ardupilot/ArduPlane/failsafe.cpp

99 lines
3.3 KiB
C++

#include "Plane.h"
/*
* failsafe support
* Andrew Tridgell, December 2011
*/
/*
* our failsafe strategy is to detect main loop lockup and switch to
* passing inputs straight from the RC inputs to RC outputs.
*/
/*
* this failsafe_check function is called from the core timer interrupt
* at 1kHz.
*/
void Plane::failsafe_check(void)
{
static uint16_t last_mainLoop_count;
static uint32_t last_timestamp;
static bool in_failsafe;
uint32_t tnow = micros();
if (perf.mainLoop_count != last_mainLoop_count) {
// the main loop is running, all is OK
last_mainLoop_count = perf.mainLoop_count;
last_timestamp = tnow;
in_failsafe = false;
return;
}
if (tnow - last_timestamp > 200000) {
// we have gone at least 0.2 seconds since the main loop
// ran. That means we're in trouble, or perhaps are in
// an initialisation routine or log erase. Start passing RC
// inputs through to outputs
in_failsafe = true;
}
if (in_failsafe && tnow - last_timestamp > 20000) {
last_timestamp = tnow;
if (in_calibration) {
// tell the failsafe system that we are calibrating
// sensors, so don't trigger failsafe
afs.heartbeat();
}
if (hal.rcin->num_channels() < 5) {
// we don't have any RC input to pass through
return;
}
// pass RC inputs to outputs every 20ms
hal.rcin->clear_overrides();
channel_roll->set_radio_out(channel_roll->read());
channel_pitch->set_radio_out(channel_pitch->read());
if (hal.util->get_soft_armed()) {
channel_throttle->set_radio_out(channel_throttle->read());
} else {
channel_throttle->set_servo_out(0);
channel_throttle->calc_pwm();
}
channel_rudder->set_radio_out(channel_rudder->read());
int16_t roll = channel_roll->pwm_to_angle_dz(0);
int16_t pitch = channel_pitch->pwm_to_angle_dz(0);
int16_t rudder = channel_rudder->pwm_to_angle_dz(0);
// setup secondary output channels that don't have
// corresponding input channels
RC_Channel_aux::set_servo_out_for(RC_Channel_aux::k_aileron, roll);
RC_Channel_aux::set_servo_out_for(RC_Channel_aux::k_elevator, pitch);
RC_Channel_aux::set_servo_out_for(RC_Channel_aux::k_rudder, rudder);
RC_Channel_aux::set_servo_out_for(RC_Channel_aux::k_steering, rudder);
// this is to allow the failsafe module to deliberately crash
// the plane. Only used in extreme circumstances to meet the
// OBC rules
if (afs.should_crash_vehicle()) {
afs.terminate_vehicle();
return;
}
// setup secondary output channels that do have
// corresponding input channels
RC_Channel_aux::copy_radio_in_out(RC_Channel_aux::k_manual, true);
RC_Channel_aux::copy_radio_in_out(RC_Channel_aux::k_aileron_with_input, true);
RC_Channel_aux::copy_radio_in_out(RC_Channel_aux::k_elevator_with_input, true);
RC_Channel_aux::set_servo_out_for(RC_Channel_aux::k_flap, 0);
RC_Channel_aux::set_servo_out_for(RC_Channel_aux::k_flap_auto, 0);
servos_output();
// setup flaperons
flaperon_update(0);
}
}