// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*- #include "Plane.h" void Plane::failsafe_short_on_event(enum failsafe_state fstype) { // This is how to handle a short loss of control signal failsafe. failsafe.state = fstype; failsafe.ch3_timer_ms = millis(); gcs_send_text_P(MAV_SEVERITY_WARNING, PSTR("Failsafe - Short event on, ")); switch(control_mode) { case MANUAL: case STABILIZE: case ACRO: case FLY_BY_WIRE_A: case AUTOTUNE: case FLY_BY_WIRE_B: case CRUISE: case TRAINING: failsafe.saved_mode = control_mode; failsafe.saved_mode_set = 1; if(g.short_fs_action == 2) { set_mode(FLY_BY_WIRE_A); } else { set_mode(CIRCLE); } break; case AUTO: case GUIDED: case LOITER: if(g.short_fs_action != 0) { failsafe.saved_mode = control_mode; failsafe.saved_mode_set = 1; if(g.short_fs_action == 2) { set_mode(FLY_BY_WIRE_A); } else { set_mode(CIRCLE); } } break; case CIRCLE: case RTL: default: break; } gcs_send_text_fmt(PSTR("flight mode = %u"), (unsigned)control_mode); } void Plane::failsafe_long_on_event(enum failsafe_state fstype) { // This is how to handle a long loss of control signal failsafe. gcs_send_text_P(MAV_SEVERITY_WARNING, PSTR("Failsafe - Long event on, ")); // If the GCS is locked up we allow control to revert to RC hal.rcin->clear_overrides(); failsafe.state = fstype; switch(control_mode) { case MANUAL: case STABILIZE: case ACRO: case FLY_BY_WIRE_A: case AUTOTUNE: case FLY_BY_WIRE_B: case CRUISE: case TRAINING: case CIRCLE: if(g.long_fs_action == 2) { set_mode(FLY_BY_WIRE_A); } else { set_mode(RTL); } break; case AUTO: case GUIDED: case LOITER: if(g.long_fs_action == 2) { set_mode(FLY_BY_WIRE_A); } else if (g.long_fs_action == 1) { set_mode(RTL); } break; case RTL: default: break; } if (fstype == FAILSAFE_GCS) { gcs_send_text_P(MAV_SEVERITY_CRITICAL, PSTR("No GCS heartbeat.")); } gcs_send_text_fmt(PSTR("flight mode = %u"), (unsigned)control_mode); } void Plane::failsafe_short_off_event() { // We're back in radio contact gcs_send_text_P(MAV_SEVERITY_WARNING, PSTR("Failsafe - Short event off")); failsafe.state = FAILSAFE_NONE; // re-read the switch so we can return to our preferred mode // -------------------------------------------------------- if (control_mode == CIRCLE && failsafe.saved_mode_set) { failsafe.saved_mode_set = 0; set_mode(failsafe.saved_mode); } } void Plane::low_battery_event(void) { if (failsafe.low_battery) { return; } gcs_send_text_fmt(PSTR("Low Battery %.2fV Used %.0f mAh"), (double)battery.voltage(), (double)battery.current_total_mah()); if (flight_stage != AP_SpdHgtControl::FLIGHT_LAND_FINAL && flight_stage != AP_SpdHgtControl::FLIGHT_LAND_APPROACH) { set_mode(RTL); aparm.throttle_cruise.load(); } failsafe.low_battery = true; AP_Notify::flags.failsafe_battery = true; } void Plane::update_events(void) { ServoRelayEvents.update_events(); }