from twisted.trial import unittest from twisted.internet import defer, reactor from twisted.python import log from foolscap import Tub, Referenceable from foolscap.eventual import flushEventualQueue from twisted.application import service from allmydata.introducer import IntroducerClient, Introducer from allmydata.util import idlib, testutil class MyNode(Referenceable): pass class LoggingMultiService(service.MultiService): def log(self, msg): pass class TestIntroducer(unittest.TestCase, testutil.PollMixin): def setUp(self): self.parent = LoggingMultiService() self.parent.startService() def tearDown(self): log.msg("TestIntroducer.tearDown") d = defer.succeed(None) d.addCallback(lambda res: self.parent.stopService()) d.addCallback(flushEventualQueue) return d def test_create(self): ic = IntroducerClient(None, "introducer", "myfurl") def _ignore(nodeid, rref): pass ic.notify_on_new_connection(_ignore) def test_listen(self): i = Introducer() i.setServiceParent(self.parent) def test_system(self): self.central_tub = tub = Tub() #tub.setOption("logLocalFailures", True) #tub.setOption("logRemoteFailures", True) tub.setServiceParent(self.parent) l = tub.listenOn("tcp:0") portnum = l.getPortnum() tub.setLocation("localhost:%d" % portnum) i = Introducer() i.setServiceParent(self.parent) iurl = tub.registerReference(i) NUMCLIENTS = 5 self.waiting_for_connections = NUMCLIENTS*NUMCLIENTS d = self._done_counting = defer.Deferred() def _count(nodeid, rref): log.msg("NEW CONNECTION! %s %s" % (idlib.b2a(nodeid), rref)) self.waiting_for_connections -= 1 if self.waiting_for_connections == 0: self._done_counting.callback("done!") clients = [] tubs = {} for i in range(NUMCLIENTS): tub = Tub() #tub.setOption("logLocalFailures", True) #tub.setOption("logRemoteFailures", True) tub.setServiceParent(self.parent) l = tub.listenOn("tcp:0") portnum = l.getPortnum() tub.setLocation("localhost:%d" % portnum) n = MyNode() node_furl = tub.registerReference(n) c = IntroducerClient(tub, iurl, node_furl) c.notify_on_new_connection(_count) c.setServiceParent(self.parent) clients.append(c) tubs[c] = tub # d will fire once everybody is connected def _check(res): log.msg("doing _check") for c in clients: self.failUnlessEqual(len(c.connections), NUMCLIENTS) # now disconnect somebody's connection to someone else self.waiting_for_connections = 2 d2 = self._done_counting = defer.Deferred() origin_c = clients[0] # find a target that is not themselves for nodeid,rref in origin_c.connections.items(): if idlib.b2a(nodeid) != tubs[origin_c].tubID: victim = rref break log.msg(" disconnecting %s->%s" % (tubs[origin_c].tubID, victim)) victim.tracker.broker.transport.loseConnection() log.msg(" did disconnect") return d2 d.addCallback(_check) def _check_again(res): log.msg("doing _check_again") for c in clients: self.failUnlessEqual(len(c.connections), NUMCLIENTS) # now disconnect somebody's connection to themselves. This will # only result in one new connection, since it is a loopback. self.waiting_for_connections = 1 d2 = self._done_counting = defer.Deferred() origin_c = clients[0] # find a target that *is* themselves for nodeid,rref in origin_c.connections.items(): if idlib.b2a(nodeid) == tubs[origin_c].tubID: victim = rref break log.msg(" disconnecting %s->%s" % (tubs[origin_c].tubID, victim)) victim.tracker.broker.transport.loseConnection() log.msg(" did disconnect") return d2 d.addCallback(_check_again) def _check_again2(res): log.msg("doing _check_again2") for c in clients: self.failUnlessEqual(len(c.connections), NUMCLIENTS) # now disconnect somebody's connection to themselves d.addCallback(_check_again2) return d test_system.timeout = 2400 def stall(self, res, timeout): d = defer.Deferred() reactor.callLater(timeout, d.callback, res) return d def test_system_this_one_breaks(self): # this uses a single Tub, which has a strong effect on the # failingness tub = Tub() tub.setOption("logLocalFailures", True) tub.setOption("logRemoteFailures", True) tub.setServiceParent(self.parent) l = tub.listenOn("tcp:0") portnum = l.getPortnum() tub.setLocation("localhost:%d" % portnum) i = Introducer() i.setServiceParent(self.parent) iurl = tub.registerReference(i) clients = [] for i in range(5): n = MyNode() node_furl = tub.registerReference(n) c = IntroducerClient(tub, iurl, node_furl) c.setServiceParent(self.parent) clients.append(c) # time passes.. d = defer.Deferred() def _check(res): log.msg("doing _check") self.failUnlessEqual(len(clients[0].connections), 5) d.addCallback(_check) reactor.callLater(2, d.callback, None) return d del test_system_this_one_breaks def test_system_this_one_breaks_too(self): # this one shuts down so quickly that it fails in a different way self.central_tub = tub = Tub() tub.setOption("logLocalFailures", True) tub.setOption("logRemoteFailures", True) tub.setServiceParent(self.parent) l = tub.listenOn("tcp:0") portnum = l.getPortnum() tub.setLocation("localhost:%d" % portnum) i = Introducer() i.setServiceParent(self.parent) iurl = tub.registerReference(i) clients = [] for i in range(5): tub = Tub() tub.setOption("logLocalFailures", True) tub.setOption("logRemoteFailures", True) tub.setServiceParent(self.parent) l = tub.listenOn("tcp:0") portnum = l.getPortnum() tub.setLocation("localhost:%d" % portnum) n = MyNode() node_furl = tub.registerReference(n) c = IntroducerClient(tub, iurl, node_furl) c.setServiceParent(self.parent) clients.append(c) # time passes.. d = defer.Deferred() reactor.callLater(0.01, d.callback, None) def _check(res): log.msg("doing _check") self.fail("BOOM") for c in clients: self.failUnlessEqual(len(c.connections), 5) c.connections.values()[0].tracker.broker.transport.loseConnection() return self.stall(None, 2) d.addCallback(_check) def _check_again(res): log.msg("doing _check_again") for c in clients: self.failUnlessEqual(len(c.connections), 5) d.addCallback(_check_again) return d del test_system_this_one_breaks_too