''' Drive Rover in SITL AP_FLAKE8_CLEAN ''' from __future__ import print_function import copy import math import operator import os import sys import time import vehicle_test_suite from pysim import util from vehicle_test_suite import AutoTestTimeoutException from vehicle_test_suite import NotAchievedException from vehicle_test_suite import PreconditionFailedException from pymavlink import mavextra from pymavlink import mavutil # get location of scripts testdir = os.path.dirname(os.path.realpath(__file__)) SITL_START_LOCATION = mavutil.location(40.071374969556928, -105.22978898137808, 1583.702759, 246) class AutoTestRover(vehicle_test_suite.TestSuite): @staticmethod def get_not_armable_mode_list(): return ["RTL", "SMART_RTL"] @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(): return ["GUIDED", "LOITER", "STEERING", "AUTO"] @staticmethod def get_normal_armable_modes_list(): return ["ACRO", "HOLD", "MANUAL"] def log_name(self): return "Rover" def test_filepath(self): return os.path.realpath(__file__) def set_current_test_name(self, name): self.current_test_name_directory = "ArduRover_Tests/" + name + "/" def sitl_start_location(self): return SITL_START_LOCATION def default_frame(self): return "rover" def default_speedup(self): return 30 def is_rover(self): return True def get_stick_arming_channel(self): return int(self.get_parameter("RCMAP_ROLL")) ########################################################## # TESTS DRIVE ########################################################## # Drive a square in manual mode def DriveSquare(self, side=50): """Learn/Drive Square with Ch7 option""" self.progress("TEST SQUARE") self.set_parameters({ "RC7_OPTION": 7, "RC9_OPTION": 58, }) self.change_mode('MANUAL') self.wait_ready_to_arm() self.arm_vehicle() self.clear_wp(9) # first aim north self.progress("\nTurn 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("\nGoing 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("\nGoing 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("\nGoing 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("\nGoing 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") mavproxy = self.start_mavproxy() num_wp = self.save_mission_to_file_using_mavproxy( mavproxy, os.path.join(testdir, "ch7_mission.txt")) self.stop_mavproxy(mavproxy) expected = 7 # home + 6 toggled in if num_wp != expected: raise NotAchievedException("Did not get %u waypoints; got %u" % (expected, num_wp)) # TODO: actually drive the mission self.clear_wp(9) self.disarm_vehicle() def drive_left_circuit(self): """Drive a left circuit, 50m on a side.""" self.change_mode('MANUAL') self.set_rc(3, 2000) self.progress("Driving left circuit") # do 4 turns for i in range(0, 4): # hard left self.progress("Starting turn %u" % i) self.set_rc(1, 1000) self.wait_heading(270 - (90*i), accuracy=10) self.set_rc(1, 1500) self.progress("Starting leg %u" % i) self.wait_distance(50, accuracy=7) self.set_rc(3, 1500) self.progress("Circuit complete") # def test_throttle_failsafe(self, home, distance_min=10, side=60, # timeout=300): # """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 # self.progress("turn east") # if not self.reach_heading_manual(135): # return False # # # fly east 60 meters # self.progress("# Going forward %u meters" % side) # if not self.reach_distance_manual(side): # return False # # # pull throttle low # self.progress("# Enter Failsafe") # 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) # self.progress("Alt: %u HomeDistance: %.0f" % # (m.alt, home_distance)) # # check if we've reached home # if home_distance <= distance_min: # self.progress("RTL Complete") # success = True # # # reduce throttle # self.mavproxy.send('rc 3 1500\n') # self.mavproxy.expect('AP: Failsafe ended') # self.mavproxy.send('switch 2\n') # manual mode # self.wait_heartbeat() # self.wait_mode('MANUAL') # # if success: # self.progress("Reached failsafe home OK") # return True # else: # self.progress("Failed to reach Home on failsafe RTL - " # "timed out after %u seconds" % timeout) # return False def Sprayer(self): """Test sprayer functionality.""" 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 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, }) 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) 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") self.wait_servo_channel_value(pump_ch, 1250, timeout=60, comparator=operator.gt) self.progress("Waiting for sprayer to stop") self.wait_servo_channel_value(pump_ch, pump_ch_min, timeout=120) self.start_subtest("Checking mavlink commands") self.change_mode("MANUAL") self.progress("Starting Sprayer") self.run_cmd(mavutil.mavlink.MAV_CMD_DO_SPRAYER, p1=1) 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") self.run_cmd(mavutil.mavlink.MAV_CMD_DO_SPRAYER, p1=0) self.wait_servo_channel_value(pump_ch, pump_ch_min) self.set_rc(3, 1000) # stop driving forward self.progress("Sprayer OK") self.disarm_vehicle() def DriveMaxRCIN(self, timeout=30): """Drive rover at max RC inputs""" 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.assert_receive_message('VFR_HUD') self.progress("Current speed: %f" % m.groundspeed) self.disarm_vehicle() ################################################# # AUTOTEST ALL ################################################# def drive_mission(self, filename, strict=True): """Drive a mission from a file.""" self.progress("Driving mission %s" % filename) wp_count = self.load_mission(filename, strict=strict) self.wait_ready_to_arm() self.arm_vehicle() self.change_mode('AUTO') self.wait_waypoint(1, wp_count-1, max_dist=5) self.wait_statustext("Mission Complete", timeout=600) self.disarm_vehicle() self.progress("Mission OK") def DriveMission(self): '''Drive Mission rover1.txt''' self.drive_mission("rover1.txt", strict=False) def GripperMission(self): '''Test Gripper Mission Items''' self.load_mission("rover-gripper-mission.txt") self.change_mode('AUTO') self.wait_ready_to_arm() self.arm_vehicle() 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) self.disarm_vehicle() def _MAV_CMD_DO_SEND_BANNER(self, run_cmd): '''Get Banner''' self.context_push() self.context_collect('STATUSTEXT') run_cmd(mavutil.mavlink.MAV_CMD_DO_SEND_BANNER) self.wait_statustext("ArduRover", timeout=1, check_context=True) self.context_pop() def MAV_CMD_DO_SEND_BANNER(self): '''test MAV_CMD_DO_SEND_BANNER''' self._MAV_CMD_DO_SEND_BANNER(self.run_cmd) self._MAV_CMD_DO_SEND_BANNER(self.run_cmd_int) def drive_brake_get_stopping_distance(self, speed): '''measure our stopping distance''' self.context_push() # 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 self.set_parameters({ 'CRUISE_SPEED': speed*1.2, 'ATC_ACCEL_MAX': 15, }) self.change_mode("STEERING") 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) self.context_pop() return delta def DriveBrake(self): '''Test braking''' self.set_parameters({ 'CRUISE_SPEED': 15, 'ATC_BRAKE': 0, }) self.arm_vehicle() 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 self.disarm_vehicle() if delta < distance_without_brakes * 0.05: # 5% isn't asking for much raise NotAchievedException(""" Brakes have negligible effect (with=%0.2fm without=%0.2fm delta=%0.2fm) """ % (distance_with_brakes, distance_without_brakes, delta)) self.progress( "Brakes work (with=%0.2fm without=%0.2fm delta=%0.2fm)" % (distance_with_brakes, distance_without_brakes, delta)) def drive_rtl_mission_max_distance_from_home(self): '''maximum distance allowed from home at end''' return 6.5 def DriveRTL(self, timeout=120): '''Drive an RTL Mission''' self.wait_ready_to_arm() self.arm_vehicle() self.load_mission("rtl.txt") self.change_mode("AUTO") 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 self.drain_mav() m = self.assert_receive_message('NAV_CONTROLLER_OUTPUT', timeout=1) wp_dist_min = 5 if m.wp_dist < wp_dist_min: raise PreconditionFailedException( "Did not start at least %f metres from destination (is=%f)" % (wp_dist_min, m.wp_dist)) self.progress("NAV_CONTROLLER_OUTPUT.wp_dist looks good (%u >= %u)" % (m.wp_dist, wp_dist_min,)) # wait for mission to complete self.wait_statustext("Mission Complete", timeout=70) # the EKF doesn't pull us down to 0 speed: self.wait_groundspeed(0, 0.5, timeout=600) # current Rover blows straight past the home position and ends # up ~6m past the home point. home_distance = self.distance_to_home() home_distance_min = 5.5 home_distance_max = self.drive_rtl_mission_max_distance_from_home() if home_distance > home_distance_max: raise NotAchievedException( "Did not stop near home (%f metres distant (%f > want > %f))" % (home_distance, home_distance_min, home_distance_max)) self.disarm_vehicle() self.progress("RTL Mission OK (%fm)" % home_distance) def RTL_SPEED(self, timeout=120): '''Test RTL_SPEED is honoured''' self.upload_simple_relhome_mission([ (mavutil.mavlink.MAV_CMD_NAV_WAYPOINT, 300, 0, 0), (mavutil.mavlink.MAV_CMD_NAV_WAYPOINT, 1000, 0, 0), ]) self.wait_ready_to_arm() self.arm_vehicle() self.change_mode('AUTO') self.wait_current_waypoint(2, timeout=120) for speed in 1, 5.5, 1.5, 7.5: self.set_parameter("RTL_SPEED", speed) self.change_mode('RTL') self.wait_groundspeed(speed-0.1, speed+0.1, minimum_duration=10) self.change_mode('HOLD') self.do_RTL() self.disarm_vehicle() def AC_Avoidance(self): '''Test AC Avoidance switch''' self.load_fence("rover-fence-ac-avoid.txt") self.set_parameters({ "FENCE_ENABLE": 0, "PRX1_TYPE": 10, "RC10_OPTION": 40, # proximity-enable }) self.reboot_sitl() # start = self.mav.location() self.wait_ready_to_arm() self.arm_vehicle() # first make sure we can breach the fence: self.set_rc(10, 1000) self.change_mode("ACRO") self.set_rc(3, 1550) self.wait_distance_to_home(25, 100000, timeout=60) self.change_mode("RTL") self.wait_statustext("Reached destination", timeout=60) # now enable avoidance and make sure we can't: self.set_rc(10, 2000) self.change_mode("ACRO") self.wait_groundspeed(0, 0.7, timeout=60) # watch for speed zero self.wait_groundspeed(0, 0.2, timeout=120) self.disarm_vehicle() def ServoRelayEvents(self): '''Test ServoRelayEvents''' for method in self.run_cmd, self.run_cmd_int: self.context_push() self.set_parameters({ "RELAY1_FUNCTION": 1, # Enable relay 1 as a standard relay pin "RELAY2_FUNCTION": 1, # Enable relay 2 as a standard relay pin }) self.reboot_sitl() # Needed for relay functions to take effect method(mavutil.mavlink.MAV_CMD_DO_SET_RELAY, p1=0, p2=0) off = self.get_parameter("SIM_PIN_MASK") method(mavutil.mavlink.MAV_CMD_DO_SET_RELAY, p1=0, p2=1) on = self.get_parameter("SIM_PIN_MASK") if on == off: raise NotAchievedException( "Pin mask unchanged after relay cmd") self.progress("Pin mask changed after relay command") method(mavutil.mavlink.MAV_CMD_DO_SET_RELAY, p1=0, p2=0) self.set_message_rate_hz("RELAY_STATUS", 10) # default configuration for relays in sim have one relay: self.assert_received_message_field_values('RELAY_STATUS', { "present": 3, "on": 0, }) method(mavutil.mavlink.MAV_CMD_DO_SET_RELAY, p1=0, p2=1) self.assert_received_message_field_values('RELAY_STATUS', { "present": 3, "on": 1, }) method(mavutil.mavlink.MAV_CMD_DO_SET_RELAY, p1=1, p2=1) self.assert_received_message_field_values('RELAY_STATUS', { "present": 3, "on": 3, }) method(mavutil.mavlink.MAV_CMD_DO_SET_RELAY, p1=0, p2=0) method(mavutil.mavlink.MAV_CMD_DO_SET_RELAY, p1=1, p2=0) self.assert_received_message_field_values('RELAY_STATUS', { "present": 3, "on": 0, }) # add another relay and ensure that it changes the "present field" self.set_parameters({ "RELAY6_FUNCTION": 1, # Enable relay 6 as a standard relay pin "RELAY6_PIN": 14, # Set pin number }) self.reboot_sitl() # Needed for relay function to take effect self.set_message_rate_hz("RELAY_STATUS", 10) # Need to re-request the message since reboot self.assert_received_message_field_values('RELAY_STATUS', { "present": 35, "on": 0, }) method(mavutil.mavlink.MAV_CMD_DO_SET_RELAY, p1=5, p2=1) self.assert_received_message_field_values('RELAY_STATUS', { "present": 35, "on": 32, }) method(mavutil.mavlink.MAV_CMD_DO_SET_RELAY, p1=0, p2=1) self.assert_received_message_field_values('RELAY_STATUS', { "present": 35, "on": 33, }) method(mavutil.mavlink.MAV_CMD_DO_SET_RELAY, p1=5, p2=0) self.assert_received_message_field_values('RELAY_STATUS', { "present": 35, "on": 1, }) self.start_subtest("test MAV_CMD_DO_REPEAT_RELAY") self.context_push() self.set_parameter("SIM_SPEEDUP", 1) method( mavutil.mavlink.MAV_CMD_DO_REPEAT_RELAY, p1=0, # servo 1 p2=5, # 5 times p3=0.5, # 1 second between being on ) for value in 0, 1, 0, 1, 0, 1, 0, 1: self.wait_message_field_values('RELAY_STATUS', { "on": value, }) self.context_pop() self.delay_sim_time(3) self.assert_received_message_field_values('RELAY_STATUS', { "on": 1, # back to initial state }) self.context_pop() self.start_subtest("test MAV_CMD_DO_SET_SERVO") for value in 1678, 2300, 0: method(mavutil.mavlink.MAV_CMD_DO_SET_SERVO, p1=13, p2=value) self.wait_servo_channel_value(13, value) self.start_subtest("test MAV_CMD_DO_REPEAT_SERVO") self.context_push() self.set_parameter("SIM_SPEEDUP", 1) trim = self.get_parameter("SERVO13_TRIM") value = 2000 method( mavutil.mavlink.MAV_CMD_DO_REPEAT_SERVO, p1=12, # servo12 p2=value, # pwm p3=5, # count p4=0.5, # cycle time (1 second between high and high) ) for value in trim, value, trim, value, trim, value, trim, value: self.wait_servo_channel_value(12, value) self.context_pop() self.set_message_rate_hz("RELAY_STATUS", 0) def MAVProxy_SetModeUsingSwitch(self): """Set modes via mavproxy switch""" port = self.sitl_rcin_port(offset=1) self.customise_SITL_commandline([ "--rc-in-port", str(port), ]) 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')] mavproxy = self.start_mavproxy(sitl_rcin_port=port) 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 def MAVProxy_SetModeUsingMode(self): '''Set modes via mavproxy mode command''' fnoo = [(1, 'ACRO'), (3, 'STEERING'), (4, 'HOLD'), ] mavproxy = self.start_mavproxy() for (num, expected) in fnoo: mavproxy.send('mode manual\n') self.wait_mode("MANUAL") mavproxy.send('mode %u\n' % num) self.wait_mode(expected) mavproxy.send('mode manual\n') self.wait_mode("MANUAL") mavproxy.send('mode %s\n' % expected) self.wait_mode(expected) self.stop_mavproxy(mavproxy) def ModeSwitch(self): ''''Set modes via modeswitch''' 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") def AuxModeSwitch(self): '''Set modes via auxswitches''' # from mavproxy_rc.py mapping = [0, 1165, 1295, 1425, 1555, 1685, 1815] self.set_parameter("MODE1", 1) # acro self.set_rc(8, mapping[1]) self.wait_mode('ACRO') self.set_rc(9, 1000) self.set_rc(10, 1000) self.set_parameters({ "RC9_OPTION": 53, # steering "RC10_OPTION": 54, # hold }) 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) def RCOverridesCancel(self): '''Test RC overrides Cancel''' self.set_parameter("SYSID_MYGCS", self.mav.source_system) self.change_mode('MANUAL') self.wait_ready_to_arm() self.zero_throttle() self.arm_vehicle() # start moving forward a little: normal_rc_throttle = 1700 throttle_override = 1900 self.progress("Establishing baseline RC input") self.set_rc(3, normal_rc_throttle) self.drain_mav() tstart = self.get_sim_time() 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") self.drain_mav() tstart = self.get_sim_time() 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") self.drain_mav() tstart = self.get_sim_time() 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 self.do_timesync_roundtrip() 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 self.disarm_vehicle() def RCOverrides(self): '''Test RC overrides''' self.set_parameter("SYSID_MYGCS", self.mav.source_system) self.set_parameter("RC12_OPTION", 46) self.reboot_sitl() self.change_mode('MANUAL') self.wait_ready_to_arm() self.set_rc(3, 1500) # throttle at zero self.arm_vehicle() # start moving forward a little: normal_rc_throttle = 1700 self.set_rc(3, normal_rc_throttle) self.wait_groundspeed(5, 100) # allow overrides: self.set_rc(12, 2000) # now override to stop: throttle_override = 1500 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 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='VFR_HUD', blocking=True) want_speed = 2.0 self.progress("Speed=%f want=<%f" % (m.groundspeed, want_speed)) if m.groundspeed < want_speed: break # 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 tstart = self.get_sim_time_cached() while True: if self.get_sim_time_cached() - tstart > 10: raise AutoTestTimeoutException("Did not speed back up") 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='VFR_HUD', blocking=True) want_speed = 5.0 self.progress("Speed=%f want=>%f" % (m.groundspeed, want_speed)) if m.groundspeed > want_speed: 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") self.wait_rc_channel_value(3, normal_rc_throttle, timeout=10) 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 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) self.mav.mav.rc_channels_override_send( 1, # target system 1, # targe component *channels ) # 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) self.set_parameter("RC_OVERRIDE_TIME", 0) self.wait_rc_channel_value(ch, 1000) self.set_parameter("RC_OVERRIDE_TIME", old) self.wait_rc_channel_value(ch, ch_override_value) ch_override_value = 1720 channels[ch-1] = ch_override_value self.progress("Sending override message %u" % ch_override_value) self.mav.mav.rc_channels_override_send( 1, # target system 1, # targe component *channels ) self.wait_rc_channel_value(ch, ch_override_value, timeout=10) 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) self.delay_sim_time(10) self.set_parameter("RC_OVERRIDE_TIME", 10) self.progress("Sending override message") ch_override_value = 1730 channels[ch-1] = ch_override_value self.progress("Sending override message %u" % ch_override_value) self.mav.mav.rc_channels_override_send( 1, # target system 1, # targe component *channels ) self.wait_rc_channel_value(ch, ch_override_value, timeout=10) tstart = self.get_sim_time() self.progress("Waiting for channel to revert to 1000 in ~10s") self.wait_rc_channel_value(ch, 1000, timeout=15) delta = self.get_sim_time() - tstart if delta > 12: raise NotAchievedException("Took too long to revert RC channel value (delta=%f)" % delta) 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)) self.progress("Disabling RC override timeout") self.set_parameter("RC_OVERRIDE_TIME", -1) ch_override_value = 1740 channels[ch-1] = ch_override_value self.progress("Sending override message %u" % ch_override_value) self.mav.mav.rc_channels_override_send( 1, # target system 1, # targe component *channels ) self.wait_rc_channel_value(ch, ch_override_value, timeout=10) 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 m = self.assert_receive_message('RC_CHANNELS', timeout=1) channel_field = "chan%u_raw" % ch m_value = getattr(m, channel_field) if m_value != ch_override_value: raise NotAchievedException("Value reverted after %f seconds when it should not have (got=%u) (want=%u)" % (delta, m_value, ch_override_value)) # noqa self.set_parameter("RC_OVERRIDE_TIME", old) 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") self.disarm_vehicle() def MANUAL_CONTROL(self): '''Test mavlink MANUAL_CONTROL''' self.set_parameters({ "SYSID_MYGCS": self.mav.source_system, "RC12_OPTION": 46, # enable/disable rc overrides }) self.reboot_sitl() self.change_mode("MANUAL") self.wait_ready_to_arm() self.arm_vehicle() self.progress("start moving forward a little") normal_rc_throttle = 1700 self.set_rc(3, normal_rc_throttle) 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 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 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") self.progress("Sending normalized throttle of %u" % (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 = 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") self.wait_rc_channel_value(3, normal_rc_throttle, timeout=10) self.disarm_vehicle() def CameraMission(self): '''Test Camera Mission Items''' self.set_parameter("CAM1_TYPE", 1) # Camera with servo trigger self.reboot_sitl() # needed for CAM1_TYPE to take effect 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: prev_cf = cf 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)) self.disarm_vehicle() def DO_SET_MODE(self): '''Set mode via MAV_COMMAND_DO_SET_MODE''' self.do_set_mode_via_command_long("HOLD") self.do_set_mode_via_command_long("MANUAL") self.do_set_mode_via_command_int("HOLD") self.do_set_mode_via_command_int("MANUAL") def RoverInitialMode(self): '''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') def MAVProxy_DO_SET_MODE(self): '''Set mode using MAVProxy commandline DO_SET_MODE''' 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) def SYSID_ENFORCE(self): '''Test enforcement of SYSID_MYGCS''' '''Run the same arming code with correct then incorrect SYSID''' if self.mav.source_system != self.mav.mav.srcSystem: raise PreconditionFailedException("Expected mav.source_system and mav.srcSystem to match") self.context_push() old_srcSystem = self.mav.mav.srcSystem ex = None try: self.set_parameter("SYSID_MYGCS", self.mav.source_system) self.set_parameter("SYSID_ENFORCE", 1, add_to_context=False) 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() 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 try: # temporarily set a different system ID than normal: self.mav.mav.srcSystem = 72 self.arm_vehicle(timeout=5) self.disarm_vehicle() success = False except AutoTestTimeoutException: success = True self.mav.mav.srcSystem = old_srcSystem if not success: raise NotAchievedException("Managed to arm with SYSID_ENFORCE set") # should be able to arm from the vehicle's own components: 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 self.mav.mav.srcSystem = old_srcSystem if comp_arm_exception is not None: raise comp_arm_exception except Exception as e: self.print_exception_caught(e) ex = e self.mav.mav.srcSystem = old_srcSystem self.set_parameter("SYSID_ENFORCE", 0, add_to_context=False) self.context_pop() if ex is not None: raise ex def Rally(self): '''Test Rally Points''' self.load_rally_using_mavproxy("rover-test-rally.txt") self.assert_parameter_value('RALLY_TOTAL', 2) self.wait_ready_to_arm() self.arm_vehicle() # calculate early to avoid round-trips while vehicle is moving: accuracy = self.get_parameter("WP_RADIUS") self.reach_heading_manual(10) self.reach_distance_manual(50) self.change_mode("RTL") # location copied in from rover-test-rally.txt: loc = mavutil.location(40.071553, -105.229401, 1583, 0) self.wait_location(loc, accuracy=accuracy, minimum_duration=10, timeout=45) self.disarm_vehicle() 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 int(1.0017 * 1e7), # latitude int(1.0017 * 1e7), # longitude 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 int(1.0017 * 1e7), # latitude int(1.0017 * 1e7), # longitude 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 int(1.0017 * 1e7), # latitude int(1.0017 * 1e7), # longitude 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 int(1.0017 * 1e7), # latitude int(1.0017 * 1e7), # longitude 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 int(1.0017 * 1e7), # latitude int(1.0017 * 1e7), # longitude 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. int(1.0017 * 1e7), # longitude 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 int(1.0017 * 1e7), # longitude 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 int(2.0017 * 1e7), # longitude 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 int(1.0017 * 1e7), # longitude 31.0000, # altitude mavutil.mavlink.MAV_MISSION_TYPE_FENCE), ) return ret def fences_which_should_not_upload(self, target_system=1, target_component=1): 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)), ] 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 int(1.0017 * 1e7), # latitude int(1.0017 * 1e7), # longitude 31.0000, # altitude mavutil.mavlink.MAV_MISSION_TYPE_FENCE), ] def fence_with_single_return_point_and_5_vertex_inclusion(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(1.0017 * 1e7), # latitude int(1.0017 * 1e7), # longitude 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 int(1.0000 * 1e7), # latitude int(1.0000 * 1e7), # longitude 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 int(1.0001 * 1e7), # latitude int(1.0000 * 1e7), # longitude 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 int(1.0001 * 1e7), # latitude int(1.0001 * 1e7), # longitude 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 int(1.0002 * 1e7), # latitude int(1.0002 * 1e7), # longitude 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 int(1.0002 * 1e7), # latitude int(1.0003 * 1e7), # longitude 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 int(lat_deg * 1e7), # latitude int(lng_deg * 1e7), # longitude 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 for fencenum in range(0, 4): 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 int(lat_deg * 1e7), # latitude int(lng_deg * 1e7), # longitude 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 [ ("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", []), ] 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") def send_fencepoint_expect_statustext(self, offset, count, lat, lng, statustext_fragment, target_system=1, target_component=1, timeout=10): 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 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") 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) # downloaded_items = self.download_using_mission_protocol(mavutil.mavlink.MAV_MISSION_TYPE_FENCE) 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 int(1.0000 * 1e7), # latitude int(1.0000 * 1e7), # longitude 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 int(1.0001 * 1e7), # latitude int(1.0000 * 1e7), # longitude 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 int(1.0001 * 1e7), # latitude int(1.0001 * 1e7), # longitude 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 int(1.00015 * 1e7), # latitude int(1.00015 * 1e7), # longitude 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 int(1.0000 * 1e7), # latitude int(1.0000 * 1e7), # longitude 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 int(1.0002 * 1e7), # latitude int(1.0000 * 1e7), # longitude 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 int(1.0002 * 1e7), # latitude int(1.0001 * 1e7), # longitude 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 int(1.0000 * 1e7), # latitude int(1.0001 * 1e7), # longitude 33.0000, # altitude mavutil.mavlink.MAV_MISSION_TYPE_FENCE), ]) def click_location_from_item(self, mavproxy, item): mavproxy.send("click %f %f\n" % (item.x*1e-7, item.y*1e-7)) 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 mavproxy = self.start_mavproxy() self.start_subsubtest("fence addcircle") self.clear_fence_using_mavproxy(mavproxy) 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 int(1.0017 * 1e7), # latitude int(1.0017 * 1e7), # longitude 0.0000, # altitude mavutil.mavlink.MAV_MISSION_TYPE_FENCE) print("item is (%s)" % str(item)) self.click_location_from_item(mavproxy, item) mavproxy.send("fence addcircle inc %u\n" % radius) 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 int(1.0017 * 1e7), # latitude int(1.0017 * 1e7), # longitude 0.0000, # altitude mavutil.mavlink.MAV_MISSION_TYPE_FENCE) self.click_location_from_item(mavproxy, item2) mavproxy.send("fence addcircle exc %f\n" % radius_exc) 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") self.clear_fence_using_mavproxy(mavproxy) self.delay_sim_time(1) pointcount = 7 mavproxy.send("fence addpoly inc 20 %u 37.2\n" % pointcount) # radius, pointcount, rotaiton self.delay_sim_time(5) downloaded_items = self.download_using_mission_protocol(mavutil.mavlink.MAV_MISSION_TYPE_FENCE) if len(downloaded_items) != pointcount: raise NotAchievedException("Did not get expected number of points returned (want=%u got=%u)" % (pointcount, len(downloaded_items))) self.end_subsubtest("fence addpoly") self.start_subsubtest("fence movepolypoint") self.clear_fence_using_mavproxy(mavproxy) self.delay_sim_time(1) triangle = 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, triangle) mavproxy.send("fence list\n") self.delay_sim_time(1) triangle[2].x += 500 triangle[2].y += 700 self.click_location_from_item(mavproxy, triangle[2]) mavproxy.send("fence movepolypoint 0 2\n") 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") mavproxy.send("fence enable\n") mavproxy.expect("fence enabled") mavproxy.send("fence disable\n") mavproxy.expect("fence disabled") self.end_subsubtest("fence enable and disable") self.stop_mavproxy(mavproxy) # MANUAL> usage: fence # noqa def GCSFence(self): '''Upload and download of fence''' target_system = 1 target_component = 1 self.progress("Testing FENCE_POINT protocol") self.start_subtest("FENCE_TOTAL manipulation") self.clear_mission(mavutil.mavlink.MAV_MISSION_TYPE_FENCE) self.assert_parameter_value("FENCE_TOTAL", 0) self.set_parameter("FENCE_TOTAL", 5) self.assert_parameter_value("FENCE_TOTAL", 5) self.clear_mission(mavutil.mavlink.MAV_MISSION_TYPE_FENCE) 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") self.roundtrip_fencepoint_protocol(0, 5, 1.2345, 5.4321, target_system=target_system, target_component=target_component) lat = 2.345 lng = 4.321 self.roundtrip_fencepoint_protocol(0, 5, lat, lng, target_system=target_system, target_component=target_component) 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: raise NotAchievedException( "Fence return point not of correct type expected (%u) got %u" % (items[0].command, mavutil.mavlink.MAV_CMD_NAV_FENCE_RETURN_POINT)) if items[0].frame != mavutil.mavlink.MAV_FRAME_GLOBAL: raise NotAchievedException( "Unexpected frame want=%s got=%s," % (self.string_for_frame(mavutil.mavlink.MAV_FRAME_GLOBAL), self.string_for_frame(items[0].frame))) 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))) self.assert_parameter_value("FENCE_TOTAL", len(items) + 1) # +1 for closing 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, target_system=target_system, target_component=target_component) 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! def Offboard(self, timeout=90): '''Test Offboard Control''' 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 got_ptgi = False 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 mc = self.mav.recv_match(type=["MISSION_CURRENT", "STATUSTEXT"], blocking=False) if mc is not None: print("%s" % str(mc)) if mc.get_type() == "STATUSTEXT": if "Mission Complete" in mc.text: break continue if mc.seq == magic_waypoint: print("At magic waypoint") if magic_waypoint_tstart == 0: magic_waypoint_tstart = self.get_sim_time_cached() ptgi = self.mav.messages.get("POSITION_TARGET_GLOBAL_INT", None) if ptgi is not None: got_ptgi = True 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)) if not got_ptgi: raise NotAchievedException("Did not get ptgi message") print("pgti: %s" % str(ptgi)) def assert_mission_count_on_link(self, mav, expected_count, target_system, target_component, mission_type): self.drain_mav_unparsed(mav=mav, freshen_sim_time=True) self.progress("waiting for a message - any message....") m = mav.recv_match(blocking=True, timeout=1) self.progress("Received (%s)" % str(m)) if not mav.mavlink20(): raise NotAchievedException("Not doing mavlink2") mav.mav.mission_request_list_send(target_system, target_component, mission_type) 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, timeout=120): 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() while True: delta = self.get_sim_time_cached() - tstart if delta > timeout: raise NotAchievedException("Did not receive MISSION_COUNT on link after %fs" % delta) m = mav.recv_match(blocking=True, timeout=1) if m is None: self.progress("No messages") continue # self.progress("Received (%s)" % str(m)) if m.get_type() == "MISSION_ACK": if m.type != mavutil.mavlink.MAV_MISSION_ACCEPTED: raise NotAchievedException("Expected MAV_MISSION_ACCEPTED, got (%s)" % m) if m.get_type() == "MISSION_COUNT": break 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") if m.mission_type != mission_type: raise NotAchievedException("Did not get expected mission type (want=%u got=%u)" % (mission_type, m.mission_type)) if m.count != expected_count: raise NotAchievedException("Bad count received (want=%u got=%u)" % (expected_count, m.count)) self.progress("Asserted mission count (type=%u) is %u after %fs" % ( (mission_type, m.count, delta))) def get_mission_item_int_on_link(self, item, mav, target_system, target_component, mission_type, delay_fn=None): self.drain_mav(mav=mav, unparsed=True) mav.mav.mission_request_int_send(target_system, target_component, item, mission_type) m = self.assert_receive_message( 'MISSION_ITEM_INT', timeout=60, condition='MISSION_ITEM_INT.mission_type==%u' % mission_type, delay_fn=delay_fn) if m is None: raise NotAchievedException("Did not receive MISSION_ITEM_INT") if m.mission_type != mission_type: raise NotAchievedException("Mission item of incorrect type") if m.target_system != mav.mav.srcSystem: raise NotAchievedException("Unexpected target system %u want=%u" % (m.target_system, mav.mav.srcSystem)) if m.seq != item: raise NotAchievedException( "Incorrect sequence number on received item got=%u want=%u" % (m.seq, item)) if m.mission_type != mission_type: raise NotAchievedException( "Mission type incorrect on received item (want=%u got=%u)" % (mission_type, m.mission_type)) if m.target_component != mav.mav.srcComponent: raise NotAchievedException( "Unexpected target component %u want=%u" % (m.target_component, mav.mav.srcComponent)) return m def get_mission_item_on_link(self, item, mav, target_system, target_component, mission_type): self.drain_mav(mav=mav, unparsed=True) mav.mav.mission_request_send(target_system, target_component, item, mission_type) m = mav.recv_match(type='MISSION_ITEM', blocking=True, timeout=60) if m is None: raise NotAchievedException("Did not receive MISSION_ITEM") if m.target_system != mav.mav.srcSystem: raise NotAchievedException("Unexpected target system %u want=%u" % (m.target_system, mav.mav.srcSystem)) if m.seq != item: raise NotAchievedException("Incorrect sequence number on received item_int got=%u want=%u" % (m.seq, item)) if m.mission_type != mission_type: raise NotAchievedException("Mission type incorrect on received item_int (want=%u got=%u)" % (mission_type, m.mission_type)) if m.target_component != mav.mav.srcComponent: raise NotAchievedException("Unexpected target component %u want=%u" % (m.target_component, mav.mav.srcComponent)) return m def assert_receive_mission_item_request(self, mission_type, seq): self.progress("Expecting request for item %u" % seq) m = self.assert_receive_message('MISSION_REQUEST', timeout=1) 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") 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 %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): return False if not self.mavproxy_version_gt(1, 8, 69): 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) def click_three_in(self, mavproxy, target_system=1, target_component=1): mavproxy.send('rally clear\n') self.drain_mav() # there are race conditions in MAVProxy. Beware. mavproxy.send("click 1.0 1.0\n") mavproxy.send("rally add\n") self.delay_sim_time(1) mavproxy.send("click 2.0 2.0\n") mavproxy.send("rally add\n") self.delay_sim_time(1) mavproxy.send("click 3.0 3.0\n") mavproxy.send("rally add\n") self.delay_sim_time(10) self.assert_mission_count_on_link( self.mav, 3, target_system, target_component, mavutil.mavlink.MAV_MISSION_TYPE_RALLY, ) def GCSRally(self, target_system=1, target_component=1): '''Upload and download of rally using MAVProxy''' self.start_subtest("Testing mavproxy CLI for rally points") if not self.mavproxy_can_do_mision_item_protocols(): return mavproxy = self.start_mavproxy() mavproxy.send('rally clear\n') self.start_subsubtest("rally add") mavproxy.send('rally clear\n') lat_s = "-5.6789" lng_s = "98.2341" lat = float(lat_s) lng = float(lng_s) mavproxy.send('click %s %s\n' % (lat_s, lng_s)) self.drain_mav() mavproxy.send('rally add\n') 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), )) if (downloaded_items[0].x - int(lat * 1e7)) > 1: raise NotAchievedException("Bad rally lat. Want=%d got=%d" % (int(lat * 1e7), downloaded_items[0].x)) if (downloaded_items[0].y - int(lng * 1e7)) > 1: raise NotAchievedException("Bad rally lng. Want=%d got=%d" % (int(lng * 1e7), downloaded_items[0].y)) 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") util.pexpect_drain(mavproxy) mavproxy.send('rally list\n') mavproxy.expect(r"Saved 1 rally items to ([^\s]*)\s") filename = mavproxy.match.group(1) 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") util.pexpect_drain(mavproxy) save_tmppath = self.buildlogs_path("rally-testing-tmp.txt") mavproxy.send('rally save %s\n' % save_tmppath) mavproxy.expect(r"Saved 1 rally items to ([^\s]*)\s") filename = mavproxy.match.group(1) 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") util.pexpect_drain(mavproxy) csvpath = self.buildlogs_path("rally-testing-tmp.csv") mavproxy.send('rally savecsv %s\n' % csvpath) mavproxy.expect('"Seq","Frame"') 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() mavproxy.send('rally clear\n') 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") 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 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)) 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)) self.end_subsubtest("rally load") self.start_subsubtest("rally changealt") 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") 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() mavproxy.send("rally changealt 1 17.6\n") self.assert_receive_mission_ack(mavutil.mavlink.MAV_MISSION_TYPE_RALLY, target_system=255, target_component=0) self.delay_sim_time(10) mavproxy.send("rally changealt 2 19.1\n") 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)) 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)) # 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)) 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)) # 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") mavproxy.send("rally changealt 1 17.3 2\n") 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 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)) # 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)) 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)) # 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") 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") self.delay_sim_time(5) self.assert_mission_count_on_link( self.mav, 2, target_system, target_component, mavutil.mavlink.MAV_MISSION_TYPE_RALLY, ) mavproxy.send("click 3.0 3.0\n") mavproxy.send("rally move 2\n") self.assert_receive_mission_ack(mavutil.mavlink.MAV_MISSION_TYPE_RALLY, target_system=255, target_component=0) mavproxy.send("click 4.12345 4.987654\n") mavproxy.send("rally move 1\n") 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") self.drain_mav() mavproxy.send('rally clear\n') self.drain_mav() # there are race conditions in MAVProxy. Beware. 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") 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") mavproxy.send("click %f %f\n" % (click_lat, click_lon)) mavproxy.send("rally movemulti 2 1 3\n") # 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") mavproxy.send("click %f %f\n" % (2, 2)) mavproxy.send("rally movemulti 2 1 3 90\n") # 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") mavproxy.send("rally param 3 2 5\n") mavproxy.expect("Set param 2 for 3 to 5.000000") 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") mavproxy.send("rally remove 3\n") 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") mavproxy.send("rally remove 1\n") 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") mavproxy.send("rally remove 1\n") 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? mavproxy.send("rally show %s\n" % save_tmppath) self.end_subsubtest("rally show") # savelocal must be run immediately after show! self.start_subsubtest("rally savelocal") util.pexpect_drain(mavproxy) savelocal_path = self.buildlogs_path("rally-testing-tmp-local.txt") mavproxy.send('rally savelocal %s\n' % savelocal_path) 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) 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") 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") mavproxy.send("rally remove 1\n") self.delay_sim_time(5) self.assert_mission_count_on_link( self.mav, 2, target_system, target_component, mavutil.mavlink.MAV_MISSION_TYPE_RALLY, ) mavproxy.send("rally undo\n") 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) mavproxy.send("click 4.12345 4.987654\n") mavproxy.send("rally move 1\n") # move has already been tested, assume it works... self.delay_sim_time(5) mavproxy.send("rally undo\n") 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) rally_update_tmpfilepath = self.buildlogs_path("rally-tmp-update.txt") mavproxy.send("rally save %s\n" % rally_update_tmpfilepath) self.delay_sim_time(5) self.progress("Moving waypoint") mavproxy.send("click 13.0 13.0\n") mavproxy.send("rally move 1\n") self.delay_sim_time(5) self.progress("Reverting to original") mavproxy.send("rally update %s\n" % rally_update_tmpfilepath) 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") mavproxy.send("click 13.0 13.0\n") mavproxy.send("rally move 1\n") self.delay_sim_time(5) mavproxy.send("click 17.0 17.0\n") mavproxy.send("rally move 2\n") self.delay_sim_time(5) self.progress("Reverting to original item 2") mavproxy.send("rally update %s 2\n" % rally_update_tmpfilepath) 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") self.delay_sim_time(1) if self.get_parameter("RALLY_TOTAL") != 0: raise NotAchievedException("Failed to clear rally points") self.stop_mavproxy(mavproxy) # MANUAL> usage: rally # noqa def RallyUploadDownload(self, target_system=1, target_component=1): '''Upload and download of rally''' old_srcSystem = self.mav.mav.srcSystem self.drain_mav() try: item1_lat = int(2.0000 * 1e7) items = [ 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_RALLY_POINT, 0, # current 0, # autocontinue 0, # 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_RALLY), self.mav.mav.mission_item_int_encode( 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_lat, # latitude int(2.0000 * 1e7), # longitude 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, mavutil.mavlink.MAV_CMD_NAV_RALLY_POINT, 0, # current 0, # autocontinue 0, # p1 0, # p2 0, # p3 0, # p4 int(3.0000 * 1e7), # latitude int(3.0000 * 1e7), # longitude 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): raise NotAchievedException( "Did not download correct number of items want=%u got=%u" % (len(downloaded), len(items))) rally_total = self.get_parameter("RALLY_TOTAL") if rally_total != len(downloaded): raise NotAchievedException( "Unexpected rally point count: want=%u got=%u" % (len(items), rally_total)) 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: raise NotAchievedException( "Failed to prune rally points by setting parameter. want=%u got=%u" % (2, len(downloaded))) self.progress("Uploading a third item using old protocol") new_item2_lat = int(6.0 * 1e7) 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, int(7.0 * 1e7), 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: raise NotAchievedException( "resetting rally point count didn't change items returned") if downloaded[2].x != new_item2_lat: raise NotAchievedException( "Bad lattitude in downloaded item: want=%u got=%u" % (new_item2_lat, downloaded[2].x)) 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) if m.target_system != self.mav.source_system: raise NotAchievedException( "Bad target_system on received rally point (want=%u got=%u)" % (255, m.target_system)) if m.target_component != self.mav.source_component: # autotest's component ID 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: 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") m = self.mav.recv_match(type=['STATUSTEXT', 'MISSION_ACK'], blocking=True, timeout=1) 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?") 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) self.progress("ensure a mavlink1 connection can't do anything useful with new item types") self.set_parameter("SERIAL2_PROTOCOL", 1) self.reboot_sitl() mav2 = mavutil.mavlink_connection("tcp:localhost:5763", robust_parsing=True, source_system=7, source_component=7) 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, ) # this relies on magic upgrade to serial2: self.set_parameter("SERIAL2_PROTOCOL", 2) expected_count = 3 self.progress("Assert mission count on new link") self.assert_mission_count_on_link( mav2, expected_count, target_system, target_component, mavutil.mavlink.MAV_MISSION_TYPE_RALLY) self.progress("Assert mission count on original link") self.assert_mission_count_on_link( self.mav, expected_count, target_system, target_component, mavutil.mavlink.MAV_MISSION_TYPE_RALLY) self.progress("Get first item on new link") def drain_self_mav_fn(): self.drain_mav(self.mav) m2 = self.get_mission_item_int_on_link( 2, mav2, target_system, target_component, mavutil.mavlink.MAV_MISSION_TYPE_RALLY, delay_fn=drain_self_mav_fn) self.progress("Get first item on original link") m = self.get_mission_item_int_on_link( 2, self.mav, target_system, target_component, mavutil.mavlink.MAV_MISSION_TYPE_RALLY) if m2.x != m.x: raise NotAchievedException("mission items do not match (%d vs %d)" % (m2.x, m.x)) self.get_mission_item_on_link(2, self.mav, target_system, target_component, mavutil.mavlink.MAV_MISSION_TYPE_RALLY) # 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, ) self.start_subtest("Should enforce items come from correct GCS") self.drain_mav(unparsed=True) 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) self.drain_mav(unparsed=True) 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) self.drain_mav(unparsed=True) 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") self.drain_mav(unparsed=True) 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) self.drain_mav(mav=self.mav, unparsed=True) 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: m = self.assert_receive_message('MISSION_REQUEST', timeout=1) if m.mission_type != mavutil.mavlink.MAV_MISSION_TYPE_RALLY: raise NotAchievedException("Mission request of incorrect type") if m.seq != 1: raise NotAchievedException("Unexpected sequence number (expected=%u got=%u)" % (1, m.seq)) items[1].pack(self.mav.mav) self.drain_mav(unparsed=True) 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") self.drain_mav(unparsed=True) 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) 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") self.drain_mav(mav=self.mav, unparsed=True) 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 int(1.1000 * 1e7), # latitude int(1.2000 * 1e7), # longitude 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) self.drain_mav(unparsed=True) 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) self.drain_mav(unparsed=True) 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) self.drain_mav(unparsed=True) 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") self.drain_mav(unparsed=True) 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 int(1.1000 * 1e7), # latitude int(1.2000 * 1e7), # longitude 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") self.drain_mav(unparsed=True) 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 int(1.1000 * 1e7), # latitude int(1.2000 * 1e7), # longitude 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) self.drain_mav(unparsed=True) 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") self.drain_mav(unparsed=True) 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") self.drain_mav(unparsed=True) 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") self.drain_mav(unparsed=True) 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 int(1.1000 * 1e7), # latitude int(1.2000 * 1e7), # longitude 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)") self.drain_mav(unparsed=True) 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 int(1.1000 * 1e7), # latitude int(1.2000 * 1e7), # longitude 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") item1_latitude = int(1.2345 * 1e7) self.drain_mav(unparsed=True) 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 int(1.2000 * 1e7), # longitude 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) self.drain_mav(unparsed=True) 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") 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) self.drain_mav(unparsed=True) self.mav.mav.mission_clear_all_send(target_system, target_component, mavutil.mavlink.MAV_MISSION_TYPE_RALLY) self.assert_receive_mission_ack(mavutil.mavlink.MAV_MISSION_TYPE_RALLY) 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) self.drain_mav(unparsed=True) self.mav.mav.mission_clear_all_send(target_system, target_component, mavutil.mavlink.MAV_MISSION_TYPE_MISSION) self.assert_receive_mission_ack(mavutil.mavlink.MAV_MISSION_TYPE_MISSION) 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) self.start_subtest("try sending out-of-range counts") self.drain_mav(unparsed=True) 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) self.drain_mav(unparsed=True) 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 self.reboot_sitl() def ClearMission(self, target_system=1, target_component=1): '''check mission clearing''' self.start_subtest("Clear via mission_clear_all message") self.upload_simple_relhome_mission([ (mavutil.mavlink.MAV_CMD_NAV_WAYPOINT, 20, 0, 20), (mavutil.mavlink.MAV_CMD_NAV_WAYPOINT, 20, 0, 20), (mavutil.mavlink.MAV_CMD_NAV_WAYPOINT, 20, 0, 20), (mavutil.mavlink.MAV_CMD_NAV_WAYPOINT, 20, 0, 20), (mavutil.mavlink.MAV_CMD_NAV_WAYPOINT, 20, 0, 20), ]) self.set_current_waypoint(3) self.mav.mav.mission_clear_all_send( target_system, target_component, mavutil.mavlink.MAV_MISSION_TYPE_MISSION ) self.assert_current_waypoint(0) self.drain_mav() self.start_subtest("No clear mission while it is being uploaded by a different node") mav2 = mavutil.mavlink_connection("tcp:localhost:5763", robust_parsing=True, source_system=7, source_component=7) self.context_push() self.context_collect("MISSION_REQUEST") mav2.mav.mission_count_send(target_system, target_component, 17, mavutil.mavlink.MAV_MISSION_TYPE_MISSION) ack = self.assert_receive_message('MISSION_REQUEST', check_context=True, mav=mav2) self.context_pop() self.context_push() self.context_collect("MISSION_ACK") self.mav.mav.mission_clear_all_send( target_system, target_component, mavutil.mavlink.MAV_MISSION_TYPE_MISSION ) ack = self.assert_receive_message('MISSION_ACK', check_context=True) self.assert_message_field_values(ack, { "type": mavutil.mavlink.MAV_MISSION_DENIED, }) self.context_pop() self.progress("Test cancel upload from second connection") self.context_push() self.context_collect("MISSION_ACK") mav2.mav.mission_clear_all_send( target_system, target_component, mavutil.mavlink.MAV_MISSION_TYPE_MISSION ) ack = self.assert_receive_message('MISSION_ACK', mav=mav2, check_context=True) self.assert_message_field_values(ack, { "type": mavutil.mavlink.MAV_MISSION_ACCEPTED, }) self.context_pop() mav2.close() del mav2 def GCSMission(self): '''check MAVProxy's waypoint handling of missions''' target_system = 1 target_component = 1 mavproxy = self.start_mavproxy() mavproxy.send('wp clear\n') self.delay_sim_time(1) if self.get_parameter("MIS_TOTAL") != 0: raise NotAchievedException("Failed to clear mission") m = self.assert_receive_message('MISSION_CURRENT', timeout=5, verbose=True) if m.seq != 0: raise NotAchievedException("Bad mission current") self.load_mission_using_mavproxy(mavproxy, "rover-gripper-mission.txt") set_wp = 1 mavproxy.send('wp set %u\n' % set_wp) self.wait_current_waypoint(set_wp) self.start_subsubtest("wp changealt") downloaded_items = self.download_using_mission_protocol(mavutil.mavlink.MAV_MISSION_TYPE_MISSION) changealt_item = 1 # oldalt = downloaded_items[changealt_item].z want_newalt = 37.2 mavproxy.send('wp changealt %u %f\n' % (changealt_item, want_newalt)) self.delay_sim_time(15) downloaded_items = self.download_using_mission_protocol(mavutil.mavlink.MAV_MISSION_TYPE_MISSION) if abs(downloaded_items[changealt_item].z - want_newalt) > 0.0001: 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 mavproxy.send('click %f %f\n' % (new_home_lat, new_home_lng)) mavproxy.send('wp sethome\n') 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") mavproxy.send('wp slope\n') mavproxy.expect("WP3: slope 0.1") self.delay_sim_time(5) self.end_subsubtest("wp slope") 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") mavproxy.send("wp clear\n") self.delay_sim_time(5) mavproxy.send("wp list\n") self.delay_sim_time(5) items = [ None, 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 0, # p1 0, # p2 0, # p3 0, # p4 int(1.0 * 1e7), # latitude int(1.0 * 1e7), # longitude 33.0000, # 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 0, # p1 0, # p2 0, # p3 0, # p4 int(2.0 * 1e7), # latitude int(2.0 * 1e7), # longitude 33.0000, # altitude mavutil.mavlink.MAV_MISSION_TYPE_MISSION), ] mavproxy.send("click 5 5\n") # space for home position mavproxy.send("wp add\n") self.delay_sim_time(5) self.click_location_from_item(mavproxy, items[1]) mavproxy.send("wp add\n") self.delay_sim_time(5) self.click_location_from_item(mavproxy, items[2]) mavproxy.send("wp add\n") 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) mavproxy.send("wp split 2\n") self.delay_sim_time(5) items_with_split_in = [ items[0], items[1], 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 0, # p1 0, # p2 0, # p3 0, # p4 int(1.5 * 1e7), # latitude int(1.5 * 1e7), # longitude 33.0000, # altitude mavutil.mavlink.MAV_MISSION_TYPE_MISSION), 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) self.stop_mavproxy(mavproxy) # MANUAL> usage: wp # noqa 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") 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 ) m = self.mav.recv_match(blocking=True, timeout=1) if m is None: continue t = m.get_type() if t == "POSITION_TARGET_GLOBAL_INT": self.progress("Target: (%s)" % str(m), send_statustext=False) elif t == "GLOBAL_POSITION_INT": self.progress("Position: (%s)" % str(m), send_statustext=False) delta = self.get_distance( mavutil.location(m.lat * 1e-7, m.lon * 1e-7, 0, 0), loc) self.progress("delta: %s" % str(delta), send_statustext=False) if delta < max_delta: self.progress("Reached destination") 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 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") 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 ) m = self.mav.recv_match(blocking=True, timeout=1) if m is None: continue t = m.get_type() if t == "POSITION_TARGET_GLOBAL_INT": self.progress("Target: (%s)" % str(m)) elif t == "GLOBAL_POSITION_INT": self.progress("Position: (%s)" % str(m)) elif t == "FENCE_STATUS": self.progress("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 self.wait_distance_to_home(3, 7, timeout=30) def drive_somewhere_stop_at_boundary(self, loc, expected_stopping_point, expected_distance_epsilon=1.0, 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") 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 ) 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)) 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)) print("delta: %s want_delta<%f" % (str(delta), expected_distance_epsilon)) at_stopping_point = delta < expected_distance_epsilon elif t == "VFR_HUD": print("groundspeed: %f" % m.groundspeed) if at_stopping_point: if m.groundspeed < 1: self.progress("Seemed to have stopped at stopping point") return def assert_fence_breached(self): m = self.assert_receive_message('FENCE_STATUS', timeout=10) 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.set_parameters({ "FENCE_TYPE": 2, # circle only }) 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.set_parameters({ "FENCE_TYPE": 6, # polyfence + circle }) 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( target_system, target_component, 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 int(here.lat * 1e7), # latitude int(here.lng * 1e7), # longitude 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 int(self.offset_location_ne(here, 100, 100).lat * 1e7), # latitude int(here.lng * 1e7), # longitude 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() try: self.arm_motors_with_rc_input() except NotAchievedException: pass if self.armed(): 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 int(here.lat * 1e7), # latitude int(here.lng * 1e7), # longitude 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 int(self.offset_location_ne(here, 100, 100).lat * 1e7), # latitude int(here.lng * 1e7), # longitude 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() try: self.arm_motors_with_rc_input() except NotAchievedException: pass if self.armed(): 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, ]), (mavutil.mavlink.MAV_CMD_NAV_FENCE_POLYGON_VERTEX_EXCLUSION, [ # 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() try: self.arm_motors_with_rc_input() except NotAchievedException: pass if self.armed(): 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, ]), (mavutil.mavlink.MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION, [ # 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() try: self.arm_motors_with_rc_input() except NotAchievedException: pass if self.armed(): 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): self.start_subtest("fence_upload timeouts 1") 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 received_text = False received_ack = False while True: if received_ack and received_text: break if self.get_sim_time_cached() - tstart > 10: raise NotAchievedException("Did not get expected ack and statustext") 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": 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 if m.get_type() == "STATUSTEXT": if "upload time" in m.text: received_text = True continue if rerequest_count < 3: raise NotAchievedException("Expected several re-requests of mission item") self.end_subtest("fence upload timeouts 1") 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): 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) 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 int(1.1 * 1e7), # latitude int(1.2 * 1e7), # longitude 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) self.progress("Sending item with seq=1") 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 int(1.1 * 1e7), # latitude int(1.2 * 1e7), # longitude 33.0000, # altitude mavutil.mavlink.MAV_MISSION_TYPE_FENCE) self.expect_request_for_item(item) self.set_parameter("SIM_SPEEDUP", old_speedup) self.progress("Now waiting for a timeout") tstart = self.get_sim_time() rerequest_count = 0 received_text = False received_ack = False while True: if received_ack and received_text: break if self.get_sim_time_cached() - tstart > 10: raise NotAchievedException("Did not get expected ack and statustext") 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": 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 if m.get_type() == "STATUSTEXT": if "upload time" in m.text: received_text = True continue if rerequest_count < 3: raise NotAchievedException("Expected several re-requests of mission item") self.end_subtest("fence upload timeouts 2") 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 # 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) 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) 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)) 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 ]) 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 ]) 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 ]) 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, ]), (mavutil.mavlink.MAV_CMD_NAV_FENCE_POLYGON_VERTEX_EXCLUSION, [ # 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)) def PolyFence(self): '''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)) self.set_parameters({ "FENCE_ENABLE": 1, "AVOID_ENABLE": 0, }) # self.set_parameter("SIM_SPEEDUP", 1) self.test_poly_fence_big_then_small() 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), }), (mavutil.mavlink.MAV_CMD_NAV_FENCE_CIRCLE_INCLUSION, { "radius": 30, "loc": self.offset_location_ne(here, 20, 0), }), ]) if self.mavproxy is not None: # handy for getting pretty pictures self.mavproxy.send("fence list\n") 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) 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") self.test_poly_fence_inclusion_overlapping_inclusion_circles( here, 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, -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, ]), (mavutil.mavlink.MAV_CMD_NAV_FENCE_CIRCLE_INCLUSION, { "radius": 30, "loc": self.offset_location_ne(here, -20, 0), }), ]) self.delay_sim_time(5) if self.mavproxy is not None: self.mavproxy.send("fence list\n") 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) 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, ]), (mavutil.mavlink.MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION, [ 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, ]), ]) self.delay_sim_time(5) if self.mavproxy is not None: self.mavproxy.send("fence list\n") 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) 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, ]), (mavutil.mavlink.MAV_CMD_NAV_FENCE_POLYGON_VERTEX_EXCLUSION, [ # 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, ]), (mavutil.mavlink.MAV_CMD_NAV_FENCE_CIRCLE_EXCLUSION, { "radius": 30, "loc": self.offset_location_ne(here, -60, 0), }), ]) self.delay_sim_time(5) if self.mavproxy is not None: self.mavproxy.send("fence list\n") 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) def SmartRTL(self): '''Test SmartRTL''' 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") self.wait_distance_to_location(loc, 0, 5, timeout=60) self.progress("Ensure we get home") self.wait_distance_to_home(3, 7, timeout=30) self.disarm_vehicle() def MotorTest(self): '''Motor Test triggered via mavlink''' magic_throttle_value = 1812 self.wait_ready_to_arm() self.run_cmd( mavutil.mavlink.MAV_CMD_DO_MOTOR_TEST, 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) ) self.wait_armed() 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) self.wait_disarmed() def PolyFenceObjectAvoidanceGuided(self, target_system=1, target_component=1): '''PolyFence object avoidance tests - guided mode''' 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) self.test_poly_fence_object_avoidance_guided_two_squares( target_system=target_system, target_component=target_component) def PolyFenceObjectAvoidanceAuto(self, target_system=1, target_component=1): '''PolyFence object avoidance tests - auto mode''' mavproxy = self.start_mavproxy() self.load_fence_using_mavproxy(mavproxy, "rover-path-planning-fence.txt") self.stop_mavproxy(mavproxy) # self.load_fence("rover-path-planning-fence.txt") self.load_mission("rover-path-planning-mission.txt") self.set_parameters({ "AVOID_ENABLE": 3, "OA_TYPE": 2, "FENCE_MARGIN": 0, # FIXME: https://github.com/ArduPilot/ardupilot/issues/11601 }) self.reboot_sitl() self.change_mode('AUTO') self.wait_ready_to_arm() self.arm_vehicle() self.set_parameter("FENCE_ENABLE", 1) # target_loc is copied from the mission file target_loc = mavutil.location(40.073799, -105.229156) self.wait_location(target_loc, height_accuracy=None, timeout=300) # mission has RTL as last item self.wait_distance_to_home(3, 7, timeout=300) self.disarm_vehicle() def send_guided_mission_item(self, loc, target_system=1, target_component=1): self.mav.mav.mission_item_send( 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.set_parameters({ "AVOID_ENABLE": 3, "OA_TYPE": 2, "FENCE_MARGIN": 0, # FIXME: https://github.com/ArduPilot/ardupilot/issues/11601 }) self.reboot_sitl() self.change_mode('GUIDED') self.wait_ready_to_arm() self.arm_vehicle() self.set_parameter("FENCE_ENABLE", 1) 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() def WheelEncoders(self): '''make sure wheel encoders are generally working''' self.set_parameters({ "WENC_TYPE": 10, "EK3_ENABLE": 1, "AHRS_EKF_TYPE": 3, }) self.reboot_sitl() self.change_mode("LOITER") self.wait_ready_to_arm() self.change_mode("MANUAL") self.arm_vehicle() self.set_rc(3, 1600) m = self.assert_receive_message('WHEEL_DISTANCE', timeout=5) 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() 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, ]), (mavutil.mavlink.MAV_CMD_NAV_FENCE_POLYGON_VERTEX_EXCLUSION, [ # 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, ]), ]) if self.mavproxy is not None: self.mavproxy.send("fence list\n") self.context_push() ex = None try: self.set_parameters({ "AVOID_ENABLE": 3, "OA_TYPE": 2, }) self.reboot_sitl() self.change_mode('GUIDED') self.wait_ready_to_arm() self.set_parameter("FENCE_ENABLE", 1) if self.mavproxy is not None: self.mavproxy.send("fence list\n") 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: self.print_exception_caught(e) 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, ]), (mavutil.mavlink.MAV_CMD_NAV_FENCE_POLYGON_VERTEX_EXCLUSION, [ # 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, ]), (mavutil.mavlink.MAV_CMD_NAV_FENCE_CIRCLE_INCLUSION, { "radius": 30, "loc": self.offset_location_ne(here, -60, 0), }), ]) if self.mavproxy is not None: self.mavproxy.send("fence list\n") self.set_parameters({ "FENCE_ENABLE": 1, "AVOID_ENABLE": 3, }) 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, target_component=target_component, expected_distance_epsilon=3) self.set_parameter("AVOID_ENABLE", 0) self.do_RTL() def do_RTL(self, distance_min=3, distance_max=7, timeout=60): self.change_mode("RTL") self.wait_distance_to_home(distance_min, distance_max, timeout=timeout) def PolyFenceAvoidance(self, target_system=1, target_component=1): '''PolyFence avoidance tests''' self.change_mode("LOITER") self.wait_ready_to_arm() self.arm_vehicle() self.change_mode("MANUAL") self.reach_heading_manual(180, turn_right=False) self.change_mode("GUIDED") self.test_poly_fence_avoidance_dont_breach_exclusion(target_system=target_system, target_component=target_component) self.disarm_vehicle() def PolyFenceObjectAvoidanceBendyRuler(self, target_system=1, target_component=1): '''PolyFence object avoidance tests - bendy ruler''' self.load_fence_using_mavwp("rover-path-bendyruler-fence.txt") self.set_parameters({ "AVOID_ENABLE": 3, "OA_TYPE": 1, "FENCE_ENABLE": 1, "WP_RADIUS": 5, }) self.reboot_sitl() self.set_parameters({ "OA_BR_LOOKAHEAD": 50, }) self.change_mode('GUIDED') self.wait_ready_to_arm() self.arm_vehicle() target_loc = mavutil.location(40.071060, -105.227734, 1584, 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() def PolyFenceObjectAvoidanceBendyRulerEasierGuided(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. ''' self.load_fence_using_mavwp("rover-path-bendyruler-fence.txt") self.set_parameters({ "AVOID_ENABLE": 3, "OA_TYPE": 1, "FENCE_ENABLE": 1, "WP_RADIUS": 5, }) self.reboot_sitl() self.set_parameters({ "OA_BR_LOOKAHEAD": 60, }) self.change_mode('GUIDED') self.wait_ready_to_arm() self.arm_vehicle() target_loc = mavutil.location(40.071260, -105.227000, 1584, 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() def PolyFenceObjectAvoidanceBendyRulerEasierAuto(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. ''' self.load_fence_using_mavwp("rover-path-bendyruler-fence.txt") self.load_mission("rover-path-bendyruler-mission-easier.txt") self.set_parameters({ "AVOID_ENABLE": 3, "OA_TYPE": 1, # BendyRuler "FENCE_ENABLE": 1, "WP_RADIUS": 5, }) self.reboot_sitl() self.set_parameters({ "OA_BR_LOOKAHEAD": 60, }) self.change_mode('AUTO') self.wait_ready_to_arm() self.arm_vehicle() target_loc = mavutil.location(40.071260, -105.227000, 1584, 0) # target_loc is copied from the mission file self.wait_location(target_loc, timeout=300) # mission has RTL as last item self.wait_distance_to_home(3, 7, timeout=300) self.disarm_vehicle() def test_scripting_simple_loop(self): self.start_subtest("Scripting simple loop") self.context_push() messages = [] def my_message_hook(mav, message): if message.get_type() != 'STATUSTEXT': return messages.append(message) self.install_message_hook_context(my_message_hook) 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() # 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") def test_scripting_internal_test(self): self.start_subtest("Scripting internal test") self.context_push() self.set_parameters({ "SCR_ENABLE": 1, "SCR_HEAP_SIZE": 1024000, "SCR_VM_I_COUNT": 1000000, }) self.install_test_modules_context() self.install_mavlink_module_context() self.install_test_scripts_context([ "scripting_test.lua", "scripting_require_test_2.lua", "math.lua", "strings.lua", "mavlink_test.lua", ]) self.context_collect('STATUSTEXT') self.context_collect('NAMED_VALUE_FLOAT') self.reboot_sitl() for success_text in [ "Internal tests passed", "Require test 2 passed", "Math tests passed", "String tests passed", "Received heartbeat from" ]: self.wait_statustext(success_text, check_context=True) for success_nvf in [ "test", ]: self.assert_received_message_field_values("NAMED_VALUE_FLOAT", { "name": success_nvf, }, check_context=True) self.context_pop() self.reboot_sitl() def test_scripting_hello_world(self): self.start_subtest("Scripting hello world") self.context_push() self.context_collect("STATUSTEXT") self.set_parameter("SCR_ENABLE", 1) self.install_example_script_context("hello_world.lua") self.reboot_sitl() self.wait_statustext('hello, world', check_context=True, timeout=30) self.context_pop() self.reboot_sitl() def ScriptingSteeringAndThrottle(self): '''Scripting test - steering and throttle''' self.start_subtest("Scripting square") self.context_push() self.install_example_script_context("rover-set-steering-and-throttle.lua") self.set_parameter("SCR_ENABLE", 1) self.reboot_sitl() 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() def test_scripting_auxfunc(self): self.start_subtest("Scripting aufunc triggering") self.context_push() self.context_collect("STATUSTEXT") self.set_parameters({ "SCR_ENABLE": 1, "RELAY1_FUNCTION": 1, "RELAY1_PIN": 1 }) self.install_example_script_context("RCIN_test.lua") self.reboot_sitl() self.wait_parameter_value("SIM_PIN_MASK", 121) self.wait_parameter_value("SIM_PIN_MASK", 123) self.wait_parameter_value("SIM_PIN_MASK", 121) self.context_pop() self.reboot_sitl() def test_scripting_print_home_and_origin(self): self.start_subtest("Scripting print home and origin") self.context_push() 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 - ") 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() self.set_parameter("SCR_ENABLE", 1) self.install_example_script_context("ahrs-set-home-to-vehicle-location.lua") self.reboot_sitl() self.wait_statustext("Home position reset") self.context_pop() self.reboot_sitl() def test_scripting_serial_loopback(self): self.start_subtest("Scripting serial loopback test") self.context_push() self.context_collect('STATUSTEXT') self.set_parameters({ "SCR_ENABLE": 1, "SCR_SDEV_EN": 1, "SCR_SDEV1_PROTO": 28, }) self.install_test_script_context("serial_loopback.lua") self.reboot_sitl() for success_text in [ "driver -> device good", "device -> driver good", ]: self.wait_statustext(success_text, check_context=True) self.context_pop() self.reboot_sitl() def Scripting(self): '''Scripting test''' self.test_scripting_set_home_to_vehicle_location() self.test_scripting_print_home_and_origin() self.test_scripting_hello_world() self.test_scripting_simple_loop() self.test_scripting_internal_test() self.test_scripting_auxfunc() self.test_scripting_serial_loopback() 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 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 frame, 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.check_mission_upload_download(items) def MissionFrames(self, target_system=1, target_component=1): '''Upload/Download of items in different frames''' 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) def mavlink_time_boot_ms(self): '''returns a time suitable for putting into the time_boot_ms entry in mavlink packets''' return int(time.time() * 1000000) def mavlink_time_boot_us(self): '''returns a time suitable for putting into the time_boot_ms entry in mavlink packets''' return int(time.time() * 1000000000) 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 ) 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 if not expected_distance_sensor_message.get("__found__", False): self.progress("Marking message as found") expected_distance_sensor_message["__found__"] = True if (m.current_distance - expected_distance_sensor_message["distance"] > 1): raise NotAchievedException( "Bad distance for orient=%u want=%u got=%u" % (orientation, expected_distance_sensor_message["distance"], m.current_distance)) 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): self.progress("message still not found (orient=%u" % expected_distance_sensor_message["orientation"]) all_found = False break if all_found: self.progress("Have now seen all expected messages") break def AP_Proximity_MAV(self): '''Test MAV proximity backend''' self.set_parameters({ "PRX1_TYPE": 2, # AP_Proximity_MAV "OA_TYPE": 2, # dijkstra "OA_DB_OUTPUT": 3, # send all items }) self.reboot_sitl() # 1 laser pointing straight forward: self.send_obstacle_distances_expect_distance_sensor_messages( { "distances": [234], "increment_f": 10, "angle_offset": 0.0, "min_distance": 0, "max_distance": 1000, # cm }, [ {"orientation": 0, "distance": 234}, ]) # 5 lasers at front of vehicle, spread over 40 degrees: self.send_obstacle_distances_expect_distance_sensor_messages( { "distances": [111, 222, 333, 444, 555], "increment_f": 10, "angle_offset": -20.0, "min_distance": 0, "max_distance": 1000, # cm }, [ {"orientation": 0, "distance": 111}, ]) # lots of dense readings (e.g. vision camera: distances = [0] * 72 for i in range(0, 72): distances[i] = 1000 + 10*abs(36-i) 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 }, [ {"orientation": 0, "distance": 1000}, {"orientation": 1, "distance": 1190}, {"orientation": 7, "distance": 1190}, ]) def SendToComponents(self): '''Test ArduPilot send_to_components function''' self.set_parameter("CAM1_TYPE", 5) # Camera with MAVlink trigger self.reboot_sitl() # needed for CAM1_TYPE to take effect 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.context_push() self.context_collect('COMMAND_LONG') 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 0, # 1 shot or start filming 17, # command id (de-dupe field) 0, # extra_param 0.0, # extra_value ) self.mav.mav.srcSystem = old_srcSystem self.assert_received_message_field_values('COMMAND_LONG', { 'command': mavutil.mavlink.MAV_CMD_DO_DIGICAM_CONTROL, 'param6': 17, }, timeout=2, check_context=True) self.context_pop() # test sending via commands: for run_cmd in self.run_cmd, self.run_cmd_int: self.progress("Sending control command") self.context_push() self.context_collect('COMMAND_LONG') run_cmd(mavutil.mavlink.MAV_CMD_DO_DIGICAM_CONTROL, p1=1, # start or keep it up p2=1, # zoom_pos p3=0, # zoom_step p4=0, # focus_lock p5=0, # 1 shot or start filming p6=37, # command id (de-dupe field) ) self.assert_received_message_field_values('COMMAND_LONG', { 'command': mavutil.mavlink.MAV_CMD_DO_DIGICAM_CONTROL, 'param6': 37, }, timeout=2, check_context=True) self.context_pop() # test sending via commands: for run_cmd in self.run_cmd, self.run_cmd_int: self.progress("Sending configure command") self.context_push() self.context_collect('COMMAND_LONG') run_cmd(mavutil.mavlink.MAV_CMD_DO_DIGICAM_CONFIGURE, p1=1, p2=1, p3=0, p4=0, p5=12, p6=37 ) self.assert_received_message_field_values('COMMAND_LONG', { 'command': mavutil.mavlink.MAV_CMD_DO_DIGICAM_CONFIGURE, 'param5': 12, 'param6': 37, }, timeout=2, check_context=True) self.context_pop() self.mav.mav.srcSystem = old_srcSystem def SkidSteer(self): '''Check skid-steering''' model = "rover-skid" self.customise_SITL_commandline([], model=model, defaults_filepath=self.model_defaults_filepath(model)) 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) self.zero_throttle() self.disarm_vehicle() def SlewRate(self): """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: %0.1fs" % 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% slew 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: %0.1fs" % 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% slew 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: %0.1fs" % 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% slew 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: %0.1fs" % 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% slew 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: %0.1fs" % 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() def SET_ATTITUDE_TARGET(self, target_sysid=None, target_compid=1): '''Test handling of SET_ATTITUDE_TARGET''' 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() def SET_ATTITUDE_TARGET_heading(self, target_sysid=None, target_compid=1): '''Test handling of SET_ATTITUDE_TARGET''' self.change_mode('GUIDED') self.wait_ready_to_arm() self.arm_vehicle() for angle in 0, 290, 70, 180, 0: self.SET_ATTITUDE_TARGET_heading_test_target(angle, target_sysid, target_compid) self.disarm_vehicle() def SET_ATTITUDE_TARGET_heading_test_target(self, angle, target_sysid, target_compid): if target_sysid is None: target_sysid = self.sysid_thismav() def poke_set_attitude(value, target): 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_BODY_YAW_RATE_IGNORE, mavextra.euler_to_quat([ math.radians(0), math.radians(0), math.radians(angle) ]), # att 0, # roll rate (rad/s) 0, # pitch rate 0, # yaw rate 1) # thrust self.wait_heading(angle, called_function=poke_set_attitude, minimum_duration=5) def SET_POSITION_TARGET_LOCAL_NED(self, target_sysid=None, target_compid=1): '''Test handling of SET_POSITION_TARGET_LOCAL_NED''' if target_sysid is None: target_sysid = self.sysid_thismav() self.change_mode('GUIDED') self.wait_ready_to_arm() self.arm_vehicle() ofs_x = 30.0 ofs_y = 30.0 def send_target(): 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, ofs_x, # pos-x ofs_y, # pos-y 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 ) self.wait_distance_to_local_position( (ofs_x, ofs_y, 0), distance_min=0, distance_max=3, timeout=60, called_function=lambda last_value, target : send_target(), minimum_duration=5, # make sure we stop! ) self.do_RTL() self.disarm_vehicle() def EndMissionBehavior(self, timeout=60): '''Test end mission behavior''' self.context_push() self.load_mission("end-mission.txt") self.wait_ready_to_arm() self.arm_vehicle() 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: if self.get_sim_time_cached() - tstart > 15: self.progress("Got POSITION_TARGET_GLOBAL_INT, all good !") break 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() self.context_pop() self.reboot_sitl() def MAVProxyParam(self): '''Test MAVProxy parameter handling''' mavproxy = self.start_mavproxy() mavproxy.send("param fetch\n") mavproxy.expect("Received [0-9]+ parameters") self.stop_mavproxy(mavproxy) 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): '''Test handling of CMD_DO_SET_MISSION_CURRENT''' 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) 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_DENIED, ) def FlashStorage(self): '''Test flash storage (for parameters etc)''' 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) def FRAMStorage(self): '''Test FRAM storage (for parameters etc)''' 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) def RangeFinder(self): '''Test RangeFinder''' # the following magic numbers correspond to the post locations in SITL home_string = "%s,%s,%s,%s" % (51.8752066, 14.6487840, 54.15, 231) rangefinder_params = { "SIM_SONAR_ROT": 0, } rangefinder_params.update(self.analog_rangefinder_parameters()) self.set_parameters(rangefinder_params) 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) > 0.5: raise NotAchievedException("Expected %fm got %fm" % (want_range, m.distance)) def DepthFinder(self): '''Test mulitple depthfinders for boats''' # Setup rangefinders self.customise_SITL_commandline([ "--serial7=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 serial7 "SERIAL7_BAUD" : 9600, # Rangefinder specific baudrate "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() def EStopAtBoot(self): '''Ensure EStop prevents arming when asserted at boot time''' self.context_push() self.set_parameters({ "RC9_OPTION": 31, }) self.set_rc(9, 2000) self.reboot_sitl() self.assert_prearm_failure( "Motors Emergency Stopped", other_prearm_failures_fatal=False) self.context_pop() self.reboot_sitl() 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) def StickMixingAuto(self): '''Ensure Stick Mixing works in auto''' 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() def AutoDock(self): '''Test automatic docking of rover for multiple FOVs of simulated beacon''' self.set_parameters({ "PLND_ENABLED": 1, "PLND_TYPE": 4, "PLND_ORIENT": 0, }) start = self.mav.location() target = self.offset_location_ne(start, 50, 0) self.progress("Setting target to %f %f" % (start.lat, start.lng)) stopping_dist = 0.5 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, "DOCK_STOP_DIST": stopping_dist, }) for type in range(0, 3): # CYLINDRICAL FOV, CONICAL FOV, SPHERICAL FOV self.set_parameter("SIM_PLD_TYPE", type) self.reboot_sitl() self.change_mode('GUIDED') self.wait_ready_to_arm() self.arm_vehicle() initial_position = self.offset_location_ne(target, -20, -2) self.drive_to_location(initial_position) self.change_mode(8) # DOCK mode max_delta = 1 self.wait_distance_to_location(target, 0, max_delta, timeout=180) self.disarm_vehicle() self.assert_receive_message('GLOBAL_POSITION_INT') new_pos = self.mav.location() delta = abs(self.get_distance(target, new_pos) - stopping_dist) self.progress("Docked %f metres from stopping point" % delta) if delta > max_delta: raise NotAchievedException("Did not dock close enough to stopping point (%fm > %fm" % (delta, max_delta)) if not self.current_onboard_log_contains_message("PL"): raise NotAchievedException("Did not see expected PL message") self.progress("All done") def PrivateChannel(self): '''test the serial option bit specifying a mavlink channel as private''' global mav2 port = self.adjust_ardupilot_port(5763) mav2 = mavutil.mavlink_connection("tcp:localhost:%u" % port, 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) # 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) # 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) # 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") def MAV_CMD_DO_SET_REVERSE(self): '''test MAV_CMD_DO_SET_REVERSE command''' self.change_mode('GUIDED') self.wait_ready_to_arm() self.arm_vehicle() here = self.mav.location() target_loc = self.offset_location_ne(here, 2000, 0) self.send_guided_mission_item(target_loc) self.wait_groundspeed(3, 100, minimum_duration=5) for method in self.run_cmd, self.run_cmd_int: self.progress("Forwards!") method(mavutil.mavlink.MAV_CMD_DO_SET_REVERSE, p1=0) self.wait_heading(0) self.progress("Backwards!") method(mavutil.mavlink.MAV_CMD_DO_SET_REVERSE, p1=1) self.wait_heading(180) self.progress("Forwards!") method(mavutil.mavlink.MAV_CMD_DO_SET_REVERSE, p1=0) self.wait_heading(0) self.disarm_vehicle() def MAV_CMD_NAV_RETURN_TO_LAUNCH(self): '''test MAV_CMD_NAV_RETURN_TO_LAUNCH mavlink command''' self.change_mode('GUIDED') self.wait_ready_to_arm() self.arm_vehicle() here = self.mav.location() target_loc = self.offset_location_ne(here, 2000, 0) self.send_guided_mission_item(target_loc) self.wait_distance_to_home(20, 100) self.run_cmd(mavutil.mavlink.MAV_CMD_NAV_RETURN_TO_LAUNCH) self.wait_mode('RTL') self.change_mode('GUIDED') self.run_cmd_int(mavutil.mavlink.MAV_CMD_NAV_RETURN_TO_LAUNCH) self.wait_mode('RTL') self.wait_distance_to_home(0, 5, timeout=30) self.disarm_vehicle() def MAV_CMD_DO_CHANGE_SPEED(self): '''test MAV_CMD_NAV_RETURN_TO_LAUNCH mavlink command''' self.change_mode('GUIDED') self.wait_ready_to_arm() self.arm_vehicle() original_loc = self.mav.location() here = original_loc target_loc = self.offset_location_ne(here, 2000, 0) self.send_guided_mission_item(target_loc) self.wait_distance_to_home(20, 100) speeds = 3, 7, 12, 4 for speed in speeds: self.run_cmd(mavutil.mavlink.MAV_CMD_DO_CHANGE_SPEED, p2=speed) self.wait_groundspeed(speed-0.5, speed+0.5, minimum_duration=5) self.send_guided_mission_item(original_loc) for speed in speeds: self.run_cmd_int(mavutil.mavlink.MAV_CMD_DO_CHANGE_SPEED, p2=speed) self.wait_groundspeed(speed-0.5, speed+0.5, minimum_duration=5) self.change_mode('RTL') self.wait_distance_to_home(0, 5, timeout=30) self.disarm_vehicle() def MAV_CMD_MISSION_START(self): '''simple test for starting missing using this command''' # home and 1 waypoint a long way away: self.upload_simple_relhome_mission([ (mavutil.mavlink.MAV_CMD_NAV_WAYPOINT, 0, 0, 0), (mavutil.mavlink.MAV_CMD_NAV_WAYPOINT, 2000, 0, 0), ]) self.change_mode('AUTO') self.wait_ready_to_arm() self.arm_vehicle() for method in self.run_cmd, self.run_cmd_int: self.change_mode('MANUAL') self.wait_groundspeed(0, 1) method(mavutil.mavlink.MAV_CMD_MISSION_START) self.wait_mode('AUTO') self.wait_groundspeed(3, 100) self.disarm_vehicle() def MAV_CMD_NAV_SET_YAW_SPEED(self): '''tests for MAV_CMD_NAV_SET_YAW_SPEED guided-mode command''' self.change_mode('GUIDED') self.wait_ready_to_arm() self.arm_vehicle() for method in self.run_cmd, self.run_cmd_int: self.change_mode('MANUAL') self.wait_groundspeed(0, 1) self.change_mode('GUIDED') self.start_subtest("Absolute angles") for (heading, speed) in (10, 5), (190, 10), (0, 2), (135, 6): def cf(*args, **kwargs): method( mavutil.mavlink.MAV_CMD_NAV_SET_YAW_SPEED, p1=heading, p2=speed, p3=0, # zero is absolute-angles ) self.wait_groundspeed(speed-0.5, speed+0.5, called_function=cf, minimum_duration=2) self.wait_heading(heading-0.5, heading+0.5, called_function=cf, minimum_duration=2) self.start_subtest("relative angles") original_angle = 90 method( mavutil.mavlink.MAV_CMD_NAV_SET_YAW_SPEED, p1=original_angle, p2=5, p3=0, # zero is absolute-angles ) self.wait_groundspeed(4, 6) self.wait_heading(original_angle-0.5, original_angle+0.5) expected_angle = original_angle for (angle_delta, speed) in (5, 6), (-30, 2), (180, 7): method( mavutil.mavlink.MAV_CMD_NAV_SET_YAW_SPEED, p1=angle_delta, p2=speed, p3=1, # one is relative-angles ) def cf(*args, **kwargs): method( mavutil.mavlink.MAV_CMD_NAV_SET_YAW_SPEED, p1=0, p2=speed, p3=1, # one is absolute-angles ) expected_angle += angle_delta if expected_angle < 0: expected_angle += 360 if expected_angle > 360: expected_angle -= 360 self.wait_groundspeed(speed-0.5, speed+0.5, called_function=cf, minimum_duration=2) self.wait_heading(expected_angle, called_function=cf, minimum_duration=2) self.do_RTL() self.disarm_vehicle() def _MAV_CMD_GET_HOME_POSITION(self, run_cmd): '''test handling of mavlink command MAV_CMD_GET_HOME_POSITION''' self.context_collect('HOME_POSITION') run_cmd(mavutil.mavlink.MAV_CMD_GET_HOME_POSITION) self.assert_receive_message('HOME_POSITION', check_context=True) def MAV_CMD_GET_HOME_POSITION(self): '''test handling of mavlink command MAV_CMD_GET_HOME_POSITION''' self.change_mode('LOITER') self.wait_ready_to_arm() self._MAV_CMD_GET_HOME_POSITION(self.run_cmd) self._MAV_CMD_GET_HOME_POSITION(self.run_cmd_int) def MAV_CMD_DO_FENCE_ENABLE(self): '''ensure MAV_CMD_DO_FENCE_ENABLE mavlink command works''' 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, ]), (mavutil.mavlink.MAV_CMD_NAV_FENCE_POLYGON_VERTEX_EXCLUSION, [ # 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, ]), ]) # enable: self.run_cmd(mavutil.mavlink.MAV_CMD_DO_FENCE_ENABLE, p1=1) self.assert_fence_enabled() # disable self.run_cmd_int(mavutil.mavlink.MAV_CMD_DO_FENCE_ENABLE, p1=0) self.assert_fence_disabled() def MAV_CMD_BATTERY_RESET(self): '''manipulate battery levels with MAV_CMD_BATTERY_RESET''' for (run_cmd, value) in (self.run_cmd, 56), (self.run_cmd_int, 97): run_cmd( mavutil.mavlink.MAV_CMD_BATTERY_RESET, p1=65535, # battery mask p2=value, ) self.assert_received_message_field_values('BATTERY_STATUS', { "battery_remaining": value, }, { "poll": True, }) def TestWebServer(self, url): '''test active web server''' self.progress("Accessing webserver main page") import urllib.request main_page = urllib.request.urlopen(url).read().decode('utf-8') if main_page.find('ArduPilot Web Server') == -1: raise NotAchievedException("Expected banner on main page") board_status = urllib.request.urlopen(url + '/@DYNAMIC/board_status.shtml').read().decode('utf-8') if board_status.find('0 hours') == -1: raise NotAchievedException("Expected uptime in board status") if board_status.find('40.713') == -1: raise NotAchievedException("Expected lattitude in board status") self.progress("WebServer tests OK") def NetworkingWebServer(self): '''web server''' applet_script = "net_webserver.lua" self.context_push() self.install_applet_script_context(applet_script) self.set_parameters({ "SCR_ENABLE": 1, "SCR_VM_I_COUNT": 1000000, "SIM_SPEEDUP": 20, "NET_ENABLE": 1, }) self.reboot_sitl() self.context_push() self.context_collect('STATUSTEXT') self.set_parameters({ "WEB_BIND_PORT": 8081, }) self.scripting_restart() self.wait_text("WebServer: starting on port 8081", check_context=True) self.wait_ready_to_arm() self.TestWebServer("http://127.0.0.1:8081") self.context_pop() self.context_pop() self.reboot_sitl() def NetworkingWebServerPPP(self): '''web server over PPP''' applet_script = "net_webserver.lua" self.context_push() self.install_applet_script_context(applet_script) self.set_parameters({ "SCR_ENABLE": 1, "SCR_VM_I_COUNT": 1000000, "SIM_SPEEDUP": 20, "NET_ENABLE": 1, "SERIAL5_PROTOCOL": 48, }) self.progress('rebuilding rover with ppp enabled') import shutil shutil.copy('build/sitl/bin/ardurover', 'build/sitl/bin/ardurover.noppp') util.build_SITL('bin/ardurover', clean=False, configure=True, extra_configure_args=['--enable-PPP', '--debug']) self.reboot_sitl() self.progress("Starting PPP daemon") pppd = util.start_PPP_daemon("192.168.14.15:192.168.14.13", '127.0.0.1:5765') self.context_push() self.context_collect('STATUSTEXT') pppd.expect("remote IP address 192.168.14.13") self.progress("PPP daemon started") self.set_parameters({ "WEB_BIND_PORT": 8081, }) self.scripting_restart() self.wait_text("WebServer: starting on port 8081", check_context=True) self.wait_ready_to_arm() self.TestWebServer("http://192.168.14.13:8081") self.context_pop() self.context_pop() # restore rover without ppp enabled for next test os.unlink('build/sitl/bin/ardurover') shutil.copy('build/sitl/bin/ardurover.noppp', 'build/sitl/bin/ardurover') self.reboot_sitl() def FenceFullAndPartialTransfer(self, target_system=1, target_component=1): '''ensure starting a fence transfer then a partial transfer behaves appropriately''' # start uploading a 10 item list: self.mav.mav.mission_count_send( target_system, target_component, 10, mavutil.mavlink.MAV_MISSION_TYPE_FENCE ) self.assert_receive_mission_item_request(mavutil.mavlink.MAV_MISSION_TYPE_FENCE, 0) # change our mind and try a partial mission upload: self.mav.mav.mission_write_partial_list_send( target_system, target_component, 3, 3, mavutil.mavlink.MAV_MISSION_TYPE_FENCE) # should get denied for that one: self.assert_receive_mission_ack( mavutil.mavlink.MAV_MISSION_TYPE_FENCE, want_type=mavutil.mavlink.MAV_MISSION_DENIED, ) # now wait for the original upload to be "cancelled" self.assert_receive_mission_ack( mavutil.mavlink.MAV_MISSION_TYPE_FENCE, want_type=mavutil.mavlink.MAV_MISSION_OPERATION_CANCELLED, ) def MissionRetransfer(self, target_system=1, target_component=1): '''torture-test with MISSION_COUNT''' # self.send_debug_trap() self.mav.mav.mission_count_send( target_system, target_component, 10, mavutil.mavlink.MAV_MISSION_TYPE_FENCE ) self.assert_receive_mission_item_request(mavutil.mavlink.MAV_MISSION_TYPE_FENCE, 0) self.context_push() self.context_collect('STATUSTEXT') self.mav.mav.mission_count_send( target_system, target_component, 10000, mavutil.mavlink.MAV_MISSION_TYPE_FENCE ) self.wait_statustext('Only [0-9]+ items are supported', regex=True, check_context=True) self.context_pop() self.assert_not_receive_message('MISSION_REQUEST') self.mav.mav.mission_count_send( target_system, target_component, 10, mavutil.mavlink.MAV_MISSION_TYPE_FENCE ) self.assert_receive_mission_item_request(mavutil.mavlink.MAV_MISSION_TYPE_FENCE, 0) self.assert_receive_mission_ack( mavutil.mavlink.MAV_MISSION_TYPE_FENCE, want_type=mavutil.mavlink.MAV_MISSION_OPERATION_CANCELLED, ) def MissionPolyEnabledPreArm(self): '''check Polygon porearm checks''' self.set_parameters({ 'FENCE_ENABLE': 1, }) self.progress("Ensure that we can arm if polyfence is enabled but we have no polyfence") self.assert_parameter_value('FENCE_TYPE', 6) self.wait_ready_to_arm() self.reboot_sitl() self.wait_ready_to_arm() self.progress("Ensure we can arm when we have an inclusion fence we are inside of") here = self.mav.location() self.upload_fences_from_locations([ (mavutil.mavlink.MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION, [ # 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) self.wait_ready_to_arm() self.reboot_sitl() self.wait_ready_to_arm() self.progress("Ensure we can't arm when we are in breacnh of a polyfence") self.clear_fence() self.progress("Now create a fence we are in breach of") here = self.mav.location() self.upload_fences_from_locations([ (mavutil.mavlink.MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION, [ # over the top of the vehicle self.offset_location_ne(here, 20, 20), # bl self.offset_location_ne(here, 20, 50), # br self.offset_location_ne(here, 50, 50), # tr self.offset_location_ne(here, 50, 20), # tl, ]), ]) self.assert_prearm_failure('Vehicle breaching Polygon fence', other_prearm_failures_fatal=False) self.reboot_sitl() self.assert_prearm_failure('Vehicle breaching Polygon fence', other_prearm_failures_fatal=False, timeout=120) self.progress("Ensure we can arm when a polyfence fence is cleared when we've previously been in breach") self.clear_fence() self.wait_ready_to_arm() self.upload_fences_from_locations([ (mavutil.mavlink.MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION, [ # over the top of the vehicle self.offset_location_ne(here, 20, 20), # bl self.offset_location_ne(here, 20, 50), # br self.offset_location_ne(here, 50, 50), # tr self.offset_location_ne(here, 50, 20), # tl, ]), ]) self.reboot_sitl() self.assert_prearm_failure('Vehicle breaching Polygon fence', other_prearm_failures_fatal=False, timeout=120) self.clear_fence() self.wait_ready_to_arm() self.progress("Ensure we can arm after clearing polygon fence type enabled") self.upload_fences_from_locations([ (mavutil.mavlink.MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION, [ # over the top of the vehicle self.offset_location_ne(here, 20, 20), # bl self.offset_location_ne(here, 20, 50), # br self.offset_location_ne(here, 50, 50), # tr self.offset_location_ne(here, 50, 20), # tl, ]), ]) self.assert_prearm_failure('Vehicle breaching Polygon fence', other_prearm_failures_fatal=False, timeout=120) self.set_parameter('FENCE_TYPE', 2) self.wait_ready_to_arm() self.set_parameter('FENCE_TYPE', 6) self.assert_prearm_failure('Vehicle breaching Polygon fence', other_prearm_failures_fatal=False, timeout=120) def OpticalFlow(self): '''lightly test OpticalFlow''' self.wait_sensor_state(mavutil.mavlink.MAV_SYS_STATUS_SENSOR_OPTICAL_FLOW, False, False, False, verbose=True) self.context_push() self.set_parameter("SIM_FLOW_ENABLE", 1) self.set_parameter("FLOW_TYPE", 10) self.reboot_sitl() self.wait_sensor_state(mavutil.mavlink.MAV_SYS_STATUS_SENSOR_OPTICAL_FLOW, True, True, True, verbose=True) self.context_pop() self.reboot_sitl() def RCDuplicateOptionsExist(self): '''ensure duplicate RC option detection works''' self.wait_ready_to_arm() self.set_parameters({ "RC6_OPTION": 118, "RC7_OPTION": 118, }) self.assert_arm_failure("Duplicate Aux Switch Options") def JammingSimulation(self): '''Test jamming simulation works''' self.wait_ready_to_arm() start_loc = self.assert_receive_message('GPS_RAW_INT') self.set_parameter("SIM_GPS1_JAM", 1) class Requirement(): def __init__(self, field, min_value): self.field = field self.min_value = min_value def met(self, m): return getattr(m, self.field) > self.min_value requirements = set([ Requirement('v_acc', 50000), Requirement('h_acc', 50000), Requirement('vel_acc', 1000), Requirement('vel', 10000), ]) low_sats_seen = False seen_bad_loc = False tstart = self.get_sim_time() while True: if self.get_sim_time() - tstart > 120: raise NotAchievedException("Did not see all jamming") m = self.assert_receive_message('GPS_RAW_INT') new_requirements = copy.copy(requirements) for requirement in requirements: if requirement.met(m): new_requirements.remove(requirement) requirements = new_requirements if m.satellites_visible < 6: low_sats_seen = True here = self.assert_receive_message('GPS_RAW_INT') if self.get_distance_int(start_loc, here) > 100: seen_bad_loc = True if len(requirements) == 0 and low_sats_seen and seen_bad_loc: break def BatteryInvalid(self): '''check Battery prearms report useful data to user''' self.start_subtest("Changing battery types makes no difference") self.set_parameter("BATT_MONITOR", 0) self.assert_prearm_failure("Battery 1 unhealthy", other_prearm_failures_fatal=False) self.set_parameter("BATT_MONITOR", 4) self.wait_ready_to_arm() self.start_subtest("No battery monitor should be armable") self.set_parameter("BATT_MONITOR", 0) self.reboot_sitl() self.wait_ready_to_arm() self.set_parameter("BATT_MONITOR", 4) self.assert_prearm_failure("Battery 1 unhealthy", other_prearm_failures_fatal=False) self.reboot_sitl() self.wait_ready_to_arm() self.start_subtest("Invalid backend should have a clear error") self.set_parameter("BATT_MONITOR", 98) self.reboot_sitl() self.assert_prearm_failure("Battery 1 unhealthy", other_prearm_failures_fatal=False) self.start_subtest("Switching from an invalid backend to a valid backend should require a reboot") self.set_parameter("BATT_MONITOR", 4) self.assert_prearm_failure("Battery 1 unhealthy", other_prearm_failures_fatal=False) self.start_subtest("Switching to None should NOT require a reboot") self.set_parameter("BATT_MONITOR", 0) self.wait_ready_to_arm() def tests(self): '''return list of all tests''' ret = super(AutoTestRover, self).tests() ret.extend([ 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.MAV_CMD_DO_SEND_BANNER, 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.MESSAGE_INTERVAL_COMMAND_INT, self.REQUEST_MESSAGE, self.SYSID_ENFORCE, self.SET_ATTITUDE_TARGET, self.SET_ATTITUDE_TARGET_heading, self.SET_POSITION_TARGET_LOCAL_NED, self.MAV_CMD_DO_SET_MISSION_CURRENT, self.MAV_CMD_DO_CHANGE_SPEED, self.MAV_CMD_MISSION_START, self.MAV_CMD_NAV_SET_YAW_SPEED, 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.PolyFenceObjectAvoidanceAuto, self.PolyFenceObjectAvoidanceGuided, self.PolyFenceObjectAvoidanceBendyRuler, self.SendToComponents, self.PolyFenceObjectAvoidanceBendyRulerEasierGuided, self.PolyFenceObjectAvoidanceBendyRulerEasierAuto, 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.MAV_CMD_NAV_RETURN_TO_LAUNCH, self.StickMixingAuto, self.AutoDock, self.PrivateChannel, self.GCSFailsafe, self.RoverInitialMode, self.DriveMaxRCIN, self.NoArmWithoutMissionItems, self.CompassPrearms, self.MAV_CMD_DO_SET_REVERSE, self.MAV_CMD_GET_HOME_POSITION, self.MAV_CMD_DO_FENCE_ENABLE, self.MAV_CMD_BATTERY_RESET, self.NetworkingWebServer, self.NetworkingWebServerPPP, self.RTL_SPEED, self.MissionRetransfer, self.FenceFullAndPartialTransfer, self.MissionPolyEnabledPreArm, self.OpticalFlow, self.RCDuplicateOptionsExist, self.ClearMission, self.JammingSimulation, self.BatteryInvalid, ]) return ret def disabled_tests(self): return { "SlewRate": "got timing report failure on CI", "MAV_CMD_NAV_SET_YAW_SPEED": "compiled out of code by default", "PolyFenceObjectAvoidanceBendyRuler": "unreliable", } def rc_defaults(self): ret = super(AutoTestRover, self).rc_defaults() ret[3] = 1500 ret[8] = 1800 return ret def initial_mode_switch_mode(self): return "MANUAL" def default_mode(self): return 'MANUAL'