#!/usr/bin/env python # -*- coding: utf-8 -*- # # Licensed to the Apache Software Foundation (ASF) under one # or more contributor license agreements. See the NOTICE file # distributed with this work for additional information # regarding copyright ownership. The ASF licenses this file # to you under the Apache License, Version 2.0 (the # "License"); you may not use this file except in compliance # with the License. You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, # software distributed under the License is distributed on an # "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY # KIND, either express or implied. See the License for the # specific language governing permissions and limitations # under the License. # import os import sys import time import unittest from optparse import OptionParser from util import local_libpath sys.path.insert(0, local_libpath()) from thrift.protocol import TProtocol, TProtocolDecorator SCRIPT_DIR = os.path.abspath(os.path.dirname(__file__)) class AbstractTest(unittest.TestCase): def setUp(self): if options.trans == 'http': uri = '{0}://{1}:{2}{3}'.format(('https' if options.ssl else 'http'), options.host, options.port, (options.http_path if options.http_path else '/')) if options.ssl: __cafile = os.path.join(os.path.dirname(SCRIPT_DIR), "keys", "CA.pem") __certfile = os.path.join(os.path.dirname(SCRIPT_DIR), "keys", "client.crt") __keyfile = os.path.join(os.path.dirname(SCRIPT_DIR), "keys", "client.key") self.transport = THttpClient.THttpClient(uri, cafile=__cafile, cert_file=__certfile, key_file=__keyfile) else: self.transport = THttpClient.THttpClient(uri) else: if options.ssl: from thrift.transport import TSSLSocket socket = TSSLSocket.TSSLSocket(options.host, options.port, validate=False) else: socket = TSocket.TSocket(options.host, options.port, options.domain_socket) # frame or buffer depending upon args self.transport = TTransport.TBufferedTransport(socket) if options.trans == 'framed': self.transport = TTransport.TFramedTransport(socket) elif options.trans == 'buffered': self.transport = TTransport.TBufferedTransport(socket) elif options.trans == '': raise AssertionError('Unknown --transport option: %s' % options.trans) if options.zlib: self.transport = TZlibTransport.TZlibTransport(self.transport, 9) self.transport.open() protocol = self.get_protocol(self.transport) self.client = ThriftTest.Client(protocol) # for multiplexed services: protocol2 = self.get_protocol2(self.transport) self.client2 = SecondService.Client(protocol2) if protocol2 is not None else None def tearDown(self): self.transport.close() def testVoid(self): print('testVoid') self.client.testVoid() def testString(self): print('testString') self.assertEqual(self.client.testString('Python' * 20), 'Python' * 20) self.assertEqual(self.client.testString(''), '') s1 = u'\b\t\n/\\\\\r{}:パイソン"' s2 = u"""Afrikaans, Alemannisch, Aragonés, العربية, مصرى, Asturianu, Aymar aru, Azərbaycan, Башҡорт, Boarisch, Žemaitėška, Беларуская, Беларуская (тарашкевіца), Български, Bamanankan, বাংলা, Brezhoneg, Bosanski, Català, Mìng-dĕ̤ng-ngṳ̄, Нохчийн, Cebuano, ᏣᎳᎩ, Česky, Словѣ́ньскъ / ⰔⰎⰑⰂⰡⰐⰠⰔⰍⰟ, Чӑвашла, Cymraeg, Dansk, Zazaki, ދިވެހިބަސް, Ελληνικά, Emiliàn e rumagnòl, English, Esperanto, Español, Eesti, Euskara, فارسی, Suomi, Võro, Føroyskt, Français, Arpetan, Furlan, Frysk, Gaeilge, 贛語, Gàidhlig, Galego, Avañe'ẽ, ગુજરાતી, Gaelg, עברית, हिन्दी, Fiji Hindi, Hrvatski, Kreyòl ayisyen, Magyar, Հայերեն, Interlingua, Bahasa Indonesia, Ilokano, Ido, Íslenska, Italiano, 日本語, Lojban, Basa Jawa, ქართული, Kongo, Kalaallisut, ಕನ್ನಡ, 한국어, Къарачай-Малкъар, Ripoarisch, Kurdî, Коми, Kernewek, Кыргызча, Latina, Ladino, Lëtzebuergesch, Limburgs, Lingála, ລາວ, Lietuvių, Latviešu, Basa Banyumasan, Malagasy, Македонски, മലയാളം, मराठी, مازِرونی, Bahasa Melayu, Nnapulitano, Nedersaksisch, नेपाल भाषा, Nederlands, ‪ Norsk (nynorsk)‬, ‪Norsk (bokmål)‬, Nouormand, Diné bizaad, Occitan, Иронау, Papiamentu, Deitsch, Polski, پنجابی, پښتو, Norfuk / Pitkern, Português, Runa Simi, Rumantsch, Romani, Română, Русский, Саха тыла, Sardu, Sicilianu, Scots, Sámegiella, Simple English, Slovenčina, Slovenščina, Српски / Srpski, Seeltersk, Svenska, Kiswahili, தமிழ், తెలుగు, Тоҷикӣ, ไทย, Türkmençe, Tagalog, Türkçe, Татарча/Tatarça, Українська, اردو, Tiếng Việt, Volapük, Walon, Winaray, 吴语, isiXhosa, ייִדיש, Yorùbá, Zeêuws, 中文, Bân-lâm-gú, 粵語""" if sys.version_info[0] == 2 and os.environ.get('THRIFT_TEST_PY_NO_UTF8STRINGS'): s1 = s1.encode('utf8') s2 = s2.encode('utf8') self.assertEqual(self.client.testString(s1), s1) self.assertEqual(self.client.testString(s2), s2) def testMultiplexed(self): if self.client2 is not None: print('testMultiplexed') self.assertEqual(self.client2.secondtestString('foobar'), 'testString("foobar")') def testBool(self): print('testBool') self.assertEqual(self.client.testBool(True), True) self.assertEqual(self.client.testBool(False), False) def testByte(self): print('testByte') self.assertEqual(self.client.testByte(63), 63) self.assertEqual(self.client.testByte(-127), -127) def testI32(self): print('testI32') self.assertEqual(self.client.testI32(-1), -1) self.assertEqual(self.client.testI32(0), 0) def testI64(self): print('testI64') self.assertEqual(self.client.testI64(1), 1) self.assertEqual(self.client.testI64(-34359738368), -34359738368) def testDouble(self): print('testDouble') self.assertEqual(self.client.testDouble(-5.235098235), -5.235098235) self.assertEqual(self.client.testDouble(0), 0) self.assertEqual(self.client.testDouble(-1), -1) self.assertEqual(self.client.testDouble(-0.000341012439638598279), -0.000341012439638598279) def testBinary(self): print('testBinary') val = bytearray([i for i in range(0, 256)]) self.assertEqual(bytearray(self.client.testBinary(bytes(val))), val) def testStruct(self): print('testStruct') x = Xtruct() x.string_thing = "Zero" x.byte_thing = 1 x.i32_thing = -3 x.i64_thing = -5 y = self.client.testStruct(x) self.assertEqual(y, x) def testNest(self): print('testNest') inner = Xtruct(string_thing="Zero", byte_thing=1, i32_thing=-3, i64_thing=-5) x = Xtruct2(struct_thing=inner, byte_thing=0, i32_thing=0) y = self.client.testNest(x) self.assertEqual(y, x) def testMap(self): print('testMap') x = {0: 1, 1: 2, 2: 3, 3: 4, -1: -2} y = self.client.testMap(x) self.assertEqual(y, x) def testSet(self): print('testSet') x = set([8, 1, 42]) y = self.client.testSet(x) self.assertEqual(y, x) def testList(self): print('testList') x = [1, 4, 9, -42] y = self.client.testList(x) self.assertEqual(y, x) def testEnum(self): print('testEnum') x = Numberz.FIVE y = self.client.testEnum(x) self.assertEqual(y, x) def testTypedef(self): print('testTypedef') x = 0xffffffffffffff # 7 bytes of 0xff y = self.client.testTypedef(x) self.assertEqual(y, x) def testMapMap(self): print('testMapMap') x = { -4: {-4: -4, -3: -3, -2: -2, -1: -1}, 4: {4: 4, 3: 3, 2: 2, 1: 1}, } y = self.client.testMapMap(42) self.assertEqual(y, x) def testMulti(self): print('testMulti') xpected = Xtruct(string_thing='Hello2', byte_thing=74, i32_thing=0xff00ff, i64_thing=0xffffffffd0d0) y = self.client.testMulti(xpected.byte_thing, xpected.i32_thing, xpected.i64_thing, {0: 'abc'}, Numberz.FIVE, 0xf0f0f0) self.assertEqual(y, xpected) def testException(self): print('testException') self.client.testException('Safe') try: self.client.testException('Xception') self.fail("should have gotten exception") except Xception as x: self.assertEqual(x.errorCode, 1001) self.assertEqual(x.message, 'Xception') # TODO ensure same behavior for repr within generated python variants # ensure exception's repr method works # x_repr = repr(x) # self.assertEqual(x_repr, 'Xception(errorCode=1001, message=\'Xception\')') try: self.client.testException('TException') self.fail("should have gotten exception") except TException as x: pass # Should not throw self.client.testException('success') def testMultiException(self): print('testMultiException') try: self.client.testMultiException('Xception', 'ignore') except Xception as ex: self.assertEqual(ex.errorCode, 1001) self.assertEqual(ex.message, 'This is an Xception') try: self.client.testMultiException('Xception2', 'ignore') except Xception2 as ex: self.assertEqual(ex.errorCode, 2002) self.assertEqual(ex.struct_thing.string_thing, 'This is an Xception2') y = self.client.testMultiException('success', 'foobar') self.assertEqual(y.string_thing, 'foobar') def testOneway(self): print('testOneway') start = time.time() self.client.testOneway(1) # type is int, not float end = time.time() self.assertTrue(end - start < 3, "oneway sleep took %f sec" % (end - start)) def testOnewayThenNormal(self): print('testOnewayThenNormal') self.client.testOneway(1) # type is int, not float self.assertEqual(self.client.testString('Python'), 'Python') # LAST_SEQID is a global because we have one transport and multiple protocols # running on it (when multiplexed) LAST_SEQID = None class TPedanticSequenceIdProtocolWrapper(TProtocolDecorator.TProtocolDecorator): """ Wraps any protocol with sequence ID checking: looks for outbound uniqueness as well as request/response alignment. """ def __init__(self, protocol): # TProtocolDecorator.__new__ does all the heavy lifting pass def writeMessageBegin(self, name, type, seqid): global LAST_SEQID if LAST_SEQID and LAST_SEQID == seqid: raise TProtocol.TProtocolException( TProtocol.TProtocolException.INVALID_DATA, "Python client reused sequence ID {0}".format(seqid)) LAST_SEQID = seqid super(TPedanticSequenceIdProtocolWrapper, self).writeMessageBegin( name, type, seqid) def readMessageBegin(self): global LAST_SEQID (name, type, seqid) =\ super(TPedanticSequenceIdProtocolWrapper, self).readMessageBegin() if LAST_SEQID != seqid: raise TProtocol.TProtocolException( TProtocol.TProtocolException.INVALID_DATA, "We sent seqid {0} and server returned seqid {1}".format( self.last, seqid)) return (name, type, seqid) def make_pedantic(proto): """ Wrap a protocol in the pedantic sequence ID wrapper. """ return TPedanticSequenceIdProtocolWrapper(proto) class MultiplexedOptionalTest(AbstractTest): def get_protocol2(self, transport): return None class BinaryTest(MultiplexedOptionalTest): def get_protocol(self, transport): return make_pedantic(TBinaryProtocol.TBinaryProtocolFactory().getProtocol(transport)) class MultiplexedBinaryTest(MultiplexedOptionalTest): def get_protocol(self, transport): wrapped_proto = make_pedantic(TBinaryProtocol.TBinaryProtocolFactory().getProtocol(transport)) return TMultiplexedProtocol.TMultiplexedProtocol(wrapped_proto, "ThriftTest") def get_protocol2(self, transport): wrapped_proto = make_pedantic(TBinaryProtocol.TBinaryProtocolFactory().getProtocol(transport)) return TMultiplexedProtocol.TMultiplexedProtocol(wrapped_proto, "SecondService") class AcceleratedBinaryTest(MultiplexedOptionalTest): def get_protocol(self, transport): return make_pedantic(TBinaryProtocol.TBinaryProtocolAcceleratedFactory(fallback=False).getProtocol(transport)) class MultiplexedAcceleratedBinaryTest(MultiplexedOptionalTest): def get_protocol(self, transport): wrapped_proto = make_pedantic(TBinaryProtocol.TBinaryProtocolAcceleratedFactory(fallback=False).getProtocol(transport)) return TMultiplexedProtocol.TMultiplexedProtocol(wrapped_proto, "ThriftTest") def get_protocol2(self, transport): wrapped_proto = make_pedantic(TBinaryProtocol.TBinaryProtocolAcceleratedFactory(fallback=False).getProtocol(transport)) return TMultiplexedProtocol.TMultiplexedProtocol(wrapped_proto, "SecondService") class CompactTest(MultiplexedOptionalTest): def get_protocol(self, transport): return make_pedantic(TCompactProtocol.TCompactProtocolFactory().getProtocol(transport)) class MultiplexedCompactTest(MultiplexedOptionalTest): def get_protocol(self, transport): wrapped_proto = make_pedantic(TCompactProtocol.TCompactProtocolFactory().getProtocol(transport)) return TMultiplexedProtocol.TMultiplexedProtocol(wrapped_proto, "ThriftTest") def get_protocol2(self, transport): wrapped_proto = make_pedantic(TCompactProtocol.TCompactProtocolFactory().getProtocol(transport)) return TMultiplexedProtocol.TMultiplexedProtocol(wrapped_proto, "SecondService") class AcceleratedCompactTest(MultiplexedOptionalTest): def get_protocol(self, transport): return make_pedantic(TCompactProtocol.TCompactProtocolAcceleratedFactory(fallback=False).getProtocol(transport)) class MultiplexedAcceleratedCompactTest(MultiplexedOptionalTest): def get_protocol(self, transport): wrapped_proto = make_pedantic(TCompactProtocol.TCompactProtocolAcceleratedFactory(fallback=False).getProtocol(transport)) return TMultiplexedProtocol.TMultiplexedProtocol(wrapped_proto, "ThriftTest") def get_protocol2(self, transport): wrapped_proto = make_pedantic(TCompactProtocol.TCompactProtocolAcceleratedFactory(fallback=False).getProtocol(transport)) return TMultiplexedProtocol.TMultiplexedProtocol(wrapped_proto, "SecondService") class JSONTest(MultiplexedOptionalTest): def get_protocol(self, transport): return make_pedantic(TJSONProtocol.TJSONProtocolFactory().getProtocol(transport)) class MultiplexedJSONTest(MultiplexedOptionalTest): def get_protocol(self, transport): wrapped_proto = make_pedantic(TJSONProtocol.TJSONProtocolFactory().getProtocol(transport)) return TMultiplexedProtocol.TMultiplexedProtocol(wrapped_proto, "ThriftTest") def get_protocol2(self, transport): wrapped_proto = make_pedantic(TJSONProtocol.TJSONProtocolFactory().getProtocol(transport)) return TMultiplexedProtocol.TMultiplexedProtocol(wrapped_proto, "SecondService") class HeaderTest(MultiplexedOptionalTest): def get_protocol(self, transport): factory = THeaderProtocol.THeaderProtocolFactory() return make_pedantic(factory.getProtocol(transport)) class MultiplexedHeaderTest(MultiplexedOptionalTest): def get_protocol(self, transport): wrapped_proto = make_pedantic(THeaderProtocol.THeaderProtocolFactory().getProtocol(transport)) return TMultiplexedProtocol.TMultiplexedProtocol(wrapped_proto, "ThriftTest") def get_protocol2(self, transport): wrapped_proto = make_pedantic(THeaderProtocol.THeaderProtocolFactory().getProtocol(transport)) return TMultiplexedProtocol.TMultiplexedProtocol(wrapped_proto, "SecondService") def suite(): suite = unittest.TestSuite() loader = unittest.TestLoader() if options.proto == 'binary': # look for --proto on cmdline suite.addTest(loader.loadTestsFromTestCase(BinaryTest)) elif options.proto == 'accel': suite.addTest(loader.loadTestsFromTestCase(AcceleratedBinaryTest)) elif options.proto == 'accelc': suite.addTest(loader.loadTestsFromTestCase(AcceleratedCompactTest)) elif options.proto == 'compact': suite.addTest(loader.loadTestsFromTestCase(CompactTest)) elif options.proto == 'header': suite.addTest(loader.loadTestsFromTestCase(HeaderTest)) elif options.proto == 'json': suite.addTest(loader.loadTestsFromTestCase(JSONTest)) elif options.proto == 'multi': suite.addTest(loader.loadTestsFromTestCase(MultiplexedBinaryTest)) elif options.proto == 'multia': suite.addTest(loader.loadTestsFromTestCase(MultiplexedAcceleratedBinaryTest)) elif options.proto == 'multiac': suite.addTest(loader.loadTestsFromTestCase(MultiplexedAcceleratedCompactTest)) elif options.proto == 'multic': suite.addTest(loader.loadTestsFromTestCase(MultiplexedCompactTest)) elif options.proto == 'multih': suite.addTest(loader.loadTestsFromTestCase(MultiplexedHeaderTest)) elif options.proto == 'multij': suite.addTest(loader.loadTestsFromTestCase(MultiplexedJSONTest)) else: raise AssertionError('Unknown protocol given with --protocol: %s' % options.proto) return suite class OwnArgsTestProgram(unittest.TestProgram): def parseArgs(self, argv): if args: self.testNames = args else: self.testNames = ([self.defaultTest]) self.createTests() if __name__ == "__main__": parser = OptionParser() parser.add_option('--libpydir', type='string', dest='libpydir', help='include this directory in sys.path for locating library code') parser.add_option('--genpydir', type='string', dest='genpydir', help='include this directory in sys.path for locating generated code') parser.add_option("--port", type="int", dest="port", help="connect to server at port") parser.add_option("--host", type="string", dest="host", help="connect to server") parser.add_option("--zlib", action="store_true", dest="zlib", help="use zlib wrapper for compressed transport") parser.add_option("--ssl", action="store_true", dest="ssl", help="use SSL for encrypted transport") parser.add_option("--http", dest="http_path", help="Use the HTTP transport with the specified path") parser.add_option('-v', '--verbose', action="store_const", dest="verbose", const=2, help="verbose output") parser.add_option('-q', '--quiet', action="store_const", dest="verbose", const=0, help="minimal output") parser.add_option('--protocol', dest="proto", type="string", help="protocol to use, one of: accel, accelc, binary, compact, header, json, multi, multia, multiac, multic, multih, multij") parser.add_option('--transport', dest="trans", type="string", help="transport to use, one of: buffered, framed, http") parser.add_option('--domain-socket', dest="domain_socket", type="string", help="Unix domain socket path") parser.set_defaults(framed=False, http_path=None, verbose=1, host='localhost', port=9090, proto='binary') options, args = parser.parse_args() if options.genpydir: sys.path.insert(0, os.path.join(SCRIPT_DIR, options.genpydir)) if options.http_path: options.trans = 'http' from ThriftTest import SecondService from ThriftTest import ThriftTest from ThriftTest.ttypes import Xtruct, Xtruct2, Numberz, Xception, Xception2 from thrift.Thrift import TException from thrift.transport import TTransport from thrift.transport import TSocket from thrift.transport import THttpClient from thrift.transport import TZlibTransport from thrift.protocol import TBinaryProtocol from thrift.protocol import TCompactProtocol from thrift.protocol import THeaderProtocol from thrift.protocol import TJSONProtocol from thrift.protocol import TMultiplexedProtocol OwnArgsTestProgram(defaultTest="suite", testRunner=unittest.TextTestRunner(verbosity=1))