ardupilot/libraries/GPS_UBLOX/GPS_UBLOX.cpp

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/*
GPS_UBLOX.cpp - Ublox GPS library for Arduino
Code by Jordi Mu<EFBFBD>oz and Jose Julio. DIYDrones.com
This code works with boards based on ATMega168 / 328 and ATMega1280/2560 (Serial port 1)
This library is free software; you can redistribute it and / or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
GPS configuration : Ublox protocol
Baud rate : 38400
Active messages :
NAV - POSLLH Geodetic Position Solution, PAGE 66 of datasheet
NAV - VELNED Velocity Solution in NED, PAGE 71 of datasheet
NAV - STATUS Receiver Navigation Status
or
NAV - SOL Navigation Solution Information
Methods:
Init() : GPS Initialization
Read() : Call this funcion as often as you want to ensure you read the incomming gps data
Properties:
Lattitude : Lattitude * 10,000,000 (long value)
Longitude : Longitude * 10,000,000 (long value)
Altitude : Altitude * 100 (meters) (long value)
Ground_speed : Speed (m / s) * 100 (long value)
Ground_course : Course (degrees) * 100 (long value)
NewData : 1 when a new data is received.
You need to write a 0 to NewData when you read the data
Fix : 1: GPS FIX, 0: No Fix (normal logic)
*/
#include "GPS_UBLOX.h"
#include <avr/interrupt.h>
#include "WProgram.h"
// Constructors ////////////////////////////////////////////////////////////////
GPS_UBLOX_Class::GPS_UBLOX_Class()
{
}
// Public Methods //////////////////////////////////////////////////////////////
void GPS_UBLOX_Class::Init(void)
{
ck_a = 0;
ck_b = 0;
UBX_step = 0;
NewData = 0;
Fix = 0;
PrintErrors = 0;
GPS_timer = millis(); // Restarting timer...
// Initialize serial port
#if defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
Serial1.begin(38400); // Serial port 1 on ATMega1280/2560
#else
Serial.begin(38400);
#endif
}
// optimization : This code don<6F>t wait for data, only proccess the data available
// We can call this function on the main loop (50Hz loop)
// If we get a complete packet this function calls parse_ubx_gps() to parse and update the GPS info.
void GPS_UBLOX_Class::Read(void)
{
static unsigned long GPS_timer = 0;
byte data;
int numc;
#if defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__) // If AtMega1280/2560 then Serial port 1...
numc = Serial1.available();
#else
numc = Serial.available();
#endif
if (numc > 0)
for (int i = 0; i < numc; i++) // Process bytes received
{
#if defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
data = Serial1.read();
#else
data = Serial.read();
#endif
switch(UBX_step) // Normally we start from zero. This is a state machine
{
case 0:
if(data == 0xB5) // UBX sync char 1
UBX_step++; // OH first data packet is correct, so jump to the next step
break;
case 1:
if(data == 0x62) // UBX sync char 2
UBX_step++; // ooh! The second data packet is correct, jump to the step 2
else
UBX_step = 0; // Nop, is not correct so restart to step zero and try again.
break;
case 2:
UBX_class = data;
ubx_checksum(UBX_class);
UBX_step++;
break;
case 3:
UBX_id = data;
ubx_checksum(UBX_id);
UBX_step++;
break;
case 4:
UBX_payload_length_hi = data;
ubx_checksum(UBX_payload_length_hi);
UBX_step++;
// We check if the payload lenght is valid...
if (UBX_payload_length_hi >= UBX_MAXPAYLOAD)
{
if (PrintErrors)
Serial.println("ERR:GPS_BAD_PAYLOAD_LENGTH!!");
UBX_step = 0; // Bad data, so restart to step zero and try again.
ck_a = 0;
ck_b = 0;
}
break;
case 5:
UBX_payload_length_lo = data;
ubx_checksum(UBX_payload_length_lo);
UBX_step++;
UBX_payload_counter = 0;
break;
case 6: // Payload data read...
if (UBX_payload_counter < UBX_payload_length_hi) // We stay in this state until we reach the payload_length
{
UBX_buffer[UBX_payload_counter] = data;
ubx_checksum(data);
UBX_payload_counter++;
if (UBX_payload_counter == UBX_payload_length_hi)
UBX_step++;
}
break;
case 7:
UBX_ck_a = data; // First checksum byte
UBX_step++;
break;
case 8:
UBX_ck_b = data; // Second checksum byte
// We end the GPS read...
if((ck_a == UBX_ck_a) && (ck_b == UBX_ck_b)) // Verify the received checksum with the generated checksum..
parse_ubx_gps(); // Parse the new GPS packet
else
{
if (PrintErrors)
Serial.println("ERR:GPS_CHK!!");
}
// Variable initialization
UBX_step = 0;
ck_a = 0;
ck_b = 0;
GPS_timer = millis(); // Restarting timer...
break;
}
} // End for...
// If we don<6F>t receive GPS packets in 2 seconds => Bad FIX state
if ((millis() - GPS_timer) > 2000)
{
Fix = 0;
if (PrintErrors)
Serial.println("ERR:GPS_TIMEOUT!!");
}
}
/****************************************************************
*
****************************************************************/
// Private Methods //////////////////////////////////////////////////////////////
void GPS_UBLOX_Class::parse_ubx_gps(void)
{
int j;
//Verifing if we are in class 1, you can change this "IF" for a "Switch" in case you want to use other UBX classes..
//In this case all the message im using are in class 1, to know more about classes check PAGE 60 of DataSheet.
if(UBX_class == 0x01)
{
switch(UBX_id) //Checking the UBX ID
{
case 0x02: // ID NAV - POSLLH
j = 0;
Time = join_4_bytes(&UBX_buffer[j]); // ms Time of week
j += 4;
Longitude = join_4_bytes(&UBX_buffer[j]); // lon * 10000000
j += 4;
Lattitude = join_4_bytes(&UBX_buffer[j]); // lat * 10000000
j += 4;
//Altitude = join_4_bytes(&UBX_buffer[j]); // elipsoid heigth mm
j += 4;
Altitude = (float)join_4_bytes(&UBX_buffer[j]); // MSL heigth mm
Altitude /= 10.;
// Rescale altitude to cm
//j+=4;
/*
hacc = (float)join_4_bytes(&UBX_buffer[j]) / (float)1000;
j += 4;
vacc = (float)join_4_bytes(&UBX_buffer[j]) / (float)1000;
j += 4;
*/
NewData = 1;
break;
case 0x03: //ID NAV - STATUS
//if(UBX_buffer[4] >= 0x03)
if((UBX_buffer[4] >= 0x03) && (UBX_buffer[5] & 0x01))
Fix = 1; // valid position
else
Fix = 0; // invalid position
break;
case 0x06: //ID NAV - SOL
if((UBX_buffer[10] >= 0x03) && (UBX_buffer[11] & 0x01))
Fix = 1; // valid position
else
Fix = 0; // invalid position
UBX_ecefVZ = join_4_bytes(&UBX_buffer[36]); // Vertical Speed in cm / s
NumSats = UBX_buffer[47]; // Number of sats...
break;
case 0x12: // ID NAV - VELNED
j = 16;
Speed_3d = join_4_bytes(&UBX_buffer[j]); // cm / s
j += 4;
Ground_Speed = join_4_bytes(&UBX_buffer[j]); // Ground speed 2D cm / s
j += 4;
Ground_Course = join_4_bytes(&UBX_buffer[j]); // Heading 2D deg * 100000
Ground_Course /= 1000; // Rescale heading to deg * 100
j += 4;
/*
sacc = join_4_bytes(&UBX_buffer[j]) // Speed accuracy
j += 4;
headacc = join_4_bytes(&UBX_buffer[j]) // Heading accuracy
j += 4;
*/
break;
}
}
}
/****************************************************************
*
****************************************************************/
// Join 4 bytes into a long
long GPS_UBLOX_Class::join_4_bytes(unsigned char Buffer[])
{
union long_union {
int32_t dword;
uint8_t byte[4];
} longUnion;
longUnion.byte[0] = *Buffer;
longUnion.byte[1] = *(Buffer + 1);
longUnion.byte[2] = *(Buffer + 2);
longUnion.byte[3] = *(Buffer + 3);
return(longUnion.dword);
}
/****************************************************************
*
****************************************************************/
// Ublox checksum algorithm
void GPS_UBLOX_Class::ubx_checksum(byte ubx_data)
{
ck_a += ubx_data;
ck_b += ck_a;
}
GPS_UBLOX_Class GPS;