#!/usr/bin/env python """ Framework to start a simulated vehicle and connect it to MAVProxy. Peter Barker, April 2016 based on sim_vehicle.sh by Andrew Tridgell, October 2011 """ import atexit import getpass import optparse import os import os.path import signal import subprocess import sys import tempfile import time import shlex # List of open terminal windows for macosx windowID = [] class CompatError(Exception): """A custom exception class to hold state if we encounter the parse error we are looking for""" def __init__(self, error, opts, rargs): Exception.__init__(self, error) self.opts = opts self.rargs = rargs class CompatOptionParser(optparse.OptionParser): """An option parser which emulates the behaviour of the old sim_vehicle.sh; if passed -C, the first argument not understood starts a list of arguments that are passed straight to mavproxy""" def __init__(self, *args, **kwargs): optparse.OptionParser.__init__(self, *args, **kwargs) def error(self, error): """Override default error handler called by optparse.OptionParser.parse_args when a parse error occurs; raise a detailed exception which can be caught""" if error.find("no such option") != -1: raise CompatError(error, self.values, self.rargs) optparse.OptionParser.error(self, error) def parse_args(self, args=None, values=None): """Wrap parse_args so we can catch the exception raised upon discovering the known parameter parsing error""" try: opts, args = optparse.OptionParser.parse_args(self) except CompatError as e: if not e.opts.sim_vehicle_sh_compatible: print(e) print("Perhaps you want --sim_vehicle_sh_compatible (-C)?") sys.exit(1) if e.opts.mavproxy_args: print("--mavproxy-args not permitted in compat mode") sys.exit(1) args = [] opts = e.opts mavproxy_args = [str(e)[16:]] # this trims "no such option" off mavproxy_args.extend(e.rargs) opts.ensure_value("mavproxy_args", " ".join(mavproxy_args)) return opts, args def cygwin_pidof(proc_name): """ Thanks to kata198 for this: https://github.com/kata198/cygwin-ps-misc/blob/master/pidof """ pipe = subprocess.Popen("ps -ea | grep " + proc_name, shell=True, stdout=subprocess.PIPE) output_lines = pipe.stdout.read().replace("\r", "").split("\n") ret = pipe.wait() pids = [] if ret != 0: # No results return [] for line in output_lines: if not line: continue line_split = [item for item in line.split(' ') if item] cmd = line_split[-1].split('/')[-1] if cmd == proc_name: try: pid = int(line_split[0].strip()) except: pid = int(line_split[1].strip()) if pid not in pids: pids.append(pid) return pids def under_cygwin(): """Return if Cygwin binary exist""" return os.path.exists("/usr/bin/cygstart") def under_macos(): return sys.platform == 'darwin' def kill_tasks_cygwin(victims): """Shell out to ps -ea to find processes to kill""" for victim in list(victims): pids = cygwin_pidof(victim) # progress("pids for (%s): %s" % (victim,",".join([ str(p) for p in pids]))) for apid in pids: os.kill(apid, signal.SIGKILL) def kill_tasks_macos(): for window in windowID: cmd = "osascript -e \'tell application \"Terminal\" to close (window(get index of window id %s))\'" % window os.system(cmd) def kill_tasks_psutil(victims): """Use the psutil module to kill tasks by name. Sadly, this module is not available on Windows, but when it is we should be able to *just* use this routine""" import psutil for proc in psutil.process_iter(): if proc.status == psutil.STATUS_ZOMBIE: continue if proc.name in victims: proc.kill() def kill_tasks_pkill(victims): """Shell out to pkill(1) to kill processed by name""" for victim in victims: # pkill takes a single pattern, so iterate cmd = ["pkill", victim] run_cmd_blocking("pkill", cmd, quiet=True) class BobException(Exception): """Handle Bob's Exceptions""" pass def kill_tasks(): """Clean up stray processes by name. This is a somewhat shotgun approach""" progress("Killing tasks") try: victim_names = { 'JSBSim', 'lt-JSBSim', 'ArduPlane.elf', 'ArduCopter.elf', 'APMrover2.elf', 'AntennaTracker.elf', 'JSBSIm.exe', 'MAVProxy.exe', 'runsim.py', 'AntennaTracker.elf', } for frame in _options_for_frame.keys(): if "waf_target" not in _options_for_frame[frame]: continue exe_name = os.path.basename(_options_for_frame[frame]["waf_target"]) victim_names.add(exe_name) if under_cygwin(): return kill_tasks_cygwin(victim_names) if under_macos(): return kill_tasks_macos() try: kill_tasks_psutil(victim_names) except ImportError: kill_tasks_pkill(victim_names) except Exception as e: progress("kill_tasks failed: {}".format(str(e))) def check_jsbsim_version(): """Assert that the JSBSim we will run is the one we expect to run""" jsbsim_cmd = ["JSBSim", "--version"] progress_cmd("Get JSBSim version", jsbsim_cmd) try: jsbsim_version = subprocess.Popen(jsbsim_cmd, stdout=subprocess.PIPE).communicate()[0] except OSError: jsbsim_version = '' # this value will trigger the ".index" # check below and produce a reasonable # error message try: jsbsim_version.index("ArduPilot") except ValueError: print(r""" ========================================================= You need the latest ArduPilot version of JSBSim installed and in your \$PATH Please get it from git://github.com/tridge/jsbsim.git See http://ardupilot.org/dev/docs/setting-up-sitl-on-linux.html for more details ========================================================= """) sys.exit(1) def progress(text): """Display sim_vehicle progress text""" print("SIM_VEHICLE: " + text) def find_autotest_dir(): """Return path to autotest directory""" return os.path.dirname(os.path.realpath(__file__)) def find_root_dir(): """Return path to root directory""" return os.path.realpath(os.path.join(find_autotest_dir(), '../..')) """ make_target: option passed to make to create binaries. Usually sitl, and "-debug" may be appended if -D is passed to sim_vehicle.py default_params_filename: filename of default parameters file. Taken to be relative to autotest dir. extra_mavlink_cmds: extra parameters that will be passed to mavproxy """ _options_for_frame = { "calibration": { "extra_mavlink_cmds": "module load sitl_calibration;", }, # COPTER "+": { "waf_target": "bin/arducopter-quad", "default_params_filename": "default_params/copter.parm", }, "quad": { "model": "+", "waf_target": "bin/arducopter-quad", "default_params_filename": "default_params/copter.parm", }, "X": { "waf_target": "bin/arducopter-quad", # this param set FRAME doesn't actually work because mavproxy # won't set a parameter unless it knows of it, and the param fetch happens asynchronously "default_params_filename": "default_params/copter.parm", "extra_mavlink_cmds": "param fetch frame; param set FRAME 1;", }, "hexa": { "make_target": "sitl-hexa", "waf_target": "bin/arducopter-hexa", "default_params_filename": "default_params/copter.parm", }, "octa": { "make_target": "sitl-octa", "waf_target": "bin/arducopter-octa", "default_params_filename": "default_params/copter.parm", }, "tri": { "make_target": "sitl-tri", "waf_target": "bin/arducopter-tri", "default_params_filename": "default_params/copter-tri.parm", }, "y6": { "make_target": "sitl-y6", "waf_target": "bin/arducopter-y6", "default_params_filename": "default_params/copter-y6.parm", }, # COPTER TYPES "IrisRos": { "waf_target": "bin/arducopter-quad", "default_params_filename": "default_params/copter.parm", }, "firefly": { "waf_target": "bin/arducopter-firefly", "default_params_filename": "default_params/firefly.parm", }, # HELICOPTER "heli": { "make_target": "sitl-heli", "waf_target": "bin/arducopter-heli", "default_params_filename": "default_params/copter-heli.parm", }, "heli-dual": { "make_target": "sitl-heli-dual", "waf_target": "bin/arducopter-coax", # is this correct? -pb201604301447 }, "heli-compound": { "make_target": "sitl-heli-compound", "waf_target": "bin/arducopter-coax", # is this correct? -pb201604301447 }, "singlecopter": { "make_target": "sitl-single", "waf_target": "bin/arducopter-single", "default_params_filename": "default_params/copter-single.parm", }, "coaxcopter": { "make_target": "sitl-coax", "waf_target": "bin/arducopter-coax", "default_params_filename": "default_params/copter-coax.parm", }, # PLANE "quadplane-tilttri": { "make_target": "sitl-tri", "waf_target": "bin/arduplane-tri", "default_params_filename": "default_params/quadplane-tilttri.parm", }, "quadplane-tri": { "make_target": "sitl-tri", "waf_target": "bin/arduplane-tri", "default_params_filename": "default_params/quadplane-tri.parm", }, "quadplane": { "waf_target": "bin/arduplane", "default_params_filename": "default_params/quadplane.parm", }, "plane-elevon": { "waf_target": "bin/arduplane", "default_params_filename": "default_params/plane-elevons.parm", }, "plane-vtail": { "waf_target": "bin/arduplane", "default_params_filename": "default_params/plane-vtail.parm", }, "plane": { "waf_target": "bin/arduplane", "default_params_filename": "default_params/plane.parm", }, # ROVER "rover": { "waf_target": "bin/ardurover", "default_params_filename": "default_params/rover.parm", }, "rover-skid": { "waf_target": "bin/ardurover", "default_params_filename": "default_params/rover-skid.parm", }, # SIM "gazebo-iris": { "waf_target": "bin/arducopter-quad", "default_params_filename": "default_params/gazebo-iris.parm", }, "gazebo-zephyr": { "waf_target": "bin/arduplane", "default_params_filename": "default_params/gazebo-zephyr.parm", }, "last_letter": { "waf_target": "bin/arduplane", }, "CRRCSim": { "waf_target": "bin/arduplane", }, "jsbsim": { "waf_target": "bin/arduplane", "default_params_filename": "default_params/plane-jsbsim.parm", }, } _default_waf_target = { "ArduPlane": "bin/arduplane", "ArduCopter": "bin/arducopter-quad", "APMrover2": "bin/ardurover", "AntennaTracker": "bin/antennatracker", } def default_waf_target(vehicle): """Returns a waf target based on vehicle type, which is often determined by which directory the user is in""" return _default_waf_target[vehicle] def options_for_frame(frame, vehicle, opts): """Return informatiom about how to sitl for frame e.g. build-type==sitl""" ret = None if frame in _options_for_frame: ret = _options_for_frame[frame] else: for p in ["octa", "tri", "y6", "firefly", "heli", "gazebo", "last_letter", "jsbsim", "quadplane", "plane-elevon", "plane-vtail", "plane"]: if frame.startswith(p): ret = _options_for_frame[p] break if ret is None: if frame.endswith("-heli"): ret = _options_for_frame["heli"] if ret is None: ret = {} if "model" not in ret: ret["model"] = frame if "sitl-port" not in ret: ret["sitl-port"] = True if opts.model is not None: ret["model"] = opts.model if (ret["model"].find("xplane") != -1 or ret["model"].find("flightaxis") != -1): ret["sitl-port"] = False if "make_target" not in ret: ret["make_target"] = "sitl" if "waf_target" not in ret: ret["waf_target"] = default_waf_target(vehicle) if opts.build_target is not None: ret["make_target"] = opts.build_target ret["waf_target"] = opts.build_target return ret def do_build_waf(opts, frame_options): """Build sitl using waf""" progress("WAF build") old_dir = os.getcwd() root_dir = find_root_dir() os.chdir(root_dir) waf_light = os.path.join(root_dir, "modules/waf/waf-light") cmd_configure = [waf_light, "configure", "--board", "sitl"] if opts.debug: cmd_configure.append("--debug") pieces = [ shlex.split(x) for x in opts.waf_configure_args ] for piece in pieces: cmd_configure.extend(piece) run_cmd_blocking("Configure waf", cmd_configure, check=True) if opts.clean: run_cmd_blocking("Building clean", [waf_light, "clean"]) cmd_build = [waf_light, "build", "--target", frame_options["waf_target"]] if opts.jobs is not None: cmd_build += ['-j', str(opts.jobs)] pieces = [ shlex.split(x) for x in opts.waf_build_args ] for piece in pieces: cmd_build.extend(piece) _, sts = run_cmd_blocking("Building", cmd_build) if sts != 0: # build failed if opts.rebuild_on_failure: progress("Build failed; cleaning and rebuilding") run_cmd_blocking("Building clean", [waf_light, "clean"]) _, sts = run_cmd_blocking("Building", cmd_build) if sts != 0: progress("Build failed") sys.exit(1) else: progress("Build failed") sys.exit(1) os.chdir(old_dir) def do_build(vehicledir, opts, frame_options): """Build build target (e.g. sitl) in directory vehicledir""" if opts.build_system == 'waf': return do_build_waf(opts, frame_options) old_dir = os.getcwd() os.chdir(vehicledir) if opts.clean: run_cmd_blocking("Building clean", ["make", "clean"]) build_target = frame_options["make_target"] if opts.debug: build_target += "-debug" build_cmd = ["make", build_target] if opts.jobs is not None: build_cmd += ['-j', str(opts.jobs)] _, sts = run_cmd_blocking("Building %s" % build_target, build_cmd) if sts != 0: progress("Build failed; cleaning and rebuilding") run_cmd_blocking("Cleaning", ["make", "clean"]) _, sts = run_cmd_blocking("Building %s" % build_target, build_cmd) if sts != 0: progress("Build failed") sys.exit(1) os.chdir(old_dir) def find_location_by_name(autotest, locname): """Search locations.txt for locname, return GPS coords""" locations_filepath = os.path.join(autotest, "locations.txt") for line in open(locations_filepath, 'r'): line = line.rstrip("\n") (name, loc) = line.split("=") if name == locname: return loc print("Failed to find location (%s)" % cmd_opts.location) sys.exit(1) def progress_cmd(what, cmd): """Print cmd in a way a user could cut-and-paste to get the same effect""" progress(what) shell_text = "%s" % (" ".join(['"%s"' % x for x in cmd])) progress(shell_text) def run_cmd_blocking(what, cmd, quiet=False, check=False, **kw): if not quiet: progress_cmd(what, cmd) p = subprocess.Popen(cmd, **kw) ret = os.waitpid(p.pid, 0) _, sts = ret if check and sts != 0: progress("(%s) exited with code %d" % (what,sts,)) sys.exit(1) return ret def run_in_terminal_window(autotest, name, cmd): """Execute the run_in_terminal_window.sh command for cmd""" global windowID runme = [os.path.join(autotest, "run_in_terminal_window.sh"), name] runme.extend(cmd) progress_cmd("Run " + name, runme) if under_macos(): # on MacOS record the window IDs so we can close them later out = subprocess.Popen(runme, stdout=subprocess.PIPE).communicate()[0] import re p = re.compile('tab 1 of window id (.*)') windowID.append(p.findall(out)[0]) else: p = subprocess.Popen(runme) tracker_uarta = None # blemish def start_antenna_tracker(autotest, opts): """Compile and run the AntennaTracker, add tracker to mavproxy""" global tracker_uarta progress("Preparing antenna tracker") tracker_home = find_location_by_name(find_autotest_dir(), opts.tracker_location) vehicledir = os.path.join(autotest, "../../" + "AntennaTracker") tracker_frame_options = { "waf_target": _default_waf_target["AntennaTracker"], } do_build(vehicledir, opts, tracker_frame_options) tracker_instance = 1 os.chdir(vehicledir) tracker_uarta = "tcp:127.0.0.1:" + str(5760 + 10 * tracker_instance) exe = os.path.join(vehicledir, "AntennaTracker.elf") run_in_terminal_window(autotest, "AntennaTracker", ["nice", exe, "-I" + str(tracker_instance), "--model=tracker", "--home=" + tracker_home]) def start_vehicle(binary, autotest, opts, stuff, loc): """Run the ArduPilot binary""" cmd_name = opts.vehicle cmd = [] if opts.valgrind: cmd_name += " (valgrind)" cmd.append("valgrind") if opts.gdb: cmd_name += " (gdb)" cmd.append("gdb") gdb_commands_file = tempfile.NamedTemporaryFile(delete=False) atexit.register(os.unlink, gdb_commands_file.name) for breakpoint in opts.breakpoint: gdb_commands_file.write("b %s\n" % (breakpoint,)) gdb_commands_file.write("r\n") gdb_commands_file.close() cmd.extend(["-x", gdb_commands_file.name]) cmd.append("--args") if opts.strace: cmd_name += " (strace)" cmd.append("strace") strace_options = ['-o', binary + '.strace', '-s', '8000', '-ttt'] cmd.extend(strace_options) cmd.append(binary) cmd.append("-S") cmd.append("-I" + str(opts.instance)) cmd.extend(["--home", loc]) if opts.wipe_eeprom: cmd.append("-w") cmd.extend(["--model", stuff["model"]]) cmd.extend(["--speedup", str(opts.speedup)]) if opts.sitl_instance_args: cmd.extend(opts.sitl_instance_args.split(" ")) # this could be a lot better.. if opts.mavlink_gimbal: cmd.append("--gimbal") if "default_params_filename" in stuff: path = os.path.join(autotest, stuff["default_params_filename"]) progress("Using defaults from (%s)" % (path,)) cmd.extend(["--defaults", path]) run_in_terminal_window(autotest, cmd_name, cmd) def start_mavproxy(opts, stuff): """Run mavproxy""" # FIXME: would be nice to e.g. "mavproxy.mavproxy(....).run" rather than shelling out extra_cmd = "" cmd = [] if under_cygwin(): cmd.append("/usr/bin/cygstart") cmd.append("-w") cmd.append("/cygdrive/c/Program Files (x86)/MAVProxy/mavproxy.exe") else: cmd.append("mavproxy.py") if opts.hil: cmd.extend(["--load-module", "HIL"]) else: cmd.extend(["--master", mavlink_port]) if stuff["sitl-port"]: cmd.extend(["--sitl", simout_port]) # If running inside of a vagrant guest, then we probably want to forward our mavlink out to the containing host OS ports = [p + 10 * cmd_opts.instance for p in [14550,14551]] for port in ports: if getpass.getuser() == "vagrant": cmd.extend(["--out", "10.0.2.2:" + str(port)]) else: cmd.extend(["--out", "127.0.0.1:" + str(port)]) if opts.tracker: cmd.extend(["--load-module", "tracker"]) global tracker_uarta # tracker_uarta is set when we start the tracker... extra_cmd += "module load map; tracker set port %s; tracker start; tracker arm;" % (tracker_uarta,) if opts.mavlink_gimbal: cmd.extend(["--load-module", "gimbal"]) if "extra_mavlink_cmds" in stuff: extra_cmd += " " + stuff["extra_mavlink_cmds"] if opts.mavproxy_args: cmd.extend(opts.mavproxy_args.split(" ")) # this could be a lot better.. # compatibility pass-through parameters (for those that don't want # to use -C :-) for out in opts.out: cmd.extend(['--out', out]) if opts.map: cmd.append('--map') if opts.console: cmd.append('--console') if opts.aircraft is not None: cmd.extend(['--aircraft', opts.aircraft]) if len(extra_cmd): cmd.extend(['--cmd', extra_cmd]) local_mp_modules_dir = os.path.abspath( os.path.join(__file__, '..', '..', 'mavproxy_modules')) env = dict(os.environ) env['PYTHONPATH'] = local_mp_modules_dir + os.pathsep + env.get('PYTHONPATH', '') run_cmd_blocking("Run MavProxy", cmd, env=env) progress("MAVProxy exitted") # define and run parser parser = CompatOptionParser("sim_vehicle.py", epilog="eeprom.bin in the starting directory contains the parameters for your " \ "simulated vehicle. Always start from the same directory. It is "\ "recommended that you start in the main vehicle directory for the vehicle" \ "you are simulating, for example, start in the ArduPlane directory to " \ "simulate ArduPlane") parser.add_option("-v", "--vehicle", type='string', default=None, help="vehicle type (ArduPlane, ArduCopter or APMrover2)") parser.add_option("-f", "--frame", type='string', default=None, help="""set aircraft frame type for copters can choose +, X, quad or octa for planes can choose elevon or vtail""") parser.add_option("-C", "--sim_vehicle_sh_compatible", action='store_true', default=False, help="be compatible with the way sim_vehicle.sh works; make this the first option") parser.add_option("-H", "--hil", action='store_true', default=False, help="start HIL") group_build = optparse.OptionGroup(parser, "Build options") group_build.add_option("-N", "--no-rebuild", action='store_true', default=False, help="don't rebuild before starting ardupilot") group_build.add_option("-D", "--debug", action='store_true', default=False, help="build with debugging") group_build.add_option("-c", "--clean", action='store_true', default=False, help="do a make clean before building") group_build.add_option("-j", "--jobs", default=None, type='int', help="number of processors to use during build (default for waf : number of processor, for make : 1)") group_build.add_option("-b", "--build-target", default=None, type='string', help="override SITL build target") group_build.add_option("-s", "--build-system", default="waf", type='choice', choices=["make", "waf"], help="build system to use") group_build.add_option("", "--rebuild-on-failure", dest="rebuild_on_failure", action='store_true', default=False, help="if build fails, do not clean and rebuild") group_build.add_option("", "--waf-configure-arg", action="append", dest="waf_configure_args", type="string", default=[], help="extra arguments to pass to waf in its configure step") group_build.add_option("", "--waf-build-arg", action="append", dest="waf_build_args", type="string", default=[], help="extra arguments to pass to waf in its build step") parser.add_option_group(group_build) group_sim = optparse.OptionGroup(parser, "Simulation options") group_sim.add_option("-I", "--instance", default=0, type='int', help="instance of simulator") group_sim.add_option("-V", "--valgrind", action='store_true', default=False, help="enable valgrind for memory access checking (very slow!)") group_sim.add_option("-T", "--tracker", action='store_true', default=False, help="start an antenna tracker instance") group_sim.add_option("-A", "--sitl-instance-args", type='string', default=None, help="pass arguments to SITL instance") # group_sim.add_option("-R", "--reverse-throttle", action='store_true', default=False, help="reverse throttle in plane") group_sim.add_option("-G", "--gdb", action='store_true', default=False, help="use gdb for debugging ardupilot") group_sim.add_option("-g", "--gdb-stopped", action='store_true', default=False, help="use gdb for debugging ardupilot (no auto-start)") group_sim.add_option("-d", "--delay-start", default=0, type='float', help="delays the start of mavproxy by the number of seconds") group_sim.add_option("-B", "--breakpoint", type='string', action="append", default=[], help="add a breakpoint at given location in debugger") group_sim.add_option("-M", "--mavlink-gimbal", action='store_true', default=False, help="enable MAVLink gimbal") group_sim.add_option("-L", "--location", type='string', default='CMAC', help="select start location from Tools/autotest/locations.txt") group_sim.add_option("-l", "--custom-location", type='string', default=None, help="set custom start location") group_sim.add_option("-S", "--speedup", default=1, type='int', help="set simulation speedup (1 for wall clock time)") group_sim.add_option("-t", "--tracker-location", default='CMAC_PILOTSBOX', type='string', help="set antenna tracker start location") group_sim.add_option("-w", "--wipe-eeprom", action='store_true', default=False, help="wipe EEPROM and reload parameters") group_sim.add_option("-m", "--mavproxy-args", default=None, type='string', help="additional arguments to pass to mavproxy.py") group_sim.add_option("", "--strace", action='store_true', default=False, help="strace the ArduPilot binary") group_sim.add_option("", "--model", type='string', default=None, help="Override simulation model to use") parser.add_option_group(group_sim) # special-cased parameters for mavproxy, because some people's fingers # have long memories, and they don't want to use -C :-) group = optparse.OptionGroup(parser, "Compatibility MAVProxy options (consider using --mavproxy-args instead)") group.add_option("", "--out", default=[], type='string', action="append", help="create an additional mavlink output") group.add_option("", "--map", default=False, action='store_true', help="load map module on startup") group.add_option("", "--console", default=False, action='store_true', help="load console module on startup") group.add_option("", "--aircraft", default=None, help="store state and logs in named directory") parser.add_option_group(group) cmd_opts, cmd_args = parser.parse_args() # clean up processes at exit: atexit.register(kill_tasks) progress("Start") if cmd_opts.sim_vehicle_sh_compatible and cmd_opts.jobs is None: cmd_opts.jobs = 1 # validate parameters if cmd_opts.hil: if cmd_opts.valgrind: print("May not use valgrind with hil") sys.exit(1) if cmd_opts.gdb or cmd_opts.gdb_stopped: print("May not use gdb with hil") sys.exit(1) if cmd_opts.strace: print("May not use strace with hil") sys.exit(1) if cmd_opts.valgrind and (cmd_opts.gdb or cmd_opts.gdb_stopped): print("May not use valgrind with gdb") sys.exit(1) if cmd_opts.strace and (cmd_opts.gdb or cmd_opts.gdb_stopped): print("May not use strace with gdb") sys.exit(1) if cmd_opts.strace and cmd_opts.valgrind: print("valgrind and strace almost certainly not a good idea") # magically determine vehicle type (if required): if cmd_opts.vehicle is None: cwd = os.getcwd() cmd_opts.vehicle = os.path.basename(cwd) # determine a frame type if not specified: default_frame_for_vehicle = { "APMrover2": "rover", "ArduPlane": "jsbsim", "ArduCopter": "quad", "AntennaTracker": "tracker", } if cmd_opts.vehicle not in default_frame_for_vehicle: # try in parent directories, useful for having config in subdirectories cwd = os.getcwd() while cwd: bname = os.path.basename(cwd) if not bname: break if bname in default_frame_for_vehicle: cmd_opts.vehicle = bname break cwd = os.path.dirname(cwd) # try to validate vehicle if cmd_opts.vehicle not in default_frame_for_vehicle: progress("** Is (%s) really your vehicle type? Try -v VEHICLETYPE if not, or be in the e.g. ArduCopter subdirectory" % (cmd_opts.vehicle,)) # determine frame options (e.g. build type might be "sitl") if cmd_opts.frame is None: cmd_opts.frame = default_frame_for_vehicle[cmd_opts.vehicle] # setup ports for this instance mavlink_port = "tcp:127.0.0.1:" + str(5760 + 10 * cmd_opts.instance) simout_port = "127.0.0.1:" + str(5501 + 10 * cmd_opts.instance) frame_infos = options_for_frame(cmd_opts.frame, cmd_opts.vehicle, cmd_opts) if frame_infos["model"] == "jsbsim": check_jsbsim_version() vehicle_dir = os.path.realpath(os.path.join(find_root_dir(), cmd_opts.vehicle)) if not os.path.exists(vehicle_dir): print("vehicle directory (%s) does not exist" % (vehicle_dir,)) sys.exit(1) if not cmd_opts.hil: if cmd_opts.instance == 0: kill_tasks() if cmd_opts.tracker: start_antenna_tracker(find_autotest_dir(), cmd_opts) if cmd_opts.custom_location: location = cmd_opts.custom_location progress("Starting up at %s" % (location,)) else: location = find_location_by_name(find_autotest_dir(), cmd_opts.location) progress("Starting up at %s (%s)" % (location, cmd_opts.location)) if cmd_opts.hil: # (unlikely) run_in_terminal_window(find_autotest_dir(), "JSBSim", [os.path.join(find_autotest_dir(), "jsb_sim/runsim.py"), "--home", location, "--speedup=" + str(cmd_opts.speedup)]) else: if not cmd_opts.no_rebuild: # i.e. we should rebuild do_build(vehicle_dir, cmd_opts, frame_infos) if cmd_opts.build_system == "waf": if cmd_opts.debug: binary_basedir = "build/sitl-debug" else: binary_basedir = "build/sitl" vehicle_binary = os.path.join(find_root_dir(), binary_basedir, frame_infos["waf_target"]) else: vehicle_binary = os.path.join(vehicle_dir, cmd_opts.vehicle + ".elf") if not os.path.exists(vehicle_binary): print("Vehicle binary (%s) does not exist" % (vehicle_binary,)) sys.exit(1) start_vehicle(vehicle_binary, find_autotest_dir(), cmd_opts, frame_infos, location) if cmd_opts.delay_start: progress("Sleeping for %f seconds" % (cmd_opts.delay_start,)) time.sleep(float(cmd_opts.delay_start)) start_mavproxy(cmd_opts, frame_infos) sys.exit(0)