mirror of https://github.com/ArduPilot/ardupilot
484 lines
15 KiB
C++
484 lines
15 KiB
C++
/*
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additional arming checks for plane
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*/
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#include "AP_Arming.h"
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#include "Plane.h"
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#include "qautotune.h"
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constexpr uint32_t AP_ARMING_DELAY_MS = 2000; // delay from arming to start of motor spoolup
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const AP_Param::GroupInfo AP_Arming_Plane::var_info[] = {
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// variables from parent vehicle
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AP_NESTEDGROUPINFO(AP_Arming, 0),
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// index 3 was RUDDER and should not be used
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#if AP_PLANE_BLACKBOX_LOGGING
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// @Param: BBOX_SPD
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// @DisplayName: Blackbox speed
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// @Description: This is a 3D GPS speed threshold above which we will force arm the vehicle to start logging. WARNING: This should only be used on a vehicle with no propellers attached to the flight controller and when the flight controller is not in control of the vehicle.
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// @Units: m/s
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// @Increment: 1
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// @Range: 1 20
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// @User: Advanced
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AP_GROUPINFO("BBOX_SPD", 4, AP_Arming_Plane, blackbox_speed, 5),
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#endif // AP_PLANE_BLACKBOX_LOGGING
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AP_GROUPEND
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};
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// expected to return true if the terrain database is required to have
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// all data loaded
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bool AP_Arming_Plane::terrain_database_required() const
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{
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#if AP_TERRAIN_AVAILABLE
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if (plane.g.terrain_follow) {
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return true;
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}
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#endif
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return AP_Arming::terrain_database_required();
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}
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/*
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additional arming checks for plane
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*/
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bool AP_Arming_Plane::pre_arm_checks(bool display_failure)
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{
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if (armed || require == (uint8_t)Required::NO) {
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// if we are already armed or don't need any arming checks
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// then skip the checks
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return true;
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}
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//are arming checks disabled?
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if (checks_to_perform == 0) {
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return mandatory_checks(display_failure);
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}
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if (hal.util->was_watchdog_armed()) {
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// on watchdog reset bypass arming checks to allow for
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// in-flight arming if we were armed before the reset. This
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// allows a reset on a BVLOS flight to return home if the
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// operator can command arming over telemetry
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return true;
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}
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// call parent class checks
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bool ret = AP_Arming::pre_arm_checks(display_failure);
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#if AP_AIRSPEED_ENABLED
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// Check airspeed sensor
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ret &= AP_Arming::airspeed_checks(display_failure);
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#endif
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if (plane.g.fs_timeout_long < plane.g.fs_timeout_short && plane.g.fs_action_short != FS_ACTION_SHORT_DISABLED) {
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check_failed(display_failure, "FS_LONG_TIMEOUT < FS_SHORT_TIMEOUT");
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ret = false;
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}
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if (plane.aparm.roll_limit < 3) {
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check_failed(display_failure, "ROLL_LIMIT_DEG too small (%.1f)", plane.aparm.roll_limit.get());
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ret = false;
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}
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if (plane.aparm.pitch_limit_max < 3) {
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check_failed(display_failure, "PTCH_LIM_MAX_DEG too small (%.1f)", plane.aparm.pitch_limit_max.get());
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ret = false;
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}
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if (plane.aparm.pitch_limit_min > -3) {
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check_failed(display_failure, "PTCH_LIM_MIN_DEG too large (%.1f)", plane.aparm.pitch_limit_min.get());
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ret = false;
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}
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if (plane.aparm.airspeed_min < MIN_AIRSPEED_MIN) {
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check_failed(display_failure, "AIRSPEED_MIN too low (%i < %i)", plane.aparm.airspeed_min.get(), MIN_AIRSPEED_MIN);
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ret = false;
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}
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if (plane.channel_throttle->get_reverse() &&
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Plane::ThrFailsafe(plane.g.throttle_fs_enabled.get()) != Plane::ThrFailsafe::Disabled &&
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plane.g.throttle_fs_value <
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plane.channel_throttle->get_radio_max()) {
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check_failed(display_failure, "Invalid THR_FS_VALUE for rev throttle");
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ret = false;
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}
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ret &= rc_received_if_enabled_check(display_failure);
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#if HAL_QUADPLANE_ENABLED
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ret &= quadplane_checks(display_failure);
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#endif
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// check adsb avoidance failsafe
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if (plane.failsafe.adsb) {
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check_failed(display_failure, "ADSB threat detected");
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ret = false;
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}
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if (plane.flight_option_enabled(FlightOptions::CENTER_THROTTLE_TRIM)){
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int16_t trim = plane.channel_throttle->get_radio_trim();
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if (trim < 1250 || trim > 1750) {
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check_failed(display_failure, "Throttle trim not near center stick(%u)",trim );
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ret = false;
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}
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}
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if (plane.mission.get_in_landing_sequence_flag() &&
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!plane.mission.starts_with_takeoff_cmd()) {
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check_failed(display_failure,"In landing sequence");
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ret = false;
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}
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char failure_msg[50] {};
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if (!plane.control_mode->pre_arm_checks(ARRAY_SIZE(failure_msg), failure_msg)) {
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check_failed(display_failure, "%s %s", plane.control_mode->name(), failure_msg);
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return false;
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}
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return ret;
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}
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bool AP_Arming_Plane::mandatory_checks(bool display_failure)
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{
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bool ret = true;
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ret &= rc_received_if_enabled_check(display_failure);
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// Call parent class checks
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ret &= AP_Arming::mandatory_checks(display_failure);
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return ret;
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}
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#if HAL_QUADPLANE_ENABLED
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bool AP_Arming_Plane::quadplane_checks(bool display_failure)
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{
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if (!plane.quadplane.enabled()) {
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return true;
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}
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if (!plane.quadplane.available()) {
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check_failed(display_failure, "Quadplane enabled but not running");
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return false;
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}
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bool ret = true;
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if (plane.scheduler.get_loop_rate_hz() < 100) {
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check_failed(display_failure, "quadplane needs SCHED_LOOP_RATE >= 100");
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ret = false;
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}
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char failure_msg[50] {};
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if (!plane.quadplane.motors->arming_checks(ARRAY_SIZE(failure_msg), failure_msg)) {
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check_failed(display_failure, "Motors: %s", failure_msg);
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ret = false;
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}
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// lean angle parameter check
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if (plane.quadplane.aparm.angle_max < 1000 || plane.quadplane.aparm.angle_max > 8000) {
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check_failed(ARMING_CHECK_PARAMETERS, display_failure, "Check Q_ANGLE_MAX");
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ret = false;
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}
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if ((plane.quadplane.tailsitter.enable > 0) && (plane.quadplane.tiltrotor.enable > 0)) {
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check_failed(ARMING_CHECK_PARAMETERS, display_failure, "set TAILSIT_ENABLE 0 or TILT_ENABLE 0");
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ret = false;
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} else {
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if ((plane.quadplane.tailsitter.enable > 0) && !plane.quadplane.tailsitter.enabled()) {
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check_failed(ARMING_CHECK_PARAMETERS, display_failure, "tailsitter setup not complete, reboot");
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ret = false;
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}
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if ((plane.quadplane.tiltrotor.enable > 0) && !plane.quadplane.tiltrotor.enabled()) {
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check_failed(ARMING_CHECK_PARAMETERS, display_failure, "tiltrotor setup not complete, reboot");
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ret = false;
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}
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}
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// ensure controllers are OK with us arming:
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if (!plane.quadplane.pos_control->pre_arm_checks("PSC", failure_msg, ARRAY_SIZE(failure_msg))) {
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check_failed(ARMING_CHECK_PARAMETERS, display_failure, "Bad parameter: %s", failure_msg);
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ret = false;
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}
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if (!plane.quadplane.attitude_control->pre_arm_checks("ATC", failure_msg, ARRAY_SIZE(failure_msg))) {
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check_failed(ARMING_CHECK_PARAMETERS, display_failure, "Bad parameter: %s", failure_msg);
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ret = false;
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}
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/*
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Q_ASSIST_SPEED really should be enabled for all quadplanes except tailsitters
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*/
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if (check_enabled(ARMING_CHECK_PARAMETERS) &&
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is_zero(plane.quadplane.assist.speed) &&
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!plane.quadplane.tailsitter.enabled()) {
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check_failed(display_failure,"Q_ASSIST_SPEED is not set");
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ret = false;
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}
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if ((plane.quadplane.tailsitter.enable > 0) && (plane.quadplane.q_fwd_thr_use != QuadPlane::FwdThrUse::OFF)) {
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check_failed(ARMING_CHECK_PARAMETERS, display_failure, "set Q_FWD_THR_USE to 0");
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ret = false;
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}
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return ret;
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}
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#endif // HAL_QUADPLANE_ENABLED
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bool AP_Arming_Plane::ins_checks(bool display_failure)
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{
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// call parent class checks
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if (!AP_Arming::ins_checks(display_failure)) {
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return false;
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}
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// additional plane specific checks
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if (check_enabled(ARMING_CHECK_INS)) {
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char failure_msg[50] = {};
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if (!AP::ahrs().pre_arm_check(true, failure_msg, sizeof(failure_msg))) {
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check_failed(ARMING_CHECK_INS, display_failure, "AHRS: %s", failure_msg);
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return false;
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}
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}
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return true;
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}
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bool AP_Arming_Plane::arm_checks(AP_Arming::Method method)
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{
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if (method == AP_Arming::Method::RUDDER) {
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const AP_Arming::RudderArming arming_rudder = get_rudder_arming_type();
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if (arming_rudder == AP_Arming::RudderArming::IS_DISABLED) {
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//parameter disallows rudder arming/disabling
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// if we emit a message here then someone doing surface
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// checks may be bothered by the message being emitted.
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// check_failed(true, "Rudder arming disabled");
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return false;
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}
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// if throttle is not down, then pilot cannot rudder arm/disarm
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if (!is_zero(plane.get_throttle_input())){
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check_failed(true, "Non-zero throttle");
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return false;
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}
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}
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//are arming checks disabled?
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if (checks_to_perform == 0) {
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return true;
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}
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if (hal.util->was_watchdog_armed()) {
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// on watchdog reset bypass arming checks to allow for
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// in-flight arming if we were armed before the reset. This
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// allows a reset on a BVLOS flight to return home if the
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// operator can command arming over telemetry
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gcs().send_text(MAV_SEVERITY_WARNING, "watchdog: Bypassing arming checks");
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return true;
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}
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// call parent class checks
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return AP_Arming::arm_checks(method);
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}
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/*
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update HAL soft arm state
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*/
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void AP_Arming_Plane::change_arm_state(void)
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{
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update_soft_armed();
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#if HAL_QUADPLANE_ENABLED
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plane.quadplane.set_armed(hal.util->get_soft_armed());
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#endif
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}
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bool AP_Arming_Plane::arm(const AP_Arming::Method method, const bool do_arming_checks)
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{
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if (!AP_Arming::arm(method, do_arming_checks)) {
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return false;
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}
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if (plane.update_home()) {
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// after update_home the home position could still be
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// different from the current_loc if the EKF refused the
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// resetHeightDatum call. If we are updating home then we want
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// to force the home to be the current_loc so relative alt
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// takeoffs work correctly
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if (plane.ahrs.set_home(plane.current_loc)) {
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// update current_loc
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plane.update_current_loc();
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}
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}
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change_arm_state();
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// rising edge of delay_arming oneshot
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delay_arming = true;
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send_arm_disarm_statustext("Throttle armed");
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return true;
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}
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/*
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disarm motors
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*/
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bool AP_Arming_Plane::disarm(const AP_Arming::Method method, bool do_disarm_checks)
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{
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if (do_disarm_checks &&
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(AP_Arming::method_is_GCS(method) ||
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method == AP_Arming::Method::RUDDER)) {
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if (plane.is_flying()) {
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// don't allow mavlink or rudder disarm while flying
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return false;
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}
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}
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if (do_disarm_checks && method == AP_Arming::Method::RUDDER) {
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// option must be enabled:
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if (get_rudder_arming_type() != AP_Arming::RudderArming::ARMDISARM) {
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gcs().send_text(MAV_SEVERITY_INFO, "Rudder disarm: disabled");
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return false;
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}
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}
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if (!AP_Arming::disarm(method, do_disarm_checks)) {
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return false;
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}
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if (plane.control_mode != &plane.mode_auto) {
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// reset the mission on disarm if we are not in auto
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plane.mission.reset();
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}
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// suppress the throttle in auto-throttle modes
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plane.throttle_suppressed = plane.control_mode->does_auto_throttle();
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// if no airmode switch assigned, ensure airmode is off:
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#if HAL_QUADPLANE_ENABLED
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if ((plane.quadplane.air_mode == AirMode::ON) && (rc().find_channel_for_option(RC_Channel::AUX_FUNC::AIRMODE) == nullptr)) {
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plane.quadplane.air_mode = AirMode::OFF;
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}
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#endif
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//only log if disarming was successful
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change_arm_state();
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#if QAUTOTUNE_ENABLED
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// Possibly save auto tuned parameters
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plane.quadplane.qautotune.disarmed(plane.control_mode == &plane.mode_qautotune);
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#endif
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// re-initialize speed variable used in AUTO and GUIDED for
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// DO_CHANGE_SPEED commands
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plane.new_airspeed_cm = -1;
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send_arm_disarm_statustext("Throttle disarmed");
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return true;
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}
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void AP_Arming_Plane::update_soft_armed()
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{
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bool _armed = is_armed();
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#if HAL_QUADPLANE_ENABLED
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if (plane.quadplane.motor_test.running){
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_armed = true;
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}
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#endif
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hal.util->set_soft_armed(_armed);
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#if HAL_LOGGING_ENABLED
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AP::logger().set_vehicle_armed(hal.util->get_soft_armed());
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#endif
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// update delay_arming oneshot
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if (delay_arming &&
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(AP_HAL::millis() - hal.util->get_last_armed_change() >= AP_ARMING_DELAY_MS)) {
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delay_arming = false;
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}
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#if AP_PLANE_BLACKBOX_LOGGING
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if (blackbox_speed > 0) {
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const float speed3d = plane.gps.status() >= AP_GPS::GPS_OK_FIX_3D?plane.gps.velocity().length():0;
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const uint32_t now = AP_HAL::millis();
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if (speed3d > blackbox_speed) {
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last_over_3dspeed_ms = now;
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}
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if (!_armed && speed3d > blackbox_speed) {
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// force safety on so we don't run motors
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hal.rcout->force_safety_on();
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AP_Param::set_by_name("RC_PROTOCOLS", 0);
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arm(Method::BLACKBOX, false);
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gcs().send_text(MAV_SEVERITY_WARNING, "BlackBox: arming at %.1f m/s", speed3d);
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}
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if (_armed && now - last_over_3dspeed_ms > 20000U) {
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gcs().send_text(MAV_SEVERITY_WARNING, "BlackBox: disarming at %.1f m/s", speed3d);
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disarm(Method::BLACKBOX, false);
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}
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}
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#endif
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}
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/*
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extra plane mission checks
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*/
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bool AP_Arming_Plane::mission_checks(bool report)
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{
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// base checks
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bool ret = AP_Arming::mission_checks(report);
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if (plane.mission.contains_item(MAV_CMD_DO_LAND_START) && plane.g.rtl_autoland == RtlAutoland::RTL_DISABLE) {
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ret = false;
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check_failed(ARMING_CHECK_MISSION, report, "DO_LAND_START set and RTL_AUTOLAND disabled");
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}
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#if HAL_QUADPLANE_ENABLED
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if (plane.quadplane.available()) {
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const uint16_t num_commands = plane.mission.num_commands();
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AP_Mission::Mission_Command prev_cmd {};
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for (uint16_t i=1; i<num_commands; i++) {
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AP_Mission::Mission_Command cmd;
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if (!plane.mission.read_cmd_from_storage(i, cmd)) {
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break;
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}
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if (plane.is_land_command(cmd.id) &&
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prev_cmd.id == MAV_CMD_NAV_WAYPOINT) {
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const float dist = cmd.content.location.get_distance(prev_cmd.content.location);
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const float tecs_land_speed = plane.TECS_controller.get_land_airspeed();
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const float landing_speed = is_positive(tecs_land_speed)?tecs_land_speed:plane.aparm.airspeed_cruise;
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const float min_dist = 0.75 * plane.quadplane.stopping_distance(sq(landing_speed));
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if (dist < min_dist) {
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ret = false;
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check_failed(ARMING_CHECK_MISSION, report, "VTOL land too short, min %.0fm", min_dist);
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}
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}
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prev_cmd = cmd;
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}
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}
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#endif
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return ret;
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}
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// Checks rc has been received if it is configured to be used
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bool AP_Arming_Plane::rc_received_if_enabled_check(bool display_failure)
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{
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if (rc().enabled_protocols() == 0) {
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// No protocols enabled, will never get RC, don't block arming
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return true;
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}
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// If RC failsafe is enabled we must receive RC before arming
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if ((Plane::ThrFailsafe(plane.g.throttle_fs_enabled.get()) == Plane::ThrFailsafe::Enabled) &&
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!(rc().has_had_rc_receiver() || rc().has_had_rc_override())) {
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check_failed(display_failure, "Waiting for RC");
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return false;
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}
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return true;
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}
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