ardupilot/Rover/AP_Arming.cpp

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#include "AP_Arming.h"
#include "Rover.h"
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// perform pre_arm_rc_checks checks
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bool AP_Arming_Rover::rc_calibration_checks(const bool display_failure)
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{
// set rc-checks to success if RC checks are disabled
if (!check_enabled(ARMING_CHECK_RC)) {
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return true;
}
const RC_Channel *channels[] = {
rover.channel_steer,
rover.channel_throttle
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};
const char *channel_names[] = {"Steer", "Throttle"};
for (uint8_t i= 0 ; i < ARRAY_SIZE(channels); i++) {
const RC_Channel *channel = channels[i];
const char *channel_name = channel_names[i];
// check if radio has been calibrated
if (channel->get_radio_min() > RC_Channel::RC_CALIB_MIN_LIMIT_PWM) {
check_failed(ARMING_CHECK_RC, display_failure, "%s radio min too high", channel_name);
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return false;
}
if (channel->get_radio_max() < RC_Channel::RC_CALIB_MAX_LIMIT_PWM) {
check_failed(ARMING_CHECK_RC, display_failure, "%s radio max too low", channel_name);
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return false;
}
}
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return AP_Arming::rc_calibration_checks(display_failure);
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}
// performs pre_arm gps related checks and returns true if passed
bool AP_Arming_Rover::gps_checks(bool display_failure)
{
if (!rover.control_mode->requires_position() && !rover.control_mode->requires_velocity()) {
// we don't care!
return true;
}
// call parent gps checks
if (!AP_Arming::gps_checks(display_failure)) {
return false;
}
const AP_AHRS &ahrs = AP::ahrs();
// always check if inertial nav has started and is ready
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char failure_msg[50] = {};
if (!ahrs.pre_arm_check(true, failure_msg, sizeof(failure_msg))) {
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check_failed(display_failure, "AHRS: %s", failure_msg);
return false;
}
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// check for ekf failsafe
if (rover.failsafe.ekf) {
check_failed(display_failure, "EKF failsafe");
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return false;
}
// ensure position estimate is ok
if (!rover.ekf_position_ok()) {
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// vehicle level position estimate checks
check_failed(display_failure, "Need Position Estimate");
return false;
}
return true;
}
bool AP_Arming_Rover::pre_arm_checks(bool report)
{
if (armed) {
// if we are already armed then skip the checks
return true;
}
//are arming checks disabled?
if (checks_to_perform == 0) {
return mandatory_checks(report);
}
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if (rover.g2.sailboat.sail_enabled() && !rover.g2.windvane.enabled()) {
check_failed(report, "Sailing enabled with no WindVane");
return false;
}
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return (AP_Arming::pre_arm_checks(report)
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& motor_checks(report)
& oa_check(report)
& parameter_checks(report)
& mode_checks(report));
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}
bool AP_Arming_Rover::arm_checks(AP_Arming::Method method)
{
//are arming checks disabled?
if (checks_to_perform == 0) {
return true;
}
return AP_Arming::arm_checks(method);
}
void AP_Arming_Rover::update_soft_armed()
{
hal.util->set_soft_armed(is_armed() &&
hal.util->safety_switch_state() != AP_HAL::Util::SAFETY_DISARMED);
AP::logger().set_vehicle_armed(hal.util->get_soft_armed());
}
/*
arm motors
*/
bool AP_Arming_Rover::arm(AP_Arming::Method method, const bool do_arming_checks)
{
if (!AP_Arming::arm(method, do_arming_checks)) {
AP_Notify::events.arming_failed = true;
return false;
}
// Set the SmartRTL home location. If activated, SmartRTL will ultimately try to land at this point
rover.g2.smart_rtl.set_home(true);
// initialize simple mode heading
rover.mode_simple.init_heading();
// save home heading for use in sail vehicles
rover.g2.windvane.record_home_heading();
update_soft_armed();
send_arm_disarm_statustext("Throttle armed");
return true;
}
/*
disarm motors
*/
bool AP_Arming_Rover::disarm(const AP_Arming::Method method, bool do_disarm_checks)
{
if (!AP_Arming::disarm(method, do_disarm_checks)) {
return false;
}
if (rover.control_mode != &rover.mode_auto) {
// reset the mission on disarm if we are not in auto
rover.mode_auto.mission.reset();
}
update_soft_armed();
send_arm_disarm_statustext("Throttle disarmed");
return true;
}
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// check object avoidance has initialised correctly
bool AP_Arming_Rover::oa_check(bool report)
{
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char failure_msg[50] = {};
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if (rover.g2.oa.pre_arm_check(failure_msg, ARRAY_SIZE(failure_msg))) {
return true;
}
// display failure
if (strlen(failure_msg) == 0) {
check_failed(report, "Check Object Avoidance");
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} else {
check_failed(report, "%s", failure_msg);
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}
return false;
}
// perform parameter checks
bool AP_Arming_Rover::parameter_checks(bool report)
{
// success if parameter checks are disabled
if (!check_enabled(ARMING_CHECK_PARAMETERS)) {
return true;
}
// check waypoint speed is positive
if (!is_positive(rover.g2.wp_nav.get_default_speed())) {
check_failed(ARMING_CHECK_PARAMETERS, report, "WP_SPEED too low");
return false;
}
return true;
}
// check if arming allowed from this mode
bool AP_Arming_Rover::mode_checks(bool report)
{
//display failure if arming in this mode is not allowed
if (!rover.control_mode->allows_arming()) {
check_failed(report, "Mode not armable");
return false;
}
return true;
}
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// check motors are ready
bool AP_Arming_Rover::motor_checks(bool report)
{
bool ret = rover.g2.motors.pre_arm_check(report);
#if HAL_TORQEEDO_ENABLED
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char failure_msg[50] = {};
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AP_Torqeedo *torqeedo = AP_Torqeedo::get_singleton();
if (torqeedo != nullptr) {
if (!torqeedo->pre_arm_checks(failure_msg, ARRAY_SIZE(failure_msg))) {
check_failed(report, "Torqeedo: %s", failure_msg);
ret = false;
}
}
#endif
return ret;
}