This file is indexed.

/usr/lib/python2.7/dist-packages/gps/fake.py is in python-gps 3.17-5.

This file is owned by root:root, with mode 0o644.

The actual contents of the file can be viewed below.

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# This file is Copyright (c) 2010 by the GPSD project
# BSD terms apply: see the file COPYING in the distribution root for details.
"""
gpsfake.py -- classes for creating a controlled test environment around gpsd.

The gpsfake(1) regression tester shipped with GPSD is a trivial wrapper
around this code.  For a more interesting usage example, see the
valgrind-audit script shipped with the GPSD code.

To use this code, start by instantiating a TestSession class.  Use the
prefix argument if you want to run the daemon under some kind of run-time
monitor like valgrind or gdb.  Here are some particularly useful possibilities:

valgrind --tool=memcheck --gen-suppressions=yes --leak-check=yes
    Run under Valgrind, checking for malloc errors and memory leaks.

xterm -e gdb -tui --args
    Run under gdb, controlled from a new xterm.

You can use the options argument to pass in daemon options; normally you will
use this to set the debug-logging level.

On initialization, the test object spawns an instance of gpsd with no
devices or clients attached, connected to a control socket.

TestSession has methods to attach and detch fake GPSes. The
TestSession class simulates GPS devices for you with objects composed
from a pty and a class instance that cycles sentences into the master side
from some specified logfile; gpsd reads the slave side.  A fake GPS is
identified by the string naming its slave device.

TestSession also has methods to start and end client sessions.  Daemon
responses to a client are fed to a hook function which, by default,
discards them.  Note that this data is 'bytes' to accommodate possible
binary data in Python 3; use polystr() if you need a str.  You can
change the hook to misc.get_bytes_stream(sys.stdout).write to dump
responses to standard output (this is what the gpsfake executable does)
or do something more exotic. A client session is identified by a small
integer that counts the number of client session starts.

There are a couple of convenience methods.  TestSession.wait() does nothing,
allowing a specified number of seconds to elapse.  TestSession.send()
ships commands to an open client session.

TestSession does not currently capture the daemon's log output.  It is
run with -N, so the output will go to stderr (along with, for example,
Valgrind notifications).

Each FakeGPS instance tries to packetize the data from the logfile it
is initialized with. It uses the same packet-getter as the daemon.
Exception: if there is a Delay-Cookie line in a header comment, that
delimiter is used to split up the test load.

The TestSession code maintains a run queue of FakeGPS and gps.gs
(client- session) objects. It repeatedly cycles through the run queue.
For each client session object in the queue, it tries to read data
from gpsd.  For each fake GPS, it sends one line or packet of stored
data.  When a fake-GPS's go predicate becomes false, the fake GPS is
removed from the run queue.

There are two ways to use this code.  The more deterministic is
non-threaded mode: set up your client sessions and fake GPS devices,
then call the run() method.  The run() method will terminate when
there are no more objects in the run queue.  Note, you must have
created at least one fake client or fake GPS before calling run(),
otherwise it will terminate immediately.

To allow for adding and removing clients while the test is running,
run in threaded mode by calling the start() method.  This simply calls
the run method in a subthread, with locking of critical regions.
"""
# This code runs compatibly under Python 2 and 3.x for x >= 2.
# Preserve this property!
from __future__ import absolute_import, print_function, division

import os
import pty
import select
import signal
import socket
import stat
import subprocess
import sys
import termios  # fcntl, array, struct
import threading
import time

import gps
from gps import polybytes
from . import packet as sniffer

# The magic number below has to be derived from observation.  If
# it's too high you'll slow the tests down a lot.  If it's too low
# you'll get regression tests timing out.

# WRITE_PAD: Define a per-line delay on writes so we won't spam the
# buffers in the pty layer or gpsd itself. Values smaller than the
# system timer tick don't make any difference here. Can be set from
# WRITE_PAD in the environment.

if sys.platform.startswith("linux"):
    WRITE_PAD = 0.0
elif sys.platform.startswith("freebsd"):
    WRITE_PAD = 0.01
elif sys.platform.startswith("netbsd5"):
    WRITE_PAD = 0.200
elif sys.platform.startswith("netbsd"):
    WRITE_PAD = 0.004
elif sys.platform.startswith("darwin"):
    # darwin Darwin-13.4.0-x86_64-i386-64bit
    WRITE_PAD = 0.03
else:
    WRITE_PAD = 0.004

# Additional delays in slow mode
WRITE_PAD_SLOWDOWN = 0.01

# If a test takes longer than this, we deem it to have timed out
TEST_TIMEOUT = 60


def GetDelay(slow=False):
    "Get appropriate per-line delay."
    delay = WRITE_PAD
    # Make it easier to test pad values
    if os.getenv("WRITE_PAD"):
        delay = eval(os.getenv("WRITE_PAD"))
    if slow:
        delay += WRITE_PAD_SLOWDOWN
    return delay


class TestError(BaseException):
    def __init__(self, msg):
        super(TestError, self).__init__()
        self.msg = msg


class TestLoadError(TestError):
    pass


class TestLoad(object):
    "Digest a logfile into a list of sentences we can cycle through."

    def __init__(self, logfp, predump=False, slow=False, oneshot=False):
        self.sentences = []  # This is the interesting part
        if isinstance(logfp, str):
            logfp = open(logfp, "rb")
        self.name = logfp.name
        self.logfp = logfp
        self.predump = predump
        self.type = None
        self.sourcetype = "pty"
        self.serial = None
        self.delay = GetDelay(slow)
        self.delimiter = None
        # Stash away a copy in case we need to resplit
        text = logfp.read()
        logfp = open(logfp.name, 'rb')
        # Grab the packets in the normal way
        getter = sniffer.new()
        # gps.packet.register_report(reporter)
        type_latch = None
        commentlen = 0
        while True:
            # Note that packet data is bytes rather than str
            (plen, ptype, packet, _counter) = getter.get(logfp.fileno())
            if plen <= 0:
                break
            elif ptype == sniffer.COMMENT_PACKET:
                commentlen += len(packet)
                # Some comments are magic
                if b"Serial:" in packet:
                    # Change serial parameters
                    packet = packet[1:].strip()
                    try:
                        (_xx, baud, params) = packet.split()
                        baud = int(baud)
                        if params[0] in (b'7', b'8'):
                            databits = int(params[0])
                        else:
                            raise ValueError
                        if params[1] in (b'N', b'O', b'E'):
                            parity = params[1]
                        else:
                            raise ValueError
                        if params[2] in (b'1', b'2'):
                            stopbits = int(params[2])
                        else:
                            raise ValueError
                    except (ValueError, IndexError):
                        raise TestLoadError("bad serial-parameter spec in %s" %
                                            self.name)
                    self.serial = (baud, databits, parity, stopbits)
                elif b"Transport: UDP" in packet:
                    self.sourcetype = "UDP"
                elif b"Transport: TCP" in packet:
                    self.sourcetype = "TCP"
                elif b"Delay-Cookie:" in packet:
                    if packet.startswith(b"#"):
                        packet = packet[1:]
                    try:
                        (_dummy, self.delimiter, delay) = \
                            packet.strip().split()
                        self.delay = float(delay)
                    except ValueError:
                        raise TestLoadError("bad Delay-Cookie line in %s" %
                                            self.name)
                    self.resplit = True
            else:
                if type_latch is None:
                    type_latch = ptype
                if self.predump:
                    print(repr(packet))
                if not packet:
                    raise TestLoadError("zero-length packet from %s" %
                                        self.name)
                self.sentences.append(packet)
        # Look at the first packet to grok the GPS type
        self.textual = (type_latch == sniffer.NMEA_PACKET)
        if self.textual:
            self.legend = "gpsfake: line %d: "
        else:
            self.legend = "gpsfake: packet %d"
        # Maybe this needs to be split on different delimiters?
        if self.delimiter is not None:
            self.sentences = text[commentlen:].split(self.delimiter)
        # Do we want single-shot operation?
        if oneshot:
            self.sentences.append(b"# EOF\n")


class PacketError(TestError):
    pass


class FakeGPS(object):
    def __init__(self, testload, progress=None):
        self.testload = testload
        self.progress = progress
        self.go_predicate = lambda: True
        self.readers = 0
        self.index = 0
        self.progress("gpsfake: %s provides %d sentences\n"
                      % (self.testload.name, len(self.testload.sentences)))

    def write(self, line):
        "Throw an error if this superclass is ever instantiated."
        raise ValueError(line)

    def feed(self):
        "Feed a line from the contents of the GPS log to the daemon."
        line = self.testload.sentences[self.index
                                       % len(self.testload.sentences)]
        if b"%Delay:" in line:
            # Delay specified number of seconds
            delay = line.split()[1]
            time.sleep(int(delay))
        # self.write has to be set by the derived class
        self.write(line)
        time.sleep(self.testload.delay)
        self.index += 1


class FakePTY(FakeGPS):
    "A FakePTY is a pty with a test log ready to be cycled to it."

    def __init__(self, testload,
                 speed=4800, databits=8, parity='N', stopbits=1,
                 progress=None):
        super(FakePTY, self).__init__(testload, progress)
        # Allow Serial: header to be overridden by explicit speed.
        if self.testload.serial:
            (speed, databits, parity, stopbits) = self.testload.serial
        self.speed = speed
        baudrates = {
            0: termios.B0,
            50: termios.B50,
            75: termios.B75,
            110: termios.B110,
            134: termios.B134,
            150: termios.B150,
            200: termios.B200,
            300: termios.B300,
            600: termios.B600,
            1200: termios.B1200,
            1800: termios.B1800,
            2400: termios.B2400,
            4800: termios.B4800,
            9600: termios.B9600,
            19200: termios.B19200,
            38400: termios.B38400,
            57600: termios.B57600,
            115200: termios.B115200,
            230400: termios.B230400,
        }
        (self.fd, self.slave_fd) = pty.openpty()
        self.byname = os.ttyname(self.slave_fd)
        os.chmod(self.byname, stat.S_IRUSR | stat.S_IWUSR | stat.S_IRGRP
                 | stat.S_IWGRP | stat.S_IROTH | stat.S_IWOTH)
        (iflag, oflag, cflag, lflag, ispeed, ospeed, cc) = termios.tcgetattr(
            self.slave_fd)
        cc[termios.VMIN] = 1
        cflag &= ~(termios.PARENB | termios.PARODD | termios.CRTSCTS)
        cflag |= termios.CREAD | termios.CLOCAL
        iflag = oflag = lflag = 0
        iflag &= ~ (termios.PARMRK | termios.INPCK)
        cflag &= ~ (termios.CSIZE | termios.CSTOPB | termios.PARENB
                    | termios.PARODD)
        if databits == 7:
            cflag |= termios.CS7
        else:
            cflag |= termios.CS8
        if stopbits == 2:
            cflag |= termios.CSTOPB
        # Warning: attempting to set parity makes Fedora lose its cookies
        if parity == 'E':
            iflag |= termios.INPCK
            cflag |= termios.PARENB
        elif parity == 'O':
            iflag |= termios.INPCK
            cflag |= termios.PARENB | termios.PARODD
        ispeed = ospeed = baudrates[speed]
        try:
            termios.tcsetattr(self.slave_fd, termios.TCSANOW,
                              [iflag, oflag, cflag, lflag, ispeed, ospeed, cc])
        except termios.error:
            raise TestLoadError("error attempting to set serial mode to %s "
                                " %s%s%s"
                                % (speed, databits, parity, stopbits))

    def read(self):
        "Discard control strings written by gpsd."
        # A tcflush implementation works on Linux but fails on OpenBSD 4.
        termios.tcflush(self.fd, termios.TCIFLUSH)
        # Alas, the FIONREAD version also works on Linux and fails on OpenBSD.
        # try:
        #    buf = array.array('i', [0])
        #    fcntl.ioctl(self.master_fd, termios.FIONREAD, buf, True)
        #    n = struct.unpack('i', buf)[0]
        #    os.read(self.master_fd, n)
        # except IOError:
        #    pass

    def write(self, line):
        self.progress("gpsfake: %s writes %d=%s\n"
                      % (self.testload.name, len(line), repr(line)))
        os.write(self.fd, line)

    def drain(self):
        "Wait for the associated device to drain (e.g. before closing)."
        termios.tcdrain(self.fd)


def cleansocket(host, port, socktype=socket.SOCK_STREAM):
    "Get a socket that we can re-use cleanly after it's closed."
    cs = socket.socket(socket.AF_INET, socktype)
    # This magic prevents "Address already in use" errors after
    # we release the socket.
    cs.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
    cs.bind((host, port))
    return cs


def freeport(socktype=socket.SOCK_STREAM):
    """Get a free port number for the given connection type.

    This lets the OS assign a unique port, and then assumes
    that it will become available for reuse once the socket
    is closed, and remain so long enough for the real use.
    """
    s = cleansocket("127.0.0.1", 0, socktype)
    port = s.getsockname()[1]
    s.close()
    return port


class FakeTCP(FakeGPS):
    "A TCP serverlet with a test log ready to be cycled to it."

    def __init__(self, testload,
                 host, port,
                 progress=None):
        super(FakeTCP, self).__init__(testload, progress)
        self.host = host
        self.dispatcher = cleansocket(self.host, int(port))
        # Get actual assigned port
        self.port = self.dispatcher.getsockname()[1]
        self.byname = "tcp://" + host + ":" + str(self.port)
        self.dispatcher.listen(5)
        self.readables = [self.dispatcher]

    def read(self):
        "Handle connection requests and data."
        readable, _writable, _errored = select.select(self.readables, [], [],
                                                      0)
        for s in readable:
            if s == self.dispatcher:  # Connection request
                client_socket, _address = s.accept()
                self.readables = [client_socket]
                # Depending on timing, gpsd may try to reconnect between the
                # end of the log data and the remove_device.  With no listener,
                # this results in spurious error messages.  Keeping the
                # listener around avoids this.  It will eventually be closed
                # by the Python object cleanup. self.dispatcher.close()
            else:  # Incoming data
                data = s.recv(1024)
                if not data:
                    s.close()
                    self.readables.remove(s)

    def write(self, line):
        "Send the next log packet to everybody connected."
        self.progress("gpsfake: %s writes %d=%s\n"
                      % (self.testload.name, len(line), repr(line)))
        for s in self.readables:
            if s != self.dispatcher:
                s.send(line)

    def drain(self):
        "Wait for the associated device(s) to drain (e.g. before closing)."
        for s in self.readables:
            if s != self.dispatcher:
                s.shutdown(socket.SHUT_RDWR)


class FakeUDP(FakeGPS):
    "A UDP broadcaster with a test log ready to be cycled to it."

    def __init__(self, testload,
                 ipaddr, port,
                 progress=None):
        super(FakeUDP, self).__init__(testload, progress)
        self.ipaddr = ipaddr
        self.port = port
        self.byname = "udp://" + ipaddr + ":" + str(port)
        self.sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)

    def read(self):
        "Discard control strings written by gpsd."
        pass

    def write(self, line):
        self.progress("gpsfake: %s writes %d=%s\n"
                      % (self.testload.name, len(line), repr(line)))
        self.sock.sendto(line, (self.ipaddr, int(self.port)))

    def drain(self):
        "Wait for the associated device to drain (e.g. before closing)."
        pass  # shutdown() fails on UDP


class SubprogramError(TestError):
    def __str__(self):
        return repr(self.msg)


class SubprogramInstance(object):
    "Class for generic subprogram."
    ERROR = SubprogramError

    def __init__(self):
        self.spawncmd = None
        self.process = None
        self.returncode = None
        self.env = None

    def spawn_sub(self, program, options, background=False, prefix="",
                  env=None):
        "Spawn a subprogram instance."
        spawncmd = None

        # Look for program in GPSD_HOME env variable
        if os.environ.get('GPSD_HOME'):
            for path in os.environ['GPSD_HOME'].split(':'):
                _spawncmd = "%s/%s" % (path, program)
                if os.path.isfile(_spawncmd) and os.access(_spawncmd, os.X_OK):
                    spawncmd = _spawncmd
                    break

        # if we could not find it yet try PATH env variable for it
        if not spawncmd:
            if '/usr/sbin' not in os.environ['PATH']:
                os.environ['PATH'] = os.environ['PATH'] + ":/usr/sbin"
            for path in os.environ['PATH'].split(':'):
                _spawncmd = "%s/%s" % (path, program)
                if os.path.isfile(_spawncmd) and os.access(_spawncmd, os.X_OK):
                    spawncmd = _spawncmd
                    break

        if not spawncmd:
            raise self.ERROR("Cannot execute %s: executable not found. "
                             "Set GPSD_HOME env variable" % program)
        self.spawncmd = [spawncmd] + options.split()
        if prefix:
            self.spawncmd = prefix.split() + self.spawncmd
        if env:
            self.env = os.environ.copy()
            self.env.update(env)
        self.process = subprocess.Popen(self.spawncmd, env=self.env)
        if not background:
            self.returncode = status = self.process.wait()
            if os.WIFSIGNALED(status) or os.WEXITSTATUS(status):
                raise self.ERROR("%s exited with status %d"
                                 % (program, status))

    def is_alive(self):
        "Is the program still alive?"
        if not self.process:
            return False
        self.returncode = self.process.poll()
        if self.returncode is None:
            return True
        self.process = None
        return False

    def kill(self):
        "Kill the program instance."
        while self.is_alive():
            try:  # terminate() may fail if already killed
                self.process.terminate()
            except OSError:
                continue
            time.sleep(0.01)


class DaemonError(SubprogramError):
    pass


class DaemonInstance(SubprogramInstance):
    "Control a gpsd instance."
    ERROR = DaemonError

    def __init__(self, control_socket=None):
        super(DaemonInstance, self).__init__()
        if control_socket:
            self.control_socket = control_socket
        else:
            tmpdir = os.environ.get('TMPDIR', '/tmp')
            self.control_socket = "%s/gpsfake-%d.sock" % (tmpdir, os.getpid())

    def spawn(self, options, port, background=False, prefix=""):
        "Spawn a daemon instance."
        # The -b option to suppress hanging on probe returns is needed to cope
        # with OpenBSD (and possibly other non-Linux systems) that don't
        # support anything we can use to implement the FakeGPS.read() method
        opts = (" -b -N -S %s -F %s %s"
                % (port, self.control_socket, options))
        # Derive a unique SHM key from the port # to avoid collisions.
        # Use 'Gp' as the prefix to avoid colliding with 'GPSD'.
        shmkey = '0x4770%.04X' % int(port)
        env = {'GPSD_SHM_KEY': shmkey}
        self.spawn_sub('gpsd', opts, background, prefix, env)

    def wait_ready(self):
        "Wait for the daemon to create the control socket."
        while self.is_alive():
            if os.path.exists(self.control_socket):
                return
            time.sleep(0.1)

    def __get_control_socket(self):
        # Now we know it's running, get a connection to the control socket.
        if not os.path.exists(self.control_socket):
            return None
        try:
            self.sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM, 0)
            self.sock.connect(self.control_socket)
        except socket.error:
            if self.sock:
                self.sock.close()
            self.sock = None
        return self.sock

    def add_device(self, path):
        "Add a device to the daemon's internal search list."
        if self.__get_control_socket():
            self.sock.sendall(polybytes("+%s\r\n\x00" % path))
            self.sock.recv(12)
            self.sock.close()

    def remove_device(self, path):
        "Remove a device from the daemon's internal search list."
        if self.__get_control_socket():
            self.sock.sendall(polybytes("-%s\r\n\x00" % path))
            self.sock.recv(12)
            self.sock.close()


class TestSessionError(TestError):
    # why does testSessionError() return pass? "
    pass


class TestSession(object):
    "Manage a session including a daemon with fake GPSes and clients."

    def __init__(self, prefix=None, port=None, options=None, verbose=0,
                 predump=False, udp=False, tcp=False, slow=False):
        "Initialize the test session by launching the daemon."
        self.prefix = prefix
        self.options = options
        self.verbose = verbose
        self.predump = predump
        self.udp = udp
        self.tcp = tcp
        self.slow = slow
        self.daemon = DaemonInstance()
        self.fakegpslist = {}
        self.client_id = 0
        self.readers = 0
        self.writers = 0
        self.runqueue = []
        self.index = 0
        if port:
            self.port = port
        else:
            self.port = freeport()
        self.progress = lambda x: None
        self.reporter = lambda x: None
        self.default_predicate = None
        self.fd_set = []
        self.threadlock = None

    def spawn(self):
        for sig in (signal.SIGQUIT, signal.SIGINT, signal.SIGTERM):
            signal.signal(sig, lambda unused, dummy: self.cleanup())
        self.daemon.spawn(background=True, prefix=self.prefix, port=self.port,
                          options=self.options)
        self.daemon.wait_ready()

    def set_predicate(self, pred):
        "Set a default go predicate for the session."
        self.default_predicate = pred

    def gps_add(self, logfile, speed=19200, pred=None, oneshot=False):
        "Add a simulated GPS being fed by the specified logfile."
        self.progress("gpsfake: gps_add(%s, %d)\n" % (logfile, speed))
        if logfile not in self.fakegpslist:
            testload = TestLoad(logfile, predump=self.predump, slow=self.slow,
                                oneshot=oneshot)
            if testload.sourcetype == "UDP" or self.udp:
                newgps = FakeUDP(testload, ipaddr="127.0.0.1",
                                 port=freeport(socket.SOCK_DGRAM),
                                 progress=self.progress)
            elif testload.sourcetype == "TCP" or self.tcp:
                # Let OS assign the port
                newgps = FakeTCP(testload, host="127.0.0.1", port=0,
                                 progress=self.progress)
            else:
                newgps = FakePTY(testload, speed=speed,
                                 progress=self.progress)
            if pred:
                newgps.go_predicate = pred
            elif self.default_predicate:
                newgps.go_predicate = self.default_predicate
            self.fakegpslist[newgps.byname] = newgps
            self.append(newgps)
            newgps.exhausted = 0
        self.daemon.add_device(newgps.byname)
        return newgps.byname

    def gps_remove(self, name):
        "Remove a simulated GPS from the daemon's search list."
        self.progress("gpsfake: gps_remove(%s)\n" % name)
        self.fakegpslist[name].drain()
        self.remove(self.fakegpslist[name])
        self.daemon.remove_device(name)
        del self.fakegpslist[name]

    def client_add(self, commands):
        "Initiate a client session and force connection to a fake GPS."
        self.progress("gpsfake: client_add()\n")
        try:
            newclient = gps.gps(port=self.port, verbose=self.verbose)
        except socket.error:
            if not self.daemon.is_alive():
                raise TestSessionError("daemon died")
            raise
        self.append(newclient)
        newclient.id = self.client_id + 1
        self.client_id += 1
        self.progress("gpsfake: client %d has %s\n"
                      % (self.client_id, newclient.device))
        if commands:
            self.initialize(newclient, commands)
        return self.client_id

    def client_remove(self, cid):
        "Terminate a client session."
        self.progress("gpsfake: client_remove(%d)\n" % cid)
        for obj in self.runqueue:
            if isinstance(obj, gps.gps) and obj.id == cid:
                self.remove(obj)
                return True
        return False

    def wait(self, seconds):
        "Wait, doing nothing."
        self.progress("gpsfake: wait(%d)\n" % seconds)
        time.sleep(seconds)

    def gather(self, seconds):
        "Wait, doing nothing but watching for sentences."
        self.progress("gpsfake: gather(%d)\n" % seconds)
        time.sleep(seconds)

    def cleanup(self):
        "We're done, kill the daemon."
        self.progress("gpsfake: cleanup()\n")
        if self.daemon:
            self.daemon.kill()
            self.daemon = None

    def run(self):
        "Run the tests."
        try:
            self.progress("gpsfake: test loop begins\n")
            while self.daemon:
                # We have to read anything that gpsd might have tried
                # to send to the GPS here -- under OpenBSD the
                # TIOCDRAIN will hang, otherwise.
                for device in self.runqueue:
                    if isinstance(device, FakeGPS):
                        device.read()
                had_output = False
                chosen = self.choose()
                if isinstance(chosen, FakeGPS):
                    if ((chosen.exhausted
                         and (time.time() - chosen.exhausted > TEST_TIMEOUT)
                         and chosen.byname in self.fakegpslist)):
                        sys.stderr.write(
                            "Test timed out: increase WRITE_PAD = %s\n"
                            % GetDelay(self.slow))
                        raise SystemExit(1)
                    elif not chosen.go_predicate(chosen.index, chosen):
                        if chosen.exhausted == 0:
                            chosen.exhausted = time.time()
                            self.progress("gpsfake: GPS %s ran out of input\n"
                                          % chosen.byname)
                    else:
                        chosen.feed()
                elif isinstance(chosen, gps.gps):
                    if chosen.enqueued:
                        chosen.send(chosen.enqueued)
                        chosen.enqueued = ""
                    while chosen.waiting():
                        chosen.read()
                        had_output = True
                        if not chosen.valid & gps.PACKET_SET:
                            continue
                        self.reporter(chosen.bresponse)
                        if ((chosen.data["class"] == "DEVICE"
                             and chosen.data["activated"] == 0
                             and chosen.data["path"] in self.fakegpslist)):
                            self.gps_remove(chosen.data["path"])
                            self.progress(
                                "gpsfake: GPS %s removed (notification)\n"
                                % chosen.data["path"])
                else:
                    raise TestSessionError("test object of unknown type")
                if not self.writers and not had_output:
                    self.progress("gpsfake: no writers and no output\n")
                    break
            self.progress("gpsfake: test loop ends\n")
        finally:
            self.cleanup()

    # All knowledge about locks and threading is below this line,
    # except for the bare fact that self.threadlock is set to None
    # in the class init method.

    def append(self, obj):
        "Add a producer or consumer to the object list."
        if self.threadlock:
            self.threadlock.acquire()
        self.runqueue.append(obj)
        if isinstance(obj, FakeGPS):
            self.writers += 1
        elif isinstance(obj, gps.gps):
            self.readers += 1
        if self.threadlock:
            self.threadlock.release()

    def remove(self, obj):
        "Remove a producer or consumer from the object list."
        if self.threadlock:
            self.threadlock.acquire()
        self.runqueue.remove(obj)
        if isinstance(obj, FakeGPS):
            self.writers -= 1
        elif isinstance(obj, gps.gps):
            self.readers -= 1
        self.index = min(len(self.runqueue) - 1, self.index)
        if self.threadlock:
            self.threadlock.release()

    def choose(self):
        "Atomically get the next object scheduled to do something."
        if self.threadlock:
            self.threadlock.acquire()
        chosen = self.index
        self.index += 1
        self.index %= len(self.runqueue)
        if self.threadlock:
            self.threadlock.release()
        return self.runqueue[chosen]

    def initialize(self, client, commands):
        "Arrange for client to ship specified commands when it goes active."
        client.enqueued = ""
        if not self.threadlock:
            client.send(commands)
        else:
            client.enqueued = commands

    def start(self):
        self.threadlock = threading.Lock()
        threading.Thread(target=self.run)

# End