ardupilot/libraries/GPS_UBLOX/GPS_UBLOX.cpp

274 lines
8.1 KiB
C++
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/*
GPS_UBLOX.cpp - Ublox GPS library for Arduino
Code by Jordi Muñoz 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´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´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;