import cStringIO, threading, Queue, time from netlib import tcp, certutils import tutils class ServerThread(threading.Thread): def __init__(self, server): self.server = server threading.Thread.__init__(self) def run(self): self.server.serve_forever() def shutdown(self): self.server.shutdown() class ServerTestBase: @classmethod def setupAll(cls): cls.q = Queue.Queue() s = cls.makeserver() cls.port = s.port cls.server = ServerThread(s) cls.server.start() @classmethod def teardownAll(cls): cls.server.shutdown() class SNIHandler(tcp.BaseHandler): sni = None def handle_sni(self, connection): self.sni = connection.get_servername() def handle(self): self.wfile.write(self.sni) self.wfile.flush() class EchoHandler(tcp.BaseHandler): sni = None def handle_sni(self, connection): self.sni = connection.get_servername() def handle(self): v = self.rfile.readline() if v.startswith("echo"): self.wfile.write(v) elif v.startswith("error"): raise ValueError("Testing an error.") self.wfile.flush() class DisconnectHandler(tcp.BaseHandler): def handle(self): self.close() class HangHandler(tcp.BaseHandler): def handle(self): while 1: time.sleep(1) class TServer(tcp.TCPServer): def __init__(self, addr, ssl, q, handler, v3_only=False): tcp.TCPServer.__init__(self, addr) self.ssl, self.q = ssl, q self.v3_only = v3_only self.handler = handler def handle_connection(self, request, client_address): h = self.handler(request, client_address, self) if self.ssl: if self.v3_only: method = tcp.SSLv3_METHOD options = tcp.OP_NO_SSLv2|tcp.OP_NO_TLSv1 else: method = tcp.SSLv23_METHOD options = None h.convert_to_ssl( tutils.test_data.path("data/server.crt"), tutils.test_data.path("data/server.key"), method = method, options = options, ) h.handle() h.finish() def handle_error(self, request, client_address): s = cStringIO.StringIO() tcp.TCPServer.handle_error(self, request, client_address, s) self.q.put(s.getvalue()) class TestServer(ServerTestBase): @classmethod def makeserver(cls): return TServer(("127.0.0.1", 0), False, cls.q, EchoHandler) def test_echo(self): testval = "echo!\n" c = tcp.TCPClient("127.0.0.1", self.port) c.connect() c.wfile.write(testval) c.wfile.flush() assert c.rfile.readline() == testval class TestDisconnect(ServerTestBase): @classmethod def makeserver(cls): return TServer(("127.0.0.1", 0), False, cls.q, EchoHandler) def test_echo(self): testval = "echo!\n" c = tcp.TCPClient("127.0.0.1", self.port) c.connect() c.wfile.write(testval) c.wfile.flush() assert c.rfile.readline() == testval class TestServerSSL(ServerTestBase): @classmethod def makeserver(cls): return TServer(("127.0.0.1", 0), True, cls.q, EchoHandler) def test_echo(self): c = tcp.TCPClient("127.0.0.1", self.port) c.connect() c.convert_to_ssl(sni="foo.com") testval = "echo!\n" c.wfile.write(testval) c.wfile.flush() assert c.rfile.readline() == testval def test_get_remote_cert(self): assert certutils.get_remote_cert("127.0.0.1", self.port, None).digest("sha1") class TestSSLv3Only(ServerTestBase): @classmethod def makeserver(cls): return TServer(("127.0.0.1", 0), True, cls.q, EchoHandler, True) def test_failure(self): c = tcp.TCPClient("127.0.0.1", self.port) c.connect() tutils.raises(tcp.NetLibError, c.convert_to_ssl, sni="foo.com", method=tcp.TLSv1_METHOD) class TestSNI(ServerTestBase): @classmethod def makeserver(cls): return TServer(("127.0.0.1", 0), True, cls.q, SNIHandler) def test_echo(self): c = tcp.TCPClient("127.0.0.1", self.port) c.connect() c.convert_to_ssl(sni="foo.com") assert c.rfile.readline() == "foo.com" class TestSSLDisconnect(ServerTestBase): @classmethod def makeserver(cls): return TServer(("127.0.0.1", 0), True, cls.q, DisconnectHandler) def test_echo(self): c = tcp.TCPClient("127.0.0.1", self.port) c.connect() c.convert_to_ssl() # Excercise SSL.ZeroReturnError c.rfile.read(10) c.close() tutils.raises(tcp.NetLibDisconnect, c.wfile.write, "foo") tutils.raises(Queue.Empty, self.q.get_nowait) class TestDisconnect(ServerTestBase): @classmethod def makeserver(cls): return TServer(("127.0.0.1", 0), False, cls.q, DisconnectHandler) def test_echo(self): c = tcp.TCPClient("127.0.0.1", self.port) c.connect() # Excercise SSL.ZeroReturnError c.rfile.read(10) c.wfile.write("foo") c.close() c.close() class TestTimeOut(ServerTestBase): @classmethod def makeserver(cls): return TServer(("127.0.0.1", 0), False, cls.q, HangHandler) def test_timeout_client(self): c = tcp.TCPClient("127.0.0.1", self.port) c.connect() c.settimeout(0.1) tutils.raises(tcp.NetLibTimeout, c.rfile.read, 10) class TestSSLTimeOut(ServerTestBase): @classmethod def makeserver(cls): return TServer(("127.0.0.1", 0), True, cls.q, HangHandler) def test_timeout_client(self): c = tcp.TCPClient("127.0.0.1", self.port) c.connect() c.convert_to_ssl() c.settimeout(0.1) tutils.raises(tcp.NetLibTimeout, c.rfile.read, 10) class TestTCPClient: def test_conerr(self): c = tcp.TCPClient("127.0.0.1", 0) tutils.raises(tcp.NetLibError, c.connect) class TestFileLike: def test_wrap(self): s = cStringIO.StringIO("foobar\nfoobar") s.flush() s = tcp.Reader(s) assert s.readline() == "foobar\n" assert s.readline() == "foobar" # Test __getattr__ assert s.isatty def test_limit(self): s = cStringIO.StringIO("foobar\nfoobar") s = tcp.Reader(s) assert s.readline(3) == "foo" def test_limitless(self): s = cStringIO.StringIO("f"*(50*1024)) s = tcp.Reader(s) ret = s.read(-1) assert len(ret) == 50 * 1024 def test_readlog(self): s = cStringIO.StringIO("foobar\nfoobar") s = tcp.Reader(s) assert not s.is_logging() s.start_log() assert s.is_logging() s.readline() assert s.get_log() == "foobar\n" s.read(1) assert s.get_log() == "foobar\nf" s.start_log() assert s.get_log() == "" s.read(1) assert s.get_log() == "o" s.stop_log() tutils.raises(ValueError, s.get_log) def test_writelog(self): s = cStringIO.StringIO() s = tcp.Writer(s) s.start_log() assert s.is_logging() s.write("x") assert s.get_log() == "x" s.write("x") assert s.get_log() == "xx"