# Copyright (c) Twisted Matrix Laboratories. # See LICENSE for details. """ Test cases for twisted.protocols package. """ from twisted.internet import address, defer, protocol, reactor from twisted.protocols import portforward, wire from twisted.python.compat import iterbytes from twisted.test import proto_helpers from twisted.trial import unittest class WireTests(unittest.TestCase): """ Test wire protocols. """ def test_echo(self): """ Test wire.Echo protocol: send some data and check it send it back. """ t = proto_helpers.StringTransport() a = wire.Echo() a.makeConnection(t) a.dataReceived(b"hello") a.dataReceived(b"world") a.dataReceived(b"how") a.dataReceived(b"are") a.dataReceived(b"you") self.assertEqual(t.value(), b"helloworldhowareyou") def test_who(self): """ Test wire.Who protocol. """ t = proto_helpers.StringTransport() a = wire.Who() a.makeConnection(t) self.assertEqual(t.value(), b"root\r\n") def test_QOTD(self): """ Test wire.QOTD protocol. """ t = proto_helpers.StringTransport() a = wire.QOTD() a.makeConnection(t) self.assertEqual(t.value(), b"An apple a day keeps the doctor away.\r\n") def test_discard(self): """ Test wire.Discard protocol. """ t = proto_helpers.StringTransport() a = wire.Discard() a.makeConnection(t) a.dataReceived(b"hello") a.dataReceived(b"world") a.dataReceived(b"how") a.dataReceived(b"are") a.dataReceived(b"you") self.assertEqual(t.value(), b"") class TestableProxyClientFactory(portforward.ProxyClientFactory): """ Test proxy client factory that keeps the last created protocol instance. @ivar protoInstance: the last instance of the protocol. @type protoInstance: L{portforward.ProxyClient} """ def buildProtocol(self, addr): """ Create the protocol instance and keeps track of it. """ proto = portforward.ProxyClientFactory.buildProtocol(self, addr) self.protoInstance = proto return proto class TestableProxyFactory(portforward.ProxyFactory): """ Test proxy factory that keeps the last created protocol instance. @ivar protoInstance: the last instance of the protocol. @type protoInstance: L{portforward.ProxyServer} @ivar clientFactoryInstance: client factory used by C{protoInstance} to create forward connections. @type clientFactoryInstance: L{TestableProxyClientFactory} """ def buildProtocol(self, addr): """ Create the protocol instance, keeps track of it, and makes it use C{clientFactoryInstance} as client factory. """ proto = portforward.ProxyFactory.buildProtocol(self, addr) self.clientFactoryInstance = TestableProxyClientFactory() # Force the use of this specific instance proto.clientProtocolFactory = lambda: self.clientFactoryInstance self.protoInstance = proto return proto class PortforwardingTests(unittest.TestCase): """ Test port forwarding. """ def setUp(self): self.serverProtocol = wire.Echo() self.clientProtocol = protocol.Protocol() self.openPorts = [] def tearDown(self): try: self.proxyServerFactory.protoInstance.transport.loseConnection() except AttributeError: pass try: pi = self.proxyServerFactory.clientFactoryInstance.protoInstance pi.transport.loseConnection() except AttributeError: pass try: self.clientProtocol.transport.loseConnection() except AttributeError: pass try: self.serverProtocol.transport.loseConnection() except AttributeError: pass return defer.gatherResults( [defer.maybeDeferred(p.stopListening) for p in self.openPorts] ) def test_portforward(self): """ Test port forwarding through Echo protocol. """ realServerFactory = protocol.ServerFactory() realServerFactory.protocol = lambda: self.serverProtocol realServerPort = reactor.listenTCP(0, realServerFactory, interface="127.0.0.1") self.openPorts.append(realServerPort) self.proxyServerFactory = TestableProxyFactory( "127.0.0.1", realServerPort.getHost().port ) proxyServerPort = reactor.listenTCP( 0, self.proxyServerFactory, interface="127.0.0.1" ) self.openPorts.append(proxyServerPort) nBytes = 1000 received = [] d = defer.Deferred() def testDataReceived(data): received.extend(iterbytes(data)) if len(received) >= nBytes: self.assertEqual(b"".join(received), b"x" * nBytes) d.callback(None) self.clientProtocol.dataReceived = testDataReceived def testConnectionMade(): self.clientProtocol.transport.write(b"x" * nBytes) self.clientProtocol.connectionMade = testConnectionMade clientFactory = protocol.ClientFactory() clientFactory.protocol = lambda: self.clientProtocol reactor.connectTCP("127.0.0.1", proxyServerPort.getHost().port, clientFactory) return d def test_registerProducers(self): """ The proxy client registers itself as a producer of the proxy server and vice versa. """ # create a ProxyServer instance addr = address.IPv4Address("TCP", "127.0.0.1", 0) server = portforward.ProxyFactory("127.0.0.1", 0).buildProtocol(addr) # set the reactor for this test reactor = proto_helpers.MemoryReactor() server.reactor = reactor # make the connection serverTransport = proto_helpers.StringTransport() server.makeConnection(serverTransport) # check that the ProxyClientFactory is connecting to the backend self.assertEqual(len(reactor.tcpClients), 1) # get the factory instance and check it's the one we expect host, port, clientFactory, timeout, _ = reactor.tcpClients[0] self.assertIsInstance(clientFactory, portforward.ProxyClientFactory) # Connect it client = clientFactory.buildProtocol(addr) clientTransport = proto_helpers.StringTransport() client.makeConnection(clientTransport) # check that the producers are registered self.assertIs(clientTransport.producer, serverTransport) self.assertIs(serverTransport.producer, clientTransport) # check the streaming attribute in both transports self.assertTrue(clientTransport.streaming) self.assertTrue(serverTransport.streaming) class StringTransportTests(unittest.TestCase): """ Test L{proto_helpers.StringTransport} helper behaviour. """ def test_noUnicode(self): """ Test that L{proto_helpers.StringTransport} doesn't accept unicode data. """ s = proto_helpers.StringTransport() self.assertRaises(TypeError, s.write, "foo")