ardupilot/libraries/Desktop/support/sitl_gps.cpp

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/*
SITL handling
This simulates a GPS on a serial port
Andrew Tridgell November 2011
*/
#include <unistd.h>
#include <fcntl.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include <math.h>
#include <AP_GPS.h>
#include <AP_GPS_UBLOX.h>
#include "desktop.h"
#include "util.h"
// state of GPS emulation
static struct {
/* pipe emulating UBLOX GPS serial stream */
int gps_fd;
uint32_t last_update; // milliseconds
} gps_state;
/*
hook for reading from the GPS pipe
*/
ssize_t sitl_gps_read(int fd, void *buf, size_t count)
{
return read(fd, buf, count);
}
/*
setup GPS input pipe
*/
int sitl_gps_pipe(void)
{
int fd[2];
pipe(fd);
gps_state.gps_fd = fd[1];
gps_state.last_update = millis();
set_nonblocking(gps_state.gps_fd);
set_nonblocking(fd[0]);
return fd[0];
}
/*
send a UBLOX GPS message
*/
static void gps_send(uint8_t msgid, uint8_t *buf, uint16_t size)
{
const uint8_t PREAMBLE1 = 0xb5;
const uint8_t PREAMBLE2 = 0x62;
const uint8_t CLASS_NAV = 0x1;
uint8_t hdr[6], chk[2];
hdr[0] = PREAMBLE1;
hdr[1] = PREAMBLE2;
hdr[2] = CLASS_NAV;
hdr[3] = msgid;
hdr[4] = size & 0xFF;
hdr[5] = size >> 8;
chk[0] = chk[1] = hdr[2];
chk[1] += (chk[0] += hdr[3]);
chk[1] += (chk[0] += hdr[4]);
chk[1] += (chk[0] += hdr[5]);
for (uint8_t i=0; i<size; i++) {
chk[1] += (chk[0] += buf[i]);
}
write(gps_state.gps_fd, hdr, sizeof(hdr));
write(gps_state.gps_fd, buf, size);
write(gps_state.gps_fd, chk, sizeof(chk));
}
/*
possibly send a new GPS UBLOX packet
*/
void sitl_update_gps(double latitude, double longitude, float altitude,
double speedN, double speedE, bool have_lock)
{
struct ubx_nav_posllh {
uint32_t time; // GPS msToW
int32_t longitude;
int32_t latitude;
int32_t altitude_ellipsoid;
int32_t altitude_msl;
uint32_t horizontal_accuracy;
uint32_t vertical_accuracy;
} pos;
struct ubx_nav_status {
uint32_t time; // GPS msToW
uint8_t fix_type;
uint8_t fix_status;
uint8_t differential_status;
uint8_t res;
uint32_t time_to_first_fix;
uint32_t uptime; // milliseconds
} status;
struct ubx_nav_velned {
uint32_t time; // GPS msToW
int32_t ned_north;
int32_t ned_east;
int32_t ned_down;
uint32_t speed_3d;
uint32_t speed_2d;
int32_t heading_2d;
uint32_t speed_accuracy;
uint32_t heading_accuracy;
} velned;
const uint8_t MSG_POSLLH = 0x2;
const uint8_t MSG_STATUS = 0x3;
const uint8_t MSG_VELNED = 0x12;
double lon_scale;
// 4Hz
if (millis() - gps_state.last_update < 250) {
return;
}
gps_state.last_update = millis();
pos.time = millis(); // FIX
pos.longitude = longitude * 1.0e7;
pos.latitude = latitude * 1.0e7;
pos.altitude_ellipsoid = altitude*1000.0;
pos.altitude_msl = altitude*1000.0;
pos.horizontal_accuracy = 5;
pos.vertical_accuracy = 10;
status.time = pos.time;
status.fix_type = have_lock?3:0;
status.fix_status = have_lock?1:0;
status.differential_status = 0;
status.res = 0;
status.time_to_first_fix = 0;
status.uptime = millis();
velned.time = pos.time;
velned.ned_north = 100.0 * speedN;
velned.ned_east = 100.0 * speedE;
velned.ned_down = 0;
#define sqr(x) ((x)*(x))
velned.speed_2d = sqrt(sqr(speedN)+sqr(speedE)) * 100;
velned.speed_3d = velned.speed_2d;
lon_scale = cos(ToRad(latitude));
velned.heading_2d = ToDeg(atan2(lon_scale*speedE, speedN)) * 100000.0;
velned.speed_accuracy = 2;
velned.heading_accuracy = 4;
if (gps_state.gps_fd == 0) {
return;
}
gps_send(MSG_POSLLH, (uint8_t*)&pos, sizeof(pos));
gps_send(MSG_STATUS, (uint8_t*)&status, sizeof(status));
gps_send(MSG_VELNED, (uint8_t*)&velned, sizeof(velned));
}