SAcc
; // cm/s Speed Accuracy Estimate
uint32_t CAcc
; // deg Course / Heading Accuracy Estimate
uint8_t Status
; // invalid/newdata/processed
} __attribute__
((packed
)) ubx_nav_velned_t
;
typedef struct
{
uint32_t itow
; // ms GPS Millisecond Time of Week
int32_t LON
; // 1e-07 deg Longitude
int32_t LAT
; // 1e-07 deg Latitude
int32_t HEIGHT
; // mm Height above Ellipsoid
int32_t HMSL
; // mm Height above mean sea level
uint32_t Hacc
; // mm Horizontal Accuracy Estimate
uint32_t Vacc
; // mm Vertical Accuracy Estimate
uint8_t Status
; // invalid/newdata/processed
} __attribute__
((packed
)) ubx_nav_posllh_t
;
//------------------------------------------------------------------------------------
// global variables
// local buffers for the incomming ubx messages
volatile ubx_nav_sol_t UbxSol
= {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, INVALID
};
volatile ubx_nav_posllh_t UbxPosLlh
= {0,0,0,0,0,0,0, INVALID
};
volatile ubx_nav_velned_t UbxVelNed
= {0,0,0,0,0,0,0,0,0, INVALID
};
uint16_t CheckGPSOkay
= 0;
// shared buffer
gps_data_t GPSData
= {{0,0,0,INVALID
},0,0,0,0,0,0,0, INVALID
};
//------------------------------------------------------------------------------------
// functions
uint8_t IsLeapYear
(uint16_t year
)
{
if((year
%400 == 0) || ( (year
%4 == 0) && (year
%100 != 0) ) ) return 1;
else return 0;
}
/********************************************************/
/* Calculates the UTC Time from the GPS week and tow */
/********************************************************/
void SetGPSTime
(DateTime_t
* pTimeStruct
)
{
uint32_t Days
, Seconds
, Week
;
uint16_t YearPart
;
uint32_t * MonthDayTab
= 0;
uint8_t i
;
// if GPS data show valid time data
if((UbxSol.
Status != INVALID
) && (UbxSol.
Flags & FLAG_WKNSET
) && (UbxSol.
Flags & FLAG_TOWSET
) )
{
Seconds
= UbxSol.
itow / 1000L;
Week
= (uint32_t)UbxSol.
week;
// correct leap seconds since 1980
if(Seconds
< LEAP_SECONDS_FROM_1980
)
{
Week
--;
Seconds
= SECONDS_PER_WEEK
- LEAP_SECONDS_FROM_1980
+ Seconds
;
}
else Seconds
-= LEAP_SECONDS_FROM_1980
;
Days
= DAYS_FROM_JAN01YEAR0001_TO_JAN6_1980
;
Days
+= (Week
* DAYS_PER_WEEK
);
Days
+= Seconds
/ SECONDS_PER_DAY
; // seperate days from GPS seconds of week
pTimeStruct
->Year
= 1;
YearPart
= (uint16_t)(Days
/ DAYS_PER_400YEARS
);
pTimeStruct
->Year
+= YearPart
* 400;
Days
= Days
% DAYS_PER_400YEARS
;
YearPart
= (uint16_t)(Days
/ DAYS_PER_100YEARS
);
pTimeStruct
->Year
+= YearPart
* 100;
Days
= Days
% DAYS_PER_100YEARS
;
YearPart
= (uint16_t)(Days
/ DAYS_PER_4YEARS
);
pTimeStruct
->Year
+= YearPart
* 4;
Days
= Days
% DAYS_PER_4YEARS
;
if(Days
< (3* DAYS_PER_YEAR
)) YearPart
= (uint16_t)(Days
/ DAYS_PER_YEAR
);
else YearPart
= 3;
pTimeStruct
->Year
+= YearPart
;
// calculate remaining days of year
Days
-= (uint32_t)(YearPart
* DAYS_PER_YEAR
);
Days
+= 1;
// check if current year is a leap year
if(IsLeapYear
(pTimeStruct
->Year
)) MonthDayTab
= (uint32_t*)Leap
;
else MonthDayTab
= (uint32_t*)Normal
;
// seperate month and day from days of year
for ( i
= 0; i
< 12; i
++ )
{
if ( (MonthDayTab
[i
]< Days
) && (Days
<= MonthDayTab
[i
+1]) )
{
pTimeStruct
->Month
= i
+1;
pTimeStruct
->Day
= Days
- MonthDayTab
[i
];
i
= 12;
}
}
Seconds
= Seconds
% SECONDS_PER_DAY
; // remaining seconds of current day
pTimeStruct
->Hour
= (uint8_t)(Seconds
/ SECONDS_PER_HOUR
);
Seconds
= Seconds
% SECONDS_PER_HOUR
; // remaining seconds of current hour
pTimeStruct
->Min
= (uint8_t)(Seconds
/ SECONDS_PER_MINUTE
);
Seconds
= Seconds
% SECONDS_PER_MINUTE
; // remaining seconds of current minute
pTimeStruct
->Sec
= (uint8_t)(Seconds
);
pTimeStruct
->mSec
= (uint16_t)(UbxSol.
itow % 1000L);
pTimeStruct
->Valid
= 1;
}
else
{
pTimeStruct
->Valid
= 0;
}
}
/********************************************************/
/* Initialize UBX Parser */
/********************************************************/
void UBX_Init
(void)
{
printf("\r\n UBX init...");
// mark msg buffers invalid
UbxSol.
Status = INVALID
;
UbxPosLlh.
Status = INVALID
;
UbxVelNed.
Status = INVALID
;
GPSData.
Status = INVALID
;
printf("ok");
}
/********************************************************/
/* Upate GPS data stcructure */
/********************************************************/
void Update_GPSData
(void)
{
static uint16_t Ubx_Timeout
= 0;
static uint8_t Msg_Count
= 0;
// the timeout is used to detect the delay between two message sets
// and is used for synchronisation so that always a set is collected
// that belongs together
// _______NAVSOL|POSLLH|VELNED|___________________NAVSOL|POSLLH|VELNED|_____________
// | 8ms | 8ms | 184 ms | | |
// msg_count: 0 1 2 0 1 2
if(CheckDelay
(Ubx_Timeout
)) Msg_Count
= 0;
else Msg_Count
++;
Ubx_Timeout
= SetDelay
(100); // reset ubx msg timeout
// if a new set of ubx messages was collected
if((Msg_Count
>= 2))
{ // if set is complete
if((UbxSol.
Status == NEWDATA
) && (UbxPosLlh.
Status == NEWDATA
) && (UbxVelNed.
Status == NEWDATA
))
{
CheckGPSOkay
++;
// update GPS data only if the status is INVALID or PROCESSED and the last ubx message was received within less than 100 ms
if(GPSData.
Status != NEWDATA
) // if last data were processed
{ // wait for new data at all neccesary ubx messages
GPSData.
Status = INVALID
;
// NAV SOL
GPSData.
Flags = UbxSol.
Flags;
GPSData.
NumOfSats = UbxSol.
numSV;
GPSData.
SatFix = UbxSol.
GPSfix;
GPSData.
Position_Accuracy = UbxSol.
PAcc;
GPSData.
Speed_Accuracy = UbxSol.
SAcc;
SetGPSTime
(&SystemTime
); // update system time
// NAV POSLLH
GPSData.
Position.
Status = INVALID
;
GPSData.
Position.
Longitude = UbxPosLlh.
LON;
GPSData.
Position.
Latitude = UbxPosLlh.
LAT;
GPSData.
Position.
Altitude = UbxPosLlh.
HMSL;
GPSData.
Position.
Status = NEWDATA
;
// NAV VELNED
GPSData.
Speed_East = UbxVelNed.
VEL_E;
GPSData.
Speed_North = UbxVelNed.
VEL_N;
GPSData.
Speed_Top = -UbxVelNed.
VEL_D;
GPSData.
Speed_Ground = UbxVelNed.
GSpeed;
GPSData.
Heading = UbxVelNed.
Heading;
GPSData.
Status = NEWDATA
; // new data available
} // EOF if(GPSData.Status != NEWDATA)
} // EOF all ubx messages received
// set state to collect new data
UbxSol.
Status = PROCESSED
; // ready for new data
UbxPosLlh.
Status = PROCESSED
; // ready for new data
UbxVelNed.
Status = PROCESSED
; // ready for new data
}
}
/********************************************************/
/* UBX Parser */
/********************************************************/
void UBX_Parser
(uint8_t c
)
{
static ubxState_t ubxState
= UBXSTATE_IDLE
;
static uint16_t msglen
;
static uint8_t cka
, ckb
;
static uint8_t *ubxP
, *ubxEp
, *ubxSp
; // pointers to data currently transfered
//state machine
switch (ubxState
) // ubx message parser
{
case UBXSTATE_IDLE
: // check 1st sync byte
if (c
== UBX_SYNC1_CHAR
) ubxState
= UBXSTATE_SYNC1
;
else ubxState
= UBXSTATE_IDLE
; // out of synchronization
break;
case UBXSTATE_SYNC1
: // check 2nd sync byte
if (c
== UBX_SYNC2_CHAR
) ubxState
= UBXSTATE_SYNC2
;
else ubxState
= UBXSTATE_IDLE
; // out of synchronization
break;
case UBXSTATE_SYNC2
: // check msg class to be NAV
if (c
== UBX_CLASS_NAV
) ubxState
= UBXSTATE_CLASS
;
else ubxState
= UBXSTATE_IDLE
; // unsupported message class
break;
case UBXSTATE_CLASS
: // check message identifier
switch(c
)
{
case UBX_ID_POSLLH
: // geodetic position
ubxP
= (uint8_t *)&UbxPosLlh
; // data start pointer
ubxEp
= (uint8_t *)(&UbxPosLlh
+ 1); // data end pointer
ubxSp
= (uint8_t *)&UbxPosLlh.
Status; // status pointer
break;
case UBX_ID_SOL
: // navigation solution
ubxP
= (uint8_t *)&UbxSol
; // data start pointer
ubxEp
= (uint8_t *)(&UbxSol
+ 1); // data end pointer
ubxSp
= (uint8_t *)&UbxSol.
Status; // status pointer
break;
case UBX_ID_VELNED
: // velocity vector in tangent plane
ubxP
= (uint8_t *)&UbxVelNed
; // data start pointer
ubxEp
= (uint8_t *)(&UbxVelNed
+ 1); // data end pointer
ubxSp
= (uint8_t *)&UbxVelNed.
Status; // status pointer
break;
default: // unsupported identifier
ubxState
= UBXSTATE_IDLE
;
break;
}
if (ubxState
!= UBXSTATE_IDLE
)
{
ubxState
= UBXSTATE_LEN1
;
cka
= UBX_CLASS_NAV
+ c
;
ckb
= UBX_CLASS_NAV
+ cka
;
}
break;
case UBXSTATE_LEN1
: // 1st message length byte
msglen
= (uint16_t)c
; // lowbyte first
cka
+= c
;
ckb
+= cka
;
ubxState
= UBXSTATE_LEN2
;
break;
case UBXSTATE_LEN2
: // 2nd message length byte
msglen
+= ((uint16_t)c
)<<8; // high byte last
cka
+= c
;
ckb
+= cka
;
// if the old data are not processed so far then break parsing now
// to avoid writing new data in ISR during reading by another function
if ( *ubxSp
== NEWDATA
)
{
ubxState
= UBXSTATE_IDLE
;
Update_GPSData
(); //update GPS info respectively
}
else // data invalid or allready processd
{
*ubxSp
= INVALID
; // mark invalid during buffer filling
ubxState
= UBXSTATE_DATA
;
}
break;
case UBXSTATE_DATA
: // collecting data
if (ubxP
< ubxEp
)
{
*ubxP
++ = c
; // copy curent data byte if any space is left
cka
+= c
;
ckb
+= cka
;
if (--msglen
== 0) ubxState
= UBXSTATE_CKA
; // switch to next state if all data was read
}
else // rx buffer overrun
{
ubxState
= UBXSTATE_IDLE
;
}
break;
case UBXSTATE_CKA
:
if (c
== cka
) ubxState
= UBXSTATE_CKB
;
else
{
*ubxSp
= INVALID
;
ubxState
= UBXSTATE_IDLE
;
}
break;
case UBXSTATE_CKB
:
if (c
== ckb
)
{
*ubxSp
= NEWDATA
; // new data are valid
Update_GPSData
(); //update GPS info respectively
}
else
{ // if checksum not match then set data invalid
*ubxSp
= INVALID
;
}
ubxState
= UBXSTATE_IDLE
; // ready to parse new data
break;
default: // unknown ubx state
ubxState
= UBXSTATE_IDLE
;
break;
}
DebugOut.
Analog[9] = GPSData.
Speed_North;
DebugOut.
Analog[10] = GPSData.
Speed_East;
DebugOut.
Analog[11] = GPSData.
Speed_Top;
DebugOut.
Analog[12] = GPSData.
NumOfSats;
DebugOut.
Analog[13] = GPSData.
Position.
Longitude;
DebugOut.
Analog[14] = GPSData.
Position.
Latitude;
DebugOut.
Analog[15] = GPSData.
Position.
Altitude;
}