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px4_autopilot/integrationtests/python_src/px4_it/mavros/mission_test.py

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#!/usr/bin/env python
#***************************************************************************
#
# Copyright (c) 2015 PX4 Development Team. All rights reserved.
#
# 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.
#
#***************************************************************************/
#
# @author Andreas Antener <andreas@uaventure.com>
#
PKG = 'px4'
import unittest
import rospy
import math
import rosbag
import sys
import os
import mavros
from pymavlink import mavutil
from mavros import mavlink
from geometry_msgs.msg import PoseStamped
from mavros_msgs.srv import CommandLong, WaypointPush
from mavros_msgs.msg import Mavlink, Waypoint, ExtendedState
from sensor_msgs.msg import NavSatFix
from mavros.mission import QGroundControlWP
#from px4_test_helper import PX4TestHelper
class MavrosMissionTest(unittest.TestCase):
"""
Run a mission
"""
def setUp(self):
rospy.init_node('test_node', anonymous=True)
self.rate = rospy.Rate(10) # 10hz
self.has_global_pos = False
self.local_position = PoseStamped()
self.global_position = NavSatFix()
self.extended_state = ExtendedState()
self.home_alt = 0
self.mc_rad = 5
self.fw_rad = 50
self.fw_alt_rad = 10
self.last_alt_d = 9999
self.last_pos_d = 9999
# need to simulate heartbeat for datalink loss detection
rospy.Timer(rospy.Duration(0.5), self.send_heartbeat)
rospy.wait_for_service('mavros/cmd/command', 30)
self.pub_mavlink = rospy.Publisher('mavlink/to', Mavlink, queue_size=1)
self._srv_cmd_long = rospy.ServiceProxy('mavros/cmd/command', CommandLong, persistent=True)
self._srv_wp_push = rospy.ServiceProxy('mavros/mission/push', WaypointPush, persistent=True)
rospy.Subscriber("mavros/local_position/pose", PoseStamped, self.position_callback)
rospy.Subscriber("mavros/global_position/global", NavSatFix, self.global_position_callback)
rospy.Subscriber("mavros/extended_state", ExtendedState, self.extended_state_callback)
def tearDown(self):
#self.helper.tearDown()
pass
#
# General callback functions used in tests
#
def position_callback(self, data):
self.local_position = data
def global_position_callback(self, data):
self.global_position = data
if not self.has_global_pos:
self.home_alt = data.altitude
self.has_global_pos = True
def extended_state_callback(self, data):
self.extended_state = data
#
# Helper methods
#
def is_at_position(self, lat, lon, alt, xy_offset, z_offset):
R = 6371000 # metres
rlat1 = math.radians(lat)
rlat2 = math.radians(self.global_position.latitude)
rlat_d = math.radians(self.global_position.latitude - lat)
rlon_d = math.radians(self.global_position.longitude - lon)
a = (math.sin(rlat_d / 2) * math.sin(rlat_d / 2) +
math.cos(rlat1) * math.cos(rlat2) *
math.sin(rlon_d / 2) * math.sin(rlon_d / 2))
c = 2 * math.atan2(math.sqrt(a), math.sqrt(1-a))
d = R * c
alt_d = abs(alt - self.global_position.altitude)
#rospy.loginfo("d: %f, alt_d: %f", d, alt_d)
# remember best distances
if self.last_pos_d > d:
self.last_pos_d = d
if self.last_alt_d > alt_d:
self.last_alt_d = alt_d
return d < xy_offset and alt_d < z_offset
def reach_position(self, lat, lon, alt, timeout, index):
# reset best distances
self.last_alt_d = 9999
self.last_pos_d = 9999
rospy.loginfo("trying to reach waypoint " +
"lat: %f, lon: %f, alt: %f, timeout: %d, index: %d" %
(lat, lon, alt, timeout, index))
# does it reach the position in X seconds?
count = 0
while count < timeout:
# use different radius matching vehicle state
xy_radius = self.mc_rad
z_radius = self.mc_rad
if self.extended_state.vtol_state == ExtendedState.VTOL_STATE_FW:
xy_radius = self.fw_rad
z_radius = self.fw_alt_rad
if self.is_at_position(lat, lon, alt, xy_radius, z_radius):
rospy.loginfo("position reached, index: %d, count: %d, pos_d: %f, alt_d: %f" %
(index, count, self.last_pos_d, self.last_alt_d))
break
count = count + 1
self.rate.sleep()
self.assertTrue(count < timeout, ("took too long to get to position " +
"lat: %f, lon: %f, alt: %f, xy off: %f, z off: %f, timeout: %d, index: %d, pos_d: %f, alt_d: %f" %
(lat, lon, alt, xy_radius, z_radius, timeout, index, self.last_pos_d, self.last_alt_d)))
def run_mission(self):
"""switch mode: armed | auto"""
self._srv_cmd_long(False, 176, False,
# arm | custom, auto, mission
128 | 1, 4, 4, 0, 0, 0, 0)
def wait_until_ready(self):
"""FIXME: hack to wait for simulation to be ready"""
while not self.has_global_pos:
self.rate.sleep()
def wait_on_landing(self, timeout, index):
"""Wait for landed state"""
rospy.loginfo("waiting for landing " +
"timeout: %d, index: %d" %
(timeout, index))
count = 0
while count < timeout:
if self.extended_state.landed_state == ExtendedState.LANDED_STATE_ON_GROUND:
break
count = count + 1
self.rate.sleep()
self.assertTrue(count < timeout, ("landing not detected after landing WP " +
"timeout: %d, index: %d") %
(timeout, index))
def wait_on_transition(self, transition, timeout, index):
"""Wait for VTOL transition"""
rospy.loginfo("waiting for VTOL transition " +
"transition: %d, timeout: %d, index: %d" %
(transition, timeout, index))
count = 0
while count < timeout:
# transition to MC
if (transition == ExtendedState.VTOL_STATE_MC and
self.extended_state.vtol_state == ExtendedState.VTOL_STATE_MC):
break
# transition to FW
if (transition == ExtendedState.VTOL_STATE_FW and
self.extended_state.vtol_state == ExtendedState.VTOL_STATE_FW):
break
count = count + 1
self.rate.sleep()
self.assertTrue(count < timeout, ("transition not detected " +
"timeout: %d, index: %d") %
(timeout, index))
def send_heartbeat(self, event=None):
# mav type gcs
mavmsg = mavutil.mavlink.MAVLink_heartbeat_message(6, 0, 0, 0, 0, 0)
# XXX: hack: using header object to set mav properties
mavmsg.pack(mavutil.mavlink.MAVLink_header(0, 0, 0, 2, 1))
rosmsg = mavlink.convert_to_rosmsg(mavmsg)
self.pub_mavlink.publish(rosmsg)
def test_mission(self):
"""Test mission"""
if len(sys.argv) < 2:
self.fail("usage: mission_test.py mission_file")
return
file = os.path.dirname(os.path.realpath(__file__)) + "/" + sys.argv[1]
rospy.loginfo("reading mission %s", file)
mission = QGroundControlWP()
wps = []
for waypoint in mission.read(open(file, 'r')):
wps.append(waypoint)
rospy.logdebug(waypoint)
rospy.loginfo("wait until ready")
self.wait_until_ready()
rospy.loginfo("send mission")
res = self._srv_wp_push(wps)
rospy.loginfo(res)
self.assertTrue(res.success, "mission could not be transfered")
rospy.loginfo("run mission")
self.run_mission()
index = 0
for waypoint in wps:
# only check position for waypoints where this makes sense
if waypoint.frame == Waypoint.FRAME_GLOBAL_REL_ALT or waypoint.frame == Waypoint.FRAME_GLOBAL:
alt = waypoint.z_alt
if waypoint.frame == Waypoint.FRAME_GLOBAL_REL_ALT:
alt += self.home_alt
self.reach_position(waypoint.x_lat, waypoint.y_long, alt, 600, index)
# check if VTOL transition happens if applicable
if waypoint.command == 84 or waypoint.command == 85 or waypoint.command == 3000:
transition = waypoint.param1
if waypoint.command == 84: # VTOL takeoff implies transition to FW
transition = ExtendedState.VTOL_STATE_FW
if waypoint.command == 85: # VTOL takeoff implies transition to MC
transition = ExtendedState.VTOL_STATE_MC
self.wait_on_transition(transition, 600, index)
# after reaching position, wait for landing detection if applicable
if waypoint.command == 85 or waypoint.command == 21:
self.wait_on_landing(600, index)
index += 1
if __name__ == '__main__':
import rostest
name = "mavros_mission_test"
if len(sys.argv) > 1:
name += "-%s" % sys.argv[1]
rostest.rosrun(PKG, name, MavrosMissionTest)