/****************************************************************************
*
* Copyright (C) 2012 PX4 Development Team. All rights reserved.
* Author: Thomas Gubler <thomasgubler@student.ethz.ch>
* Julian Oes <joes@student.ethz.ch>
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* 3. Neither the name PX4 nor the names of its contributors may be
* used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS
* OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
* AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
* ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
****************************************************************************/
/**
* @file state_machine_helper.c
* State machine helper functions implementations
*/
#include <stdio.h>
#include <unistd.h>
#include <stdbool.h>
#include <uORB/uORB.h>
#include <uORB/topics/vehicle_status.h>
#include <uORB/topics/actuator_controls.h>
#include <systemlib/systemlib.h>
#include <systemlib/err.h>
#include <drivers/drv_hrt.h>
#include <mavlink/mavlink_log.h>
#include "state_machine_helper.h"
/**
* Transition from one sytem state to another
*/
void navigation_state_update(int status_pub, struct vehicle_status_s *current_status, const int mavlink_fd)
{
int ret = ERROR;
navigation_state_t new_navigation_state;
/* do the navigation state update depending on the arming state */
switch (current_status->arming_state) {
/* evaluate the navigation state when disarmed */
case ARMING_STATE_STANDBY:
/* Always accept manual mode */
if (current_status->mode_switch == MODE_SWITCH_MANUAL) {
new_navigation_state = NAVIGATION_STATE_MANUAL_STANDBY;
/* Accept SEATBELT if there is a local position estimate */
} else if (current_status->mode_switch == MODE_SWITCH_SEATBELT) {
if (current_status->flag_local_position_valid) {
new_navigation_state = NAVIGATION_STATE_SEATBELT_STANDBY;
} else {
/* or just fall back to manual */
mavlink_log_critical(mavlink_fd, "Rej. SEATBELT: no local position");
new_navigation_state = NAVIGATION_STATE_MANUAL_STANDBY;
}
/* Accept AUTO if there is a global position estimate */
} else if (current_status->mode_switch == MODE_SWITCH_AUTO) {
if (current_status->flag_local_position_valid) {
new_navigation_state = NAVIGATION_STATE_SEATBELT_STANDBY;
} else {
mavlink_log_critical(mavlink_fd, "Rej. AUTO: no global position");
/* otherwise fallback to seatbelt or even manual */
if (current_status->flag_local_position_valid) {
new_navigation_state = NAVIGATION_STATE_SEATBELT_STANDBY;
} else {
mavlink_log_critical(mavlink_fd, "Rej. SEATBELT: no local position");
new_navigation_state = NAVIGATION_STATE_MANUAL_STANDBY;
}
}
}
break;
/* evaluate the navigation state when armed */
case ARMING_STATE_ARMED:
/* Always accept manual mode */
if (current_status->mode_switch == MODE_SWITCH_MANUAL) {
new_navigation_state = NAVIGATION_STATE_MANUAL;
/* Accept SEATBELT if there is a local position estimate */
} else if (current_status->mode_switch == MODE_SWITCH_SEATBELT
&& current_status->return_switch == RETURN_SWITCH_NONE) {
if (current_status->flag_local_position_valid) {
new_navigation_state = NAVIGATION_STATE_SEATBELT;
} else {
/* or just fall back to manual */
mavlink_log_critical(mavlink_fd, "Rej. SEATBELT: no local position");
new_navigation_state = NAVIGATION_STATE_MANUAL;
}
/* Accept SEATBELT_DESCENT if there is a local position estimate and the return switch is on */
} else if (current_status->mode_switch == MODE_SWITCH_SEATBELT
&& current_status->return_switch == RETURN_SWITCH_RETURN) {
if (current_status->flag_local_position_valid) {
new_navigation_state = NAVIGATION_STATE_SEATBELT_DESCENT;
} else {
/* descent not possible without baro information, fall back to manual */
mavlink_log_critical(mavlink_fd, "Rej. SEATBELT_DESCENT: no local position");
new_navigation_state = NAVIGATION_STATE_MANUAL;
}
/* Accept LOITER if there is a global position estimate */
} else if (current_status->mode_switch == MODE_SWITCH_AUTO
&& current_status->return_switch == RETURN_SWITCH_NONE
&& current_status->mission_switch == MISSION_SWITCH_NONE) {
if (current_status->flag_global_position_valid) {
new_navigation_state = NAVIGATION_STATE_AUTO_LOITER;
} else {
mavlink_log_critical(mavlink_fd, "Rej. LOITER: no global position");
/* otherwise fallback to SEATBELT or even manual */
if (current_status->flag_local_position_valid) {
new_navigation_state = NAVIGATION_STATE_SEATBELT;
} else {
mavlink_log_critical(mavlink_fd, "Rej. SEATBELT: no local position");
new_navigation_state = NAVIGATION_STATE_MANUAL;
}
}
/* Accept MISSION if there is a global position estimate and home position */
} else if (current_status->mode_switch == MODE_SWITCH_AUTO
&& current_status->return_switch == RETURN_SWITCH_NONE
&& current_status->mission_switch == MISSION_SWITCH_MISSION) {
if (current_status->flag_global_position_valid && current_status->flag_valid_home_position) {
new_navigation_state = NAVIGATION_STATE_AUTO_MISSION;
} else {
/* spit out what exactly is unavailable */
if (current_status->flag_global_position_valid) {
mavlink_log_critical(mavlink_fd, "Rej. MISSION: no home position");
} else if (current_status->flag_valid_home_position) {
mavlink_log_critical(mavlink_fd, "Rej. MISSION: no global position");
} else {
mavlink_log_critical(mavlink_fd, "Rej. MISSION: no global position and no home position");
}
/* otherwise fallback to SEATBELT or even manual */
if (current_status->flag_local_position_valid) {
new_navigation_state = NAVIGATION_STATE_SEATBELT;
} else {
mavlink_log_critical(mavlink_fd, "Rej. SEATBELT: no local position");
new_navigation_state = NAVIGATION_STATE_MANUAL;
}
}
/* Go to RTL or land if global position estimate and home position is available */
} else if (current_status->mode_switch == MODE_SWITCH_AUTO
&& current_status->return_switch == RETURN_SWITCH_RETURN
&& (current_status->mission_switch == MISSION_SWITCH_NONE || current_status->mission_switch == MISSION_SWITCH_MISSION)) {
if (current_status->flag_global_position_valid && current_status->flag_valid_home_position) {
/* after RTL go to LAND */
if (current_status->flag_system_returned_to_home) {
new_navigation_state = NAVIGATION_STATE_AUTO_LAND;
} else {
new_navigation_state = NAVIGATION_STATE_AUTO_RTL;
}
} else {
/* spit out what exactly is unavailable */
if (current_status->flag_global_position_valid) {
mavlink_log_critical(mavlink_fd, "Rej. RTL/LAND: no home position");
} else if (current_status->flag_valid_home_position) {
mavlink_log_critical(mavlink_fd, "Rej. RTL/LAND: no global position");
} else {
mavlink_log_critical(mavlink_fd, "Rej. RTL/LAND: no global position and no home position");
}
/* otherwise fallback to SEATBELT_DESCENT or even MANUAL */
if (current_status->flag_local_position_valid) {
new_navigation_state = NAVIGATION_STATE_SEATBELT_DESCENT;
} else {
mavlink_log_critical(mavlink_fd, "Rej. SEATBELT: no local position");
new_navigation_state = NAVIGATION_STATE_MANUAL;
}
}
}
break;
case ARMING_STATE_ARMED_ERROR:
// TODO work out fail-safe scenarios
break;
case ARMING_STATE_STANDBY_ERROR:
// TODO work out fail-safe scenarios
break;
case ARMING_STATE_REBOOT:
// XXX I don't think we should end up here
break;
case ARMING_STATE_IN_AIR_RESTORE:
// XXX not sure what to do here
break;
default:
break;
}
/* Update the system state in case it has changed */
if (current_status->navigation_state != new_navigation_state) {
/* Check if the transition is valid */
if (check_navigation_state_transition(current_status->navigation_state, new_navigation_state) == OK) {
current_status->navigation_state = new_navigation_state;
state_machine_publish(status_pub, current_status, mavlink_fd);
} else {
mavlink_log_critical(mavlink_fd, "System state transition not valid");
}
}
return;
}
int check_arming_state_transition(arming_state_t current_arming_state, arming_state_t new_arming_state) {
int ret = ERROR;
/* only check transition if the new state is actually different from the current one */
if (new_arming_state != current_arming_state) {
switch (new_arming_state) {
case ARMING_STATE_INIT:
/* allow going back from INIT for calibration */
if (current_arming_state == ARMING_STATE_STANDBY) {
ret = OK;
}
break;
case ARMING_STATE_STANDBY:
/* allow coming from INIT and disarming from ARMED */
if (current_arming_state == ARMING_STATE_INIT
|| current_arming_state == ARMING_STATE_ARMED) {
ret = OK;
}
break;
case ARMING_STATE_ARMED:
/* allow arming from STANDBY and IN-AIR-RESTORE */
if (current_arming_state == ARMING_STATE_STANDBY
|| current_arming_state == ARMING_STATE_IN_AIR_RESTORE) {
ret = OK;
}
break;
case ARMING_STATE_ARMED_ERROR:
/* an armed error happens when ARMED obviously */
if (current_arming_state == ARMING_STATE_ARMED) {
ret = OK;
}
break;
case ARMING_STATE_STANDBY_ERROR:
/* a disarmed error happens when in STANDBY or in INIT or after ARMED_ERROR */
if (current_arming_state == ARMING_STATE_STANDBY
|| current_arming_state == ARMING_STATE_INIT
|| current_arming_state == ARMING_STATE_ARMED_ERROR) {
ret = OK;
}
break;
default:
break;
}
}
return ret;
}
/*
* This functions does not evaluate any input flags but only checks if the transitions
* are valid.
*/
int check_navigation_state_transition(navigation_state_t current_navigation_state, navigation_state_t new_navigation_state) {
int ret = ERROR;
/* only check transition if the new state is actually different from the current one */
if (new_navigation_state != current_navigation_state) {
switch (new_navigation_state) {
case NAVIGATION_STATE_INIT:
/* transitions back to INIT are possible for calibration */
if (current_navigation_state == NAVIGATION_STATE_MANUAL_STANDBY
|| current_navigation_state == NAVIGATION_STATE_SEATBELT_STANDBY
|| current_navigation_state == NAVIGATION_STATE_AUTO_STANDBY) {
ret = OK;
}
break;
case NAVIGATION_STATE_MANUAL_STANDBY:
/* transitions from INIT and other STANDBY states as well as MANUAL are possible */
if (current_navigation_state == NAVIGATION_STATE_INIT
|| current_navigation_state == NAVIGATION_STATE_SEATBELT_STANDBY
|| current_navigation_state == NAVIGATION_STATE_AUTO_STANDBY
|| current_navigation_state == NAVIGATION_STATE_MANUAL) {
ret = OK;
}
break;
case NAVIGATION_STATE_MANUAL:
/* all transitions possible */
ret = OK;
break;
case NAVIGATION_STATE_SEATBELT_STANDBY:
/* transitions from INIT and other STANDBY states as well as SEATBELT and SEATBELT_DESCENT are possible */
if (current_navigation_state == NAVIGATION_STATE_INIT
|| current_navigation_state == NAVIGATION_STATE_MANUAL_STANDBY
|| current_navigation_state == NAVIGATION_STATE_AUTO_STANDBY
|| current_navigation_state == NAVIGATION_STATE_SEATBELT
|| current_navigation_state == NAVIGATION_STATE_SEATBELT_DESCENT) {
ret = OK;
}
break;
case NAVIGATION_STATE_SEATBELT:
/* transitions from all AUTO modes except AUTO_STANDBY and except MANUAL_STANDBY and INIT*/
if (current_navigation_state == NAVIGATION_STATE_SEATBELT_STANDBY
|| current_navigation_state == NAVIGATION_STATE_SEATBELT_DESCENT
|| current_navigation_state == NAVIGATION_STATE_MANUAL
|| current_navigation_state == NAVIGATION_STATE_AUTO_LAND
|| current_navigation_state == NAVIGATION_STATE_AUTO_LOITER
|| current_navigation_state == NAVIGATION_STATE_AUTO_MISSION
|| current_navigation_state == NAVIGATION_STATE_AUTO_READY
|| current_navigation_state == NAVIGATION_STATE_AUTO_RTL
|| current_navigation_state == NAVIGATION_STATE_AUTO_TAKEOFF) {
ret = OK;
}
break;
case NAVIGATION_STATE_SEATBELT_DESCENT:
/* transitions from all AUTO modes except AUTO_STANDBY and except MANUAL_STANDBY and INIT and SEATBELT_STANDBY */
if (current_navigation_state == NAVIGATION_STATE_SEATBELT
|| current_navigation_state == NAVIGATION_STATE_MANUAL
|| current_navigation_state == NAVIGATION_STATE_AUTO_LAND
|| current_navigation_state == NAVIGATION_STATE_AUTO_LOITER
|| current_navigation_state == NAVIGATION_STATE_AUTO_MISSION
|| current_navigation_state == NAVIGATION_STATE_AUTO_READY
|| current_navigation_state == NAVIGATION_STATE_AUTO_RTL
|| current_navigation_state == NAVIGATION_STATE_AUTO_TAKEOFF) {
ret = OK;
}
break;
case NAVIGATION_STATE_AUTO_STANDBY:
/* transitions from INIT or from other STANDBY modes or from AUTO READY */
if (current_navigation_state == NAVIGATION_STATE_INIT
|| current_navigation_state == NAVIGATION_STATE_MANUAL_STANDBY
|| current_navigation_state == NAVIGATION_STATE_SEATBELT_STANDBY
|| current_navigation_state == NAVIGATION_STATE_AUTO_READY) {
ret = OK;
}
break;
case NAVIGATION_STATE_AUTO_READY:
/* transitions from AUTO_STANDBY or AUTO_LAND */
if (current_navigation_state == NAVIGATION_STATE_AUTO_STANDBY
|| current_navigation_state == NAVIGATION_STATE_AUTO_LAND) {
ret = OK;
}
break;
case NAVIGATION_STATE_AUTO_TAKEOFF:
/* only transitions from AUTO_READY */
if (current_navigation_state == NAVIGATION_STATE_AUTO_READY) {
ret = OK;
}
break;
case NAVIGATION_STATE_AUTO_LOITER:
/* from everywhere flying except AUTO_LAND and SEATBELT_DESCENT */
if (current_navigation_state == NAVIGATION_STATE_AUTO_TAKEOFF
|| current_navigation_state == NAVIGATION_STATE_AUTO_MISSION
|| current_navigation_state == NAVIGATION_STATE_AUTO_RTL
|| current_navigation_state == NAVIGATION_STATE_SEATBELT
|| current_navigation_state == NAVIGATION_STATE_MANUAL) {
ret = OK;
}
break;
case NAVIGATION_STATE_AUTO_MISSION:
/* from everywhere flying except AUTO_LAND and SEATBELT_DESCENT */
if (current_navigation_state == NAVIGATION_STATE_AUTO_TAKEOFF
|| current_navigation_state == NAVIGATION_STATE_AUTO_LOITER
|| current_navigation_state == NAVIGATION_STATE_AUTO_RTL
|| current_navigation_state == NAVIGATION_STATE_SEATBELT
|| current_navigation_state == NAVIGATION_STATE_MANUAL) {
ret = OK;
}
break;
case NAVIGATION_STATE_AUTO_RTL:
/* from everywhere flying except AUTO_LAND and SEATBELT_DESCENT */
if (current_navigation_state == NAVIGATION_STATE_AUTO_TAKEOFF
|| current_navigation_state == NAVIGATION_STATE_AUTO_MISSION
|| current_navigation_state == NAVIGATION_STATE_AUTO_LOITER
|| current_navigation_state == NAVIGATION_STATE_SEATBELT
|| current_navigation_state == NAVIGATION_STATE_MANUAL) {
ret = OK;
}
break;
case NAVIGATION_STATE_AUTO_LAND:
/* after AUTO_RTL or when in AUTO_LOITER or AUTO_MISSION */
if (current_navigation_state == NAVIGATION_STATE_AUTO_RTL
|| current_navigation_state == NAVIGATION_STATE_AUTO_MISSION
|| current_navigation_state == NAVIGATION_STATE_AUTO_LOITER) {
ret = OK;
}
break;
default:
break;
}
}
return ret;
}
///**
// * Transition from one arming state to another
// */
//int do_arming_state_update(int status_pub, struct vehicle_status_s *current_status, const int mavlink_fd, arming_state_t new_state)
//{
// bool valid_transition = false;
// int ret = ERROR;
//
// warnx("Current state: %d, requested state: %d", current_status->arming_state, new_state);
//
// if (current_status->arming_state == new_state) {
// warnx("Arming state not changed");
// valid_transition = true;
//
// } else {
//
// switch (new_state) {
//
// case ARMING_STATE_INIT:
//
// if (current_status->arming_state == ARMING_STATE_STANDBY) {
//
// mavlink_log_critical(mavlink_fd, "Switched to INIT ARMING STATE");
// valid_transition = true;
// }
// break;
//
// case ARMING_STATE_STANDBY:
//
// // TODO check for sensors
// // XXX check if coming from reboot?
// if (current_status->arming_state == ARMING_STATE_INIT) {
//
// if (current_status->flag_system_sensors_initialized) {
// current_status->flag_system_armed = false;
// mavlink_log_critical(mavlink_fd, "Switched to STANDBY arming state");
// valid_transition = true;
// } else {
// mavlink_log_critical(mavlink_fd, "REJ. STANDBY arming state, sensors not init.");
// }
//
// } else if (current_status->arming_state == ARMING_STATE_ARMED) {
//
// current_status->flag_system_armed = false;
// mavlink_log_critical(mavlink_fd, "Switched to STANDBY arming state");
// valid_transition = true;
// }
// break;
//
// case ARMING_STATE_ARMED:
//
// if (current_status->arming_state == ARMING_STATE_STANDBY
// || current_status->arming_state == ARMING_STATE_IN_AIR_RESTORE) {
// current_status->flag_system_armed = true;
// mavlink_log_critical(mavlink_fd, "Switched to ARMED arming state");
// valid_transition = true;
// }
// break;
//
// case ARMING_STATE_ABORT:
//
// if (current_status->arming_state == ARMING_STATE_ARMED) {
//
// mavlink_log_critical(mavlink_fd, "Switched to MISSION ABORT arming state");
// valid_transition = true;
// }
// break;
//
// case ARMING_STATE_ERROR:
//
// if (current_status->arming_state == ARMING_STATE_ARMED
// || current_status->arming_state == ARMING_STATE_ABORT
// || current_status->arming_state == ARMING_STATE_INIT) {
//
// mavlink_log_critical(mavlink_fd, "Switched to ERROR arming state");
// valid_transition = true;
// }
// break;
//
// case ARMING_STATE_REBOOT:
//
// if (current_status->arming_state == ARMING_STATE_STANDBY
// || current_status->arming_state == ARMING_STATE_ERROR) {
//
// valid_transition = true;
// mavlink_log_critical(mavlink_fd, "REBOOTING SYSTEM");
// usleep(500000);
// up_systemreset();
// /* SPECIAL CASE: NEVER RETURNS FROM THIS FUNCTION CALL */
// }
// break;
//
// case ARMING_STATE_IN_AIR_RESTORE:
//
// if (current_status->arming_state == ARMING_STATE_INIT) {
// mavlink_log_critical(mavlink_fd, "Switched to IN-AIR-RESTORE arming state");
// valid_transition = true;
// }
// break;
// default:
// warnx("Unknown arming state");
// break;
// }
// }
//
// if (valid_transition) {
// current_status->arming_state = new_state;
// state_machine_publish(status_pub, current_status, mavlink_fd);
//// publish_armed_status(current_status);
// ret = OK;
// } else {
// mavlink_log_critical(mavlink_fd, "REJECTING invalid arming state transition");
// }
//
// return ret;
//}
///**
// * Transition from one hil state to another
// */
//int do_hil_state_update(int status_pub, struct vehicle_status_s *current_status, const int mavlink_fd, hil_state_t new_state)
//{
// bool valid_transition = false;
// int ret = ERROR;
//
// warnx("Current state: %d, requested state: %d", current_status->hil_state, new_state);
//
// if (current_status->hil_state == new_state) {
// warnx("Hil state not changed");
// valid_transition = true;
//
// } else {
//
// switch (new_state) {
//
// case HIL_STATE_OFF:
//
// if (current_status->arming_state == ARMING_STATE_INIT
// || current_status->arming_state == ARMING_STATE_STANDBY) {
//
// current_status->flag_hil_enabled = false;
// mavlink_log_critical(mavlink_fd, "Switched to OFF hil state");
// valid_transition = true;
// }
// break;
//
// case HIL_STATE_ON:
//
// if (current_status->arming_state == ARMING_STATE_INIT
// || current_status->arming_state == ARMING_STATE_STANDBY) {
//
// current_status->flag_hil_enabled = true;
// mavlink_log_critical(mavlink_fd, "Switched to ON hil state");
// valid_transition = true;
// }
// break;
//
// default:
// warnx("Unknown hil state");
// break;
// }
// }
//
// if (valid_transition) {
// current_status->hil_state = new_state;
// state_machine_publish(status_pub, current_status, mavlink_fd);
// ret = OK;
// } else {
// mavlink_log_critical(mavlink_fd, "REJECTING invalid hil state transition");
// }
//
// return ret;
//}
void state_machine_publish(int status_pub, struct vehicle_status_s *current_status, const int mavlink_fd)
{
/* publish the new state */
current_status->counter++;
current_status->timestamp = hrt_absolute_time();
/* assemble state vector based on flag values */
// if (current_status->flag_control_rates_enabled) {
// current_status->onboard_control_sensors_present |= 0x400;
//
// } else {
// current_status->onboard_control_sensors_present &= ~0x400;
// }
// current_status->onboard_control_sensors_present |= (current_status->flag_control_attitude_enabled) ? 0x800 : 0;
// current_status->onboard_control_sensors_present |= (current_status->flag_control_attitude_enabled) ? 0x1000 : 0;
// current_status->onboard_control_sensors_present |= (current_status->flag_control_velocity_enabled || current_status->flag_control_position_enabled) ? 0x2000 : 0;
// current_status->onboard_control_sensors_present |= (current_status->flag_control_velocity_enabled || current_status->flag_control_position_enabled) ? 0x4000 : 0;
//
// current_status->onboard_control_sensors_enabled |= (current_status->flag_control_rates_enabled) ? 0x400 : 0;
// current_status->onboard_control_sensors_enabled |= (current_status->flag_control_attitude_enabled) ? 0x800 : 0;
// current_status->onboard_control_sensors_enabled |= (current_status->flag_control_attitude_enabled) ? 0x1000 : 0;
// current_status->onboard_control_sensors_enabled |= (current_status->flag_control_velocity_enabled || current_status->flag_control_position_enabled) ? 0x2000 : 0;
// current_status->onboard_control_sensors_enabled |= (current_status->flag_control_velocity_enabled || current_status->flag_control_position_enabled) ? 0x4000 : 0;
orb_publish(ORB_ID(vehicle_status), status_pub, current_status);
}
//void publish_armed_status(const struct vehicle_status_s *current_status)
//{
// struct actuator_armed_s armed;
// armed.armed = current_status->flag_system_armed;
// /* lock down actuators if required, only in HIL */
// armed.lockdown = (current_status->flag_hil_enabled) ? true : false;
// orb_advert_t armed_pub = orb_advertise(ORB_ID(actuator_armed), &armed);
// orb_publish(ORB_ID(actuator_armed), armed_pub, &armed);
//}
/*
* Private functions, update the state machine
*/
//void state_machine_emergency_always_critical(int status_pub, struct vehicle_status_s *current_status, const int mavlink_fd)
//{
// warnx("EMERGENCY HANDLER\n");
// /* Depending on the current state go to one of the error states */
//
// if (current_status->state_machine == SYSTEM_STATE_PREFLIGHT || current_status->state_machine == SYSTEM_STATE_STANDBY || current_status->state_machine == SYSTEM_STATE_GROUND_READY) {
// do_state_update(status_pub, current_status, mavlink_fd, (commander_state_machine_t)SYSTEM_STATE_GROUND_ERROR);
//
// } else if (current_status->state_machine == SYSTEM_STATE_AUTO || current_status->state_machine == SYSTEM_STATE_MANUAL) {
//
// // DO NOT abort mission
// //do_state_update(status_pub, current_status, mavlink_fd, (commander_state_machine_t)SYSTEM_STATE_MISSION_ABORT);
//
// } else {
// warnx("Unknown system state: #%d\n", current_status->state_machine);
// }
//}
//void state_machine_emergency(int status_pub, struct vehicle_status_s *current_status, const int mavlink_fd) //do not call state_machine_emergency_always_critical if we are in manual mode for these errors
//{
// if (current_status->state_machine != SYSTEM_STATE_MANUAL) { //if we are in manual: user can react to errors themself
// state_machine_emergency_always_critical(status_pub, current_status, mavlink_fd);
//
// } else {
// //global_data_send_mavlink_statustext_message_out("[cmd] ERROR: take action immediately! (did not switch to error state because the system is in manual mode)", MAV_SEVERITY_CRITICAL);
// }
//
//}
// /*
// * Wrapper functions (to be used in the commander), all functions assume lock on current_status
// */
// /* These functions decide if an emergency exits and then switch to SYSTEM_STATE_MISSION_ABORT or SYSTEM_STATE_GROUND_ERROR
// *
// * START SUBSYSTEM/EMERGENCY FUNCTIONS
// * */
// void update_state_machine_subsystem_present(int status_pub, struct vehicle_status_s *current_status, subsystem_type_t *subsystem_type)
// {
// current_status->onboard_control_sensors_present |= 1 << *subsystem_type;
// current_status->counter++;
// current_status->timestamp = hrt_absolute_time();
// orb_publish(ORB_ID(vehicle_status), status_pub, current_status);
// }
// void update_state_machine_subsystem_notpresent(int status_pub, struct vehicle_status_s *current_status, subsystem_type_t *subsystem_type)
// {
// current_status->onboard_control_sensors_present &= ~(1 << *subsystem_type);
// current_status->counter++;
// current_status->timestamp = hrt_absolute_time();
// orb_publish(ORB_ID(vehicle_status), status_pub, current_status);
// /* if a subsystem was removed something went completely wrong */
// switch (*subsystem_type) {
// case SUBSYSTEM_TYPE_GYRO:
// //global_data_send_mavlink_statustext_message_out("Commander: gyro not present", MAV_SEVERITY_EMERGENCY);
// state_machine_emergency_always_critical(status_pub, current_status);
// break;
// case SUBSYSTEM_TYPE_ACC:
// //global_data_send_mavlink_statustext_message_out("Commander: accelerometer not present", MAV_SEVERITY_EMERGENCY);
// state_machine_emergency_always_critical(status_pub, current_status);
// break;
// case SUBSYSTEM_TYPE_MAG:
// //global_data_send_mavlink_statustext_message_out("Commander: magnetometer not present", MAV_SEVERITY_EMERGENCY);
// state_machine_emergency_always_critical(status_pub, current_status);
// break;
// case SUBSYSTEM_TYPE_GPS:
// {
// uint8_t flight_env = global_data_parameter_storage->pm.param_values[PARAM_FLIGHT_ENV];
// if (flight_env == PX4_FLIGHT_ENVIRONMENT_OUTDOOR) {
// //global_data_send_mavlink_statustext_message_out("Commander: GPS not present", MAV_SEVERITY_EMERGENCY);
// state_machine_emergency(status_pub, current_status);
// }
// }
// break;
// default:
// break;
// }
// }
// void update_state_machine_subsystem_enabled(int status_pub, struct vehicle_status_s *current_status, subsystem_type_t *subsystem_type)
// {
// current_status->onboard_control_sensors_enabled |= 1 << *subsystem_type;
// current_status->counter++;
// current_status->timestamp = hrt_absolute_time();
// orb_publish(ORB_ID(vehicle_status), status_pub, current_status);
// }
// void update_state_machine_subsystem_disabled(int status_pub, struct vehicle_status_s *current_status, subsystem_type_t *subsystem_type)
// {
// current_status->onboard_control_sensors_enabled &= ~(1 << *subsystem_type);
// current_status->counter++;
// current_status->timestamp = hrt_absolute_time();
// orb_publish(ORB_ID(vehicle_status), status_pub, current_status);
// /* if a subsystem was disabled something went completely wrong */
// switch (*subsystem_type) {
// case SUBSYSTEM_TYPE_GYRO:
// //global_data_send_mavlink_statustext_message_out("Commander: EMERGENCY - gyro disabled", MAV_SEVERITY_EMERGENCY);
// state_machine_emergency_always_critical(status_pub, current_status);
// break;
// case SUBSYSTEM_TYPE_ACC:
// //global_data_send_mavlink_statustext_message_out("Commander: EMERGENCY - accelerometer disabled", MAV_SEVERITY_EMERGENCY);
// state_machine_emergency_always_critical(status_pub, current_status);
// break;
// case SUBSYSTEM_TYPE_MAG:
// //global_data_send_mavlink_statustext_message_out("Commander: EMERGENCY - magnetometer disabled", MAV_SEVERITY_EMERGENCY);
// state_machine_emergency_always_critical(status_pub, current_status);
// break;
// case SUBSYSTEM_TYPE_GPS:
// {
// uint8_t flight_env = (uint8_t)(global_data_parameter_storage->pm.param_values[PARAM_FLIGHT_ENV]);
// if (flight_env == PX4_FLIGHT_ENVIRONMENT_OUTDOOR) {
// //global_data_send_mavlink_statustext_message_out("Commander: EMERGENCY - GPS disabled", MAV_SEVERITY_EMERGENCY);
// state_machine_emergency(status_pub, current_status);
// }
// }
// break;
// default:
// break;
// }
// }
// void update_state_machine_subsystem_healthy(int status_pub, struct vehicle_status_s *current_status, subsystem_type_t *subsystem_type)
// {
// current_status->onboard_control_sensors_health |= 1 << *subsystem_type;
// current_status->counter++;
// current_status->timestamp = hrt_absolute_time();
// orb_publish(ORB_ID(vehicle_status), status_pub, current_status);
// switch (*subsystem_type) {
// case SUBSYSTEM_TYPE_GYRO:
// //TODO state machine change (recovering)
// break;
// case SUBSYSTEM_TYPE_ACC:
// //TODO state machine change
// break;
// case SUBSYSTEM_TYPE_MAG:
// //TODO state machine change
// break;
// case SUBSYSTEM_TYPE_GPS:
// //TODO state machine change
// break;
// default:
// break;
// }
// }
// void update_state_machine_subsystem_unhealthy(int status_pub, struct vehicle_status_s *current_status, subsystem_type_t *subsystem_type)
// {
// bool previosly_healthy = (bool)(current_status->onboard_control_sensors_health & 1 << *subsystem_type);
// current_status->onboard_control_sensors_health &= ~(1 << *subsystem_type);
// current_status->counter++;
// current_status->timestamp = hrt_absolute_time();
// orb_publish(ORB_ID(vehicle_status), status_pub, current_status);
// /* if we received unhealthy message more than *_HEALTH_COUNTER_LIMIT, switch to error state */
// switch (*subsystem_type) {
// case SUBSYSTEM_TYPE_GYRO:
// //global_data_send_mavlink_statustext_message_out("Commander: gyro unhealthy", MAV_SEVERITY_CRITICAL);
// if (previosly_healthy) //only throw emergency if previously healthy
// state_machine_emergency_always_critical(status_pub, current_status);
// break;
// case SUBSYSTEM_TYPE_ACC:
// //global_data_send_mavlink_statustext_message_out("Commander: accelerometer unhealthy", MAV_SEVERITY_CRITICAL);
// if (previosly_healthy) //only throw emergency if previously healthy
// state_machine_emergency_always_critical(status_pub, current_status);
// break;
// case SUBSYSTEM_TYPE_MAG:
// //global_data_send_mavlink_statustext_message_out("Commander: magnetometer unhealthy", MAV_SEVERITY_CRITICAL);
// if (previosly_healthy) //only throw emergency if previously healthy
// state_machine_emergency_always_critical(status_pub, current_status);
// break;
// case SUBSYSTEM_TYPE_GPS:
// // //TODO: remove this block
// // break;
// // ///////////////////
// //global_data_send_mavlink_statustext_message_out("Commander: GPS unhealthy", MAV_SEVERITY_CRITICAL);
// // printf("previosly_healthy = %u\n", previosly_healthy);
// if (previosly_healthy) //only throw emergency if previously healthy
// state_machine_emergency(status_pub, current_status);
// break;
// default:
// break;
// }
// }
///* END SUBSYSTEM/EMERGENCY FUNCTIONS*/
//
//int update_state_machine_mode_request(int status_pub, struct vehicle_status_s *current_status, const int mavlink_fd, uint8_t mode)
//{
// int ret = 1;
//
//// /* Switch on HIL if in standby and not already in HIL mode */
//// if ((mode & VEHICLE_MODE_FLAG_HIL_ENABLED)
//// && !current_status->flag_hil_enabled) {
//// if ((current_status->state_machine == SYSTEM_STATE_STANDBY)) {
//// /* Enable HIL on request */
//// current_status->flag_hil_enabled = true;
//// ret = OK;
//// state_machine_publish(status_pub, current_status, mavlink_fd);
//// publish_armed_status(current_status);
//// printf("[cmd] Enabling HIL, locking down all actuators for safety.\n\t(Arming the system will not activate them while in HIL mode)\n");
////
//// } else if (current_status->state_machine != SYSTEM_STATE_STANDBY &&
//// current_status->flag_system_armed) {
////
//// mavlink_log_critical(mavlink_fd, "REJECTING HIL, disarm first!")
////
//// } else {
////
//// mavlink_log_critical(mavlink_fd, "REJECTING HIL, not in standby.")
//// }
//// }
//
// /* switch manual / auto */
// if (mode & VEHICLE_MODE_FLAG_AUTO_ENABLED) {
// update_state_machine_mode_auto(status_pub, current_status, mavlink_fd);
//
// } else if (mode & VEHICLE_MODE_FLAG_STABILIZED_ENABLED) {
// update_state_machine_mode_stabilized(status_pub, current_status, mavlink_fd);
//
// } else if (mode & VEHICLE_MODE_FLAG_GUIDED_ENABLED) {
// update_state_machine_mode_guided(status_pub, current_status, mavlink_fd);
//
// } else if (mode & VEHICLE_MODE_FLAG_MANUAL_INPUT_ENABLED) {
// update_state_machine_mode_manual(status_pub, current_status, mavlink_fd);
// }
//
// /* vehicle is disarmed, mode requests arming */
// if (!(current_status->flag_system_armed) && (mode & VEHICLE_MODE_FLAG_SAFETY_ARMED)) {
// /* only arm in standby state */
// // XXX REMOVE
// if (current_status->state_machine == SYSTEM_STATE_STANDBY || current_status->state_machine == SYSTEM_STATE_PREFLIGHT) {
// do_state_update(status_pub, current_status, mavlink_fd, (commander_state_machine_t)SYSTEM_STATE_GROUND_READY);
// ret = OK;
// printf("[cmd] arming due to command request\n");
// }
// }
//
// /* vehicle is armed, mode requests disarming */
// if (current_status->flag_system_armed && !(mode & VEHICLE_MODE_FLAG_SAFETY_ARMED)) {
// /* only disarm in ground ready */
// if (current_status->state_machine == SYSTEM_STATE_GROUND_READY) {
// do_state_update(status_pub, current_status, mavlink_fd, (commander_state_machine_t)SYSTEM_STATE_STANDBY);
// ret = OK;
// printf("[cmd] disarming due to command request\n");
// }
// }
//
// /* NEVER actually switch off HIL without reboot */
// if (current_status->flag_hil_enabled && !(mode & VEHICLE_MODE_FLAG_HIL_ENABLED)) {
// warnx("DENYING request to switch off HIL. Please power cycle (safety reasons)\n");
// mavlink_log_critical(mavlink_fd, "Power-cycle to exit HIL");
// ret = ERROR;
// }
//
// return ret;
//}
#if 0
void update_state_machine_got_position_fix(int status_pub, struct vehicle_status_s *current_status, const int mavlink_fd)
{
/* Depending on the current state switch state */
if (current_status->state_machine == SYSTEM_STATE_PREFLIGHT) {
do_state_update(status_pub, current_status, mavlink_fd, (commander_state_machine_t)SYSTEM_STATE_STANDBY);
}
}
void update_state_machine_no_position_fix(int status_pub, struct vehicle_status_s *current_status, const int mavlink_fd)
{
/* Depending on the current state switch state */
if (current_status->state_machine == SYSTEM_STATE_STANDBY || current_status->state_machine == SYSTEM_STATE_GROUND_READY || current_status->state_machine == SYSTEM_STATE_AUTO) {
state_machine_emergency(status_pub, current_status, mavlink_fd);
}
}
void update_state_machine_arm(int status_pub, struct vehicle_status_s *current_status, const int mavlink_fd)
{
if (current_status->state_machine == SYSTEM_STATE_STANDBY) {
printf("[cmd] arming\n");
do_state_update(status_pub, current_status, mavlink_fd, (commander_state_machine_t)SYSTEM_STATE_GROUND_READY);
}
}
void update_state_machine_disarm(int status_pub, struct vehicle_status_s *current_status, const int mavlink_fd)
{
if (current_status->state_machine == SYSTEM_STATE_GROUND_READY || current_status->state_machine == SYSTEM_STATE_MANUAL || current_status->state_machine == SYSTEM_STATE_PREFLIGHT) {
printf("[cmd] going standby\n");
do_state_update(status_pub, current_status, mavlink_fd, (commander_state_machine_t)SYSTEM_STATE_STANDBY);
} else if (current_status->state_machine == SYSTEM_STATE_STABILIZED || current_status->state_machine == SYSTEM_STATE_AUTO) {
printf("[cmd] MISSION ABORT!\n");
do_state_update(status_pub, current_status, mavlink_fd, (commander_state_machine_t)SYSTEM_STATE_STANDBY);
}
}
void update_state_machine_mode_manual(int status_pub, struct vehicle_status_s *current_status, const int mavlink_fd)
{
int old_mode = current_status->flight_mode;
current_status->flight_mode = VEHICLE_FLIGHT_MODE_MANUAL;
current_status->flag_control_manual_enabled = true;
/* set behaviour based on airframe */
if ((current_status->system_type == VEHICLE_TYPE_QUADROTOR) ||
(current_status->system_type == VEHICLE_TYPE_HEXAROTOR) ||
(current_status->system_type == VEHICLE_TYPE_OCTOROTOR)) {
/* assuming a rotary wing, set to SAS */
current_status->manual_control_mode = VEHICLE_MANUAL_CONTROL_MODE_SAS;
current_status->flag_control_attitude_enabled = true;
current_status->flag_control_rates_enabled = true;
} else {
/* assuming a fixed wing, set to direct pass-through */
current_status->manual_control_mode = VEHICLE_MANUAL_CONTROL_MODE_DIRECT;
current_status->flag_control_attitude_enabled = false;
current_status->flag_control_rates_enabled = false;
}
if (old_mode != current_status->flight_mode) state_machine_publish(status_pub, current_status, mavlink_fd);
if (current_status->state_machine == SYSTEM_STATE_GROUND_READY || current_status->state_machine == SYSTEM_STATE_STABILIZED || current_status->state_machine == SYSTEM_STATE_AUTO) {
printf("[cmd] manual mode\n");
do_state_update(status_pub, current_status, mavlink_fd, (commander_state_machine_t)SYSTEM_STATE_MANUAL);
}
}
void update_state_machine_mode_stabilized(int status_pub, struct vehicle_status_s *current_status, const int mavlink_fd)
{
if (current_status->state_machine == SYSTEM_STATE_GROUND_READY || current_status->state_machine == SYSTEM_STATE_STABILIZED || current_status->state_machine == SYSTEM_STATE_MANUAL || current_status->state_machine == SYSTEM_STATE_AUTO) {
int old_mode = current_status->flight_mode;
int old_manual_control_mode = current_status->manual_control_mode;
current_status->flight_mode = VEHICLE_FLIGHT_MODE_MANUAL;
current_status->manual_control_mode = VEHICLE_MANUAL_CONTROL_MODE_SAS;
current_status->flag_control_attitude_enabled = true;
current_status->flag_control_rates_enabled = true;
current_status->flag_control_manual_enabled = true;
if (old_mode != current_status->flight_mode ||
old_manual_control_mode != current_status->manual_control_mode) {
printf("[cmd] att stabilized mode\n");
do_state_update(status_pub, current_status, mavlink_fd, (commander_state_machine_t)SYSTEM_STATE_MANUAL);
state_machine_publish(status_pub, current_status, mavlink_fd);
}
}
}
void update_state_machine_mode_guided(int status_pub, struct vehicle_status_s *current_status, const int mavlink_fd)
{
if (!current_status->flag_vector_flight_mode_ok) {
mavlink_log_critical(mavlink_fd, "NO POS LOCK, REJ. GUIDED MODE");
tune_error();
return;
}
if (current_status->state_machine == SYSTEM_STATE_GROUND_READY || current_status->state_machine == SYSTEM_STATE_MANUAL || current_status->state_machine == SYSTEM_STATE_AUTO) {
printf("[cmd] position guided mode\n");
int old_mode = current_status->flight_mode;
current_status->flight_mode = VEHICLE_FLIGHT_MODE_STAB;
current_status->flag_control_manual_enabled = false;
current_status->flag_control_attitude_enabled = true;
current_status->flag_control_rates_enabled = true;
do_state_update(status_pub, current_status, mavlink_fd, (commander_state_machine_t)SYSTEM_STATE_STABILIZED);
if (old_mode != current_status->flight_mode) state_machine_publish(status_pub, current_status, mavlink_fd);
}
}
void update_state_machine_mode_auto(int status_pub, struct vehicle_status_s *current_status, const int mavlink_fd)
{
if (!current_status->flag_vector_flight_mode_ok) {
mavlink_log_critical(mavlink_fd, "NO POS LOCK, REJ. AUTO MODE");
return;
}
if (current_status->state_machine == SYSTEM_STATE_GROUND_READY || current_status->state_machine == SYSTEM_STATE_MANUAL || current_status->state_machine == SYSTEM_STATE_STABILIZED) {
printf("[cmd] auto mode\n");
int old_mode = current_status->flight_mode;
current_status->flight_mode = VEHICLE_FLIGHT_MODE_AUTO;
current_status->flag_control_manual_enabled = false;
current_status->flag_control_attitude_enabled = true;
current_status->flag_control_rates_enabled = true;
do_state_update(status_pub, current_status, mavlink_fd, (commander_state_machine_t)SYSTEM_STATE_AUTO);
if (old_mode != current_status->flight_mode) state_machine_publish(status_pub, current_status, mavlink_fd);
}
}
uint8_t update_state_machine_custom_mode_request(int status_pub, struct vehicle_status_s *current_status, const int mavlink_fd, uint8_t custom_mode) //TODO: add more checks to avoid state switching in critical situations
{
commander_state_machine_t current_system_state = current_status->state_machine;
uint8_t ret = 1;
switch (custom_mode) {
case SYSTEM_STATE_GROUND_READY:
break;
case SYSTEM_STATE_STANDBY:
break;
case SYSTEM_STATE_REBOOT:
printf("try to reboot\n");
if (current_system_state == SYSTEM_STATE_STANDBY
|| current_system_state == SYSTEM_STATE_PREFLIGHT
|| current_status->flag_hil_enabled) {
printf("system will reboot\n");
mavlink_log_critical(mavlink_fd, "Rebooting..");
usleep(200000);
do_state_update(status_pub, current_status, mavlink_fd, (commander_state_machine_t)SYSTEM_STATE_REBOOT);
ret = 0;
}
break;
case SYSTEM_STATE_AUTO:
printf("try to switch to auto/takeoff\n");
if (current_system_state == SYSTEM_STATE_GROUND_READY || current_system_state == SYSTEM_STATE_MANUAL) {
do_state_update(status_pub, current_status, mavlink_fd, (commander_state_machine_t)SYSTEM_STATE_AUTO);
printf("state: auto\n");
ret = 0;
}
break;
case SYSTEM_STATE_MANUAL:
printf("try to switch to manual\n");
if (current_system_state == SYSTEM_STATE_GROUND_READY || current_system_state == SYSTEM_STATE_AUTO) {
do_state_update(status_pub, current_status, mavlink_fd, (commander_state_machine_t)SYSTEM_STATE_MANUAL);
printf("state: manual\n");
ret = 0;
}
break;
default:
break;
}
return ret;
}
#endif