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'''
Drive Rover in SITL
AP_FLAKE8_CLEAN
'''
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from __future__ import print_function
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import copy
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import math
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import operator
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import os
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import sys
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import time
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from common import AutoTest
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from pysim import util
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from common import AutoTestTimeoutException
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from common import MsgRcvTimeoutException
from common import NotAchievedException
from common import PreconditionFailedException
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from pymavlink import mavextra
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from pymavlink import mavutil
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# get location of scripts
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testdir = os . path . dirname ( os . path . realpath ( __file__ ) )
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SITL_START_LOCATION = mavutil . location ( 40.071374969556928 ,
- 105.22978898137808 ,
1583.702759 ,
246 )
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class AutoTestRover ( AutoTest ) :
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@staticmethod
def get_not_armable_mode_list ( ) :
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return [ " RTL " , " SMART_RTL " ]
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@staticmethod
def get_not_disarmed_settable_modes_list ( ) :
return [ " FOLLOW " ]
@staticmethod
def get_no_position_not_settable_modes_list ( ) :
return [ ]
@staticmethod
def get_position_armable_modes_list ( ) :
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return [ " GUIDED " , " LOITER " , " STEERING " , " AUTO " ]
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@staticmethod
def get_normal_armable_modes_list ( ) :
return [ " ACRO " , " HOLD " , " MANUAL " ]
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def log_name ( self ) :
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return " Rover "
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def test_filepath ( self ) :
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return os . path . realpath ( __file__ )
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def set_current_test_name ( self , name ) :
self . current_test_name_directory = " ArduRover_Tests/ " + name + " / "
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def sitl_start_location ( self ) :
return SITL_START_LOCATION
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def default_frame ( self ) :
return " rover "
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def default_speedup ( self ) :
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return 30
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def is_rover ( self ) :
return True
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def get_stick_arming_channel ( self ) :
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return int ( self . get_parameter ( " RCMAP_ROLL " ) )
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##########################################################
# TESTS DRIVE
##########################################################
# Drive a square in manual mode
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def DriveSquare ( self , side = 50 ) :
""" Learn/Drive Square with Ch7 option """
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self . context_push ( )
ex = None
try :
self . progress ( " TEST SQUARE " )
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self . set_parameters ( {
" RC7_OPTION " : 7 ,
" RC9_OPTION " : 58 ,
} )
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self . change_mode ( ' MANUAL ' )
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self . wait_ready_to_arm ( )
self . arm_vehicle ( )
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self . clear_wp ( 9 )
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# first aim north
self . progress ( " \n Turn right towards north " )
self . reach_heading_manual ( 10 )
# save bottom left corner of box as home AND waypoint
self . progress ( " Save HOME " )
self . save_wp ( )
self . progress ( " Save WP " )
self . save_wp ( )
# pitch forward to fly north
self . progress ( " \n Going north %u meters " % side )
self . reach_distance_manual ( side )
# save top left corner of square as waypoint
self . progress ( " Save WP " )
self . save_wp ( )
# roll right to fly east
self . progress ( " \n Going east %u meters " % side )
self . reach_heading_manual ( 100 )
self . reach_distance_manual ( side )
# save top right corner of square as waypoint
self . progress ( " Save WP " )
self . save_wp ( )
# pitch back to fly south
self . progress ( " \n Going south %u meters " % side )
self . reach_heading_manual ( 190 )
self . reach_distance_manual ( side )
# save bottom right corner of square as waypoint
self . progress ( " Save WP " )
self . save_wp ( )
# roll left to fly west
self . progress ( " \n Going west %u meters " % side )
self . reach_heading_manual ( 280 )
self . reach_distance_manual ( side )
# save bottom left corner of square (should be near home) as waypoint
self . progress ( " Save WP " )
self . save_wp ( )
self . progress ( " Checking number of saved waypoints " )
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mavproxy = self . start_mavproxy ( )
num_wp = self . save_mission_to_file_using_mavproxy (
mavproxy ,
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os . path . join ( testdir , " ch7_mission.txt " ) )
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self . stop_mavproxy ( mavproxy )
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expected = 7 # home + 6 toggled in
if num_wp != expected :
raise NotAchievedException ( " Did not get %u waypoints; got %u " %
( expected , num_wp ) )
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# TODO: actually drive the mission
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self . clear_wp ( 9 )
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except Exception as e :
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self . print_exception_caught ( e )
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ex = e
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self . disarm_vehicle ( )
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self . context_pop ( )
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if ex :
raise ex
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def drive_left_circuit ( self ) :
""" Drive a left circuit, 50m on a side. """
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self . change_mode ( ' MANUAL ' )
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self . set_rc ( 3 , 2000 )
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self . progress ( " Driving left circuit " )
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# do 4 turns
for i in range ( 0 , 4 ) :
# hard left
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self . progress ( " Starting turn %u " % i )
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self . set_rc ( 1 , 1000 )
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self . wait_heading ( 270 - ( 90 * i ) , accuracy = 10 )
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self . set_rc ( 1 , 1500 )
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self . progress ( " Starting leg %u " % i )
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self . wait_distance ( 50 , accuracy = 7 )
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self . set_rc ( 3 , 1500 )
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self . progress ( " Circuit complete " )
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# def test_throttle_failsafe(self, home, distance_min=10, side=60,
# timeout=300):
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# """Fly east, Failsafe, return, land."""
#
# self.mavproxy.send('switch 6\n') # manual mode
# self.wait_mode('MANUAL')
# self.mavproxy.send("param set FS_ACTION 1\n")
#
# # first aim east
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# self.progress("turn east")
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# if not self.reach_heading_manual(135):
# return False
#
# # fly east 60 meters
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# self.progress("# Going forward %u meters" % side)
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# if not self.reach_distance_manual(side):
# return False
#
# # pull throttle low
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# self.progress("# Enter Failsafe")
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# self.mavproxy.send('rc 3 900\n')
#
# tstart = self.get_sim_time()
# success = False
# while self.get_sim_time() < tstart + timeout and not success:
# m = self.mav.recv_match(type='VFR_HUD', blocking=True)
# pos = self.mav.location()
# home_distance = self.get_distance(home, pos)
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# self.progress("Alt: %u HomeDistance: %.0f" %
# (m.alt, home_distance))
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# # check if we've reached home
# if home_distance <= distance_min:
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# self.progress("RTL Complete")
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# success = True
#
# # reduce throttle
# self.mavproxy.send('rc 3 1500\n')
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# self.mavproxy.expect('AP: Failsafe ended')
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# self.mavproxy.send('switch 2\n') # manual mode
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# self.wait_heartbeat()
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# self.wait_mode('MANUAL')
#
# if success:
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# self.progress("Reached failsafe home OK")
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# return True
# else:
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# self.progress("Failed to reach Home on failsafe RTL - "
# "timed out after %u seconds" % timeout)
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# return False
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def Sprayer ( self ) :
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""" Test sprayer functionality. """
self . context_push ( )
ex = None
try :
rc_ch = 5
pump_ch = 5
spinner_ch = 6
pump_ch_min = 1050
pump_ch_trim = 1520
pump_ch_max = 1950
spinner_ch_min = 975
spinner_ch_trim = 1510
spinner_ch_max = 1975
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self . set_parameters ( {
" SPRAY_ENABLE " : 1 ,
" SERVO %u _FUNCTION " % pump_ch : 22 ,
" SERVO %u _MIN " % pump_ch : pump_ch_min ,
" SERVO %u _TRIM " % pump_ch : pump_ch_trim ,
" SERVO %u _MAX " % pump_ch : pump_ch_max ,
" SERVO %u _FUNCTION " % spinner_ch : 23 ,
" SERVO %u _MIN " % spinner_ch : spinner_ch_min ,
" SERVO %u _TRIM " % spinner_ch : spinner_ch_trim ,
" SERVO %u _MAX " % spinner_ch : spinner_ch_max ,
" SIM_SPR_ENABLE " : 1 ,
" SIM_SPR_PUMP " : pump_ch ,
" SIM_SPR_SPIN " : spinner_ch ,
" RC %u _OPTION " % rc_ch : 15 ,
" LOG_DISARMED " : 1 ,
} )
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self . reboot_sitl ( )
self . wait_ready_to_arm ( )
self . arm_vehicle ( )
self . progress ( " test bootup state - it ' s zero-output! " )
self . wait_servo_channel_value ( spinner_ch , 0 )
self . wait_servo_channel_value ( pump_ch , 0 )
self . progress ( " Enable sprayer " )
self . set_rc ( rc_ch , 2000 )
self . progress ( " Testing zero-speed state " )
self . wait_servo_channel_value ( spinner_ch , spinner_ch_min )
self . wait_servo_channel_value ( pump_ch , pump_ch_min )
self . progress ( " Testing turning it off " )
self . set_rc ( rc_ch , 1000 )
self . wait_servo_channel_value ( spinner_ch , spinner_ch_min )
self . wait_servo_channel_value ( pump_ch , pump_ch_min )
self . progress ( " Testing turning it back on " )
self . set_rc ( rc_ch , 2000 )
self . wait_servo_channel_value ( spinner_ch , spinner_ch_min )
self . wait_servo_channel_value ( pump_ch , pump_ch_min )
self . progress ( " Testing speed-ramping " )
self . set_rc ( 3 , 1700 ) # start driving forward
# this is somewhat empirical...
self . wait_servo_channel_value ( pump_ch , 1695 , timeout = 60 )
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self . progress ( " Turning it off again " )
self . set_rc ( rc_ch , 1000 )
self . wait_servo_channel_value ( spinner_ch , spinner_ch_min )
self . wait_servo_channel_value ( pump_ch , pump_ch_min )
self . start_subtest ( " Sprayer Mission " )
self . load_mission ( " sprayer-mission.txt " )
self . change_mode ( " AUTO " )
# self.send_debug_trap()
self . progress ( " Waiting for sprayer to start " )
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self . wait_servo_channel_value ( pump_ch , 1250 , timeout = 60 , comparator = operator . gt )
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self . progress ( " Waiting for sprayer to stop " )
self . wait_servo_channel_value ( pump_ch , pump_ch_min , timeout = 120 )
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self . start_subtest ( " Checking mavlink commands " )
self . change_mode ( " MANUAL " )
self . progress ( " Starting Sprayer " )
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self . run_cmd ( mavutil . mavlink . MAV_CMD_DO_SPRAYER , p1 = 1 )
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self . progress ( " Testing speed-ramping " )
self . set_rc ( 3 , 1700 ) # start driving forward
self . wait_servo_channel_value ( pump_ch , 1690 , timeout = 60 , comparator = operator . gt )
self . start_subtest ( " Stopping Sprayer " )
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self . run_cmd ( mavutil . mavlink . MAV_CMD_DO_SPRAYER , p1 = 0 )
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self . wait_servo_channel_value ( pump_ch , pump_ch_min )
self . set_rc ( 3 , 1000 ) # start driving forward
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self . progress ( " Sprayer OK " )
except Exception as e :
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self . print_exception_caught ( e )
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ex = e
self . context_pop ( )
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self . disarm_vehicle ( force = True )
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self . reboot_sitl ( )
if ex :
raise ex
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def DriveMaxRCIN ( self , timeout = 30 ) :
""" Drive rover at max RC inputs """
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self . context_push ( )
ex = None
try :
self . progress ( " Testing max RC inputs " )
self . change_mode ( " MANUAL " )
self . wait_ready_to_arm ( )
self . arm_vehicle ( )
self . set_rc ( 3 , 2000 )
self . set_rc ( 1 , 1000 )
tstart = self . get_sim_time ( )
while self . get_sim_time_cached ( ) - tstart < timeout :
m = self . mav . recv_match ( type = ' VFR_HUD ' , blocking = True , timeout = 1 )
if m is not None :
self . progress ( " Current speed: %f " % m . groundspeed )
# reduce throttle
self . set_rc ( 3 , 1500 )
self . set_rc ( 1 , 1500 )
except Exception as e :
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self . print_exception_caught ( e )
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ex = e
self . disarm_vehicle ( )
self . context_pop ( )
if ex :
raise ex
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#################################################
# AUTOTEST ALL
#################################################
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def drive_mission ( self , filename , strict = True ) :
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""" Drive a mission from a file. """
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self . progress ( " Driving mission %s " % filename )
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wp_count = self . load_mission ( filename , strict = strict )
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self . wait_ready_to_arm ( )
self . arm_vehicle ( )
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self . change_mode ( ' AUTO ' )
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self . wait_waypoint ( 1 , wp_count - 1 , max_dist = 5 )
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self . wait_statustext ( " Mission Complete " , timeout = 600 )
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self . disarm_vehicle ( )
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self . progress ( " Mission OK " )
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def DriveMission ( self ) :
''' Drive Mission rover1.txt '''
self . drive_mission ( " rover1.txt " , strict = False )
def GripperMission ( self ) :
''' Test Gripper Mission Items '''
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self . load_mission ( " rover-gripper-mission.txt " )
self . change_mode ( ' AUTO ' )
self . wait_ready_to_arm ( )
self . arm_vehicle ( )
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self . context_collect ( ' STATUSTEXT ' )
self . wait_statustext ( " Gripper Grabbed " , timeout = 60 , check_context = True )
self . wait_statustext ( " Gripper Released " , timeout = 60 , check_context = True )
self . wait_statustext ( " Mission Complete " , timeout = 60 , check_context = True )
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self . disarm_vehicle ( )
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def GetBanner ( self ) :
''' Get Banner '''
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target_sysid = self . sysid_thismav ( )
target_compid = 1
self . mav . mav . command_long_send (
target_sysid ,
target_compid ,
mavutil . mavlink . MAV_CMD_DO_SEND_BANNER ,
1 , # confirmation
1 , # send it
0 ,
0 ,
0 ,
0 ,
0 ,
0 )
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start = time . time ( )
while True :
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m = self . mav . recv_match ( type = ' STATUSTEXT ' ,
blocking = True ,
timeout = 1 )
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if m is not None and " ArduRover " in m . text :
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self . progress ( " banner received: %s " % m . text )
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return
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if time . time ( ) - start > 10 :
break
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raise MsgRcvTimeoutException ( " banner not received " )
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def drive_brake_get_stopping_distance ( self , speed ) :
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''' measure our stopping distance '''
self . context_push ( )
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# controller tends not to meet cruise speed (max of ~14 when 15
# set), thus *1.2
# at time of writing, the vehicle is only capable of 10m/s/s accel
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self . set_parameters ( {
' CRUISE_SPEED ' : speed * 1.2 ,
' ATC_ACCEL_MAX ' : 15 ,
} )
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self . change_mode ( " STEERING " )
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self . set_rc ( 3 , 2000 )
self . wait_groundspeed ( 15 , 100 )
initial = self . mav . location ( )
initial_time = time . time ( )
while time . time ( ) - initial_time < 2 :
# wait for a position update from the autopilot
start = self . mav . location ( )
if start != initial :
break
self . set_rc ( 3 , 1500 )
self . wait_groundspeed ( 0 , 0.2 ) # why do we not stop?!
initial = self . mav . location ( )
initial_time = time . time ( )
while time . time ( ) - initial_time < 2 :
# wait for a position update from the autopilot
stop = self . mav . location ( )
if stop != initial :
break
delta = self . get_distance ( start , stop )
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self . context_pop ( )
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return delta
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def DriveBrake ( self ) :
''' Test braking '''
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self . set_parameters ( {
' CRUISE_SPEED ' : 15 ,
' ATC_BRAKE ' : 0 ,
} )
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self . arm_vehicle ( )
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distance_without_brakes = self . drive_brake_get_stopping_distance ( 15 )
# brakes on:
self . set_parameter ( ' ATC_BRAKE ' , 1 )
distance_with_brakes = self . drive_brake_get_stopping_distance ( 15 )
delta = distance_without_brakes - distance_with_brakes
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self . disarm_vehicle ( )
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if delta < distance_without_brakes * 0.05 : # 5% isn't asking for much
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raise NotAchievedException ( """
Brakes have negligible effect ( with = % 0.2 fm without = % 0.2 fm delta = % 0.2 fm )
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""" %
( distance_with_brakes ,
distance_without_brakes ,
delta ) )
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self . progress (
" Brakes work (with= %0.2f m without= %0.2f m delta= %0.2f m) " %
( distance_with_brakes , distance_without_brakes , delta ) )
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def drive_rtl_mission_max_distance_from_home ( self ) :
''' maximum distance allowed from home at end '''
return 6.5
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def DriveRTL ( self , timeout = 120 ) :
''' Drive an RTL Mission '''
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self . wait_ready_to_arm ( )
self . arm_vehicle ( )
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self . load_mission ( " rtl.txt " )
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self . change_mode ( " AUTO " )
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tstart = self . get_sim_time ( )
while True :
now = self . get_sim_time_cached ( )
if now - tstart > timeout :
raise AutoTestTimeoutException ( " Didn ' t see wp 3 " )
m = self . mav . recv_match ( type = ' MISSION_CURRENT ' ,
blocking = True ,
timeout = 1 )
self . progress ( " MISSION_CURRENT: %s " % str ( m ) )
if m . seq == 3 :
break
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self . drain_mav ( )
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m = self . assert_receive_message ( ' NAV_CONTROLLER_OUTPUT ' , timeout = 1 )
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wp_dist_min = 5
if m . wp_dist < wp_dist_min :
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raise PreconditionFailedException (
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" Did not start at least %f metres from destination (is= %f ) " %
( wp_dist_min , m . wp_dist ) )
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self . progress ( " NAV_CONTROLLER_OUTPUT.wp_dist looks good ( %u >= %u ) " %
( m . wp_dist , wp_dist_min , ) )
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# wait for mission to complete
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self . wait_statustext ( " Mission Complete " , timeout = 70 )
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# the EKF doesn't pull us down to 0 speed:
self . wait_groundspeed ( 0 , 0.5 , timeout = 600 )
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# current Rover blows straight past the home position and ends
# up ~6m past the home point.
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home_distance = self . distance_to_home ( )
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home_distance_min = 5.5
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home_distance_max = self . drive_rtl_mission_max_distance_from_home ( )
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if home_distance > home_distance_max :
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raise NotAchievedException (
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" Did not stop near home ( %f metres distant ( %f > want > %f )) " %
( home_distance , home_distance_min , home_distance_max ) )
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self . disarm_vehicle ( )
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self . progress ( " RTL Mission OK ( %f m) " % home_distance )
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def AC_Avoidance ( self ) :
''' Test AC Avoidance switch '''
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self . context_push ( )
ex = None
try :
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self . load_fence ( " rover-fence-ac-avoid.txt " )
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self . set_parameters ( {
" FENCE_ENABLE " : 0 ,
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" PRX1_TYPE " : 10 ,
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" RC10_OPTION " : 40 , # proximity-enable
} )
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self . reboot_sitl ( )
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# start = self.mav.location()
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self . wait_ready_to_arm ( )
self . arm_vehicle ( )
# first make sure we can breach the fence:
self . set_rc ( 10 , 1000 )
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self . change_mode ( " ACRO " )
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self . set_rc ( 3 , 1550 )
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self . wait_distance_to_home ( 25 , 100000 , timeout = 60 )
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self . change_mode ( " RTL " )
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self . wait_statustext ( " Reached destination " , timeout = 60 )
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# now enable avoidance and make sure we can't:
self . set_rc ( 10 , 2000 )
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self . change_mode ( " ACRO " )
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self . wait_groundspeed ( 0 , 0.7 , timeout = 60 )
# watch for speed zero
self . wait_groundspeed ( 0 , 0.2 , timeout = 120 )
except Exception as e :
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self . print_exception_caught ( e )
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ex = e
self . context_pop ( )
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self . clear_mission ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
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self . disarm_vehicle ( force = True )
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self . reboot_sitl ( )
if ex :
raise ex
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def ServoRelayEvents ( self ) :
''' Test ServoRelayEvents '''
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self . do_set_relay ( 0 , 0 )
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off = self . get_parameter ( " SIM_PIN_MASK " )
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self . do_set_relay ( 0 , 1 )
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on = self . get_parameter ( " SIM_PIN_MASK " )
if on == off :
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raise NotAchievedException (
" Pin mask unchanged after relay cmd " )
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self . progress ( " Pin mask changed after relay command " )
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def MAVProxy_SetModeUsingSwitch ( self ) :
""" Set modes via mavproxy switch """
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port = self . sitl_rcin_port ( offset = 1 )
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self . customise_SITL_commandline ( [
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" --rc-in-port " , str ( port ) ,
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] )
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ex = None
try :
self . load_mission ( self . arming_test_mission ( ) )
self . wait_ready_to_arm ( )
fnoo = [ ( 1 , ' MANUAL ' ) ,
( 2 , ' MANUAL ' ) ,
( 3 , ' RTL ' ) ,
( 4 , ' AUTO ' ) ,
( 5 , ' AUTO ' ) , # non-existant mode, should stay in RTL
( 6 , ' MANUAL ' ) ]
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mavproxy = self . start_mavproxy ( sitl_rcin_port = port )
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for ( num , expected ) in fnoo :
mavproxy . send ( ' switch %u \n ' % num )
self . wait_mode ( expected )
self . stop_mavproxy ( mavproxy )
except Exception as e :
self . print_exception_caught ( e )
ex = e
# if we don't put things back ourselves then the test cleanup
# doesn't go well as we can't set the RC defaults correctly:
self . customise_SITL_commandline ( [
] )
if ex is not None :
raise ex
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def MAVProxy_SetModeUsingMode ( self ) :
''' Set modes via mavproxy mode command '''
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fnoo = [ ( 1 , ' ACRO ' ) ,
( 3 , ' STEERING ' ) ,
( 4 , ' HOLD ' ) ,
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]
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mavproxy = self . start_mavproxy ( )
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for ( num , expected ) in fnoo :
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mavproxy . send ( ' mode manual \n ' )
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self . wait_mode ( " MANUAL " )
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mavproxy . send ( ' mode %u \n ' % num )
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self . wait_mode ( expected )
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mavproxy . send ( ' mode manual \n ' )
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self . wait_mode ( " MANUAL " )
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mavproxy . send ( ' mode %s \n ' % expected )
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self . wait_mode ( expected )
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self . stop_mavproxy ( mavproxy )
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def ModeSwitch ( self ) :
''' ' Set modes via modeswitch '''
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self . context_push ( )
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ex = None
try :
self . set_parameter ( " MODE_CH " , 8 )
self . set_rc ( 8 , 1000 )
# mavutil.mavlink.ROVER_MODE_HOLD:
self . set_parameter ( " MODE6 " , 4 )
# mavutil.mavlink.ROVER_MODE_ACRO
self . set_parameter ( " MODE5 " , 1 )
self . set_rc ( 8 , 1800 ) # PWM for mode6
self . wait_mode ( " HOLD " )
self . set_rc ( 8 , 1700 ) # PWM for mode5
self . wait_mode ( " ACRO " )
self . set_rc ( 8 , 1800 ) # PWM for mode6
self . wait_mode ( " HOLD " )
self . set_rc ( 8 , 1700 ) # PWM for mode5
self . wait_mode ( " ACRO " )
except Exception as e :
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self . print_exception_caught ( e )
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ex = e
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self . context_pop ( )
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if ex is not None :
raise ex
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def AuxModeSwitch ( self ) :
''' Set modes via auxswitches '''
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self . context_push ( )
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ex = None
try :
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# from mavproxy_rc.py
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mapping = [ 0 , 1165 , 1295 , 1425 , 1555 , 1685 , 1815 ]
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self . set_parameter ( " MODE1 " , 1 ) # acro
self . set_rc ( 8 , mapping [ 1 ] )
self . wait_mode ( ' ACRO ' )
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self . set_rc ( 9 , 1000 )
self . set_rc ( 10 , 1000 )
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self . set_parameters ( {
" RC9_OPTION " : 53 , # steering
" RC10_OPTION " : 54 , # hold
} )
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self . set_rc ( 9 , 1900 )
self . wait_mode ( " STEERING " )
self . set_rc ( 10 , 1900 )
self . wait_mode ( " HOLD " )
# reset both switches - should go back to ACRO
self . set_rc ( 9 , 1000 )
self . set_rc ( 10 , 1000 )
self . wait_mode ( " ACRO " )
self . set_rc ( 9 , 1900 )
self . wait_mode ( " STEERING " )
self . set_rc ( 10 , 1900 )
self . wait_mode ( " HOLD " )
self . set_rc ( 10 , 1000 ) # this re-polls the mode switch
self . wait_mode ( " ACRO " )
self . set_rc ( 9 , 1000 )
except Exception as e :
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self . print_exception_caught ( e )
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ex = e
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self . context_pop ( )
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if ex is not None :
raise ex
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def RCOverridesCancel ( self ) :
''' Test RC overrides Cancel '''
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self . set_parameter ( " SYSID_MYGCS " , self . mav . source_system )
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self . change_mode ( ' MANUAL ' )
self . wait_ready_to_arm ( )
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self . zero_throttle ( )
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self . arm_vehicle ( )
# start moving forward a little:
normal_rc_throttle = 1700
throttle_override = 1900
self . progress ( " Establishing baseline RC input " )
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self . set_rc ( 3 , normal_rc_throttle )
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self . drain_mav ( )
tstart = self . get_sim_time ( )
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while True :
if self . get_sim_time_cached ( ) - tstart > 10 :
raise AutoTestTimeoutException ( " Did not get rc change " )
m = self . mav . recv_match ( type = ' RC_CHANNELS ' , blocking = True )
if m . chan3_raw == normal_rc_throttle :
break
self . progress ( " Set override with RC_CHANNELS_OVERRIDE " )
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self . drain_mav ( )
tstart = self . get_sim_time ( )
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while True :
if self . get_sim_time_cached ( ) - tstart > 10 :
raise AutoTestTimeoutException ( " Did not override " )
self . progress ( " Sending throttle of %u " % ( throttle_override , ) )
self . mav . mav . rc_channels_override_send (
1 , # target system
1 , # targe component
65535 , # chan1_raw
65535 , # chan2_raw
throttle_override , # chan3_raw
65535 , # chan4_raw
65535 , # chan5_raw
65535 , # chan6_raw
65535 , # chan7_raw
65535 ) # chan8_raw
m = self . mav . recv_match ( type = ' RC_CHANNELS ' , blocking = True )
self . progress ( " chan3= %f want= %f " % ( m . chan3_raw , throttle_override ) )
if m . chan3_raw == throttle_override :
break
self . progress ( " disabling override and making sure we revert to RC input in good time " )
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self . drain_mav ( )
tstart = self . get_sim_time ( )
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while True :
if self . get_sim_time_cached ( ) - tstart > 0.5 :
raise AutoTestTimeoutException ( " Did not cancel override " )
self . progress ( " Sending cancel of throttle override " )
self . mav . mav . rc_channels_override_send (
1 , # target system
1 , # targe component
65535 , # chan1_raw
65535 , # chan2_raw
0 , # chan3_raw
65535 , # chan4_raw
65535 , # chan5_raw
65535 , # chan6_raw
65535 , # chan7_raw
65535 ) # chan8_raw
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self . do_timesync_roundtrip ( )
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m = self . mav . recv_match ( type = ' RC_CHANNELS ' , blocking = True )
self . progress ( " chan3= %f want= %f " % ( m . chan3_raw , normal_rc_throttle ) )
if m . chan3_raw == normal_rc_throttle :
break
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self . disarm_vehicle ( )
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def RCOverrides ( self ) :
''' Test RC overrides '''
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self . context_push ( )
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self . set_parameter ( " SYSID_MYGCS " , self . mav . source_system )
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ex = None
try :
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self . set_parameter ( " RC12_OPTION " , 46 )
self . reboot_sitl ( )
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self . change_mode ( ' MANUAL ' )
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self . wait_ready_to_arm ( )
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self . set_rc ( 3 , 1500 ) # throttle at zero
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self . arm_vehicle ( )
# start moving forward a little:
normal_rc_throttle = 1700
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self . set_rc ( 3 , normal_rc_throttle )
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self . wait_groundspeed ( 5 , 100 )
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# allow overrides:
self . set_rc ( 12 , 2000 )
# now override to stop:
throttle_override = 1500
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tstart = self . get_sim_time_cached ( )
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while True :
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if self . get_sim_time_cached ( ) - tstart > 10 :
raise AutoTestTimeoutException ( " Did not reach speed " )
self . progress ( " Sending throttle of %u " % ( throttle_override , ) )
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self . mav . mav . rc_channels_override_send (
1 , # target system
1 , # targe component
65535 , # chan1_raw
65535 , # chan2_raw
throttle_override , # chan3_raw
65535 , # chan4_raw
65535 , # chan5_raw
65535 , # chan6_raw
65535 , # chan7_raw
65535 ) # chan8_raw
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m = self . mav . recv_match ( type = ' VFR_HUD ' , blocking = True )
want_speed = 2.0
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self . progress ( " Speed= %f want=< %f " % ( m . groundspeed , want_speed ) )
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if m . groundspeed < want_speed :
break
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2018-08-03 03:20:25 -03:00
# now override to stop - but set the switch on the RC
# transmitter to deny overrides; this should send the
# speed back up to 5 metres/second:
self . set_rc ( 12 , 1000 )
throttle_override = 1500
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tstart = self . get_sim_time_cached ( )
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while True :
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if self . get_sim_time_cached ( ) - tstart > 10 :
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raise AutoTestTimeoutException ( " Did not speed back up " )
self . progress ( " Sending throttle of %u " % ( throttle_override , ) )
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self . mav . mav . rc_channels_override_send (
1 , # target system
1 , # targe component
65535 , # chan1_raw
65535 , # chan2_raw
throttle_override , # chan3_raw
65535 , # chan4_raw
65535 , # chan5_raw
65535 , # chan6_raw
65535 , # chan7_raw
65535 ) # chan8_raw
m = self . mav . recv_match ( type = ' VFR_HUD ' , blocking = True )
want_speed = 5.0
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self . progress ( " Speed= %f want=> %f " % ( m . groundspeed , want_speed ) )
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if m . groundspeed > want_speed :
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break
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# re-enable RC overrides
self . set_rc ( 12 , 2000 )
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# check we revert to normal RC inputs when gcs overrides cease:
self . progress ( " Waiting for RC to revert to normal RC input " )
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self . wait_rc_channel_value ( 3 , normal_rc_throttle , timeout = 10 )
2018-08-02 07:46:58 -03:00
2020-01-23 01:50:00 -04:00
self . start_subtest ( " Check override time of zero disables overrides " )
old = self . get_parameter ( " RC_OVERRIDE_TIME " )
ch = 2
self . set_rc ( ch , 1000 )
channels = [ 65535 ] * 18
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ch_override_value = 1700
channels [ ch - 1 ] = ch_override_value
channels [ 7 ] = 1234 # that's channel 8!
self . progress ( " Sending override message %u " % ch_override_value )
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self . mav . mav . rc_channels_override_send (
1 , # target system
1 , # targe component
* channels
)
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# long timeout required here as we may have sent a lot of
# things via MAVProxy...
self . wait_rc_channel_value ( ch , ch_override_value , timeout = 30 )
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self . set_parameter ( " RC_OVERRIDE_TIME " , 0 )
self . wait_rc_channel_value ( ch , 1000 )
self . set_parameter ( " RC_OVERRIDE_TIME " , old )
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self . wait_rc_channel_value ( ch , ch_override_value )
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ch_override_value = 1720
channels [ ch - 1 ] = ch_override_value
self . progress ( " Sending override message %u " % ch_override_value )
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self . mav . mav . rc_channels_override_send (
1 , # target system
1 , # targe component
* channels
)
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self . wait_rc_channel_value ( ch , ch_override_value , timeout = 10 )
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self . set_parameter ( " RC_OVERRIDE_TIME " , 0 )
self . wait_rc_channel_value ( ch , 1000 )
self . set_parameter ( " RC_OVERRIDE_TIME " , old )
self . progress ( " Ensuring timeout works " )
self . wait_rc_channel_value ( ch , 1000 , timeout = 5 )
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self . delay_sim_time ( 10 )
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self . set_parameter ( " RC_OVERRIDE_TIME " , 10 )
self . progress ( " Sending override message " )
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ch_override_value = 1730
channels [ ch - 1 ] = ch_override_value
self . progress ( " Sending override message %u " % ch_override_value )
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self . mav . mav . rc_channels_override_send (
1 , # target system
1 , # targe component
* channels
)
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self . wait_rc_channel_value ( ch , ch_override_value , timeout = 10 )
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tstart = self . get_sim_time ( )
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self . progress ( " Waiting for channel to revert to 1000 in ~10s " )
self . wait_rc_channel_value ( ch , 1000 , timeout = 15 )
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delta = self . get_sim_time ( ) - tstart
if delta > 12 :
raise NotAchievedException ( " Took too long to revert RC channel value (delta= %f ) " % delta )
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min_delta = 9
if delta < min_delta :
raise NotAchievedException ( " Didn ' t take long enough to revert RC channel value (delta= %f want>= %f ) " %
( delta , min_delta ) )
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self . progress ( " Disabling RC override timeout " )
self . set_parameter ( " RC_OVERRIDE_TIME " , - 1 )
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ch_override_value = 1740
channels [ ch - 1 ] = ch_override_value
self . progress ( " Sending override message %u " % ch_override_value )
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self . mav . mav . rc_channels_override_send (
1 , # target system
1 , # targe component
* channels
)
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self . wait_rc_channel_value ( ch , ch_override_value , timeout = 10 )
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tstart = self . get_sim_time ( )
while True :
# warning: this is get_sim_time() and can slurp messages on you!
delta = self . get_sim_time ( ) - tstart
if delta > 20 :
break
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m = self . assert_receive_message ( ' RC_CHANNELS ' , timeout = 1 )
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channel_field = " chan %u _raw " % ch
m_value = getattr ( m , channel_field )
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if m_value != ch_override_value :
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raise NotAchievedException ( " Value reverted after %f seconds when it should not have (got= %u ) (want= %u ) " % ( delta , m_value , ch_override_value ) ) # noqa
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self . set_parameter ( " RC_OVERRIDE_TIME " , old )
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self . delay_sim_time ( 10 )
self . start_subtest ( " Checking higher-channel semantics " )
self . context_push ( )
self . set_parameter ( " RC_OVERRIDE_TIME " , 30 )
ch = 11
rc_value = 1010
self . set_rc ( ch , rc_value )
channels = [ 65535 ] * 18
ch_override_value = 1234
channels [ ch - 1 ] = ch_override_value
self . progress ( " Sending override message ch %u = %u " % ( ch , ch_override_value ) )
self . mav . mav . rc_channels_override_send (
1 , # target system
1 , # targe component
* channels
)
self . progress ( " Wait for override value " )
self . wait_rc_channel_value ( ch , ch_override_value , timeout = 10 )
self . progress ( " Sending return-to-RC-input value " )
channels [ ch - 1 ] = 65534
self . mav . mav . rc_channels_override_send (
1 , # target system
1 , # targe component
* channels
)
self . wait_rc_channel_value ( ch , rc_value , timeout = 10 )
channels [ ch - 1 ] = ch_override_value
self . progress ( " Sending override message ch %u = %u " % ( ch , ch_override_value ) )
self . mav . mav . rc_channels_override_send (
1 , # target system
1 , # targe component
* channels
)
self . progress ( " Wait for override value " )
self . wait_rc_channel_value ( ch , ch_override_value , timeout = 10 )
# make we keep the override vaue for at least 10 seconds:
tstart = self . get_sim_time ( )
while True :
if self . get_sim_time_cached ( ) - tstart > 10 :
break
# try both ignore values:
ignore_value = 0
if self . get_sim_time_cached ( ) - tstart > 5 :
ignore_value = 65535
self . progress ( " Sending ignore value %u " % ignore_value )
channels [ ch - 1 ] = ignore_value
self . mav . mav . rc_channels_override_send (
1 , # target system
1 , # targe component
* channels
)
if self . get_rc_channel_value ( ch ) != ch_override_value :
raise NotAchievedException ( " Did not maintain value " )
self . context_pop ( )
self . end_subtest ( " Checking higher-channel semantics " )
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except Exception as e :
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self . print_exception_caught ( e )
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ex = e
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self . context_pop ( )
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self . disarm_vehicle ( )
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self . reboot_sitl ( )
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if ex is not None :
raise ex
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def MANUAL_CONTROL ( self ) :
''' Test mavlink MANUAL_CONTROL '''
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self . context_push ( )
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self . set_parameter ( " SYSID_MYGCS " , self . mav . source_system )
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ex = None
try :
self . set_parameter ( " RC12_OPTION " , 46 ) # enable/disable rc overrides
self . reboot_sitl ( )
self . change_mode ( " MANUAL " )
self . wait_ready_to_arm ( )
self . zero_throttle ( )
self . arm_vehicle ( )
self . progress ( " start moving forward a little " )
normal_rc_throttle = 1700
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self . set_rc ( 3 , normal_rc_throttle )
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self . wait_groundspeed ( 5 , 100 )
self . progress ( " allow overrides " )
self . set_rc ( 12 , 2000 )
self . progress ( " now override to stop " )
throttle_override_normalized = 0
expected_throttle = 0 # in VFR_HUD
tstart = self . get_sim_time_cached ( )
while True :
if self . get_sim_time_cached ( ) - tstart > 10 :
raise AutoTestTimeoutException ( " Did not reach speed " )
self . progress ( " Sending normalized throttle of %d " % ( throttle_override_normalized , ) )
self . mav . mav . manual_control_send (
1 , # target system
32767 , # x (pitch)
32767 , # y (roll)
throttle_override_normalized , # z (thrust)
32767 , # r (yaw)
0 ) # button mask
m = self . mav . recv_match ( type = ' VFR_HUD ' , blocking = True )
want_speed = 2.0
self . progress ( " Speed= %f want=< %f throttle= %u want= %u " %
( m . groundspeed , want_speed , m . throttle , expected_throttle ) )
if m . groundspeed < want_speed and m . throttle == expected_throttle :
break
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self . progress ( " now override to stop - but set the switch on the RC transmitter to deny overrides; this should send the speed back up to 5 metres/second " ) # noqa
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self . set_rc ( 12 , 1000 )
throttle_override_normalized = 500
expected_throttle = 36 # in VFR_HUD, corresponding to normal_rc_throttle adjusted for channel min/max
tstart = self . get_sim_time_cached ( )
while True :
if self . get_sim_time_cached ( ) - tstart > 10 :
raise AutoTestTimeoutException ( " Did not stop " )
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self . progress ( " Sending normalized throttle of %u " % ( throttle_override_normalized , ) )
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self . mav . mav . manual_control_send (
1 , # target system
32767 , # x (pitch)
32767 , # y (roll)
throttle_override_normalized , # z (thrust)
32767 , # r (yaw)
0 ) # button mask
m = self . mav . recv_match ( type = ' VFR_HUD ' , blocking = True )
want_speed = 5.0
self . progress ( " Speed= %f want=> %f throttle= %u want= %u " %
( m . groundspeed , want_speed , m . throttle , expected_throttle ) )
if m . groundspeed > want_speed and m . throttle == expected_throttle :
break
# re-enable RC overrides
self . set_rc ( 12 , 2000 )
# check we revert to normal RC inputs when gcs overrides cease:
self . progress ( " Waiting for RC to revert to normal RC input " )
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self . wait_rc_channel_value ( 3 , normal_rc_throttle , timeout = 10 )
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except Exception as e :
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self . print_exception_caught ( e )
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ex = e
self . context_pop ( )
self . disarm_vehicle ( )
self . reboot_sitl ( )
if ex is not None :
raise ex
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def CameraMission ( self ) :
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''' Test Camera Mission Items '''
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self . set_parameter ( " CAM1_TYPE " , 1 ) # Camera with servo trigger
self . reboot_sitl ( ) # needed for CAM1_TYPE to take effect
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self . load_mission ( " rover-camera-mission.txt " )
self . wait_ready_to_arm ( )
self . change_mode ( " AUTO " )
self . wait_ready_to_arm ( )
self . arm_vehicle ( )
prev_cf = None
while True :
cf = self . mav . recv_match ( type = ' CAMERA_FEEDBACK ' , blocking = True )
if prev_cf is None :
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prev_cf = cf
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continue
dist_travelled = self . get_distance_int ( prev_cf , cf )
prev_cf = cf
mc = self . mav . messages . get ( " MISSION_CURRENT " , None )
if mc is None :
continue
elif mc . seq == 2 :
expected_distance = 2
elif mc . seq == 4 :
expected_distance = 5
elif mc . seq == 5 :
break
else :
continue
self . progress ( " Expected distance %f got %f " %
( expected_distance , dist_travelled ) )
error = abs ( expected_distance - dist_travelled )
# Rover moves at ~5m/s; we appear to do something at
# 5Hz, so we do see over a meter of error!
max_error = 1.5
if error > max_error :
raise NotAchievedException ( " Camera distance error: %f ( %f ) " %
( error , max_error ) )
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self . disarm_vehicle ( )
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def DO_SET_MODE ( self ) :
''' Set mode via MAV_COMMAND_DO_SET_MODE '''
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self . do_set_mode_via_command_long ( " HOLD " )
self . do_set_mode_via_command_long ( " MANUAL " )
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def RoverInitialMode ( self ) :
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''' test INITIAL_MODE parameter works '''
# from mavproxy_rc.py
self . wait_ready_to_arm ( )
mapping = [ 0 , 1165 , 1295 , 1425 , 1555 , 1685 , 1815 ]
mode_ch = 8
throttle_ch = 3
self . set_parameter ( ' MODE5 ' , 3 )
self . set_rc ( mode_ch , mapping [ 5 ] )
self . wait_mode ( ' STEERING ' )
self . set_rc ( mode_ch , mapping [ 6 ] )
self . wait_mode ( ' MANUAL ' )
self . set_parameter ( " INITIAL_MODE " , 1 ) # acro
# stop the vehicle polling the mode switch at boot:
self . set_parameter ( ' FS_ACTION ' , 0 ) # do nothing when radio fails
self . set_rc ( throttle_ch , 900 ) # RC fail
self . reboot_sitl ( )
self . wait_mode ( 1 )
self . progress ( " Make sure we stay in this mode " )
self . delay_sim_time ( 5 )
self . wait_mode ( 1 )
# now change modes with a switch:
self . set_rc ( throttle_ch , 1100 )
self . delay_sim_time ( 3 )
self . set_rc ( mode_ch , mapping [ 5 ] )
self . wait_mode ( ' STEERING ' )
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def MAVProxy_DO_SET_MODE ( self ) :
''' Set mode using MAVProxy commandline DO_SET_MODE '''
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mavproxy = self . start_mavproxy ( )
self . mavproxy_do_set_mode_via_command_long ( mavproxy , " HOLD " )
self . mavproxy_do_set_mode_via_command_long ( mavproxy , " MANUAL " )
self . stop_mavproxy ( mavproxy )
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def SYSID_ENFORCE ( self ) :
''' Test enforcement of SYSID_MYGCS '''
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''' Run the same arming code with correct then incorrect SYSID '''
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if self . mav . source_system != self . mav . mav . srcSystem :
raise PreconditionFailedException ( " Expected mav.source_system and mav.srcSystem to match " )
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self . context_push ( )
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old_srcSystem = self . mav . mav . srcSystem
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ex = None
try :
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self . set_parameter ( " SYSID_MYGCS " , self . mav . source_system )
self . set_parameter ( " SYSID_ENFORCE " , 1 , add_to_context = False )
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self . change_mode ( ' MANUAL ' )
self . progress ( " make sure I can arm ATM " )
self . wait_ready_to_arm ( )
self . arm_vehicle ( timeout = 5 )
self . disarm_vehicle ( )
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self . do_timesync_roundtrip ( )
# should not be able to arm from a system id which is not MY_SYSID
self . progress ( " Attempting to arm vehicle from bad system-id " )
success = None
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try :
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# temporarily set a different system ID than normal:
self . mav . mav . srcSystem = 72
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self . arm_vehicle ( timeout = 5 )
self . disarm_vehicle ( )
success = False
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except AutoTestTimeoutException :
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success = True
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self . mav . mav . srcSystem = old_srcSystem
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if not success :
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raise NotAchievedException ( " Managed to arm with SYSID_ENFORCE set " )
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# should be able to arm from the vehicle's own components:
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self . progress ( " Attempting to arm vehicle from vehicle component " )
comp_arm_exception = None
try :
self . mav . mav . srcSystem = 1
self . arm_vehicle ( timeout = 5 )
self . disarm_vehicle ( )
except Exception as e :
comp_arm_exception = e
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self . mav . mav . srcSystem = old_srcSystem
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if comp_arm_exception is not None :
raise comp_arm_exception
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except Exception as e :
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self . print_exception_caught ( e )
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ex = e
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self . mav . mav . srcSystem = old_srcSystem
self . set_parameter ( " SYSID_ENFORCE " , 0 , add_to_context = False )
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self . context_pop ( )
if ex is not None :
raise ex
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def Rally ( self ) :
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''' Test Rally Points '''
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self . load_rally ( " rover-test-rally.txt " )
self . wait_ready_to_arm ( )
self . arm_vehicle ( )
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# calculate early to avoid round-trips while vehicle is moving:
accuracy = self . get_parameter ( " WP_RADIUS " )
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self . reach_heading_manual ( 10 )
self . reach_distance_manual ( 50 )
self . change_mode ( " RTL " )
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# location copied in from rover-test-rally.txt:
loc = mavutil . location ( 40.071553 ,
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- 105.229401 ,
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0 ,
0 )
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self . wait_location ( loc , accuracy = accuracy , minimum_duration = 10 , timeout = 45 )
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self . disarm_vehicle ( )
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def fence_with_bad_frame ( self , target_system = 1 , target_component = 1 ) :
return [
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
0 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_RELATIVE_ALT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_RETURN_POINT ,
0 , # current
0 , # autocontinue
0 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0017 * 1e7 ) , # latitude
int ( 1.0017 * 1e7 ) , # longitude
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31.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
]
def fence_with_zero_vertex_count ( self , target_system = 1 , target_component = 1 ) :
return [
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
0 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION ,
0 , # current
0 , # autocontinue
0 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0017 * 1e7 ) , # latitude
int ( 1.0017 * 1e7 ) , # longitude
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31.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
]
def fence_with_wrong_vertex_count ( self , target_system = 1 , target_component = 1 ) :
return [
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
0 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION ,
0 , # current
0 , # autocontinue
2 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0017 * 1e7 ) , # latitude
int ( 1.0017 * 1e7 ) , # longitude
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31.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
]
def fence_with_multiple_return_points ( self , target_system = 1 , target_component = 1 ) :
return [
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
0 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_RETURN_POINT ,
0 , # current
0 , # autocontinue
0 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0017 * 1e7 ) , # latitude
int ( 1.0017 * 1e7 ) , # longitude
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31.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
1 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_RETURN_POINT ,
0 , # current
0 , # autocontinue
0 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0017 * 1e7 ) , # latitude
int ( 1.0017 * 1e7 ) , # longitude
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31.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
]
def fence_with_invalid_latlon ( self , target_system = 1 , target_component = 1 ) :
return [
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
0 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_RETURN_POINT ,
0 , # current
0 , # autocontinue
0 , # p1
0 , # p2
0 , # p3
0 , # p4
int ( 100 * 1e7 ) , # bad latitude. bad.
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int ( 1.0017 * 1e7 ) , # longitude
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31.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
]
def fence_with_multiple_return_points_with_bad_sequence_numbers ( self , target_system = 1 , target_component = 1 ) :
return [
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
0 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_RETURN_POINT ,
0 , # current
0 , # autocontinue
0 , # p1
0 , # p2
0 , # p3
0 , # p4
int ( 1.0 * 1e7 ) , # latitude
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int ( 1.0017 * 1e7 ) , # longitude
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31.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
0 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_RETURN_POINT ,
0 , # current
0 , # autocontinue
0 , # p1
0 , # p2
0 , # p3
0 , # p4
int ( 2.0 * 1e7 ) , # latitude
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int ( 2.0017 * 1e7 ) , # longitude
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31.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
]
def fence_which_exceeds_storage_space ( self , target_system = 1 , target_component = 1 ) :
ret = [ ]
for i in range ( 0 , 60 ) :
ret . append ( self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
i , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_CIRCLE_EXCLUSION ,
0 , # current
0 , # autocontinue
10 , # p1
0 , # p2
0 , # p3
0 , # p4
int ( 1.0 * 1e7 ) , # latitude
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int ( 1.0017 * 1e7 ) , # longitude
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31.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
)
return ret
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def fences_which_should_not_upload ( self , target_system = 1 , target_component = 1 ) :
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return [
( " Bad Frame " , self . fence_with_bad_frame (
target_system = target_system ,
target_component = target_component ) ) ,
( " Zero Vertex Count " , self . fence_with_zero_vertex_count (
target_system = target_system ,
target_component = target_component ) ) ,
( " Wrong Vertex Count " , self . fence_with_wrong_vertex_count (
target_system = target_system ,
target_component = target_component ) ) ,
( " Multiple return points " , self . fence_with_multiple_return_points (
target_system = target_system ,
target_component = target_component ) ) ,
( " Invalid lat/lon " , self . fence_with_invalid_latlon (
target_system = target_system ,
target_component = target_component ) ) ,
( " Multiple Return points with bad sequence numbers " ,
self . fence_with_multiple_return_points_with_bad_sequence_numbers ( # noqa
target_system = target_system ,
target_component = target_component ) ) ,
( " Fence which exceeds storage space " ,
self . fence_which_exceeds_storage_space (
target_system = target_system ,
target_component = target_component ) ) ,
]
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def fence_with_single_return_point ( self , target_system = 1 , target_component = 1 ) :
return [
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
0 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_RETURN_POINT ,
0 , # current
0 , # autocontinue
0 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0017 * 1e7 ) , # latitude
int ( 1.0017 * 1e7 ) , # longitude
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31.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
]
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def fence_with_single_return_point_and_5_vertex_inclusion ( self ,
target_system = 1 ,
target_component = 1 ) :
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return [
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
0 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_RETURN_POINT ,
0 , # current
0 , # autocontinue
0 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0017 * 1e7 ) , # latitude
int ( 1.0017 * 1e7 ) , # longitude
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31.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
1 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION ,
0 , # current
0 , # autocontinue
5 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0000 * 1e7 ) , # latitude
int ( 1.0000 * 1e7 ) , # longitude
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31.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
2 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION ,
0 , # current
0 , # autocontinue
5 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0001 * 1e7 ) , # latitude
int ( 1.0000 * 1e7 ) , # longitude
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32.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
3 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION ,
0 , # current
0 , # autocontinue
5 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0001 * 1e7 ) , # latitude
int ( 1.0001 * 1e7 ) , # longitude
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33.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
4 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION ,
0 , # current
0 , # autocontinue
5 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0002 * 1e7 ) , # latitude
int ( 1.0002 * 1e7 ) , # longitude
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33.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
5 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION ,
0 , # current
0 , # autocontinue
5 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0002 * 1e7 ) , # latitude
int ( 1.0003 * 1e7 ) , # longitude
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33.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
]
def fence_with_many_exclusion_circles ( self , count = 50 , target_system = 1 , target_component = 1 ) :
ret = [ ]
for i in range ( 0 , count ) :
lat_deg = 1.0003 + count / 10
lng_deg = 1.0002 + count / 10
item = self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
i , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_CIRCLE_EXCLUSION ,
0 , # current
0 , # autocontinue
count , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( lat_deg * 1e7 ) , # latitude
int ( lng_deg * 1e7 ) , # longitude
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33.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
ret . append ( item )
return ret
def fence_with_many_exclusion_polyfences ( self , target_system = 1 , target_component = 1 ) :
ret = [ ]
seq = 0
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for fencenum in range ( 0 , 4 ) :
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pointcount = fencenum + 6
for p in range ( 0 , pointcount ) :
lat_deg = 1.0003 + p / 10 + fencenum / 100
lng_deg = 1.0002 + p / 10 + fencenum / 100
item = self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
seq , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_POLYGON_VERTEX_EXCLUSION ,
0 , # current
0 , # autocontinue
pointcount , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( lat_deg * 1e7 ) , # latitude
int ( lng_deg * 1e7 ) , # longitude
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33.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
ret . append ( item )
seq + = 1
return ret
def fences_which_should_upload ( self , target_system = 1 , target_component = 1 ) :
return [
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( " Single Return Point " ,
self . fence_with_single_return_point (
target_system = target_system ,
target_component = target_component ) ) ,
( " Return and 5-vertex-inclusion " ,
self . fence_with_single_return_point_and_5_vertex_inclusion (
target_system = target_system ,
target_component = target_component ) ) ,
( " Many exclusion circles " ,
self . fence_with_many_exclusion_circles (
target_system = target_system ,
target_component = target_component ) ) ,
( " Many exclusion polyfences " ,
self . fence_with_many_exclusion_polyfences (
target_system = target_system ,
target_component = target_component ) ) ,
( " Empty fence " , [ ] ) ,
]
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def assert_fence_does_not_upload ( self , fence , target_system = 1 , target_component = 1 ) :
self . clear_mission ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE ,
target_system = target_system ,
target_component = target_component )
# upload single item using mission item protocol:
upload_failed = False
try :
self . upload_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE ,
fence )
except NotAchievedException :
# TODO: make sure we failed for correct reason
upload_failed = True
if not upload_failed :
raise NotAchievedException ( " Uploaded fence when should not be possible " )
self . progress ( " Fence rightfully bounced " )
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def send_fencepoint_expect_statustext ( self ,
offset ,
count ,
lat ,
lng ,
statustext_fragment ,
target_system = 1 ,
target_component = 1 ,
timeout = 10 ) :
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self . mav . mav . fence_point_send ( target_system ,
target_component ,
offset ,
count ,
lat ,
lng )
tstart = self . get_sim_time_cached ( )
while True :
if self . get_sim_time_cached ( ) - tstart > timeout :
raise NotAchievedException ( " Did not get error message back " )
m = self . mav . recv_match ( type = ' STATUSTEXT ' , blocking = True , timeout = 1 )
self . progress ( " statustext: %s (want= ' %s ' ) " %
( str ( m ) , statustext_fragment ) )
if m is None :
continue
if statustext_fragment in m . text :
break
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def GCSFailsafe ( self , side = 60 , timeout = 360 ) :
""" Test GCS Failsafe """
try :
self . test_gcs_failsafe ( side = side , timeout = timeout )
except Exception as ex :
self . setGCSfailsafe ( 0 )
self . set_parameter ( ' FS_ACTION ' , 0 )
self . disarm_vehicle ( force = True )
self . reboot_sitl ( )
raise ex
def test_gcs_failsafe ( self , side = 60 , timeout = 360 ) :
self . set_parameter ( " SYSID_MYGCS " , self . mav . source_system )
self . set_parameter ( " FS_ACTION " , 1 )
self . set_parameter ( " FS_THR_ENABLE " , 0 ) # disable radio FS as it inhibt GCS one's
def go_somewhere ( ) :
self . change_mode ( " MANUAL " )
self . wait_ready_to_arm ( )
self . arm_vehicle ( )
self . set_rc ( 3 , 2000 )
self . delay_sim_time ( 5 )
self . set_rc ( 3 , 1500 )
# Trigger telemetry loss with failsafe disabled. Verify no action taken.
self . start_subtest ( " GCS failsafe disabled test: FS_GCS_ENABLE=0 should take no failsafe action " )
self . setGCSfailsafe ( 0 )
go_somewhere ( )
self . set_heartbeat_rate ( 0 )
self . delay_sim_time ( 5 )
self . wait_mode ( " MANUAL " )
self . set_heartbeat_rate ( self . speedup )
self . delay_sim_time ( 5 )
self . wait_mode ( " MANUAL " )
self . end_subtest ( " Completed GCS failsafe disabled test " )
# Trigger telemetry loss with failsafe enabled. Verify
# failsafe triggers to RTL. Restore telemetry, verify failsafe
# clears, and change modes.
# TODO not implemented
# self.start_subtest("GCS failsafe recovery test: FS_GCS_ENABLE=1")
# self.setGCSfailsafe(1)
# self.set_heartbeat_rate(0)
# self.wait_mode("RTL")
# self.set_heartbeat_rate(self.speedup)
# self.wait_statustext("GCS Failsafe Cleared", timeout=60)
# self.change_mode("MANUAL")
# self.end_subtest("Completed GCS failsafe recovery test")
# Trigger telemetry loss with failsafe enabled. Verify failsafe triggers and RTL completes
self . start_subtest ( " GCS failsafe RTL with no options test: FS_GCS_ENABLE=1 " )
self . setGCSfailsafe ( 1 )
self . set_heartbeat_rate ( 0 )
self . wait_mode ( " RTL " )
self . wait_statustext ( " Reached destination " , timeout = 60 )
self . set_heartbeat_rate ( self . speedup )
self . wait_statustext ( " GCS Failsafe Cleared " , timeout = 60 )
self . end_subtest ( " Completed GCS failsafe RTL " )
# Trigger telemetry loss with an invalid failsafe value. Verify failsafe triggers and RTL completes
self . start_subtest ( " GCS failsafe invalid value with no options test: FS_GCS_ENABLE=99 " )
self . setGCSfailsafe ( 99 )
go_somewhere ( )
self . set_heartbeat_rate ( 0 )
self . wait_mode ( " RTL " )
self . wait_statustext ( " Reached destination " , timeout = 60 )
self . set_heartbeat_rate ( self . speedup )
self . wait_statustext ( " GCS Failsafe Cleared " , timeout = 60 )
self . end_subtest ( " Completed GCS failsafe invalid value " )
self . start_subtest ( " Testing continue in auto mission " )
self . disarm_vehicle ( )
self . setGCSfailsafe ( 2 )
self . load_mission ( " test_arming.txt " )
self . change_mode ( " AUTO " )
self . delay_sim_time ( 5 )
self . set_heartbeat_rate ( 0 )
self . wait_statustext ( " Failsafe - Continuing Auto Mode " , timeout = 60 )
self . delay_sim_time ( 5 )
self . wait_mode ( " AUTO " )
self . set_heartbeat_rate ( self . speedup )
self . wait_statustext ( " GCS Failsafe Cleared " , timeout = 60 )
self . start_subtest ( " GCS failsafe RTL with no options test: FS_GCS_ENABLE=1 and FS_GCS_TIMEOUT=10 " )
self . setGCSfailsafe ( 1 )
old_gcs_timeout = self . get_parameter ( " FS_GCS_TIMEOUT " )
new_gcs_timeout = old_gcs_timeout * 2
self . set_parameter ( " FS_GCS_TIMEOUT " , new_gcs_timeout )
go_somewhere ( )
self . set_heartbeat_rate ( 0 )
self . delay_sim_time ( old_gcs_timeout + ( new_gcs_timeout - old_gcs_timeout ) / 2 )
self . assert_mode ( " MANUAL " )
self . wait_mode ( " RTL " )
self . wait_statustext ( " Reached destination " , timeout = 60 )
self . set_heartbeat_rate ( self . speedup )
self . wait_statustext ( " GCS Failsafe Cleared " , timeout = 60 )
self . disarm_vehicle ( )
self . end_subtest ( " Completed GCS failsafe RTL " )
self . setGCSfailsafe ( 0 )
self . progress ( " All GCS failsafe tests complete " )
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def test_gcs_fence_centroid ( self , target_system = 1 , target_component = 1 ) :
self . start_subtest ( " Ensuring if we don ' t have a centroid it gets calculated " )
items = self . test_gcs_fence_need_centroid (
target_system = target_system ,
target_component = target_component )
self . upload_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE ,
items )
centroid = self . get_fence_point ( 0 )
want_lat = 1.0001
want_lng = 1.00005
if abs ( centroid . lat - want_lat ) > 0.000001 :
raise NotAchievedException ( " Centroid lat not as expected (want= %f got= %f ) " % ( want_lat , centroid . lat ) )
if abs ( centroid . lng - want_lng ) > 0.000001 :
raise NotAchievedException ( " Centroid lng not as expected (want= %f got= %f ) " % ( want_lng , centroid . lng ) )
def test_gcs_fence_update_fencepoint ( self , target_system = 1 , target_component = 1 ) :
self . start_subtest ( " Ensuring we can move a fencepoint " )
items = self . test_gcs_fence_boring_triangle (
target_system = target_system ,
target_component = target_component )
self . upload_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE ,
items )
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# downloaded_items = self.download_using_mission_protocol(mavutil.mavlink.MAV_MISSION_TYPE_FENCE)
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item_seq = 2
item = items [ item_seq ]
print ( " item is ( %s ) " % str ( item ) )
self . progress ( " original x= %d " % item . x )
item . x + = int ( 0.1 * 1e7 )
self . progress ( " new x= %d " % item . x )
self . progress ( " try to overwrite item %u " % item_seq )
self . mav . mav . mission_write_partial_list_send (
target_system ,
target_component ,
item_seq ,
item_seq ,
mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
self . assert_receive_mission_item_request ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE , item_seq )
item . pack ( self . mav . mav )
self . mav . mav . send ( item )
self . progress ( " Answered request for fence point %u " % item_seq )
self . assert_receive_mission_ack ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
downloaded_items2 = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
if downloaded_items2 [ item_seq ] . x != item . x :
raise NotAchievedException ( " Item did not update " )
self . check_fence_items_same ( [ items [ 0 ] , items [ 1 ] , item , items [ 3 ] ] , downloaded_items2 )
def test_gcs_fence_boring_triangle ( self , target_system = 1 , target_component = 1 ) :
return copy . copy ( [
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
0 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION ,
0 , # current
0 , # autocontinue
3 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0000 * 1e7 ) , # latitude
int ( 1.0000 * 1e7 ) , # longitude
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31.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
1 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION ,
0 , # current
0 , # autocontinue
3 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0001 * 1e7 ) , # latitude
int ( 1.0000 * 1e7 ) , # longitude
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32.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
2 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION ,
0 , # current
0 , # autocontinue
3 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0001 * 1e7 ) , # latitude
int ( 1.0001 * 1e7 ) , # longitude
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33.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
3 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_RETURN_POINT ,
0 , # current
0 , # autocontinue
0 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.00015 * 1e7 ) , # latitude
int ( 1.00015 * 1e7 ) , # longitude
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33.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
] )
def test_gcs_fence_need_centroid ( self , target_system = 1 , target_component = 1 ) :
return copy . copy ( [
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
0 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION ,
0 , # current
0 , # autocontinue
4 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0000 * 1e7 ) , # latitude
int ( 1.0000 * 1e7 ) , # longitude
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31.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
1 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION ,
0 , # current
0 , # autocontinue
4 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0002 * 1e7 ) , # latitude
int ( 1.0000 * 1e7 ) , # longitude
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32.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
2 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION ,
0 , # current
0 , # autocontinue
4 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0002 * 1e7 ) , # latitude
int ( 1.0001 * 1e7 ) , # longitude
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33.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
3 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION ,
0 , # current
0 , # autocontinue
4 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0000 * 1e7 ) , # latitude
int ( 1.0001 * 1e7 ) , # longitude
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33.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
] )
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def click_location_from_item ( self , mavproxy , item ) :
mavproxy . send ( " click %f %f \n " % ( item . x * 1e-7 , item . y * 1e-7 ) )
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def test_gcs_fence_via_mavproxy ( self , target_system = 1 , target_component = 1 ) :
self . start_subtest ( " Fence via MAVProxy " )
if not self . mavproxy_can_do_mision_item_protocols ( ) :
return
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mavproxy = self . start_mavproxy ( )
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self . start_subsubtest ( " fence addcircle " )
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self . clear_fence_using_mavproxy ( mavproxy )
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self . delay_sim_time ( 1 )
radius = 20
item = self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
0 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_CIRCLE_INCLUSION ,
0 , # current
0 , # autocontinue
radius , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0017 * 1e7 ) , # latitude
int ( 1.0017 * 1e7 ) , # longitude
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0.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
print ( " item is ( %s ) " % str ( item ) )
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self . click_location_from_item ( mavproxy , item )
mavproxy . send ( " fence addcircle inc %u \n " % radius )
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self . delay_sim_time ( 1 )
downloaded_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
print ( " downloaded items: %s " % str ( downloaded_items ) )
self . check_fence_items_same ( [ item ] , downloaded_items )
radius_exc = 57.3
item2 = self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
0 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_CIRCLE_EXCLUSION ,
0 , # current
0 , # autocontinue
radius_exc , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0017 * 1e7 ) , # latitude
int ( 1.0017 * 1e7 ) , # longitude
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0.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
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self . click_location_from_item ( mavproxy , item2 )
mavproxy . send ( " fence addcircle exc %f \n " % radius_exc )
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self . delay_sim_time ( 1 )
downloaded_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
print ( " downloaded items: %s " % str ( downloaded_items ) )
self . check_fence_items_same ( [ item , item2 ] , downloaded_items )
self . end_subsubtest ( " fence addcircle " )
self . start_subsubtest ( " fence addpoly " )
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self . clear_fence_using_mavproxy ( mavproxy )
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self . delay_sim_time ( 1 )
pointcount = 7
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mavproxy . send ( " fence addpoly inc 20 %u 37.2 \n " % pointcount ) # radius, pointcount, rotaiton
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self . delay_sim_time ( 5 )
downloaded_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
if len ( downloaded_items ) != pointcount :
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raise NotAchievedException ( " Did not get expected number of points returned (want= %u got= %u ) " %
( pointcount , len ( downloaded_items ) ) )
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self . end_subsubtest ( " fence addpoly " )
self . start_subsubtest ( " fence movepolypoint " )
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self . clear_fence_using_mavproxy ( mavproxy )
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self . delay_sim_time ( 1 )
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triangle = self . test_gcs_fence_boring_triangle (
target_system = target_system ,
target_component = target_component )
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self . upload_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE ,
triangle )
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mavproxy . send ( " fence list \n " )
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self . delay_sim_time ( 1 )
triangle [ 2 ] . x + = 500
triangle [ 2 ] . y + = 700
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self . click_location_from_item ( mavproxy , triangle [ 2 ] )
mavproxy . send ( " fence movepolypoint 0 2 \n " )
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self . delay_sim_time ( 10 )
downloaded_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
self . check_fence_items_same ( triangle , downloaded_items )
self . end_subsubtest ( " fence movepolypoint " )
self . start_subsubtest ( " fence enable and disable " )
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mavproxy . send ( " fence enable \n " )
mavproxy . expect ( " fence enabled " )
mavproxy . send ( " fence disable \n " )
mavproxy . expect ( " fence disabled " )
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self . end_subsubtest ( " fence enable and disable " )
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self . stop_mavproxy ( mavproxy )
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# MANUAL> usage: fence <addcircle|addpoly|changealt|clear|disable|draw|enable|list|load|move|movemulti|movepolypoint|param|remove|save|savecsv|savelocal|show|status|undo|update> # noqa
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def GCSFence ( self ) :
''' Upload and download of fence '''
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target_system = 1
target_component = 1
self . progress ( " Testing FENCE_POINT protocol " )
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self . start_subtest ( " FENCE_TOTAL manipulation " )
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self . clear_mission ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
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self . assert_parameter_value ( " FENCE_TOTAL " , 0 )
self . set_parameter ( " FENCE_TOTAL " , 5 )
self . assert_parameter_value ( " FENCE_TOTAL " , 5 )
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self . clear_mission ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
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self . assert_parameter_value ( " FENCE_TOTAL " , 0 )
self . progress ( " sending out-of-range fencepoint " )
self . send_fencepoint_expect_statustext ( 0 ,
0 ,
1.2345 ,
5.4321 ,
" index past total " ,
target_system = target_component ,
target_component = target_component )
self . progress ( " sending another out-of-range fencepoint " )
self . send_fencepoint_expect_statustext ( 0 ,
1 ,
1.2345 ,
5.4321 ,
" bad count " ,
target_system = target_component ,
target_component = target_component )
self . set_parameter ( " FENCE_TOTAL " , 1 )
self . assert_parameter_value ( " FENCE_TOTAL " , 1 )
self . send_fencepoint_expect_statustext ( 0 ,
1 ,
1.2345 ,
5.4321 ,
" Invalid FENCE_TOTAL " ,
target_system = target_component ,
target_component = target_component )
self . set_parameter ( " FENCE_TOTAL " , 5 )
self . progress ( " Checking default points " )
for i in range ( 5 ) :
m = self . get_fence_point ( i )
if m . count != 5 :
raise NotAchievedException ( " Unexpected count in fence point (want= %u got= %u " %
( 5 , m . count ) )
if m . lat != 0 or m . lng != 0 :
raise NotAchievedException ( " Unexpected lat/lon in fencepoint " )
self . progress ( " Storing a return point " )
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self . roundtrip_fencepoint_protocol ( 0 ,
5 ,
1.2345 ,
5.4321 ,
target_system = target_system ,
target_component = target_component )
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lat = 2.345
lng = 4.321
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self . roundtrip_fencepoint_protocol ( 0 ,
5 ,
lat ,
lng ,
target_system = target_system ,
target_component = target_component )
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if not self . mavproxy_can_do_mision_item_protocols ( ) :
self . progress ( " MAVProxy too old to do fence point protocols " )
return
self . progress ( " Download with new protocol " )
items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
if len ( items ) != 1 :
raise NotAchievedException ( " Unexpected fencepoint count (want= %u got= %u ) " % ( 1 , len ( items ) ) )
if items [ 0 ] . command != mavutil . mavlink . MAV_CMD_NAV_FENCE_RETURN_POINT :
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raise NotAchievedException (
" Fence return point not of correct type expected ( %u ) got %u " %
( items [ 0 ] . command ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_RETURN_POINT ) )
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if items [ 0 ] . frame != mavutil . mavlink . MAV_FRAME_GLOBAL :
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raise NotAchievedException (
" Unexpected frame want= %s got= %s , " %
( self . string_for_frame ( mavutil . mavlink . MAV_FRAME_GLOBAL ) ,
self . string_for_frame ( items [ 0 ] . frame ) ) )
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got_lat = items [ 0 ] . x
want_lat = lat * 1e7
if abs ( got_lat - want_lat ) > 1 :
raise NotAchievedException ( " Disagree in lat (got= %f want= %f ) " % ( got_lat , want_lat ) )
if abs ( items [ 0 ] . y - lng * 1e7 ) > 1 :
raise NotAchievedException ( " Disagree in lng " )
if items [ 0 ] . seq != 0 :
raise NotAchievedException ( " Disagree in offset " )
self . progress ( " Downloaded with new protocol OK " )
# upload using mission protocol:
items = self . test_gcs_fence_boring_triangle (
target_system = target_system ,
target_component = target_component )
self . upload_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE ,
items )
self . progress ( " Download with new protocol " )
downloaded_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
if len ( downloaded_items ) != len ( items ) :
raise NotAchievedException ( " Did not download expected number of items (wanted= %u got= %u ) " %
( len ( items ) , len ( downloaded_items ) ) )
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self . assert_parameter_value ( " FENCE_TOTAL " , len ( items ) + 1 ) # +1 for closing
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self . progress ( " Ensuring fence items match what we sent up " )
self . check_fence_items_same ( items , downloaded_items )
# now check centroid
self . progress ( " Requesting fence return point " )
self . mav . mav . fence_fetch_point_send ( target_system ,
target_component ,
0 )
m = self . mav . recv_match ( type = " FENCE_POINT " , blocking = True , timeout = 1 )
print ( " m: %s " % str ( m ) )
self . clear_mission ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE ,
target_system = target_system ,
target_component = target_component )
self . progress ( " Checking count post-nuke " )
self . clear_mission ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE ,
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target_system = target_system ,
target_component = target_component )
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self . assert_mission_count_on_link ( self . mav ,
0 ,
target_system ,
target_component ,
mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
self . start_subtest ( " Ensuring bad fences get bounced " )
for fence in self . fences_which_should_not_upload ( target_system = target_system , target_component = target_component ) :
( name , items ) = fence
self . progress ( " Ensuring ( %s ) gets bounced " % ( name , ) )
self . assert_fence_does_not_upload ( items )
self . start_subtest ( " Ensuring good fences don ' t get bounced " )
for fence in self . fences_which_should_upload ( target_system = target_system , target_component = target_component ) :
( name , items ) = fence
self . progress ( " Ensuring ( %s ) gets uploaded " % ( name , ) )
self . check_fence_upload_download ( items )
self . progress ( " ( %s ) uploaded just fine " % ( name , ) )
self . test_gcs_fence_update_fencepoint ( target_system = target_system ,
target_component = target_component )
self . test_gcs_fence_centroid ( target_system = target_system ,
target_component = target_component )
self . test_gcs_fence_via_mavproxy ( target_system = target_system ,
target_component = target_component )
# explode the write_type_to_storage method
# FIXME: test converting invalid fences / minimally valid fences / normal fences
# FIXME: show that uploading smaller items take up less space
# FIXME: add test for consecutive breaches within the manual recovery period
# FIXME: ensure truncation does the right thing by fence_total
# FIXME: test vehicle escape from outside inclusion zones to
# inside inclusion zones (and inside exclusion zones to outside
# exclusion zones)
# FIXME: add test that a fence with edges that cross can't be uploaded
# FIXME: add a test that fences enclose an area (e.g. all the points aren't the same value!
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def Offboard ( self , timeout = 90 ) :
''' Test Offboard Control '''
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self . load_mission ( " rover-guided-mission.txt " )
self . wait_ready_to_arm ( require_absolute = True )
self . arm_vehicle ( )
self . change_mode ( " AUTO " )
offboard_expected_duration = 10 # see mission file
if self . mav . messages . get ( " SET_POSITION_TARGET_GLOBAL_INT " , None ) :
raise PreconditionFailedException ( " Already have SET_POSITION_TARGET_GLOBAL_INT " )
tstart = self . get_sim_time_cached ( )
last_heartbeat_sent = 0
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got_ptgi = False
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magic_waypoint_tstart = 0
magic_waypoint_tstop = 0
while True :
now = self . get_sim_time_cached ( )
if now - last_heartbeat_sent > 1 :
last_heartbeat_sent = now
self . mav . mav . heartbeat_send ( mavutil . mavlink . MAV_TYPE_ONBOARD_CONTROLLER ,
mavutil . mavlink . MAV_AUTOPILOT_INVALID ,
0 ,
0 ,
0 )
if now - tstart > timeout :
raise AutoTestTimeoutException ( " Didn ' t complete " )
magic_waypoint = 3
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mc = self . mav . recv_match ( type = [ " MISSION_CURRENT " , " STATUSTEXT " ] ,
blocking = False )
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if mc is not None :
print ( " %s " % str ( mc ) )
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if mc . get_type ( ) == " STATUSTEXT " :
if " Mission Complete " in mc . text :
break
continue
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if mc . seq == magic_waypoint :
print ( " At magic waypoint " )
if magic_waypoint_tstart == 0 :
magic_waypoint_tstart = self . get_sim_time_cached ( )
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ptgi = self . mav . messages . get ( " POSITION_TARGET_GLOBAL_INT " , None )
if ptgi is not None :
got_ptgi = True
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elif mc . seq > magic_waypoint :
if magic_waypoint_tstop == 0 :
magic_waypoint_tstop = self . get_sim_time_cached ( )
self . disarm_vehicle ( )
offboard_duration = magic_waypoint_tstop - magic_waypoint_tstart
if abs ( offboard_duration - offboard_expected_duration ) > 1 :
raise NotAchievedException ( " Did not stay in offboard control for correct time (want= %f got= %f ) " %
( offboard_expected_duration , offboard_duration ) )
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if not got_ptgi :
raise NotAchievedException ( " Did not get ptgi message " )
print ( " pgti: %s " % str ( ptgi ) )
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def assert_mission_count_on_link ( self , mav , expected_count , target_system , target_component , mission_type ) :
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self . drain_mav_unparsed ( mav = mav , freshen_sim_time = True )
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self . progress ( " waiting for a message - any message.... " )
m = mav . recv_match ( blocking = True , timeout = 1 )
self . progress ( " Received ( %s ) " % str ( m ) )
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if not mav . mavlink20 ( ) :
raise NotAchievedException ( " Not doing mavlink2 " )
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mav . mav . mission_request_list_send ( target_system ,
target_component ,
mission_type )
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self . assert_receive_mission_count_on_link ( mav ,
expected_count ,
target_system ,
target_component ,
mission_type )
def assert_receive_mission_count_on_link ( self ,
mav ,
expected_count ,
target_system ,
target_component ,
mission_type ,
expected_target_system = None ,
expected_target_component = None ,
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timeout = 120 ) :
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if expected_target_system is None :
expected_target_system = mav . mav . srcSystem
if expected_target_component is None :
expected_target_component = mav . mav . srcComponent
self . progress ( " Waiting for mission count of ( %u ) from ( %u : %u ) to ( %u : %u ) " %
( expected_count , target_system , target_component , expected_target_system , expected_target_component ) )
tstart = self . get_sim_time_cached ( )
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while True :
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delta = self . get_sim_time_cached ( ) - tstart
if delta > timeout :
raise NotAchievedException ( " Did not receive MISSION_COUNT on link after %f s " % delta )
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m = mav . recv_match ( blocking = True , timeout = 1 )
if m is None :
self . progress ( " No messages " )
continue
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# self.progress("Received (%s)" % str(m))
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if m . get_type ( ) == " MISSION_ACK " :
if m . type != mavutil . mavlink . MAV_MISSION_ACCEPTED :
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raise NotAchievedException ( " Expected MAV_MISSION_ACCEPTED, got ( %s ) " % m )
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if m . get_type ( ) == " MISSION_COUNT " :
break
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if m . target_system != expected_target_system :
raise NotAchievedException ( " Incorrect target system in MISSION_COUNT (want= %u got= %u ) " %
( expected_target_system , m . target_system ) )
if m . target_component != expected_target_component :
raise NotAchievedException ( " Incorrect target component in MISSION_COUNT " )
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if m . mission_type != mission_type :
raise NotAchievedException ( " Did not get expected mission type (want= %u got= %u ) " % ( mission_type , m . mission_type ) )
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if m . count != expected_count :
raise NotAchievedException ( " Bad count received (want= %u got= %u ) " %
( expected_count , m . count ) )
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self . progress ( " Asserted mission count (type= %u ) is %u after %f s " % (
( mission_type , m . count , delta ) ) )
2019-03-29 02:17:21 -03:00
autotest: drain self.mav while waiting on other link
In the short period of time it takes for us to get organised/draining mavlink connections, the ArduPilot process might block writing to the primary mavlink connection - in which case we'll never get the message we requested.
Should solve
2022-08-31T23:17:43.6904119Z AT-0227.6: waiting for a message - any message....
2022-08-31T23:17:43.6904958Z AT-0227.6: Received (ATTITUDE {time_boot_ms : 3146, roll : 0.00013471684360411018, pitch : -4.076504410477355e-05, yaw : -2.1274349689483643, rollspeed : 6.679168291157112e-05, pitchspeed : 3.297374496469274e-05, yawspeed : 9.125166684498254e-07})
2022-08-31T23:17:43.6905505Z AT-0227.6: Waiting for mission count of (3) from (1:1) to (243:250)
2022-08-31T23:17:43.6905909Z AT-0227.6: Asserted mission count (type=2) is 3 after 0.100000s
2022-08-31T23:17:43.6906252Z AT-0227.6: Get first item on new link
2022-08-31T23:17:43.6906620Z AT-0289.2: Received exception (Did not receive MISSION_ITEM_INT
2022-08-31T23:17:43.6907047Z Traceback (most recent call last):
2022-08-31T23:17:43.6907386Z File "/__w/ardupilot/ardupilot/Tools/autotest/rover.py", line 3067, in test_rally
2022-08-31T23:17:43.6907719Z m2 = self.get_mission_item_int_on_link(
2022-08-31T23:17:43.6908080Z File "/__w/ardupilot/ardupilot/Tools/autotest/rover.py", line 2288, in get_mission_item_int_on_link
2022-08-31T23:17:43.6908469Z raise NotAchievedException("Did not receive MISSION_ITEM_INT")
2022-08-31T23:17:43.6908841Z common.NotAchievedException: Did not receive MISSION_ITEM_INT
2022-08-31T23:17:43.6909118Z )
2022-08-31T23:17:43.6909468Z AT-0289.2: Exception caught: Did not receive MISSION_ITEM_INT
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def get_mission_item_int_on_link ( self , item , mav , target_system , target_component , mission_type , delay_fn = None ) :
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self . drain_mav ( mav = mav , unparsed = True )
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mav . mav . mission_request_int_send ( target_system ,
target_component ,
item ,
mission_type )
autotest: drain self.mav while waiting on other link
In the short period of time it takes for us to get organised/draining mavlink connections, the ArduPilot process might block writing to the primary mavlink connection - in which case we'll never get the message we requested.
Should solve
2022-08-31T23:17:43.6904119Z AT-0227.6: waiting for a message - any message....
2022-08-31T23:17:43.6904958Z AT-0227.6: Received (ATTITUDE {time_boot_ms : 3146, roll : 0.00013471684360411018, pitch : -4.076504410477355e-05, yaw : -2.1274349689483643, rollspeed : 6.679168291157112e-05, pitchspeed : 3.297374496469274e-05, yawspeed : 9.125166684498254e-07})
2022-08-31T23:17:43.6905505Z AT-0227.6: Waiting for mission count of (3) from (1:1) to (243:250)
2022-08-31T23:17:43.6905909Z AT-0227.6: Asserted mission count (type=2) is 3 after 0.100000s
2022-08-31T23:17:43.6906252Z AT-0227.6: Get first item on new link
2022-08-31T23:17:43.6906620Z AT-0289.2: Received exception (Did not receive MISSION_ITEM_INT
2022-08-31T23:17:43.6907047Z Traceback (most recent call last):
2022-08-31T23:17:43.6907386Z File "/__w/ardupilot/ardupilot/Tools/autotest/rover.py", line 3067, in test_rally
2022-08-31T23:17:43.6907719Z m2 = self.get_mission_item_int_on_link(
2022-08-31T23:17:43.6908080Z File "/__w/ardupilot/ardupilot/Tools/autotest/rover.py", line 2288, in get_mission_item_int_on_link
2022-08-31T23:17:43.6908469Z raise NotAchievedException("Did not receive MISSION_ITEM_INT")
2022-08-31T23:17:43.6908841Z common.NotAchievedException: Did not receive MISSION_ITEM_INT
2022-08-31T23:17:43.6909118Z )
2022-08-31T23:17:43.6909468Z AT-0289.2: Exception caught: Did not receive MISSION_ITEM_INT
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m = self . assert_receive_message (
' MISSION_ITEM_INT ' ,
timeout = 60 ,
condition = ' MISSION_ITEM_INT.mission_type== %u ' % mission_type ,
delay_fn = delay_fn )
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if m is None :
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raise NotAchievedException ( " Did not receive MISSION_ITEM_INT " )
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if m . mission_type != mission_type :
raise NotAchievedException ( " Mission item of incorrect type " )
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if m . target_system != mav . mav . srcSystem :
raise NotAchievedException ( " Unexpected target system %u want= %u " %
( m . target_system , mav . mav . srcSystem ) )
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if m . seq != item :
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raise NotAchievedException (
" Incorrect sequence number on received item got= %u want= %u " %
( m . seq , item ) )
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if m . mission_type != mission_type :
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raise NotAchievedException (
" Mission type incorrect on received item (want= %u got= %u ) " %
( mission_type , m . mission_type ) )
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if m . target_component != mav . mav . srcComponent :
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raise NotAchievedException (
" Unexpected target component %u want= %u " %
( m . target_component , mav . mav . srcComponent ) )
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return m
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def get_mission_item_on_link ( self , item , mav , target_system , target_component , mission_type ) :
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self . drain_mav ( mav = mav , unparsed = True )
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mav . mav . mission_request_send ( target_system ,
target_component ,
item ,
mission_type )
m = mav . recv_match ( type = ' MISSION_ITEM ' ,
blocking = True ,
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timeout = 60 )
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if m is None :
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raise NotAchievedException ( " Did not receive MISSION_ITEM " )
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if m . target_system != mav . mav . srcSystem :
raise NotAchievedException ( " Unexpected target system %u want= %u " %
( m . target_system , mav . mav . srcSystem ) )
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if m . seq != item :
raise NotAchievedException ( " Incorrect sequence number on received item_int got= %u want= %u " %
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( m . seq , item ) )
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if m . mission_type != mission_type :
raise NotAchievedException ( " Mission type incorrect on received item_int (want= %u got= %u ) " %
( mission_type , m . mission_type ) )
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if m . target_component != mav . mav . srcComponent :
raise NotAchievedException ( " Unexpected target component %u want= %u " %
( m . target_component , mav . mav . srcComponent ) )
return m
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def assert_receive_mission_item_request ( self , mission_type , seq ) :
self . progress ( " Expecting request for item %u " % seq )
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m = self . assert_receive_message ( ' MISSION_REQUEST ' , timeout = 1 )
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if m . mission_type != mission_type :
raise NotAchievedException ( " Incorrect mission type (wanted= %u got= %u ) " %
( mission_type , m . mission_type ) )
if m . seq != seq :
raise NotAchievedException ( " Unexpected sequence number (want= %u got= %u ) " % ( seq , m . seq ) )
self . progress ( " Received item request OK " )
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def assert_receive_mission_ack ( self , mission_type ,
want_type = mavutil . mavlink . MAV_MISSION_ACCEPTED ,
target_system = None ,
target_component = None ,
mav = None ) :
if mav is None :
mav = self . mav
if target_system is None :
target_system = mav . mav . srcSystem
if target_component is None :
target_component = mav . mav . srcComponent
self . progress ( " Expecting mission ack " )
m = mav . recv_match ( type = ' MISSION_ACK ' ,
blocking = True ,
timeout = 5 )
self . progress ( " Received ACK ( %s ) " % str ( m ) )
if m is None :
raise NotAchievedException ( " Expected mission ACK " )
if m . target_system != target_system :
raise NotAchievedException ( " ACK not targetted at correct system want= %u got= %u " %
( target_system , m . target_system ) )
if m . target_component != target_component :
raise NotAchievedException ( " ACK not targetted at correct component " )
if m . mission_type != mission_type :
raise NotAchievedException ( " Unexpected mission type %u want= %u " %
( m . mission_type , mission_type ) )
if m . type != want_type :
raise NotAchievedException ( " Expected ack type got %u got %u " %
( want_type , m . type ) )
def assert_filepath_content ( self , filepath , want ) :
with open ( filepath ) as f :
got = f . read ( )
if want != got :
raise NotAchievedException ( " Did not get expected file content (want= %s ) (got= %s ) " % ( want , got ) )
def mavproxy_can_do_mision_item_protocols ( self ) :
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return False
if not self . mavproxy_version_gt ( 1 , 8 , 12 ) :
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self . progress ( " MAVProxy is too old; skipping tests " )
return False
return True
def check_rally_items_same ( self , want , got , epsilon = None ) :
check_atts = [ ' mission_type ' , ' command ' , ' x ' , ' y ' , ' z ' , ' seq ' , ' param1 ' ]
return self . check_mission_items_same ( check_atts , want , got , epsilon = epsilon )
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def click_three_in ( self , mavproxy , target_system = 1 , target_component = 1 ) :
mavproxy . send ( ' rally clear \n ' )
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self . drain_mav ( )
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# there are race conditions in MAVProxy. Beware.
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mavproxy . send ( " click 1.0 1.0 \n " )
mavproxy . send ( " rally add \n " )
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self . delay_sim_time ( 1 )
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mavproxy . send ( " click 2.0 2.0 \n " )
mavproxy . send ( " rally add \n " )
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self . delay_sim_time ( 1 )
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mavproxy . send ( " click 3.0 3.0 \n " )
mavproxy . send ( " rally add \n " )
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self . delay_sim_time ( 10 )
self . assert_mission_count_on_link (
self . mav ,
3 ,
target_system ,
target_component ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
)
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def GCSRally ( self , target_system = 1 , target_component = 1 ) :
''' Upload and download of rally using MAVProxy '''
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self . start_subtest ( " Testing mavproxy CLI for rally points " )
if not self . mavproxy_can_do_mision_item_protocols ( ) :
return
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mavproxy = self . start_mavproxy ( )
mavproxy . send ( ' rally clear \n ' )
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self . start_subsubtest ( " rally add " )
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mavproxy . send ( ' rally clear \n ' )
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lat_s = " -5.6789 "
lng_s = " 98.2341 "
lat = float ( lat_s )
lng = float ( lng_s )
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mavproxy . send ( ' click %s %s \n ' % ( lat_s , lng_s ) )
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self . drain_mav ( )
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mavproxy . send ( ' rally add \n ' )
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self . assert_receive_mission_ack ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
target_system = 255 ,
target_component = 0 )
self . delay_sim_time ( 5 )
downloaded_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
if len ( downloaded_items ) != 1 :
raise NotAchievedException ( " Unexpected count (got= %u want=1) " %
( len ( downloaded_items ) , ) )
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if ( downloaded_items [ 0 ] . x - int ( lat * 1e7 ) ) > 1 :
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raise NotAchievedException ( " Bad rally lat. Want= %d got= %d " %
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( int ( lat * 1e7 ) , downloaded_items [ 0 ] . x ) )
if ( downloaded_items [ 0 ] . y - int ( lng * 1e7 ) ) > 1 :
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raise NotAchievedException ( " Bad rally lng. Want= %d got= %d " %
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( int ( lng * 1e7 ) , downloaded_items [ 0 ] . y ) )
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if ( downloaded_items [ 0 ] . z - int ( 90 ) ) > 1 :
raise NotAchievedException ( " Bad rally alt. Want=90 got= %d " %
( downloaded_items [ 0 ] . y ) )
self . end_subsubtest ( " rally add " )
self . start_subsubtest ( " rally list " )
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util . pexpect_drain ( mavproxy )
mavproxy . send ( ' rally list \n ' )
mavproxy . expect ( r " Saved 1 rally items to ([^ \ s]*) \ s " )
filename = mavproxy . match . group ( 1 )
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self . assert_rally_filepath_content ( filename , ''' QGC WPL 110
0 0 3 5100 0.000000 0.000000 0.000000 0.000000 - 5.678900 98.234100 90.000000 0
''' )
self . end_subsubtest ( " rally list " )
self . start_subsubtest ( " rally save " )
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util . pexpect_drain ( mavproxy )
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save_tmppath = self . buildlogs_path ( " rally-testing-tmp.txt " )
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mavproxy . send ( ' rally save %s \n ' % save_tmppath )
mavproxy . expect ( r " Saved 1 rally items to ([^ \ s]*) \ s " )
filename = mavproxy . match . group ( 1 )
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if filename != save_tmppath :
raise NotAchievedException ( " Bad save filepath; want= %s got= %s " % ( save_tmppath , filename ) )
self . assert_rally_filepath_content ( filename , ''' QGC WPL 110
0 0 3 5100 0.000000 0.000000 0.000000 0.000000 - 5.678900 98.234100 90.000000 0
''' )
self . end_subsubtest ( " rally save " )
self . start_subsubtest ( " rally savecsv " )
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util . pexpect_drain ( mavproxy )
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csvpath = self . buildlogs_path ( " rally-testing-tmp.csv " )
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mavproxy . send ( ' rally savecsv %s \n ' % csvpath )
mavproxy . expect ( ' " Seq " , " Frame " ' )
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expected_content = ''' " Seq " , " Frame " , " Cmd " , " P1 " , " P2 " , " P3 " , " P4 " , " X " , " Y " , " Z "
" 0 " , " Rel " , " NAV_RALLY_POINT " , " 0.0 " , " 0.0 " , " 0.0 " , " 0.0 " , " -5.67890024185 " , " 98.2341003418 " , " 90.0 "
'''
if sys . version_info [ 0 ] > = 3 :
# greater precision output by default
expected_content = ''' " Seq " , " Frame " , " Cmd " , " P1 " , " P2 " , " P3 " , " P4 " , " X " , " Y " , " Z "
" 0 " , " Rel " , " NAV_RALLY_POINT " , " 0.0 " , " 0.0 " , " 0.0 " , " 0.0 " , " -5.678900241851807 " , " 98.23410034179688 " , " 90.0 "
'''
self . assert_filepath_content ( csvpath , expected_content )
self . end_subsubtest ( " rally savecsv " )
self . start_subsubtest ( " rally load " )
self . drain_mav ( )
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mavproxy . send ( ' rally clear \n ' )
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self . assert_mission_count_on_link ( self . mav ,
0 ,
target_system ,
target_component ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
# warning: uses file saved from previous test
self . start_subtest ( " Check rally load from filepath " )
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mavproxy . send ( ' rally load %s \n ' % save_tmppath )
mavproxy . expect ( r " Loaded 1 rally items from ([^ \ s]*) \ s " )
mavproxy . expect ( " Sent all .* rally items " ) # notional race condition here
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downloaded_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
if len ( downloaded_items ) != 1 :
raise NotAchievedException ( " Unexpected item count ( %u ) " % len ( downloaded_items ) )
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if abs ( int ( downloaded_items [ 0 ] . x ) - int ( lat * 1e7 ) ) > 3 :
raise NotAchievedException ( " Expected lat= %d got= %d " %
( lat * 1e7 , downloaded_items [ 0 ] . x ) )
if abs ( int ( downloaded_items [ 0 ] . y ) - int ( lng * 1e7 ) ) > 10 :
raise NotAchievedException ( " Expected lng= %d got= %d " %
( lng * 1e7 , downloaded_items [ 0 ] . y ) )
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self . end_subsubtest ( " rally load " )
self . start_subsubtest ( " rally changealt " )
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mavproxy . send ( ' rally clear \n ' )
mavproxy . send ( " click 1.0 1.0 \n " )
mavproxy . send ( " rally add \n " )
mavproxy . send ( " click 2.0 2.0 \n " )
mavproxy . send ( " rally add \n " )
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self . delay_sim_time ( 10 )
self . assert_mission_count_on_link (
self . mav ,
2 ,
target_system ,
target_component ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
)
self . drain_mav ( )
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mavproxy . send ( " rally changealt 1 17.6 \n " )
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self . assert_receive_mission_ack ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
target_system = 255 ,
target_component = 0 )
self . delay_sim_time ( 10 )
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mavproxy . send ( " rally changealt 2 19.1 \n " )
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self . assert_receive_mission_ack ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
target_system = 255 ,
target_component = 0 )
self . delay_sim_time ( 10 )
downloaded_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
if len ( downloaded_items ) != 2 :
raise NotAchievedException ( " Unexpected item count ( %u ) " % len ( downloaded_items ) )
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if abs ( int ( downloaded_items [ 0 ] . x ) - int ( 1 * 1e7 ) ) > 3 :
raise NotAchievedException ( " Expected lat= %d got= %d " % ( 1 * 1e7 , downloaded_items [ 0 ] . x ) )
if abs ( int ( downloaded_items [ 0 ] . y ) - int ( 1 * 1e7 ) ) > 10 :
raise NotAchievedException ( " Expected lng= %d got= %d " % ( 1 * 1e7 , downloaded_items [ 0 ] . y ) )
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# at some stage ArduPilot will stop rounding altitude. This
# will break then.
if abs ( int ( downloaded_items [ 0 ] . z ) - int ( 17.6 ) ) > 0.0001 :
raise NotAchievedException ( " Expected alt= %f got= %f " % ( 17.6 , downloaded_items [ 0 ] . z ) )
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if abs ( int ( downloaded_items [ 1 ] . x ) - int ( 2 * 1e7 ) ) > 3 :
raise NotAchievedException ( " Expected lat= %d got= %d " % ( 2 * 1e7 , downloaded_items [ 0 ] . x ) )
if abs ( int ( downloaded_items [ 1 ] . y ) - int ( 2 * 1e7 ) ) > 10 :
raise NotAchievedException ( " Expected lng= %d got= %d " % ( 2 * 1e7 , downloaded_items [ 0 ] . y ) )
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# at some stage ArduPilot will stop rounding altitude. This
# will break then.
if abs ( int ( downloaded_items [ 1 ] . z ) - int ( 19.1 ) ) > 0.0001 :
raise NotAchievedException ( " Expected alt= %f got= %f " % ( 19.1 , downloaded_items [ 1 ] . z ) )
self . progress ( " Now change two at once " )
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mavproxy . send ( " rally changealt 1 17.3 2 \n " )
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self . assert_receive_mission_ack ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
target_system = 255 ,
target_component = 0 )
downloaded_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
if len ( downloaded_items ) != 2 :
raise NotAchievedException ( " Unexpected item count ( %u ) " % len ( downloaded_items ) )
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if abs ( int ( downloaded_items [ 0 ] . x ) - int ( 1 * 1e7 ) ) > 3 :
raise NotAchievedException ( " Expected lat= %d got= %d " % ( 1 * 1e7 , downloaded_items [ 0 ] . x ) )
if abs ( int ( downloaded_items [ 0 ] . y ) - int ( 1 * 1e7 ) ) > 10 :
raise NotAchievedException ( " Expected lng= %d got= %d " % ( 1 * 1e7 , downloaded_items [ 0 ] . y ) )
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# at some stage ArduPilot will stop rounding altitude. This
# will break then.
if abs ( int ( downloaded_items [ 0 ] . z ) - int ( 17.3 ) ) > 0.0001 :
raise NotAchievedException ( " Expected alt= %f got= %f " % ( 17.3 , downloaded_items [ 0 ] . z ) )
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if abs ( int ( downloaded_items [ 1 ] . x ) - int ( 2 * 1e7 ) ) > 3 :
raise NotAchievedException ( " Expected lat= %d got= %d " % ( 2 * 1e7 , downloaded_items [ 0 ] . x ) )
if abs ( int ( downloaded_items [ 1 ] . y ) - int ( 2 * 1e7 ) ) > 10 :
raise NotAchievedException ( " Expected lng= %d got= %d " % ( 2 * 1e7 , downloaded_items [ 0 ] . y ) )
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# at some stage ArduPilot will stop rounding altitude. This
# will break then.
if abs ( int ( downloaded_items [ 1 ] . z ) - int ( 17.3 ) ) > 0.0001 :
raise NotAchievedException ( " Expected alt= %f got= %f " % ( 17.3 , downloaded_items [ 0 ] . z ) )
self . end_subsubtest ( " rally changealt " )
self . start_subsubtest ( " rally move " )
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mavproxy . send ( ' rally clear \n ' )
mavproxy . send ( " click 1.0 1.0 \n " )
mavproxy . send ( " rally add \n " )
mavproxy . send ( " click 2.0 2.0 \n " )
mavproxy . send ( " rally add \n " )
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self . delay_sim_time ( 5 )
self . assert_mission_count_on_link (
self . mav ,
2 ,
target_system ,
target_component ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
)
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mavproxy . send ( " click 3.0 3.0 \n " )
mavproxy . send ( " rally move 2 \n " )
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self . assert_receive_mission_ack ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
target_system = 255 ,
target_component = 0 )
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mavproxy . send ( " click 4.12345 4.987654 \n " )
mavproxy . send ( " rally move 1 \n " )
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self . assert_receive_mission_ack ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
target_system = 255 ,
target_component = 0 )
downloaded_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
if len ( downloaded_items ) != 2 :
raise NotAchievedException ( " Unexpected item count ( %u ) " % len ( downloaded_items ) )
if downloaded_items [ 0 ] . x != 41234500 :
raise NotAchievedException ( " Bad latitude " )
if downloaded_items [ 0 ] . y != 49876540 :
raise NotAchievedException ( " Bad longitude " )
if downloaded_items [ 0 ] . z != 90 :
raise NotAchievedException ( " Bad altitude (want= %u got= %u ) " %
( 90 , downloaded_items [ 0 ] . z ) )
if downloaded_items [ 1 ] . x != 30000000 :
raise NotAchievedException ( " Bad latitude " )
if downloaded_items [ 1 ] . y != 30000000 :
raise NotAchievedException ( " Bad longitude " )
if downloaded_items [ 1 ] . z != 90 :
raise NotAchievedException ( " Bad altitude (want= %u got= %u ) " %
( 90 , downloaded_items [ 1 ] . z ) )
self . end_subsubtest ( " rally move " )
self . start_subsubtest ( " rally movemulti " )
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self . drain_mav ( )
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mavproxy . send ( ' rally clear \n ' )
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self . drain_mav ( )
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# there are race conditions in MAVProxy. Beware.
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mavproxy . send ( " click 1.0 1.0 \n " )
mavproxy . send ( " rally add \n " )
mavproxy . send ( " click 2.0 2.0 \n " )
mavproxy . send ( " rally add \n " )
mavproxy . send ( " click 3.0 3.0 \n " )
mavproxy . send ( " rally add \n " )
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self . delay_sim_time ( 10 )
self . assert_mission_count_on_link (
self . mav ,
3 ,
target_system ,
target_component ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
)
click_lat = 2.0
click_lon = 3.0
unmoved_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
if len ( unmoved_items ) != 3 :
raise NotAchievedException ( " Unexpected item count " )
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mavproxy . send ( " click %f %f \n " % ( click_lat , click_lon ) )
mavproxy . send ( " rally movemulti 2 1 3 \n " )
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# MAVProxy currently sends three separate items up. That's
# not great and I don't want to lock that behaviour in here.
self . delay_sim_time ( 10 )
expected_moved_items = copy . copy ( unmoved_items )
expected_moved_items [ 0 ] . x = 1.0 * 1e7
expected_moved_items [ 0 ] . y = 2.0 * 1e7
expected_moved_items [ 1 ] . x = 2.0 * 1e7
expected_moved_items [ 1 ] . y = 3.0 * 1e7
expected_moved_items [ 2 ] . x = 3.0 * 1e7
expected_moved_items [ 2 ] . y = 4.0 * 1e7
moved_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
# we're moving an entire degree in latitude; quite an epsilon required...
self . check_rally_items_same ( expected_moved_items , moved_items , epsilon = 10000 )
self . progress ( " now move back and rotate through 90 degrees " )
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mavproxy . send ( " click %f %f \n " % ( 2 , 2 ) )
mavproxy . send ( " rally movemulti 2 1 3 90 \n " )
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# MAVProxy currently sends three separate items up. That's
# not great and I don't want to lock that behaviour in here.
self . delay_sim_time ( 10 )
expected_moved_items = copy . copy ( unmoved_items )
expected_moved_items [ 0 ] . x = 3.0 * 1e7
expected_moved_items [ 0 ] . y = 1.0 * 1e7
expected_moved_items [ 1 ] . x = 2.0 * 1e7
expected_moved_items [ 1 ] . y = 2.0 * 1e7
expected_moved_items [ 2 ] . x = 1.0 * 1e7
expected_moved_items [ 2 ] . y = 3.0 * 1e7
moved_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
# we're moving an entire degree in latitude; quite an epsilon required...
self . check_rally_items_same ( expected_moved_items , moved_items , epsilon = 12000 )
self . end_subsubtest ( " rally movemulti " )
self . start_subsubtest ( " rally param " )
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mavproxy . send ( " rally param 3 2 5 \n " )
mavproxy . expect ( " Set param 2 for 3 to 5.000000 " )
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self . end_subsubtest ( " rally param " )
self . start_subsubtest ( " rally remove " )
self . click_three_in ( target_system = target_system , target_component = target_component )
pure_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . progress ( " Removing last in list " )
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mavproxy . send ( " rally remove 3 \n " )
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self . delay_sim_time ( 10 )
self . assert_mission_count_on_link (
self . mav ,
2 ,
target_system ,
target_component ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
)
fewer_downloaded_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
if len ( fewer_downloaded_items ) != 2 :
raise NotAchievedException ( " Unexpected download list length " )
shorter_items = copy . copy ( pure_items )
shorter_items = shorter_items [ 0 : 2 ]
self . check_rally_items_same ( shorter_items , fewer_downloaded_items )
self . progress ( " Removing first in list " )
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mavproxy . send ( " rally remove 1 \n " )
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self . delay_sim_time ( 5 )
self . assert_mission_count_on_link (
self . mav ,
1 ,
target_system ,
target_component ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
)
fewer_downloaded_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
if len ( fewer_downloaded_items ) != 1 :
raise NotAchievedException ( " Unexpected download list length " )
shorter_items = shorter_items [ 1 : ]
self . check_rally_items_same ( shorter_items , fewer_downloaded_items )
self . progress ( " Removing remaining item " )
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mavproxy . send ( " rally remove 1 \n " )
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self . delay_sim_time ( 5 )
self . assert_mission_count_on_link (
self . mav ,
0 ,
target_system ,
target_component ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
)
self . end_subsubtest ( " rally remove " )
self . start_subsubtest ( " rally show " )
# what can we test here?
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mavproxy . send ( " rally show %s \n " % save_tmppath )
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self . end_subsubtest ( " rally show " )
# savelocal must be run immediately after show!
self . start_subsubtest ( " rally savelocal " )
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util . pexpect_drain ( mavproxy )
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savelocal_path = self . buildlogs_path ( " rally-testing-tmp-local.txt " )
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mavproxy . send ( ' rally savelocal %s \n ' % savelocal_path )
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self . delay_sim_time ( 5 )
self . assert_rally_filepath_content ( savelocal_path , ''' QGC WPL 110
0 0 3 5100 0.000000 0.000000 0.000000 0.000000 - 5.678900 98.234100 90.000000 0
''' )
self . end_subsubtest ( " rally savelocal " )
self . start_subsubtest ( " rally status " )
self . click_three_in ( target_system = target_system , target_component = target_component )
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mavproxy . send ( " rally status \n " )
mavproxy . expect ( " Have 3 of 3 rally items " )
mavproxy . send ( " rally clear \n " )
mavproxy . send ( " rally status \n " )
mavproxy . expect ( " Have 0 of 0 rally items " )
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self . end_subsubtest ( " rally status " )
self . start_subsubtest ( " rally undo " )
self . progress ( " Testing undo-remove " )
self . click_three_in ( target_system = target_system , target_component = target_component )
pure_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . progress ( " Removing first in list " )
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mavproxy . send ( " rally remove 1 \n " )
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self . delay_sim_time ( 5 )
self . assert_mission_count_on_link (
self . mav ,
2 ,
target_system ,
target_component ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
)
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mavproxy . send ( " rally undo \n " )
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self . delay_sim_time ( 5 )
undone_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . check_rally_items_same ( pure_items , undone_items )
self . progress ( " Testing undo-move " )
pure_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
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mavproxy . send ( " click 4.12345 4.987654 \n " )
mavproxy . send ( " rally move 1 \n " )
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# move has already been tested, assume it works...
self . delay_sim_time ( 5 )
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mavproxy . send ( " rally undo \n " )
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self . delay_sim_time ( 5 )
undone_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . check_rally_items_same ( pure_items , undone_items )
self . end_subsubtest ( " rally undo " )
self . start_subsubtest ( " rally update " )
self . click_three_in ( target_system = target_system , target_component = target_component )
pure_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
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rally_update_tmpfilepath = self . buildlogs_path ( " rally-tmp-update.txt " )
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mavproxy . send ( " rally save %s \n " % rally_update_tmpfilepath )
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self . delay_sim_time ( 5 )
self . progress ( " Moving waypoint " )
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mavproxy . send ( " click 13.0 13.0 \n " )
mavproxy . send ( " rally move 1 \n " )
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self . delay_sim_time ( 5 )
self . progress ( " Reverting to original " )
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mavproxy . send ( " rally update %s \n " % rally_update_tmpfilepath )
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self . delay_sim_time ( 5 )
reverted_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . check_rally_items_same ( pure_items , reverted_items )
self . progress ( " Making sure specifying a waypoint to be updated works " )
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mavproxy . send ( " click 13.0 13.0 \n " )
mavproxy . send ( " rally move 1 \n " )
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self . delay_sim_time ( 5 )
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mavproxy . send ( " click 17.0 17.0 \n " )
mavproxy . send ( " rally move 2 \n " )
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self . delay_sim_time ( 5 )
self . progress ( " Reverting to original item 2 " )
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mavproxy . send ( " rally update %s 2 \n " % rally_update_tmpfilepath )
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self . delay_sim_time ( 5 )
reverted_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
if reverted_items [ 0 ] . x != 130000000 :
raise NotAchievedException ( " Expected item1 x to stay changed (got= %u want= %u ) " % ( reverted_items [ 0 ] . x , 130000000 ) )
if reverted_items [ 1 ] . x == 170000000 :
raise NotAchievedException ( " Expected item2 x to revert " )
self . end_subsubtest ( " rally update " )
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self . delay_sim_time ( 1 )
if self . get_parameter ( " RALLY_TOTAL " ) != 0 :
raise NotAchievedException ( " Failed to clear rally points " )
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self . stop_mavproxy ( mavproxy )
# MANUAL> usage: rally <add|alt|changealt|clear|list|load|move|movemulti|param|remove|save|savecsv|savelocal|show|status|undo|update> # noqa
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def RallyUploadDownload ( self , target_system = 1 , target_component = 1 ) :
''' Upload and download of rally '''
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old_srcSystem = self . mav . mav . srcSystem
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self . drain_mav ( )
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try :
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item1_lat = int ( 2.0000 * 1e7 )
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items = [
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
0 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_RELATIVE_ALT ,
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mavutil . mavlink . MAV_CMD_NAV_RALLY_POINT ,
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0 , # current
0 , # autocontinue
0 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0000 * 1e7 ) , # latitude
int ( 1.0000 * 1e7 ) , # longitude
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31.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_RALLY ) ,
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
1 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_RELATIVE_ALT ,
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mavutil . mavlink . MAV_CMD_NAV_RALLY_POINT ,
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0 , # current
0 , # autocontinue
0 , # p1
0 , # p2
0 , # p3
0 , # p4
item1_lat , # latitude
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int ( 2.0000 * 1e7 ) , # longitude
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32.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_RALLY ) ,
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
2 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_RELATIVE_ALT ,
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mavutil . mavlink . MAV_CMD_NAV_RALLY_POINT ,
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0 , # current
0 , # autocontinue
0 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 3.0000 * 1e7 ) , # latitude
int ( 3.0000 * 1e7 ) , # longitude
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33.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_RALLY ) ,
]
self . upload_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
items )
downloaded = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
print ( " Got items ( %s ) " % str ( items ) )
if len ( downloaded ) != len ( items ) :
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raise NotAchievedException (
" Did not download correct number of items want= %u got= %u " %
( len ( downloaded ) , len ( items ) ) )
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rally_total = self . get_parameter ( " RALLY_TOTAL " )
if rally_total != len ( downloaded ) :
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raise NotAchievedException (
" Unexpected rally point count: want= %u got= %u " %
( len ( items ) , rally_total ) )
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self . progress ( " Pruning count by setting parameter (urgh) " )
self . set_parameter ( " RALLY_TOTAL " , 2 )
downloaded = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
if len ( downloaded ) != 2 :
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raise NotAchievedException (
" Failed to prune rally points by setting parameter. want= %u got= %u " %
( 2 , len ( downloaded ) ) )
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self . progress ( " Uploading a third item using old protocol " )
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new_item2_lat = int ( 6.0 * 1e7 )
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self . set_parameter ( " RALLY_TOTAL " , 3 )
self . mav . mav . rally_point_send ( target_system ,
target_component ,
2 , # sequence number
3 , # total count
new_item2_lat ,
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int ( 7.0 * 1e7 ) ,
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15 ,
0 , # "break" alt?!
0 , # "land dir"
0 ) # flags
downloaded = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
if len ( downloaded ) != 3 :
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raise NotAchievedException (
" resetting rally point count didn ' t change items returned " )
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if downloaded [ 2 ] . x != new_item2_lat :
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raise NotAchievedException (
" Bad lattitude in downloaded item: want= %u got= %u " %
( new_item2_lat , downloaded [ 2 ] . x ) )
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self . progress ( " Grabbing original item 1 using original protocol " )
self . mav . mav . rally_fetch_point_send ( target_system ,
target_component ,
1 )
m = self . mav . recv_match ( type = " RALLY_POINT " , blocking = True , timeout = 1 )
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if m . target_system != self . mav . source_system :
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raise NotAchievedException (
" Bad target_system on received rally point (want= %u got= %u ) " %
( 255 , m . target_system ) )
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if m . target_component != self . mav . source_component : # autotest's component ID
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raise NotAchievedException ( " Bad target_component on received rally point " )
if m . lat != item1_lat :
raise NotAchievedException ( " Bad latitude on received rally point " )
self . start_subtest ( " Test upload lockout and timeout " )
self . progress ( " Starting upload from normal sysid " )
self . mav . mav . mission_count_send ( target_system ,
target_component ,
len ( items ) ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . drain_mav ( ) # throw away requests for items
self . mav . mav . srcSystem = 243
self . progress ( " Attempting upload from sysid= %u " %
( self . mav . mav . srcSystem , ) )
self . mav . mav . mission_count_send ( target_system ,
target_component ,
len ( items ) ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . assert_receive_mission_ack ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
want_type = mavutil . mavlink . MAV_MISSION_DENIED )
self . progress ( " Attempting download from sysid= %u " %
( self . mav . mav . srcSystem , ) )
self . mav . mav . mission_request_list_send ( target_system ,
target_component ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . assert_receive_mission_ack ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
want_type = mavutil . mavlink . MAV_MISSION_DENIED )
# wait for the upload from sysid=1 to time out:
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tstart = self . get_sim_time ( )
got_statustext = False
got_ack = False
while True :
if got_statustext and got_ack :
self . progress ( " Got both ack and statustext " )
break
if self . get_sim_time_cached ( ) - tstart > 100 :
raise NotAchievedException ( " Did not get both ack and statustext " )
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m = self . mav . recv_match ( type = [ ' STATUSTEXT ' , ' MISSION_ACK ' ] ,
blocking = True ,
timeout = 1 )
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if m is None :
continue
self . progress ( " Got ( %s ) " % str ( m ) )
if m . get_type ( ) == ' STATUSTEXT ' :
if " upload timeout " in m . text :
got_statustext = True
self . progress ( " Received desired statustext " )
continue
if m . get_type ( ) == ' MISSION_ACK ' :
if m . target_system != old_srcSystem :
raise NotAchievedException ( " Incorrect sourcesystem " )
if m . type != mavutil . mavlink . MAV_MISSION_OPERATION_CANCELLED :
raise NotAchievedException ( " Incorrect result " )
if m . mission_type != mavutil . mavlink . MAV_MISSION_TYPE_RALLY :
raise NotAchievedException ( " Incorrect mission_type " )
got_ack = True
self . progress ( " Received desired ACK " )
continue
raise NotAchievedException ( " Huh? " )
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self . progress ( " Now trying to upload empty mission after timeout " )
self . mav . mav . mission_count_send ( target_system ,
target_component ,
0 ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . assert_receive_mission_ack ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . drain_mav ( )
self . start_subtest ( " Check rally upload/download across separate links " )
self . upload_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
items )
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self . progress ( " ensure a mavlink1 connection can ' t do anything useful with new item types " )
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self . set_parameter ( " SERIAL2_PROTOCOL " , 1 )
self . reboot_sitl ( )
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mav2 = mavutil . mavlink_connection ( " tcp:localhost:5763 " ,
robust_parsing = True ,
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source_system = 7 ,
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source_component = 7 )
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mav2 . mav . mission_request_list_send ( target_system ,
target_component ,
mission_type = mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
# so this looks a bit odd; the other end isn't sending
# mavlink2 so can't fill in the extension here.
self . assert_receive_mission_ack (
mavutil . mavlink . MAV_MISSION_TYPE_MISSION ,
want_type = mavutil . mavlink . MAV_MISSION_UNSUPPORTED ,
mav = mav2 ,
)
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# this relies on magic upgrade to serial2:
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self . set_parameter ( " SERIAL2_PROTOCOL " , 2 )
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expected_count = 3
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self . progress ( " Assert mission count on new link " )
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self . assert_mission_count_on_link (
mav2 ,
expected_count ,
target_system ,
target_component ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
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self . progress ( " Assert mission count on original link " )
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self . assert_mission_count_on_link (
self . mav ,
expected_count ,
target_system ,
target_component ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
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self . progress ( " Get first item on new link " )
autotest: drain self.mav while waiting on other link
In the short period of time it takes for us to get organised/draining mavlink connections, the ArduPilot process might block writing to the primary mavlink connection - in which case we'll never get the message we requested.
Should solve
2022-08-31T23:17:43.6904119Z AT-0227.6: waiting for a message - any message....
2022-08-31T23:17:43.6904958Z AT-0227.6: Received (ATTITUDE {time_boot_ms : 3146, roll : 0.00013471684360411018, pitch : -4.076504410477355e-05, yaw : -2.1274349689483643, rollspeed : 6.679168291157112e-05, pitchspeed : 3.297374496469274e-05, yawspeed : 9.125166684498254e-07})
2022-08-31T23:17:43.6905505Z AT-0227.6: Waiting for mission count of (3) from (1:1) to (243:250)
2022-08-31T23:17:43.6905909Z AT-0227.6: Asserted mission count (type=2) is 3 after 0.100000s
2022-08-31T23:17:43.6906252Z AT-0227.6: Get first item on new link
2022-08-31T23:17:43.6906620Z AT-0289.2: Received exception (Did not receive MISSION_ITEM_INT
2022-08-31T23:17:43.6907047Z Traceback (most recent call last):
2022-08-31T23:17:43.6907386Z File "/__w/ardupilot/ardupilot/Tools/autotest/rover.py", line 3067, in test_rally
2022-08-31T23:17:43.6907719Z m2 = self.get_mission_item_int_on_link(
2022-08-31T23:17:43.6908080Z File "/__w/ardupilot/ardupilot/Tools/autotest/rover.py", line 2288, in get_mission_item_int_on_link
2022-08-31T23:17:43.6908469Z raise NotAchievedException("Did not receive MISSION_ITEM_INT")
2022-08-31T23:17:43.6908841Z common.NotAchievedException: Did not receive MISSION_ITEM_INT
2022-08-31T23:17:43.6909118Z )
2022-08-31T23:17:43.6909468Z AT-0289.2: Exception caught: Did not receive MISSION_ITEM_INT
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def drain_self_mav_fn ( ) :
self . drain_mav ( self . mav )
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m2 = self . get_mission_item_int_on_link (
2 ,
mav2 ,
target_system ,
target_component ,
autotest: drain self.mav while waiting on other link
In the short period of time it takes for us to get organised/draining mavlink connections, the ArduPilot process might block writing to the primary mavlink connection - in which case we'll never get the message we requested.
Should solve
2022-08-31T23:17:43.6904119Z AT-0227.6: waiting for a message - any message....
2022-08-31T23:17:43.6904958Z AT-0227.6: Received (ATTITUDE {time_boot_ms : 3146, roll : 0.00013471684360411018, pitch : -4.076504410477355e-05, yaw : -2.1274349689483643, rollspeed : 6.679168291157112e-05, pitchspeed : 3.297374496469274e-05, yawspeed : 9.125166684498254e-07})
2022-08-31T23:17:43.6905505Z AT-0227.6: Waiting for mission count of (3) from (1:1) to (243:250)
2022-08-31T23:17:43.6905909Z AT-0227.6: Asserted mission count (type=2) is 3 after 0.100000s
2022-08-31T23:17:43.6906252Z AT-0227.6: Get first item on new link
2022-08-31T23:17:43.6906620Z AT-0289.2: Received exception (Did not receive MISSION_ITEM_INT
2022-08-31T23:17:43.6907047Z Traceback (most recent call last):
2022-08-31T23:17:43.6907386Z File "/__w/ardupilot/ardupilot/Tools/autotest/rover.py", line 3067, in test_rally
2022-08-31T23:17:43.6907719Z m2 = self.get_mission_item_int_on_link(
2022-08-31T23:17:43.6908080Z File "/__w/ardupilot/ardupilot/Tools/autotest/rover.py", line 2288, in get_mission_item_int_on_link
2022-08-31T23:17:43.6908469Z raise NotAchievedException("Did not receive MISSION_ITEM_INT")
2022-08-31T23:17:43.6908841Z common.NotAchievedException: Did not receive MISSION_ITEM_INT
2022-08-31T23:17:43.6909118Z )
2022-08-31T23:17:43.6909468Z AT-0289.2: Exception caught: Did not receive MISSION_ITEM_INT
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mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
delay_fn = drain_self_mav_fn )
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self . progress ( " Get first item on original link " )
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m = self . get_mission_item_int_on_link (
2 ,
self . mav ,
target_system ,
target_component ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
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if m2 . x != m . x :
raise NotAchievedException ( " mission items do not match ( %d vs %d ) " % ( m2 . x , m . x ) )
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self . get_mission_item_on_link ( 2 , self . mav , target_system , target_component , mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
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# ensure we get nacks for bad mission item requests:
self . mav . mav . mission_request_send ( target_system ,
target_component ,
65 ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . assert_receive_mission_ack (
mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
want_type = mavutil . mavlink . MAV_MISSION_INVALID_SEQUENCE ,
)
self . mav . mav . mission_request_int_send ( target_system ,
target_component ,
65 ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . assert_receive_mission_ack (
mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
want_type = mavutil . mavlink . MAV_MISSION_INVALID_SEQUENCE ,
)
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self . start_subtest ( " Should enforce items come from correct GCS " )
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self . drain_mav ( unparsed = True )
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self . mav . mav . mission_count_send ( target_system ,
target_component ,
1 ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . assert_receive_mission_item_request ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY , 0 )
self . progress ( " Attempting to upload from bad sysid " )
old_sysid = self . mav . mav . srcSystem
self . mav . mav . srcSystem = 17
items [ 0 ] . pack ( self . mav . mav )
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self . drain_mav ( unparsed = True )
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self . mav . mav . send ( items [ 0 ] )
self . mav . mav . srcSystem = old_sysid
self . assert_receive_mission_ack ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
want_type = mavutil . mavlink . MAV_MISSION_DENIED ,
target_system = 17 )
self . progress ( " Sending from correct sysid " )
items [ 0 ] . pack ( self . mav . mav )
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self . drain_mav ( unparsed = True )
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self . mav . mav . send ( items [ 0 ] )
self . assert_receive_mission_ack ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . drain_mav ( )
self . drain_all_pexpects ( )
self . start_subtest ( " Attempt to send item on different link to that which we are sending requests on " )
self . progress ( " Sending count " )
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self . drain_mav ( unparsed = True )
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self . mav . mav . mission_count_send ( target_system ,
target_component ,
2 ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . assert_receive_mission_item_request ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY , 0 )
old_mav2_system = mav2 . mav . srcSystem
old_mav2_component = mav2 . mav . srcComponent
mav2 . mav . srcSystem = self . mav . mav . srcSystem
mav2 . mav . srcComponent = self . mav . mav . srcComponent
self . progress ( " Sending item on second link " )
# note that the routing table in ArduPilot now will say
# this sysid/compid is on both links which may cause
# weirdness...
items [ 0 ] . pack ( mav2 . mav )
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self . drain_mav ( mav = self . mav , unparsed = True )
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mav2 . mav . send ( items [ 0 ] )
mav2 . mav . srcSystem = old_mav2_system
mav2 . mav . srcComponent = old_mav2_component
# we continue to receive requests on the original link:
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m = self . assert_receive_message ( ' MISSION_REQUEST ' , timeout = 1 )
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if m . mission_type != mavutil . mavlink . MAV_MISSION_TYPE_RALLY :
raise NotAchievedException ( " Mission request of incorrect type " )
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if m . seq != 1 :
raise NotAchievedException ( " Unexpected sequence number (expected= %u got= %u ) " % ( 1 , m . seq ) )
items [ 1 ] . pack ( self . mav . mav )
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self . drain_mav ( unparsed = True )
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self . mav . mav . send ( items [ 1 ] )
self . assert_receive_mission_ack ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . drain_mav ( )
self . drain_all_pexpects ( )
self . start_subtest ( " Upload mission and rally points at same time " )
self . progress ( " Sending rally count " )
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self . drain_mav ( unparsed = True )
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self . mav . mav . mission_count_send ( target_system ,
target_component ,
3 ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . assert_receive_mission_item_request ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY , 0 )
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self . progress ( " Sending wp count " )
self . mav . mav . mission_count_send ( target_system ,
target_component ,
3 ,
mavutil . mavlink . MAV_MISSION_TYPE_MISSION )
self . assert_receive_mission_item_request ( mavutil . mavlink . MAV_MISSION_TYPE_MISSION , 0 )
self . progress ( " Answering request for mission item 0 " )
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self . drain_mav ( mav = self . mav , unparsed = True )
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self . mav . mav . mission_item_int_send (
target_system ,
target_component ,
0 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_RELATIVE_ALT ,
mavutil . mavlink . MAV_CMD_NAV_WAYPOINT ,
0 , # current
0 , # autocontinue
0 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.1000 * 1e7 ) , # latitude
int ( 1.2000 * 1e7 ) , # longitude
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321.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_MISSION ) ,
self . assert_receive_mission_item_request ( mavutil . mavlink . MAV_MISSION_TYPE_MISSION , 1 )
self . progress ( " Answering request for rally point 0 " )
items [ 0 ] . pack ( self . mav . mav )
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self . drain_mav ( unparsed = True )
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self . mav . mav . send ( items [ 0 ] )
self . progress ( " Expecting request for rally item 1 " )
self . assert_receive_mission_item_request ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY , 1 )
self . progress ( " Answering request for rally point 1 " )
items [ 1 ] . pack ( self . mav . mav )
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self . drain_mav ( unparsed = True )
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self . mav . mav . send ( items [ 1 ] )
self . progress ( " Expecting request for rally item 2 " )
self . assert_receive_mission_item_request ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY , 2 )
self . progress ( " Answering request for rally point 2 " )
items [ 2 ] . pack ( self . mav . mav )
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self . drain_mav ( unparsed = True )
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self . mav . mav . send ( items [ 2 ] )
self . progress ( " Expecting mission ack for rally " )
self . assert_receive_mission_ack ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . progress ( " Answering request for waypoints item 1 " )
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self . drain_mav ( unparsed = True )
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self . mav . mav . mission_item_int_send (
target_system ,
target_component ,
1 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_RELATIVE_ALT ,
mavutil . mavlink . MAV_CMD_NAV_WAYPOINT ,
0 , # current
0 , # autocontinue
0 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.1000 * 1e7 ) , # latitude
int ( 1.2000 * 1e7 ) , # longitude
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321.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_MISSION ) ,
self . assert_receive_mission_item_request ( mavutil . mavlink . MAV_MISSION_TYPE_MISSION , 2 )
self . progress ( " Answering request for waypoints item 2 " )
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self . drain_mav ( unparsed = True )
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self . mav . mav . mission_item_int_send (
target_system ,
target_component ,
2 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_RELATIVE_ALT ,
mavutil . mavlink . MAV_CMD_NAV_WAYPOINT ,
0 , # current
0 , # autocontinue
0 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.1000 * 1e7 ) , # latitude
int ( 1.2000 * 1e7 ) , # longitude
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321.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_MISSION ) ,
self . assert_receive_mission_ack ( mavutil . mavlink . MAV_MISSION_TYPE_MISSION )
self . start_subtest ( " Test write-partial-list " )
self . progress ( " Clearing rally points using count-send " )
self . clear_mission ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
target_system = target_system ,
target_component = target_component )
self . progress ( " Should not be able to set items completely past the waypoint count " )
self . upload_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
items )
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self . drain_mav ( unparsed = True )
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self . mav . mav . mission_write_partial_list_send (
target_system ,
target_component ,
17 ,
20 ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . assert_receive_mission_ack ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
want_type = mavutil . mavlink . MAV_MISSION_ERROR )
self . progress ( " Should not be able to set items overlapping the waypoint count " )
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self . drain_mav ( unparsed = True )
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self . mav . mav . mission_write_partial_list_send (
target_system ,
target_component ,
0 ,
20 ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . assert_receive_mission_ack ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
want_type = mavutil . mavlink . MAV_MISSION_ERROR )
self . progress ( " try to overwrite items 1 and 2 " )
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self . drain_mav ( unparsed = True )
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self . mav . mav . mission_write_partial_list_send (
target_system ,
target_component ,
1 ,
2 ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . assert_receive_mission_item_request ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY , 1 )
self . progress ( " Try shoving up an incorrectly sequenced item " )
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self . drain_mav ( unparsed = True )
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self . mav . mav . mission_item_int_send (
target_system ,
target_component ,
0 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_RELATIVE_ALT ,
mavutil . mavlink . MAV_CMD_NAV_RALLY_POINT ,
0 , # current
0 , # autocontinue
0 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.1000 * 1e7 ) , # latitude
int ( 1.2000 * 1e7 ) , # longitude
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321.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_RALLY ) ,
self . assert_receive_mission_ack ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
want_type = mavutil . mavlink . MAV_MISSION_INVALID_SEQUENCE )
self . progress ( " Try shoving up an incorrectly sequenced item (but within band) " )
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self . drain_mav ( unparsed = True )
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self . mav . mav . mission_item_int_send (
target_system ,
target_component ,
2 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_RELATIVE_ALT ,
mavutil . mavlink . MAV_CMD_NAV_RALLY_POINT ,
0 , # current
0 , # autocontinue
0 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.1000 * 1e7 ) , # latitude
int ( 1.2000 * 1e7 ) , # longitude
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321.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_RALLY ) ,
self . assert_receive_mission_ack ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
want_type = mavutil . mavlink . MAV_MISSION_INVALID_SEQUENCE )
self . progress ( " Now provide correct item " )
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item1_latitude = int ( 1.2345 * 1e7 )
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self . drain_mav ( unparsed = True )
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self . mav . mav . mission_item_int_send (
target_system ,
target_component ,
1 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_RELATIVE_ALT ,
mavutil . mavlink . MAV_CMD_NAV_RALLY_POINT ,
0 , # current
0 , # autocontinue
0 , # p1
0 , # p2
0 , # p3
0 , # p4
item1_latitude , # latitude
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int ( 1.2000 * 1e7 ) , # longitude
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321.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_RALLY ) ,
self . assert_receive_mission_item_request ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY , 2 )
self . progress ( " Answering request for rally point 2 " )
items [ 2 ] . pack ( self . mav . mav )
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self . drain_mav ( unparsed = True )
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self . mav . mav . send ( items [ 2 ] )
self . assert_receive_mission_ack ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . progress ( " TODO: ensure partial mission write was good " )
self . start_subtest ( " clear mission types " )
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self . assert_mission_count_on_link (
self . mav ,
3 ,
target_system ,
target_component ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . assert_mission_count_on_link (
self . mav ,
3 ,
target_system ,
target_component ,
mavutil . mavlink . MAV_MISSION_TYPE_MISSION )
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self . drain_mav ( unparsed = True )
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self . mav . mav . mission_clear_all_send ( target_system , target_component , mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
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self . assert_receive_mission_ack ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
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self . assert_mission_count_on_link (
self . mav ,
0 ,
target_system ,
target_component ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . assert_mission_count_on_link (
self . mav ,
3 ,
target_system ,
target_component ,
mavutil . mavlink . MAV_MISSION_TYPE_MISSION )
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self . drain_mav ( unparsed = True )
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self . mav . mav . mission_clear_all_send ( target_system , target_component , mavutil . mavlink . MAV_MISSION_TYPE_MISSION )
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self . assert_receive_mission_ack ( mavutil . mavlink . MAV_MISSION_TYPE_MISSION )
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self . assert_mission_count_on_link (
self . mav ,
0 ,
target_system ,
target_component ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . assert_mission_count_on_link (
self . mav ,
0 ,
target_system ,
target_component ,
mavutil . mavlink . MAV_MISSION_TYPE_MISSION )
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self . start_subtest ( " try sending out-of-range counts " )
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self . drain_mav ( unparsed = True )
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self . mav . mav . mission_count_send ( target_system ,
target_component ,
1 ,
230 )
self . assert_receive_mission_ack ( 230 ,
want_type = mavutil . mavlink . MAV_MISSION_UNSUPPORTED )
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self . drain_mav ( unparsed = True )
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self . mav . mav . mission_count_send ( target_system ,
target_component ,
16000 ,
mavutil . mavlink . MAV_MISSION_TYPE_RALLY )
self . assert_receive_mission_ack ( mavutil . mavlink . MAV_MISSION_TYPE_RALLY ,
want_type = mavutil . mavlink . MAV_MISSION_NO_SPACE )
except Exception as e :
self . progress ( " Received exception ( %s ) " % self . get_exception_stacktrace ( e ) )
self . mav . mav . srcSystem = old_srcSystem
raise e
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self . reboot_sitl ( )
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def GCSMission ( self ) :
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''' check MAVProxy ' s waypoint handling of missions '''
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target_system = 1
target_component = 1
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mavproxy = self . start_mavproxy ( )
mavproxy . send ( ' wp clear \n ' )
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self . delay_sim_time ( 1 )
if self . get_parameter ( " MIS_TOTAL " ) != 0 :
raise NotAchievedException ( " Failed to clear mission " )
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m = self . assert_receive_message ( ' MISSION_CURRENT ' , timeout = 5 )
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if m . seq != 0 :
raise NotAchievedException ( " Bad mission current " )
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self . load_mission_using_mavproxy ( mavproxy , " rover-gripper-mission.txt " )
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set_wp = 1
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mavproxy . send ( ' wp set %u \n ' % set_wp )
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self . wait_current_waypoint ( set_wp )
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self . start_subsubtest ( " wp changealt " )
downloaded_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_MISSION )
changealt_item = 1
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# oldalt = downloaded_items[changealt_item].z
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want_newalt = 37.2
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mavproxy . send ( ' wp changealt %u %f \n ' % ( changealt_item , want_newalt ) )
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self . delay_sim_time ( 5 )
downloaded_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_MISSION )
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if abs ( downloaded_items [ changealt_item ] . z - want_newalt ) > 0.0001 :
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raise NotAchievedException (
" changealt didn ' t (want= %f got= %f ) " %
( want_newalt , downloaded_items [ changealt_item ] . z ) )
self . end_subsubtest ( " wp changealt " )
self . start_subsubtest ( " wp sethome " )
new_home_lat = 3.14159
new_home_lng = 2.71828
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mavproxy . send ( ' click %f %f \n ' % ( new_home_lat , new_home_lng ) )
mavproxy . send ( ' wp sethome \n ' )
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self . delay_sim_time ( 5 )
# any way to close the loop on this one?
# downloaded_items = self.download_using_mission_protocol(mavutil.mavlink.MAV_MISSION_TYPE_MISSION)
# if abs(downloaded_items[0].x - new_home_lat) > 0.0001:
# raise NotAchievedException("wp sethome didn't work")
# if abs(downloaded_items[0].y - new_home_lng) > 0.0001:
# raise NotAchievedException("wp sethome didn't work")
self . end_subsubtest ( " wp sethome " )
self . start_subsubtest ( " wp slope " )
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mavproxy . send ( ' wp slope \n ' )
mavproxy . expect ( " WP3: slope 0.1 " )
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self . delay_sim_time ( 5 )
self . end_subsubtest ( " wp slope " )
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if not self . mavproxy_can_do_mision_item_protocols ( ) :
# adding based on click location yet to be merged into MAVProxy
return
self . start_subsubtest ( " wp split " )
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mavproxy . send ( " wp clear \n " )
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self . delay_sim_time ( 5 )
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mavproxy . send ( " wp list \n " )
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self . delay_sim_time ( 5 )
items = [
None ,
self . mav . mav . mission_item_int_encode (
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target_system ,
target_component ,
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1 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
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mavutil . mavlink . MAV_CMD_NAV_WAYPOINT ,
0 , # current
0 , # autocontinue
0 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0 * 1e7 ) , # latitude
int ( 1.0 * 1e7 ) , # longitude
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33.0000 , # altitude
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mavutil . mavlink . MAV_MISSION_TYPE_MISSION ) ,
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self . mav . mav . mission_item_int_encode (
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target_system ,
target_component ,
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2 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
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mavutil . mavlink . MAV_CMD_NAV_WAYPOINT ,
0 , # current
0 , # autocontinue
0 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 2.0 * 1e7 ) , # latitude
int ( 2.0 * 1e7 ) , # longitude
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33.0000 , # altitude
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mavutil . mavlink . MAV_MISSION_TYPE_MISSION ) ,
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]
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mavproxy . send ( " click 5 5 \n " ) # space for home position
mavproxy . send ( " wp add \n " )
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self . delay_sim_time ( 5 )
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self . click_location_from_item ( mavproxy , items [ 1 ] )
mavproxy . send ( " wp add \n " )
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self . delay_sim_time ( 5 )
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self . click_location_from_item ( mavproxy , items [ 2 ] )
mavproxy . send ( " wp add \n " )
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self . delay_sim_time ( 5 )
downloaded_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_MISSION )
self . check_mission_waypoint_items_same ( items , downloaded_items )
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mavproxy . send ( " wp split 2 \n " )
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self . delay_sim_time ( 5 )
items_with_split_in = [
items [ 0 ] ,
items [ 1 ] ,
self . mav . mav . mission_item_int_encode (
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target_system ,
target_component ,
2 , # seq
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mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
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mavutil . mavlink . MAV_CMD_NAV_WAYPOINT ,
0 , # current
0 , # autocontinue
0 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.5 * 1e7 ) , # latitude
int ( 1.5 * 1e7 ) , # longitude
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33.0000 , # altitude
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mavutil . mavlink . MAV_MISSION_TYPE_MISSION ) ,
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items [ 2 ] ,
]
downloaded_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_MISSION )
self . check_mission_waypoint_items_same ( items_with_split_in ,
downloaded_items )
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self . stop_mavproxy ( mavproxy )
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# MANUAL> usage: wp <changealt|clear|draw|editor|list|load|loop|move|movemulti|noflyadd|param|remove|save|savecsv|savelocal|set|sethome|show|slope|split|status|undo|update> # noqa
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def wait_location_sending_target ( self , loc , target_system = 1 , target_component = 1 , timeout = 60 , max_delta = 2 ) :
tstart = self . get_sim_time ( )
last_sent = 0
type_mask = ( mavutil . mavlink . POSITION_TARGET_TYPEMASK_VX_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_VY_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_VZ_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_AX_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_AY_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_AZ_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_YAW_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_YAW_RATE_IGNORE )
self . change_mode ( ' GUIDED ' )
tstart = self . get_sim_time ( )
while True :
now = self . get_sim_time_cached ( )
if now - tstart > timeout :
raise AutoTestTimeoutException ( " Did not get to location " )
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if now - last_sent > 10 :
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last_sent = now
self . mav . mav . set_position_target_global_int_send (
0 ,
target_system ,
target_component ,
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
type_mask ,
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int ( loc . lat * 1.0e7 ) ,
int ( loc . lng * 1.0e7 ) ,
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0 , # alt
0 , # x-ve
0 , # y-vel
0 , # z-vel
0 , # afx
0 , # afy
0 , # afz
0 , # yaw,
0 , # yaw-rate
)
m = self . mav . recv_match ( blocking = True ,
timeout = 1 )
if m is None :
continue
t = m . get_type ( )
if t == " POSITION_TARGET_GLOBAL_INT " :
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self . progress ( " Target: ( %s ) " % str ( m ) , send_statustext = False )
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elif t == " GLOBAL_POSITION_INT " :
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self . progress ( " Position: ( %s ) " % str ( m ) , send_statustext = False )
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delta = self . get_distance (
mavutil . location ( m . lat * 1e-7 , m . lon * 1e-7 , 0 , 0 ) ,
loc )
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self . progress ( " delta: %s " % str ( delta ) , send_statustext = False )
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if delta < max_delta :
self . progress ( " Reached destination " )
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def drive_to_location ( self , loc , tolerance = 1 , timeout = 30 , target_system = 1 , target_component = 1 ) :
self . assert_mode ( ' GUIDED ' )
type_mask = ( mavutil . mavlink . POSITION_TARGET_TYPEMASK_VX_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_VY_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_VZ_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_AX_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_AY_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_AZ_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_YAW_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_YAW_RATE_IGNORE )
last_sent = 0
tstart = self . get_sim_time ( )
while True :
now = self . get_sim_time_cached ( )
if now - tstart > timeout :
raise NotAchievedException ( " Did not get to location " )
if now - last_sent > 10 :
last_sent = now
self . mav . mav . set_position_target_global_int_send (
0 ,
target_system ,
target_component ,
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
type_mask ,
int ( loc . lat * 1.0e7 ) ,
int ( loc . lng * 1.0e7 ) ,
0 , # alt
0 , # x-ve
0 , # y-vel
0 , # z-vel
0 , # afx
0 , # afy
0 , # afz
0 , # yaw,
0 , # yaw-rate
)
if self . get_distance ( self . mav . location ( ) , loc ) > tolerance :
continue
return
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def drive_somewhere_breach_boundary_and_rtl ( self , loc , target_system = 1 , target_component = 1 , timeout = 60 ) :
tstart = self . get_sim_time ( )
last_sent = 0
seen_fence_breach = False
type_mask = ( mavutil . mavlink . POSITION_TARGET_TYPEMASK_VX_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_VY_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_VZ_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_AX_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_AY_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_AZ_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_YAW_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_YAW_RATE_IGNORE )
self . change_mode ( ' GUIDED ' )
while True :
now = self . get_sim_time_cached ( )
if now - tstart > timeout :
raise NotAchievedException ( " Did not breach boundary + RTL " )
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if now - last_sent > 10 :
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last_sent = now
self . mav . mav . set_position_target_global_int_send (
0 ,
target_system ,
target_component ,
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
type_mask ,
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int ( loc . lat * 1.0e7 ) ,
int ( loc . lng * 1.0e7 ) ,
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0 , # alt
0 , # x-ve
0 , # y-vel
0 , # z-vel
0 , # afx
0 , # afy
0 , # afz
0 , # yaw,
0 , # yaw-rate
)
m = self . mav . recv_match ( blocking = True ,
timeout = 1 )
if m is None :
continue
t = m . get_type ( )
if t == " POSITION_TARGET_GLOBAL_INT " :
print ( " Target: ( %s ) " % str ( m ) )
elif t == " GLOBAL_POSITION_INT " :
print ( " Position: ( %s ) " % str ( m ) )
elif t == " FENCE_STATUS " :
print ( " Fence: %s " % str ( m ) )
if m . breach_status != 0 :
seen_fence_breach = True
self . progress ( " Fence breach detected! " )
if m . breach_type != mavutil . mavlink . FENCE_BREACH_BOUNDARY :
raise NotAchievedException ( " Breach of unexpected type " )
if self . mode_is ( " RTL " , cached = True ) and seen_fence_breach :
break
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self . wait_distance_to_home ( 3 , 7 , timeout = 30 )
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def drive_somewhere_stop_at_boundary ( self ,
loc ,
expected_stopping_point ,
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expected_distance_epsilon = 1.0 ,
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target_system = 1 ,
target_component = 1 ,
timeout = 120 ) :
tstart = self . get_sim_time ( )
last_sent = 0
type_mask = ( mavutil . mavlink . POSITION_TARGET_TYPEMASK_VX_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_VY_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_VZ_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_AX_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_AY_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_AZ_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_YAW_IGNORE +
mavutil . mavlink . POSITION_TARGET_TYPEMASK_YAW_RATE_IGNORE )
self . change_mode ( ' GUIDED ' )
at_stopping_point = False
while True :
now = self . get_sim_time_cached ( )
if now - tstart > timeout :
raise NotAchievedException ( " Did not arrive and stop at boundary " )
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if now - last_sent > 10 :
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last_sent = now
self . mav . mav . set_position_target_global_int_send (
0 ,
target_system ,
target_component ,
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
type_mask ,
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int ( loc . lat * 1.0e7 ) ,
int ( loc . lng * 1.0e7 ) ,
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0 , # alt
0 , # x-ve
0 , # y-vel
0 , # z-vel
0 , # afx
0 , # afy
0 , # afz
0 , # yaw,
0 , # yaw-rate
)
m = self . mav . recv_match ( blocking = True ,
timeout = 1 )
if m is None :
continue
t = m . get_type ( )
if t == " POSITION_TARGET_GLOBAL_INT " :
print ( " Target: ( %s ) " % str ( m ) )
elif t == " GLOBAL_POSITION_INT " :
print ( " Position: ( %s ) " % str ( m ) )
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delta = self . get_distance (
mavutil . location ( m . lat * 1e-7 , m . lon * 1e-7 , 0 , 0 ) ,
mavutil . location ( expected_stopping_point . lat ,
expected_stopping_point . lng ,
0 ,
0 ) )
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print ( " delta: %s want_delta< %f " % ( str ( delta ) , expected_distance_epsilon ) )
at_stopping_point = delta < expected_distance_epsilon
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elif t == " VFR_HUD " :
print ( " groundspeed: %f " % m . groundspeed )
if at_stopping_point :
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if m . groundspeed < 1 :
self . progress ( " Seemed to have stopped at stopping point " )
return
def assert_fence_breached ( self ) :
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m = self . assert_receive_message ( ' FENCE_STATUS ' , timeout = 10 )
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if m . breach_status != 1 :
raise NotAchievedException ( " Expected to be breached " )
def wait_fence_not_breached ( self , timeout = 5 ) :
tstart = self . get_sim_time ( )
while True :
if self . get_sim_time_cached ( ) - tstart > timeout :
raise AutoTestTimeoutException ( " Fence remains breached " )
m = self . mav . recv_match ( type = ' FENCE_STATUS ' ,
blocking = True ,
timeout = 1 )
if m is None :
self . progress ( " No FENCE_STATUS received " )
continue
self . progress ( " STATUS: %s " % str ( m ) )
if m . breach_status == 0 :
break
def test_poly_fence_noarms ( self , target_system = 1 , target_component = 1 ) :
''' various tests to ensure we can ' t arm when in breach of a polyfence '''
self . start_subtest ( " Ensure PolyFence arming checks work " )
self . clear_mission ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE ,
target_system = target_system ,
target_component = target_component )
self . delay_sim_time ( 5 ) # let breaches clear
# FIXME: should we allow this?
self . progress ( " Ensure we can arm with no poly in place " )
self . change_mode ( " GUIDED " )
self . wait_ready_to_arm ( )
self . arm_vehicle ( )
self . disarm_vehicle ( )
self . test_poly_fence_noarms_exclusion_circle ( target_system = target_system ,
target_component = target_component )
self . test_poly_fence_noarms_inclusion_circle ( target_system = target_system ,
target_component = target_component )
self . test_poly_fence_noarms_exclusion_polyfence ( target_system = target_system ,
target_component = target_component )
self . test_poly_fence_noarms_inclusion_polyfence ( target_system = target_system ,
target_component = target_component )
def test_poly_fence_noarms_exclusion_circle ( self , target_system = 1 , target_component = 1 ) :
self . start_subtest ( " Ensure not armable when within an exclusion circle " )
here = self . mav . location ( )
items = [
self . mav . mav . mission_item_int_encode (
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target_system ,
target_component ,
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0 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_CIRCLE_EXCLUSION ,
0 , # current
0 , # autocontinue
5 , # p1 - radius
0 , # p2
0 , # p3
0 , # p4
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int ( here . lat * 1e7 ) , # latitude
int ( here . lng * 1e7 ) , # longitude
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33.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
1 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_CIRCLE_EXCLUSION ,
0 , # current
0 , # autocontinue
5 , # p1 - radius
0 , # p2
0 , # p3
0 , # p4
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int ( self . offset_location_ne ( here , 100 , 100 ) . lat * 1e7 ) , # latitude
int ( here . lng * 1e7 ) , # longitude
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33.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
]
self . upload_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE ,
items )
self . delay_sim_time ( 5 ) # ArduPilot only checks for breaches @1Hz
self . drain_mav ( )
self . assert_fence_breached ( )
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try :
self . arm_motors_with_rc_input ( )
except NotAchievedException :
pass
if self . armed ( ) :
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raise NotAchievedException (
" Armed when within exclusion zone " )
self . upload_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE ,
[ ] )
self . wait_fence_not_breached ( )
def test_poly_fence_noarms_inclusion_circle ( self , target_system = 1 , target_component = 1 ) :
self . start_subtest ( " Ensure not armable when outside an inclusion circle (but within another " )
here = self . mav . location ( )
items = [
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
0 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_CIRCLE_INCLUSION ,
0 , # current
0 , # autocontinue
5 , # p1 - radius
0 , # p2
0 , # p3
0 , # p4
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int ( here . lat * 1e7 ) , # latitude
int ( here . lng * 1e7 ) , # longitude
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33.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
1 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_CIRCLE_INCLUSION ,
0 , # current
0 , # autocontinue
5 , # p1 - radius
0 , # p2
0 , # p3
0 , # p4
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int ( self . offset_location_ne ( here , 100 , 100 ) . lat * 1e7 ) , # latitude
int ( here . lng * 1e7 ) , # longitude
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33.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE ) ,
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]
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self . upload_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE ,
items )
self . delay_sim_time ( 5 ) # ArduPilot only checks for breaches @1Hz
self . drain_mav ( )
self . assert_fence_breached ( )
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try :
self . arm_motors_with_rc_input ( )
except NotAchievedException :
pass
if self . armed ( ) :
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raise NotAchievedException (
" Armed when outside an inclusion zone " )
self . upload_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE ,
[ ] )
self . wait_fence_not_breached ( )
def test_poly_fence_noarms_exclusion_polyfence ( self , target_system = 1 , target_component = 1 ) :
self . start_subtest ( " Ensure not armable when inside an exclusion polyfence (but outside another " )
here = self . mav . location ( )
self . upload_fences_from_locations (
mavutil . mavlink . MAV_CMD_NAV_FENCE_POLYGON_VERTEX_EXCLUSION ,
[
[ # east
self . offset_location_ne ( here , - 50 , 20 ) , # bl
self . offset_location_ne ( here , 50 , 20 ) , # br
self . offset_location_ne ( here , 50 , 40 ) , # tr
self . offset_location_ne ( here , - 50 , 40 ) , # tl,
] , [ # over the top of the vehicle
self . offset_location_ne ( here , - 50 , - 50 ) , # bl
self . offset_location_ne ( here , - 50 , 50 ) , # br
self . offset_location_ne ( here , 50 , 50 ) , # tr
self . offset_location_ne ( here , 50 , - 50 ) , # tl,
]
]
)
self . delay_sim_time ( 5 ) # ArduPilot only checks for breaches @1Hz
self . drain_mav ( )
self . assert_fence_breached ( )
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try :
self . arm_motors_with_rc_input ( )
except NotAchievedException :
pass
if self . armed ( ) :
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raise NotAchievedException (
" Armed when within polygon exclusion zone " )
self . upload_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE ,
[ ] )
self . wait_fence_not_breached ( )
def test_poly_fence_noarms_inclusion_polyfence ( self , target_system = 1 , target_component = 1 ) :
self . start_subtest ( " Ensure not armable when outside an inclusion polyfence (but within another " )
here = self . mav . location ( )
self . upload_fences_from_locations (
mavutil . mavlink . MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION ,
[
[ # east
self . offset_location_ne ( here , - 50 , 20 ) , # bl
self . offset_location_ne ( here , 50 , 20 ) , # br
self . offset_location_ne ( here , 50 , 40 ) , # tr
self . offset_location_ne ( here , - 50 , 40 ) , # tl,
] , [ # over the top of the vehicle
self . offset_location_ne ( here , - 50 , - 50 ) , # bl
self . offset_location_ne ( here , - 50 , 50 ) , # br
self . offset_location_ne ( here , 50 , 50 ) , # tr
self . offset_location_ne ( here , 50 , - 50 ) , # tl,
]
]
)
self . delay_sim_time ( 5 ) # ArduPilot only checks for breaches @1Hz
self . drain_mav ( )
self . assert_fence_breached ( )
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try :
self . arm_motors_with_rc_input ( )
except NotAchievedException :
pass
if self . armed ( ) :
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raise NotAchievedException (
" Armed when outside polygon inclusion zone " )
self . upload_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE ,
[ ] )
self . wait_fence_not_breached ( )
def test_fence_upload_timeouts_1 ( self , target_system = 1 , target_component = 1 ) :
autotest: slow down simulation to avoid receiving re-request of item
# avoid a timeout race condition where ArduPilot re-requests a
# fence point before we receive and respond to the first one.
# Since ArduPilot has a 1s timeout on re-requesting, This only
# requires a round-trip delay of 1/speedup seconds to trigger
# - and that has been seen in practise on Travis
AT-0417.0: Sending item with seq=0
AT-0417.2: Got (MISSION_REQUEST {target_system : 243, target_component : 250, seq : 0, mission_type : 1})
AT-0417.2: Got (MISSION_REQUEST {target_system : 243, target_component : 250, seq : 0, mission_type : 1})
AT-0417.2: Exception caught: Traceback (most recent call last):
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/common.py", line 3950, in run_one_test
test_function()
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 4216, in test_poly_fence
self.test_fence_upload_timeouts()
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 4057, in test_fence_upload_timeouts
target_component=target_component)
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 4010, in test_fence_upload_timeouts_2
self.expect_request_for_item(item)
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 3958, in expect_request_for_item
raise NotAchievedException("Expected request for seq=%u" % item.seq)
NotAchievedException: Expected request for seq=1
The "AT" timestamps there are wallclock time. Since speedup for Rover
is 8 by default, that could be as much as 1.6 seconds meaning a
re-request from ArduPilot would be legitimate.
I've added some debug, too - we now emit "Sending item with seq=1"
between those two "Got" lines. That should make the problem clearer -
we've received a re-request rather than a request for the item after the
one we've already sent.
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self . start_subtest ( " fence_upload timeouts 1 " )
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self . progress ( " Telling victim there will be one item coming " )
self . mav . mav . mission_count_send ( target_system ,
target_component ,
1 ,
mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
m = self . mav . recv_match ( type = [ ' MISSION_REQUEST ' , ' MISSION_ACK ' ] ,
blocking = True ,
timeout = 1 )
self . progress ( " Got ( %s ) " % str ( m ) )
if m is None :
raise NotAchievedException ( " Did not get ACK or mission request " )
if m . get_type ( ) == " MISSION_ACK " :
raise NotAchievedException ( " Expected MISSION_REQUEST " )
if m . seq != 0 :
raise NotAchievedException ( " Expected request for seq=0 " )
if m . target_system != self . mav . mav . srcSystem :
raise NotAchievedException ( " Incorrect target system in MISSION_REQUEST " )
if m . target_component != self . mav . mav . srcComponent :
raise NotAchievedException ( " Incorrect target component in MISSION_REQUEST " )
tstart = self . get_sim_time ( )
rerequest_count = 0
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received_text = False
received_ack = False
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while True :
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if received_ack and received_text :
break
if self . get_sim_time_cached ( ) - tstart > 10 :
raise NotAchievedException ( " Did not get expected ack and statustext " )
2019-08-05 02:53:40 -03:00
m = self . mav . recv_match ( type = [ ' MISSION_REQUEST ' , ' MISSION_ACK ' , ' STATUSTEXT ' ] ,
blocking = True ,
timeout = 1 )
self . progress ( " Got ( %s ) " % str ( m ) )
if m is None :
self . progress ( " Did not receive any messages " )
continue
if m . get_type ( ) == " MISSION_REQUEST " :
if m . seq != 0 :
raise NotAchievedException ( " Received request for invalid seq " )
if m . target_system != self . mav . mav . srcSystem :
raise NotAchievedException ( " Incorrect target system in MISSION_REQUEST " )
if m . target_component != self . mav . mav . srcComponent :
raise NotAchievedException ( " Incorrect target component in MISSION_REQUEST " )
rerequest_count + = 1
self . progress ( " Valid re-request received. " )
continue
if m . get_type ( ) == " MISSION_ACK " :
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if m . mission_type != mavutil . mavlink . MAV_MISSION_TYPE_FENCE :
raise NotAchievedException ( " Wrong mission type " )
if m . type != mavutil . mavlink . MAV_MISSION_OPERATION_CANCELLED :
raise NotAchievedException ( " Wrong result " )
received_ack = True
continue
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if m . get_type ( ) == " STATUSTEXT " :
if " upload time " in m . text :
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received_text = True
continue
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if rerequest_count < 3 :
raise NotAchievedException ( " Expected several re-requests of mission item " )
autotest: slow down simulation to avoid receiving re-request of item
# avoid a timeout race condition where ArduPilot re-requests a
# fence point before we receive and respond to the first one.
# Since ArduPilot has a 1s timeout on re-requesting, This only
# requires a round-trip delay of 1/speedup seconds to trigger
# - and that has been seen in practise on Travis
AT-0417.0: Sending item with seq=0
AT-0417.2: Got (MISSION_REQUEST {target_system : 243, target_component : 250, seq : 0, mission_type : 1})
AT-0417.2: Got (MISSION_REQUEST {target_system : 243, target_component : 250, seq : 0, mission_type : 1})
AT-0417.2: Exception caught: Traceback (most recent call last):
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/common.py", line 3950, in run_one_test
test_function()
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 4216, in test_poly_fence
self.test_fence_upload_timeouts()
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 4057, in test_fence_upload_timeouts
target_component=target_component)
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 4010, in test_fence_upload_timeouts_2
self.expect_request_for_item(item)
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 3958, in expect_request_for_item
raise NotAchievedException("Expected request for seq=%u" % item.seq)
NotAchievedException: Expected request for seq=1
The "AT" timestamps there are wallclock time. Since speedup for Rover
is 8 by default, that could be as much as 1.6 seconds meaning a
re-request from ArduPilot would be legitimate.
I've added some debug, too - we now emit "Sending item with seq=1"
between those two "Got" lines. That should make the problem clearer -
we've received a re-request rather than a request for the item after the
one we've already sent.
2020-08-08 20:49:47 -03:00
self . end_subtest ( " fence upload timeouts 1 " )
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def expect_request_for_item ( self , item ) :
m = self . mav . recv_match ( type = [ ' MISSION_REQUEST ' , ' MISSION_ACK ' ] ,
blocking = True ,
timeout = 1 )
self . progress ( " Got ( %s ) " % str ( m ) )
if m is None :
raise NotAchievedException ( " Did not get ACK or mission request " )
if m . get_type ( ) == " MISSION_ACK " :
raise NotAchievedException ( " Expected MISSION_REQUEST " )
if m . seq != item . seq :
raise NotAchievedException ( " Expected request for seq= %u " % item . seq )
if m . target_system != self . mav . mav . srcSystem :
raise NotAchievedException ( " Incorrect target system in MISSION_REQUEST " )
if m . target_component != self . mav . mav . srcComponent :
raise NotAchievedException ( " Incorrect target component in MISSION_REQUEST " )
def test_fence_upload_timeouts_2 ( self , target_system = 1 , target_component = 1 ) :
autotest: slow down simulation to avoid receiving re-request of item
# avoid a timeout race condition where ArduPilot re-requests a
# fence point before we receive and respond to the first one.
# Since ArduPilot has a 1s timeout on re-requesting, This only
# requires a round-trip delay of 1/speedup seconds to trigger
# - and that has been seen in practise on Travis
AT-0417.0: Sending item with seq=0
AT-0417.2: Got (MISSION_REQUEST {target_system : 243, target_component : 250, seq : 0, mission_type : 1})
AT-0417.2: Got (MISSION_REQUEST {target_system : 243, target_component : 250, seq : 0, mission_type : 1})
AT-0417.2: Exception caught: Traceback (most recent call last):
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/common.py", line 3950, in run_one_test
test_function()
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 4216, in test_poly_fence
self.test_fence_upload_timeouts()
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 4057, in test_fence_upload_timeouts
target_component=target_component)
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 4010, in test_fence_upload_timeouts_2
self.expect_request_for_item(item)
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 3958, in expect_request_for_item
raise NotAchievedException("Expected request for seq=%u" % item.seq)
NotAchievedException: Expected request for seq=1
The "AT" timestamps there are wallclock time. Since speedup for Rover
is 8 by default, that could be as much as 1.6 seconds meaning a
re-request from ArduPilot would be legitimate.
I've added some debug, too - we now emit "Sending item with seq=1"
between those two "Got" lines. That should make the problem clearer -
we've received a re-request rather than a request for the item after the
one we've already sent.
2020-08-08 20:49:47 -03:00
self . start_subtest ( " fence upload timeouts 2 " )
self . progress ( " Telling victim there will be two items coming " )
# avoid a timeout race condition where ArduPilot re-requests a
# fence point before we receive and respond to the first one.
# Since ArduPilot has a 1s timeout on re-requesting, This only
# requires a round-trip delay of 1/speedup seconds to trigger
# - and that has been seen in practise on Travis
old_speedup = self . get_parameter ( " SIM_SPEEDUP " )
self . set_parameter ( " SIM_SPEEDUP " , 1 )
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self . mav . mav . mission_count_send ( target_system ,
target_component ,
2 ,
mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
self . progress ( " Sending item with seq=0 " )
item = self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
0 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_CIRCLE_EXCLUSION ,
0 , # current
0 , # autocontinue
1 , # p1 radius
0 , # p2
0 , # p3
0 , # p4
2021-02-11 18:45:48 -04:00
int ( 1.1 * 1e7 ) , # latitude
int ( 1.2 * 1e7 ) , # longitude
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33.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
self . expect_request_for_item ( item )
item . pack ( self . mav . mav )
self . mav . mav . send ( item )
autotest: slow down simulation to avoid receiving re-request of item
# avoid a timeout race condition where ArduPilot re-requests a
# fence point before we receive and respond to the first one.
# Since ArduPilot has a 1s timeout on re-requesting, This only
# requires a round-trip delay of 1/speedup seconds to trigger
# - and that has been seen in practise on Travis
AT-0417.0: Sending item with seq=0
AT-0417.2: Got (MISSION_REQUEST {target_system : 243, target_component : 250, seq : 0, mission_type : 1})
AT-0417.2: Got (MISSION_REQUEST {target_system : 243, target_component : 250, seq : 0, mission_type : 1})
AT-0417.2: Exception caught: Traceback (most recent call last):
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/common.py", line 3950, in run_one_test
test_function()
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 4216, in test_poly_fence
self.test_fence_upload_timeouts()
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 4057, in test_fence_upload_timeouts
target_component=target_component)
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 4010, in test_fence_upload_timeouts_2
self.expect_request_for_item(item)
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 3958, in expect_request_for_item
raise NotAchievedException("Expected request for seq=%u" % item.seq)
NotAchievedException: Expected request for seq=1
The "AT" timestamps there are wallclock time. Since speedup for Rover
is 8 by default, that could be as much as 1.6 seconds meaning a
re-request from ArduPilot would be legitimate.
I've added some debug, too - we now emit "Sending item with seq=1"
between those two "Got" lines. That should make the problem clearer -
we've received a re-request rather than a request for the item after the
one we've already sent.
2020-08-08 20:49:47 -03:00
self . progress ( " Sending item with seq=1 " )
2019-08-05 02:53:40 -03:00
item = self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
1 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_FENCE_CIRCLE_EXCLUSION ,
0 , # current
0 , # autocontinue
1 , # p1 radius
0 , # p2
0 , # p3
0 , # p4
2021-02-11 18:45:48 -04:00
int ( 1.1 * 1e7 ) , # latitude
int ( 1.2 * 1e7 ) , # longitude
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33.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
self . expect_request_for_item ( item )
autotest: slow down simulation to avoid receiving re-request of item
# avoid a timeout race condition where ArduPilot re-requests a
# fence point before we receive and respond to the first one.
# Since ArduPilot has a 1s timeout on re-requesting, This only
# requires a round-trip delay of 1/speedup seconds to trigger
# - and that has been seen in practise on Travis
AT-0417.0: Sending item with seq=0
AT-0417.2: Got (MISSION_REQUEST {target_system : 243, target_component : 250, seq : 0, mission_type : 1})
AT-0417.2: Got (MISSION_REQUEST {target_system : 243, target_component : 250, seq : 0, mission_type : 1})
AT-0417.2: Exception caught: Traceback (most recent call last):
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/common.py", line 3950, in run_one_test
test_function()
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 4216, in test_poly_fence
self.test_fence_upload_timeouts()
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 4057, in test_fence_upload_timeouts
target_component=target_component)
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 4010, in test_fence_upload_timeouts_2
self.expect_request_for_item(item)
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 3958, in expect_request_for_item
raise NotAchievedException("Expected request for seq=%u" % item.seq)
NotAchievedException: Expected request for seq=1
The "AT" timestamps there are wallclock time. Since speedup for Rover
is 8 by default, that could be as much as 1.6 seconds meaning a
re-request from ArduPilot would be legitimate.
I've added some debug, too - we now emit "Sending item with seq=1"
between those two "Got" lines. That should make the problem clearer -
we've received a re-request rather than a request for the item after the
one we've already sent.
2020-08-08 20:49:47 -03:00
self . set_parameter ( " SIM_SPEEDUP " , old_speedup )
2019-08-05 02:53:40 -03:00
self . progress ( " Now waiting for a timeout " )
tstart = self . get_sim_time ( )
rerequest_count = 0
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received_text = False
received_ack = False
2019-08-05 02:53:40 -03:00
while True :
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if received_ack and received_text :
break
if self . get_sim_time_cached ( ) - tstart > 10 :
raise NotAchievedException ( " Did not get expected ack and statustext " )
2019-08-05 02:53:40 -03:00
m = self . mav . recv_match ( type = [ ' MISSION_REQUEST ' , ' MISSION_ACK ' , ' STATUSTEXT ' ] ,
blocking = True ,
timeout = 0.1 )
self . progress ( " Got ( %s ) " % str ( m ) )
if m is None :
self . progress ( " Did not receive any messages " )
continue
if m . get_type ( ) == " MISSION_REQUEST " :
if m . seq != 1 :
raise NotAchievedException ( " Received request for invalid seq " )
if m . target_system != self . mav . mav . srcSystem :
raise NotAchievedException ( " Incorrect target system in MISSION_REQUEST " )
if m . target_component != self . mav . mav . srcComponent :
raise NotAchievedException ( " Incorrect target component in MISSION_REQUEST " )
rerequest_count + = 1
self . progress ( " Valid re-request received. " )
continue
if m . get_type ( ) == " MISSION_ACK " :
2020-05-03 22:04:52 -03:00
if m . mission_type != mavutil . mavlink . MAV_MISSION_TYPE_FENCE :
raise NotAchievedException ( " Wrong mission type " )
if m . type != mavutil . mavlink . MAV_MISSION_OPERATION_CANCELLED :
raise NotAchievedException ( " Wrong result " )
received_ack = True
continue
2019-08-05 02:53:40 -03:00
if m . get_type ( ) == " STATUSTEXT " :
if " upload time " in m . text :
2020-05-03 22:04:52 -03:00
received_text = True
continue
2019-08-05 02:53:40 -03:00
if rerequest_count < 3 :
raise NotAchievedException ( " Expected several re-requests of mission item " )
autotest: slow down simulation to avoid receiving re-request of item
# avoid a timeout race condition where ArduPilot re-requests a
# fence point before we receive and respond to the first one.
# Since ArduPilot has a 1s timeout on re-requesting, This only
# requires a round-trip delay of 1/speedup seconds to trigger
# - and that has been seen in practise on Travis
AT-0417.0: Sending item with seq=0
AT-0417.2: Got (MISSION_REQUEST {target_system : 243, target_component : 250, seq : 0, mission_type : 1})
AT-0417.2: Got (MISSION_REQUEST {target_system : 243, target_component : 250, seq : 0, mission_type : 1})
AT-0417.2: Exception caught: Traceback (most recent call last):
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/common.py", line 3950, in run_one_test
test_function()
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 4216, in test_poly_fence
self.test_fence_upload_timeouts()
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 4057, in test_fence_upload_timeouts
target_component=target_component)
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 4010, in test_fence_upload_timeouts_2
self.expect_request_for_item(item)
File "/home/travis/build/ArduPilot/ardupilot/Tools/autotest/rover.py", line 3958, in expect_request_for_item
raise NotAchievedException("Expected request for seq=%u" % item.seq)
NotAchievedException: Expected request for seq=1
The "AT" timestamps there are wallclock time. Since speedup for Rover
is 8 by default, that could be as much as 1.6 seconds meaning a
re-request from ArduPilot would be legitimate.
I've added some debug, too - we now emit "Sending item with seq=1"
between those two "Got" lines. That should make the problem clearer -
we've received a re-request rather than a request for the item after the
one we've already sent.
2020-08-08 20:49:47 -03:00
self . end_subtest ( " fence upload timeouts 2 " )
2019-08-05 02:53:40 -03:00
def test_fence_upload_timeouts ( self , target_system = 1 , target_component = 1 ) :
self . test_fence_upload_timeouts_1 ( target_system = target_system ,
target_component = target_component )
self . test_fence_upload_timeouts_2 ( target_system = target_system ,
target_component = target_component )
def test_poly_fence_compatability_ordering ( self , target_system = 1 , target_component = 1 ) :
self . clear_mission ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE ,
target_system = target_system ,
target_component = target_component )
here = self . mav . location ( )
self . progress ( " try uploading return point last " )
self . roundtrip_fence_using_fencepoint_protocol ( [
self . offset_location_ne ( here , 0 , 0 ) , # bl // return point
self . offset_location_ne ( here , - 50 , 20 ) , # bl
self . offset_location_ne ( here , 50 , 20 ) , # br
self . offset_location_ne ( here , 50 , 40 ) , # tr
self . offset_location_ne ( here , - 50 , 40 ) , # tl,
self . offset_location_ne ( here , - 50 , 20 ) , # closing point
] , ordering = [ 1 , 2 , 3 , 4 , 5 , 0 ] )
self . clear_mission ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE ,
target_system = target_system ,
target_component = target_component )
self . progress ( " try uploading return point in middle " )
self . roundtrip_fence_using_fencepoint_protocol ( [
self . offset_location_ne ( here , 0 , 0 ) , # bl // return point
self . offset_location_ne ( here , - 50 , 20 ) , # bl
self . offset_location_ne ( here , 50 , 20 ) , # br
self . offset_location_ne ( here , 50 , 40 ) , # tr
self . offset_location_ne ( here , - 50 , 40 ) , # tl,
self . offset_location_ne ( here , - 50 , 20 ) , # closing point
] , ordering = [ 1 , 2 , 3 , 0 , 4 , 5 ] )
self . clear_mission ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE ,
target_system = target_system ,
target_component = target_component )
self . progress ( " try closing point in middle " )
self . roundtrip_fence_using_fencepoint_protocol ( [
self . offset_location_ne ( here , 0 , 0 ) , # bl // return point
self . offset_location_ne ( here , - 50 , 20 ) , # bl
self . offset_location_ne ( here , 50 , 20 ) , # br
self . offset_location_ne ( here , 50 , 40 ) , # tr
self . offset_location_ne ( here , - 50 , 40 ) , # tl,
self . offset_location_ne ( here , - 50 , 20 ) , # closing point
] , ordering = [ 0 , 1 , 2 , 5 , 3 , 4 ] )
self . clear_mission ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE ,
target_system = target_system ,
target_component = target_component )
# this is expected to fail as we don't return the closing
# point correctly until the first is uploaded
2021-11-30 00:14:17 -04:00
# self.progress("try closing point first")
# failed = False
# try:
# self.roundtrip_fence_using_fencepoint_protocol([
# self.offset_location_ne(here, 0, 0), # bl // return point
# self.offset_location_ne(here, -50, 20), # bl
# self.offset_location_ne(here, 50, 20), # br
# self.offset_location_ne(here, 50, 40), # tr
# self.offset_location_ne(here, -50, 40), # tl,
# self.offset_location_ne(here, -50, 20), # closing point
# ], ordering=[5, 0, 1, 2, 3, 4])
# except NotAchievedException as e:
# failed = "got=0.000000 want=" in str(e)
# if not failed:
# raise NotAchievedException("Expected failure, did not get it")
# self.clear_mission(mavutil.mavlink.MAV_MISSION_TYPE_FENCE,
# target_system=target_system,
# target_component=target_component)
2019-08-05 02:53:40 -03:00
self . progress ( " try (almost) reverse order " )
self . roundtrip_fence_using_fencepoint_protocol ( [
self . offset_location_ne ( here , 0 , 0 ) , # bl // return point
self . offset_location_ne ( here , - 50 , 20 ) , # bl
self . offset_location_ne ( here , 50 , 20 ) , # br
self . offset_location_ne ( here , 50 , 40 ) , # tr
self . offset_location_ne ( here , - 50 , 40 ) , # tl,
self . offset_location_ne ( here , - 50 , 20 ) , # closing point
] , ordering = [ 4 , 3 , 2 , 1 , 0 , 5 ] )
self . clear_mission ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE ,
target_system = target_system ,
target_component = target_component )
2021-11-29 21:55:55 -04:00
def test_poly_fence_big_then_small ( self , target_system = 1 , target_component = 1 ) :
here = self . mav . location ( )
self . roundtrip_fence_using_fencepoint_protocol ( [
self . offset_location_ne ( here , 0 , 0 ) , # bl // return point
self . offset_location_ne ( here , - 50 , 20 ) , # bl
self . offset_location_ne ( here , 50 , 20 ) , # br
self . offset_location_ne ( here , 50 , 40 ) , # tr
self . offset_location_ne ( here , - 50 , 40 ) , # tl,
self . offset_location_ne ( here , - 50 , 20 ) , # closing point
] , ordering = [ 1 , 2 , 3 , 4 , 5 , 0 ] )
downloaded_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
if len ( downloaded_items ) != 5 :
# that's one return point and then bl, br, tr, then tl
raise NotAchievedException ( " Bad number of downloaded items in original download " )
self . roundtrip_fence_using_fencepoint_protocol ( [
self . offset_location_ne ( here , 0 , 0 ) , # bl // return point
self . offset_location_ne ( here , - 50 , 20 ) , # bl
self . offset_location_ne ( here , 50 , 40 ) , # tr
self . offset_location_ne ( here , - 50 , 40 ) , # tl,
self . offset_location_ne ( here , - 50 , 20 ) , # closing point
] , ordering = [ 1 , 2 , 3 , 4 , 0 ] )
downloaded_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
want_count = 4
if len ( downloaded_items ) != want_count :
# that's one return point and then bl, tr, then tl
raise NotAchievedException ( " Bad number of downloaded items in second download got= %u wanted= %u " %
( len ( downloaded_items ) , want_count ) )
downloaded_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
if len ( downloaded_items ) != 4 :
# that's one return point and then bl, tr, then tl
raise NotAchievedException ( " Bad number of downloaded items in second download (second time) got= %u want= %u " %
( len ( downloaded_items ) , want_count ) )
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def test_poly_fence_compatability ( self , target_system = 1 , target_component = 1 ) :
self . clear_mission ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE ,
target_system = target_system ,
target_component = target_component )
self . test_poly_fence_compatability_ordering ( target_system = target_system , target_component = target_component )
here = self . mav . location ( )
self . progress ( " Playing with changing point count " )
self . roundtrip_fence_using_fencepoint_protocol (
[
self . offset_location_ne ( here , 0 , 0 ) , # bl // return point
self . offset_location_ne ( here , - 50 , 20 ) , # bl
self . offset_location_ne ( here , 50 , 20 ) , # br
self . offset_location_ne ( here , 50 , 40 ) , # tr
self . offset_location_ne ( here , - 50 , 40 ) , # tl,
self . offset_location_ne ( here , - 50 , 20 ) , # closing point
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] )
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self . roundtrip_fence_using_fencepoint_protocol (
[
self . offset_location_ne ( here , 0 , 0 ) , # bl // return point
self . offset_location_ne ( here , - 50 , 20 ) , # bl
self . offset_location_ne ( here , 50 , 20 ) , # br
self . offset_location_ne ( here , - 50 , 40 ) , # tl,
self . offset_location_ne ( here , - 50 , 20 ) , # closing point
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] )
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self . roundtrip_fence_using_fencepoint_protocol (
[
self . offset_location_ne ( here , 0 , 0 ) , # bl // return point
self . offset_location_ne ( here , - 50 , 20 ) , # bl
self . offset_location_ne ( here , 50 , 20 ) , # br
self . offset_location_ne ( here , 50 , 40 ) , # tr
self . offset_location_ne ( here , - 50 , 40 ) , # tl,
self . offset_location_ne ( here , - 50 , 20 ) , # closing point
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] )
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def test_poly_fence_reboot_survivability ( self ) :
here = self . mav . location ( )
self . upload_fences_from_locations (
mavutil . mavlink . MAV_CMD_NAV_FENCE_POLYGON_VERTEX_EXCLUSION ,
[
[ # east
self . offset_location_ne ( here , - 50 , 20 ) , # bl
self . offset_location_ne ( here , 50 , 20 ) , # br
self . offset_location_ne ( here , 50 , 40 ) , # tr
self . offset_location_ne ( here , - 50 , 40 ) , # tl,
] , [ # over the top of the vehicle
self . offset_location_ne ( here , - 50 , - 50 ) , # bl
self . offset_location_ne ( here , - 50 , 50 ) , # br
self . offset_location_ne ( here , 50 , 50 ) , # tr
self . offset_location_ne ( here , 50 , - 50 ) , # tl,
]
]
)
self . reboot_sitl ( )
downloaded_items = self . download_using_mission_protocol ( mavutil . mavlink . MAV_MISSION_TYPE_FENCE )
downloaded_len = len ( downloaded_items )
if downloaded_len != 8 :
raise NotAchievedException ( " Items did not survive reboot (want= %u got= %u ) " %
( 8 , downloaded_len ) )
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def PolyFence ( self ) :
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''' test fence-related functions '''
target_system = 1
target_component = 1
self . change_mode ( " LOITER " )
self . wait_ready_to_arm ( )
here = self . mav . location ( )
self . progress ( " here: %f %f " % ( here . lat , here . lng ) )
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self . set_parameters ( {
" FENCE_ENABLE " : 1 ,
" AVOID_ENABLE " : 0 ,
} )
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# self.set_parameter("SIM_SPEEDUP", 1)
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self . test_poly_fence_big_then_small ( )
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self . test_poly_fence_compatability ( )
self . test_fence_upload_timeouts ( )
self . test_poly_fence_noarms ( target_system = target_system , target_component = target_component )
self . arm_vehicle ( )
self . test_poly_fence_inclusion ( here , target_system = target_system , target_component = target_component )
self . test_poly_fence_exclusion ( here , target_system = target_system , target_component = target_component )
self . disarm_vehicle ( )
self . test_poly_fence_reboot_survivability ( )
def test_poly_fence_inclusion_overlapping_inclusion_circles ( self , here , target_system = 1 , target_component = 1 ) :
self . start_subtest ( " Overlapping circular inclusion " )
self . upload_fences_from_locations (
mavutil . mavlink . MAV_CMD_NAV_FENCE_CIRCLE_INCLUSION ,
[
{
" radius " : 30 ,
" loc " : self . offset_location_ne ( here , - 20 , 0 ) ,
} ,
{
" radius " : 30 ,
" loc " : self . offset_location_ne ( here , 20 , 0 ) ,
} ,
] )
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if self . mavproxy is not None :
# handy for getting pretty pictures
self . mavproxy . send ( " fence list \n " )
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self . delay_sim_time ( 5 )
self . progress ( " Drive outside top circle " )
fence_middle = self . offset_location_ne ( here , - 150 , 0 )
self . drive_somewhere_breach_boundary_and_rtl (
fence_middle ,
target_system = target_system ,
target_component = target_component )
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self . delay_sim_time ( 5 )
self . progress ( " Drive outside bottom circle " )
fence_middle = self . offset_location_ne ( here , 150 , 0 )
self . drive_somewhere_breach_boundary_and_rtl (
fence_middle ,
target_system = target_system ,
target_component = target_component )
def test_poly_fence_inclusion ( self , here , target_system = 1 , target_component = 1 ) :
self . progress ( " Circle and Polygon inclusion " )
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self . test_poly_fence_inclusion_overlapping_inclusion_circles (
here ,
target_system = target_system ,
target_component = target_component )
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self . upload_fences_from_locations (
mavutil . mavlink . MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION ,
[
[
self . offset_location_ne ( here , - 40 , - 20 ) , # tl
self . offset_location_ne ( here , 50 , - 20 ) , # tr
self . offset_location_ne ( here , 50 , 20 ) , # br
self . offset_location_ne ( here , - 40 , 20 ) , # bl,
] ,
{
" radius " : 30 ,
" loc " : self . offset_location_ne ( here , - 20 , 0 ) ,
} ,
] )
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self . delay_sim_time ( 5 )
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if self . mavproxy is not None :
self . mavproxy . send ( " fence list \n " )
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self . progress ( " Drive outside polygon " )
fence_middle = self . offset_location_ne ( here , - 150 , 0 )
self . drive_somewhere_breach_boundary_and_rtl (
fence_middle ,
target_system = target_system ,
target_component = target_component )
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self . delay_sim_time ( 5 )
self . progress ( " Drive outside circle " )
fence_middle = self . offset_location_ne ( here , 150 , 0 )
self . drive_somewhere_breach_boundary_and_rtl (
fence_middle ,
target_system = target_system ,
target_component = target_component )
self . upload_fences_from_locations (
mavutil . mavlink . MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION ,
[
[
self . offset_location_ne ( here , - 20 , - 25 ) , # tl
self . offset_location_ne ( here , 50 , - 25 ) , # tr
self . offset_location_ne ( here , 50 , 15 ) , # br
self . offset_location_ne ( here , - 20 , 15 ) , # bl,
] ,
[
self . offset_location_ne ( here , 20 , - 20 ) , # tl
self . offset_location_ne ( here , - 50 , - 20 ) , # tr
self . offset_location_ne ( here , - 50 , 20 ) , # br
self . offset_location_ne ( here , 20 , 20 ) , # bl,
] ,
] )
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self . delay_sim_time ( 5 )
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if self . mavproxy is not None :
self . mavproxy . send ( " fence list \n " )
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self . progress ( " Drive outside top polygon " )
fence_middle = self . offset_location_ne ( here , - 150 , 0 )
self . drive_somewhere_breach_boundary_and_rtl (
fence_middle ,
target_system = target_system ,
target_component = target_component )
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self . delay_sim_time ( 5 )
self . progress ( " Drive outside bottom polygon " )
fence_middle = self . offset_location_ne ( here , 150 , 0 )
self . drive_somewhere_breach_boundary_and_rtl (
fence_middle ,
target_system = target_system ,
target_component = target_component )
def test_poly_fence_exclusion ( self , here , target_system = 1 , target_component = 1 ) :
self . upload_fences_from_locations (
mavutil . mavlink . MAV_CMD_NAV_FENCE_POLYGON_VERTEX_EXCLUSION ,
[
[ # east
self . offset_location_ne ( here , - 50 , 20 ) , # bl
self . offset_location_ne ( here , 50 , 20 ) , # br
self . offset_location_ne ( here , 50 , 40 ) , # tr
self . offset_location_ne ( here , - 50 , 40 ) , # tl,
] , [ # west
self . offset_location_ne ( here , - 50 , - 20 ) , # tl
self . offset_location_ne ( here , 50 , - 20 ) , # tr
self . offset_location_ne ( here , 50 , - 40 ) , # br
self . offset_location_ne ( here , - 50 , - 40 ) , # bl,
] , {
" radius " : 30 ,
" loc " : self . offset_location_ne ( here , - 60 , 0 ) ,
} ,
] )
self . delay_sim_time ( 5 )
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if self . mavproxy is not None :
self . mavproxy . send ( " fence list \n " )
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self . progress ( " Breach eastern boundary " )
fence_middle = self . offset_location_ne ( here , 0 , 30 )
self . drive_somewhere_breach_boundary_and_rtl ( fence_middle ,
target_system = target_system ,
target_component = target_component )
self . progress ( " delaying - hack to work around manual recovery bug " )
self . delay_sim_time ( 5 )
self . progress ( " Breach western boundary " )
fence_middle = self . offset_location_ne ( here , 0 , - 30 )
self . drive_somewhere_breach_boundary_and_rtl ( fence_middle ,
target_system = target_system ,
target_component = target_component )
self . progress ( " delaying - hack to work around manual recovery bug " )
self . delay_sim_time ( 5 )
self . progress ( " Breach southern circle " )
fence_middle = self . offset_location_ne ( here , - 150 , 0 )
self . drive_somewhere_breach_boundary_and_rtl ( fence_middle ,
target_system = target_system ,
target_component = target_component )
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def SmartRTL ( self ) :
''' Test SmartRTL '''
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self . change_mode ( " STEERING " )
self . wait_ready_to_arm ( )
self . arm_vehicle ( )
# drive two sides of a square, make sure we don't go back through
# the middle of the square
self . progress ( " Driving North " )
self . reach_heading_manual ( 0 )
self . set_rc ( 3 , 2000 )
self . delay_sim_time ( 5 )
self . set_rc ( 3 , 1000 )
self . wait_groundspeed ( 0 , 1 )
loc = self . mav . location ( )
self . progress ( " Driving East " )
self . set_rc ( 3 , 2000 )
self . reach_heading_manual ( 90 )
self . set_rc ( 3 , 2000 )
self . delay_sim_time ( 5 )
self . set_rc ( 3 , 1000 )
self . progress ( " Entering smartrtl " )
self . change_mode ( " SMART_RTL " )
self . progress ( " Ensure we go via intermediate point " )
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self . wait_distance_to_location ( loc , 0 , 5 , timeout = 60 )
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self . progress ( " Ensure we get home " )
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self . wait_distance_to_home ( 3 , 7 , timeout = 30 )
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self . disarm_vehicle ( )
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def MotorTest ( self ) :
''' Motor Test triggered via mavlink '''
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magic_throttle_value = 1812
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self . wait_ready_to_arm ( )
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self . run_cmd (
mavutil . mavlink . MAV_CMD_DO_MOTOR_TEST ,
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p1 = 1 , # motor instance
p2 = mavutil . mavlink . MOTOR_TEST_THROTTLE_PWM , # throttle type
p3 = magic_throttle_value , # throttle
p4 = 5 , # timeout
p5 = 1 , # motor count
p6 = 0 , # test order (see MOTOR_TEST_ORDER)
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)
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self . wait_armed ( )
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self . progress ( " Waiting for magic throttle value " )
self . wait_servo_channel_value ( 3 , magic_throttle_value )
self . wait_servo_channel_value ( 3 , self . get_parameter ( " RC3_TRIM " , 5 ) , timeout = 10 )
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self . wait_disarmed ( )
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def test_poly_fence_object_avoidance_guided ( self , target_system = 1 , target_component = 1 ) :
if not self . mavproxy_can_do_mision_item_protocols ( ) :
return
self . test_poly_fence_object_avoidance_guided_pathfinding (
target_system = target_system ,
target_component = target_component )
return
# twosquares is currently disabled because of the requirement to have an inclusion fence (which it doesn't have ATM)
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# self.test_poly_fence_object_avoidance_guided_two_squares(
# target_system=target_system,
# target_component=target_component)
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def test_poly_fence_object_avoidance_auto ( self , target_system = 1 , target_component = 1 ) :
self . load_fence ( " rover-path-planning-fence.txt " )
self . load_mission ( " rover-path-planning-mission.txt " )
self . context_push ( )
ex = None
try :
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self . set_parameters ( {
" AVOID_ENABLE " : 3 ,
" OA_TYPE " : 2 ,
" FENCE_MARGIN " : 0 , # FIXME: https://github.com/ArduPilot/ardupilot/issues/11601
} )
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self . reboot_sitl ( )
self . change_mode ( ' AUTO ' )
self . wait_ready_to_arm ( )
self . arm_vehicle ( )
self . set_parameter ( " FENCE_ENABLE " , 1 )
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if self . mavproxy is not None :
self . mavproxy . send ( " fence list \n " )
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# target_loc is copied from the mission file
target_loc = mavutil . location ( 40.073799 , - 105.229156 )
self . wait_location ( target_loc , timeout = 300 )
# mission has RTL as last item
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self . wait_distance_to_home ( 3 , 7 , timeout = 300 )
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self . disarm_vehicle ( )
except Exception as e :
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self . print_exception_caught ( e )
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ex = e
self . context_pop ( )
self . reboot_sitl ( )
if ex is not None :
raise ex
def send_guided_mission_item ( self , loc , target_system = 1 , target_component = 1 ) :
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self . mav . mav . mission_item_send (
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target_system ,
target_component ,
0 ,
mavutil . mavlink . MAV_FRAME_GLOBAL_RELATIVE_ALT ,
mavutil . mavlink . MAV_CMD_NAV_WAYPOINT ,
2 , # current
0 , # autocontinue
0 , # param1
0 , # param2
0 , # param3
0 , # param4
loc . lat , # x
loc . lng , # y
0 # z
)
def test_poly_fence_object_avoidance_guided_pathfinding ( self , target_system = 1 , target_component = 1 ) :
self . load_fence ( " rover-path-planning-fence.txt " )
self . context_push ( )
ex = None
try :
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self . set_parameters ( {
" AVOID_ENABLE " : 3 ,
" OA_TYPE " : 2 ,
" FENCE_MARGIN " : 0 , # FIXME: https://github.com/ArduPilot/ardupilot/issues/11601
} )
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self . reboot_sitl ( )
self . change_mode ( ' GUIDED ' )
self . wait_ready_to_arm ( )
self . arm_vehicle ( )
self . set_parameter ( " FENCE_ENABLE " , 1 )
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if self . mavproxy is not None :
self . mavproxy . send ( " fence list \n " )
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target_loc = mavutil . location ( 40.073800 , - 105.229172 )
self . send_guided_mission_item ( target_loc ,
target_system = target_system ,
target_component = target_component )
self . wait_location ( target_loc , timeout = 300 )
self . do_RTL ( timeout = 300 )
self . disarm_vehicle ( )
except Exception as e :
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self . print_exception_caught ( e )
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ex = e
self . context_pop ( )
self . reboot_sitl ( )
if ex is not None :
raise ex
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def WheelEncoders ( self ) :
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''' make sure wheel encoders are generally working '''
ex = None
try :
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self . set_parameters ( {
" WENC_TYPE " : 10 ,
" EK3_ENABLE " : 1 ,
" AHRS_EKF_TYPE " : 3 ,
} )
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self . reboot_sitl ( )
self . change_mode ( " LOITER " )
self . wait_ready_to_arm ( )
self . change_mode ( " MANUAL " )
self . arm_vehicle ( )
self . set_rc ( 3 , 1600 )
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m = self . assert_receive_message ( ' WHEEL_DISTANCE ' , timeout = 5 )
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tstart = self . get_sim_time ( )
while True :
if self . get_sim_time_cached ( ) - tstart > 10 :
break
dist_home = self . distance_to_home ( use_cached_home = True )
m = self . mav . messages . get ( " WHEEL_DISTANCE " )
delta = abs ( m . distance [ 0 ] - dist_home )
self . progress ( " dist-home= %f wheel-distance= %f delta= %f " %
( dist_home , m . distance [ 0 ] , delta ) )
if delta > 5 :
raise NotAchievedException ( " wheel distance incorrect " )
self . disarm_vehicle ( )
except Exception as e :
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self . print_exception_caught ( e )
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self . disarm_vehicle ( )
ex = e
self . reboot_sitl ( )
if ex is not None :
raise ex
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def test_poly_fence_object_avoidance_guided_two_squares ( self , target_system = 1 , target_component = 1 ) :
self . start_subtest ( " Ensure we can steer around obstacles in guided mode " )
here = self . mav . location ( )
self . upload_fences_from_locations (
mavutil . mavlink . MAV_CMD_NAV_FENCE_POLYGON_VERTEX_EXCLUSION ,
[
[ # east
self . offset_location_ne ( here , - 50 , 20 ) , # bl
self . offset_location_ne ( here , 50 , 10 ) , # tl
self . offset_location_ne ( here , 50 , 30 ) , # tr
self . offset_location_ne ( here , - 50 , 40 ) , # br,
] ,
[ # further east (and south
self . offset_location_ne ( here , - 60 , 60 ) , # bl
self . offset_location_ne ( here , 40 , 70 ) , # tl
self . offset_location_ne ( here , 40 , 90 ) , # tr
self . offset_location_ne ( here , - 60 , 80 ) , # br,
] ,
] )
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if self . mavproxy is not None :
self . mavproxy . send ( " fence list \n " )
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self . context_push ( )
ex = None
try :
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self . set_parameters ( {
" AVOID_ENABLE " : 3 ,
" OA_TYPE " : 2 ,
} )
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self . reboot_sitl ( )
self . change_mode ( ' GUIDED ' )
self . wait_ready_to_arm ( )
self . set_parameter ( " FENCE_ENABLE " , 1 )
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if self . mavproxy is not None :
self . mavproxy . send ( " fence list \n " )
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self . arm_vehicle ( )
self . change_mode ( " GUIDED " )
target = mavutil . location ( 40.071382 , - 105.228340 , 0 , 0 )
self . send_guided_mission_item ( target ,
target_system = target_system ,
target_component = target_component )
self . wait_location ( target , timeout = 300 )
self . do_RTL ( )
self . disarm_vehicle ( )
except Exception as e :
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self . print_exception_caught ( e )
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ex = e
self . context_pop ( )
self . reboot_sitl ( )
if ex is not None :
raise ex
def test_poly_fence_avoidance_dont_breach_exclusion ( self , target_system = 1 , target_component = 1 ) :
self . start_subtest ( " Ensure we stop before breaching an exclusion fence " )
here = self . mav . location ( )
self . upload_fences_from_locations (
mavutil . mavlink . MAV_CMD_NAV_FENCE_POLYGON_VERTEX_EXCLUSION ,
[
[ # east
self . offset_location_ne ( here , - 50 , 20 ) , # bl
self . offset_location_ne ( here , 50 , 20 ) , # br
self . offset_location_ne ( here , 50 , 40 ) , # tr
self . offset_location_ne ( here , - 50 , 40 ) , # tl,
] , [ # west
self . offset_location_ne ( here , - 50 , - 20 ) , # tl
self . offset_location_ne ( here , 50 , - 20 ) , # tr
self . offset_location_ne ( here , 50 , - 40 ) , # br
self . offset_location_ne ( here , - 50 , - 40 ) , # bl,
] , {
" radius " : 30 ,
" loc " : self . offset_location_ne ( here , - 60 , 0 ) ,
} ,
] )
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if self . mavproxy is not None :
self . mavproxy . send ( " fence list \n " )
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self . set_parameters ( {
" FENCE_ENABLE " : 1 ,
" AVOID_ENABLE " : 3 ,
} )
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fence_middle = self . offset_location_ne ( here , 0 , 30 )
# FIXME: this might be nowhere near "here"!
expected_stopping_point = mavutil . location ( 40.0713376 , - 105.2295738 , 0 , 0 )
self . drive_somewhere_stop_at_boundary (
fence_middle ,
expected_stopping_point ,
target_system = target_system ,
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target_component = target_component ,
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expected_distance_epsilon = 3 )
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self . set_parameter ( " AVOID_ENABLE " , 0 )
self . do_RTL ( )
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def do_RTL ( self , distance_min = 3 , distance_max = 7 , timeout = 60 ) :
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self . change_mode ( " RTL " )
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self . wait_distance_to_home ( distance_min , distance_max , timeout = timeout )
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def PolyFenceAvoidance ( self , target_system = 1 , target_component = 1 ) :
''' PolyFence avoidance tests '''
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self . change_mode ( " LOITER " )
self . wait_ready_to_arm ( )
self . arm_vehicle ( )
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self . change_mode ( " MANUAL " )
self . reach_heading_manual ( 180 , turn_right = False )
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self . change_mode ( " GUIDED " )
self . test_poly_fence_avoidance_dont_breach_exclusion ( target_system = target_system , target_component = target_component )
self . disarm_vehicle ( )
def test_poly_fence_object_avoidance_guided_bendy_ruler ( self , target_system = 1 , target_component = 1 ) :
if not self . mavproxy_can_do_mision_item_protocols ( ) :
return
self . load_fence ( " rover-path-bendyruler-fence.txt " )
self . context_push ( )
ex = None
try :
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self . set_parameters ( {
" AVOID_ENABLE " : 3 ,
" OA_TYPE " : 1 ,
" OA_LOOKAHEAD " : 50 ,
} )
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self . reboot_sitl ( )
self . change_mode ( ' GUIDED ' )
self . wait_ready_to_arm ( )
self . arm_vehicle ( )
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self . set_parameters ( {
" FENCE_ENABLE " : 1 ,
" WP_RADIUS " : 5 ,
} )
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if self . mavproxy is not None :
self . mavproxy . send ( " fence list \n " )
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target_loc = mavutil . location ( 40.071060 , - 105.227734 , 0 , 0 )
self . send_guided_mission_item ( target_loc ,
target_system = target_system ,
target_component = target_component )
# FIXME: we don't get within WP_RADIUS of our target?!
self . wait_location ( target_loc , timeout = 300 , accuracy = 15 )
self . do_RTL ( timeout = 300 )
self . disarm_vehicle ( )
except Exception as e :
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self . print_exception_caught ( e )
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ex = e
self . context_pop ( )
self . disarm_vehicle ( )
self . reboot_sitl ( )
if ex is not None :
raise ex
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def PolyFenceObjectAvoidanceBendyRulerEasier ( self , target_system = 1 , target_component = 1 ) :
''' PolyFence object avoidance tests - easier bendy ruler test '''
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if not self . mavproxy_can_do_mision_item_protocols ( ) :
return
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self . test_poly_fence_object_avoidance_auto_bendy_ruler_easier (
target_system = target_system , target_component = target_component )
self . test_poly_fence_object_avoidance_guided_bendy_ruler_easier (
target_system = target_system , target_component = target_component )
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def test_poly_fence_object_avoidance_guided_bendy_ruler_easier ( self , target_system = 1 , target_component = 1 ) :
''' finish-line issue means we can ' t complete the harder one. This
test can go away once we ' ve nailed that one. The only
difference here is the target point .
'''
if not self . mavproxy_can_do_mision_item_protocols ( ) :
return
self . load_fence ( " rover-path-bendyruler-fence.txt " )
self . context_push ( )
ex = None
try :
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self . set_parameters ( {
" AVOID_ENABLE " : 3 ,
" OA_TYPE " : 1 ,
" OA_LOOKAHEAD " : 50 ,
} )
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self . reboot_sitl ( )
self . change_mode ( ' GUIDED ' )
self . wait_ready_to_arm ( )
self . arm_vehicle ( )
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self . set_parameters ( {
" FENCE_ENABLE " : 1 ,
" WP_RADIUS " : 5 ,
} )
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if self . mavproxy is not None :
self . mavproxy . send ( " fence list \n " )
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target_loc = mavutil . location ( 40.071260 , - 105.227000 , 0 , 0 )
self . send_guided_mission_item ( target_loc ,
target_system = target_system ,
target_component = target_component )
# FIXME: we don't get within WP_RADIUS of our target?!
self . wait_location ( target_loc , timeout = 300 , accuracy = 15 )
self . do_RTL ( timeout = 300 )
self . disarm_vehicle ( )
except Exception as e :
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self . print_exception_caught ( e )
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ex = e
self . context_pop ( )
self . disarm_vehicle ( )
self . reboot_sitl ( )
if ex is not None :
raise ex
def test_poly_fence_object_avoidance_auto_bendy_ruler_easier ( self , target_system = 1 , target_component = 1 ) :
''' finish-line issue means we can ' t complete the harder one. This
test can go away once we ' ve nailed that one. The only
difference here is the target point .
'''
if not self . mavproxy_can_do_mision_item_protocols ( ) :
return
self . load_fence ( " rover-path-bendyruler-fence.txt " )
self . load_mission ( " rover-path-bendyruler-mission-easier.txt " )
self . context_push ( )
ex = None
try :
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self . set_parameters ( {
" AVOID_ENABLE " : 3 ,
" OA_TYPE " : 1 ,
" OA_LOOKAHEAD " : 50 ,
} )
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self . reboot_sitl ( )
self . change_mode ( ' AUTO ' )
self . wait_ready_to_arm ( )
self . arm_vehicle ( )
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self . set_parameters ( {
" FENCE_ENABLE " : 1 ,
" WP_RADIUS " : 5 ,
} )
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if self . mavproxy is not None :
self . mavproxy . send ( " fence list \n " )
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target_loc = mavutil . location ( 40.071260 , - 105.227000 , 0 , 0 )
# target_loc is copied from the mission file
self . wait_location ( target_loc , timeout = 300 )
# mission has RTL as last item
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self . wait_distance_to_home ( 3 , 7 , timeout = 300 )
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self . disarm_vehicle ( )
except Exception as e :
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self . print_exception_caught ( e )
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ex = e
self . context_pop ( )
self . disarm_vehicle ( )
self . reboot_sitl ( )
if ex is not None :
raise ex
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def PolyFenceObjectAvoidance ( self , target_system = 1 , target_component = 1 ) :
''' PolyFence object avoidance tests '''
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if not self . mavproxy_can_do_mision_item_protocols ( ) :
return
self . test_poly_fence_object_avoidance_auto (
target_system = target_system ,
target_component = target_component )
self . test_poly_fence_object_avoidance_guided (
target_system = target_system ,
target_component = target_component )
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def PolyFenceObjectAvoidanceBendyRuler ( self , target_system = 1 , target_component = 1 ) :
''' PolyFence object avoidance tests - bendy ruler '''
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if not self . mavproxy_can_do_mision_item_protocols ( ) :
return
# bendy Ruler isn't as flexible as Dijkstra for planning, so
# it gets a simpler test:
self . test_poly_fence_object_avoidance_guided_bendy_ruler (
target_system = target_system ,
target_component = target_component ,
)
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def test_scripting_simple_loop ( self ) :
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self . start_subtest ( " Scripting simple loop " )
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self . context_push ( )
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messages = [ ]
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def my_message_hook ( mav , message ) :
if message . get_type ( ) != ' STATUSTEXT ' :
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return
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messages . append ( message )
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self . install_message_hook_context ( my_message_hook )
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self . set_parameter ( " SCR_ENABLE " , 1 )
self . install_example_script_context ( " simple_loop.lua " )
self . reboot_sitl ( )
self . delay_sim_time ( 10 )
self . context_pop ( )
self . reboot_sitl ( )
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# check all messages to see if we got our message
count = 0
for m in messages :
if " hello, world " in m . text :
count + = 1
self . progress ( " Got %u hellos " % count )
if count < 3 :
raise NotAchievedException ( " Expected at least three hellos " )
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def test_scripting_internal_test ( self ) :
self . start_subtest ( " Scripting internal test " )
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self . context_push ( )
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test_scripts = [ " scripting_test.lua " , " math.lua " , " strings.lua " , " mavlink_test.lua " ]
success_text = [ " Internal tests passed " , " Math tests passed " , " String tests passed " , " Received heartbeat from " ]
named_value_float_types = [ " test " ]
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messages = [ ]
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named_value_float = [ ]
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def my_message_hook ( mav , message ) :
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if message . get_type ( ) == ' STATUSTEXT ' :
messages . append ( message )
# also sniff for named value float messages
if message . get_type ( ) == ' NAMED_VALUE_FLOAT ' :
named_value_float . append ( message )
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self . install_message_hook_context ( my_message_hook )
self . set_parameters ( {
" SCR_ENABLE " : 1 ,
" SCR_HEAP_SIZE " : 1024000 ,
" SCR_VM_I_COUNT " : 1000000 ,
} )
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self . install_test_modules_context ( )
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self . install_mavlink_module_context ( )
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for script in test_scripts :
self . install_test_script_context ( script )
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self . reboot_sitl ( )
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self . delay_sim_time ( 10 )
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self . context_pop ( )
self . reboot_sitl ( )
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# check all messages to see if we got our message
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success = True
for text in success_text :
script_success = False
for m in messages :
if text in m . text :
script_success = True
success = script_success and success
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if not success :
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raise NotAchievedException ( " Failed to receive STATUS_TEXT " )
else :
self . progress ( " Success STATUS_TEXT " )
for type in named_value_float_types :
script_success = False
for m in named_value_float :
if type == m . name :
script_success = True
success = script_success and success
if not success :
raise NotAchievedException ( " Failed to receive NAMED_VALUE_FLOAT " )
else :
self . progress ( " Success NAMED_VALUE_FLOAT " )
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def test_scripting_hello_world ( self ) :
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self . start_subtest ( " Scripting hello world " )
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self . context_push ( )
self . context_collect ( " STATUSTEXT " )
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self . set_parameter ( " SCR_ENABLE " , 1 )
self . install_example_script_context ( " hello_world.lua " )
self . reboot_sitl ( )
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self . wait_statustext ( ' hello, world ' , check_context = True , timeout = 30 )
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self . context_pop ( )
self . reboot_sitl ( )
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def ScriptingSteeringAndThrottle ( self ) :
''' Scripting test - steering and throttle '''
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self . start_subtest ( " Scripting square " )
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self . context_push ( )
self . install_example_script_context ( " rover-set-steering-and-throttle.lua " )
self . set_parameter ( " SCR_ENABLE " , 1 )
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self . reboot_sitl ( )
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self . wait_ready_to_arm ( )
self . arm_vehicle ( )
self . set_rc ( 6 , 2000 )
tstart = self . get_sim_time ( )
while not self . mode_is ( " HOLD " ) :
if self . get_sim_time_cached ( ) - tstart > 30 :
raise NotAchievedException ( " Did not move to hold " )
m = self . mav . recv_match ( type = ' VFR_HUD ' , blocking = True , timeout = 1 )
if m is not None :
self . progress ( " Current speed: %f " % m . groundspeed )
self . disarm_vehicle ( )
self . context_pop ( )
self . reboot_sitl ( )
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def test_scripting_auxfunc ( self ) :
self . start_subtest ( " Scripting aufunc triggering " )
self . context_push ( )
self . context_collect ( " STATUSTEXT " )
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self . set_parameters ( {
" SCR_ENABLE " : 1 ,
" RELAY_PIN " : 1 ,
} )
self . install_example_script_context ( " RCIN_test.lua " )
self . reboot_sitl ( )
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self . wait_parameter_value ( " SIM_PIN_MASK " , 121 )
self . wait_parameter_value ( " SIM_PIN_MASK " , 123 )
self . wait_parameter_value ( " SIM_PIN_MASK " , 121 )
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self . context_pop ( )
self . reboot_sitl ( )
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def test_scripting_print_home_and_origin ( self ) :
self . start_subtest ( " Scripting print home and origin " )
self . context_push ( )
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self . set_parameter ( " SCR_ENABLE " , 1 )
self . install_example_script_context ( " ahrs-print-home-and-origin.lua " )
self . reboot_sitl ( )
self . wait_ready_to_arm ( )
self . wait_statustext ( " Home - " )
self . wait_statustext ( " Origin - " )
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self . context_pop ( )
self . reboot_sitl ( )
def test_scripting_set_home_to_vehicle_location ( self ) :
self . start_subtest ( " Scripting set home to vehicle location " )
self . context_push ( )
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self . set_parameter ( " SCR_ENABLE " , 1 )
self . install_example_script_context ( " ahrs-set-home-to-vehicle-location.lua " )
self . reboot_sitl ( )
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self . wait_statustext ( " Home position reset " )
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self . context_pop ( )
self . reboot_sitl ( )
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def Scripting ( self ) :
''' Scripting test '''
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self . test_scripting_set_home_to_vehicle_location ( )
self . test_scripting_print_home_and_origin ( )
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self . test_scripting_hello_world ( )
self . test_scripting_simple_loop ( )
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self . test_scripting_internal_test ( )
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self . test_scripting_auxfunc ( )
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def test_mission_frame ( self , frame , target_system = 1 , target_component = 1 ) :
self . clear_mission ( mavutil . mavlink . MAV_MISSION_TYPE_MISSION ,
target_system = target_system ,
target_component = target_component )
items = [
# first item is ignored for missions
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
0 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_RELATIVE_ALT ,
mavutil . mavlink . MAV_CMD_NAV_WAYPOINT ,
0 , # current
0 , # autocontinue
3 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0000 * 1e7 ) , # latitude
int ( 1.0000 * 1e7 ) , # longitude
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31.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_MISSION ) ,
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
1 , # seq
frame ,
mavutil . mavlink . MAV_CMD_NAV_WAYPOINT ,
0 , # current
0 , # autocontinue
3 , # p1
0 , # p2
0 , # p3
0 , # p4
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int ( 1.0000 * 1e7 ) , # latitude
int ( 1.0000 * 1e7 ) , # longitude
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31.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_MISSION ) ,
]
self . check_mission_upload_download ( items )
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def MissionFrames ( self , target_system = 1 , target_component = 1 ) :
''' Upload/Download of items in different frames '''
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for frame in ( mavutil . mavlink . MAV_FRAME_GLOBAL_TERRAIN_ALT_INT ,
mavutil . mavlink . MAV_FRAME_GLOBAL_TERRAIN_ALT ,
mavutil . mavlink . MAV_FRAME_GLOBAL_RELATIVE_ALT_INT ,
mavutil . mavlink . MAV_FRAME_GLOBAL_RELATIVE_ALT ,
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_FRAME_GLOBAL ) :
self . test_mission_frame ( frame ,
target_system = 1 ,
target_component = 1 )
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def mavlink_time_boot_ms ( self ) :
''' returns a time suitable for putting into the time_boot_ms entry in mavlink packets '''
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return int ( time . time ( ) * 1000000 )
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def mavlink_time_boot_us ( self ) :
''' returns a time suitable for putting into the time_boot_ms entry in mavlink packets '''
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return int ( time . time ( ) * 1000000000 )
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def ap_proximity_mav_obstacle_distance_send ( self , data ) :
increment = data . get ( " increment " , 0 )
increment_f = data . get ( " increment_f " , 0.0 )
max_distance = data [ " max_distance " ]
invalid_distance = max_distance + 1 # per spec
distances = data [ " distances " ] [ : ]
distances . extend ( [ invalid_distance ] * ( 72 - len ( distances ) ) )
self . mav . mav . obstacle_distance_send (
self . mavlink_time_boot_us ( ) ,
mavutil . mavlink . MAV_DISTANCE_SENSOR_LASER ,
distances ,
increment ,
data [ " min_distance " ] ,
data [ " max_distance " ] ,
increment_f ,
data [ " angle_offset " ] ,
mavutil . mavlink . MAV_FRAME_BODY_FRD
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)
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def send_obstacle_distances_expect_distance_sensor_messages ( self , obstacle_distances_in , expect_distance_sensor_messages ) :
self . delay_sim_time ( 11 ) # allow obstacles to time out
self . do_timesync_roundtrip ( )
expect_distance_sensor_messages_copy = expect_distance_sensor_messages [ : ]
last_sent = 0
while True :
now = self . get_sim_time_cached ( )
if now - last_sent > 1 :
self . progress ( " Sending " )
self . ap_proximity_mav_obstacle_distance_send ( obstacle_distances_in )
last_sent = now
m = self . mav . recv_match ( type = ' DISTANCE_SENSOR ' , blocking = True , timeout = 1 )
self . progress ( " Got ( %s ) " % str ( m ) )
if m is None :
self . delay_sim_time ( 1 )
continue
orientation = m . orientation
found = False
if m . current_distance == m . max_distance :
# ignored
continue
for expected_distance_sensor_message in expect_distance_sensor_messages_copy :
if expected_distance_sensor_message [ " orientation " ] != orientation :
continue
found = True
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if not expected_distance_sensor_message . get ( " __found__ " , False ) :
self . progress ( " Marking message as found " )
expected_distance_sensor_message [ " __found__ " ] = True
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if ( m . current_distance - expected_distance_sensor_message [ " distance " ] > 1 ) :
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raise NotAchievedException (
" Bad distance for orient= %u want= %u got= %u " %
( orientation , expected_distance_sensor_message [ " distance " ] , m . current_distance ) )
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break
if not found :
raise NotAchievedException ( " Got unexpected DISTANCE_SENSOR message " )
all_found = True
for expected_distance_sensor_message in expect_distance_sensor_messages_copy :
if not expected_distance_sensor_message . get ( " __found__ " , False ) :
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self . progress ( " message still not found (orient= %u " % expected_distance_sensor_message [ " orientation " ] )
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all_found = False
break
if all_found :
self . progress ( " Have now seen all expected messages " )
break
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def AP_Proximity_MAV ( self ) :
''' Test MAV proximity backend '''
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self . context_push ( )
ex = None
try :
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self . set_parameters ( {
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" PRX1_TYPE " : 2 , # AP_Proximity_MAV
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" OA_TYPE " : 2 , # dijkstra
" OA_DB_OUTPUT " : 3 , # send all items
} )
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self . reboot_sitl ( )
# 1 laser pointing straight forward:
self . send_obstacle_distances_expect_distance_sensor_messages (
{
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" distances " : [ 234 ] ,
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" increment_f " : 10 ,
" angle_offset " : 0.0 ,
" min_distance " : 0 ,
" max_distance " : 1000 , # cm
} , [
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{ " orientation " : 0 , " distance " : 234 } ,
] )
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# 5 lasers at front of vehicle, spread over 40 degrees:
self . send_obstacle_distances_expect_distance_sensor_messages (
{
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" distances " : [ 111 , 222 , 333 , 444 , 555 ] ,
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" increment_f " : 10 ,
" angle_offset " : - 20.0 ,
" min_distance " : 0 ,
" max_distance " : 1000 , # cm
} , [
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{ " orientation " : 0 , " distance " : 111 } ,
] )
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# lots of dense readings (e.g. vision camera:
distances = [ 0 ] * 72
for i in range ( 0 , 72 ) :
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distances [ i ] = 1000 + 10 * abs ( 36 - i )
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self . send_obstacle_distances_expect_distance_sensor_messages (
{
" distances " : distances ,
" increment_f " : 90 / 72.0 ,
" angle_offset " : - 45.0 ,
" min_distance " : 0 ,
" max_distance " : 2000 , # cm
} , [
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{ " orientation " : 0 , " distance " : 1000 } ,
{ " orientation " : 1 , " distance " : 1190 } ,
{ " orientation " : 7 , " distance " : 1190 } ,
] )
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except Exception as e :
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self . print_exception_caught ( e )
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ex = e
self . context_pop ( )
self . reboot_sitl ( )
if ex is not None :
raise ex
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def SendToComponents ( self ) :
''' Test ArduPilot send_to_components function '''
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self . set_parameter ( " CAM1_TYPE " , 5 ) # Camera with MAVlink trigger
self . reboot_sitl ( ) # needed for CAM1_TYPE to take effect
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self . progress ( " Introducing ourselves to the autopilot as a component " )
old_srcSystem = self . mav . mav . srcSystem
self . mav . mav . srcSystem = 1
self . mav . mav . heartbeat_send (
mavutil . mavlink . MAV_TYPE_ONBOARD_CONTROLLER ,
mavutil . mavlink . MAV_AUTOPILOT_INVALID ,
0 ,
0 ,
0 )
self . progress ( " Sending control message " )
self . mav . mav . digicam_control_send (
1 , # target_system
1 , # target_component
1 , # start or keep it up
1 , # zoom_pos
0 , # zoom_step
0 , # focus_lock
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0 , # 1 shot or start filming
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17 , # command id (de-dupe field)
0 , # extra_param
0.0 , # extra_value
)
self . mav . mav . srcSystem = old_srcSystem
self . progress ( " Expecting a command long " )
tstart = self . get_sim_time_cached ( )
while True :
now = self . get_sim_time_cached ( )
if now - tstart > 2 :
raise NotAchievedException ( " Did not receive digicam_control message " )
m = self . mav . recv_match ( type = ' COMMAND_LONG ' , blocking = True , timeout = 0.1 )
self . progress ( " Message: %s " % str ( m ) )
if m is None :
continue
if m . command != mavutil . mavlink . MAV_CMD_DO_DIGICAM_CONTROL :
raise NotAchievedException ( " Did not get correct command " )
if m . param6 != 17 :
raise NotAchievedException ( " Did not get correct command_id " )
break
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def SkidSteer ( self ) :
''' Check skid-steering '''
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model = " rover-skid "
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self . customise_SITL_commandline ( [ ] ,
model = model ,
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defaults_filepath = self . model_defaults_filepath ( model ) )
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self . change_mode ( " MANUAL " )
self . wait_ready_to_arm ( )
self . arm_vehicle ( )
self . progress ( " get a known heading to avoid worrying about wrap " )
# this is steering-type-two-paddles
self . set_rc ( 1 , 1400 )
self . set_rc ( 3 , 1500 )
self . wait_heading ( 90 )
self . progress ( " straighten up " )
self . set_rc ( 1 , 1500 )
self . set_rc ( 3 , 1500 )
self . progress ( " steer one way " )
self . set_rc ( 1 , 1600 )
self . set_rc ( 3 , 1400 )
self . wait_heading ( 120 )
self . progress ( " steer the other " )
self . set_rc ( 1 , 1400 )
self . set_rc ( 3 , 1600 )
self . wait_heading ( 60 )
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self . zero_throttle ( )
self . disarm_vehicle ( )
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def SlewRate ( self ) :
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""" Test Motor Slew Rate feature. """
self . context_push ( )
self . change_mode ( " MANUAL " )
self . wait_ready_to_arm ( )
self . arm_vehicle ( )
self . start_subtest ( " Test no slew behavior " )
throttle_channel = 3
throttle_max = 2000
self . set_parameter ( " MOT_SLEWRATE " , 0 )
self . set_rc ( throttle_channel , throttle_max )
tstart = self . get_sim_time ( )
self . wait_servo_channel_value ( throttle_channel , throttle_max )
tstop = self . get_sim_time ( )
achieved_time = tstop - tstart
self . progress ( " achieved_time: %0.1f s " % achieved_time )
if achieved_time > 0.5 :
raise NotAchievedException ( " Output response should be instant, got %f " % achieved_time )
self . zero_throttle ( )
self . wait_groundspeed ( 0 , 0.5 ) # why do we not stop?!
self . start_subtest ( " Test 100 % s lew rate " )
self . set_parameter ( " MOT_SLEWRATE " , 100 )
self . set_rc ( throttle_channel , throttle_max )
tstart = self . get_sim_time ( )
self . wait_servo_channel_value ( throttle_channel , throttle_max )
tstop = self . get_sim_time ( )
achieved_time = tstop - tstart
self . progress ( " achieved_time: %0.1f s " % achieved_time )
if achieved_time < 0.9 or achieved_time > 1.1 :
raise NotAchievedException ( " Output response should be 1s, got %f " % achieved_time )
self . zero_throttle ( )
self . wait_groundspeed ( 0 , 0.5 ) # why do we not stop?!
self . start_subtest ( " Test 50 % s lew rate " )
self . set_parameter ( " MOT_SLEWRATE " , 50 )
self . set_rc ( throttle_channel , throttle_max )
tstart = self . get_sim_time ( )
self . wait_servo_channel_value ( throttle_channel , throttle_max , timeout = 10 )
tstop = self . get_sim_time ( )
achieved_time = tstop - tstart
self . progress ( " achieved_time: %0.1f s " % achieved_time )
if achieved_time < 1.8 or achieved_time > 2.2 :
raise NotAchievedException ( " Output response should be 2s, got %f " % achieved_time )
self . zero_throttle ( )
self . wait_groundspeed ( 0 , 0.5 ) # why do we not stop?!
self . start_subtest ( " Test 25 % s lew rate " )
self . set_parameter ( " MOT_SLEWRATE " , 25 )
self . set_rc ( throttle_channel , throttle_max )
tstart = self . get_sim_time ( )
self . wait_servo_channel_value ( throttle_channel , throttle_max , timeout = 10 )
tstop = self . get_sim_time ( )
achieved_time = tstop - tstart
self . progress ( " achieved_time: %0.1f s " % achieved_time )
if achieved_time < 3.6 or achieved_time > 4.4 :
raise NotAchievedException ( " Output response should be 4s, got %f " % achieved_time )
self . zero_throttle ( )
self . wait_groundspeed ( 0 , 0.5 ) # why do we not stop?!
self . start_subtest ( " Test 10 % s lew rate " )
self . set_parameter ( " MOT_SLEWRATE " , 10 )
self . set_rc ( throttle_channel , throttle_max )
tstart = self . get_sim_time ( )
self . wait_servo_channel_value ( throttle_channel , throttle_max , timeout = 20 )
tstop = self . get_sim_time ( )
achieved_time = tstop - tstart
self . progress ( " achieved_time: %0.1f s " % achieved_time )
if achieved_time < 9 or achieved_time > 11 :
raise NotAchievedException ( " Output response should be 10s, got %f " % achieved_time )
self . zero_throttle ( )
self . wait_groundspeed ( 0 , 0.5 ) # why do we not stop?!
self . disarm_vehicle ( )
self . context_pop ( )
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def SET_ATTITUDE_TARGET ( self , target_sysid = None , target_compid = 1 ) :
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''' Test handling of SET_ATTITUDE_TARGET '''
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if target_sysid is None :
target_sysid = self . sysid_thismav ( )
self . change_mode ( ' GUIDED ' )
self . wait_ready_to_arm ( )
self . arm_vehicle ( )
tstart = self . get_sim_time ( )
while True :
now = self . get_sim_time_cached ( )
if now - tstart > 10 :
raise AutoTestTimeoutException ( " Didn ' t get to speed " )
self . mav . mav . set_attitude_target_send (
0 , # time_boot_ms
target_sysid ,
target_compid ,
mavutil . mavlink . ATTITUDE_TARGET_TYPEMASK_BODY_ROLL_RATE_IGNORE |
mavutil . mavlink . ATTITUDE_TARGET_TYPEMASK_BODY_PITCH_RATE_IGNORE |
mavutil . mavlink . ATTITUDE_TARGET_TYPEMASK_ATTITUDE_IGNORE ,
mavextra . euler_to_quat ( [ 0 ,
math . radians ( 0 ) ,
math . radians ( 0 ) ] ) , # att
0 , # yaw rate (rad/s)
0 , # pitch rate
0 , # yaw rate
1 ) # thrust
msg = self . mav . recv_match ( type = ' VFR_HUD ' , blocking = True , timeout = 1 )
if msg is None :
raise NotAchievedException ( " No VFR_HUD message " )
if msg . groundspeed > 5 :
break
self . disarm_vehicle ( )
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def SET_POSITION_TARGET_LOCAL_NED ( self , target_sysid = None , target_compid = 1 ) :
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''' Test handling of SET_POSITION_TARGET_LOCAL_NED '''
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if target_sysid is None :
target_sysid = self . sysid_thismav ( )
self . change_mode ( ' GUIDED ' )
self . wait_ready_to_arm ( )
self . arm_vehicle ( )
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ofs_x = 30.0
ofs_y = 30.0
def send_target ( ) :
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self . mav . mav . set_position_target_local_ned_send (
0 , # time_boot_ms
target_sysid ,
target_compid ,
mavutil . mavlink . MAV_FRAME_LOCAL_NED ,
mavutil . mavlink . POSITION_TARGET_TYPEMASK_VX_IGNORE |
mavutil . mavlink . POSITION_TARGET_TYPEMASK_VY_IGNORE |
mavutil . mavlink . POSITION_TARGET_TYPEMASK_VZ_IGNORE |
mavutil . mavlink . POSITION_TARGET_TYPEMASK_AX_IGNORE |
mavutil . mavlink . POSITION_TARGET_TYPEMASK_AY_IGNORE |
mavutil . mavlink . POSITION_TARGET_TYPEMASK_AZ_IGNORE |
mavutil . mavlink . POSITION_TARGET_TYPEMASK_YAW_IGNORE |
mavutil . mavlink . POSITION_TARGET_TYPEMASK_YAW_RATE_IGNORE ,
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ofs_x , # pos-x
ofs_y , # pos-y
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0 , # pos-z
0 , # vel-x
0 , # vel-y
0 , # vel-z
0 , # acc-x
0 , # acc-y
0 , # acc-z
0 , # yaw
0 , # yaw rate
)
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self . wait_distance_to_local_position (
( ofs_x , ofs_y , 0 ) ,
distance_min = 0 ,
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distance_max = 3 ,
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timeout = 60 ,
called_function = lambda last_value , target : send_target ( ) ,
minimum_duration = 5 , # make sure we stop!
)
self . do_RTL ( )
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self . disarm_vehicle ( )
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def EndMissionBehavior ( self , timeout = 60 ) :
''' Test end mission behavior '''
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self . context_push ( )
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self . load_mission ( " end-mission.txt " )
self . wait_ready_to_arm ( )
self . arm_vehicle ( )
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self . start_subtest ( " Test End Mission Behavior HOLD " )
self . context_collect ( " STATUSTEXT " )
self . change_mode ( " AUTO " )
self . wait_text ( " Mission Complete " , check_context = True , wallclock_timeout = 2 )
# On Hold we should just stop and don't update the navigation target anymore
tstart = self . get_sim_time ( )
while True :
if self . get_sim_time_cached ( ) - tstart > 15 :
raise AutoTestTimeoutException ( " Still getting POSITION_TARGET_GLOBAL_INT " )
m = self . mav . recv_match ( type = " POSITION_TARGET_GLOBAL_INT " ,
blocking = True ,
timeout = 10 )
if m is None :
self . progress ( " No POSITION_TARGET_GLOBAL_INT received, all good ! " )
break
self . context_clear_collection ( " STATUSTEXT " )
self . change_mode ( " GUIDED " )
self . context_collect ( " STATUSTEXT " )
self . start_subtest ( " Test End Mission Behavior LOITER " )
self . set_parameter ( " MIS_DONE_BEHAVE " , 1 )
self . change_mode ( " AUTO " )
self . wait_text ( " Mission Complete " , check_context = True , wallclock_timeout = 2 )
# On LOITER we should update the navigation target
tstart = self . get_sim_time ( )
while True :
if self . get_sim_time_cached ( ) - tstart > 15 :
raise AutoTestTimeoutException ( " Not getting POSITION_TARGET_GLOBAL_INT " )
m = self . mav . recv_match ( type = " POSITION_TARGET_GLOBAL_INT " ,
blocking = True ,
timeout = 5 )
if m is None :
self . progress ( " No POSITION_TARGET_GLOBAL_INT received " )
continue
else :
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if self . get_sim_time_cached ( ) - tstart > 15 :
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self . progress ( " Got POSITION_TARGET_GLOBAL_INT, all good ! " )
break
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self . start_subtest ( " Test End Mission Behavior ACRO " )
self . set_parameter ( " MIS_DONE_BEHAVE " , 2 )
# race conditions here to do with get_sim_time()
# swallowing heartbeats means we have to be a little
# circuitous when testing here:
self . change_mode ( " GUIDED " )
self . send_cmd_do_set_mode ( ' AUTO ' )
self . wait_mode ( " ACRO " )
self . start_subtest ( " Test End Mission Behavior MANUAL " )
self . set_parameter ( " MIS_DONE_BEHAVE " , 3 )
# race conditions here to do with get_sim_time()
# swallowing heartbeats means we have to be a little
# circuitous when testing here:
self . change_mode ( " GUIDED " )
self . send_cmd_do_set_mode ( " AUTO " )
self . wait_mode ( " MANUAL " )
self . disarm_vehicle ( )
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self . context_pop ( )
self . reboot_sitl ( )
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def MAVProxyParam ( self ) :
''' Test MAVProxy parameter handling '''
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mavproxy = self . start_mavproxy ( )
mavproxy . send ( " param fetch \n " )
mavproxy . expect ( " Received [0-9]+ parameters " )
self . stop_mavproxy ( mavproxy )
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def MAV_CMD_DO_SET_MISSION_CURRENT_mission ( self , target_system = 1 , target_component = 1 ) :
return copy . copy ( [
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
0 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_WAYPOINT ,
0 , # current
0 , # autocontinue
3 , # p1
0 , # p2
0 , # p3
0 , # p4
int ( 1.0000 * 1e7 ) , # latitude
int ( 1.0000 * 1e7 ) , # longitude
31.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_MISSION ) ,
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
1 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_WAYPOINT ,
0 , # current
0 , # autocontinue
3 , # p1
0 , # p2
0 , # p3
0 , # p4
int ( 1.0000 * 1e7 ) , # latitude
int ( 1.0000 * 1e7 ) , # longitude
31.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_MISSION ) ,
self . mav . mav . mission_item_int_encode (
target_system ,
target_component ,
2 , # seq
mavutil . mavlink . MAV_FRAME_GLOBAL_INT ,
mavutil . mavlink . MAV_CMD_NAV_WAYPOINT ,
0 , # current
0 , # autocontinue
3 , # p1
0 , # p2
0 , # p3
0 , # p4
int ( 1.0000 * 1e7 ) , # latitude
int ( 1.0000 * 1e7 ) , # longitude
31.0000 , # altitude
mavutil . mavlink . MAV_MISSION_TYPE_MISSION ) ,
] )
def MAV_CMD_DO_SET_MISSION_CURRENT ( self , target_sysid = None , target_compid = 1 ) :
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''' Test handling of CMD_DO_SET_MISSION_CURRENT '''
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if target_sysid is None :
target_sysid = self . sysid_thismav ( )
self . check_mission_upload_download ( self . MAV_CMD_DO_SET_MISSION_CURRENT_mission ( ) )
self . set_current_waypoint ( 2 )
self . set_current_waypoint_using_mav_cmd_do_set_mission_current ( 2 )
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self . run_cmd (
mavutil . mavlink . MAV_CMD_DO_SET_MISSION_CURRENT ,
p1 = 17 ,
timeout = 1 ,
target_sysid = target_sysid ,
target_compid = target_compid ,
want_result = mavutil . mavlink . MAV_RESULT_FAILED ,
)
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def FlashStorage ( self ) :
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''' Test flash storage (for parameters etc) '''
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self . set_parameter ( " LOG_BITMASK " , 1 )
self . reboot_sitl ( )
self . customise_SITL_commandline ( [
" --set-storage-posix-enabled " , " 0 " ,
" --set-storage-flash-enabled " , " 1 " ,
] )
if self . get_parameter ( " LOG_BITMASK " ) == 1 :
raise NotAchievedException ( " not using flash storage? " )
self . set_parameter ( " LOG_BITMASK " , 2 )
self . reboot_sitl ( )
self . assert_parameter_value ( " LOG_BITMASK " , 2 )
self . set_parameter ( " LOG_BITMASK " , 3 )
self . reboot_sitl ( )
self . assert_parameter_value ( " LOG_BITMASK " , 3 )
self . customise_SITL_commandline ( [ ] )
# make sure we're back at our original value:
self . assert_parameter_value ( " LOG_BITMASK " , 1 )
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def FRAMStorage ( self ) :
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''' Test FRAM storage (for parameters etc) '''
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self . set_parameter ( " LOG_BITMASK " , 1 )
self . reboot_sitl ( )
self . customise_SITL_commandline ( [
" --set-storage-posix-enabled " , " 0 " ,
" --set-storage-fram-enabled " , " 1 " ,
] )
# TODO: ensure w'ere actually taking stuff from flash storage:
# if self.get_parameter("LOG_BITMASK") == 1:
# raise NotAchievedException("not using flash storage?")
self . set_parameter ( " LOG_BITMASK " , 2 )
self . reboot_sitl ( )
self . assert_parameter_value ( " LOG_BITMASK " , 2 )
self . set_parameter ( " LOG_BITMASK " , 3 )
self . reboot_sitl ( )
self . assert_parameter_value ( " LOG_BITMASK " , 3 )
self . customise_SITL_commandline ( [ ] )
# make sure we're back at our original value:
self . assert_parameter_value ( " LOG_BITMASK " , 1 )
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def RangeFinder ( self ) :
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''' Test RangeFinder '''
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# the following magic numbers correspond to the post locations in SITL
home_string = " %s , %s , %s , %s " % ( 51.8752066 , 14.6487840 , 54.15 , 315 )
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rangefinder_params = {
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" SIM_SONAR_ROT " : 6 ,
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}
rangefinder_params . update ( self . analog_rangefinder_parameters ( ) )
self . set_parameters ( rangefinder_params )
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self . customise_SITL_commandline ( [
" --home " , home_string ,
] )
self . wait_ready_to_arm ( )
if self . mavproxy is not None :
self . mavproxy . send ( ' script /tmp/post-locations.scr \n ' )
m = self . assert_receive_message ( ' RANGEFINDER ' , very_verbose = True )
if m . voltage == 0 :
raise NotAchievedException ( " Did not get non-zero voltage " )
want_range = 10
if abs ( m . distance - want_range ) > 0.1 :
raise NotAchievedException ( " Expected %f m got %f m " % ( want_range , m . distance ) )
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def DepthFinder ( self ) :
''' Test mulitple depthfinders for boats '''
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# Setup rangefinders
self . customise_SITL_commandline ( [
" --uartH=sim:nmea " , # NMEA Rangefinder
] )
# RANGEFINDER_INSTANCES = [0, 2, 5]
self . set_parameters ( {
" RNGFND1_TYPE " : 17 , # NMEA must attach uart to SITL
" RNGFND1_ORIENT " : 25 , # Set to downward facing
" SERIAL7_PROTOCOL " : 9 , # Rangefinder on uartH
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" SERIAL7_BAUD " : 9600 , # Rangefinder specific baudrate
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" RNGFND3_TYPE " : 2 , # MaxbotixI2C
" RNGFND3_ADDR " : 112 , # 0x70 address from SIM_I2C.cpp
" RNGFND3_ORIENT " : 0 , # Set to forward facing, thus we should not receive DPTH messages from this one
" RNGFND6_ADDR " : 113 , # 0x71 address from SIM_I2C.cpp
" RNGFND6_ORIENT " : 25 , # Set to downward facing
" RNGFND6_TYPE " : 2 , # MaxbotixI2C
} )
self . reboot_sitl ( )
self . wait_ready_to_arm ( )
# should not get WATER_DEPTH messages or DPTH logs when the FRAME_CLASS is not a boat
m = self . mav . recv_match ( type = " WATER_DEPTH " , blocking = True , timeout = 2 )
if m is not None :
raise NotAchievedException ( " WATER_DEPTH: received message when FRAME_CLASS not a Boat " )
# Set FRAME_CLASS to start receiving WATER_DEPTH messages & logging DPTH
self . set_parameters ( {
" FRAME_CLASS " : 2 , # Boat
} )
# Check each rangefinder instance is in collection
rangefinder = [ None , None , None , None , None , None ] # Be lazy FIXME only need [3]
def check_rangefinder ( mav , m ) :
if m . get_type ( ) != ' WATER_DEPTH ' :
return
id = m . id
# Should not find instance 3 as it is forward facing
if id == 2 :
raise NotAchievedException ( " Depthfinder Instance %i with non-downward orientation found " % ( id ) )
rangefinder [ id ] = True
if id == 0 :
if float ( m . temperature ) == 0.0 :
raise NotAchievedException ( " Depthfinder Instance %i NMEA with temperature not found " % ( id ) )
elif id == 5 :
if float ( m . temperature ) != 0.0 :
raise NotAchievedException ( " Depthfinder Instance %i should not have temperature " % ( id ) )
self . wait_ready_to_arm ( )
self . arm_vehicle ( )
self . install_message_hook_context ( check_rangefinder )
self . drive_mission ( " rover1.txt " , strict = False )
if rangefinder [ 0 ] is None :
raise NotAchievedException ( " Never saw Depthfinder 1 " )
if rangefinder [ 2 ] is not None :
raise NotAchievedException ( " Should not have found a Depthfinder 3 " )
if rangefinder [ 5 ] is None :
raise NotAchievedException ( " Never saw Depthfinder 6 " )
if not self . current_onboard_log_contains_message ( " DPTH " ) :
raise NotAchievedException ( " Expected DPTH log message " )
# self.context_pop()
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def EStopAtBoot ( self ) :
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''' Ensure EStop prevents arming when asserted at boot time '''
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self . context_push ( )
self . set_parameters ( {
" RC9_OPTION " : 31 ,
} )
self . set_rc ( 9 , 2000 )
self . reboot_sitl ( )
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self . assert_prearm_failure (
" Motors Emergency Stopped " ,
other_prearm_failures_fatal = False )
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self . context_pop ( )
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self . reboot_sitl ( )
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def assert_mode ( self , mode ) :
if not self . mode_is ( mode ) :
raise NotAchievedException ( " Mode is not %s " % str ( mode ) )
def ChangeModeByNumber ( self ) :
''' ensure we can set a mode by number, handy when we don ' t have a
pymavlink number for it yet '''
for ( x , want ) in ( 0 , ' MANUAL ' ) , ( 1 , ' ACRO ' ) , ( 3 , 3 ) :
self . change_mode ( x )
self . assert_mode ( want )
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def StickMixingAuto ( self ) :
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''' Ensure Stick Mixing works in auto '''
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items = [ ]
self . set_parameter ( ' STICK_MIXING ' , 1 )
# home
items . append ( ( mavutil . mavlink . MAV_CMD_NAV_WAYPOINT , 0 , 0 , 0 ) , )
# 1 waypoint a long way away
items . append ( ( mavutil . mavlink . MAV_CMD_NAV_WAYPOINT , 2000 , 0 , 0 ) , )
self . upload_simple_relhome_mission ( items )
if self . mavproxy is not None :
# handy for getting pretty pictures
self . mavproxy . send ( " wp list \n " )
self . change_mode ( ' AUTO ' )
self . wait_ready_to_arm ( )
self . arm_vehicle ( )
self . set_rc ( 1 , 1150 )
self . wait_heading ( 45 )
self . wait_heading ( 90 )
self . disarm_vehicle ( )
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def AutoDock ( self ) :
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''' Test automatic docking of rover for multiple FOVs of simulated beacon '''
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self . context_push ( )
self . set_parameters ( {
" PLND_ENABLED " : 1 ,
" PLND_TYPE " : 4 ,
" PLND_ORIENT " : 0 ,
} )
start = self . mav . location ( )
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target = self . offset_location_ne ( start , 50 , 0 )
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self . progress ( " Setting target to %f %f " % ( start . lat , start . lng ) )
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stopping_dist = 0.5
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self . set_parameters ( {
" SIM_PLD_ENABLE " : 1 ,
" SIM_PLD_LAT " : target . lat ,
" SIM_PLD_LON " : target . lng ,
" SIM_PLD_HEIGHT " : 0 ,
" SIM_PLD_ALT_LMT " : 30 ,
" SIM_PLD_DIST_LMT " : 30 ,
" SIM_PLD_ORIENT " : 4 , # emit beams towards south, vehicle's heading must be north to see it
" SIM_PLD_OPTIONS " : 1 ,
" DOCK_SPEED " : 2 ,
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" DOCK_STOP_DIST " : stopping_dist ,
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} )
for type in range ( 0 , 3 ) : # CYLINDRICAL FOV, CONICAL FOV, SPHERICAL FOV
ex = None
try :
self . set_parameter ( " SIM_PLD_TYPE " , type )
self . reboot_sitl ( )
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self . change_mode ( ' GUIDED ' )
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self . wait_ready_to_arm ( )
self . arm_vehicle ( )
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initial_position = self . offset_location_ne ( target , - 20 , - 2 )
self . drive_to_location ( initial_position )
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self . change_mode ( 8 ) # DOCK mode
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max_delta = 1
self . wait_distance_to_location ( target , 0 , max_delta , timeout = 180 )
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self . disarm_vehicle ( )
self . assert_receive_message ( ' GLOBAL_POSITION_INT ' )
new_pos = self . mav . location ( )
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delta = abs ( self . get_distance ( target , new_pos ) - stopping_dist )
self . progress ( " Docked %f metres from stopping point " % delta )
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if delta > max_delta :
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raise NotAchievedException ( " Did not dock close enough to stopping point ( %f m > %f m " % ( delta , max_delta ) )
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if not self . current_onboard_log_contains_message ( " PL " ) :
raise NotAchievedException ( " Did not see expected PL message " )
except Exception as e :
self . print_exception_caught ( e )
ex = e
break
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self . context_pop ( )
if ex is not None :
raise ex
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self . reboot_sitl ( )
self . progress ( " All done " )
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def PrivateChannel ( self ) :
''' test the serial option bit specifying a mavlink channel as private '''
global mav2
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port = self . adjust_ardupilot_port ( 5763 )
mav2 = mavutil . mavlink_connection ( " tcp:localhost: %u " % port ,
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robust_parsing = True ,
source_system = 7 ,
source_component = 7 )
# send a heartbeat or two to make sure ArduPilot's aware:
def heartbeat_on_mav2 ( mav , m ) :
''' send a heartbeat on mav2 whenever we get one on mav '''
global mav2
if mav == mav2 :
return
if m . get_type ( ) == ' HEARTBEAT ' :
mav2 . mav . heartbeat_send (
mavutil . mavlink . MAV_TYPE_ONBOARD_CONTROLLER ,
mavutil . mavlink . MAV_AUTOPILOT_INVALID ,
0 ,
0 ,
0 )
return
self . assert_receive_message ( " HEARTBEAT " , mav = mav2 )
# ensure a targetted message is received:
self . install_message_hook_context ( heartbeat_on_mav2 )
self . progress ( " Ensuring we can get a message normally " )
self . poll_message ( " AUTOPILOT_VERSION " , mav = mav2 )
self . progress ( " Polling AUTOPILOT_VERSION from random sysid " )
self . send_poll_message ( " AUTOPILOT_VERSION " , mav = mav2 , target_sysid = 134 )
self . assert_not_receive_message ( " AUTOPILOT_VERSION " , mav = mav2 , timeout = 10 )
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# make sure we get heartbeats on the main channel from the non-private mav2:
tstart = self . get_sim_time ( )
while True :
if self . get_sim_time_cached ( ) - tstart > 5 :
raise NotAchievedException ( " Did not get expected heartbeat from %u " % 7 )
m = self . assert_receive_message ( " HEARTBEAT " )
if m . get_srcSystem ( ) == 7 :
self . progress ( " Got heartbeat from ( %u ) on non-private channel " % 7 )
break
# make sure we receive heartbeats from the autotest suite into
# the component:
tstart = self . get_sim_time ( )
while True :
if self . get_sim_time_cached ( ) - tstart > 5 :
raise NotAchievedException ( " Did not get expected heartbeat from %u " % self . mav . source_system )
m = self . assert_receive_message ( " HEARTBEAT " , mav = mav2 )
if m . get_srcSystem ( ) == self . mav . source_system :
self . progress ( " Got heartbeat from ( %u ) on non-private channel " % self . mav . source_system )
break
def printmessage ( mav , m ) :
global mav2
if mav == mav2 :
return
print ( " Got ( %u / %u ) ( %s ) " % ( m . get_srcSystem ( ) , m . get_srcComponent ( ) , str ( m ) ) )
# self.install_message_hook_context(printmessage)
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# ensure setting the private channel mask doesn't cause us to
# execute these commands:
self . set_parameter ( " SERIAL2_OPTIONS " , 1024 )
self . reboot_sitl ( ) # mavlink-private is reboot-required
mav2 = mavutil . mavlink_connection ( " tcp:localhost:5763 " ,
robust_parsing = True ,
source_system = 7 ,
source_component = 7 )
# self.send_debug_trap()
self . send_poll_message ( " AUTOPILOT_VERSION " , mav = mav2 , target_sysid = 134 )
self . assert_not_receive_message ( " AUTOPILOT_VERSION " , mav = mav2 , timeout = 10 )
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# make sure messages from a private channel don't make it to
# the main channel:
self . drain_mav ( self . mav )
self . drain_mav ( mav2 )
# make sure we do NOT get heartbeats on the main channel from
# the private mav2:
tstart = self . get_sim_time ( )
while True :
if self . get_sim_time_cached ( ) - tstart > 5 :
break
m = self . assert_receive_message ( " HEARTBEAT " )
if m . get_srcSystem ( ) == 7 :
raise NotAchievedException ( " Got heartbeat from private channel " )
self . progress ( " ensure no outside heartbeats reach private channels " )
tstart = self . get_sim_time ( )
while True :
if self . get_sim_time_cached ( ) - tstart > 5 :
break
m = self . assert_receive_message ( " HEARTBEAT " )
if m . get_srcSystem ( ) == 1 and m . get_srcComponent ( ) == 1 :
continue
# note the above test which shows we get heartbeats from
# both the vehicle and this tests's special heartbeat
raise NotAchievedException ( " Got heartbeat on private channel from non-vehicle " )
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def tests ( self ) :
''' return list of all tests '''
ret = super ( AutoTestRover , self ) . tests ( )
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ret . extend ( [
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self . MAVProxy_SetModeUsingSwitch ,
self . HIGH_LATENCY2 ,
self . MAVProxy_SetModeUsingMode ,
self . ModeSwitch ,
self . AuxModeSwitch ,
self . DriveRTL ,
self . SmartRTL ,
self . DriveSquare ,
self . DriveMission ,
# self.DriveBrake, # disabled due to frequent failures
self . GetBanner ,
self . DO_SET_MODE ,
self . MAVProxy_DO_SET_MODE ,
self . ServoRelayEvents ,
self . RCOverrides ,
self . RCOverridesCancel ,
self . MANUAL_CONTROL ,
self . Sprayer ,
self . AC_Avoidance ,
self . CameraMission ,
self . Gripper ,
self . GripperMission ,
self . SET_MESSAGE_INTERVAL ,
self . REQUEST_MESSAGE ,
self . SYSID_ENFORCE ,
self . SET_ATTITUDE_TARGET ,
self . SET_POSITION_TARGET_LOCAL_NED ,
self . MAV_CMD_DO_SET_MISSION_CURRENT ,
self . Button ,
self . Rally ,
self . Offboard ,
self . MAVProxyParam ,
self . GCSFence ,
self . GCSMission ,
self . GCSRally ,
self . MotorTest ,
self . WheelEncoders ,
self . DataFlashOverMAVLink ,
self . DataFlash ,
self . SkidSteer ,
self . PolyFence ,
self . PolyFenceAvoidance ,
self . PolyFenceObjectAvoidance ,
self . PolyFenceObjectAvoidanceBendyRuler ,
self . SendToComponents ,
self . PolyFenceObjectAvoidanceBendyRulerEasier ,
self . SlewRate ,
self . Scripting ,
self . ScriptingSteeringAndThrottle ,
self . MissionFrames ,
self . SetpointGlobalPos ,
self . SetpointGlobalVel ,
self . AccelCal ,
self . RangeFinder ,
self . AP_Proximity_MAV ,
self . EndMissionBehavior ,
self . FlashStorage ,
self . FRAMStorage ,
self . DepthFinder ,
self . ChangeModeByNumber ,
self . EStopAtBoot ,
self . StickMixingAuto ,
self . AutoDock ,
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self . PrivateChannel ,
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self . GCSFailsafe ,
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self . RoverInitialMode ,
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self . DriveMaxRCIN ,
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self . NoArmWithoutMissionItems ,
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self . CompassPrearms ,
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] )
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return ret
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def disabled_tests ( self ) :
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return {
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" SlewRate " : " got timing report failure on CI " ,
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}
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def rc_defaults ( self ) :
ret = super ( AutoTestRover , self ) . rc_defaults ( )
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ret [ 3 ] = 1500
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ret [ 8 ] = 1800
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return ret
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def initial_mode_switch_mode ( self ) :
return " MANUAL "
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def default_mode ( self ) :
return ' MANUAL '