#!/usr/bin/env python # Fly ArduPlane in SITL from __future__ import print_function import math import os import time from pymavlink import quaternion from pymavlink import mavutil from common import AutoTest from common import AutoTestTimeoutException from common import NotAchievedException from common import PreconditionFailedException import operator # get location of scripts testdir = os.path.dirname(os.path.realpath(__file__)) SITL_START_LOCATION = mavutil.location(-35.362938, 149.165085, 585, 354) WIND = "0,180,0.2" # speed,direction,variance class AutoTestPlane(AutoTest): @staticmethod def get_not_armable_mode_list(): return [] @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", "AUTO"] @staticmethod def get_normal_armable_modes_list(): return ["MANUAL", "STABILIZE", "ACRO"] def log_name(self): return "ArduPlane" def test_filepath(self): return os.path.realpath(__file__) def sitl_start_location(self): return SITL_START_LOCATION def defaults_filepath(self): return os.path.join(testdir, 'default_params/plane-jsbsim.parm') def set_current_test_name(self, name): self.current_test_name_directory = "ArduPlane_Tests/" + name + "/" def default_frame(self): return "plane-elevrev" def apply_defaultfile_parameters(self): # plane passes in a defaults_filepath in place of applying # parameters afterwards. pass def is_plane(self): return True def get_stick_arming_channel(self): return int(self.get_parameter("RCMAP_YAW")) def get_disarm_delay(self): return int(self.get_parameter("LAND_DISARMDELAY")) def set_autodisarm_delay(self, delay): self.set_parameter("LAND_DISARMDELAY", delay) def takeoff(self, alt=150, alt_max=None, relative=True): """Takeoff to altitude.""" if alt_max is None: alt_max = alt + 30 self.change_mode("FBWA") self.wait_ready_to_arm() self.arm_vehicle() # some rudder to counteract the prop torque self.set_rc(4, 1700) # some up elevator to keep the tail down self.set_rc(2, 1200) # get it moving a bit first self.set_rc(3, 1300) self.wait_groundspeed(6, 100) # a bit faster again, straighten rudder self.set_rc(3, 1600) self.set_rc(4, 1500) self.wait_groundspeed(12, 100) # hit the gas harder now, and give it some more elevator self.set_rc(2, 1100) self.set_rc(3, 2000) # gain a bit of altitude self.wait_altitude(alt, alt_max, timeout=30, relative=relative) # level off self.set_rc(2, 1500) self.progress("TAKEOFF COMPLETE") def fly_left_circuit(self): """Fly a left circuit, 200m on a side.""" self.mavproxy.send('switch 4\n') self.wait_mode('FBWA') self.set_rc(3, 2000) self.wait_level_flight() self.progress("Flying 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(100, accuracy=20) self.progress("Circuit complete") def fly_RTL(self): """Fly to home.""" self.progress("Flying home in RTL") self.mavproxy.send('switch 2\n') self.wait_mode('RTL') self.wait_location(self.homeloc, accuracy=120, target_altitude=self.homeloc.alt+100, height_accuracy=20, timeout=180) self.progress("RTL Complete") def fly_LOITER(self, num_circles=4): """Loiter where we are.""" self.progress("Testing LOITER for %u turns" % num_circles) self.mavproxy.send('loiter\n') self.wait_mode('LOITER') m = self.mav.recv_match(type='VFR_HUD', blocking=True) initial_alt = m.alt self.progress("Initial altitude %u\n" % initial_alt) while num_circles > 0: self.wait_heading(0, accuracy=10, timeout=60) self.wait_heading(180, accuracy=10, timeout=60) num_circles -= 1 self.progress("Loiter %u circles left" % num_circles) m = self.mav.recv_match(type='VFR_HUD', blocking=True) final_alt = m.alt self.progress("Final altitude %u initial %u\n" % (final_alt, initial_alt)) self.mavproxy.send('mode FBWA\n') self.wait_mode('FBWA') if abs(final_alt - initial_alt) > 20: raise NotAchievedException("Failed to maintain altitude") self.progress("Completed Loiter OK") def fly_CIRCLE(self, num_circles=1): """Circle where we are.""" self.progress("Testing CIRCLE for %u turns" % num_circles) self.mavproxy.send('mode CIRCLE\n') self.wait_mode('CIRCLE') m = self.mav.recv_match(type='VFR_HUD', blocking=True) initial_alt = m.alt self.progress("Initial altitude %u\n" % initial_alt) while num_circles > 0: self.wait_heading(0, accuracy=10, timeout=60) self.wait_heading(180, accuracy=10, timeout=60) num_circles -= 1 self.progress("CIRCLE %u circles left" % num_circles) m = self.mav.recv_match(type='VFR_HUD', blocking=True) final_alt = m.alt self.progress("Final altitude %u initial %u\n" % (final_alt, initial_alt)) self.mavproxy.send('mode FBWA\n') self.wait_mode('FBWA') if abs(final_alt - initial_alt) > 20: raise NotAchievedException("Failed to maintain altitude") self.progress("Completed CIRCLE OK") def wait_level_flight(self, accuracy=5, timeout=30): """Wait for level flight.""" tstart = self.get_sim_time() self.progress("Waiting for level flight") self.set_rc(1, 1500) self.set_rc(2, 1500) self.set_rc(4, 1500) while self.get_sim_time_cached() < tstart + timeout: m = self.mav.recv_match(type='ATTITUDE', blocking=True) roll = math.degrees(m.roll) pitch = math.degrees(m.pitch) self.progress("Roll=%.1f Pitch=%.1f" % (roll, pitch)) if math.fabs(roll) <= accuracy and math.fabs(pitch) <= accuracy: self.progress("Attained level flight") return raise NotAchievedException("Failed to attain level flight") def change_altitude(self, altitude, accuracy=30): """Get to a given altitude.""" self.mavproxy.send('mode FBWA\n') self.wait_mode('FBWA') alt_error = self.mav.messages['VFR_HUD'].alt - altitude if alt_error > 0: self.set_rc(2, 2000) else: self.set_rc(2, 1000) self.wait_altitude(altitude-accuracy/2, altitude+accuracy/2) self.set_rc(2, 1500) self.progress("Reached target altitude at %u" % self.mav.messages['VFR_HUD'].alt) return self.wait_level_flight() def axial_left_roll(self, count=1): """Fly a left axial roll.""" # full throttle! self.set_rc(3, 2000) self.change_altitude(self.homeloc.alt+300) # fly the roll in manual self.mavproxy.send('switch 6\n') self.wait_mode('MANUAL') while count > 0: self.progress("Starting roll") self.set_rc(1, 1000) try: self.wait_roll(-150, accuracy=90) self.wait_roll(150, accuracy=90) self.wait_roll(0, accuracy=90) except Exception as e: self.set_rc(1, 1500) raise e count -= 1 # back to FBWA self.set_rc(1, 1500) self.mavproxy.send('switch 4\n') self.wait_mode('FBWA') self.set_rc(3, 1700) return self.wait_level_flight() def inside_loop(self, count=1): """Fly a inside loop.""" # full throttle! self.set_rc(3, 2000) self.change_altitude(self.homeloc.alt+300) # fly the loop in manual self.mavproxy.send('switch 6\n') self.wait_mode('MANUAL') while count > 0: self.progress("Starting loop") self.set_rc(2, 1000) self.wait_pitch(-60, accuracy=20) self.wait_pitch(0, accuracy=20) count -= 1 # back to FBWA self.set_rc(2, 1500) self.mavproxy.send('switch 4\n') self.wait_mode('FBWA') self.set_rc(3, 1700) return self.wait_level_flight() def set_attitude_target(self, tolerance=10): """Test setting of attitude target in guided mode.""" self.change_mode("GUIDED") # self.set_parameter("STALL_PREVENTION", 0) state_roll_over = "roll-over" state_stabilize_roll = "stabilize-roll" state_hold = "hold" state_roll_back = "roll-back" state_done = "done" tstart = self.get_sim_time() try: state = state_roll_over while state != state_done: m = self.mav.recv_match(type='ATTITUDE', blocking=True, timeout=0.1) now = self.get_sim_time_cached() if now - tstart > 20: raise AutoTestTimeoutException("Manuevers not completed") if m is None: continue r = math.degrees(m.roll) if state == state_roll_over: target_roll_degrees = 60 if abs(r - target_roll_degrees) < tolerance: state = state_stabilize_roll stabilize_start = now elif state == state_stabilize_roll: # just give it a little time to sort it self out if now - stabilize_start > 2: state = state_hold hold_start = now elif state == state_hold: target_roll_degrees = 60 if now - hold_start > tolerance: state = state_roll_back if abs(r - target_roll_degrees) > tolerance: raise NotAchievedException("Failed to hold attitude") elif state == state_roll_back: target_roll_degrees = 0 if abs(r - target_roll_degrees) < tolerance: state = state_done else: raise ValueError("Unknown state %s" % str(state)) m_nav = self.mav.messages['NAV_CONTROLLER_OUTPUT'] self.progress("%s Roll: %f desired=%f set=%f" % (state, r, m_nav.nav_roll, target_roll_degrees)) time_boot_millis = 0 # FIXME target_system = 1 # FIXME target_component = 1 # FIXME type_mask = 0b10000001 ^ 0xFF # FIXME # attitude in radians: q = quaternion.Quaternion([math.radians(target_roll_degrees), 0, 0]) roll_rate_radians = 0.5 pitch_rate_radians = 0 yaw_rate_radians = 0 thrust = 1.0 self.mav.mav.set_attitude_target_send(time_boot_millis, target_system, target_component, type_mask, q, roll_rate_radians, pitch_rate_radians, yaw_rate_radians, thrust) except Exception as e: self.mavproxy.send('mode FBWA\n') self.wait_mode('FBWA') self.set_rc(3, 1700) raise e # back to FBWA self.mavproxy.send('mode FBWA\n') self.wait_mode('FBWA') self.set_rc(3, 1700) self.wait_level_flight() def test_stabilize(self, count=1): """Fly stabilize mode.""" # full throttle! self.set_rc(3, 2000) self.set_rc(2, 1300) self.change_altitude(self.homeloc.alt+300) self.set_rc(2, 1500) self.mavproxy.send("mode STABILIZE\n") self.wait_mode('STABILIZE') while count > 0: self.progress("Starting roll") self.set_rc(1, 2000) self.wait_roll(-150, accuracy=90) self.wait_roll(150, accuracy=90) self.wait_roll(0, accuracy=90) count -= 1 self.set_rc(1, 1500) self.wait_roll(0, accuracy=5) # back to FBWA self.mavproxy.send('mode FBWA\n') self.wait_mode('FBWA') self.set_rc(3, 1700) return self.wait_level_flight() def test_acro(self, count=1): """Fly ACRO mode.""" # full throttle! self.set_rc(3, 2000) self.set_rc(2, 1300) self.change_altitude(self.homeloc.alt+300) self.set_rc(2, 1500) self.mavproxy.send("mode ACRO\n") self.wait_mode('ACRO') while count > 0: self.progress("Starting roll") self.set_rc(1, 1000) self.wait_roll(-150, accuracy=90) self.wait_roll(150, accuracy=90) self.wait_roll(0, accuracy=90) count -= 1 self.set_rc(1, 1500) # back to FBWA self.mavproxy.send('mode FBWA\n') self.wait_mode('FBWA') self.wait_level_flight() self.mavproxy.send("mode ACRO\n") self.wait_mode('ACRO') count = 2 while count > 0: self.progress("Starting loop") self.set_rc(2, 1000) self.wait_pitch(-60, accuracy=20) self.wait_pitch(0, accuracy=20) count -= 1 self.set_rc(2, 1500) # back to FBWA self.mavproxy.send('mode FBWA\n') self.wait_mode('FBWA') self.set_rc(3, 1700) return self.wait_level_flight() def test_FBWB(self, mode='FBWB'): """Fly FBWB or CRUISE mode.""" self.mavproxy.send("mode %s\n" % mode) self.wait_mode(mode) self.set_rc(3, 1700) self.set_rc(2, 1500) # lock in the altitude by asking for an altitude change then releasing self.set_rc(2, 1000) self.wait_distance(50, accuracy=20) self.set_rc(2, 1500) self.wait_distance(50, accuracy=20) m = self.mav.recv_match(type='VFR_HUD', blocking=True) initial_alt = m.alt self.progress("Initial altitude %u\n" % initial_alt) self.progress("Flying right circuit") # do 4 turns for i in range(0, 4): # hard left self.progress("Starting turn %u" % i) self.set_rc(1, 1800) try: self.wait_heading(0 + (90*i), accuracy=20, timeout=60) except Exception as e: self.set_rc(1, 1500) raise e self.set_rc(1, 1500) self.progress("Starting leg %u" % i) self.wait_distance(100, accuracy=20) self.progress("Circuit complete") self.progress("Flying rudder left circuit") # do 4 turns for i in range(0, 4): # hard left self.progress("Starting turn %u" % i) self.set_rc(4, 1900) try: self.wait_heading(360 - (90*i), accuracy=20, timeout=60) except Exception as e: self.set_rc(4, 1500) raise e self.set_rc(4, 1500) self.progress("Starting leg %u" % i) self.wait_distance(100, accuracy=20) self.progress("Circuit complete") m = self.mav.recv_match(type='VFR_HUD', blocking=True) final_alt = m.alt self.progress("Final altitude %u initial %u\n" % (final_alt, initial_alt)) # back to FBWA self.mavproxy.send('mode FBWA\n') self.wait_mode('FBWA') if abs(final_alt - initial_alt) > 20: raise NotAchievedException("Failed to maintain altitude") return self.wait_level_flight() def fly_mission(self, filename, mission_timeout=60.0): """Fly a mission from a file.""" self.progress("Flying mission %s" % filename) self.load_mission(filename) self.mavproxy.send('switch 1\n') # auto mode self.wait_mode('AUTO') self.wait_waypoint(1, 7, max_dist=60) self.wait_groundspeed(0, 0.5, timeout=mission_timeout) self.mavproxy.expect("Auto disarmed") self.progress("Mission OK") def fly_do_reposition(self): self.progress("Takeoff") self.takeoff(alt=50) self.set_rc(3, 1500) self.progress("Entering guided and flying somewhere constant") self.change_mode("GUIDED") loc = self.mav.location() self.location_offset_ne(loc, 500, 500) new_alt = 100 self.run_cmd_int( mavutil.mavlink.MAV_CMD_DO_REPOSITION, 0, 0, 0, 0, int(loc.lat*1e7), int(loc.lng*1e7), new_alt, # alt frame=mavutil.mavlink.MAV_FRAME_GLOBAL_RELATIVE_ALT_INT, ) self.wait_altitude(new_alt-10, new_alt, timeout=30, relative=True) self.fly_home_land_and_disarm() def fly_deepstall(self): # self.fly_deepstall_absolute() self.fly_deepstall_relative() def fly_deepstall_absolute(self): self.start_subtest("DeepStall Relative Absolute") self.set_parameter("LAND_TYPE", 1) deepstall_elevator_pwm = 1661 self.set_parameter("LAND_DS_ELEV_PWM", deepstall_elevator_pwm) self.load_mission("plane-deepstall-mission.txt") self.change_mode("AUTO") self.wait_ready_to_arm() self.arm_vehicle() self.progress("Waiting for deepstall messages") self.wait_text("Deepstall: Entry: ", timeout=240) # assume elevator is on channel 2: self.wait_servo_channel_value(2, deepstall_elevator_pwm) self.disarm_wait(timeout=120) self.progress("Flying home") self.takeoff(10) self.set_parameter("LAND_TYPE", 0) self.fly_home_land_and_disarm() def fly_deepstall_relative(self): self.start_subtest("DeepStall Relative") self.set_parameter("LAND_TYPE", 1) deepstall_elevator_pwm = 1661 self.set_parameter("LAND_DS_ELEV_PWM", deepstall_elevator_pwm) self.load_mission("plane-deepstall-relative-mission.txt") self.change_mode("AUTO") self.wait_ready_to_arm() self.arm_vehicle() self.progress("Waiting for deepstall messages") self.wait_text("Deepstall: Entry: ", timeout=240) # assume elevator is on channel 2: self.wait_servo_channel_value(2, deepstall_elevator_pwm) self.disarm_wait(timeout=120) self.progress("Flying home") self.takeoff(100) self.set_parameter("LAND_TYPE", 0) self.fly_home_land_and_disarm(timeout=240) def fly_do_change_speed(self): # the following lines ensure we revert these parameter values # - DO_CHANGE_AIRSPEED is a permanent vehicle change! self.set_parameter("TRIM_ARSPD_CM", self.get_parameter("TRIM_ARSPD_CM")) self.set_parameter("MIN_GNDSPD_CM", self.get_parameter("MIN_GNDSPD_CM")) self.progress("Takeoff") self.takeoff(alt=100) self.set_rc(3, 1500) # ensure we know what the airspeed is: self.progress("Entering guided and flying somewhere constant") self.change_mode("GUIDED") self.run_cmd_int( mavutil.mavlink.MAV_CMD_DO_REPOSITION, 0, 0, 0, 0, 12345, # lat*1e7 12345, # lon*1e7 100 # alt ) self.delay_sim_time(10) self.progress("Ensuring initial speed is known and relatively constant") initial_speed = 21.5; timeout = 10 tstart = self.get_sim_time() while True: if self.get_sim_time_cached() - tstart > timeout: break m = self.mav.recv_match(type='VFR_HUD', blocking=True) self.progress("GroundSpeed: %f want=%f" % (m.groundspeed, initial_speed)) if abs(initial_speed - m.groundspeed) > 1: raise NotAchievedException("Initial speed not as expected (want=%f got=%f" % (initial_speed, m.groundspeed)) self.progress("Setting groundspeed") new_target_groundspeed = initial_speed + 5 self.run_cmd( mavutil.mavlink.MAV_CMD_DO_CHANGE_SPEED, 1, # groundspeed new_target_groundspeed, -1, # throttle / no change 0, # absolute values 0, 0, 0) self.wait_groundspeed(new_target_groundspeed-0.5, new_target_groundspeed+0.5, timeout=40) self.progress("Adding some wind, ensuring groundspeed holds") self.set_parameter("SIM_WIND_SPD", 5) self.delay_sim_time(5) self.wait_groundspeed(new_target_groundspeed-0.5, new_target_groundspeed+0.5, timeout=40) self.set_parameter("SIM_WIND_SPD", 0) self.progress("Setting airspeed") new_target_airspeed = initial_speed + 5 self.run_cmd( mavutil.mavlink.MAV_CMD_DO_CHANGE_SPEED, 0, # airspeed new_target_airspeed, -1, # throttle / no change 0, # absolute values 0, 0, 0) self.wait_groundspeed(new_target_airspeed-0.5, new_target_airspeed+0.5) self.progress("Adding some wind, hoping groundspeed increases/decreases") self.set_parameter("SIM_WIND_SPD", 5) self.set_parameter("SIM_WIND_DIR", 270) self.delay_sim_time(5) timeout = 10 tstart = self.get_sim_time() while True: if self.get_sim_time_cached() - tstart > timeout: raise NotAchievedException("Did not achieve groundspeed delta") m = self.mav.recv_match(type='VFR_HUD', blocking=True) delta = abs(m.airspeed - m.groundspeed) want_delta = 4 self.progress("groundspeed and airspeed should be different (have=%f want=%f)" % (delta, want_delta)) if delta > want_delta: break self.fly_home_land_and_disarm() def fly_home_land_and_disarm(self, timeout=120): filename = "flaps.txt" self.progress("Using %s to fly home" % filename) num_wp = self.load_mission(filename) self.change_mode("AUTO") self.mavproxy.send('wp set 7\n') self.drain_mav() # TODO: reflect on file to find this magic waypoint number? # self.wait_waypoint(7, num_wp-1, timeout=500) # we tend to miss the final waypoint by a fair bit, and this is probably too noisy anyway? self.wait_disarmed(timeout=timeout) def fly_flaps(self): """Test flaps functionality.""" filename = "flaps.txt" self.context_push() ex = None try: flaps_ch = 5 servo_ch = 5 self.set_parameter("SERVO%u_FUNCTION" % servo_ch, 3) # flapsauto self.set_parameter("RC%u_OPTION" % flaps_ch, 208) # Flaps RCx_OPTION self.set_parameter("LAND_FLAP_PERCNT", 50) self.set_parameter("LOG_DISARMED", 1) flaps_ch_min = 1000 flaps_ch_trim = 1500 flaps_ch_max = 2000 self.set_parameter("RC%u_MIN" % flaps_ch, flaps_ch_min) self.set_parameter("RC%u_MAX" % flaps_ch, flaps_ch_max) self.set_parameter("RC%u_TRIM" % flaps_ch, flaps_ch_trim) servo_ch_min = 1200 servo_ch_trim = 1300 servo_ch_max = 1800 self.set_parameter("SERVO%u_MIN" % servo_ch, servo_ch_min) self.set_parameter("SERVO%u_MAX" % servo_ch, servo_ch_max) self.set_parameter("SERVO%u_TRIM" % servo_ch, servo_ch_trim) self.progress("check flaps are not deployed") self.set_rc(flaps_ch, flaps_ch_min) self.wait_servo_channel_value(servo_ch, servo_ch_min) self.progress("deploy the flaps") self.set_rc(flaps_ch, flaps_ch_max) tstart = self.get_sim_time() self.wait_servo_channel_value(servo_ch, servo_ch_max) tstop = self.get_sim_time_cached() delta_time = tstop - tstart delta_time_min = 0.5 delta_time_max = 1.5 if delta_time < delta_time_min or delta_time > delta_time_max: raise NotAchievedException(( "Flaps Slew not working (%f seconds)" % (delta_time,))) self.progress("undeploy flaps") self.set_rc(flaps_ch, flaps_ch_min) self.wait_servo_channel_value(servo_ch, servo_ch_min) self.progress("Flying mission %s" % filename) self.load_mission(filename) self.mavproxy.send('wp set 1\n') self.mavproxy.send('switch 1\n') # auto mode self.wait_mode('AUTO') self.wait_ready_to_arm() self.arm_vehicle() last_mission_current_msg = 0 last_seq = None while self.armed(): m = self.mav.recv_match(type='MISSION_CURRENT', blocking=True) time_delta = (self.get_sim_time_cached() - last_mission_current_msg) if (time_delta > 1 or m.seq != last_seq): dist = None x = self.mav.messages.get("NAV_CONTROLLER_OUTPUT", None) if x is not None: dist = x.wp_dist self.progress("MISSION_CURRENT.seq=%u (dist=%s)" % (m.seq, str(dist))) last_mission_current_msg = self.get_sim_time_cached() last_seq = m.seq # flaps should undeploy at the end self.wait_servo_channel_value(servo_ch, servo_ch_min, timeout=30) # do a short flight in FBWA, watching for flaps # self.mavproxy.send('switch 4\n') # self.wait_mode('FBWA') # self.delay_sim_time(10) # self.mavproxy.send('switch 6\n') # self.wait_mode('MANUAL') # self.delay_sim_time(10) self.progress("Flaps OK") except Exception as e: ex = e self.context_pop() if ex: if self.armed(): self.disarm_vehicle() raise ex def test_rc_relay(self): '''test toggling channel 12 toggles relay''' self.set_parameter("RC12_OPTION", 28) # Relay On/Off self.set_rc(12, 1000) self.reboot_sitl() # needed for RC12_OPTION to take effect off = self.get_parameter("SIM_PIN_MASK") if off: raise PreconditionFailedException("SIM_MASK_PIN off") # allow time for the RC library to register initial value: self.delay_sim_time(1) self.set_rc(12, 2000) self.wait_heartbeat() self.wait_heartbeat() on = self.get_parameter("SIM_PIN_MASK") if not on: raise NotAchievedException("SIM_PIN_MASK doesn't reflect ON") self.set_rc(12, 1000) self.wait_heartbeat() self.wait_heartbeat() off = self.get_parameter("SIM_PIN_MASK") if off: raise NotAchievedException("SIM_PIN_MASK doesn't reflect OFF") def test_rc_option_camera_trigger(self): '''test toggling channel 12 takes picture''' self.set_parameter("RC12_OPTION", 9) # CameraTrigger self.reboot_sitl() # needed for RC12_OPTION to take effect x = self.mav.messages.get("CAMERA_FEEDBACK", None) if x is not None: raise PreconditionFailedException("Receiving CAMERA_FEEDBACK?!") self.set_rc(12, 2000) tstart = self.get_sim_time() while self.get_sim_time_cached() - tstart < 10: x = self.mav.messages.get("CAMERA_FEEDBACK", None) if x is not None: break self.wait_heartbeat() self.set_rc(12, 1000) if x is None: raise NotAchievedException("No CAMERA_FEEDBACK message received") def test_throttle_failsafe(self): self.change_mode('MANUAL') m = self.mav.recv_match(type='SYS_STATUS', blocking=True) receiver_bit = mavutil.mavlink.MAV_SYS_STATUS_SENSOR_RC_RECEIVER self.progress("Testing receiver enabled") if (not (m.onboard_control_sensors_enabled & receiver_bit)): raise PreconditionFailedException() self.progress("Testing receiver present") if (not (m.onboard_control_sensors_present & receiver_bit)): raise PreconditionFailedException() self.progress("Testing receiver health") if (not (m.onboard_control_sensors_health & receiver_bit)): raise PreconditionFailedException() self.progress("Ensure we know original throttle value") self.wait_rc_channel_value(3, 1000) self.set_parameter("THR_FS_VALUE", 960) self.progress("Failing receiver (throttle-to-950)") self.set_parameter("SIM_RC_FAIL", 2) # throttle-to-950 self.wait_mode('CIRCLE') # short failsafe self.wait_mode('RTL') # long failsafe self.progress("Ensure we've had our throttle squashed to 950") self.wait_rc_channel_value(3, 950) self.drain_mav_unparsed() m = self.mav.recv_match(type='SYS_STATUS', blocking=True) print("%s" % str(m)) self.progress("Testing receiver enabled") if (not (m.onboard_control_sensors_enabled & receiver_bit)): raise NotAchievedException("Receiver not enabled") self.progress("Testing receiver present") if (not (m.onboard_control_sensors_present & receiver_bit)): raise NotAchievedException("Receiver not present") # skip this until RC is fixed # self.progress("Testing receiver health") # if (m.onboard_control_sensors_health & receiver_bit): # raise NotAchievedException("Sensor healthy when it shouldn't be") self.set_parameter("SIM_RC_FAIL", 0) self.drain_mav_unparsed() # have to allow time for RC to be fetched from SITL self.delay_sim_time(0.5) m = self.mav.recv_match(type='SYS_STATUS', blocking=True) self.progress("Testing receiver enabled") if (not (m.onboard_control_sensors_enabled & receiver_bit)): raise NotAchievedException("Receiver not enabled") self.progress("Testing receiver present") if (not (m.onboard_control_sensors_present & receiver_bit)): raise NotAchievedException("Receiver not present") self.progress("Testing receiver health") if (not (m.onboard_control_sensors_health & receiver_bit)): raise NotAchievedException("Receiver not healthy2") self.change_mode('MANUAL') self.progress("Failing receiver (no-pulses)") self.set_parameter("SIM_RC_FAIL", 1) # no-pulses self.wait_mode('CIRCLE') # short failsafe self.wait_mode('RTL') # long failsafe self.drain_mav_unparsed() m = self.mav.recv_match(type='SYS_STATUS', blocking=True) print("%s" % str(m)) self.progress("Testing receiver enabled") if (not (m.onboard_control_sensors_enabled & receiver_bit)): raise NotAchievedException("Receiver not enabled") self.progress("Testing receiver present") if (not (m.onboard_control_sensors_present & receiver_bit)): raise NotAchievedException("Receiver not present") self.progress("Testing receiver health") if (m.onboard_control_sensors_health & receiver_bit): raise NotAchievedException("Sensor healthy when it shouldn't be") self.progress("Making RC work again") self.set_parameter("SIM_RC_FAIL", 0) # have to allow time for RC to be fetched from SITL self.progress("Giving receiver time to recover") self.delay_sim_time(0.5) self.drain_mav_unparsed() m = self.mav.recv_match(type='SYS_STATUS', blocking=True) self.progress("Testing receiver enabled") if (not (m.onboard_control_sensors_enabled & receiver_bit)): raise NotAchievedException("Receiver not enabled") self.progress("Testing receiver present") if (not (m.onboard_control_sensors_present & receiver_bit)): raise NotAchievedException("Receiver not present") self.progress("Testing receiver health") if (not (m.onboard_control_sensors_health & receiver_bit)): raise NotAchievedException("Receiver not healthy") self.change_mode('MANUAL') self.progress("Ensure long failsafe can trigger when short failsafe disabled") self.context_push() ex = None try: self.set_parameter("FS_SHORT_ACTN", 3) # 3 means disabled self.set_parameter("SIM_RC_FAIL", 1) self.wait_statustext("Long event on") self.wait_mode("RTL") self.set_parameter("SIM_RC_FAIL", 0) self.wait_text("Long event off") self.change_mode("MANUAL") self.progress("Trying again with THR_FS_VALUE") self.set_parameter("THR_FS_VALUE", 960) self.set_parameter("SIM_RC_FAIL", 2) self.wait_statustext("Long event on") self.wait_mode("RTL") except Exception as e: self.progress("Exception caught:") self.progress(self.get_exception_stacktrace(e)) ex = e self.context_pop() if ex is not None: raise ex def test_throttle_failsafe_fence(self): fence_bit = mavutil.mavlink.MAV_SYS_STATUS_GEOFENCE self.progress("Checking fence is not present before being configured") m = self.mav.recv_match(type='SYS_STATUS', blocking=True) print("%s" % str(m)) if (m.onboard_control_sensors_enabled & fence_bit): raise NotAchievedException("Fence enabled before being configured") self.change_mode('MANUAL') self.wait_ready_to_arm() self.load_fence("CMAC-fence.txt") self.set_parameter("FENCE_CHANNEL", 7) self.set_parameter("FENCE_ACTION", 4) self.set_rc(3, 1000) self.set_rc(7, 2000) self.progress("Checking fence is initially OK") m = self.mav.recv_match(type='SYS_STATUS', blocking=True) print("%s" % str(m)) if (not (m.onboard_control_sensors_enabled & fence_bit)): raise NotAchievedException("Fence not initially enabled") self.set_parameter("THR_FS_VALUE", 960) self.progress("Failing receiver (throttle-to-950)") self.set_parameter("SIM_RC_FAIL", 2) # throttle-to-950 self.wait_mode("CIRCLE") self.delay_sim_time(1) # give self.drain_mav_unparsed() self.progress("Checking fence is OK after receiver failure (bind-values)") fence_bit = mavutil.mavlink.MAV_SYS_STATUS_GEOFENCE m = self.mav.recv_match(type='SYS_STATUS', blocking=True) print("%s" % str(m)) if (not (m.onboard_control_sensors_enabled & fence_bit)): raise NotAchievedException("Fence not enabled after RC fail") def test_gripper_mission(self): self.context_push() ex = None try: self.load_mission("plane-gripper-mission.txt") self.mavproxy.send("wp set 1\n") self.change_mode('AUTO') self.wait_ready_to_arm() self.arm_vehicle() self.mavproxy.expect("Gripper Grabbed") self.mavproxy.expect("Gripper Released") self.mavproxy.expect("Auto disarmed") except Exception as e: self.progress("Exception caught:") self.progress(self.get_exception_stacktrace(e)) ex = e self.context_pop() if ex is not None: raise ex def assert_fence_sys_status(self, present, enabled, health): self.delay_sim_time(1) self.drain_mav_unparsed() m = self.mav.recv_match(type='SYS_STATUS', blocking=True, timeout=1) if m is None: raise NotAchievedException("Did not receive SYS_STATUS") tests = [ ( "present", present, m.onboard_control_sensors_present ), ( "enabled", enabled, m.onboard_control_sensors_enabled ), ( "health", health, m.onboard_control_sensors_health ), ] bit = mavutil.mavlink.MAV_SYS_STATUS_GEOFENCE for test in tests: (name, want, field) = test got = (field & bit) != 0 if want != got: raise NotAchievedException("fence status incorrect; %s want=%u got=%u" % (name, want, got)) def do_fence_en_or_dis_able(self, value, want_result=mavutil.mavlink.MAV_RESULT_ACCEPTED): if value: p1 = 1 else: p1 = 0 self.run_cmd(mavutil.mavlink.MAV_CMD_DO_FENCE_ENABLE, p1, # param1 0, # param2 0, # param3 0, # param4 0, # param5 0, # param6 0, # param7 want_result=want_result) def do_fence_enable(self, want_result=mavutil.mavlink.MAV_RESULT_ACCEPTED): self.do_fence_en_or_dis_able(True, want_result=want_result) def do_fence_disable(self, want_result=mavutil.mavlink.MAV_RESULT_ACCEPTED): self.do_fence_en_or_dis_able(False, want_result=want_result) def wait_circling_point_with_radius(self, loc, want_radius, epsilon=5.0, min_circle_time=5, timeout=120): on_radius_start_heading = None average_radius = 0.0 circle_time_start = 0 done_time = False done_angle = False tstart = self.get_sim_time() while True: if self.get_sim_time() - tstart > timeout: raise AutoTestTimeoutException("Did not get onto circle") here = self.mav.location() got_radius = self.get_distance(loc, here) average_radius = 0.95*average_radius + 0.05*got_radius on_radius = abs(got_radius - want_radius) < epsilon m = self.mav.recv_match(type='VFR_HUD', blocking=True) heading = m.heading on_string = "off" got_angle = "" if on_radius_start_heading is not None: got_angle = "%0.2f" % abs(on_radius_start_heading - heading) # FIXME on_string = "on" want_angle = 180 # we don't actually get this (angle-substraction issue. But we get enough... self.progress("wait-circling: got-r=%0.2f want-r=%f avg-r=%f %s want-a=%0.1f got-a=%s" % (got_radius, want_radius, average_radius, on_string, want_angle, got_angle)) if on_radius: if on_radius_start_heading is None: on_radius_start_heading = heading average_radius = got_radius circle_time_start = self.get_sim_time() continue if abs(on_radius_start_heading - heading) > want_angle: # FIXME done_angle = True if self.get_sim_time() - circle_time_start > min_circle_time: done_time = True if done_time and done_angle: return continue if on_radius_start_heading is not None: average_radius = 0.0 on_radius_start_heading = None circle_time_start = 0 def test_fence_static(self): ex = None try: self.progress("Checking for bizarre healthy-when-not-present-or-enabled") self.assert_fence_sys_status(False, False, True) self.load_fence("CMAC-fence.txt") m = self.mav.recv_match(type='FENCE_STATUS', blocking=True, timeout=2) if m is not None: raise NotAchievedException("Got FENCE_STATUS unexpectedly"); self.drain_mav_unparsed() self.set_parameter("FENCE_ACTION", mavutil.mavlink.FENCE_ACTION_NONE) # report only self.assert_fence_sys_status(False, False, True) self.set_parameter("FENCE_ACTION", mavutil.mavlink.FENCE_ACTION_RTL) # report only self.assert_fence_sys_status(True, False, True) self.mavproxy.send('fence enable\n') self.mavproxy.expect("fence enabled") self.assert_fence_sys_status(True, True, True) m = self.mav.recv_match(type='FENCE_STATUS', blocking=True, timeout=2) if m is None: raise NotAchievedException("Did not get FENCE_STATUS"); if m.breach_status: raise NotAchievedException("Breached fence unexpectedly (%u)" % (m.breach_status)) self.mavproxy.send('fence disable\n') self.mavproxy.expect("fence disabled") self.assert_fence_sys_status(True, False, True) self.set_parameter("FENCE_ACTION", mavutil.mavlink.FENCE_ACTION_NONE) self.assert_fence_sys_status(False, False, True) self.set_parameter("FENCE_ACTION", mavutil.mavlink.FENCE_ACTION_RTL) self.assert_fence_sys_status(True, False, True) self.mavproxy.send("fence clear\n") self.mavproxy.expect("fence removed") if self.get_parameter("FENCE_TOTAL") != 0: raise NotAchievedException("Expected zero points remaining") self.assert_fence_sys_status(False, False, True) self.progress("Trying to enable fence with no points") self.do_fence_enable(want_result=mavutil.mavlink.MAV_RESULT_FAILED) # test a rather unfortunate behaviour: self.progress("Killing a live fence with fence-clear") self.load_fence("CMAC-fence.txt") self.set_parameter("FENCE_ACTION", mavutil.mavlink.FENCE_ACTION_RTL) self.do_fence_enable() self.assert_fence_sys_status(True, True, True) self.mavproxy.send("fence clear\n") self.mavproxy.expect("fence removed") if self.get_parameter("FENCE_TOTAL") != 0: raise NotAchievedException("Expected zero points remaining") self.assert_fence_sys_status(False, False, True) except Exception as e: self.progress("Exception caught:") self.progress(self.get_exception_stacktrace(e)) ex = e self.mavproxy.send('fence clear\n') if ex is not None: raise ex def test_fence_breach_circle_at(self, loc, disable_on_breach=False): ex = None try: self.load_fence("CMAC-fence.txt") want_radius = 100 # when ArduPlane is fixed, remove this fudge factor REALLY_BAD_FUDGE_FACTOR = 1.16 expected_radius = REALLY_BAD_FUDGE_FACTOR * want_radius self.set_parameter("RTL_RADIUS", want_radius) self.set_parameter("NAVL1_LIM_BANK", 60) self.set_parameter("FENCE_ACTION", mavutil.mavlink.FENCE_ACTION_RTL) self.do_fence_enable() self.assert_fence_sys_status(True, True, True) self.takeoff(alt=45, alt_max=300) tstart = self.get_sim_time() while True: if self.get_sim_time() - tstart > 30: raise NotAchievedException("Did not breach fence") m = self.mav.recv_match(type='FENCE_STATUS', blocking=True, timeout=2) if m is None: raise NotAchievedException("Did not get FENCE_STATUS"); if m.breach_status == 0: continue # we've breached; check our state; if m.breach_type != mavutil.mavlink.FENCE_BREACH_BOUNDARY: raise NotAchievedException("Unexpected breach type %u" % (m.breach_type,)) if m.breach_count == 0: raise NotAchievedException("Unexpected breach count %u" % (m.breach_count,)) self.assert_fence_sys_status(True, True, False) break if disable_on_breach: self.do_fence_disable() self.wait_circling_point_with_radius(loc, expected_radius) self.disarm_vehicle(force=True) self.reboot_sitl() except Exception as e: self.progress("Exception caught:") self.progress(self.get_exception_stacktrace(e)) ex = e self.mavproxy.send('fence clear\n') if ex is not None: raise ex def test_fence_rtl(self): self.progress("Testing FENCE_ACTION_RTL no rally point") # have to disable the fence once we've breached or we breach # it as part of the loiter-at-home! self.test_fence_breach_circle_at(self.home_position_as_mav_location(), disable_on_breach=True) def test_fence_rtl_rally(self): ex = None target_system = 1 target_component = 1 try: self.progress("Testing FENCE_ACTION_RTL with rally point") self.wait_ready_to_arm() loc = self.home_position_as_mav_location() self.location_offset_ne(loc, 50, -50) self.set_parameter("RALLY_TOTAL", 1) self.mav.mav.rally_point_send(target_system, target_component, 0, # sequence number 1, # total count int(loc.lat * 1e7), int(loc.lng * 1e7), 15, 0, # "break" alt?! 0, # "land dir" 0) # flags self.delay_sim_time(1) self.mavproxy.send("rally list\n") self.test_fence_breach_circle_at(loc) except Exception as e: self.progress("Exception caught:") self.progress(self.get_exception_stacktrace(e)) ex = e self.mavproxy.send('rally clear\n') if ex is not None: raise ex def test_parachute(self): self.set_rc(9, 1000) self.set_parameter("CHUTE_ENABLED", 1) self.set_parameter("CHUTE_TYPE", 10) self.set_parameter("SERVO9_FUNCTION", 27) self.set_parameter("SIM_PARA_ENABLE", 1) self.set_parameter("SIM_PARA_PIN", 9) self.load_mission("plane-parachute-mission.txt") self.mavproxy.send("wp set 1\n") self.change_mode('AUTO') self.wait_ready_to_arm() self.arm_vehicle() self.mavproxy.expect("BANG") self.disarm_vehicle(force=True) self.reboot_sitl() def test_parachute_sinkrate(self): self.set_rc(9, 1000) self.set_parameter("CHUTE_ENABLED", 1) self.set_parameter("CHUTE_TYPE", 10) self.set_parameter("SERVO9_FUNCTION", 27) self.set_parameter("SIM_PARA_ENABLE", 1) self.set_parameter("SIM_PARA_PIN", 9) self.set_parameter("CHUTE_CRT_SINK", 9) self.progress("Takeoff") self.takeoff(alt=300) self.progress("Diving") self.set_rc(2, 2000) self.mavproxy.expect("BANG") self.disarm_vehicle(force=True) self.reboot_sitl() def run_subtest(self, desc, func): self.start_subtest(desc) func() def test_main_flight(self): self.change_mode('MANUAL') self.progress("Asserting we don't support transfer of fence via mission item protocol") self.assert_no_capability(mavutil.mavlink.MAV_PROTOCOL_CAPABILITY_MISSION_FENCE) # grab home position: self.mav.recv_match(type='HOME_POSITION', blocking=True) self.homeloc = self.mav.location() self.run_subtest("Takeoff", self.takeoff) self.run_subtest("Set Attitude Target", self.set_attitude_target) self.run_subtest("Fly left circuit", self.fly_left_circuit) self.run_subtest("Left roll", lambda: self.axial_left_roll(1)) self.run_subtest("Inside loop", self.inside_loop) self.run_subtest("Stablize test", self.test_stabilize) self.run_subtest("ACRO test", self.test_acro) self.run_subtest("FBWB test", self.test_FBWB) self.run_subtest("CRUISE test", lambda: self.test_FBWB(mode='CRUISE')) self.run_subtest("RTL test", self.fly_RTL) self.run_subtest("LOITER test", self.fly_LOITER) self.run_subtest("CIRCLE test", self.fly_CIRCLE) self.run_subtest("Mission test", lambda: self.fly_mission("ap1.txt")) def airspeed_autocal(self): self.progress("Ensure no AIRSPEED_AUTOCAL on ground") self.set_parameter("ARSPD_AUTOCAL", 1) m = self.mav.recv_match(type='AIRSPEED_AUTOCAL', blocking=True, timeout=5) if m is not None: raise NotAchievedException("Got autocal on ground") mission_filepath = "flaps.txt" num_wp = self.load_mission(mission_filepath) self.wait_ready_to_arm() self.arm_vehicle() self.change_mode("AUTO") self.progress("Ensure AIRSPEED_AUTOCAL in air") m = self.mav.recv_match(type='AIRSPEED_AUTOCAL', blocking=True, timeout=5) self.wait_waypoint(7, num_wp-1, timeout=500) self.wait_disarmed(timeout=120) def sample_enable_parameter(self): return "Q_ENABLE" def test_rangefinder(self): ex = None self.context_push() self.progress("Making sure we don't ordinarily get RANGEFINDER") m = None try: m = self.mav.recv_match(type='RANGEFINDER', blocking=True, timeout=5) except Exception as e: self.progress("Caught exception: %s" % self.get_exception_stacktrace(e)) if m is not None: raise NotAchievedException("Received unexpected RANGEFINDER msg") try: self.set_analog_rangefinder_parameters() self.reboot_sitl() '''ensure rangefinder gives height-above-ground''' self.load_mission("plane-gripper-mission.txt") # borrow this self.mavproxy.send("wp set 1\n") self.change_mode('AUTO') self.wait_ready_to_arm() self.arm_vehicle() self.wait_waypoint(5, 5, max_dist=100) rf = self.mav.recv_match(type="RANGEFINDER", timeout=1, blocking=True) if rf is None: raise NotAchievedException("Did not receive rangefinder message") gpi = self.mav.recv_match(type='GLOBAL_POSITION_INT', blocking=True, timeout=1) if gpi is None: raise NotAchievedException("Did not receive GLOBAL_POSITION_INT message") if abs(rf.distance - gpi.relative_alt/1000.0) > 3: raise NotAchievedException("rangefinder alt (%s) disagrees with global-position-int.relative_alt (%s)" % (rf.distance, gpi.relative_alt/1000.0)) self.mavproxy.expect("Auto disarmed") self.progress("Ensure RFND messages in log") if not self.current_onboard_log_contains_message("RFND"): raise NotAchievedException("No RFND messages in log") except Exception as e: self.progress("Exception caught:") self.progress(self.get_exception_stacktrace(e)) ex = e self.context_pop() self.reboot_sitl() if ex is not None: raise ex def rc_defaults(self): ret = super(AutoTestPlane, self).rc_defaults() ret[3] = 1000 ret[8] = 1800 return ret def default_mode(self): return "MANUAL" def test_pid_tuning(self): self.change_mode("FBWA") # we don't update PIDs in MANUAL super(AutoTestPlane, self).test_pid_tuning() def test_setting_modes_via_auxswitches(self): self.set_parameter("FLTMODE5", 1) self.mavproxy.send('switch 1\n') # random mode self.wait_heartbeat() self.change_mode('MANUAL') self.mavproxy.send('switch 5\n') # acro mode self.wait_mode("CIRCLE") self.set_rc(9, 1000) self.set_rc(10, 1000) self.set_parameter("RC9_OPTION", 4) # RTL self.set_parameter("RC10_OPTION", 55) # guided self.set_rc(9, 1900) self.wait_mode("RTL") self.set_rc(10, 1900) self.wait_mode("GUIDED") self.progress("resetting both switches - should go back to CIRCLE") self.set_rc(9, 1000) self.set_rc(10, 1000) self.wait_mode("CIRCLE") self.set_rc(9, 1900) self.wait_mode("RTL") self.set_rc(10, 1900) self.wait_mode("GUIDED") self.progress("Resetting switch should repoll mode switch") self.set_rc(10, 1000) # this re-polls the mode switch self.wait_mode("CIRCLE") self.set_rc(9, 1000) def wait_for_collision_threat_to_clear(self): '''wait to get a "clear" collision message", then slurp remaining messages''' last_collision = self.get_sim_time() while True: now = self.get_sim_time() if now - last_collision > 5: return self.progress("Waiting for collision message") m = self.mav.recv_match(type='COLLISION', blocking=True, timeout=1) self.progress("Got (%s)" % str(m)) if m is None: continue last_collision = now def test_adsb_send_threatening_adsb_message(self, here): self.progress("Sending ABSD_VEHICLE message") self.mav.mav.adsb_vehicle_send(37, # ICAO address int(here.lat * 1e7), int(here.lng * 1e7), mavutil.mavlink.ADSB_ALTITUDE_TYPE_PRESSURE_QNH, int(here.alt*1000 + 10000), # 10m up 0, # heading in cdeg 0, # horizontal velocity cm/s 0, # vertical velocity cm/s "bob".encode("ascii"), # callsign mavutil.mavlink.ADSB_EMITTER_TYPE_LIGHT, 1, # time since last communication 65535, # flags 17 # squawk ) def test_adsb(self): self.context_push() ex = None try: # message ADSB_VEHICLE 37 -353632614 1491652305 0 584070 0 0 0 "bob" 3 1 255 17 self.set_parameter("RC12_OPTION", 38) # avoid-adsb self.set_rc(12, 2000) self.set_parameter("ADSB_ENABLE", 1) self.set_parameter("AVD_ENABLE", 1) self.set_parameter("AVD_F_ACTION", mavutil.mavlink.MAV_COLLISION_ACTION_RTL) self.reboot_sitl() self.wait_ready_to_arm() here = self.mav.location() self.change_mode("FBWA") self.delay_sim_time(2) # TODO: work out why this is required... self.test_adsb_send_threatening_adsb_message(here) self.progress("Waiting for collision message") m = self.mav.recv_match(type='COLLISION', blocking=True, timeout=4) if m is None: raise NotAchievedException("Did not get collision message") if m.threat_level != 2: raise NotAchievedException("Expected some threat at least") if m.action != mavutil.mavlink.MAV_COLLISION_ACTION_RTL: raise NotAchievedException("Incorrect action; want=%u got=%u" % (mavutil.mavlink.MAV_COLLISION_ACTION_RTL, m.action)) self.wait_mode("RTL") self.progress("Sending far-away ABSD_VEHICLE message") self.mav.mav.adsb_vehicle_send(37, # ICAO address int(here.lat+1 * 1e7), int(here.lng * 1e7), mavutil.mavlink.ADSB_ALTITUDE_TYPE_PRESSURE_QNH, int(here.alt*1000 + 10000), # 10m up 0, # heading in cdeg 0, # horizontal velocity cm/s 0, # vertical velocity cm/s "bob".encode("ascii"), # callsign mavutil.mavlink.ADSB_EMITTER_TYPE_LIGHT, 1, # time since last communication 65535, # flags 17 # squawk ) self.wait_for_collision_threat_to_clear() self.change_mode("FBWA") self.progress("Disabling ADSB-avoidance with RC channel") self.set_rc(12, 1000) self.delay_sim_time(1) # let the switch get polled self.test_adsb_send_threatening_adsb_message(here) m = self.mav.recv_match(type='COLLISION', blocking=True, timeout=4) print("Got (%s)" % str(m)) if m is not None: raise NotAchievedException("Got collision message when I shouldn't have") except Exception as e: ex = e self.context_pop() self.reboot_sitl() if ex is not None: raise ex def fly_do_guided_request(self, target_system=1, target_component=1): self.progress("Takeoff") self.takeoff(alt=50) self.set_rc(3, 1500) self.start_subtest("Ensure command bounced outside guided mode") desired_relative_alt = 33 loc = self.mav.location() self.location_offset_ne(loc, 300, 300) loc.alt += desired_relative_alt self.mav.mav.mission_item_int_send( target_system, target_component, 0, # seq mavutil.mavlink.MAV_FRAME_GLOBAL, mavutil.mavlink.MAV_CMD_NAV_WAYPOINT, 2, # current - guided-mode request 0, # autocontinue 0, # p1 0, # p2 0, # p3 0, # p4 int(loc.lat *1e7), # latitude int(loc.lng *1e7), # longitude loc.alt, # altitude mavutil.mavlink.MAV_MISSION_TYPE_MISSION) m = self.mav.recv_match(type='MISSION_ACK', blocking=True, timeout=5) if m is None: raise NotAchievedException("Did not get MISSION_ACK") if m.type != mavutil.mavlink.MAV_MISSION_ERROR: raise NotAchievedException("Did not get appropriate error") self.start_subtest("Enter guided and flying somewhere constant") self.change_mode("GUIDED") 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, 2, # current - guided-mode request 0, # autocontinue 0, # p1 0, # p2 0, # p3 0, # p4 int(loc.lat *1e7), # latitude int(loc.lng *1e7), # longitude desired_relative_alt, # altitude mavutil.mavlink.MAV_MISSION_TYPE_MISSION) m = self.mav.recv_match(type='MISSION_ACK', blocking=True, timeout=5) if m is None: raise NotAchievedException("Did not get MISSION_ACK") if m.type != mavutil.mavlink.MAV_MISSION_ACCEPTED: raise NotAchievedException("Did not get accepted response") self.wait_location(loc, accuracy=100) # based on loiter radius self.delay_sim_time(20) self.wait_altitude(altitude_min=desired_relative_alt-3, altitude_max=desired_relative_alt+3, relative=True) self.fly_home_land_and_disarm() def LOITER(self): self.takeoff(alt=200) self.set_rc(3, 1500) self.change_mode("LOITER") self.progress("Doing a bit of loitering to start with") tstart = self.get_sim_time() while True: now = self.get_sim_time_cached() if now - tstart > 60: break m = self.mav.recv_match(type='VFR_HUD', blocking=True, timeout=5) if m is None: raise NotAchievedException("Did not get VFR_HUD") new_throttle = m.throttle alt = m.alt m = self.mav.recv_match(type='ATTITUDE', blocking=True, timeout=5) if m is None: raise NotAchievedException("Did not get ATTITUDE") pitch = math.degrees(m.pitch) self.progress("Pitch:%f throttle:%u alt:%f" % (pitch, new_throttle, alt)) m = self.mav.recv_match(type='VFR_HUD', blocking=True, timeout=5) if m is None: raise NotAchievedException("Did not get VFR_HUD") initial_throttle = m.throttle initial_alt = m.alt self.progress("Initial throttle: %u" % initial_throttle) # pitch down, ensure throttle decreases: rc2_max = self.get_parameter("RC2_MAX") self.set_rc(2, rc2_max) tstart = self.get_sim_time() while True: now = self.get_sim_time_cached() '''stick-mixing is pushing the aircraft down. It doesn't want to go down (the target loiter altitude hasn't changed), so it tries to add energy by increasing the throttle. ''' if now - tstart > 60: raise NotAchievedException("Did not see increase in throttle") m = self.mav.recv_match(type='VFR_HUD', blocking=True, timeout=5) if m is None: raise NotAchievedException("Did not get VFR_HUD") new_throttle = m.throttle alt = m.alt m = self.mav.recv_match(type='ATTITUDE', blocking=True, timeout=5) if m is None: raise NotAchievedException("Did not get ATTITUDE") pitch = math.degrees(m.pitch) self.progress("Pitch:%f throttle:%u alt:%f" % (pitch, new_throttle, alt)) if new_throttle - initial_throttle > 20: self.progress("Throttle delta achieved") break self.progress("Centering elevator and ensuring we get back to loiter altitude") self.set_rc(2, 1500) self.wait_altitude(initial_alt-1, initial_alt+1) self.fly_home_land_and_disarm() def CPUFailsafe(self): '''In lockup Plane should copy RC inputs to RC outputs''' self.plane_CPUFailsafe() def test_large_missions(self): self.load_mission("Kingaroy-vlarge.txt") self.load_mission("Kingaroy-vlarge2.txt") def fly_soaring(self): model="plane-soaring" self.customise_SITL_commandline([], model=model, defaults_filepath=self.model_defaults_filepath("ArduPlane",model), wipe=True) self.load_mission('CMAC-soar.txt') self.mavproxy.send("wp set 1\n") self.change_mode('AUTO') self.wait_ready_to_arm() self.arm_vehicle() # Enable thermalling RC rc_chan = 0 for i in range(8): rcx_option = self.get_parameter('RC{0}_OPTION'.format(i+1)) if rcx_option==88: rc_chan = i+1; break if rc_chan==0: raise NotAchievedException("Did not find soaring enable channel option.") self.send_set_rc(rc_chan, 1900) # Wait to detect thermal self.progress("Waiting for thermal") self.wait_mode('LOITER',timeout=600) # Wait to climb to SOAR_ALT_MAX self.progress("Waiting for climb to max altitude") alt_max = self.get_parameter('SOAR_ALT_MAX') self.wait_altitude(alt_max-10, alt_max, timeout=600, relative=True) # Wait for AUTO self.progress("Waiting for AUTO mode") self.wait_mode('AUTO') # Disable thermals self.set_parameter("SIM_THML_SCENARI", 0) # Wait to descent to SOAR_ALT_MIN self.progress("Waiting for glide to min altitude") alt_min = self.get_parameter('SOAR_ALT_MIN') self.wait_altitude(alt_min-10, alt_min, timeout=600, relative=True) self.progress("Waiting for throttle up") self.wait_servo_channel_value(3, 1200, timeout=2, comparator=operator.gt) self.progress("Waiting for climb to cutoff altitude") alt_ctf = self.get_parameter('SOAR_ALT_CUTOFF') self.wait_altitude(alt_ctf-10, alt_ctf, timeout=600, relative=True) # Now set FBWB mode self.change_mode('FBWB') self.delay_sim_time(5) # Now disable soaring (should hold altitude) self.set_parameter("SOAR_ENABLE", 0) self.delay_sim_time(10) #And reenable. This should force throttle-down self.set_parameter("SOAR_ENABLE", 1) self.delay_sim_time(10) # Now wait for descent and check RTL self.wait_altitude(alt_min-10, alt_min, timeout=600, relative=True) self.progress("Waiting for RTL") self.wait_mode('RTL') alt_rtl = self.get_parameter('ALT_HOLD_RTL')/100 # Wait for climb to RTL. self.progress("Waiting for climb to RTL altitude") self.wait_altitude(alt_rtl-5, alt_rtl+5, timeout=60, relative=True) # Back to auto self.change_mode('AUTO') # Reenable thermals self.set_parameter("SIM_THML_SCENARI", 1) # Disable soaring using RC channel. self.send_set_rc(rc_chan, 1100) # Wait to get back to waypoint before thermal. self.progress("Waiting to get back to position") self.wait_current_waypoint(3,timeout=1200) # Enable soaring with mode changes suppressed) self.send_set_rc(rc_chan, 1500) # Make sure this causes throttle down. self.wait_servo_channel_value(3, 1200, timeout=2, comparator=operator.lt) self.progress("Waiting for next WP with no loiter") self.wait_waypoint(4,4,timeout=1200,max_dist=120) # Disarm self.disarm_vehicle() self.progress("Mission OK") def fly_terrain_mission(self): self.customise_SITL_commandline([], wipe=True) self.mavproxy.send("wp set 1\n") self.wait_ready_to_arm() self.arm_vehicle() self.fly_mission("ap-terrain.txt", mission_timeout=600) def tests(self): '''return list of all tests''' ret = super(AutoTestPlane, self).tests() ret.extend([ ("AuxModeSwitch", "Set modes via auxswitches", self.test_setting_modes_via_auxswitches), ("TestRCCamera", "Test RC Option - Camera Trigger", self.test_rc_option_camera_trigger), ("TestRCRelay", "Test Relay RC Channel Option", self.test_rc_relay), ("ThrottleFailsafe", "Fly throttle failsafe", self.test_throttle_failsafe), ("ThrottleFailsafeFence", "Fly fence survives throttle failsafe", self.test_throttle_failsafe_fence), ("TestFlaps", "Flaps", self.fly_flaps), ("DO_CHANGE_SPEED", "Test mavlink DO_CHANGE_SPEED command", self.fly_do_change_speed), ("DO_REPOSITION", "Test mavlink DO_REPOSITION command", self.fly_do_reposition), ("GuidedRequest", "Test handling of MISSION_ITEM in guided mode", self.fly_do_guided_request), ("MainFlight", "Lots of things in one flight", self.test_main_flight), ("TestGripperMission", "Test Gripper mission items", self.test_gripper_mission), ("Parachute", "Test Parachute", self.test_parachute), ("ParachuteSinkRate", "Test Parachute (SinkRate triggering)", self.test_parachute_sinkrate), ("AIRSPEED_AUTOCAL", "Test AIRSPEED_AUTOCAL", self.airspeed_autocal), ("RangeFinder", "Test RangeFinder Basic Functionality", self.test_rangefinder), ("FenceStatic", "Test Basic Fence Functionality", self.test_fence_static), ("FenceRTL", "Test Fence RTL", self.test_fence_rtl), ("FenceRTLRally", "Test Fence RTL Rally", self.test_fence_rtl_rally), ("ADSB", "Test ADSB", self.test_adsb), ("Button", "Test Buttons", self.test_button), ("FRSkySPort", "Test FrSky SPort mode", self.test_frsky_sport), ("FRSkyPassThrough", "Test FrSky PassThrough serial output", self.test_frsky_passthrough), ("FRSkyD", "Test FrSkyD serial output", self.test_frsky_d), ("LTM", "Test LTM serial output", self.test_ltm), ("AdvancedFailsafe", "Test Advanced Failsafe", self.test_advanced_failsafe), ("LOITER", "Test Loiter mode", self.LOITER), ("DeepStall", "Test DeepStall Landing", self.fly_deepstall), ("LargeMissions", "Test Manipulation of Large missions", self.test_large_missions), ("Soaring", "Test Soaring feature", self.fly_soaring), ("Terrain", "Test terrain following in mission", self.fly_terrain_mission), ("LogUpload", "Log upload", self.log_upload), ]) return ret