mirror of https://github.com/ArduPilot/ardupilot
1367 lines
49 KiB
Python
1367 lines
49 KiB
Python
#!/usr/bin/env python
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# Fly ArduCopter in SITL
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from __future__ import print_function
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import math
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import os
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import shutil
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import pexpect
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from pymavlink import mavutil
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from pysim import util
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from common import AutoTest
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from common import NotAchievedException, AutoTestTimeoutException
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# get location of scripts
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testdir = os.path.dirname(os.path.realpath(__file__))
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HOME = mavutil.location(-35.362938, 149.165085, 584, 270)
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AVCHOME = mavutil.location(40.072842, -105.230575, 1586, 0)
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# Flight mode switch positions are set-up in arducopter.param to be
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# switch 1 = Circle
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# switch 2 = Land
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# switch 3 = RTL
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# switch 4 = Auto
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# switch 5 = Loiter
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# switch 6 = Stabilize
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class AutoTestCopter(AutoTest):
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def __init__(self, binary,
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valgrind=False,
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gdb=False,
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speedup=10,
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frame=None,
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params=None,
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gdbserver=False,
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**kwargs):
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super(AutoTestCopter, self).__init__(**kwargs)
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self.binary = binary
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self.valgrind = valgrind
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self.gdb = gdb
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self.frame = frame
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self.params = params
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self.gdbserver = gdbserver
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self.home = "%f,%f,%u,%u" % (HOME.lat,
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HOME.lng,
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HOME.alt,
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HOME.heading)
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self.homeloc = None
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self.speedup = speedup
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self.speedup_default = 10
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self.log_name = "ArduCopter"
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self.logfile = None
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self.buildlog = None
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self.copy_tlog = False
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self.sitl = None
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self.hasInit = False
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def mavproxy_options(self):
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ret = super(AutoTestCopter, self).mavproxy_options()
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if self.frame != 'heli':
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ret.append('--quadcopter')
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return ret
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def sitl_streamrate(self):
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return 5
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def vehicleinfo_key(self):
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return 'ArduCopter'
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def init(self):
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if self.frame is None:
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self.frame = '+'
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if self.frame == 'heli':
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self.log_name = "HeliCopter"
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self.home = "%f,%f,%u,%u" % (AVCHOME.lat,
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AVCHOME.lng,
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AVCHOME.alt,
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AVCHOME.heading)
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self.apply_parameters_using_sitl()
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self.sitl = util.start_SITL(self.binary,
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model=self.frame,
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home=self.home,
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speedup=self.speedup,
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valgrind=self.valgrind,
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gdb=self.gdb,
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gdbserver=self.gdbserver)
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self.mavproxy = util.start_MAVProxy_SITL(
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'ArduCopter', options=self.mavproxy_options())
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self.mavproxy.expect('Telemetry log: (\S+)\r\n')
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self.logfile = self.mavproxy.match.group(1)
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self.progress("LOGFILE %s" % self.logfile)
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self.buildlog = self.buildlogs_path(self.log_name + "-test.tlog")
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self.progress("buildlog=%s" % self.buildlog)
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self.copy_tlog = False
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if os.path.exists(self.buildlog):
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os.unlink(self.buildlog)
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try:
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os.link(self.logfile, self.buildlog)
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except Exception:
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self.progress("WARN: Failed to create symlink: %s => %s, "
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"will copy tlog manually to target location" %
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(self.logfile, self.buildlog))
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self.copy_tlog = True
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self.mavproxy.expect('Received [0-9]+ parameters')
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util.expect_setup_callback(self.mavproxy, self.expect_callback)
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self.expect_list_clear()
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self.expect_list_extend([self.sitl, self.mavproxy])
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self.progress("Started simulator")
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# get a mavlink connection going
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connection_string = '127.0.0.1:19550'
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try:
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self.mav = mavutil.mavlink_connection(connection_string,
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robust_parsing=True)
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except Exception as msg:
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self.progress("Failed to start mavlink connection on %s: %s" %
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(connection_string, msg,))
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raise
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self.mav.message_hooks.append(self.message_hook)
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self.mav.idle_hooks.append(self.idle_hook)
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self.hasInit = True
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self.progress("Ready to start testing!")
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def close(self):
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super(AutoTestCopter, self).close()
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# [2014/05/07] FC Because I'm doing a cross machine build
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# (source is on host, build is on guest VM) I cannot hard link
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# This flag tells me that I need to copy the data out
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if self.copy_tlog:
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shutil.copy(self.logfile, self.buildlog)
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def takeoff(self, alt_min=30, takeoff_throttle=1700, arm=False):
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"""Takeoff get to 30m altitude."""
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self.mavproxy.send('switch 6\n') # stabilize mode
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self.wait_mode('STABILIZE')
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if arm:
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self.set_rc(3, 1000)
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self.arm_vehicle()
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self.set_rc(3, takeoff_throttle)
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m = self.mav.recv_match(type='GLOBAL_POSITION_INT', blocking=True)
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alt = m.relative_alt / 1000.0 # mm -> m
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if alt < alt_min:
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self.wait_altitude(alt_min,
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(alt_min + 5),
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relative=True)
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self.hover()
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self.progress("TAKEOFF COMPLETE")
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def land(self, timeout=60):
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"""Land the quad."""
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self.progress("STARTING LANDING")
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self.mavproxy.send('switch 2\n') # land mode
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self.wait_mode('LAND')
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self.progress("Entered Landing Mode")
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self.wait_altitude(-5, 1, relative=True)
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self.progress("LANDING: ok!")
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def hover(self, hover_throttle=1500):
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self.set_rc(3, hover_throttle)
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# loiter - fly south west, then loiter within 5m position and altitude
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def loiter(self, holdtime=10, maxaltchange=5, maxdistchange=5):
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"""Hold loiter position."""
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self.mavproxy.send('switch 5\n') # loiter mode
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self.wait_mode('LOITER')
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# first aim south east
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self.progress("turn south east")
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self.set_rc(4, 1580)
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self.wait_heading(170)
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self.set_rc(4, 1500)
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# fly south east 50m
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self.set_rc(2, 1100)
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self.wait_distance(50)
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self.set_rc(2, 1500)
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# wait for copter to slow moving
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self.wait_groundspeed(0, 2)
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m = self.mav.recv_match(type='VFR_HUD', blocking=True)
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start_altitude = m.alt
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start = self.mav.location()
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tstart = self.get_sim_time()
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self.progress("Holding loiter at %u meters for %u seconds" %
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(start_altitude, holdtime))
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while self.get_sim_time() < tstart + holdtime:
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m = self.mav.recv_match(type='VFR_HUD', blocking=True)
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pos = self.mav.location()
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delta = self.get_distance(start, pos)
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alt_delta = math.fabs(m.alt - start_altitude)
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self.progress("Loiter Dist: %.2fm, alt:%u" % (delta, m.alt))
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if alt_delta > maxaltchange:
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self.progress("Loiter alt shifted %u meters (> limit of %u)" %
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(alt_delta, maxaltchange))
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raise NotAchievedException()
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if delta > maxdistchange:
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self.progress("Loiter shifted %u meters (> limit of %u)" %
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(delta, maxdistchange))
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raise NotAchievedException()
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self.progress("Loiter OK for %u seconds" % holdtime)
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def change_alt(self, alt_min, climb_throttle=1920, descend_throttle=1080):
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"""Change altitude."""
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m = self.mav.recv_match(type='GLOBAL_POSITION_INT', blocking=True)
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alt = m.relative_alt / 1000.0 # mm -> m
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if alt < alt_min:
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self.progress("Rise to alt:%u from %u" % (alt_min, alt))
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self.set_rc(3, climb_throttle)
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self.wait_altitude(alt_min, (alt_min + 5), relative=True)
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else:
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self.progress("Lower to alt:%u from %u" % (alt_min, alt))
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self.set_rc(3, descend_throttle)
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self.wait_altitude((alt_min - 5), alt_min, relative=True)
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self.hover()
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#################################################
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# TESTS FLY
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#################################################
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# fly a square in alt_hold mode
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def fly_square(self, side=50, timeout=300):
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"""Fly a square, flying N then E ."""
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tstart = self.get_sim_time()
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# ensure all sticks in the middle
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self.set_rc(1, 1500)
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self.set_rc(2, 1500)
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self.set_rc(3, 1500)
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self.set_rc(4, 1500)
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# switch to loiter mode temporarily to stop us from rising
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self.mavproxy.send('switch 5\n')
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self.wait_mode('LOITER')
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# first aim north
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self.progress("turn right towards north")
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self.set_rc(4, 1580)
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self.wait_heading(10)
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self.set_rc(4, 1500)
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self.mav.recv_match(condition='RC_CHANNELS.chan4_raw==1500',
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blocking=True)
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# save bottom left corner of box as waypoint
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self.progress("Save WP 1 & 2")
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self.save_wp()
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# switch back to stabilize mode
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self.set_rc(3, 1500)
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self.mavproxy.send('switch 6\n')
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self.wait_mode('STABILIZE')
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# pitch forward to fly north
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self.progress("Going north %u meters" % side)
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self.set_rc(2, 1300)
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self.wait_distance(side)
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self.set_rc(2, 1500)
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# save top left corner of square as waypoint
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self.progress("Save WP 3")
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self.save_wp()
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# roll right to fly east
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self.progress("Going east %u meters" % side)
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self.set_rc(1, 1700)
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self.wait_distance(side)
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self.set_rc(1, 1500)
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# save top right corner of square as waypoint
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self.progress("Save WP 4")
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self.save_wp()
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# pitch back to fly south
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self.progress("Going south %u meters" % side)
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self.set_rc(2, 1700)
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self.wait_distance(side)
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self.set_rc(2, 1500)
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# save bottom right corner of square as waypoint
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self.progress("Save WP 5")
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self.save_wp()
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# roll left to fly west
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self.progress("Going west %u meters" % side)
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self.set_rc(1, 1300)
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self.wait_distance(side)
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self.set_rc(1, 1500)
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# save bottom left corner of square (should be near home) as waypoint
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self.progress("Save WP 6")
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self.save_wp()
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# descend to 10m
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self.progress("Descend to 10m in Loiter")
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self.mavproxy.send('switch 5\n') # loiter mode
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self.wait_mode('LOITER')
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self.set_rc(3, 1300)
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time_left = timeout - (self.get_sim_time() - tstart)
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self.progress("timeleft = %u" % time_left)
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if time_left < 20:
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time_left = 20
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self.wait_altitude(-10, 10, time_left, relative=True)
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self.save_wp()
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# enter RTL mode and wait for the vehicle to disarm
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def fly_RTL(self, side=60, timeout=250):
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"""Return, land."""
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self.progress("# Enter RTL")
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self.mavproxy.send('switch 3\n')
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self.set_rc(3, 1500)
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tstart = self.get_sim_time()
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while self.get_sim_time() < tstart + timeout:
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m = self.mav.recv_match(type='GLOBAL_POSITION_INT', blocking=True)
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alt = m.relative_alt / 1000.0 # mm -> m
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pos = self.mav.location()
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home_distance = self.get_distance(HOME, pos)
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home = ""
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if alt <= 1 and home_distance < 10:
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home = "HOME"
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self.progress("Alt: %u HomeDist: %.0f %s" %
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(alt, home_distance, home))
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# our post-condition is that we are disarmed:
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if not self.armed():
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return
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raise AutoTestTimeoutException()
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def fly_throttle_failsafe(self, side=60, timeout=180):
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"""Fly east, Failsafe, return, land."""
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# switch to loiter mode temporarily to stop us from rising
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self.mavproxy.send('switch 5\n')
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self.wait_mode('LOITER')
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# first aim east
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self.progress("turn east")
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self.set_rc(4, 1580)
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self.wait_heading(135)
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self.set_rc(4, 1500)
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# raise throttle slightly to avoid hitting the ground
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self.set_rc(3, 1600)
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# switch to stabilize mode
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self.mavproxy.send('switch 6\n')
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self.wait_mode('STABILIZE')
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self.hover()
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# fly east 60 meters
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self.progress("# Going forward %u meters" % side)
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self.set_rc(2, 1350)
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self.wait_distance(side, 5, 60)
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self.set_rc(2, 1500)
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# pull throttle low
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self.progress("# Enter Failsafe")
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self.set_rc(3, 900)
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tstart = self.get_sim_time()
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while self.get_sim_time() < tstart + timeout:
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m = self.mav.recv_match(type='GLOBAL_POSITION_INT', blocking=True)
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alt = m.alt / 1000.0 # mm -> m
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pos = self.mav.location()
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home_distance = self.get_distance(HOME, pos)
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self.progress("Alt: %u HomeDist: %.0f" % (alt, home_distance))
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# check if we've reached home
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if alt <= 1 and home_distance < 10:
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# reduce throttle
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self.set_rc(3, 1100)
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# switch back to stabilize
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self.mavproxy.send('switch 2\n') # land mode
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self.wait_mode('LAND')
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self.progress("Waiting for disarm")
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self.mav.motors_disarmed_wait()
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self.progress("Reached failsafe home OK")
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self.mavproxy.send('switch 6\n') # stabilize mode
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self.wait_mode('STABILIZE')
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self.set_rc(3, 1000)
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self.arm_vehicle()
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return
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self.progress("Failed to land on failsafe RTL - "
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"timed out after %u seconds" % timeout)
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# reduce throttle
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self.set_rc(3, 1100)
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# switch back to stabilize mode
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self.mavproxy.send('switch 2\n') # land mode
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self.wait_mode('LAND')
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self.mavproxy.send('switch 6\n') # stabilize mode
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self.wait_mode('STABILIZE')
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raise AutoTestTimeoutException()
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def fly_battery_failsafe(self, timeout=30):
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# switch to loiter mode so that we hold position
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self.mavproxy.send('switch 5\n')
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self.wait_mode('LOITER')
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self.set_rc(3, 1500)
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# enable battery failsafe
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self.set_parameter('BATT_FS_LOW_ACT', 1)
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# trigger low voltage
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self.set_parameter('SIM_BATT_VOLTAGE', 10)
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# wait for LAND mode. If unsuccessful an exception will be raised
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self.wait_mode('LAND', 300)
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# disable battery failsafe
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self.set_parameter('BATT_FS_LOW_ACT', 0)
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self.progress("Successfully entered LAND after battery failsafe")
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# fly_stability_patch - fly south, then hold loiter within 5m
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# position and altitude and reduce 1 motor to 60% efficiency
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def fly_stability_patch(self,
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holdtime=30,
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maxaltchange=5,
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maxdistchange=10):
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"""Hold loiter position."""
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self.mavproxy.send('switch 5\n') # loiter mode
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self.wait_mode('LOITER')
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# first south
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self.progress("turn south")
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self.set_rc(4, 1580)
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self.wait_heading(180)
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self.set_rc(4, 1500)
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# fly west 80m
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self.set_rc(2, 1100)
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self.wait_distance(80)
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self.set_rc(2, 1500)
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# wait for copter to slow moving
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self.wait_groundspeed(0, 2)
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m = self.mav.recv_match(type='VFR_HUD', blocking=True)
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start_altitude = m.alt
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start = self.mav.location()
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tstart = self.get_sim_time()
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self.progress("Holding loiter at %u meters for %u seconds" %
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(start_altitude, holdtime))
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# cut motor 1 to 55% efficiency
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self.progress("Cutting motor 1 to 60% efficiency")
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self.mavproxy.send('param set SIM_ENGINE_MUL 0.60\n')
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while self.get_sim_time() < tstart + holdtime:
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m = self.mav.recv_match(type='VFR_HUD', blocking=True)
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pos = self.mav.location()
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delta = self.get_distance(start, pos)
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alt_delta = math.fabs(m.alt - start_altitude)
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self.progress("Loiter Dist: %.2fm, alt:%u" % (delta, m.alt))
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if alt_delta > maxaltchange:
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self.progress("Loiter alt shifted %u meters (> limit of %u)" %
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(alt_delta, maxaltchange))
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raise NotAchievedException()
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if delta > maxdistchange:
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self.progress("Loiter shifted %u meters (> limit of %u)" %
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(delta, maxdistchange))
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raise NotAchievedException()
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# restore motor 1 to 100% efficiency
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self.mavproxy.send('param set SIM_ENGINE_MUL 1.0\n')
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self.progress("Stability patch and Loiter OK for %us" % holdtime)
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# fly_fence_test - fly east until you hit the horizontal circular fence
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def fly_fence_test(self, timeout=180):
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"""Hold loiter position."""
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self.mavproxy.send('switch 5\n') # loiter mode
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self.wait_mode('LOITER')
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# enable fence, disable avoidance
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self.mavproxy.send('param set FENCE_ENABLE 1\n')
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self.mavproxy.send('param set AVOID_ENABLE 0\n')
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|
|
# first east
|
|
self.progress("turn east")
|
|
self.set_rc(4, 1580)
|
|
self.wait_heading(160)
|
|
self.set_rc(4, 1500)
|
|
|
|
# fly forward (east) at least 20m
|
|
pitching_forward = True
|
|
self.set_rc(2, 1100)
|
|
self.wait_distance(20)
|
|
|
|
# start timer
|
|
tstart = self.get_sim_time()
|
|
while self.get_sim_time() < tstart + timeout:
|
|
m = self.mav.recv_match(type='GLOBAL_POSITION_INT', blocking=True)
|
|
alt = m.relative_alt / 1000.0 # mm -> m
|
|
pos = self.mav.location()
|
|
home_distance = self.get_distance(HOME, pos)
|
|
self.progress("Alt: %u HomeDistance: %.0f" %
|
|
(alt, home_distance))
|
|
# recenter pitch sticks once we're home so we don't fly off again
|
|
if pitching_forward and home_distance < 10:
|
|
pitching_forward = False
|
|
self.set_rc(2, 1500)
|
|
# disable fence
|
|
self.mavproxy.send('param set FENCE_ENABLE 0\n')
|
|
if alt <= 1 and home_distance < 10:
|
|
# reduce throttle
|
|
self.set_rc(3, 1000)
|
|
# switch mode to stabilize
|
|
self.mavproxy.send('switch 2\n') # land mode
|
|
self.wait_mode('LAND')
|
|
self.progress("Waiting for disarm")
|
|
self.mav.motors_disarmed_wait()
|
|
self.progress("Reached home OK")
|
|
self.mavproxy.send('switch 6\n') # stabilize mode
|
|
self.wait_mode('STABILIZE')
|
|
self.set_rc(3, 1000)
|
|
# remove if we ever clear battery failsafe flag on disarm:
|
|
self.mavproxy.send('arm uncheck all\n')
|
|
self.arm_vehicle()
|
|
# remove if we ever clear battery failsafe flag on disarm:
|
|
self.mavproxy.send('arm check all\n')
|
|
self.progress("Reached home OK")
|
|
return
|
|
|
|
# disable fence, enable avoidance
|
|
self.mavproxy.send('param set FENCE_ENABLE 0\n')
|
|
self.mavproxy.send('param set AVOID_ENABLE 1\n')
|
|
|
|
# reduce throttle
|
|
self.set_rc(3, 1000)
|
|
# switch mode to stabilize
|
|
self.mavproxy.send('switch 2\n') # land mode
|
|
self.wait_mode('LAND')
|
|
self.mavproxy.send('switch 6\n') # stabilize mode
|
|
self.wait_mode('STABILIZE')
|
|
self.progress("Fence test failed to reach home - "
|
|
"timed out after %u seconds" % timeout)
|
|
raise AutoTestTimeoutException()
|
|
|
|
# fly_alt_fence_test - fly up until you hit the fence
|
|
def fly_alt_max_fence_test(self, timeout=180):
|
|
"""Hold loiter position."""
|
|
self.mavproxy.send('switch 5\n') # loiter mode
|
|
self.wait_mode('LOITER')
|
|
|
|
# enable fence, disable avoidance
|
|
self.set_parameter('FENCE_ENABLE', 1)
|
|
self.set_parameter('AVOID_ENABLE', 0)
|
|
self.set_parameter('FENCE_TYPE', 1)
|
|
|
|
self.change_alt(10)
|
|
|
|
# first east
|
|
self.progress("turn east")
|
|
self.set_rc(4, 1580)
|
|
self.wait_heading(160)
|
|
self.set_rc(4, 1500)
|
|
|
|
# fly forward (east) at least 20m
|
|
self.set_rc(2, 1100)
|
|
self.wait_distance(20)
|
|
|
|
# stop flying forward and start flying up:
|
|
self.set_rc(2, 1500)
|
|
self.set_rc(3, 1800)
|
|
|
|
# wait for fence to trigger
|
|
self.wait_mode('RTL')
|
|
|
|
self.progress("Waiting for disarm")
|
|
self.mav.motors_disarmed_wait()
|
|
|
|
self.set_rc(3, 1000)
|
|
|
|
self.mavproxy.send('switch 6\n') # stabilize mode
|
|
self.wait_mode('STABILIZE')
|
|
# remove if we ever clear battery failsafe flag on disarm
|
|
self.mavproxy.send('arm uncheck all\n')
|
|
self.arm_vehicle()
|
|
# remove if we ever clear battery failsafe flag on disarm:
|
|
self.mavproxy.send('arm check all\n')
|
|
|
|
def fly_gps_glitch_loiter_test(self, timeout=30, max_distance=20):
|
|
"""fly_gps_glitch_loiter_test. Fly south east in loiter and test
|
|
reaction to gps glitch."""
|
|
self.mavproxy.send('switch 5\n') # loiter mode
|
|
self.wait_mode('LOITER')
|
|
|
|
# turn on simulator display of gps and actual position
|
|
if self.use_map:
|
|
self.show_gps_and_sim_positions(True)
|
|
|
|
# set-up gps glitch array
|
|
glitch_lat = [0.0002996,
|
|
0.0006958,
|
|
0.0009431,
|
|
0.0009991,
|
|
0.0009444,
|
|
0.0007716,
|
|
0.0006221]
|
|
glitch_lon = [0.0000717,
|
|
0.0000912,
|
|
0.0002761,
|
|
0.0002626,
|
|
0.0002807,
|
|
0.0002049,
|
|
0.0001304]
|
|
glitch_num = len(glitch_lat)
|
|
self.progress("GPS Glitches:")
|
|
for i in range(1, glitch_num):
|
|
self.progress("glitch %d %.7f %.7f" %
|
|
(i, glitch_lat[i], glitch_lon[i]))
|
|
|
|
# turn south east
|
|
self.progress("turn south east")
|
|
self.set_rc(4, 1580)
|
|
try:
|
|
self.wait_heading(150)
|
|
self.set_rc(4, 1500)
|
|
# fly forward (south east) at least 60m
|
|
self.set_rc(2, 1100)
|
|
self.wait_distance(60)
|
|
self.set_rc(2, 1500)
|
|
# wait for copter to slow down
|
|
except Exception as e:
|
|
if self.use_map:
|
|
self.show_gps_and_sim_positions(False)
|
|
raise e
|
|
|
|
# record time and position
|
|
tstart = self.get_sim_time()
|
|
tnow = tstart
|
|
start_pos = self.sim_location()
|
|
|
|
# initialise current glitch
|
|
glitch_current = 0
|
|
self.progress("Apply first glitch")
|
|
self.mavproxy.send('param set SIM_GPS_GLITCH_X %.7f\n' %
|
|
glitch_lat[glitch_current])
|
|
self.mavproxy.send('param set SIM_GPS_GLITCH_Y %.7f\n' %
|
|
glitch_lon[glitch_current])
|
|
|
|
# record position for 30 seconds
|
|
while tnow < tstart + timeout:
|
|
tnow = self.get_sim_time()
|
|
desired_glitch_num = int((tnow - tstart) * 2.2)
|
|
if desired_glitch_num > glitch_current and glitch_current != -1:
|
|
glitch_current = desired_glitch_num
|
|
# turn off glitching if we've reached the end of glitch list
|
|
if glitch_current >= glitch_num:
|
|
glitch_current = -1
|
|
self.progress("Completed Glitches")
|
|
self.mavproxy.send('param set SIM_GPS_GLITCH_X 0\n')
|
|
self.mavproxy.send('param set SIM_GPS_GLITCH_Y 0\n')
|
|
else:
|
|
self.progress("Applying glitch %u" % glitch_current)
|
|
# move onto the next glitch
|
|
self.mavproxy.send('param set SIM_GPS_GLITCH_X %.7f\n' %
|
|
glitch_lat[glitch_current])
|
|
self.mavproxy.send('param set SIM_GPS_GLITCH_Y %.7f\n' %
|
|
glitch_lon[glitch_current])
|
|
|
|
# start displaying distance moved after all glitches applied
|
|
if glitch_current == -1:
|
|
m = self.mav.recv_match(type='GLOBAL_POSITION_INT',
|
|
blocking=True)
|
|
alt = m.alt/1000.0 # mm -> m
|
|
curr_pos = self.sim_location()
|
|
moved_distance = self.get_distance(curr_pos, start_pos)
|
|
self.progress("Alt: %u Moved: %.0f" % (alt, moved_distance))
|
|
if moved_distance > max_distance:
|
|
self.progress("Moved over %u meters, Failed!" %
|
|
max_distance)
|
|
raise NotAchievedException()
|
|
|
|
# disable gps glitch
|
|
if glitch_current != -1:
|
|
glitch_current = -1
|
|
self.mavproxy.send('param set SIM_GPS_GLITCH_X 0\n')
|
|
self.mavproxy.send('param set SIM_GPS_GLITCH_Y 0\n')
|
|
if self.use_map:
|
|
self.show_gps_and_sim_positions(False)
|
|
|
|
self.progress("GPS glitch test passed!"
|
|
" stayed within %u meters for %u seconds" %
|
|
(max_distance, timeout))
|
|
|
|
# fly_gps_glitch_auto_test - fly mission and test reaction to gps glitch
|
|
def fly_gps_glitch_auto_test(self, timeout=120):
|
|
# set-up gps glitch array
|
|
glitch_lat = [0.0002996,
|
|
0.0006958,
|
|
0.0009431,
|
|
0.0009991,
|
|
0.0009444,
|
|
0.0007716,
|
|
0.0006221]
|
|
glitch_lon = [0.0000717,
|
|
0.0000912,
|
|
0.0002761,
|
|
0.0002626,
|
|
0.0002807,
|
|
0.0002049,
|
|
0.0001304]
|
|
glitch_num = len(glitch_lat)
|
|
self.progress("GPS Glitches:")
|
|
for i in range(1, glitch_num):
|
|
self.progress("glitch %d %.7f %.7f" %
|
|
(i, glitch_lat[i], glitch_lon[i]))
|
|
|
|
# Fly mission #1
|
|
self.progress("# Load copter_glitch_mission")
|
|
# load the waypoint count
|
|
global num_wp
|
|
num_wp = self.load_mission("copter_glitch_mission.txt")
|
|
if not num_wp:
|
|
self.progress("load copter_glitch_mission failed")
|
|
raise NotAchievedException()
|
|
|
|
# turn on simulator display of gps and actual position
|
|
if self.use_map:
|
|
self.show_gps_and_sim_positions(True)
|
|
|
|
self.progress("test: Fly a mission from 1 to %u" % num_wp)
|
|
self.mavproxy.send('wp set 1\n')
|
|
|
|
# switch into AUTO mode and raise throttle
|
|
self.mavproxy.send('switch 4\n') # auto mode
|
|
self.wait_mode('AUTO')
|
|
self.set_rc(3, 1500)
|
|
|
|
# wait until 100m from home
|
|
try:
|
|
self.wait_distance(100, 5, 60)
|
|
except Exception as e:
|
|
if self.use_map:
|
|
self.show_gps_and_sim_positions(False)
|
|
raise e
|
|
|
|
# record time and position
|
|
tstart = self.get_sim_time()
|
|
|
|
# initialise current glitch
|
|
glitch_current = 0
|
|
self.progress("Apply first glitch")
|
|
self.mavproxy.send('param set SIM_GPS_GLITCH_X %.7f\n' %
|
|
glitch_lat[glitch_current])
|
|
self.mavproxy.send('param set SIM_GPS_GLITCH_Y %.7f\n' %
|
|
glitch_lon[glitch_current])
|
|
|
|
# record position for 30 seconds
|
|
while glitch_current < glitch_num:
|
|
tnow = self.get_sim_time()
|
|
desired_glitch_num = int((tnow - tstart) * 2.2)
|
|
if desired_glitch_num > glitch_current and glitch_current != -1:
|
|
glitch_current = desired_glitch_num
|
|
# apply next glitch
|
|
if glitch_current < glitch_num:
|
|
self.progress("Applying glitch %u" % glitch_current)
|
|
self.mavproxy.send('param set SIM_GPS_GLITCH_X %.7f\n' %
|
|
glitch_lat[glitch_current])
|
|
self.mavproxy.send('param set SIM_GPS_GLITCH_Y %.7f\n' %
|
|
glitch_lon[glitch_current])
|
|
|
|
# turn off glitching
|
|
self.progress("Completed Glitches")
|
|
self.mavproxy.send('param set SIM_GPS_GLITCH_X 0\n')
|
|
self.mavproxy.send('param set SIM_GPS_GLITCH_Y 0\n')
|
|
|
|
# continue with the mission
|
|
self.wait_waypoint(0, num_wp-1, timeout=500)
|
|
|
|
# wait for arrival back home
|
|
self.mav.recv_match(type='VFR_HUD', blocking=True)
|
|
pos = self.mav.location()
|
|
dist_to_home = self.get_distance(HOME, pos)
|
|
while dist_to_home > 5:
|
|
if self.get_sim_time() > (tstart + timeout):
|
|
self.progress("GPS Glitch testing failed"
|
|
"- exceeded timeout %u seconds" % timeout)
|
|
raise AutoTestTimeoutException()
|
|
|
|
self.mav.recv_match(type='VFR_HUD', blocking=True)
|
|
pos = self.mav.location()
|
|
dist_to_home = self.get_distance(HOME, pos)
|
|
self.progress("Dist from home: %u" % dist_to_home)
|
|
|
|
# turn off simulator display of gps and actual position
|
|
if self.use_map:
|
|
self.show_gps_and_sim_positions(False)
|
|
|
|
self.progress("GPS Glitch test Auto completed: passed!")
|
|
|
|
# fly_simple - assumes the simple bearing is initialised to be
|
|
# directly north flies a box with 100m west, 15 seconds north,
|
|
# 50 seconds east, 15 seconds south
|
|
def fly_simple(self, side=50, timeout=120):
|
|
|
|
# hold position in loiter
|
|
self.mavproxy.send('switch 5\n') # loiter mode
|
|
self.wait_mode('LOITER')
|
|
|
|
# set SIMPLE mode for all flight modes
|
|
self.mavproxy.send('param set SIMPLE 63\n')
|
|
|
|
# switch to stabilize mode
|
|
self.mavproxy.send('switch 6\n')
|
|
self.wait_mode('STABILIZE')
|
|
self.set_rc(3, 1500)
|
|
|
|
# fly south 50m
|
|
self.progress("# Flying south %u meters" % side)
|
|
self.set_rc(1, 1300)
|
|
self.wait_distance(side, 5, 60)
|
|
self.set_rc(1, 1500)
|
|
|
|
# fly west 8 seconds
|
|
self.progress("# Flying west for 8 seconds")
|
|
self.set_rc(2, 1300)
|
|
tstart = self.get_sim_time()
|
|
while self.get_sim_time() < (tstart + 8):
|
|
self.mav.recv_match(type='VFR_HUD', blocking=True)
|
|
self.set_rc(2, 1500)
|
|
|
|
# fly north 25 meters
|
|
self.progress("# Flying north %u meters" % (side/2.0))
|
|
self.set_rc(1, 1700)
|
|
self.wait_distance(side/2, 5, 60)
|
|
self.set_rc(1, 1500)
|
|
|
|
# fly east 8 seconds
|
|
self.progress("# Flying east for 8 seconds")
|
|
self.set_rc(2, 1700)
|
|
tstart = self.get_sim_time()
|
|
while self.get_sim_time() < (tstart + 8):
|
|
self.mav.recv_match(type='VFR_HUD', blocking=True)
|
|
self.set_rc(2, 1500)
|
|
|
|
# restore to default
|
|
self.mavproxy.send('param set SIMPLE 0\n')
|
|
|
|
# hover in place
|
|
self.hover()
|
|
|
|
# fly_super_simple - flies a circle around home for 45 seconds
|
|
def fly_super_simple(self, timeout=45):
|
|
|
|
# hold position in loiter
|
|
self.mavproxy.send('switch 5\n') # loiter mode
|
|
self.wait_mode('LOITER')
|
|
|
|
# fly forward 20m
|
|
self.progress("# Flying forward 20 meters")
|
|
self.set_rc(2, 1300)
|
|
self.wait_distance(20, 5, 60)
|
|
self.set_rc(2, 1500)
|
|
|
|
# set SUPER SIMPLE mode for all flight modes
|
|
self.mavproxy.send('param set SUPER_SIMPLE 63\n')
|
|
|
|
# switch to stabilize mode
|
|
self.mavproxy.send('switch 6\n')
|
|
self.wait_mode('STABILIZE')
|
|
self.set_rc(3, 1500)
|
|
|
|
# start copter yawing slowly
|
|
self.set_rc(4, 1550)
|
|
|
|
# roll left for timeout seconds
|
|
self.progress("# rolling left from pilot's POV for %u seconds"
|
|
% timeout)
|
|
self.set_rc(1, 1300)
|
|
tstart = self.get_sim_time()
|
|
while self.get_sim_time() < (tstart + timeout):
|
|
self.mav.recv_match(type='VFR_HUD', blocking=True)
|
|
|
|
# stop rolling and yawing
|
|
self.set_rc(1, 1500)
|
|
self.set_rc(4, 1500)
|
|
|
|
# restore simple mode parameters to default
|
|
self.mavproxy.send('param set SUPER_SIMPLE 0\n')
|
|
|
|
# hover in place
|
|
self.hover()
|
|
|
|
# fly_circle - flies a circle with 20m radius
|
|
def fly_circle(self, maxaltchange=10, holdtime=36):
|
|
# hold position in loiter
|
|
self.mavproxy.send('switch 5\n') # loiter mode
|
|
self.wait_mode('LOITER')
|
|
|
|
# face west
|
|
self.progress("turn west")
|
|
self.set_rc(4, 1580)
|
|
self.wait_heading(270)
|
|
self.set_rc(4, 1500)
|
|
|
|
# set CIRCLE radius
|
|
self.mavproxy.send('param set CIRCLE_RADIUS 3000\n')
|
|
|
|
# fly forward (east) at least 100m
|
|
self.set_rc(2, 1100)
|
|
self.wait_distance(100)
|
|
# return pitch stick back to middle
|
|
self.set_rc(2, 1500)
|
|
|
|
# set CIRCLE mode
|
|
self.mavproxy.send('switch 1\n') # circle mode
|
|
self.wait_mode('CIRCLE')
|
|
|
|
# wait
|
|
m = self.mav.recv_match(type='VFR_HUD', blocking=True)
|
|
start_altitude = m.alt
|
|
tstart = self.get_sim_time()
|
|
self.progress("Circle at %u meters for %u seconds" %
|
|
(start_altitude, holdtime))
|
|
while self.get_sim_time() < tstart + holdtime:
|
|
m = self.mav.recv_match(type='VFR_HUD', blocking=True)
|
|
self.progress("heading %u" % m.heading)
|
|
|
|
self.progress("CIRCLE OK for %u seconds" % holdtime)
|
|
|
|
# fly_auto_test - fly mission which tests a significant number of commands
|
|
def fly_auto_test(self):
|
|
# Fly mission #1
|
|
self.progress("# Load copter_mission")
|
|
# load the waypoint count
|
|
global num_wp
|
|
num_wp = self.load_mission("copter_mission.txt")
|
|
if not num_wp:
|
|
self.progress("load copter_mission failed")
|
|
raise NotAchievedException()
|
|
|
|
self.progress("test: Fly a mission from 1 to %u" % num_wp)
|
|
self.mavproxy.send('wp set 1\n')
|
|
|
|
# switch into AUTO mode and raise throttle
|
|
self.mavproxy.send('switch 4\n') # auto mode
|
|
self.wait_mode('AUTO')
|
|
self.set_rc(3, 1500)
|
|
|
|
# fly the mission
|
|
self.wait_waypoint(0, num_wp-1, timeout=500)
|
|
|
|
# set throttle to minimum
|
|
self.set_rc(3, 1000)
|
|
|
|
# wait for disarm
|
|
self.mav.motors_disarmed_wait()
|
|
self.progress("MOTORS DISARMED OK")
|
|
|
|
self.progress("Auto mission completed: passed!")
|
|
|
|
def load_mission(self, mission):
|
|
path = os.path.join(testdir, mission)
|
|
return self.load_mission_from_file(path)
|
|
|
|
# fly_avc_test - fly AVC mission
|
|
def fly_avc_test(self):
|
|
# upload mission from file
|
|
self.progress("# Load copter_AVC2013_mission")
|
|
# load the waypoint count
|
|
global num_wp
|
|
num_wp = self.load_mission("copter_AVC2013_mission.txt")
|
|
if not num_wp:
|
|
self.progress("load copter_AVC2013_mission failed")
|
|
raise NotAchievedException()
|
|
|
|
self.progress("Fly AVC mission from 1 to %u" % num_wp)
|
|
self.mavproxy.send('wp set 1\n')
|
|
|
|
# wait for motor runup
|
|
self.wait_seconds(20)
|
|
|
|
# switch into AUTO mode and raise throttle
|
|
self.mavproxy.send('switch 4\n') # auto mode
|
|
self.wait_mode('AUTO')
|
|
self.set_rc(3, 1500)
|
|
|
|
# fly the mission
|
|
self.wait_waypoint(0, num_wp-1, timeout=500)
|
|
|
|
# set throttle to minimum
|
|
self.set_rc(3, 1000)
|
|
|
|
# wait for disarm
|
|
self.mav.motors_disarmed_wait()
|
|
self.progress("MOTORS DISARMED OK")
|
|
|
|
self.progress("AVC mission completed: passed!")
|
|
|
|
def fly_motor_fail(self, fail_servo=0, fail_mul=0.0, holdtime=30):
|
|
"""Test flight with reduced motor efficiency"""
|
|
|
|
# we only expect an octocopter to survive ATM:
|
|
servo_counts = {
|
|
# 2: 6, # hexa
|
|
3: 8, # octa
|
|
# 5: 6, # Y6
|
|
}
|
|
frame_class = int(self.get_parameter("FRAME_CLASS"))
|
|
if frame_class not in servo_counts:
|
|
self.progress("Test not relevant for frame_class %u" % frame_class)
|
|
return
|
|
|
|
servo_count = servo_counts[frame_class]
|
|
|
|
if fail_servo < 0 or fail_servo > servo_count:
|
|
raise ValueError('fail_servo outside range for frame class')
|
|
|
|
self.mavproxy.send('switch 5\n') # loiter mode
|
|
self.wait_mode('LOITER')
|
|
|
|
self.change_alt(alt_min=50)
|
|
|
|
# Get initial values
|
|
start_hud = self.mav.recv_match(type='VFR_HUD', blocking=True)
|
|
start_attitude = self.mav.recv_match(type='ATTITUDE', blocking=True)
|
|
|
|
hover_time = 5
|
|
try:
|
|
tstart = self.get_sim_time()
|
|
int_error_alt = 0
|
|
int_error_yaw_rate = 0
|
|
int_error_yaw = 0
|
|
self.progress("Hovering for %u seconds" % hover_time)
|
|
failed = False
|
|
while self.get_sim_time() < tstart + holdtime + hover_time:
|
|
ti = self.get_sim_time()
|
|
|
|
servo = self.mav.recv_match(type='SERVO_OUTPUT_RAW',
|
|
blocking=True)
|
|
hud = self.mav.recv_match(type='VFR_HUD', blocking=True)
|
|
attitude = self.mav.recv_match(type='ATTITUDE', blocking=True)
|
|
|
|
if not failed and self.get_sim_time() - tstart > hover_time:
|
|
self.progress("Killing motor %u (%u%%)" %
|
|
(fail_servo+1, fail_mul))
|
|
self.set_parameter("SIM_ENGINE_FAIL", fail_servo)
|
|
self.set_parameter("SIM_ENGINE_MUL", fail_mul)
|
|
failed = True
|
|
|
|
if failed:
|
|
self.progress("Hold Time: %f/%f" %
|
|
(self.get_sim_time()-tstart, holdtime))
|
|
|
|
servo_pwm = [servo.servo1_raw,
|
|
servo.servo2_raw,
|
|
servo.servo3_raw,
|
|
servo.servo4_raw,
|
|
servo.servo5_raw,
|
|
servo.servo6_raw,
|
|
servo.servo7_raw,
|
|
servo.servo8_raw]
|
|
|
|
self.progress("PWM output per motor")
|
|
for i, pwm in enumerate(servo_pwm[0:servo_count]):
|
|
if pwm > 1900:
|
|
state = "oversaturated"
|
|
elif pwm < 1200:
|
|
state = "undersaturated"
|
|
else:
|
|
state = "OK"
|
|
|
|
if failed and i==fail_servo:
|
|
state += " (failed)"
|
|
|
|
self.progress("servo %u [pwm=%u] [%s]" % (i+1, pwm, state))
|
|
|
|
alt_delta = hud.alt - start_hud.alt
|
|
yawrate_delta = attitude.yawspeed - start_attitude.yawspeed
|
|
yaw_delta = attitude.yaw - start_attitude.yaw
|
|
|
|
self.progress("Alt=%fm (delta=%fm)" % (hud.alt, alt_delta))
|
|
self.progress("Yaw rate=%f (delta=%f) (rad/s)" %
|
|
(attitude.yawspeed, yawrate_delta))
|
|
self.progress("Yaw=%f (delta=%f) (deg)" %
|
|
(attitude.yaw, yaw_delta))
|
|
|
|
dt = self.get_sim_time() - ti
|
|
int_error_alt += abs(alt_delta/dt)
|
|
int_error_yaw_rate += abs(yawrate_delta/dt)
|
|
int_error_yaw += abs(yaw_delta/dt)
|
|
self.progress("## Error Integration ##")
|
|
self.progress(" Altitude: %fm" % int_error_alt)
|
|
self.progress(" Yaw rate: %f rad/s" % int_error_yaw_rate)
|
|
self.progress(" Yaw: %f deg" % int_error_yaw)
|
|
self.progress("----")
|
|
|
|
if alt_delta < -20:
|
|
self.progress("Vehicle is descending")
|
|
raise NotAchievedException()
|
|
|
|
self.set_parameter("SIM_ENGINE_FAIL", 0)
|
|
self.set_parameter("SIM_ENGINE_MUL", 1.0)
|
|
except Exception as e:
|
|
self.set_parameter("SIM_ENGINE_FAIL", 0)
|
|
self.set_parameter("SIM_ENGINE_MUL", 1.0)
|
|
raise e
|
|
|
|
return True
|
|
|
|
def fly_mission(self, height_accuracy=-1.0, target_altitude=None):
|
|
"""Fly a mission from a file."""
|
|
global num_wp
|
|
self.progress("test: Fly a mission from 1 to %u" % num_wp)
|
|
self.mavproxy.send('wp set 1\n')
|
|
self.mavproxy.send('switch 4\n') # auto mode
|
|
self.wait_mode('AUTO')
|
|
self.wait_waypoint(0, num_wp-1, timeout=500)
|
|
self.progress("test: MISSION COMPLETE: passed!")
|
|
# wait here until ready
|
|
self.mavproxy.send('switch 5\n') # loiter mode
|
|
self.wait_mode('LOITER')
|
|
|
|
def autotest(self):
|
|
"""Autotest ArduCopter in SITL."""
|
|
if not self.hasInit:
|
|
self.init()
|
|
|
|
self.fail_list = []
|
|
|
|
try:
|
|
self.progress("Waiting for a heartbeat with mavlink protocol %s"
|
|
% self.mav.WIRE_PROTOCOL_VERSION)
|
|
self.mav.wait_heartbeat()
|
|
self.progress("Setting up RC parameters")
|
|
self.set_rc_default()
|
|
self.set_rc(3, 1000)
|
|
self.homeloc = self.mav.location()
|
|
self.progress("Home location: %s" % self.homeloc)
|
|
self.mavproxy.send('switch 6\n') # stabilize mode
|
|
self.mav.wait_heartbeat()
|
|
self.wait_mode('STABILIZE')
|
|
self.progress("Waiting reading for arm")
|
|
self.wait_ready_to_arm()
|
|
|
|
# Arm
|
|
self.run_test("Arm motors", self.arm_vehicle)
|
|
|
|
# Takeoff
|
|
self.run_test("Takeoff to test fly Square",
|
|
lambda: self.takeoff(10))
|
|
|
|
# Fly a square in Stabilize mode
|
|
self.run_test("Fly a square and save WPs with CH7",
|
|
self.fly_square)
|
|
|
|
# save the stored mission to file
|
|
global num_wp
|
|
num_wp = self.save_mission_to_file(os.path.join(testdir,
|
|
"ch7_mission.txt"))
|
|
if not num_wp:
|
|
self.fail_list.append("save_mission_to_file")
|
|
self.progress("save_mission_to_file failed")
|
|
|
|
# fly the stored mission
|
|
self.run_test("Fly CH7 saved mission",
|
|
lambda: self.fly_mission(height_accuracy=0.5,
|
|
target_altitude=10))
|
|
|
|
# Throttle Failsafe
|
|
self.run_test("Test Failsafe",
|
|
lambda: self.fly_throttle_failsafe)
|
|
|
|
# Takeoff
|
|
self.run_test("Takeoff to test battery failsafe",
|
|
lambda: self.takeoff(10))
|
|
|
|
# Battery failsafe
|
|
self.run_test("Fly Battery Failsafe",
|
|
lambda: self.fly_battery_failsafe)
|
|
|
|
# Takeoff
|
|
self.run_test("Takeoff to test stability patch",
|
|
lambda: self.takeoff(10))
|
|
|
|
# Stability patch
|
|
self.run_test("Fly stability patch",
|
|
lambda: self.fly_stability_patch(30))
|
|
|
|
# RTL
|
|
self.run_test("RTL after stab patch", lambda: self.fly_RTL)
|
|
|
|
# Takeoff
|
|
self.run_test("Takeoff to test horizontal fence",
|
|
lambda: self.takeoff(10))
|
|
|
|
# Fence test
|
|
self.run_test("Test horizontal fence",
|
|
lambda: self.fly_fence_test(180))
|
|
|
|
# Fence test
|
|
self.run_test("Test Max Alt Fence",
|
|
lambda: self.fly_alt_max_fence_test(180))
|
|
|
|
# Takeoff
|
|
self.run_test("Takeoff to test GPS glitch loiter",
|
|
lambda: self.takeoff(10))
|
|
|
|
# Fly GPS Glitch Loiter test
|
|
self.run_test("GPS Glitch Loiter Test",
|
|
self.fly_gps_glitch_loiter_test)
|
|
|
|
# RTL after GPS Glitch Loiter test
|
|
self.run_test("RTL after GPS Glitch Loiter test", self.fly_RTL)
|
|
|
|
# Arm
|
|
self.mavproxy.send('mode stabilize\n') # stabilize mode
|
|
self.wait_mode('STABILIZE')
|
|
self.set_rc(3, 1000)
|
|
self.run_test("Arm motors", self.arm_vehicle)
|
|
|
|
# Fly GPS Glitch test in auto mode
|
|
self.run_test("GPS Glitch Auto Test",
|
|
self.fly_gps_glitch_auto_test)
|
|
|
|
# Takeoff
|
|
self.run_test("Takeoff to test loiter", lambda: self.takeoff(10))
|
|
|
|
# Loiter for 10 seconds
|
|
self.run_test("Test Loiter for 10 seconds", self.loiter)
|
|
|
|
# Loiter Climb
|
|
self.run_test("Loiter - climb to 30m", lambda: self.change_alt(30))
|
|
|
|
# Loiter Descend
|
|
self.run_test("Loiter - descend to 20m",
|
|
lambda: self.change_alt(20))
|
|
|
|
# RTL
|
|
self.run_test("RTL after Loiter climb/descend", self.fly_RTL)
|
|
|
|
# Takeoff
|
|
self.run_test("Takeoff to test fly SIMPLE mode",
|
|
lambda: self.takeoff(10, arm=True))
|
|
|
|
# Simple mode
|
|
self.run_test("Fly in SIMPLE mode", self.fly_simple)
|
|
|
|
# RTL
|
|
self.run_test("RTL after SIMPLE mode", self.fly_RTL)
|
|
|
|
# Takeoff
|
|
self.run_test("Takeoff to test circle in SUPER SIMPLE mode",
|
|
lambda: self.takeoff(10, arm=True))
|
|
|
|
# Fly a circle in super simple mode
|
|
self.run_test("Fly a circle in SUPER SIMPLE mode",
|
|
self.fly_super_simple)
|
|
|
|
# RTL
|
|
self.run_test("RTL after SUPER SIMPLE mode", self.fly_RTL)
|
|
|
|
# Takeoff
|
|
self.run_test("Takeoff to test CIRCLE mode",
|
|
lambda: self.takeoff(10, arm=True))
|
|
|
|
# Circle mode
|
|
self.run_test("Fly CIRCLE mode", self.fly_circle)
|
|
|
|
# RTL
|
|
self.run_test("RTL after CIRCLE mode", self.fly_RTL)
|
|
|
|
# Arm
|
|
self.set_rc(3, 1000)
|
|
self.mavproxy.send('mode stabilize\n') # stabilize mode
|
|
self.wait_mode('STABILIZE')
|
|
|
|
# Takeoff
|
|
self.run_test("Takeoff to test motor failure",
|
|
lambda: self.takeoff(10, arm=True))
|
|
|
|
self.run_test("Fly motor failure test",
|
|
self.fly_motor_fail)
|
|
|
|
# RTL
|
|
self.run_test("RTL after motor failure test", self.fly_RTL)
|
|
|
|
# Arm
|
|
self.set_rc(3, 1000)
|
|
self.mavproxy.send('mode stabilize\n') # stabilize mode
|
|
self.wait_mode('STABILIZE')
|
|
self.run_test("Arm motors", self.arm_vehicle)
|
|
|
|
# Fly auto test
|
|
self.run_test("Fly copter mission", self.fly_auto_test)
|
|
|
|
# land
|
|
self.run_test("Fly copter mission", self.land)
|
|
|
|
# wait for disarm
|
|
self.mav.motors_disarmed_wait()
|
|
|
|
# Download logs
|
|
self.run_test("log download",
|
|
lambda: self.log_download(
|
|
self.buildlogs_path("ArduCopter-log.bin")))
|
|
|
|
except pexpect.TIMEOUT as e:
|
|
self.progress("Failed with timeout")
|
|
self.fail_list.append("Failed with timeout")
|
|
self.close()
|
|
|
|
if len(self.fail_list):
|
|
self.progress("FAILED : %s" % self.fail_list)
|
|
return False
|
|
return True
|
|
|
|
def autotest_heli(self):
|
|
"""Autotest Helicopter in SITL with AVC2013 mission."""
|
|
self.frame = 'heli'
|
|
if not self.hasInit:
|
|
self.init()
|
|
|
|
self.fail_list = []
|
|
|
|
try:
|
|
self.mav.wait_heartbeat()
|
|
self.set_rc_default()
|
|
self.set_rc(3, 1000)
|
|
self.homeloc = self.mav.location()
|
|
|
|
self.progress("Lowering rotor speed")
|
|
self.set_rc(8, 1000)
|
|
self.mavproxy.send('switch 6\n') # stabilize mode
|
|
self.wait_mode('STABILIZE')
|
|
self.wait_ready_to_arm()
|
|
|
|
# Arm
|
|
self.run_test("Arm motors", self.arm_vehicle)
|
|
self.progress("Raising rotor speed")
|
|
self.set_rc(8, 2000)
|
|
|
|
self.run_test("Fly AVC mission", self.fly_avc_test)
|
|
|
|
self.progress("Lowering rotor speed")
|
|
self.set_rc(8, 1000)
|
|
|
|
# mission ends with disarm so should be ok to download logs now
|
|
self.run_test("log download",
|
|
lambda: self.log_download(
|
|
self.buildlogs_path("Helicopter-log.bin")))
|
|
|
|
except pexpect.TIMEOUT as e:
|
|
self.fail_list.append("Failed with timeout")
|
|
|
|
self.close()
|
|
|
|
if len(self.fail_list):
|
|
self.progress("FAILED: %s" % self.fail_list)
|
|
return False
|
|
return True
|