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ardupilot/Tools/autotest/common.py

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from __future__ import print_function
import abc
import math
import itertools
import os
import re
import shutil
import sys
import time
import pexpect
import fnmatch
from pymavlink import mavwp, mavutil
from pysim import util, vehicleinfo
# a list of pexpect objects to read while waiting for
# messages. This keeps the output to stdout flowing
expect_list = []
# get location of scripts
testdir = os.path.dirname(os.path.realpath(__file__))
# Check python version for abstract base class
if sys.version_info[0] >= 3 and sys.version_info[1] >= 4:
ABC = abc.ABC
else:
ABC = abc.ABCMeta('ABC', (), {})
class ErrorException(Exception):
"""Base class for other exceptions"""
pass
class AutoTestTimeoutException(ErrorException):
pass
class WaitModeTimeout(AutoTestTimeoutException):
"""Thrown when fails to achieve given mode change."""
pass
class WaitAltitudeTimout(AutoTestTimeoutException):
"""Thrown when fails to achieve given altitude range."""
pass
class WaitGroundSpeedTimeout(AutoTestTimeoutException):
"""Thrown when fails to achieve given ground speed range."""
pass
class WaitRollTimeout(AutoTestTimeoutException):
"""Thrown when fails to achieve given roll in degrees."""
pass
class WaitPitchTimeout(AutoTestTimeoutException):
"""Thrown when fails to achieve given pitch in degrees."""
pass
class WaitHeadingTimeout(AutoTestTimeoutException):
"""Thrown when fails to achieve given heading."""
pass
class WaitDistanceTimeout(AutoTestTimeoutException):
"""Thrown when fails to attain distance"""
pass
class WaitLocationTimeout(AutoTestTimeoutException):
"""Thrown when fails to attain location"""
pass
class WaitWaypointTimeout(AutoTestTimeoutException):
"""Thrown when fails to attain waypoint ranges"""
pass
class SetRCTimeout(AutoTestTimeoutException):
"""Thrown when fails to send RC commands"""
pass
class MsgRcvTimeoutException(AutoTestTimeoutException):
"""Thrown when fails to receive an expected message"""
pass
class NotAchievedException(ErrorException):
"""Thrown when fails to achieve a goal"""
pass
class PreconditionFailedException(ErrorException):
"""Thrown when a precondition for a test is not met"""
pass
class Context(object):
def __init__(self):
self.parameters = []
class AutoTest(ABC):
"""Base abstract class.
It implements the common function for all vehicle types.
"""
def __init__(self,
viewerip=None,
use_map=False):
self.mavproxy = None
self.mav = None
self.viewerip = viewerip
self.use_map = use_map
self.contexts = []
self.context_push()
self.buildlog = None
self.copy_tlog = False
self.logfile = None
self.max_set_rc_timeout = 0
self.last_wp_load = 0
@staticmethod
def progress(text):
"""Display autotest progress text."""
print("AUTOTEST: " + text)
# following two functions swiped from autotest.py:
@staticmethod
def buildlogs_dirpath():
return os.getenv("BUILDLOGS", util.reltopdir("../buildlogs"))
def buildlogs_path(self, path):
"""Return a string representing path in the buildlogs directory."""
bits = [self.buildlogs_dirpath()]
if isinstance(path, list):
bits.extend(path)
else:
bits.append(path)
return os.path.join(*bits)
def sitl_streamrate(self):
"""Allow subclasses to override SITL streamrate."""
return 10
def autotest_connection_hostport(self):
'''returns host and port of connection between MAVProxy and autotest,
colon-separated'''
return "127.0.0.1:19550"
def autotest_connection_string_from_mavproxy(self):
return "tcpin:" + self.autotest_connection_hostport()
def autotest_connection_string_to_mavproxy(self):
return "tcp:" + self.autotest_connection_hostport()
def mavproxy_options(self):
"""Returns options to be passed to MAVProxy."""
ret = ['--sitl=127.0.0.1:5501',
'--out=' + self.autotest_connection_string_from_mavproxy(),
'--streamrate=%u' % self.sitl_streamrate()]
if self.viewerip:
ret.append("--out=%s:14550" % self.viewerip)
if self.use_map:
ret.append('--map')
return ret
def vehicleinfo_key(self):
return self.log_name
def apply_defaultfile_parameters(self):
"""Apply parameter file."""
# setup test parameters
vinfo = vehicleinfo.VehicleInfo()
if self.params is None:
frames = vinfo.options[self.vehicleinfo_key()]["frames"]
self.params = frames[self.frame]["default_params_filename"]
if not isinstance(self.params, list):
self.params = [self.params]
for x in self.params:
self.mavproxy.send("param load %s\n" % os.path.join(testdir, x))
self.mavproxy.expect('Loaded [0-9]+ parameters')
self.set_parameter('LOG_REPLAY', 1)
self.set_parameter('LOG_DISARMED', 1)
self.reboot_sitl()
self.fetch_parameters()
def fetch_parameters(self):
self.mavproxy.send("param fetch\n")
self.mavproxy.expect("Received [0-9]+ parameters")
def reboot_sitl(self):
"""Reboot SITL instance and wait it to reconnect."""
self.mavproxy.send("reboot\n")
self.mavproxy.expect("Initialising APM")
# empty mav to avoid getting old timestamps:
if self.mav is not None:
while self.mav.recv_match(blocking=False):
pass
# after reboot stream-rates may be zero. Prompt MAVProxy to
# send a rate-change message by changing away from our normal
# stream rates and back again:
if self.mav is not None:
tstart = self.get_sim_time()
while True:
self.mavproxy.send("set streamrate %u\n" % (self.sitl_streamrate()+1))
if self.mav is None:
break
if self.get_sim_time() - tstart > 10:
raise AutoTestTimeoutException("SYSTEM_TIME not received")
m = self.mav.recv_match(type='SYSTEM_TIME',
blocking=True,
timeout=1)
if m is not None:
print("Received (%s)" % str(m))
break
self.mavproxy.send("set streamrate %u\n" % self.sitl_streamrate())
self.progress("Reboot complete")
def close(self):
"""Tidy up after running all tests."""
if self.use_map:
self.mavproxy.send("module unload map\n")
self.mavproxy.expect("Unloaded module map")
self.mav.close()
util.pexpect_close(self.mavproxy)
util.pexpect_close(self.sitl)
valgrind_log = util.valgrind_log_filepath(binary=self.binary,
model=self.frame)
if os.path.exists(valgrind_log):
os.chmod(valgrind_log, 0o644)
shutil.copy(valgrind_log,
self.buildlogs_path("%s-valgrind.log" %
self.log_name))
def start_test(self, description):
self.progress("#")
self.progress("########## %s ##########" % description)
self.progress("#")
def try_symlink_tlog(self):
self.buildlog = self.buildlogs_path(self.log_name + "-test.tlog")
self.progress("buildlog=%s" % self.buildlog)
if os.path.exists(self.buildlog):
os.unlink(self.buildlog)
try:
os.link(self.logfile, self.buildlog)
except OSError as error:
self.progress("OSError [%d]: %s" % (error.errno, error.strerror))
self.progress("WARN: Failed to create symlink: %s => %s, "
"will copy tlog manually to target location" %
(self.logfile, self.buildlog))
self.copy_tlog = True
#################################################
# GENERAL UTILITIES
#################################################
def expect_list_clear(self):
"""clear the expect list."""
global expect_list
for p in expect_list[:]:
expect_list.remove(p)
def expect_list_extend(self, list_to_add):
"""Extend the expect list."""
global expect_list
expect_list.extend(list_to_add)
def idle_hook(self, mav):
"""Called when waiting for a mavlink message."""
global expect_list
for p in expect_list:
util.pexpect_drain(p)
def message_hook(self, mav, msg):
"""Called as each mavlink msg is received."""
self.idle_hook(mav)
def expect_callback(self, e):
"""Called when waiting for a expect pattern."""
global expect_list
for p in expect_list:
if p == e:
continue
util.pexpect_drain(p)
def drain_mav(self):
count = 0
while self.mav.recv_match(type='SYSTEM_TIME', blocking=False) is not None:
count += 1
self.progress("Drained %u messages from mav" % count)
#################################################
# SIM UTILITIES
#################################################
def get_sim_time(self):
"""Get SITL time in seconds."""
m = self.mav.recv_match(type='SYSTEM_TIME', blocking=True)
return m.time_boot_ms * 1.0e-3
def get_sim_time_cached(self):
"""Get SITL time."""
x = self.mav.messages.get("SYSTEM_TIME", None)
if x is None:
return self.get_sim_time()
return x.time_boot_ms * 1.0e-3
def delay_sim_time(self, delay):
'''delay for delay seconds in simulation time'''
m = self.mav.recv_match(type='SYSTEM_TIME', blocking=True)
start = m.time_boot_ms
while True:
m = self.mav.recv_match(type='SYSTEM_TIME', blocking=True)
if m.time_boot_ms - start > delay * 1000:
return
def sim_location(self):
"""Return current simulator location."""
m = self.mav.recv_match(type='SIMSTATE', blocking=True)
return mavutil.location(m.lat*1.0e-7,
m.lng*1.0e-7,
0,
math.degrees(m.yaw))
def save_wp(self):
"""Trigger RC 7 to save waypoint."""
self.mavproxy.send('rc 7 1000\n')
self.mav.recv_match(condition='RC_CHANNELS.chan7_raw==1000',
blocking=True)
self.wait_seconds(1)
self.mavproxy.send('rc 7 2000\n')
self.mav.recv_match(condition='RC_CHANNELS.chan7_raw==2000',
blocking=True)
self.wait_seconds(1)
self.mavproxy.send('rc 7 1000\n')
self.mav.recv_match(condition='RC_CHANNELS.chan7_raw==1000',
blocking=True)
self.wait_seconds(1)
def clear_wp(self):
"""Trigger RC 8 to clear waypoint."""
self.progress("Clearing waypoints")
self.set_rc(8, 1000)
self.wait_seconds(0.5)
self.set_rc(8, 2000)
self.wait_seconds(0.5)
self.set_rc(8, 1000)
self.mavproxy.send('wp list\n')
self.mavproxy.expect('Requesting 0 waypoints')
def log_download(self, filename, timeout=360, upload_logs=False):
"""Download latest log."""
self.mav.wait_heartbeat()
self.mavproxy.send("log list\n")
self.mavproxy.expect("numLogs")
self.mav.wait_heartbeat()
self.mav.wait_heartbeat()
self.mavproxy.send("set shownoise 0\n")
self.mavproxy.send("log download latest %s\n" % filename)
self.mavproxy.expect("Finished downloading", timeout=timeout)
self.mav.wait_heartbeat()
self.mav.wait_heartbeat()
if upload_logs and not os.getenv("AUTOTEST_NO_UPLOAD"):
# optionally upload logs to server so we can see travis failure logs
import datetime
import glob
import subprocess
logdir = os.path.dirname(filename)
datedir = datetime.datetime.now().strftime("%Y-%m-%d-%H-%M")
flist = glob.glob("logs/*.BIN")
for e in ['BIN', 'bin', 'tlog']:
flist += glob.glob(os.path.join(logdir, '*.%s' % e))
print("Uploading %u logs to http://firmware.ardupilot.org/CI-Logs/%s" % (len(flist), datedir))
cmd = ['rsync', '-avz'] + flist + ['cilogs@autotest.ardupilot.org::CI-Logs/%s/' % datedir]
subprocess.call(cmd)
def show_gps_and_sim_positions(self, on_off):
"""Allow to display gps and actual position on map."""
if on_off is True:
# turn on simulator display of gps and actual position
self.mavproxy.send('map set showgpspos 1\n')
self.mavproxy.send('map set showsimpos 1\n')
else:
# turn off simulator display of gps and actual position
self.mavproxy.send('map set showgpspos 0\n')
self.mavproxy.send('map set showsimpos 0\n')
@staticmethod
def mission_count(filename):
"""Load a mission from a file and return number of waypoints."""
wploader = mavwp.MAVWPLoader()
wploader.load(filename)
num_wp = wploader.count()
return num_wp
def mission_directory(self):
return testdir
def assert_mission_files_same(self, file1, file2):
self.progress("Comparing (%s) and (%s)" % (file1, file2, ))
f1 = open(file1)
f2 = open(file2)
for l1, l2 in itertools.izip(f1, f2):
if l1 == l2:
# e.g. the first "QGC WPL 110" line
continue
if re.match("0\s", l1):
# home changes...
continue
l1 = l1.rstrip()
l2 = l2.rstrip()
fields1 = re.split("\s+", l1)
fields2 = re.split("\s+", l2)
# line = int(fields1[0])
t = int(fields1[3]) # mission item type
for (count, (i1, i2)) in enumerate(itertools.izip(fields1, fields2)):
if count == 2: # frame
if t in [mavutil.mavlink.MAV_CMD_DO_CHANGE_SPEED,
mavutil.mavlink.MAV_CMD_CONDITION_YAW,
mavutil.mavlink.MAV_CMD_NAV_RETURN_TO_LAUNCH,
mavutil.mavlink.MAV_CMD_NAV_LOITER_TIME,
mavutil.mavlink.MAV_CMD_DO_JUMP,
mavutil.mavlink.MAV_CMD_DO_DIGICAM_CONTROL,
]:
# ardupilot doesn't remember frame on these commands
if int(i1) == 3:
i1 = 0
if int(i2) == 3:
i2 = 0
if count == 6: # param 3
if t in [mavutil.mavlink.MAV_CMD_NAV_LOITER_TIME]:
# ardupilot canonicalises this to -1 for ccw or 1 for cw.
if float(i1) == 0:
i1 = 1.0
if float(i2) == 0:
i2 = 1.0
if count == 7: # param 4
if t == mavutil.mavlink.MAV_CMD_NAV_LAND:
# ardupilot canonicalises "0" to "1" param 4 (yaw)
if int(float(i1)) == 0:
i1 = 1
if int(float(i2)) == 0:
i2 = 1
if 0 <= count <= 3 or 11 <= count <= 11:
if int(i1) != int(i2):
raise ValueError("Files have different content: (%s vs %s) (%s vs %s) (%d vs %d) (count=%u)" %
(file1, file2, l1, l2, int(i1), int(i2), count)) # NOCI
continue
if 4 <= count <= 10:
delta = abs(float(i1) - float(i2))
max_allowed_delta = 0.000009
if delta > max_allowed_delta:
raise ValueError("Files have different (float) content: (%s) and " +
"(%s) (%s vs %s) (%f vs %f) (%.10f) (count=%u)" %
(file1, file2, l1, l2, float(i1), float(i2), delta, count)) # NOCI
continue
raise ValueError("count %u not handled" % count)
self.progress("Files same")
def load_mission(self, filename):
"""Load a mission from a file to flight controller."""
path = os.path.join(self.mission_directory(), filename)
tstart = self.get_sim_time_cached()
while True:
t2 = self.get_sim_time()
if t2 - tstart > 10:
raise AutoTestTimeoutException("Failed to do waypoint thing")
self.mavproxy.send('wp load %s\n' % path)
self.mavproxy.expect('Loaded ([0-9]+) waypoints from')
load_count = self.mavproxy.match.group(1)
# the following hack is to get around MAVProxy statustext deduping:
while time.time() - self.last_wp_load < 3:
self.progress("Waiting for MAVProxy de-dupe timer to expire")
time.sleep(1)
self.last_wp_load = time.time()
self.mavproxy.expect("Flight plan received")
self.mavproxy.send('wp list\n')
self.mavproxy.expect('Requesting ([0-9]+) waypoints')
request_count = self.mavproxy.match.group(1)
if load_count != request_count:
self.progress("request_count=%s != load_count=%s" %
(request_count, load_count))
continue
self.mavproxy.expect('Saved ([0-9]+) waypoints to (.+?way.txt)')
save_count = self.mavproxy.match.group(1)
if save_count != request_count:
raise NotAchievedException("request count != load count")
saved_filepath = util.reltopdir(self.mavproxy.match.group(2))
saved_filepath = saved_filepath.rstrip()
self.assert_mission_files_same(path, saved_filepath)
break
self.mavproxy.send('wp status\n')
self.mavproxy.expect('Have (\d+) of (\d+)')
status_have = self.mavproxy.match.group(1)
status_want = self.mavproxy.match.group(2)
if status_have != status_want:
raise ValueError("status count mismatch")
if status_have != save_count:
raise ValueError("status have not equal to save count")
# update num_wp
wploader = mavwp.MAVWPLoader()
wploader.load(path)
num_wp = wploader.count()
return num_wp
def save_mission_to_file(self, filename):
"""Save a mission to a file"""
self.mavproxy.send('wp list\n')
self.mavproxy.expect('Requesting [0-9]+ waypoints')
self.mavproxy.send('wp save %s\n' % filename)
self.mavproxy.expect('Saved ([0-9]+) waypoints')
num_wp = int(self.mavproxy.match.group(1))
self.progress("num_wp: %d" % num_wp)
return num_wp
def set_rc_default(self):
"""Setup all simulated RC control to 1500."""
for chan in range(1, 16):
self.mavproxy.send('rc %u 1500\n' % chan)
def set_rc(self, chan, pwm, timeout=2000):
"""Setup a simulated RC control to a PWM value"""
self.drain_mav()
tstart = self.get_sim_time()
wclock = time.time()
while self.get_sim_time_cached() < tstart + timeout:
self.mavproxy.send('rc %u %u\n' % (chan, pwm))
m = self.mav.recv_match(type='RC_CHANNELS', blocking=True)
chan_pwm = getattr(m, "chan" + str(chan) + "_raw")
wclock_delta = time.time() - wclock
sim_time_delta = self.get_sim_time_cached()-tstart
if sim_time_delta == 0:
time_ratio = None
else:
time_ratio = wclock_delta / sim_time_delta
self.progress("set_rc (wc=%s st=%s r=%s): ch=%u want=%u got=%u" %
(wclock_delta,
sim_time_delta,
time_ratio,
chan,
pwm,
chan_pwm))
if chan_pwm == pwm:
delta = self.get_sim_time_cached() - tstart
if delta > self.max_set_rc_timeout:
self.max_set_rc_timeout = delta
return True
raise SetRCTimeout("Failed to send RC commands to channel %s" % str(chan))
def set_throttle_zero(self):
"""Set throttle to zero."""
if self.mav.mav_type == mavutil.mavlink.MAV_TYPE_GROUND_ROVER:
self.set_rc(3, 1500)
else:
self.set_rc(3, 1000)
def set_output_to_max(self, chan):
"""Set output to max with RC Radio taking into account REVERSED parameter."""
is_reversed = self.get_parameter("RC%u_REVERSED" % chan)
out_max = int(self.get_parameter("RC%u_MAX" % chan))
out_min = int(self.get_parameter("RC%u_MIN" % chan))
if is_reversed == 0:
self.set_rc(chan, out_max)
else:
self.set_rc(chan, out_min)
def set_output_to_min(self, chan):
"""Set output to min with RC Radio taking into account REVERSED parameter."""
is_reversed = self.get_parameter("RC%u_REVERSED" % chan)
out_max = int(self.get_parameter("RC%u_MAX" % chan))
out_min = int(self.get_parameter("RC%u_MIN" % chan))
if is_reversed == 0:
self.set_rc(chan, out_min)
else:
self.set_rc(chan, out_max)
def set_output_to_trim(self, chan):
"""Set output to trim with RC Radio."""
out_trim = int(self.get_parameter("RC%u_TRIM" % chan))
self.set_rc(chan, out_trim)
def get_rudder_channel(self):
if self.mav.mav_type in [mavutil.mavlink.MAV_TYPE_QUADROTOR,
mavutil.mavlink.MAV_TYPE_HELICOPTER,
mavutil.mavlink.MAV_TYPE_HEXAROTOR,
mavutil.mavlink.MAV_TYPE_OCTOROTOR,
mavutil.mavlink.MAV_TYPE_COAXIAL,
mavutil.mavlink.MAV_TYPE_TRICOPTER]:
return int(self.get_parameter("RCMAP_YAW"))
if self.mav.mav_type == mavutil.mavlink.MAV_TYPE_FIXED_WING:
return int(self.get_parameter("RCMAP_YAW"))
if self.mav.mav_type == mavutil.mavlink.MAV_TYPE_GROUND_ROVER:
return int(self.get_parameter("RCMAP_ROLL"))
if self.mav.mav_type == mavutil.mavlink.MAV_TYPE_SUBMARINE:
raise ErrorException("Arming with rudder is not supported by Submarine")
def armed(self):
"""Return true if vehicle is armed and safetyoff"""
return self.mav.motors_armed()
def arm_vehicle(self, timeout=20):
"""Arm vehicle with mavlink arm message."""
self.progress("Arm motors with MAVLink cmd")
self.run_cmd(mavutil.mavlink.MAV_CMD_COMPONENT_ARM_DISARM,
1, # ARM
0,
0,
0,
0,
0,
0,
)
tstart = self.get_sim_time()
while self.get_sim_time() - tstart < timeout:
self.mav.wait_heartbeat()
if self.mav.motors_armed():
self.progress("Motors ARMED")
return True
raise AutoTestTimeoutException("Unable to ARM with mavlink")
def disarm_vehicle(self, timeout=20):
"""Disarm vehicle with mavlink disarm message."""
self.progress("Disarm motors with MAVLink cmd")
self.run_cmd(mavutil.mavlink.MAV_CMD_COMPONENT_ARM_DISARM,
0, # DISARM
0,
0,
0,
0,
0,
0,
)
tstart = self.get_sim_time()
while self.get_sim_time() - tstart < timeout:
self.mav.wait_heartbeat()
if not self.mav.motors_armed():
self.progress("Motors DISARMED")
return True
raise AutoTestTimeoutException("Unable to DISARM with mavlink")
def mavproxy_arm_vehicle(self):
"""Arm vehicle with mavlink arm message send from MAVProxy."""
self.progress("Arm motors with MavProxy")
self.mavproxy.send('arm throttle\n')
self.mav.motors_armed_wait()
self.progress("ARMED")
return True
def mavproxy_disarm_vehicle(self):
"""Disarm vehicle with mavlink disarm message send from MAVProxy."""
self.progress("Disarm motors with MavProxy")
self.mavproxy.send('disarm\n')
self.mav.motors_disarmed_wait()
self.progress("DISARMED")
return True
def arm_motors_with_rc_input(self, timeout=20):
"""Arm motors with radio."""
self.progress("Arm motors with radio")
self.set_output_to_max(self.get_rudder_channel())
tstart = self.get_sim_time()
while True:
self.mav.wait_heartbeat()
if self.mav.motors_armed():
arm_delay = self.get_sim_time() - tstart
self.progress("MOTORS ARMED OK WITH RADIO")
self.set_output_to_trim(self.get_rudder_channel())
self.progress("Arm in %ss" % arm_delay) # TODO check arming time
return True
tdelta = self.get_sim_time() - tstart
print("Not armed after %f seconds" % (tdelta))
if tdelta > timeout:
break
self.progress("FAILED TO ARM WITH RADIO")
self.set_output_to_trim(self.get_rudder_channel())
return False
def disarm_motors_with_rc_input(self, timeout=20):
"""Disarm motors with radio."""
self.progress("Disarm motors with radio")
self.set_output_to_min(self.get_rudder_channel())
tstart = self.get_sim_time()
while self.get_sim_time() < tstart + timeout:
self.mav.wait_heartbeat()
if not self.mav.motors_armed():
disarm_delay = self.get_sim_time() - tstart
self.progress("MOTORS DISARMED OK WITH RADIO")
self.set_output_to_trim(self.get_rudder_channel())
self.progress("Disarm in %ss" % disarm_delay) # TODO check disarming time
return True
self.progress("FAILED TO DISARM WITH RADIO")
self.set_output_to_trim(self.get_rudder_channel())
return False
def arm_motors_with_switch(self, switch_chan, timeout=20):
"""Arm motors with switch."""
self.progress("Arm motors with switch %d" % switch_chan)
self.set_rc(switch_chan, 2000)
tstart = self.get_sim_time()
while self.get_sim_time() - tstart < timeout:
self.mav.wait_heartbeat()
if self.mav.motors_armed():
self.progress("MOTORS ARMED OK WITH SWITCH")
return True
self.progress("FAILED TO ARM WITH SWITCH")
return False
def disarm_motors_with_switch(self, switch_chan, timeout=20):
"""Disarm motors with switch."""
self.progress("Disarm motors with switch %d" % switch_chan)
self.set_rc(switch_chan, 1000)
tstart = self.get_sim_time()
while self.get_sim_time() < tstart + timeout:
self.mav.wait_heartbeat()
if not self.mav.motors_armed():
self.progress("MOTORS DISARMED OK WITH SWITCH")
return True
self.progress("FAILED TO DISARM WITH SWITCH")
return False
def autodisarm_motors(self):
"""Autodisarm motors."""
self.progress("Autodisarming motors")
if self.mav.mav_type == mavutil.mavlink.MAV_TYPE_GROUND_ROVER: # NOT IMPLEMENTED ON ROVER
self.progress("MOTORS AUTODISARMED OK")
return True
tstart = self.get_sim_time()
timeout = 15
while self.get_sim_time() < tstart + timeout:
self.mav.wait_heartbeat()
if not self.mav.motors_armed():
disarm_delay = self.get_sim_time() - tstart
self.progress("MOTORS AUTODISARMED")
self.progress("Autodisarm in %ss" % disarm_delay) # TODO check disarming time
return True
self.progress("FAILED TO AUTODISARM")
return False
@staticmethod
def should_fetch_all_for_parameter_change(param_name):
if fnmatch.fnmatch(param_name, "*_ENABLE") or fnmatch.fnmatch(param_name, "*_ENABLED"):
return True
if param_name in ["ARSPD_TYPE",
"ARSPD2_TYPE",
"BATT2_MONITOR",
"CAN_DRIVER",
"COMPASS_PMOT_EN",
"OSD_TYPE",
"RSSI_TYPE",
"WENC_TYPE"]:
return True
return False
def set_parameter(self, name, value, add_to_context=True, epsilon=0.00001):
"""Set parameters from vehicle."""
old_value = self.get_parameter(name, retry=2)
for i in range(1, 10):
self.mavproxy.send("param set %s %s\n" % (name, str(value)))
returned_value = self.get_parameter(name)
delta = float(value) - returned_value
if abs(delta) < epsilon:
# yes, exactly equal.
if add_to_context:
self.context_get().parameters.append((name, old_value))
if self.should_fetch_all_for_parameter_change(name.upper()) and value != 0:
self.fetch_parameters()
return
raise ValueError("Param fetch returned incorrect value (%s) vs (%s)"
% (returned_value, value))
def get_parameter(self, name, retry=1, timeout=60):
"""Get parameters from vehicle."""
for i in range(0, retry):
self.mavproxy.send("param fetch %s\n" % name)
try:
self.mavproxy.expect("%s = ([-0-9.]*)\r\n" % (name,), timeout=timeout/retry)
return float(self.mavproxy.match.group(1))
except pexpect.TIMEOUT:
pass
raise NotAchievedException("Failed to retrieve parameter")
def context_get(self):
"""Get Saved parameters."""
return self.contexts[-1]
def context_push(self):
"""Save a copy of the parameters."""
self.contexts.append(Context())
def context_pop(self):
"""Set parameters to origin values in reverse order."""
dead = self.contexts.pop()
dead_parameters = dead.parameters
dead_parameters.reverse()
for p in dead_parameters:
(name, old_value) = p
self.set_parameter(name,
old_value,
add_to_context=False)
def run_cmd(self,
command,
p1,
p2,
p3,
p4,
p5,
p6,
p7,
want_result=mavutil.mavlink.MAV_RESULT_ACCEPTED):
"""Send a MAVLink command long."""
self.mav.mav.command_long_send(1,
1,
command,
1, # confirmation
p1,
p2,
p3,
p4,
p5,
p6,
p7)
while True:
m = self.mav.recv_match(type='COMMAND_ACK', blocking=True)
self.progress("ACK received: %s" % str(m))
if m.command == command:
if m.result != want_result:
raise ValueError("Expected %s got %s" % (want_result,
m.result))
break
#################################################
# UTILITIES
#################################################
@staticmethod
def get_distance(loc1, loc2):
"""Get ground distance between two locations."""
dlat = loc2.lat - loc1.lat
try:
dlong = loc2.lng - loc1.lng
except AttributeError:
dlong = loc2.lon - loc1.lon
return math.sqrt((dlat*dlat) + (dlong*dlong)) * 1.113195e5
@staticmethod
def get_distance_int(loc1, loc2):
"""Get ground distance between two locations in the normal "int" form
- lat/lon multiplied by 1e7"""
dlat = loc2.lat - loc1.lat
try:
dlong = loc2.lng - loc1.lng
except AttributeError:
dlong = loc2.lon - loc1.lon
dlat /= 10000000.0
dlong /= 10000000.0
return math.sqrt((dlat*dlat) + (dlong*dlong)) * 1.113195e5
@staticmethod
def get_bearing(loc1, loc2):
"""Get bearing from loc1 to loc2."""
off_x = loc2.lng - loc1.lng
off_y = loc2.lat - loc1.lat
bearing = 90.00 + math.atan2(-off_y, off_x) * 57.2957795
if bearing < 0:
bearing += 360.00
return bearing
def do_get_autopilot_capabilities(self):
tstart = self.get_sim_time()
while self.get_sim_time() - tstart < 10:
# Cannot use run_cmd otherwise the respond is lost during the wait for ACK
self.mav.mav.command_long_send(1,
1,
mavutil.mavlink.MAV_CMD_REQUEST_AUTOPILOT_CAPABILITIES,
0, # confirmation
1, # 1: Request autopilot version
0,
0,
0,
0,
0,
0)
m = self.mav.recv_match(type='AUTOPILOT_VERSION',
blocking=True,
timeout=10)
if m is not None:
self.progress("AUTOPILOT_VERSION received")
return
raise AutoTestTimeoutException("No AUTOPILOT_VERSION received")
def get_mode_from_mode_mapping(self, mode):
"""Validate and return the mode number from a string or int."""
mode_map = self.mav.mode_mapping()
if mode_map is None:
raise ErrorException("No mode map")
if isinstance(mode, str):
if mode in mode_map:
return mode_map.get(mode)
if mode in mode_map.values():
return mode
self.progress("Available modes '%s'" % mode_map)
raise ErrorException("Unknown mode '%s'" % mode)
def do_set_mode_via_command_long(self, mode, timeout=30):
"""Set mode with a command long message."""
base_mode = mavutil.mavlink.MAV_MODE_FLAG_CUSTOM_MODE_ENABLED
custom_mode = self.get_mode_from_mode_mapping(mode)
tstart = self.get_sim_time()
while True:
remaining = timeout - (self.get_sim_time_cached() - tstart)
if remaining <= 0:
raise AutoTestTimeoutException("Failed to change mode")
self.run_cmd(mavutil.mavlink.MAV_CMD_DO_SET_MODE,
base_mode,
custom_mode,
0,
0,
0,
0,
0,
)
m = self.mav.recv_match(type='HEARTBEAT',
blocking=True,
timeout=5)
if m is None:
raise ErrorException("Heartbeat not received")
if m.custom_mode == custom_mode:
return
def mavproxy_do_set_mode_via_command_long(self, mode, timeout=30):
"""Set mode with a command long message with Mavproxy."""
base_mode = mavutil.mavlink.MAV_MODE_FLAG_CUSTOM_MODE_ENABLED
custom_mode = self.get_mode_from_mode_mapping(mode)
tstart = self.get_sim_time()
while True:
remaining = timeout - (self.get_sim_time_cached() - tstart)
if remaining <= 0:
raise AutoTestTimeoutException("Failed to change mode")
self.mavproxy.send("long DO_SET_MODE %u %u\n" %
(base_mode, custom_mode))
m = self.mav.recv_match(type='HEARTBEAT',
blocking=True,
timeout=5)
if m is None:
raise ErrorException("Did not receive heartbeat")
if m.custom_mode == custom_mode:
return True
def reach_heading_manual(self, heading):
"""Manually direct the vehicle to the target heading."""
if self.mav.mav_type in [mavutil.mavlink.MAV_TYPE_QUADROTOR,
mavutil.mavlink.MAV_TYPE_HELICOPTER,
mavutil.mavlink.MAV_TYPE_HEXAROTOR,
mavutil.mavlink.MAV_TYPE_OCTOROTOR,
mavutil.mavlink.MAV_TYPE_COAXIAL,
mavutil.mavlink.MAV_TYPE_TRICOPTER]:
self.mavproxy.send('rc 4 1580\n')
self.wait_heading(heading)
self.mavproxy.send('rc 4 1500\n')
self.mav.recv_match(condition='RC_CHANNELS.chan4_raw==1500',
blocking=True)
if self.mav.mav_type == mavutil.mavlink.MAV_TYPE_FIXED_WING:
self.progress("NOT IMPLEMENTED")
if self.mav.mav_type == mavutil.mavlink.MAV_TYPE_GROUND_ROVER:
self.mavproxy.send('rc 1 1700\n')
self.mavproxy.send('rc 3 1550\n')
self.wait_heading(heading)
self.mavproxy.send('rc 3 1500\n')
self.mav.recv_match(condition='RC_CHANNELS.chan3_raw==1500',
blocking=True)
self.mavproxy.send('rc 1 1500\n')
self.mav.recv_match(condition='RC_CHANNELS.chan1_raw==1500',
blocking=True)
def reach_distance_manual(self, distance):
"""Manually direct the vehicle to the target distance from home."""
if self.mav.mav_type in [mavutil.mavlink.MAV_TYPE_QUADROTOR,
mavutil.mavlink.MAV_TYPE_HELICOPTER,
mavutil.mavlink.MAV_TYPE_HEXAROTOR,
mavutil.mavlink.MAV_TYPE_OCTOROTOR,
mavutil.mavlink.MAV_TYPE_COAXIAL,
mavutil.mavlink.MAV_TYPE_TRICOPTER]:
self.mavproxy.send('rc 2 1350\n')
self.wait_distance(distance, accuracy=5, timeout=60)
self.mavproxy.send('rc 2 1500\n')
self.mav.recv_match(condition='RC_CHANNELS.chan2_raw==1500',
blocking=True)
if self.mav.mav_type == mavutil.mavlink.MAV_TYPE_FIXED_WING:
self.progress("NOT IMPLEMENTED")
if self.mav.mav_type == mavutil.mavlink.MAV_TYPE_GROUND_ROVER:
self.mavproxy.send('rc 3 1700\n')
self.wait_distance(distance, accuracy=2)
self.mavproxy.send('rc 3 1500\n')
self.mav.recv_match(condition='RC_CHANNELS.chan3_raw==1500',
blocking=True)
def guided_achieve_heading(self, heading):
tstart = self.get_sim_time()
self.run_cmd(mavutil.mavlink.MAV_CMD_CONDITION_YAW,
heading, # target angle
10, # degrees/second
1, # -1 is counter-clockwise, 1 clockwise
0, # 1 for relative, 0 for absolute
0, # p5
0, # p6
0, # p7
)
while True:
if self.get_sim_time() - tstart > 200:
raise NotAchievedException("Did not achieve heading")
m = self.mav.recv_match(type='VFR_HUD', blocking=True)
self.progress("heading=%f want=%f" % (m.heading, heading))
if m.heading == heading:
return
#################################################
# WAIT UTILITIES
#################################################
def wait_seconds(self, seconds_to_wait):
"""Wait some second in SITL time."""
tstart = self.get_sim_time()
tnow = tstart
while tstart + seconds_to_wait > tnow:
tnow = self.get_sim_time()
def wait_altitude(self, alt_min, alt_max, timeout=30, relative=False):
"""Wait for a given altitude range."""
previous_alt = 0
tstart = self.get_sim_time()
self.progress("Waiting for altitude between %u and %u" %
(alt_min, alt_max))
last_wait_alt_msg = 0
while self.get_sim_time_cached() < tstart + timeout:
m = self.mav.recv_match(type='GLOBAL_POSITION_INT', blocking=True)
if m is None:
continue
if relative:
alt = m.relative_alt/1000.0 # mm -> m
else:
alt = m.alt/1000.0 # mm -> m
climb_rate = alt - previous_alt
previous_alt = alt
if self.get_sim_time_cached() - last_wait_alt_msg > 1:
self.progress("Wait Altitude: Cur:%u, min_alt:%u, climb_rate: %u"
% (alt, alt_min, climb_rate))
last_wait_alt_msg = self.get_sim_time_cached()
if alt >= alt_min and alt <= alt_max:
self.progress("Altitude OK")
return True
raise WaitAltitudeTimout("Failed to attain altitude range")
def wait_groundspeed(self, gs_min, gs_max, timeout=30):
"""Wait for a given ground speed range."""
self.progress("Waiting for groundspeed between %.1f and %.1f" %
(gs_min, gs_max))
last_print = 0
tstart = self.get_sim_time()
while self.get_sim_time_cached() < tstart + timeout:
m = self.mav.recv_match(type='VFR_HUD', blocking=True)
if self.get_sim_time_cached() - last_print > 1:
self.progress("Wait groundspeed %.1f, target:%.1f" %
(m.groundspeed, gs_min))
last_print = self.get_sim_time_cached()
if m.groundspeed >= gs_min and m.groundspeed <= gs_max:
return True
raise WaitGroundSpeedTimeout("Failed to attain groundspeed range")
def wait_roll(self, roll, accuracy, timeout=30):
"""Wait for a given roll in degrees."""
tstart = self.get_sim_time()
self.progress("Waiting for roll of %d at %s" % (roll, time.ctime()))
while self.get_sim_time() < tstart + timeout:
m = self.mav.recv_match(type='ATTITUDE', blocking=True)
p = math.degrees(m.pitch)
r = math.degrees(m.roll)
self.progress("Roll %d Pitch %d" % (r, p))
if math.fabs(r - roll) <= accuracy:
self.progress("Attained roll %d" % roll)
return True
raise WaitRollTimeout("Failed to attain roll %d" % roll)
def wait_pitch(self, pitch, accuracy, timeout=30):
"""Wait for a given pitch in degrees."""
tstart = self.get_sim_time()
self.progress("Waiting for pitch of %u at %s" % (pitch, time.ctime()))
while self.get_sim_time() < tstart + timeout:
m = self.mav.recv_match(type='ATTITUDE', blocking=True)
p = math.degrees(m.pitch)
r = math.degrees(m.roll)
self.progress("Pitch %d Roll %d" % (p, r))
if math.fabs(p - pitch) <= accuracy:
self.progress("Attained pitch %d" % pitch)
return True
raise WaitPitchTimeout("Failed to attain pitch %d" % pitch)
def wait_heading(self, heading, accuracy=5, timeout=30):
"""Wait for a given heading."""
tstart = self.get_sim_time()
self.progress("Waiting for heading %u with accuracy %u" %
(heading, accuracy))
last_print_time = 0
while True:
now = self.get_sim_time_cached()
if now - tstart >= timeout:
break
m = self.mav.recv_match(type='VFR_HUD', blocking=True)
if now - last_print_time > 1:
self.progress("Heading %u (want %f +- %f)" %
(m.heading, heading, accuracy))
last_print_time = now
if math.fabs(m.heading - heading) <= accuracy:
self.progress("Attained heading %u" % heading)
return True
raise WaitHeadingTimeout("Failed to attain heading %u" % heading)
def wait_distance(self, distance, accuracy=5, timeout=30):
"""Wait for flight of a given distance."""
tstart = self.get_sim_time()
start = self.mav.location()
last_distance_message = 0
while self.get_sim_time() < tstart + timeout:
pos = self.mav.location()
delta = self.get_distance(start, pos)
if self.get_sim_time_cached() - last_distance_message >= 1:
self.progress("Distance=%.2f meters want=%.2f" %
(delta, distance))
last_distance_message = self.get_sim_time_cached()
if math.fabs(delta - distance) <= accuracy:
self.progress("Attained distance %.2f meters OK" % delta)
return True
if delta > (distance + accuracy):
raise WaitDistanceTimeout("Failed distance - overshoot delta=%f dist=%f"
% (delta, distance))
raise WaitDistanceTimeout("Failed to attain distance %u" % distance)
def wait_servo_channel_value(self, channel, value, timeout=2):
"""wait for channel to hit value"""
channel_field = "servo%u_raw" % channel
tstart = self.get_sim_time()
while True:
remaining = timeout - (self.get_sim_time_cached() - tstart)
if remaining <= 0:
raise NotAchievedException("Channel never achieved value")
m = self.mav.recv_match(type='SERVO_OUTPUT_RAW',
blocking=True,
timeout=remaining)
if m is None:
continue
m_value = getattr(m, channel_field, None)
self.progress("SERVO_OUTPUT_RAW.%s=%u want=%u" %
(channel_field, m_value, value))
if m_value is None:
raise ValueError("message has no field %s" % channel_field)
if m_value == value:
return
def wait_location(self,
loc,
accuracy=5,
timeout=30,
target_altitude=None,
height_accuracy=-1):
"""Wait for arrival at a location."""
tstart = self.get_sim_time()
if target_altitude is None:
target_altitude = loc.alt
self.progress("Waiting for location"
"%.4f,%.4f at altitude %.1f height_accuracy=%.1f" %
(loc.lat, loc.lng, target_altitude, height_accuracy))
last_distance_message = 0
while self.get_sim_time() < tstart + timeout:
pos = self.mav.location()
delta = self.get_distance(loc, pos)
if self.get_sim_time_cached() - last_distance_message >= 1:
self.progress("Distance %.2f meters alt %.1f" % (delta, pos.alt))
last_distance_message = self.get_sim_time_cached()
if delta <= accuracy:
height_delta = math.fabs(pos.alt - target_altitude)
if height_accuracy != -1 and height_delta > height_accuracy:
continue
self.progress("Reached location (%.2f meters)" % delta)
return True
raise WaitLocationTimeout("Failed to attain location")
def wait_current_waypoint(self, wpnum, timeout=60):
tstart = self.get_sim_time()
while self.get_sim_time() < tstart + timeout:
seq = self.mav.waypoint_current()
self.progress("Waiting for wp=%u current=%u" % (wpnum, seq))
if seq == wpnum:
break
def wait_waypoint(self,
wpnum_start,
wpnum_end,
allow_skip=True,
max_dist=2,
timeout=400):
"""Wait for waypoint ranges."""
tstart = self.get_sim_time()
# this message arrives after we set the current WP
start_wp = self.mav.waypoint_current()
current_wp = start_wp
mode = self.mav.flightmode
self.progress("wait for waypoint ranges start=%u end=%u"
% (wpnum_start, wpnum_end))
# if start_wp != wpnum_start:
# raise WaitWaypointTimeout("test: Expected start waypoint %u "
# "but got %u" %
# (wpnum_start, start_wp))
last_wp_msg = 0
while self.get_sim_time_cached() < tstart + timeout:
seq = self.mav.waypoint_current()
m = self.mav.recv_match(type='NAV_CONTROLLER_OUTPUT',
blocking=True)
wp_dist = m.wp_dist
m = self.mav.recv_match(type='VFR_HUD', blocking=True)
# if we changed mode, fail
if self.mav.flightmode != mode:
raise WaitWaypointTimeout('Exited %s mode' % mode)
if self.get_sim_time_cached() - last_wp_msg > 1:
self.progress("WP %u (wp_dist=%u Alt=%d), current_wp: %u,"
"wpnum_end: %u" %
(seq, wp_dist, m.alt, current_wp, wpnum_end))
last_wp_msg = self.get_sim_time_cached()
if seq == current_wp+1 or (seq > current_wp+1 and allow_skip):
self.progress("test: Starting new waypoint %u" % seq)
tstart = self.get_sim_time()
current_wp = seq
# the wp_dist check is a hack until we can sort out
# the right seqnum for end of mission
# if current_wp == wpnum_end or (current_wp == wpnum_end-1 and
# wp_dist < 2):
if current_wp == wpnum_end and wp_dist < max_dist:
self.progress("Reached final waypoint %u" % seq)
return True
if seq >= 255:
self.progress("Reached final waypoint %u" % seq)
return True
if seq > current_wp+1:
raise WaitWaypointTimeout(("Skipped waypoint! Got wp %u expected %u"
% (seq, current_wp+1)))
raise WaitWaypointTimeout("Timed out waiting for waypoint %u of %u" %
(wpnum_end, wpnum_end))
def wait_mode(self, mode, timeout=60):
"""Wait for mode to change."""
self.get_mode_from_mode_mapping(mode)
self.progress("Waiting for mode %s" % mode)
tstart = self.get_sim_time()
self.mav.wait_heartbeat()
while self.mav.flightmode != mode:
if (timeout is not None and
self.get_sim_time() > tstart + timeout):
raise WaitModeTimeout("Did not change mode")
self.mav.wait_heartbeat()
# self.progress("heartbeat mode %s Want: %s" % (
# self.mav.flightmode, mode))
self.progress("Got mode %s" % mode)
def wait_ready_to_arm(self, timeout=None, require_absolute=True):
# wait for EKF checks to pass
self.progress("Waiting reading for arm")
return self.wait_ekf_happy(timeout=timeout,
require_absolute=require_absolute)
def wait_ekf_happy(self, timeout=30, require_absolute=True):
"""Wait for EKF to be happy"""
""" if using SITL estimates directly """
if (int(self.get_parameter('AHRS_EKF_TYPE')) == 10):
return True
tstart = self.get_sim_time()
# all of these must be set for arming to happen:
required_value = (mavutil.mavlink.EKF_ATTITUDE |
mavutil.mavlink.ESTIMATOR_VELOCITY_HORIZ |
mavutil.mavlink.ESTIMATOR_VELOCITY_VERT |
mavutil.mavlink.ESTIMATOR_POS_HORIZ_REL |
mavutil.mavlink.ESTIMATOR_PRED_POS_HORIZ_REL)
# none of these bits must be set for arming to happen:
error_bits = (mavutil.mavlink.ESTIMATOR_CONST_POS_MODE |
mavutil.mavlink.ESTIMATOR_ACCEL_ERROR)
if require_absolute:
required_value |= (mavutil.mavlink.ESTIMATOR_POS_HORIZ_ABS |
mavutil.mavlink.ESTIMATOR_POS_VERT_ABS |
mavutil.mavlink.ESTIMATOR_PRED_POS_HORIZ_ABS)
error_bits |= mavutil.mavlink.ESTIMATOR_GPS_GLITCH
self.progress("Waiting for EKF value %u" % required_value)
last_err_print_time = 0
last_print_time = 0
while timeout is None or self.get_sim_time_cached() < tstart + timeout:
m = self.mav.recv_match(type='EKF_STATUS_REPORT', blocking=True)
current = m.flags
if self.get_sim_time_cached() - last_print_time > 1:
self.progress("Wait EKF.flags: required:%u current:%u" %
(required_value, current))
last_print_time = self.get_sim_time_cached()
errors = current & error_bits
if errors and self.get_sim_time_cached() - last_err_print_time > 1:
self.progress("Wait EKF.flags: errors=%u" % errors)
last_err_print_time = self.get_sim_time_cached()
continue
if (current & required_value == required_value):
self.progress("EKF Flags OK")
return True
raise AutoTestTimeoutException("Failed to get EKF.flags=%u" %
required_value)
def wait_text(self, text, timeout=20, the_function=None):
"""Wait a specific STATUS_TEXT."""
self.progress("Waiting for text : %s" % text.lower())
tstart = self.get_sim_time()
while self.get_sim_time() < tstart + timeout:
if the_function is not None:
the_function()
m = self.mav.recv_match(type='STATUSTEXT', blocking=True)
if text.lower() in m.text.lower():
self.progress("Received expected text : %s" % m.text.lower())
return True
self.progress()
raise AutoTestTimeoutException("Failed to received text : %s" %
text.lower())
def get_mavlink_connection_going(self):
# get a mavlink connection going
connection_string = self.autotest_connection_string_to_mavproxy()
try:
self.mav = mavutil.mavlink_connection(connection_string,
robust_parsing=True,
source_component=250)
except Exception as msg:
self.progress("Failed to start mavlink connection on %s: %s" %
(connection_string, msg,))
raise
self.mav.message_hooks.append(self.message_hook)
self.mav.idle_hooks.append(self.idle_hook)
def run_test(self, desc, test_function, interact=False):
self.start_test(desc)
try:
test_function()
except Exception as e:
self.progress('FAILED: "%s": %s' % (desc, repr(e)))
self.fail_list.append((desc, e))
if interact:
self.progress("Starting MAVProxy interaction as directed")
self.mavproxy.interact()
return
self.progress('PASSED: "%s"' % desc)
def check_test_syntax(self, test_file):
"""Check mistake on autotest function syntax."""
import re
self.start_test("Check for syntax mistake in autotest lambda")
if not os.path.isfile(test_file):
self.progress("File %s does not exist" % test_file)
test_file = test_file.rstrip('c')
try:
with open(test_file) as f:
# check for lambda: test_function without paranthesis
faulty_strings = re.findall(r"lambda\s*:\s*\w+.\w+\s*\)", f.read())
if faulty_strings:
desc = ("Syntax error in autotest lambda at : " +
faulty_strings)
raise ErrorException(desc)
except ErrorException:
self.progress('FAILED: "%s"' % "Check for syntax mistake in autotest lambda")
exit(1)
self.progress('PASSED: "%s"' % "Check for syntax mistake in autotest lambda")
@abc.abstractmethod
def init(self):
"""Initilialize autotest feature."""
pass
def test_arm_feature(self):
"""Common feature to test."""
self.context_push()
# TEST ARMING/DISARM
self.set_parameter("ARMING_RUDDER", 2) # allow arm and disarm with rudder on first tests
interlock_channel = 8 # Plane got flighmode_ch on channel 8
if self.mav.mav_type is not mavutil.mavlink.MAV_TYPE_HELICOPTER: # heli don't need interlock option
interlock_channel = 9
self.set_parameter("RC%u_OPTION" % interlock_channel, 32)
self.set_rc(interlock_channel, 1000)
self.set_throttle_zero()
self.start_test("Test normal arm and disarm features")
if not self.arm_vehicle():
raise NotAchievedException("Failed to ARM")
if not self.disarm_vehicle():
raise NotAchievedException("Failed to DISARM")
if not self.mavproxy_arm_vehicle():
raise NotAchievedException("Failed to ARM")
if not self.mavproxy_disarm_vehicle():
raise NotAchievedException("Failed to DISARM")
if self.mav.mav_type != mavutil.mavlink.MAV_TYPE_SUBMARINE:
if not self.arm_motors_with_rc_input():
raise NotAchievedException("Failed to arm with RC input")
if not self.disarm_motors_with_rc_input():
raise NotAchievedException("Failed to disarm with RC input")
# self.arm_vehicle()
# if not self.autodisarm_motors():
# raise NotAchievedException("Did not autodisarm")
# Disable auto disarm for next test
# Rover and Sub don't have auto disarm
if self.mav.mav_type in [mavutil.mavlink.MAV_TYPE_QUADROTOR,
mavutil.mavlink.MAV_TYPE_HELICOPTER,
mavutil.mavlink.MAV_TYPE_HEXAROTOR,
mavutil.mavlink.MAV_TYPE_OCTOROTOR,
mavutil.mavlink.MAV_TYPE_COAXIAL,
mavutil.mavlink.MAV_TYPE_TRICOPTER]:
self.set_parameter("DISARM_DELAY", 0)
if self.mav.mav_type == mavutil.mavlink.MAV_TYPE_FIXED_WING:
self.set_parameter("LAND_DISARMDELAY", 0)
# Sub has no 'switches'
if self.mav.mav_type == mavutil.mavlink.MAV_TYPE_SUBMARINE:
if not self.disarm_vehicle():
raise NotAchievedException("Failed to isarm")
else:
self.start_test("Test arm and disarm with switch")
arming_switch = 7
self.set_parameter("RC%d_OPTION" % arming_switch, 41)
self.set_rc(arming_switch, 1000)
# delay so a transition is seen by the RC switch code:
self.delay_sim_time(0.5)
if not self.arm_motors_with_switch(arming_switch):
raise NotAchievedException("Failed to arm with switch")
if not self.disarm_motors_with_switch(arming_switch):
raise NotAchievedException("Failed to disarm with switch")
self.set_rc(arming_switch, 1000)
if self.mav.mav_type in [mavutil.mavlink.MAV_TYPE_QUADROTOR,
mavutil.mavlink.MAV_TYPE_HELICOPTER,
mavutil.mavlink.MAV_TYPE_HEXAROTOR,
mavutil.mavlink.MAV_TYPE_OCTOROTOR,
mavutil.mavlink.MAV_TYPE_COAXIAL,
mavutil.mavlink.MAV_TYPE_TRICOPTER]:
self.start_test("Test arming failure with throttle too high")
self.set_rc(3, 1800)
try:
if self.arm_vehicle():
raise NotAchievedException("Failed to NOT ARM")
except AutoTestTimeoutException():
pass
except ValueError:
pass
if self.arm_motors_with_rc_input():
raise NotAchievedException("Failed to NOT ARM")
if self.arm_motors_with_switch(arming_switch):
raise NotAchievedException("Failed to NOT ARM")
self.set_throttle_zero()
self.set_rc(arming_switch, 1000)
# Sub doesn't have 'stick commands'
if self.mav.mav_type != mavutil.mavlink.MAV_TYPE_SUBMARINE:
self.start_test("Test arming failure with ARMING_RUDDER=0")
self.set_parameter("ARMING_RUDDER", 0)
if self.arm_motors_with_rc_input():
raise NotAchievedException("Failed to NOT ARM")
self.start_test("Test disarming failure with ARMING_RUDDER=0")
self.arm_vehicle()
if self.disarm_motors_with_rc_input():
raise NotAchievedException("Failed to NOT DISARM")
self.disarm_vehicle()
self.mav.wait_heartbeat()
self.start_test("Test disarming failure with ARMING_RUDDER=1")
self.set_parameter("ARMING_RUDDER", 1)
self.arm_vehicle()
if self.disarm_motors_with_rc_input():
raise NotAchievedException("Failed to NOT ARM")
self.disarm_vehicle()
self.mav.wait_heartbeat()
self.set_parameter("ARMING_RUDDER", 2)
if self.mav.mav_type in [mavutil.mavlink.MAV_TYPE_QUADROTOR,
mavutil.mavlink.MAV_TYPE_HELICOPTER,
mavutil.mavlink.MAV_TYPE_HEXAROTOR,
mavutil.mavlink.MAV_TYPE_OCTOROTOR,
mavutil.mavlink.MAV_TYPE_COAXIAL,
mavutil.mavlink.MAV_TYPE_TRICOPTER]:
self.start_test("Test arming failure with interlock enabled")
self.set_rc(interlock_channel, 2000)
if self.arm_motors_with_rc_input():
raise NotAchievedException("Failed to NOT ARM")
if self.arm_motors_with_switch(arming_switch):
raise NotAchievedException("Failed to NOT ARM")
self.disarm_vehicle()
self.mav.wait_heartbeat()
self.set_rc(arming_switch, 1000)
self.set_rc(interlock_channel, 1000)
if self.mav.mav_type is mavutil.mavlink.MAV_TYPE_HELICOPTER:
self.start_test("Test motor interlock enable can't be set while disarmed")
self.set_rc(interlock_channel, 2000)
channel_field = "servo%u_raw" % interlock_channel
interlock_value = self.get_parameter("SERVO%u_MIN" % interlock_channel)
tstart = self.get_sim_time()
while True:
if self.get_sim_time_cached() - tstart > 20:
self.set_rc(8, 1000)
break # success!
m = self.mav.recv_match(type='SERVO_OUTPUT_RAW',
blocking=True,
timeout=2)
if m is None:
continue
m_value = getattr(m, channel_field, None)
if m_value is None:
self.set_rc(8, 1000)
raise ValueError("Message has no %s field" %
channel_field)
self.progress("SERVO_OUTPUT_RAW.%s=%u want=%u" %
(channel_field, m_value, interlock_value))
if m_value != interlock_value:
self.set_rc(8, 1000)
raise NotAchievedException("Motor interlock was changed while disarmed")
self.set_rc(8, 1000)
self.progress("ALL PASS")
self.context_pop()
# TODO : add failure test : arming check, wrong mode; Test arming magic; Same for disarm
def test_gripper(self):
self.context_push()
self.set_parameter("GRIP_ENABLE", 1)
self.fetch_parameters()
self.set_parameter("GRIP_GRAB", 2000)
self.set_parameter("GRIP_RELEASE", 1000)
self.set_parameter("GRIP_TYPE", 1)
self.set_parameter("SIM_GRPS_ENABLE", 1)
self.set_parameter("SIM_GRPS_PIN", 8)
self.set_parameter("SERVO8_FUNCTION", 28)
self.set_parameter("SERVO8_MIN", 1000)
self.set_parameter("SERVO8_MAX", 2000)
self.set_parameter("SERVO9_MIN", 1000)
self.set_parameter("SERVO9_MAX", 2000)
self.set_parameter("RC9_OPTION", 19)
self.set_rc(9, 1500)
self.reboot_sitl()
self.progress("Waiting reading for arm")
self.wait_ready_to_arm()
self.progress("Test gripper with RC9_OPTION")
self.progress("Releasing load")
# non strict string matching because of catching text issue....
self.wait_text("Gripper load releas", the_function=lambda: self.set_rc(9, 1000))
self.progress("Grabbing load")
self.wait_text("Gripper load grabb", the_function=lambda: self.set_rc(9, 2000))
self.progress("Releasing load")
self.wait_text("Gripper load releas", the_function=lambda: self.set_rc(9, 1000))
self.progress("Grabbing load")
self.wait_text("Gripper load grabb", the_function=lambda: self.set_rc(9, 2000))
self.progress("Test gripper with Mavlink cmd")
self.progress("Releasing load")
self.wait_text("Gripper load releas",
the_function=lambda: self.mav.mav.command_long_send(1,
1,
mavutil.mavlink.MAV_CMD_DO_GRIPPER,
0,
1,
mavutil.mavlink.GRIPPER_ACTION_RELEASE,
0,
0,
0,
0,
0,
))
self.progress("Grabbing load")
self.wait_text("Gripper load grabb",
the_function=lambda: self.mav.mav.command_long_send(1,
1,
mavutil.mavlink.MAV_CMD_DO_GRIPPER,
0,
1,
mavutil.mavlink.GRIPPER_ACTION_GRAB,
0,
0,
0,
0,
0,
))
self.progress("Releasing load")
self.wait_text("Gripper load releas",
the_function=lambda: self.mav.mav.command_long_send(1,
1,
mavutil.mavlink.MAV_CMD_DO_GRIPPER,
0,
1,
mavutil.mavlink.GRIPPER_ACTION_RELEASE,
0,
0,
0,
0,
0,
))
self.progress("Grabbing load")
self.wait_text("Gripper load grabb",
the_function=lambda: self.mav.mav.command_long_send(1,
1,
mavutil.mavlink.MAV_CMD_DO_GRIPPER,
0,
1,
mavutil.mavlink.GRIPPER_ACTION_GRAB,
0,
0,
0,
0,
0,
))
self.context_pop()
self.reboot_sitl()
# # TEST MISSION FILE
# # TODO : rework that to work on autotest server
# # self.progress("TEST LOADING MISSION")
# # num_wp = self.load_mission(
# os.path.join(testdir, "fake_mission.txt"))
# # if num_wp == 0:
# # self.progress("Failed to load all_msg_mission")
# # sucess = False
# #
# # self.progress("TEST SAVING MISSION")
# # num_wp_old = num_wp
# # num_wp = self.save_mission_to_file(os.path.join(testdir,
# "fake_mission2.txt"))
# # if num_wp != num_wp_old:
# # self.progress("Failed to save all_msg_mission")
# # sucess = False
#
# self.progress("TEST CLEARING MISSION")
# self.mavproxy.send("wp clear\n")
# self.mavproxy.send('wp list\n')
# self.mavproxy.expect('Requesting [0-9]+ waypoints')
# num_wp = mavwp.MAVWPLoader().count()
# if num_wp != 0:
# self.progress("Failed to clear mission ")
# sucess = False
#
# return sucess
#
# # TESTS FAILSAFE
# @abc.abstractmethod
# def test_throttle_failsafe(self, home, distance_min=10, side=60,
# timeout=180):
# """Test that RTL success in case of thottle failsafe."""
# pass
#
# # TEST ARM RADIO
# @abc.abstractmethod
# def test_arm_motors_radio(self):
# """Test arming with RC sticks."""
# pass
#
# # TEST DISARM RADIO
# @abc.abstractmethod
# def test_disarm_motors_radio(self):
# """Test disarming with RC sticks."""
# pass
#
# # TEST AUTO DISARM
# @abc.abstractmethod
# def test_autodisarm_motors(self):
# """Test auto disarming."""
# pass
#
# # TEST RC OVERRIDE
# # TEST RC OVERRIDE TIMEOUT
# @abc.abstractmethod
# def test_rtl(self, home, distance_min=10, timeout=250):
# """Test that RTL success."""
# self.progress("# Enter RTL")
# self.mavproxy.send('switch 3\n')
# tstart = self.get_sim_time()
# while self.get_sim_time() < tstart + timeout:
# m = self.mav.recv_match(type='VFR_HUD', blocking=True)
# pos = self.mav.location()
# home_distance = self.get_distance(home, pos)
# self.progress("Alt: %u HomeDistance: %.0f" %
# (m.alt, home_distance))
# if m.alt <= 1 and home_distance < distance_min:
# self.progress("RTL Complete")
# return True
# return False
#
# @abc.abstractmethod
# def test_mission(self, filename):
# pass
@abc.abstractmethod
def autotest(self):
"""Autotest used by ArduPilot autotest CI."""
pass
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