#include "AP_Periph.h" #ifdef HAL_PERIPH_ENABLE_GPS /* GPS support */ #include #include #define DEBUG_PRINTS 0 #if DEBUG_PRINTS # define Debug(fmt, args ...) do {can_printf(fmt "\n", ## args);} while(0) #else # define Debug(fmt, args ...) #endif /* handle gnss::RTCMStream */ void AP_Periph_FW::handle_RTCMStream(CanardInstance* canard_instance, CanardRxTransfer* transfer) { uavcan_equipment_gnss_RTCMStream req; if (uavcan_equipment_gnss_RTCMStream_decode(transfer, &req)) { return; } gps.handle_gps_rtcm_fragment(0, req.data.data, req.data.len); } /* handle gnss::MovingBaselineData */ #if GPS_MOVING_BASELINE void AP_Periph_FW::handle_MovingBaselineData(CanardInstance* canard_instance, CanardRxTransfer* transfer) { ardupilot_gnss_MovingBaselineData msg; if (ardupilot_gnss_MovingBaselineData_decode(transfer, &msg)) { return; } gps.inject_MBL_data(msg.data.data, msg.data.len); Debug("MovingBaselineData: len=%u\n", msg.data.len); } #endif // GPS_MOVING_BASELINE /* convert large values to NaN for float16 */ static void check_float16_range(float *v, uint8_t len) { for (uint8_t i=0; i= f16max) { v[i] = nanf(""); } } } /* update CAN GPS */ void AP_Periph_FW::can_gps_update(void) { if (gps.get_type(0) == AP_GPS::GPS_Type::GPS_TYPE_NONE) { return; } gps.update(); send_moving_baseline_msg(); send_relposheading_msg(); if (last_gps_update_ms == gps.last_message_time_ms()) { return; } last_gps_update_ms = gps.last_message_time_ms(); { /* send Fix2 packet */ uavcan_equipment_gnss_Fix2 pkt {}; const Location &loc = gps.location(); const Vector3f &vel = gps.velocity(); if (gps.status() < AP_GPS::GPS_OK_FIX_2D && !saw_gps_lock_once) { pkt.timestamp.usec = AP_HAL::micros64(); pkt.gnss_timestamp.usec = 0; } else { saw_gps_lock_once = true; pkt.timestamp.usec = gps.time_epoch_usec(); pkt.gnss_timestamp.usec = gps.last_message_epoch_usec(); } if (pkt.gnss_timestamp.usec == 0) { pkt.gnss_time_standard = UAVCAN_EQUIPMENT_GNSS_FIX_GNSS_TIME_STANDARD_NONE; } else { pkt.gnss_time_standard = UAVCAN_EQUIPMENT_GNSS_FIX_GNSS_TIME_STANDARD_UTC; } pkt.longitude_deg_1e8 = uint64_t(loc.lng) * 10ULL; pkt.latitude_deg_1e8 = uint64_t(loc.lat) * 10ULL; pkt.height_ellipsoid_mm = loc.alt * 10; pkt.height_msl_mm = loc.alt * 10; float undulation; if (gps.get_undulation(undulation)) { pkt.height_ellipsoid_mm -= undulation*1000; } for (uint8_t i=0; i<3; i++) { pkt.ned_velocity[i] = vel[i]; } pkt.sats_used = gps.num_sats(); switch (gps.status()) { case AP_GPS::GPS_Status::NO_GPS: case AP_GPS::GPS_Status::NO_FIX: pkt.status = UAVCAN_EQUIPMENT_GNSS_FIX2_STATUS_NO_FIX; pkt.mode = UAVCAN_EQUIPMENT_GNSS_FIX2_MODE_SINGLE; pkt.sub_mode = UAVCAN_EQUIPMENT_GNSS_FIX2_SUB_MODE_DGPS_OTHER; break; case AP_GPS::GPS_Status::GPS_OK_FIX_2D: pkt.status = UAVCAN_EQUIPMENT_GNSS_FIX2_STATUS_2D_FIX; pkt.mode = UAVCAN_EQUIPMENT_GNSS_FIX2_MODE_SINGLE; pkt.sub_mode = UAVCAN_EQUIPMENT_GNSS_FIX2_SUB_MODE_DGPS_OTHER; break; case AP_GPS::GPS_Status::GPS_OK_FIX_3D: pkt.status = UAVCAN_EQUIPMENT_GNSS_FIX2_STATUS_3D_FIX; pkt.mode = UAVCAN_EQUIPMENT_GNSS_FIX2_MODE_SINGLE; pkt.sub_mode = UAVCAN_EQUIPMENT_GNSS_FIX2_SUB_MODE_DGPS_OTHER; break; case AP_GPS::GPS_Status::GPS_OK_FIX_3D_DGPS: pkt.status = UAVCAN_EQUIPMENT_GNSS_FIX2_STATUS_3D_FIX; pkt.mode = UAVCAN_EQUIPMENT_GNSS_FIX2_MODE_DGPS; pkt.sub_mode = UAVCAN_EQUIPMENT_GNSS_FIX2_SUB_MODE_DGPS_SBAS; break; case AP_GPS::GPS_Status::GPS_OK_FIX_3D_RTK_FLOAT: pkt.status = UAVCAN_EQUIPMENT_GNSS_FIX2_STATUS_3D_FIX; pkt.mode = UAVCAN_EQUIPMENT_GNSS_FIX2_MODE_RTK; pkt.sub_mode = UAVCAN_EQUIPMENT_GNSS_FIX2_SUB_MODE_RTK_FLOAT; break; case AP_GPS::GPS_Status::GPS_OK_FIX_3D_RTK_FIXED: pkt.status = UAVCAN_EQUIPMENT_GNSS_FIX2_STATUS_3D_FIX; pkt.mode = UAVCAN_EQUIPMENT_GNSS_FIX2_MODE_RTK; pkt.sub_mode = UAVCAN_EQUIPMENT_GNSS_FIX2_SUB_MODE_RTK_FIXED; break; } pkt.covariance.len = 6; float hacc; if (gps.horizontal_accuracy(hacc)) { pkt.covariance.data[0] = pkt.covariance.data[1] = sq(hacc); } float vacc; if (gps.vertical_accuracy(vacc)) { pkt.covariance.data[2] = sq(vacc); } float sacc; if (gps.speed_accuracy(sacc)) { float vc3 = sq(sacc); pkt.covariance.data[3] = pkt.covariance.data[4] = pkt.covariance.data[5] = vc3; } check_float16_range(pkt.covariance.data, pkt.covariance.len); uint8_t buffer[UAVCAN_EQUIPMENT_GNSS_FIX2_MAX_SIZE]; uint16_t total_size = uavcan_equipment_gnss_Fix2_encode(&pkt, buffer, !canfdout()); canard_broadcast(UAVCAN_EQUIPMENT_GNSS_FIX2_SIGNATURE, UAVCAN_EQUIPMENT_GNSS_FIX2_ID, CANARD_TRANSFER_PRIORITY_LOW, &buffer[0], total_size); } /* send aux packet */ { uavcan_equipment_gnss_Auxiliary aux {}; aux.hdop = gps.get_hdop() * 0.01; aux.vdop = gps.get_vdop() * 0.01; uint8_t buffer[UAVCAN_EQUIPMENT_GNSS_AUXILIARY_MAX_SIZE]; uint16_t total_size = uavcan_equipment_gnss_Auxiliary_encode(&aux, buffer, !canfdout()); canard_broadcast(UAVCAN_EQUIPMENT_GNSS_AUXILIARY_SIGNATURE, UAVCAN_EQUIPMENT_GNSS_AUXILIARY_ID, CANARD_TRANSFER_PRIORITY_LOW, &buffer[0], total_size); } // send the gnss status packet { ardupilot_gnss_Status status {}; status.healthy = gps.is_healthy(); if (gps.logging_present() && gps.logging_enabled() && !gps.logging_failed()) { status.status |= ARDUPILOT_GNSS_STATUS_STATUS_LOGGING; } uint8_t idx; // unused if (status.healthy && !gps.first_unconfigured_gps(idx)) { status.status |= ARDUPILOT_GNSS_STATUS_STATUS_ARMABLE; } uint32_t error_codes; if (gps.get_error_codes(error_codes)) { status.error_codes = error_codes; } uint8_t buffer[ARDUPILOT_GNSS_STATUS_MAX_SIZE]; const uint16_t total_size = ardupilot_gnss_Status_encode(&status, buffer, !canfdout()); canard_broadcast(ARDUPILOT_GNSS_STATUS_SIGNATURE, ARDUPILOT_GNSS_STATUS_ID, CANARD_TRANSFER_PRIORITY_LOW, &buffer[0], total_size); } // send Heading message if we are not sending RelPosHeading messages and have yaw if (gps.have_gps_yaw() && last_relposheading_ms == 0) { float yaw_deg, yaw_acc_deg; uint32_t yaw_time_ms; if (gps.gps_yaw_deg(yaw_deg, yaw_acc_deg, yaw_time_ms) && yaw_time_ms != last_gps_yaw_ms) { last_gps_yaw_ms = yaw_time_ms; ardupilot_gnss_Heading heading {}; heading.heading_valid = true; heading.heading_accuracy_valid = is_positive(yaw_acc_deg); heading.heading_rad = radians(yaw_deg); heading.heading_accuracy_rad = radians(yaw_acc_deg); uint8_t buffer[ARDUPILOT_GNSS_HEADING_MAX_SIZE]; const uint16_t total_size = ardupilot_gnss_Heading_encode(&heading, buffer, !canfdout()); canard_broadcast(ARDUPILOT_GNSS_HEADING_SIGNATURE, ARDUPILOT_GNSS_HEADING_ID, CANARD_TRANSFER_PRIORITY_LOW, &buffer[0], total_size); } } } void AP_Periph_FW::send_moving_baseline_msg() { #if GPS_MOVING_BASELINE const uint8_t *data = nullptr; uint16_t len = 0; if (!gps.get_RTCMV3(data, len)) { return; } if (len == 0 || data == nullptr) { return; } /* send the packet from Moving Base to be used RelPosHeading calc by GPS module for long RTCMv3 packets we may need to split it up */ uint8_t iface_mask = 0; #if HAL_NUM_CAN_IFACES >= 2 && CANARD_MULTI_IFACE if (gps_mb_can_port != -1 && (gps_mb_can_port < HAL_NUM_CAN_IFACES)) { iface_mask = 1U< 0) { ardupilot_gnss_MovingBaselineData mbldata {}; const uint16_t n = MIN(len, sizeof(mbldata.data.data)); mbldata.data.len = n; memcpy(mbldata.data.data, data, n); uint8_t buffer[ARDUPILOT_GNSS_MOVINGBASELINEDATA_MAX_SIZE]; const uint16_t total_size = ardupilot_gnss_MovingBaselineData_encode(&mbldata, buffer, !canfdout()); canard_broadcast(ARDUPILOT_GNSS_MOVINGBASELINEDATA_SIGNATURE, ARDUPILOT_GNSS_MOVINGBASELINEDATA_ID, CANARD_TRANSFER_PRIORITY_LOW, &buffer[0], total_size, iface_mask); len -= n; data += n; } gps.clear_RTCMV3(); #endif // GPS_MOVING_BASELINE } void AP_Periph_FW::send_relposheading_msg() { #if GPS_MOVING_BASELINE float reported_heading; float relative_distance; float relative_down_pos; float reported_heading_acc; uint32_t curr_timestamp = 0; if (!gps.get_RelPosHeading(curr_timestamp, reported_heading, relative_distance, relative_down_pos, reported_heading_acc) || last_relposheading_ms == curr_timestamp) { return; } last_relposheading_ms = curr_timestamp; ardupilot_gnss_RelPosHeading relpos {}; relpos.timestamp.usec = uint64_t(curr_timestamp)*1000LLU; relpos.reported_heading_deg = reported_heading; relpos.relative_distance_m = relative_distance; relpos.relative_down_pos_m = relative_down_pos; relpos.reported_heading_acc_deg = reported_heading_acc; relpos.reported_heading_acc_available = !is_zero(relpos.reported_heading_acc_deg); uint8_t buffer[ARDUPILOT_GNSS_RELPOSHEADING_MAX_SIZE]; const uint16_t total_size = ardupilot_gnss_RelPosHeading_encode(&relpos, buffer, !canfdout()); canard_broadcast(ARDUPILOT_GNSS_RELPOSHEADING_SIGNATURE, ARDUPILOT_GNSS_RELPOSHEADING_ID, CANARD_TRANSFER_PRIORITY_LOW, &buffer[0], total_size); #endif // GPS_MOVING_BASELINE } #endif // HAL_PERIPH_ENABLE_GPS