from __future__ import print_function ''' AP_FLAKE8_CLEAN ''' import atexit import math import os import re import shlex import signal import subprocess import sys import tempfile import time import pexpect if sys.version_info[0] >= 3: ENCODING = 'ascii' else: ENCODING = None RADIUS_OF_EARTH = 6378100.0 # in meters # List of open terminal windows for macosx windowID = [] def m2ft(x): """Meters to feet.""" return float(x) / 0.3048 def ft2m(x): """Feet to meters.""" return float(x) * 0.3048 def kt2mps(x): return x * 0.514444444 def mps2kt(x): return x / 0.514444444 def topdir(): """Return top of git tree where autotest is running from.""" d = os.path.dirname(os.path.realpath(__file__)) assert os.path.basename(d) == 'pysim' d = os.path.dirname(d) assert os.path.basename(d) == 'autotest' d = os.path.dirname(d) assert os.path.basename(d) == 'Tools' d = os.path.dirname(d) return d def relcurdir(path): """Return a path relative to current dir""" return os.path.relpath(path, os.getcwd()) def reltopdir(path): """Returns the normalized ABSOLUTE path for 'path', where path is a path relative to topdir""" return os.path.normpath(os.path.join(topdir(), path)) def run_cmd(cmd, directory=".", show=True, output=False, checkfail=True): """Run a shell command.""" shell = False if not isinstance(cmd, list): cmd = [cmd] shell = True if show: print("Running: (%s) in (%s)" % (cmd_as_shell(cmd), directory,)) if output: return subprocess.Popen(cmd, shell=shell, stdout=subprocess.PIPE, cwd=directory).communicate()[0] elif checkfail: return subprocess.check_call(cmd, shell=shell, cwd=directory) else: return subprocess.call(cmd, shell=shell, cwd=directory) def rmfile(path): """Remove a file if it exists.""" try: os.unlink(path) except (OSError, FileNotFoundError): pass def deltree(path): """Delete a tree of files.""" run_cmd('rm -rf %s' % path) def relwaf(): return "./modules/waf/waf-light" def waf_configure(board, j=None, debug=False, math_check_indexes=False, coverage=False, ekf_single=False, postype_single=False, force_32bit=False, extra_args=[], extra_hwdef=None, ubsan=False, ubsan_abort=False, num_aux_imus=0, dronecan_tests=False, extra_defines={}): cmd_configure = [relwaf(), "configure", "--board", board] if debug: cmd_configure.append('--debug') if coverage: cmd_configure.append('--coverage') if math_check_indexes: cmd_configure.append('--enable-math-check-indexes') if ekf_single: cmd_configure.append('--ekf-single') if postype_single: cmd_configure.append('--postype-single') if force_32bit: cmd_configure.append('--force-32bit') if ubsan: cmd_configure.append('--ubsan') if ubsan_abort: cmd_configure.append('--ubsan-abort') if num_aux_imus > 0: cmd_configure.append('--num-aux-imus=%u' % num_aux_imus) if dronecan_tests: cmd_configure.append('--enable-dronecan-tests') if extra_hwdef is not None: cmd_configure.extend(['--extra-hwdef', extra_hwdef]) for nv in extra_defines.items(): cmd_configure.extend(['--define', "%s=%s" % nv]) if j is not None: cmd_configure.extend(['-j', str(j)]) pieces = [shlex.split(x) for x in extra_args] for piece in pieces: cmd_configure.extend(piece) run_cmd(cmd_configure, directory=topdir(), checkfail=True) def waf_clean(): run_cmd([relwaf(), "clean"], directory=topdir(), checkfail=True) def waf_build(target=None): cmd = [relwaf(), "build"] if target is not None: cmd.append(target) run_cmd(cmd, directory=topdir(), checkfail=True) def build_SITL( build_target, board='sitl', clean=True, configure=True, coverage=False, debug=False, ekf_single=False, extra_configure_args=[], extra_defines={}, j=None, math_check_indexes=False, postype_single=False, force_32bit=False, ubsan=False, ubsan_abort=False, num_aux_imus=0, dronecan_tests=False, ): # first configure if configure: waf_configure(board, j=j, debug=debug, math_check_indexes=math_check_indexes, ekf_single=ekf_single, postype_single=postype_single, coverage=coverage, force_32bit=force_32bit, ubsan=ubsan, ubsan_abort=ubsan_abort, extra_defines=extra_defines, num_aux_imus=num_aux_imus, dronecan_tests=dronecan_tests, extra_args=extra_configure_args,) # then clean if clean: waf_clean() # then build cmd_make = [relwaf(), "build", "--target", build_target] if j is not None: cmd_make.extend(['-j', str(j)]) run_cmd(cmd_make, directory=topdir(), checkfail=True, show=True) return True def build_examples(board, j=None, debug=False, clean=False, configure=True, math_check_indexes=False, coverage=False, ekf_single=False, postype_single=False, force_32bit=False, ubsan=False, ubsan_abort=False, num_aux_imus=0, dronecan_tests=False, extra_configure_args=[]): # first configure if configure: waf_configure(board, j=j, debug=debug, math_check_indexes=math_check_indexes, ekf_single=ekf_single, postype_single=postype_single, coverage=coverage, force_32bit=force_32bit, ubsan=ubsan, ubsan_abort=ubsan_abort, extra_args=extra_configure_args, dronecan_tests=dronecan_tests) # then clean if clean: waf_clean() # then build cmd_make = [relwaf(), "examples"] run_cmd(cmd_make, directory=topdir(), checkfail=True, show=True) return True def build_replay(board, j=None, debug=False, clean=False): # first configure waf_configure(board, j=j, debug=debug) # then clean if clean: waf_clean() # then build cmd_make = [relwaf(), "replay"] run_cmd(cmd_make, directory=topdir(), checkfail=True, show=True) return True def build_tests(board, j=None, debug=False, clean=False, configure=True, math_check_indexes=False, coverage=False, ekf_single=False, postype_single=False, force_32bit=False, ubsan=False, ubsan_abort=False, num_aux_imus=0, dronecan_tests=False, extra_configure_args=[]): # first configure if configure: waf_configure(board, j=j, debug=debug, math_check_indexes=math_check_indexes, ekf_single=ekf_single, postype_single=postype_single, coverage=coverage, force_32bit=force_32bit, ubsan=ubsan, ubsan_abort=ubsan_abort, num_aux_imus=num_aux_imus, dronecan_tests=dronecan_tests, extra_args=extra_configure_args,) # then clean if clean: waf_clean() # then build run_cmd([relwaf(), "tests"], directory=topdir(), checkfail=True, show=True) return True # list of pexpect children to close on exit close_list = [] def pexpect_autoclose(p): """Mark for autoclosing.""" global close_list close_list.append(p) def pexpect_close(p): """Close a pexpect child.""" global close_list ex = None if p is None: print("Nothing to close") return try: p.kill(signal.SIGTERM) except IOError as e: print("Caught exception: %s" % str(e)) ex = e pass if ex is None: # give the process some time to go away for i in range(20): if not p.isalive(): break time.sleep(0.05) try: p.close() except Exception: pass try: p.close(force=True) except Exception: pass if p in close_list: close_list.remove(p) def pexpect_close_all(): """Close all pexpect children.""" global close_list for p in close_list[:]: pexpect_close(p) def pexpect_drain(p): """Drain any pending input.""" try: p.read_nonblocking(1000, timeout=0) except Exception: pass def cmd_as_shell(cmd): return (" ".join(['"%s"' % x for x in cmd])) def make_safe_filename(text): """Return a version of text safe for use as a filename.""" r = re.compile("([^a-zA-Z0-9_.+-])") text.replace('/', '-') filename = r.sub(lambda m: str(hex(ord(str(m.group(1))))).upper(), text) return filename def valgrind_log_filepath(binary, model): return make_safe_filename('%s-%s-valgrind.log' % (os.path.basename(binary), model,)) def kill_screen_gdb(): cmd = ["screen", "-X", "-S", "ardupilot-gdb", "quit"] subprocess.Popen(cmd) def kill_mac_terminal(): global windowID for window in windowID: cmd = ("osascript -e \'tell application \"Terminal\" to close " "(window(get index of window id %s))\'" % window) os.system(cmd) class FakeMacOSXSpawn(object): """something that looks like a pspawn child so we can ignore attempts to pause (and otherwise kill(1) SITL. MacOSX using osascript to start/stop sitl """ def __init__(self): pass def progress(self, message): print(message) def kill(self, sig): # self.progress("FakeMacOSXSpawn: ignoring kill(%s)" % str(sig)) pass def isalive(self): self.progress("FakeMacOSXSpawn: assuming process is alive") return True class PSpawnStdPrettyPrinter(object): '''a fake filehandle-like object which prefixes a string to all lines before printing to stdout/stderr. To be used to pass to pexpect.spawn's logfile argument ''' def __init__(self, output=sys.stdout, prefix="stdout"): self.output = output self.prefix = prefix self.buffer = "" def close(self): self.print_prefixed_line(self.buffer) def write(self, data): self.buffer += data lines = self.buffer.split("\n") self.buffer = lines[-1] lines.pop() for line in lines: self.print_prefixed_line(line) def print_prefixed_line(self, line): print("%s: %s" % (self.prefix, line), file=self.output) def flush(self): pass def start_SITL(binary, valgrind=False, callgrind=False, gdb=False, gdb_no_tui=False, wipe=False, synthetic_clock=True, home=None, model=None, speedup=1, sim_rate_hz=None, defaults_filepath=None, unhide_parameters=False, gdbserver=False, breakpoints=[], disable_breakpoints=False, customisations=[], lldb=False, enable_fgview_output=False, supplementary=False, stdout_prefix=None): if model is None and not supplementary: raise ValueError("model must not be None") """Launch a SITL instance.""" cmd = [] if (callgrind or valgrind) and os.path.exists('/usr/bin/valgrind'): # we specify a prefix for vgdb-pipe because on Vagrant virtual # machines the pipes are created on the mountpoint for the # shared directory with the host machine. mmap's, # unsurprisingly, fail on files created on that mountpoint. vgdb_prefix = os.path.join(tempfile.gettempdir(), "vgdb-pipe") log_file = valgrind_log_filepath(binary=binary, model=model) cmd.extend([ 'valgrind', # adding this option allows valgrind to cope with the overload # of operator new "--soname-synonyms=somalloc=nouserintercepts", '--vgdb-prefix=%s' % vgdb_prefix, '-q', '--log-file=%s' % log_file]) if callgrind: cmd.extend(["--tool=callgrind"]) if gdbserver: cmd.extend(['gdbserver', 'localhost:3333']) if gdb: # attach gdb to the gdbserver: f = open("/tmp/x.gdb", "w") f.write("target extended-remote localhost:3333\nc\n") for breakingpoint in breakpoints: f.write("b %s\n" % (breakingpoint,)) if disable_breakpoints: f.write("disable\n") f.close() run_cmd('screen -d -m -S ardupilot-gdbserver ' 'bash -c "gdb -x /tmp/x.gdb"') elif gdb: f = open("/tmp/x.gdb", "w") f.write("set pagination off\n") for breakingpoint in breakpoints: f.write("b %s\n" % (breakingpoint,)) if disable_breakpoints: f.write("disable\n") if not gdb_no_tui: f.write("tui enable\n") f.write("r\n") f.close() if sys.platform == "darwin" and os.getenv('DISPLAY'): cmd.extend(['gdb', '-x', '/tmp/x.gdb', '--args']) elif os.environ.get('DISPLAY'): cmd.extend(['xterm', '-e', 'gdb', '-x', '/tmp/x.gdb', '--args']) else: cmd.extend(['screen', '-L', '-Logfile', 'gdb.log', '-d', '-m', '-S', 'ardupilot-gdb', 'gdb', '--cd', os.getcwd(), '-x', '/tmp/x.gdb', binary, '--args']) elif lldb: f = open("/tmp/x.lldb", "w") for breakingpoint in breakpoints: f.write("b %s\n" % (breakingpoint,)) if disable_breakpoints: f.write("disable\n") f.write("settings set target.process.stop-on-exec false\n") f.write("process launch\n") f.close() if sys.platform == "darwin" and os.getenv('DISPLAY'): cmd.extend(['lldb', '-s', '/tmp/x.lldb', '--']) elif os.environ.get('DISPLAY'): cmd.extend(['xterm', '-e', 'lldb', '-s', '/tmp/x.lldb', '--']) else: raise RuntimeError("DISPLAY was not set") cmd.append(binary) if not supplementary: if wipe: cmd.append('-w') if synthetic_clock: cmd.append('-S') if home is not None: cmd.extend(['--home', home]) cmd.extend(['--model', model]) if speedup is not None and speedup != 1: cmd.extend(['--speedup', str(speedup)]) if sim_rate_hz is not None: cmd.extend(['--rate', str(sim_rate_hz)]) if defaults_filepath is not None: if type(defaults_filepath) == list: defaults = [reltopdir(path) for path in defaults_filepath] if len(defaults): cmd.extend(['--defaults', ",".join(defaults)]) else: cmd.extend(['--defaults', reltopdir(defaults_filepath)]) if unhide_parameters: cmd.extend(['--unhide-groups']) # somewhere for MAVProxy to connect to: cmd.append('--uartC=tcp:2') if not enable_fgview_output: cmd.append("--disable-fgview") cmd.extend(customisations) pexpect_logfile_prefix = stdout_prefix if pexpect_logfile_prefix is None: pexpect_logfile_prefix = os.path.basename(binary) pexpect_logfile = PSpawnStdPrettyPrinter(prefix=pexpect_logfile_prefix) if (gdb or lldb) and sys.platform == "darwin" and os.getenv('DISPLAY'): global windowID # on MacOS record the window IDs so we can close them later atexit.register(kill_mac_terminal) child = None mydir = os.path.dirname(os.path.realpath(__file__)) autotest_dir = os.path.realpath(os.path.join(mydir, '..')) runme = [os.path.join(autotest_dir, "run_in_terminal_window.sh"), 'mactest'] runme.extend(cmd) print(cmd) out = subprocess.Popen(runme, stdout=subprocess.PIPE).communicate()[0] out = out.decode('utf-8') p = re.compile('tab 1 of window id (.*)') tstart = time.time() while time.time() - tstart < 5: tabs = p.findall(out) if len(tabs) > 0: break time.sleep(0.1) # sleep for extra 2 seconds for application to start time.sleep(2) if len(tabs) > 0: windowID.append(tabs[0]) else: print("Cannot find %s process terminal" % binary) child = FakeMacOSXSpawn() elif gdb and not os.getenv('DISPLAY'): subprocess.Popen(cmd) atexit.register(kill_screen_gdb) # we are expected to return a pexpect wrapped around the # stdout of the ArduPilot binary. Not going to happen until # AP gets a redirect-stdout-to-filehandle option. So, in the # meantime, return a dummy: return pexpect.spawn("true", ["true"], logfile=pexpect_logfile, encoding=ENCODING, timeout=5) else: print("Running: %s" % cmd_as_shell(cmd)) first = cmd[0] rest = cmd[1:] child = pexpect.spawn(first, rest, logfile=pexpect_logfile, encoding=ENCODING, timeout=5) pexpect_autoclose(child) if gdb or lldb: # if we run GDB we do so in an xterm. "Waiting for # connection" is never going to appear on xterm's output. # ... so let's give it another magic second. time.sleep(1) # TODO: have a SITL-compiled ardupilot able to have its # console on an output fd. else: child.expect('Waiting for ', timeout=300) return child def mavproxy_cmd(): """return path to which mavproxy to use""" return os.getenv('MAVPROXY_CMD', 'mavproxy.py') def MAVProxy_version(): """return the current version of mavproxy as a tuple e.g. (1,8,8)""" command = "%s --version" % mavproxy_cmd() output = subprocess.Popen(command, shell=True, stdout=subprocess.PIPE).communicate()[0] output = output.decode('ascii') match = re.search("MAVProxy Version: ([0-9]+)[.]([0-9]+)[.]([0-9]+)", output) if match is None: raise ValueError("Unable to determine MAVProxy version from (%s)" % output) return int(match.group(1)), int(match.group(2)), int(match.group(3)) def start_MAVProxy_SITL(atype, aircraft=None, setup=False, master=None, options=[], sitl_rcin_port=5501, pexpect_timeout=60, logfile=sys.stdout): """Launch mavproxy connected to a SITL instance.""" if master is None: raise ValueError("Expected a master") local_mp_modules_dir = os.path.abspath( os.path.join(__file__, '..', '..', '..', 'mavproxy_modules')) env = dict(os.environ) old = env.get('PYTHONPATH', None) env['PYTHONPATH'] = local_mp_modules_dir if old is not None: env['PYTHONPATH'] += os.path.pathsep + old global close_list cmd = [] cmd.append(mavproxy_cmd()) cmd.extend(['--master', master]) cmd.extend(['--sitl', "localhost:%u" % sitl_rcin_port]) if setup: cmd.append('--setup') if aircraft is None: aircraft = 'test.%s' % atype cmd.extend(['--aircraft', aircraft]) cmd.extend(options) cmd.extend(['--default-modules', 'misc,wp,rally,fence,param,arm,mode,rc,cmdlong,output']) print("PYTHONPATH: %s" % str(env['PYTHONPATH'])) print("Running: %s" % cmd_as_shell(cmd)) ret = pexpect.spawn(cmd[0], cmd[1:], logfile=logfile, encoding=ENCODING, timeout=pexpect_timeout, env=env) ret.delaybeforesend = 0 pexpect_autoclose(ret) return ret def expect_setup_callback(e, callback): """Setup a callback that is called once a second while waiting for patterns.""" def _expect_callback(pattern, timeout=e.timeout): tstart = time.time() while time.time() < tstart + timeout: try: ret = e.expect_saved(pattern, timeout=1) return ret except pexpect.TIMEOUT: e.expect_user_callback(e) print("Timed out looking for %s" % pattern) raise pexpect.TIMEOUT(timeout) e.expect_user_callback = callback e.expect_saved = e.expect e.expect = _expect_callback def mkdir_p(directory): """Like mkdir -p .""" if not directory: return if directory.endswith("/"): mkdir_p(directory[:-1]) return if os.path.isdir(directory): return mkdir_p(os.path.dirname(directory)) os.mkdir(directory) def loadfile(fname): """Load a file as a string.""" f = open(fname, mode='r') r = f.read() f.close() return r def lock_file(fname): """Lock a file.""" import fcntl f = open(fname, mode='w') try: fcntl.lockf(f, fcntl.LOCK_EX | fcntl.LOCK_NB) except OSError: return None return f def check_parent(parent_pid=None): """Check our parent process is still alive.""" if parent_pid is None: try: parent_pid = os.getppid() except OSError: pass if parent_pid is None: return try: os.kill(parent_pid, 0) except OSError: print("Parent had finished - exiting") sys.exit(1) def gps_newpos(lat, lon, bearing, distance): """Extrapolate latitude/longitude given a heading and distance thanks to http://www.movable-type.co.uk/scripts/latlong.html . """ from math import sin, asin, cos, atan2, radians, degrees lat1 = radians(lat) lon1 = radians(lon) brng = radians(bearing) dr = distance / RADIUS_OF_EARTH lat2 = asin(sin(lat1) * cos(dr) + cos(lat1) * sin(dr) * cos(brng)) lon2 = lon1 + atan2(sin(brng) * sin(dr) * cos(lat1), cos(dr) - sin(lat1) * sin(lat2)) return degrees(lat2), degrees(lon2) def gps_distance(lat1, lon1, lat2, lon2): """Return distance between two points in meters, coordinates are in degrees thanks to http://www.movable-type.co.uk/scripts/latlong.html .""" lat1 = math.radians(lat1) lat2 = math.radians(lat2) lon1 = math.radians(lon1) lon2 = math.radians(lon2) dLat = lat2 - lat1 dLon = lon2 - lon1 a = math.sin(0.5 * dLat)**2 + math.sin(0.5 * dLon)**2 * math.cos(lat1) * math.cos(lat2) c = 2.0 * math.atan2(math.sqrt(a), math.sqrt(1.0 - a)) return RADIUS_OF_EARTH * c def gps_bearing(lat1, lon1, lat2, lon2): """Return bearing between two points in degrees, in range 0-360 thanks to http://www.movable-type.co.uk/scripts/latlong.html .""" lat1 = math.radians(lat1) lat2 = math.radians(lat2) lon1 = math.radians(lon1) lon2 = math.radians(lon2) dLon = lon2 - lon1 y = math.sin(dLon) * math.cos(lat2) x = math.cos(lat1) * math.sin(lat2) - math.sin(lat1) * math.cos(lat2) * math.cos(dLon) bearing = math.degrees(math.atan2(y, x)) if bearing < 0: bearing += 360.0 return bearing def constrain(value, minv, maxv): """Constrain a value to a range.""" if value < minv: value = minv if value > maxv: value = maxv return value def load_local_module(fname): """load a python module from within the ardupilot tree""" fname = os.path.join(topdir(), fname) if sys.version_info.major >= 3: import importlib.util spec = importlib.util.spec_from_file_location("local_module", fname) ret = importlib.util.module_from_spec(spec) spec.loader.exec_module(ret) else: import imp ret = imp.load_source("local_module", fname) return ret if __name__ == "__main__": import doctest doctest.testmod()