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307 lines
9.6 KiB
307 lines
9.6 KiB
/* |
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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 LORD Microstrain serial device |
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*/ |
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#include "SIM_LORD.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_HAL/utility/sparse-endian.h> |
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#include <GCS_MAVLink/GCS.h> |
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using namespace SITL; |
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LORD::LORD() :SerialDevice::SerialDevice() |
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{ |
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} |
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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 LORD::generate_checksum(LORD_Packet& packet) |
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{ |
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uint8_t checksumByte1 = 0; |
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uint8_t checksumByte2 = 0; |
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for (int i = 0; i < 4; i++) { |
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checksumByte1 += packet.header[i]; |
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checksumByte2 += checksumByte1; |
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} |
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for (int i = 0; i < packet.header[3]; i++) { |
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checksumByte1 += packet.payload[i]; |
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checksumByte2 += checksumByte1; |
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} |
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packet.checksum[0] = checksumByte1; |
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packet.checksum[1] = checksumByte2; |
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} |
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void LORD::send_packet(LORD_Packet packet) |
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{ |
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generate_checksum(packet); |
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write_to_autopilot((char *)&packet.header, sizeof(packet.header)); |
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write_to_autopilot((char *)&packet.payload, packet.payload_size); |
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write_to_autopilot((char *)&packet.checksum, sizeof(packet.checksum)); |
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} |
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void LORD::send_imu_packet(void) |
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{ |
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const auto &fdm = _sitl->state; |
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LORD_Packet packet; |
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struct timeval tv; |
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simulation_timeval(&tv); |
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if (start_us == 0) { |
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start_us = tv.tv_usec * 1000; |
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} |
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packet.header[0] = 0x75; // Sync One |
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packet.header[1] = 0x65; // Sync Two |
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packet.header[2] = 0x80; // INS Descriptor |
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// Add ambient pressure field |
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packet.payload[packet.payload_size++] = 0x06; // Ambient Pressure Field Size |
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packet.payload[packet.payload_size++] = 0x17; // Descriptor |
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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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put_float(packet, SSL_AIR_PRESSURE * delta * 0.001 + rand_float() * 0.1); |
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// Add scaled magnetometer field |
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packet.payload[packet.payload_size++] = 0x0E; // Scaled Magnetometer Field Size |
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packet.payload[packet.payload_size++] = 0x06; // Descriptor |
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put_float(packet, fdm.bodyMagField.x*0.001); |
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put_float(packet, fdm.bodyMagField.y*0.001); |
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put_float(packet, fdm.bodyMagField.z*0.001); |
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// Add scaled accelerometer field |
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packet.payload[packet.payload_size++] = 0x0E; // Scaled Accelerometer Field Size |
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packet.payload[packet.payload_size++] = 0x04; // Descriptor |
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put_float(packet, fdm.xAccel / GRAVITY_MSS); |
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put_float(packet, fdm.yAccel / GRAVITY_MSS); |
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put_float(packet, fdm.zAccel / GRAVITY_MSS); |
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// Add scaled gyro field |
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const float gyro_noise = 0.05; |
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packet.payload[packet.payload_size++] = 0x0E; // Scaled Gyro Field Size |
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packet.payload[packet.payload_size++] = 0x05; // Descriptor |
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put_float(packet, radians(fdm.rollRate + rand_float() * gyro_noise)); |
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put_float(packet, radians(fdm.pitchRate + rand_float() * gyro_noise)); |
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put_float(packet, radians(fdm.yawRate + rand_float() * gyro_noise)); |
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// Add CF Quaternion field |
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packet.payload[packet.payload_size++] = 0x12; // CF Quaternion Field Size |
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packet.payload[packet.payload_size++] = 0x0A; // Descriptor |
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put_float(packet, fdm.quaternion.q1); |
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put_float(packet, fdm.quaternion.q2); |
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put_float(packet, fdm.quaternion.q3); |
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put_float(packet, fdm.quaternion.q4); |
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packet.header[3] = packet.payload_size; |
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send_packet(packet); |
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} |
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void LORD::send_gnss_packet(void) |
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{ |
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const auto &fdm = _sitl->state; |
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LORD_Packet packet; |
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struct timeval tv; |
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simulation_timeval(&tv); |
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packet.header[0] = 0x75; // Sync One |
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packet.header[1] = 0x65; // Sync Two |
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packet.header[2] = 0x81; // GNSS Descriptor |
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// Add GPS Time |
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packet.payload[packet.payload_size++] = 0x0E; // GPS Time Field Size |
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packet.payload[packet.payload_size++] = 0x09; // Descriptor |
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put_double(packet, (double) tv.tv_sec); |
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put_int(packet, tv.tv_usec / (AP_MSEC_PER_WEEK * 1000000ULL)); |
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put_int(packet, 0); |
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// Add GNSS Fix Information |
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packet.payload[packet.payload_size++] = 0x08; // GNSS Fix Field Size |
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packet.payload[packet.payload_size++] = 0x0B; // Descriptor |
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packet.payload[packet.payload_size++] = 0x00; // Fix type |
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packet.payload[packet.payload_size++] = 19; // Sat count |
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put_int(packet, 0); // Fix flags |
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put_int(packet, 0); // Valid flags |
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// Add GNSS LLH position |
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packet.payload[packet.payload_size++] = 0x2C; // GNSS LLH Field Size |
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packet.payload[packet.payload_size++] = 0x03; // Descriptor |
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put_double(packet, fdm.latitude); |
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put_double(packet, fdm.longitude); |
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put_double(packet, 0); // Height above ellipsoid - unused |
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put_double(packet, fdm.altitude); |
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put_float(packet, 0.5f); // Horizontal accuracy |
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put_float(packet, 0.5f); // Vertical accuracy |
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put_int(packet, 31); // Valid flags |
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// Add DOP Data |
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packet.payload[packet.payload_size++] = 0x20; // DOP Field Size |
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packet.payload[packet.payload_size++] = 0x07; // Descriptor |
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put_float(packet, 0); // GDOP |
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put_float(packet, 0); // PDOP |
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put_float(packet, 0); // HDOP |
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put_float(packet, 0); // VDOP |
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put_float(packet, 0); // TDOP |
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put_float(packet, 0); // NDOP |
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put_float(packet, 0); // EDOP |
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put_int(packet, 127); |
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// Add GNSS NED velocity |
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packet.payload[packet.payload_size++] = 0x24; // GNSS NED Velocity Field Size |
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packet.payload[packet.payload_size++] = 0x05; // Descriptor |
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put_float(packet, fdm.speedN); |
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put_float(packet, fdm.speedE); |
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put_float(packet, fdm.speedD); |
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put_float(packet, 0); //speed - unused |
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put_float(packet, 0); //ground speed - unused |
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put_float(packet, 0); //heading - unused |
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put_float(packet, 0.25f); //speed accuracy |
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put_float(packet, 0); //heading accuracy - unused |
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put_int(packet, 31); //valid flags |
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packet.header[3] = packet.payload_size; |
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send_packet(packet); |
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} |
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void LORD::send_filter_packet(void) |
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{ |
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const auto &fdm = _sitl->state; |
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LORD_Packet packet; |
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struct timeval tv; |
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simulation_timeval(&tv); |
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packet.header[0] = 0x75; // Sync One |
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packet.header[1] = 0x65; // Sync Two |
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packet.header[2] = 0x82; // Filter Descriptor |
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// Add Filter Time |
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packet.payload[packet.payload_size++] = 0x0E; // Filter Time Field Size |
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packet.payload[packet.payload_size++] = 0x11; // Descriptor |
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put_double(packet, (double) tv.tv_usec / 1e6); |
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put_int(packet, tv.tv_usec / (AP_MSEC_PER_WEEK * 1000000ULL)); |
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put_int(packet, 0x0001); |
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// Add GNSS Filter velocity |
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packet.payload[packet.payload_size++] = 0x10; // GNSS Velocity Field Size |
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packet.payload[packet.payload_size++] = 0x02; // Descriptor |
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put_float(packet, fdm.speedN); |
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put_float(packet, fdm.speedE); |
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put_float(packet, fdm.speedD); |
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put_int(packet, 0x0001); |
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// Add Filter LLH position |
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packet.payload[packet.payload_size++] = 0x1C; // Filter LLH Field Size |
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packet.payload[packet.payload_size++] = 0x01; // Descriptor |
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put_double(packet, fdm.latitude); |
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put_double(packet, fdm.longitude); |
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put_double(packet, 0); // Height above ellipsoid - unused |
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put_int(packet, 0x0001); // Valid flags |
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// Add Filter State |
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packet.payload[packet.payload_size++] = 0x08; // Filter State Field Size |
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packet.payload[packet.payload_size++] = 0x10; // Descriptor |
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put_int(packet, 0x02); // Filter state (Running, Solution Valid) |
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put_int(packet, 0x03); // Dynamics mode (Airborne) |
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put_int(packet, 0); // Filter flags (None, no warnings) |
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packet.header[3] = packet.payload_size; |
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send_packet(packet); |
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} |
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/* |
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send LORD data |
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*/ |
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void LORD::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 us_between_imu_packets = 20000; |
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uint32_t us_between_gnss_packets = 250000; |
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uint32_t us_between_filter_packets = 100000; |
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uint32_t now = AP_HAL::micros(); |
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if (now - last_imu_pkt_us >= us_between_imu_packets) { |
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last_imu_pkt_us = now; |
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send_imu_packet(); |
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} |
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if (now - last_gnss_pkt_us >= us_between_gnss_packets) { |
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last_gnss_pkt_us = now; |
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send_gnss_packet(); |
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} |
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if (now - last_filter_pkt_us >= us_between_filter_packets) { |
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last_filter_pkt_us = now; |
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send_filter_packet(); |
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} |
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} |
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void LORD::put_float(LORD_Packet &packet, float f) |
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{ |
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uint32_t fbits = 0; |
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memcpy(&fbits, &f, sizeof(fbits)); |
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put_be32_ptr(&packet.payload[packet.payload_size], fbits); |
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packet.payload_size += sizeof(float); |
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} |
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void LORD::put_double(LORD_Packet &packet, double d) |
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{ |
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uint64_t dbits = 0; |
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memcpy(&dbits, &d, sizeof(dbits)); |
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put_be64_ptr(&packet.payload[packet.payload_size], dbits); |
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packet.payload_size += sizeof(double); |
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} |
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void LORD::put_int(LORD_Packet &packet, uint16_t t) |
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{ |
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put_be16_ptr(&packet.payload[packet.payload_size], t); |
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packet.payload_size += sizeof(uint16_t); |
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} |
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