mirror of https://github.com/ArduPilot/ardupilot
225 lines
5.9 KiB
C++
225 lines
5.9 KiB
C++
/*
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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/*
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simulate VectorNav serial AHRS
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*/
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#include "SIM_VectorNav.h"
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#include <stdio.h>
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#include <unistd.h>
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#include <fcntl.h>
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#include <AP_Common/NMEA.h>
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using namespace SITL;
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VectorNav::VectorNav() :
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SerialDevice::SerialDevice()
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{
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}
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struct PACKED VN_packet1 {
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float uncompMag[3];
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float uncompAccel[3];
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float uncompAngRate[3];
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float pressure;
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float mag[3];
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float accel[3];
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float gyro[3];
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float ypr[3];
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float quaternion[4];
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float yprU[3];
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double positionLLA[3];
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float velNED[3];
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float posU;
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float velU;
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};
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struct PACKED VN_packet2 {
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uint64_t timeGPS;
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float temp;
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uint8_t numGPS1Sats;
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uint8_t GPS1Fix;
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double GPS1posLLA[3];
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float GPS1velNED[3];
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float GPS1DOP[7];
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uint8_t numGPS2Sats;
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uint8_t GPS2Fix;
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};
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#define VN_PKT1_HEADER { 0xFA, 0x34, 0x2E, 0x07, 0x06, 0x01, 0x12, 0x06 }
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#define VN_PKT2_HEADER { 0xFA, 0x4E, 0x02, 0x00, 0x10, 0x00, 0xB8, 0x20, 0x18, 0x00 }
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/*
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get timeval using simulation time
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*/
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static void simulation_timeval(struct timeval *tv)
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{
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uint64_t now = AP_HAL::micros64();
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static uint64_t first_usec;
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static struct timeval first_tv;
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if (first_usec == 0) {
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first_usec = now;
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first_tv.tv_sec = AP::sitl()->start_time_UTC;
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}
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*tv = first_tv;
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tv->tv_sec += now / 1000000ULL;
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uint64_t new_usec = tv->tv_usec + (now % 1000000ULL);
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tv->tv_sec += new_usec / 1000000ULL;
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tv->tv_usec = new_usec % 1000000ULL;
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}
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void VectorNav::send_packet1(void)
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{
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const auto &fdm = _sitl->state;
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struct VN_packet1 pkt {};
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pkt.uncompAccel[0] = fdm.xAccel;
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pkt.uncompAccel[1] = fdm.yAccel;
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pkt.uncompAccel[2] = fdm.zAccel;
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const float gyro_noise = 0.05;
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pkt.uncompAngRate[0] = radians(fdm.rollRate + gyro_noise * rand_float());
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pkt.uncompAngRate[1] = radians(fdm.pitchRate + gyro_noise * rand_float());
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pkt.uncompAngRate[2] = radians(fdm.yawRate + gyro_noise * rand_float());
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float sigma, delta, theta;
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AP_Baro::SimpleAtmosphere(fdm.altitude * 0.001f, sigma, delta, theta);
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pkt.pressure = SSL_AIR_PRESSURE * delta * 0.001 + rand_float() * 0.01;
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pkt.mag[0] = fdm.bodyMagField.x*0.001;
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pkt.mag[1] = fdm.bodyMagField.y*0.001;
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pkt.mag[2] = fdm.bodyMagField.z*0.001;
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pkt.uncompMag[0] = pkt.mag[0];
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pkt.uncompMag[1] = pkt.mag[1];
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pkt.uncompMag[2] = pkt.mag[2];
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pkt.accel[0] = fdm.xAccel;
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pkt.accel[1] = fdm.yAccel;
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pkt.accel[2] = fdm.zAccel;
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pkt.gyro[0] = radians(fdm.rollRate + rand_float() * gyro_noise);
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pkt.gyro[1] = radians(fdm.pitchRate + rand_float() * gyro_noise);
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pkt.gyro[2] = radians(fdm.yawRate + rand_float() * gyro_noise);
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pkt.ypr[0] = fdm.yawDeg;
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pkt.ypr[1] = fdm.pitchDeg;
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pkt.ypr[2] = fdm.rollDeg;
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pkt.quaternion[0] = fdm.quaternion.q2;
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pkt.quaternion[1] = fdm.quaternion.q3;
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pkt.quaternion[2] = fdm.quaternion.q4;
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pkt.quaternion[3] = fdm.quaternion.q1;
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pkt.positionLLA[0] = fdm.latitude;
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pkt.positionLLA[1] = fdm.longitude;
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pkt.positionLLA[2] = fdm.altitude;
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pkt.velNED[0] = fdm.speedN;
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pkt.velNED[1] = fdm.speedE;
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pkt.velNED[2] = fdm.speedD;
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pkt.posU = 0.5;
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pkt.velU = 0.25;
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const uint8_t header[] VN_PKT1_HEADER;
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write_to_autopilot((char *)&header, sizeof(header));
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write_to_autopilot((char *)&pkt, sizeof(pkt));
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uint16_t crc = crc16_ccitt(&header[1], sizeof(header)-1, 0);
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crc = crc16_ccitt((const uint8_t *)&pkt, sizeof(pkt), crc);
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uint16_t crc2;
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swab(&crc, &crc2, 2);
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write_to_autopilot((char *)&crc2, sizeof(crc2));
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}
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void VectorNav::send_packet2(void)
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{
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const auto &fdm = _sitl->state;
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struct VN_packet2 pkt {};
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struct timeval tv;
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simulation_timeval(&tv);
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pkt.timeGPS = tv.tv_usec * 1000ULL;
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pkt.temp = 23.5;
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pkt.numGPS1Sats = 19;
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pkt.GPS1Fix = 3;
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pkt.GPS1posLLA[0] = fdm.latitude;
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pkt.GPS1posLLA[1] = fdm.longitude;
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pkt.GPS1posLLA[2] = fdm.altitude;
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pkt.GPS1velNED[0] = fdm.speedN;
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pkt.GPS1velNED[1] = fdm.speedE;
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pkt.GPS1velNED[2] = fdm.speedD;
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// pkt.GPS1DOP =
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pkt.numGPS2Sats = 18;
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pkt.GPS2Fix = 3;
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const uint8_t header[] VN_PKT2_HEADER;
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write_to_autopilot((char *)&header, sizeof(header));
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write_to_autopilot((char *)&pkt, sizeof(pkt));
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uint16_t crc = crc16_ccitt(&header[1], sizeof(header)-1, 0);
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crc = crc16_ccitt((const uint8_t *)&pkt, sizeof(pkt), crc);
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uint16_t crc2;
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swab(&crc, &crc2, 2);
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write_to_autopilot((char *)&crc2, sizeof(crc2));
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}
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void VectorNav::nmea_printf(const char *fmt, ...)
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{
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va_list ap;
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va_start(ap, fmt);
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char *s = nmea_vaprintf(fmt, ap);
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va_end(ap);
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if (s != nullptr) {
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write_to_autopilot((const char*)s, strlen(s));
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free(s);
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}
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}
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/*
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send VectorNav data
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*/
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void VectorNav::update(void)
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{
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if (!init_sitl_pointer()) {
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return;
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}
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uint32_t now = AP_HAL::micros();
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if (now - last_pkt1_us >= 20000) {
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last_pkt1_us = now;
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send_packet1();
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}
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if (now - last_pkt2_us >= 200000) {
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last_pkt2_us = now;
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send_packet2();
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}
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// Strictly we should send this in responce to the request
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// but sending it occasionally acheaves the same thing
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if (now - last_type_us >= 1000000) {
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last_type_us = now;
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nmea_printf("$VNRRG,01,VN-300-SITL");
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}
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}
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