コード例 #1
0
    def test_startAndStop(self):
        """
        Test that a process pool's start and stop method create the
        expected number of workers and keep state consistent in the
        process pool.
        """
        pp = pool.ProcessPool()
        self.assertEquals(pp.started, False)
        self.assertEquals(pp.finished, False)
        self.assertEquals(pp.processes, set())
        self.assertEquals(pp._finishCallbacks, {})

        def _checks(_):
            self.assertEquals(pp.started, True)
            self.assertEquals(pp.finished, False)
            self.assertEquals(len(pp.processes), pp.min)
            self.assertEquals(len(pp._finishCallbacks), pp.min)
            return pp.stop()

        def _closingUp(_):
            self.assertEquals(pp.started, True)
            self.assertEquals(pp.finished, True)
            self.assertEquals(len(pp.processes), 0)
            self.assertEquals(pp._finishCallbacks, {})

        return pp.start().addCallback(_checks).addCallback(_closingUp)
コード例 #2
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    def test_adjustPoolSize(self):
        """
        Test that calls to pool.adjustPoolSize are correctly handled.
        """
        pp = pool.ProcessPool(min=10)
        self.assertEquals(pp.started, False)
        self.assertEquals(pp.finished, False)
        self.assertEquals(pp.processes, set())
        self.assertEquals(pp._finishCallbacks, {})

        def _resize1(_):
            self.assertEquals(pp.started, True)
            self.assertEquals(pp.finished, False)
            self.assertEquals(len(pp.processes), pp.min)
            self.assertEquals(len(pp._finishCallbacks), pp.min)
            return pp.adjustPoolSize(min=2, max=3)

        def _resize2(_):
            self.assertEquals(pp.started, True)
            self.assertEquals(pp.finished, False)
            self.assertEquals(pp.max, 3)
            self.assertEquals(pp.min, 2)
            self.assertEquals(len(pp.processes), pp.max)
            self.assertEquals(len(pp._finishCallbacks), pp.max)

        def _resize3(_):
            self.assertRaises(AssertionError, pp.adjustPoolSize, min=-1, max=5)
            self.assertRaises(AssertionError, pp.adjustPoolSize, min=5, max=1)
            return pp.stop()

        return pp.start().addCallback(_resize1).addCallback(
            _resize2).addCallback(_resize3)
コード例 #3
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    def test_disableProcessRecycling(self):
        """
        Test that by setting 0 to recycleAfter we actually disable process recycling.
        """
        MAX = 1
        MIN = 1
        RECYCLE_AFTER = 0
        pp = pool.ProcessPool(ampChild=PidChild,
                              min=MIN,
                              max=MAX,
                              recycleAfter=RECYCLE_AFTER)

        def _checks(_):
            self.assertEquals(pp.started, True)
            self.assertEquals(pp.finished, False)
            self.assertEquals(len(pp.processes), pp.min)
            self.assertEquals(len(pp._finishCallbacks), pp.min)
            return pp.doWork(Pid).addCallback(lambda response: response['pid'])

        def _checks2(pid):
            return pp.doWork(Pid).addCallback(
                lambda response: response['pid']).addCallback(
                    self.assertEquals, pid).addCallback(lambda _: pid)

        def finish(reason):
            return pp.stop().addCallback(lambda _: reason)

        return pp.start().addCallback(_checks).addCallback(
            _checks2).addCallback(_checks2).addCallback(finish)
コード例 #4
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    def test_startStopWorker(self):
        """
        Test that starting and stopping a worker keeps the state of
        the process pool consistent.
        """
        pp = pool.ProcessPool()
        self.assertEquals(pp.started, False)
        self.assertEquals(pp.finished, False)
        self.assertEquals(pp.processes, set())
        self.assertEquals(pp._finishCallbacks, {})

        def _checks():
            self.assertEquals(pp.started, False)
            self.assertEquals(pp.finished, False)
            self.assertEquals(len(pp.processes), 1)
            self.assertEquals(len(pp._finishCallbacks), 1)
            return pp.stopAWorker()

        def _closingUp(_):
            self.assertEquals(pp.started, False)
            self.assertEquals(pp.finished, False)
            self.assertEquals(len(pp.processes), 0)
            self.assertEquals(pp._finishCallbacks, {})

        pp.startAWorker()
        return _checks().addCallback(_closingUp).addCallback(
            lambda _: pp.stop())
コード例 #5
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ファイル: test_process.py プロジェクト: zendesk/ampoule
    def test_recyclingWithQueueOverload(self):
        """
        Test that we get the correct number of different results when
        we overload the pool of calls.
        """
        MAX = 5
        MIN = 1
        RECYCLE_AFTER = 10
        CALLS = 60
        pp = pool.ProcessPool(ampChild=PidChild, min=MIN, max=MAX, recycleAfter=RECYCLE_AFTER)
        self.addCleanup(pp.stop)

        def _check(results):
            s = set()
            for succeed, response in results:
                s.add(response['pid'])

            # For the first C{MAX} calls, each is basically guaranteed to go to
            # a different child.  After that, though, there are no guarantees.
            # All the rest might go to a single child, since the child to
            # perform a job is selected arbitrarily from the "ready" set.  Fair
            # distribution of jobs needs to be implemented; right now it's "set
            # ordering" distribution of jobs.
            self.assertTrue(len(s) > MAX)

        def _work(_):
            l = [pp.doWork(Pid) for x in range(CALLS)]
            d = defer.DeferredList(l)
            return d.addCallback(_check)
        d = pp.start()
        d.addCallback(_work)
        return d
コード例 #6
0
ファイル: pid.py プロジェクト: zhangy1124/ampoule
 def _run():
     pp = pool.ProcessPool(MyChild, min=1, max=1)
     yield pp.start()
     result = yield pp.doWork(Pid)
     print("The Child process PID is:", result['pid'])
     yield pp.stop()
     reactor.stop()
コード例 #7
0
ファイル: test_process.py プロジェクト: zendesk/ampoule
    def test_recyclingProcessFails(self):
        """
        A process exiting with a non-zero exit code when recycled does not get
        multiple processes started to replace it.
        """
        MAX = 1
        MIN = 1
        RECYCLE_AFTER = 1
        RECYCLE_AFTER = 1
        pp = pool.ProcessPool(ampChild=ExitingChild, min=MIN, max=MAX, recycleAfter=RECYCLE_AFTER)
        self.addCleanup(pp.stop)

        def _checks(_):
            self.assertEquals(pp.started, True)
            self.assertEquals(pp.finished, False)
            self.assertEquals(len(pp.processes), pp.min)
            self.assertEquals(len(pp._finishCallbacks), pp.min)
            child = list(pp.ready)[0]
            finished = pp._finishCallbacks[child]
            return pp.doWork(Exit).addBoth(lambda _: finished)

        def _checks2(_):
            self.assertEquals(len(pp.processes), pp.max)

        d = pp.start()
        d.addCallback(_checks)
        d.addCallback(_checks2)
        return d
コード例 #8
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    def test_growingToMax(self):
        """
        Test that the pool grows over time until it reaches max processes.
        """
        MAX = 5
        pp = pool.ProcessPool(ampChild=WaitingChild, min=1, max=MAX)

        def _checks(_):
            self.assertEquals(pp.started, True)
            self.assertEquals(pp.finished, False)
            self.assertEquals(len(pp.processes), pp.min)
            self.assertEquals(len(pp._finishCallbacks), pp.min)

            D = b"DATA"
            d = [pp.doWork(First, data=D) for x in range(MAX)]

            self.assertEquals(pp.started, True)
            self.assertEquals(pp.finished, False)
            self.assertEquals(len(pp.processes), pp.max)
            self.assertEquals(len(pp._finishCallbacks), pp.max)

            [child.callRemote(Second) for child in pp.processes]
            return defer.DeferredList(d)

        return pp.start().addCallback(_checks).addCallback(lambda _: pp.stop())
コード例 #9
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    def test_recycling(self):
        """
        Test that after a given number of calls subprocesses are
        recycled.
        """
        MAX = 1
        MIN = 1
        RECYCLE_AFTER = 1
        pp = pool.ProcessPool(ampChild=PidChild,
                              min=MIN,
                              max=MAX,
                              recycleAfter=RECYCLE_AFTER)
        self.addCleanup(pp.stop)

        def _checks(_):
            self.assertEquals(pp.started, True)
            self.assertEquals(pp.finished, False)
            self.assertEquals(len(pp.processes), pp.min)
            self.assertEquals(len(pp._finishCallbacks), pp.min)
            return pp.doWork(Pid).addCallback(lambda response: response['pid'])

        def _checks2(pid):
            return pp.doWork(Pid).addCallback(
                lambda response: response['pid']).addCallback(
                    self.assertNotEquals, pid)

        d = pp.start()
        d.addCallback(_checks)
        d.addCallback(_checks2)
        return d
コード例 #10
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    def test_supplyChildArgs(self):
        """Ensure that arguments for the child constructor are passed in."""
        pp = pool.ProcessPool(Writer, ampChildArgs=['body'], min=0)

        def _check(result):
            return pp.doWork(Write).addCallback(self.assertEquals,
                                                {'response': b'body'})

        return pp.start().addCallback(_check).addCallback(lambda _: pp.stop())
コード例 #11
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    def processTimeoutTest(self, timeout):
        pp = pool.ProcessPool(WaitingChild, min=1, max=1)

        def _work(_):
            d = pp.callRemote(First, data=b"ciao", _timeout=timeout)
            self.assertFailure(d, error.ProcessTerminated)
            return d

        return pp.start().addCallback(_work).addCallback(lambda _: pp.stop())
コード例 #12
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    def test_processDeadline(self):
        pp = pool.ProcessPool(WaitingChild, min=1, max=1)

        def _work(_):
            d = pp.callRemote(First, data=b"ciao", _deadline=reactor.seconds())
            self.assertFailure(d, error.ProcessTerminated)
            return d

        return pp.start().addCallback(_work).addCallback(lambda _: pp.stop())
コード例 #13
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    def test_processBeforeDeadline(self):
        pp = pool.ProcessPool(PidChild, min=1, max=1)

        def _work(_):
            d = pp.callRemote(Pid, _deadline=reactor.seconds() + 10)
            d.addCallback(lambda result: self.assertNotEqual(result['pid'], 0))
            return d

        return pp.start().addCallback(_work).addCallback(lambda _: pp.stop())
コード例 #14
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 def checkPool(_):
     pp = pool.ProcessPool(starter=main.ProcessStarter(
         childReactor=SECOND, packages=("twisted", "ampoule")),
                           ampChild=ReactorChild,
                           min=MIN,
                           max=MAX)
     pp.start()
     return (pp.doWork(Reactor).addCallback(self.assertEquals, {
         'classname': b"PollReactor"
     }).addCallback(lambda _: pp.stop()))
コード例 #15
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    def test_growingToMaxAndShrinking(self):
        """
        Test that the pool grows but after 'idle' time the number of
        processes goes back to the minimum.
        """

        MAX = 5
        MIN = 1
        IDLE = 1
        pp = pool.ProcessPool(ampChild=WaitingChild,
                              min=MIN,
                              max=MAX,
                              maxIdle=IDLE)

        def _checks(_):
            self.assertEquals(pp.started, True)
            self.assertEquals(pp.finished, False)
            self.assertEquals(len(pp.processes), pp.min)
            self.assertEquals(len(pp._finishCallbacks), pp.min)

            D = b"DATA"
            d = [pp.doWork(First, data=D) for x in range(MAX)]

            self.assertEquals(pp.started, True)
            self.assertEquals(pp.finished, False)
            self.assertEquals(len(pp.processes), pp.max)
            self.assertEquals(len(pp._finishCallbacks), pp.max)

            [child.callRemote(Second) for child in pp.processes]
            return defer.DeferredList(d).addCallback(_realChecks)

        def _realChecks(_):
            from twisted.internet import reactor
            d = defer.Deferred()

            def _cb():
                def __(_):
                    try:
                        self.assertEquals(pp.started, True)
                        self.assertEquals(pp.finished, False)
                        self.assertEquals(len(pp.processes), pp.min)
                        self.assertEquals(len(pp._finishCallbacks), pp.min)
                        d.callback(None)
                    except Exception as e:
                        d.errback(e)

                return pp._pruneProcesses().addCallback(__)

            # just to be shure we are called after the pruner
            pp.looping.stop()  # stop the looping, we don't want it to
            # this right here
            reactor.callLater(IDLE, _cb)
            return d

        return pp.start().addCallback(_checks).addCallback(lambda _: pp.stop())
コード例 #16
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ファイル: basic.py プロジェクト: zhangy1124/ampoule
 def _run():
     pp = pool.ProcessPool(child.AMPChild, recycleAfter=5000)
     pp.min = 1
     pp.max = 5
     yield pp.start()
     t = time.time()
     REPEATS = 40000
     l = [pp.doWork(Ping) for x in range(REPEATS)]
     yield defer.DeferredList(l)
     print(REPEATS / (time.time() - t))
     yield pp.stop()
     reactor.stop()
コード例 #17
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    def test_processGlobalTimeout(self):
        """
        Test that a call that doesn't finish within the given global
        timeout time is correctly handled.
        """
        pp = pool.ProcessPool(WaitingChild, min=1, max=1, timeout=1)

        def _work(_):
            d = pp.callRemote(First, data=b"ciao")
            self.assertFailure(d, error.ProcessTerminated)
            return d

        return pp.start().addCallback(_work).addCallback(lambda _: pp.stop())
コード例 #18
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 def __init__(self, job_source, dbuser, logger=None, error_utility=None):
     env = {'PATH': os.environ['PATH']}
     if 'LPCONFIG' in os.environ:
         env['LPCONFIG'] = os.environ['LPCONFIG']
     env['PYTHONPATH'] = os.pathsep.join(sys.path)
     starter = main.ProcessStarter(env=env)
     super(TwistedJobRunner, self).__init__(logger, error_utility)
     self.job_source = job_source
     self.import_name = '%s.%s' % (
         removeSecurityProxy(job_source).__module__, job_source.__name__)
     self.pool = pool.ProcessPool(
         JobRunnerProcess,
         ampChildArgs=[self.import_name, str(dbuser)],
         starter=starter,
         min=0,
         timeout_signal=SIGHUP)
コード例 #19
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    def test_childRestart(self):
        """
        Test that a failing child process is immediately restarted.
        """
        pp = pool.ProcessPool(ampChild=BadChild, min=1)
        STRING = b"DATA"

        def _checks(_):
            d = next(iter(pp._finishCallbacks.values()))
            pp.doWork(Die).addErrback(lambda _: None)
            return d.addBoth(_checksAgain)

        def _checksAgain(_):
            return pp.doWork(commands.Echo, data=STRING).addCallback(
                lambda result: self.assertEquals(result['response'], STRING))

        return pp.start().addCallback(_checks).addCallback(lambda _: pp.stop())
コード例 #20
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    def test_commandsWithoutResponse(self):
        """
        Test that if we send a command without a required answer we
        actually don't have any problems.
        """
        DATA = b"hello"
        pp = pool.ProcessPool(ampChild=NoResponseChild, min=1, max=1)

        def _check(_):
            return pp.doWork(GetResponse).addCallback(self.assertEquals,
                                                      {"response": DATA})

        def _work(_):
            return pp.doWork(NoResponse, arg=DATA)

        return pp.start().addCallback(_work).addCallback(_check).addCallback(
            lambda _: pp.stop())
コード例 #21
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    def test_processTimeoutSignal(self):
        """
        Test that a call that doesn't finish within the given timeout
        time is correctly handled.
        """
        pp = pool.ProcessPool(WaitingChild,
                              min=1,
                              max=1,
                              timeout_signal=SIGHUP)

        def _work(_):
            d = pp.callRemote(First, data=b"ciao", _timeout=1)
            d.addCallback(lambda d: self.fail())
            text = 'signal %d' % SIGHUP
            d.addErrback(lambda f: self.assertIn(text, str(f.value)))
            return d

        return pp.start().addCallback(_work).addCallback(lambda _: pp.stop())
コード例 #22
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    def test_processRestartAfterTimeout(self):
        """
        Test that a call that times out doesn't cause all subsequent requests
        to fail
        """
        pp = pool.ProcessPool(TimingOutChild, min=1, max=1, timeout=1)

        def _work(_):
            d1 = pp.callRemote(HangForever)
            d2 = pp.callRemote(Ping, data=b"hello")

            self.assertFailure(d1, error.ProcessTerminated)

            d2.addCallback(lambda result: self.assertEqual(
                result, {"response": b"hello"}))

            return defer.DeferredList([d1, d2])

        return pp.start().addCallback(_work).addCallback(lambda _: pp.stop())
コード例 #23
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ファイル: test_process.py プロジェクト: zendesk/ampoule
    def test_parentProtocolChange(self):
        """
        Test that the father can use an AMP protocol too.
        """
        DATA = b"CIAO"
        APPEND = b"123"

        class Parent(amp.AMP):
            def pong(self, data):
                return {'response': DATA+APPEND}
            Pong.responder(pong)

        pp = pool.ProcessPool(ampChild=Child, ampParent=Parent)
        def _checks(_):
            return pp.doWork(Ping, data=DATA
                       ).addCallback(lambda response:
                            self.assertEquals(response['response'], DATA+APPEND)
                       )

        return pp.start().addCallback(_checks).addCallback(lambda _: pp.stop())
コード例 #24
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    def test_checkStateInPool(self):
        """
        Test that busy and ready lists are correctly maintained.
        """
        pp = pool.ProcessPool(ampChild=WaitingChild)

        DATA = b"foobar"

        def _checks(_):
            d = pp.callRemote(First, data=DATA)
            self.assertEquals(pp.started, True)
            self.assertEquals(pp.finished, False)
            self.assertEquals(len(pp.processes), pp.min)
            self.assertEquals(len(pp._finishCallbacks), pp.min)
            self.assertEquals(len(pp.ready), pp.min - 1)
            self.assertEquals(len(pp.busy), 1)
            child = pp.busy.pop()
            pp.busy.add(child)
            child.callRemote(Second)
            return d

        return pp.start().addCallback(_checks).addCallback(lambda _: pp.stop())
コード例 #25
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    def setUp(self):
        """
        Setup the proxy service and the client connection to the proxy
        service in order to run call through them.

        Inspiration comes from twisted.test.test_amp
        """
        self.pp = pool.ProcessPool()
        self.svc = service.AMPouleService(self.pp, child.AMPChild, 0, "")
        self.svc.startService()
        self.proxy_port = self.svc.server.getHost().port
        self.clientFactory = ClientFactory()
        self.clientFactory.protocol = ClientAMP
        d = self.clientFactory.onMade = defer.Deferred()
        self.clientConn = reactor.connectTCP("127.0.0.1", self.proxy_port,
                                             self.clientFactory)
        self.addCleanup(self.clientConn.disconnect)
        self.addCleanup(self.svc.stopService)

        def setClient(_):
            self.client = self.clientFactory.theProto

        return d.addCallback(setClient)
コード例 #26
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ファイル: __init__.py プロジェクト: orf/FindMeChicken-Twisted
class JustEatSource(ChickenSource):
    NAME = "JustEat"
    MENUS = True
    NEEDS_POSTCODE = True

    POOL = pool.ProcessPool(FetchChickenPlace, min=8, max=15)
    MENU_POOL = pool.ProcessPool(FetchChickenMenu, min=4, max=4)

    @defer.inlineCallbacks
    def Setup(self):
        yield self.POOL.start()
        reactor.addSystemEventTrigger("before", "shutdown", self.POOL.stop)
        reactor.addSystemEventTrigger("before", "shutdown",
                                      self.MENU_POOL.stop)
        defer.returnValue(None)

    @cache.CacheResult("menu")
    @defer.inlineCallbacks
    def GetPlaceMenu(self, place_id):
        '''
        I take an ID and I fetch the menu from the website. Go me!
        '''
        result = yield self.MENU_POOL.doWork(FetchChickenMenuCommand,
                                             id=place_id)
        defer.returnValue(result["response"])

    @cache.CacheResult("places")
    @defer.inlineCallbacks
    def GetAvailablePlaces(self, location):
        log.msg("Starting JustEat")

        returner = {}
        log.msg("Opening just eat page")
        just_eat_page = yield getPage(BASE_URL.format(location.postcode),
                                      agent=IOS_USER_AGENT)

        parser = get_parser(just_eat_page)
        open_places_tag = parser.find(id="OpenRestaurants")
        if open_places_tag is None:
            defer.returnValue({})

        page_places = {}
        for place_root_tag in open_places_tag.findAll("li"):

            place = {"title": place_root_tag.find("h2").text.strip()}

            types_of_food = set([
                x.strip()
                for x in place_root_tag.find("p",
                                             attrs={
                                                 "class": "cuisineTypeList"
                                             }).text.lower().split(",")
            ])

            if not ALLOWED_FOOD_TYPES.intersection(types_of_food):
                print "Skipping place %s" % place["title"]
                continue

            place["identifier"] = place_root_tag.find("a")["href"]
            page_places[place_root_tag["data-restaurantid"]] = place

        if not page_places:
            defer.returnValue({})

        places_from_db, places_with_no_chicken = yield db.getPlacesFromDatabase(
            self.NAME, page_places.keys())
        returner.update(places_from_db)

        places_not_in_db = [
            i for i in set(page_places.keys()).difference(
                set([x for x in places_from_db.keys()]))
            if not i in places_with_no_chicken
        ]
        print len(page_places.keys())
        print "%s places not in db" % len(places_not_in_db)
        if places_not_in_db:
            futures = [
                self.POOL.doWork(FetchChickenPlaceCommand,
                                 id=id,
                                 info=json.dumps(page_places[id]))
                for id in places_not_in_db
            ]
            results = yield defer.DeferredList(futures)

            to_add = {}

            for success, result in results:
                if success:
                    if result["has_chicken"]:
                        place_dict = json.loads(result["place"])
                        place_dict["Location"] = GeoPoint(
                            *place_dict["Location"])
                        place = ChickenPlace(**place_dict)
                        returner.update({result["id"]: place})
                        to_add[result["id"]] = place
                    else:
                        to_add[result["id"]] = None

            if len(to_add):
                db.addPlacesToDatabase(self.NAME, to_add)

        defer.returnValue(returner)
コード例 #27
0
ファイル: main.py プロジェクト: payingattention/aether-public
def main():

    from InputOutput import interprocessChildProt
    from ampoule import pool
    from InputOutput import interprocessParentProt
    from ampoule import main as ampouleMain

    procStarter = ampouleMain.ProcessStarter(
        bootstrap=interprocessChildProt.childBootstrap)
    global pp
    pp = pool.ProcessPool(interprocessChildProt.GUIProcessProtocol,
                          ampParent=interprocessParentProt.MainProcessProtocol,
                          starter=procStarter,
                          recycleAfter=0,
                          min=1,
                          max=1)

    pp.start()
    pp.ampParent.processPool = pp  # Self referential much?

    Demeter.committer.receiveInterprocessProtocolInstance(pp)

    def checkForUpdates():
        # One catch, any result available out of this will only be visible after next boot of the app.
        d = getPage('http://192.30.33.227')

        def processReceivedVersion(reply):

            if int(reply[:3]) > globals.appVersion:
                globals.updateAvailable = True
                print(
                    'There is an update available, local version is %d and gathered version is %s.'
                    % (globals.appVersion, reply))
            else:
                globals.updateAvailable = False
                print('There is no update available')
            globals.setUpdateAvailable(globals.updateAvailable)

        d.addCallback(processReceivedVersion)

    checkForUpdates()

    d = Demeter.checkUPNPStatus(2000)

    def maybeCommit():
        thirtySecondsAgo = datetime.datetime.utcnow() - datetime.timedelta(
            seconds=10)  # FIXME make it 30 in live.
        if Demeter.committer.lastCommit < thirtySecondsAgo and Demeter.committer.commitInProgress is False:
            print('Commit loop decided to commit.')
            Demeter.committer.commit()

    persephone = LoopingCall(maybeCommit)
    persephone.start(10)  # this should be 60 under normal circumstances.
    marduk = LoopingCall(eventLoop.marduk,
                         aetherProtocol.aetherProtocolFactoryInstance,
                         Demeter.committer)
    marduk.start(60)
    #FIXME#marduk.start(60) # 5 minutes normally, which is 300

    listenerEndpoint = SSL4ServerEndpoint(reactor, aetherListeningPort,
                                          globals.AetherContextFactory())
    listenerEndpoint.listen(aetherProtocol.aetherProtocolFactoryInstance)

    # def checksan():
    #     d = pp.callRemote(interprocessChildProt.checkSanity)
    #     d.addCallback(print)
    # def bootstuff():
    #     d = pp.callRemote(interprocessChildProt.bootGUI)
    #     d.addCallback(print)
    # reactor.callLater(2, bootstuff)
    # reactor.callLater(20, checksan)
    #reactor.callLater(5, aetherProtocol.connectWithIP,'151.236.11.192', 39994) #192 ends
    reactor.run()