Example #1
0
int main(int argc, char** argv) {
  cout.precision(19);
  int ERR_BASETYPES = 1;
  int ERR_STRUCTS = 2;
  int ERR_CONTAINERS = 4;
  int ERR_EXCEPTIONS = 8;
  int ERR_UNKNOWN = 64;

  string testDir = boost::filesystem::system_complete(argv[0]).parent_path().parent_path().parent_path().string();
  string pemPath = testDir + "/keys/CA.pem";
#if _WIN32
  transport::TWinsockSingleton::create();
#endif
  string host = "localhost";
  int port = 9090;
  int numTests = 1;
  bool ssl = false;
  string transport_type = "buffered";
  string protocol_type = "binary";
  string domain_socket = "";
  bool abstract_namespace = false;
  bool noinsane = false;

  int return_code = 0;

  boost::program_options::options_description desc("Allowed options");
  desc.add_options()("help,h",
                     "produce help message")("host",
                                             boost::program_options::value<string>(&host)
                                                 ->default_value(host),
                                             "Host to connect")("port",
                                                                boost::program_options::value<int>(
                                                                    &port)->default_value(port),
                                                                "Port number to connect")(
      "domain-socket",
      boost::program_options::value<string>(&domain_socket)->default_value(domain_socket),
      "Domain Socket (e.g. /tmp/ThriftTest.thrift), instead of host and port")(
      "abstract-namespace",
      "Look for the domain socket in the Abstract Namespace (no connection with filesystem pathnames)")(
      "transport",
      boost::program_options::value<string>(&transport_type)->default_value(transport_type),
      "Transport: buffered, framed, http, evhttp")(
      "protocol",
      boost::program_options::value<string>(&protocol_type)->default_value(protocol_type),
      "Protocol: binary, header, compact, json")("ssl", "Encrypted Transport using SSL")(
      "testloops,n",
      boost::program_options::value<int>(&numTests)->default_value(numTests),
      "Number of Tests")("noinsane", "Do not run insanity test");

  boost::program_options::variables_map vm;
  boost::program_options::store(boost::program_options::parse_command_line(argc, argv, desc), vm);
  boost::program_options::notify(vm);

  if (vm.count("help")) {
    cout << desc << endl;
    return ERR_UNKNOWN;
  }

  try {
    if (!protocol_type.empty()) {
      if (protocol_type == "binary") {
      } else if (protocol_type == "compact") {
      } else if (protocol_type == "header") {
      } else if (protocol_type == "json") {
      } else {
        throw invalid_argument("Unknown protocol type " + protocol_type);
      }
    }

    if (!transport_type.empty()) {
      if (transport_type == "buffered") {
      } else if (transport_type == "framed") {
      } else if (transport_type == "http") {
      } else if (transport_type == "evhttp") {
      } else {
        throw invalid_argument("Unknown transport type " + transport_type);
      }
    }

  } catch (exception& e) {
    cerr << e.what() << endl;
    cout << desc << endl;
    return ERR_UNKNOWN;
  }

  if (vm.count("ssl")) {
    ssl = true;
  }

  if (vm.count("abstract-namespace")) {
    abstract_namespace = true;
  }

  if (vm.count("noinsane")) {
    noinsane = true;
  }

  boost::shared_ptr<TTransport> transport;
  boost::shared_ptr<TProtocol> protocol;

  boost::shared_ptr<TSocket> socket;
  boost::shared_ptr<TSSLSocketFactory> factory;

  if (ssl) {
    factory = boost::shared_ptr<TSSLSocketFactory>(new TSSLSocketFactory());
    factory->ciphers("ALL:!ADH:!LOW:!EXP:!MD5:@STRENGTH");
    factory->loadTrustedCertificates(pemPath.c_str());
    factory->authenticate(true);
    socket = factory->createSocket(host, port);
  } else {
    if (domain_socket != "") {
      if (abstract_namespace) {
        std::string abstract_socket("\0", 1);
        abstract_socket += domain_socket;
        socket = boost::shared_ptr<TSocket>(new TSocket(abstract_socket));
      } else {
        socket = boost::shared_ptr<TSocket>(new TSocket(domain_socket));
      }
      port = 0;
    } else {
      socket = boost::shared_ptr<TSocket>(new TSocket(host, port));
    }
  }

  if (transport_type.compare("http") == 0) {
    boost::shared_ptr<TTransport> httpSocket(new THttpClient(socket, host, "/service"));
    transport = httpSocket;
  } else if (transport_type.compare("framed") == 0) {
    boost::shared_ptr<TFramedTransport> framedSocket(new TFramedTransport(socket));
    transport = framedSocket;
  } else {
    boost::shared_ptr<TBufferedTransport> bufferedSocket(new TBufferedTransport(socket));
    transport = bufferedSocket;
  }

  if (protocol_type.compare("json") == 0) {
    boost::shared_ptr<TProtocol> jsonProtocol(new TJSONProtocol(transport));
    protocol = jsonProtocol;
  } else if (protocol_type.compare("compact") == 0) {
    boost::shared_ptr<TProtocol> compactProtocol(new TCompactProtocol(transport));
    protocol = compactProtocol;
  } else if (protocol_type == "header") {
    boost::shared_ptr<TProtocol> headerProtocol(new THeaderProtocol(transport));
    protocol = headerProtocol;
  } else {
    boost::shared_ptr<TBinaryProtocol> binaryProtocol(new TBinaryProtocol(transport));
    protocol = binaryProtocol;
  }

  // Connection info
  cout << "Connecting (" << transport_type << "/" << protocol_type << ") to: ";
  if (abstract_namespace) {
    cout << '@';
  }
  cout << domain_socket;
  if (port != 0) {
    cout << host << ":" << port;
  }
  cout << endl;

  if (transport_type.compare("evhttp") == 0) {
    event_base* base = event_base_new();
    cout << "Libevent Version: " << event_get_version() << endl;
    cout << "Libevent Method: " << event_base_get_method(base) << endl;
#if LIBEVENT_VERSION_NUMBER >= 0x02000000
    cout << "Libevent Features: 0x" << hex << event_base_get_features(base) << endl;
#endif

    boost::shared_ptr<TProtocolFactory> protocolFactory(new TBinaryProtocolFactory());

    boost::shared_ptr<TAsyncChannel> channel(
        new TEvhttpClientChannel(host.c_str(), "/", host.c_str(), port, base));
    ThriftTestCobClient* client = new ThriftTestCobClient(channel, protocolFactory.get());
    client->testVoid(tcxx::bind(testVoid_clientReturn,
                                base,
                                tcxx::placeholders::_1));

    event_base_loop(base, 0);
    return 0;
  }

  ThriftTestClient testClient(protocol);

  uint64_t time_min = 0;
  uint64_t time_max = 0;
  uint64_t time_tot = 0;

  int test = 0;
  for (test = 0; test < numTests; ++test) {

    try {
      transport->open();
    } catch (TTransportException& ex) {
      cout << "Connect failed: " << ex.what() << endl;
      return ERR_UNKNOWN;
    }

    /**
     * CONNECT TEST
     */
    printf("Test #%d, connect %s:%d\n", test + 1, host.c_str(), port);

    uint64_t start = now();

    /**
     * VOID TEST
     */
    try {
      cout << "testVoid()" << flush;
      testClient.testVoid();
      cout << " = void" << endl;
    } catch (TTransportException&) {
      // Stop here if transport got broken
      throw;
    } catch (exception& ex) {
      cout << "*** FAILED ***" << endl << ex.what() << endl;
      return_code |= ERR_BASETYPES;
    }

    /**
     * STRING TEST
     */
    cout << "testString(\"Test\")" << flush;
    string s;
    testClient.testString(s, "Test");
    cout << " = " << s << endl;
    if (s != "Test") {
      cout << "*** FAILED ***" << endl;
      return_code |= ERR_BASETYPES;
    }

    try {
      string str(
          "}{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");
      cout << "testString(" << str << ") = " << flush;
      testClient.testString(s, str);
      cout << s << endl;
      if (s != str) {
        cout.imbue(locale("en_US.UTF8"));
        cout << "*** FAILED ***" << endl << "Expected string: " << str << " but got: " << s << endl << "CLEAR";
        return_code |= ERR_BASETYPES;
      }
    } catch (TTransportException&) {
      throw;
    } catch (exception& ex) {
      cout << "*** FAILED ***" << endl << ex.what() << endl;
      return_code |= ERR_BASETYPES;
      return return_code;
    }
    try {
      string str(
          "quote: \" backslash:"
          " forwardslash-escaped: \\/ "
          " backspace: \b formfeed: \f newline: \n return: \r tab: "
          " now-all-of-them-together: \"\\\\/\b\n\r\t"
          " now-a-bunch-of-junk: [email protected]#$%&()(&%$#{}{}<><><"
          " char-to-test-json-parsing: ]] \"]] \\\" }}}{ [[[ ");
      cout << "testString(" << str << ") = " << flush;
      testClient.testString(s, str);
      cout << s << endl;
      if (s != str) {
        cout.imbue(locale("en_US.UTF8"));
        cout << "*** FAILED ***" << endl
             << "Expected string: " << str << " but got: " << s << endl
             << "CLEAR";
        ;
        return_code |= ERR_BASETYPES;
      }
    } catch (TTransportException&) {
      throw;
    } catch (exception& ex) {
      cout << "*** FAILED ***" << endl << ex.what() << endl;
      return_code |= ERR_BASETYPES;
      return return_code;
    }

    /**
     * BOOL TEST
     */
    cout << boolalpha;
    BASETYPE_IDENTITY_TEST(testBool, true);
    BASETYPE_IDENTITY_TEST(testBool, false);

    /**
     * BYTE TEST
     */
    BASETYPE_IDENTITY_TEST(testByte, (int8_t)0);
    BASETYPE_IDENTITY_TEST(testByte, (int8_t)-1);
    BASETYPE_IDENTITY_TEST(testByte, (int8_t)42);
    BASETYPE_IDENTITY_TEST(testByte, (int8_t)-42);
    BASETYPE_IDENTITY_TEST(testByte, (int8_t)127);
    BASETYPE_IDENTITY_TEST(testByte, (int8_t)-128);

    /**
     * I32 TEST
     */
    BASETYPE_IDENTITY_TEST(testI32, 0);
    BASETYPE_IDENTITY_TEST(testI32, -1);
    BASETYPE_IDENTITY_TEST(testI32, 190000013);
    BASETYPE_IDENTITY_TEST(testI32, -190000013);
    BASETYPE_IDENTITY_TEST(testI32, numeric_limits<int32_t>::max());
    BASETYPE_IDENTITY_TEST(testI32, numeric_limits<int32_t>::min());

    /**
     * I64 TEST
     */
    BASETYPE_IDENTITY_TEST(testI64, (int64_t)0);
    BASETYPE_IDENTITY_TEST(testI64, (int64_t)-1);
    BASETYPE_IDENTITY_TEST(testI64, (int64_t)7000000000000000123LL);
    BASETYPE_IDENTITY_TEST(testI64, (int64_t)-7000000000000000123LL);
    BASETYPE_IDENTITY_TEST(testI64, (int64_t)pow(2LL, 32));
    BASETYPE_IDENTITY_TEST(testI64, (int64_t)-pow(2LL, 32));
    BASETYPE_IDENTITY_TEST(testI64, (int64_t)pow(2LL, 32) + 1);
    BASETYPE_IDENTITY_TEST(testI64, (int64_t)-pow(2LL, 32) - 1);
    BASETYPE_IDENTITY_TEST(testI64, numeric_limits<int64_t>::max());
    BASETYPE_IDENTITY_TEST(testI64, numeric_limits<int64_t>::min());

    /**
     * DOUBLE TEST
     */
    // Comparing double values with plain equality because Thrift handles full precision of double
    BASETYPE_IDENTITY_TEST(testDouble, 0.0);
    BASETYPE_IDENTITY_TEST(testDouble, -1.0);
    BASETYPE_IDENTITY_TEST(testDouble, -5.2098523);
    BASETYPE_IDENTITY_TEST(testDouble, -0.000341012439638598279);
    BASETYPE_IDENTITY_TEST(testDouble, pow(2, 32));
    BASETYPE_IDENTITY_TEST(testDouble, pow(2, 32) + 1);
    BASETYPE_IDENTITY_TEST(testDouble, pow(2, 53) - 1);
    BASETYPE_IDENTITY_TEST(testDouble, -pow(2, 32));
    BASETYPE_IDENTITY_TEST(testDouble, -pow(2, 32) - 1);
    BASETYPE_IDENTITY_TEST(testDouble, -pow(2, 53) + 1);

    try {
      double expected = pow(10, 307);
      cout << "testDouble(" << expected << ") = " << flush;
      double actual = testClient.testDouble(expected);
      cout << "(" << actual << ")" << endl;
      if (expected - actual > pow(10, 292)) {
        cout << "*** FAILED ***" << endl
             << "Expected: " << expected << " but got: " << actual << endl;
      }
    } catch (TTransportException&) {
      throw;
    } catch (exception& ex) {
      cout << "*** FAILED ***" << endl << ex.what() << endl;
      return_code |= ERR_BASETYPES;
    }

    try {
      double expected = pow(10, -292);
      cout << "testDouble(" << expected << ") = " << flush;
      double actual = testClient.testDouble(expected);
      cout << "(" << actual << ")" << endl;
      if (expected - actual > pow(10, -307)) {
        cout << "*** FAILED ***" << endl
             << "Expected: " << expected << " but got: " << actual << endl;
      }
    } catch (TTransportException&) {
      throw;
    } catch (exception& ex) {
      cout << "*** FAILED ***" << endl << ex.what() << endl;
      return_code |= ERR_BASETYPES;
    }

    /**
     * BINARY TEST
     */
    cout << "testBinary(empty)" << endl;
    try {
      string bin_result;
      testClient.testBinary(bin_result, string());
      if (!bin_result.empty()) {
        cout << endl << "*** FAILED ***" << endl;
        cout << "invalid length: " << bin_result.size() << endl;
        return_code |= ERR_BASETYPES;
      }
    } catch (TTransportException&) {
      throw;
    } catch (exception& ex) {
      cout << "*** FAILED ***" << endl << ex.what() << endl;
      return_code |= ERR_BASETYPES;
    }
    cout << "testBinary([-128..127]) = {" << flush;
    const signed char bin_data[256]
        = {-128, -127, -126, -125, -124, -123, -122, -121, -120, -119, -118, -117, -116, -115, -114,
           -113, -112, -111, -110, -109, -108, -107, -106, -105, -104, -103, -102, -101, -100, -99,
           -98,  -97,  -96,  -95,  -94,  -93,  -92,  -91,  -90,  -89,  -88,  -87,  -86,  -85,  -84,
           -83,  -82,  -81,  -80,  -79,  -78,  -77,  -76,  -75,  -74,  -73,  -72,  -71,  -70,  -69,
           -68,  -67,  -66,  -65,  -64,  -63,  -62,  -61,  -60,  -59,  -58,  -57,  -56,  -55,  -54,
           -53,  -52,  -51,  -50,  -49,  -48,  -47,  -46,  -45,  -44,  -43,  -42,  -41,  -40,  -39,
           -38,  -37,  -36,  -35,  -34,  -33,  -32,  -31,  -30,  -29,  -28,  -27,  -26,  -25,  -24,
           -23,  -22,  -21,  -20,  -19,  -18,  -17,  -16,  -15,  -14,  -13,  -12,  -11,  -10,  -9,
           -8,   -7,   -6,   -5,   -4,   -3,   -2,   -1,   0,    1,    2,    3,    4,    5,    6,
           7,    8,    9,    10,   11,   12,   13,   14,   15,   16,   17,   18,   19,   20,   21,
           22,   23,   24,   25,   26,   27,   28,   29,   30,   31,   32,   33,   34,   35,   36,
           37,   38,   39,   40,   41,   42,   43,   44,   45,   46,   47,   48,   49,   50,   51,
           52,   53,   54,   55,   56,   57,   58,   59,   60,   61,   62,   63,   64,   65,   66,
           67,   68,   69,   70,   71,   72,   73,   74,   75,   76,   77,   78,   79,   80,   81,
           82,   83,   84,   85,   86,   87,   88,   89,   90,   91,   92,   93,   94,   95,   96,
           97,   98,   99,   100,  101,  102,  103,  104,  105,  106,  107,  108,  109,  110,  111,
           112,  113,  114,  115,  116,  117,  118,  119,  120,  121,  122,  123,  124,  125,  126,
           127};
    try {
      string bin_result;
      testClient.testBinary(bin_result, string(reinterpret_cast<const char *>(bin_data), 256));
      if (bin_result.size() != 256) {
        cout << endl << "*** FAILED ***" << endl;
        cout << "invalid length: " << bin_result.size() << endl;
        return_code |= ERR_BASETYPES;
      } else {
        bool first = true;
        bool failed = false;
        for (int i = 0; i < 256; ++i) {
          if (!first)
            cout << ",";
          else
            first = false;
          cout << static_cast<int>(bin_result[i]);
          if (!failed && bin_result[i] != i - 128) {
            failed = true;
          }
        }
        cout << "}" << endl;
        if (failed) {
          cout << "*** FAILED ***" << endl;
          return_code |= ERR_BASETYPES;
        }
      }
    } catch (TTransportException&) {
      throw;
    } catch (exception& ex) {
      cout << "*** FAILED ***" << endl << ex.what() << endl;
      return_code |= ERR_BASETYPES;
    }


    /**
     * STRUCT TEST
     */
    cout << "testStruct({\"Zero\", 1, -3, -5})" << flush;
    Xtruct out;
    out.string_thing = "Zero";
    out.byte_thing = 1;
    out.i32_thing = -3;
    out.i64_thing = -5;
    Xtruct in;
    testClient.testStruct(in, out);
    printf(" = {\"%s\", %d, %d, %" PRId64 "}\n",
           in.string_thing.c_str(),
           (int)in.byte_thing,
           in.i32_thing,
           in.i64_thing);
    if (in != out) {
      cout << "*** FAILED ***" << endl;
      return_code |= ERR_STRUCTS;
    }

    /**
     * NESTED STRUCT TEST
     */
    cout << "testNest({1, {\"Zero\", 1, -3, -5}), 5}" << flush;
    Xtruct2 out2;
    out2.byte_thing = 1;
    out2.struct_thing = out;
    out2.i32_thing = 5;
    Xtruct2 in2;
    testClient.testNest(in2, out2);
    in = in2.struct_thing;
    printf(" = {%d, {\"%s\", %d, %d, %" PRId64 "}, %d}\n",
           in2.byte_thing,
           in.string_thing.c_str(),
           (int)in.byte_thing,
           in.i32_thing,
           in.i64_thing,
           in2.i32_thing);
    if (in2 != out2) {
      cout << "*** FAILED ***" << endl;
      return_code |= ERR_STRUCTS;
    }

    /**
     * MAP TEST
     */
    map<int32_t, int32_t> mapout;
    for (int32_t i = 0; i < 5; ++i) {
      mapout.insert(make_pair(i, i - 10));
    }
    cout << "testMap({" << flush;
    map<int32_t, int32_t>::const_iterator m_iter;
    bool first = true;
    for (m_iter = mapout.begin(); m_iter != mapout.end(); ++m_iter) {
      if (first) {
        first = false;
      } else {
        cout << ",";
      }
      cout << m_iter->first << " => " << m_iter->second;
    }
    cout << "})";
    map<int32_t, int32_t> mapin;
    testClient.testMap(mapin, mapout);
    cout << " = {";
    first = true;
    for (m_iter = mapin.begin(); m_iter != mapin.end(); ++m_iter) {
      if (first) {
        first = false;
      } else {
        cout << ",";
      }
      cout << m_iter->first << " => " << m_iter->second;
    }
    cout << "}" << endl;
    if (mapin != mapout) {
      cout << "*** FAILED ***" << endl;
      return_code |= ERR_CONTAINERS;
    }

    /**
     * STRING MAP TEST
     */
    cout << "testStringMap({a => 2, b => blah, some => thing}) = {" << flush;
    map<string, string> smapin;
    map<string, string> smapout;
    smapin["a"] = "2";
    smapin["b"] = "blah";
    smapin["some"] = "thing";
    try {
      testClient.testStringMap(smapout, smapin);
      first = true;
      for (map<string, string>::const_iterator it = smapout.begin(); it != smapout.end(); ++it) {
        if (first)
          cout << ",";
        else
          first = false;
        cout << it->first << " => " << it->second;
      }
      cout << "}" << endl;
      if (smapin != smapout) {
        cout << "*** FAILED ***" << endl;
        return_code |= ERR_CONTAINERS;
      }
    } catch (TTransportException&) {
      throw;
    } catch (exception& ex) {
      cout << "*** FAILED ***" << endl << ex.what() << endl;
      return_code |= ERR_CONTAINERS;
    }

    /**
     * SET TEST
     */
    set<int32_t> setout;
    for (int32_t i = -2; i < 3; ++i) {
      setout.insert(i);
    }
    cout << "testSet({" << flush;
    set<int32_t>::const_iterator s_iter;
    first = true;
    for (s_iter = setout.begin(); s_iter != setout.end(); ++s_iter) {
      if (first) {
        first = false;
      } else {
        cout << ",";
      }
      cout << *s_iter;
    }
    cout << "})";
    set<int32_t> setin;
    testClient.testSet(setin, setout);
    cout << " = {";
    first = true;
    for (s_iter = setin.begin(); s_iter != setin.end(); ++s_iter) {
      if (first) {
        first = false;
      } else {
        cout << ",";
      }
      cout << *s_iter;
    }
    cout << "}" << endl;
    if (setin != setout) {
      cout << "*** FAILED ***" << endl;
      return_code |= ERR_CONTAINERS;
    }

    /**
     * LIST TEST
     */
    cout << "testList(empty)" << flush;
    try {
      vector<int32_t> listout;
      testClient.testList(listout, vector<int32_t>());
      if (!listout.empty()) {
        cout << "*** FAILED ***" << endl;
        cout << "invalid length: " << listout.size() << endl;
        return_code |= ERR_CONTAINERS;
      }
    } catch (TTransportException&) {
      throw;
    } catch (exception& ex) {
      cout << "*** FAILED ***" << endl << ex.what() << endl;
      return_code |= ERR_CONTAINERS;
    }
    try {
      vector<int32_t> listout;
      for (int32_t i = -2; i < 3; ++i) {
        listout.push_back(i);
      }
      cout << "testList({" << flush;
      vector<int32_t>::const_iterator l_iter;
      first = true;
      for (l_iter = listout.begin(); l_iter != listout.end(); ++l_iter) {
        if (first) {
          first = false;
        } else {
          cout << ",";
        }
        cout << *l_iter;
      }
      cout << "})";
      vector<int32_t> listin;
      testClient.testList(listin, listout);
      cout << " = {";
      first = true;
      for (l_iter = listin.begin(); l_iter != listin.end(); ++l_iter) {
        if (first) {
          first = false;
        } else {
          cout << ",";
        }
        cout << *l_iter;
      }
      cout << "}" << endl;
      if (listin != listout) {
        cout << "*** FAILED ***" << endl;
        return_code |= ERR_CONTAINERS;
      }
    } catch (TTransportException&) {
      throw;
    } catch (exception& ex) {
      cout << "*** FAILED ***" << endl << ex.what() << endl;
      return_code |= ERR_CONTAINERS;
    }

    /**
     * ENUM TEST
     */
    cout << "testEnum(ONE)" << flush;
    Numberz::type ret = testClient.testEnum(Numberz::ONE);
    cout << " = " << ret << endl;
    if (ret != Numberz::ONE) {
      cout << "*** FAILED ***" << endl;
      return_code |= ERR_STRUCTS;
    }

    cout << "testEnum(TWO)" << flush;
    ret = testClient.testEnum(Numberz::TWO);
    cout << " = " << ret << endl;
    if (ret != Numberz::TWO) {
      cout << "*** FAILED ***" << endl;
      return_code |= ERR_STRUCTS;
    }

    cout << "testEnum(THREE)" << flush;
    ret = testClient.testEnum(Numberz::THREE);
    cout << " = " << ret << endl;
    if (ret != Numberz::THREE) {
      cout << "*** FAILED ***" << endl;
      return_code |= ERR_STRUCTS;
    }

    cout << "testEnum(FIVE)" << flush;
    ret = testClient.testEnum(Numberz::FIVE);
    cout << " = " << ret << endl;
    if (ret != Numberz::FIVE) {
      cout << "*** FAILED ***" << endl;
      return_code |= ERR_STRUCTS;
    }

    cout << "testEnum(EIGHT)" << flush;
    ret = testClient.testEnum(Numberz::EIGHT);
    cout << " = " << ret << endl;
    if (ret != Numberz::EIGHT) {
      cout << "*** FAILED ***" << endl;
      return_code |= ERR_STRUCTS;
    }

    /**
     * TYPEDEF TEST
     */
    cout << "testTypedef(309858235082523)" << flush;
    UserId uid = testClient.testTypedef(309858235082523LL);
    cout << " = " << uid << endl;
    if (uid != 309858235082523LL) {
      cout << "*** FAILED ***" << endl;
      return_code |= ERR_STRUCTS;
    }

    /**
     * NESTED MAP TEST
     */
    cout << "testMapMap(1)" << flush;
    map<int32_t, map<int32_t, int32_t> > mm;
    testClient.testMapMap(mm, 1);
    cout << " = {";
    map<int32_t, map<int32_t, int32_t> >::const_iterator mi;
    for (mi = mm.begin(); mi != mm.end(); ++mi) {
      printf("%d => {", mi->first);
      map<int32_t, int32_t>::const_iterator mi2;
      for (mi2 = mi->second.begin(); mi2 != mi->second.end(); ++mi2) {
        cout << mi2->first << " => " << mi2->second;
      }
      cout << "}, ";
    }
    cout << "}" << endl;
    if (mm.size() != 2 ||
        mm[-4][-4] != -4 ||
        mm[-4][-3] != -3 ||
        mm[-4][-2] != -2 ||
        mm[-4][-1] != -1 ||
        mm[4][4] != 4 ||
        mm[4][3] != 3 ||
        mm[4][2] != 2 ||
        mm[4][1] != 1) {
      cout << "*** FAILED ***" << endl;
      return_code |= ERR_CONTAINERS;
    }

    /**
     * INSANITY TEST
     */
    if (!noinsane) {
      Insanity insane;
      insane.userMap.insert(make_pair(Numberz::FIVE, 5));
      insane.userMap.insert(make_pair(Numberz::EIGHT, 8));
      Xtruct truck;
      truck.string_thing = "Goodbye4";
      truck.byte_thing = 4;
      truck.i32_thing = 4;
      truck.i64_thing = 4;
      Xtruct truck2;
      truck2.string_thing = "Hello2";
      truck2.byte_thing = 2;
      truck2.i32_thing = 2;
      truck2.i64_thing = 2;
      insane.xtructs.push_back(truck);
      insane.xtructs.push_back(truck2);
      cout << "testInsanity()" << flush;
      map<UserId, map<Numberz::type, Insanity> > whoa;
      testClient.testInsanity(whoa, insane);
      cout << " = {";
      map<UserId, map<Numberz::type, Insanity> >::const_iterator i_iter;
      for (i_iter = whoa.begin(); i_iter != whoa.end(); ++i_iter) {
        printf("%" PRId64 " => {", i_iter->first);
        map<Numberz::type, Insanity>::const_iterator i2_iter;
        for (i2_iter = i_iter->second.begin(); i2_iter != i_iter->second.end(); ++i2_iter) {
          printf("%d => {", i2_iter->first);
          map<Numberz::type, UserId> userMap = i2_iter->second.userMap;
          map<Numberz::type, UserId>::const_iterator um;
          cout << "{";
          for (um = userMap.begin(); um != userMap.end(); ++um) {
            cout << um->first << " => " << um->second;
          }
          cout << "}, ";

          vector<Xtruct> xtructs = i2_iter->second.xtructs;
          vector<Xtruct>::const_iterator x;
          cout << "{";
          for (x = xtructs.begin(); x != xtructs.end(); ++x) {
            printf("{\"%s\", %d, %d, %" PRId64 "}, ",
                   x->string_thing.c_str(),
                   (int)x->byte_thing,
                   x->i32_thing,
                   x->i64_thing);
          }
          cout << "}";

          cout << "}, ";
        }
        cout << "}, ";
      }
      cout << "}" << endl;
      bool failed = false;
      map<UserId, map<Numberz::type, Insanity> >::const_iterator it1 = whoa.find(UserId(1));
      if (whoa.size() != 2) {
        failed = true;
      }
      if (it1 == whoa.end()) {
        failed = true;
      } else {
        map<Numberz::type, Insanity>::const_iterator it12 = it1->second.find(Numberz::TWO);
        if (it12 == it1->second.end() || it12->second != insane) {
          failed = true;
        }
        map<Numberz::type, Insanity>::const_iterator it13 = it1->second.find(Numberz::THREE);
        if (it13 == it1->second.end() || it13->second != insane) {
          failed = true;
        }
      }
      map<UserId, map<Numberz::type, Insanity> >::const_iterator it2 = whoa.find(UserId(2));
      if (it2 == whoa.end()) {
        failed = true;
      } else {
        map<Numberz::type, Insanity>::const_iterator it26 = it2->second.find(Numberz::SIX);
        if (it26 == it1->second.end() || it26->second != Insanity()) {
          failed = true;
        }
      }
      if (failed) {
        cout << "*** FAILED ***" << endl;
        return_code |= ERR_STRUCTS;
      }
    }

    /**
     * MULTI TEST
     */
    cout << "testMulti()" << endl;
    try {
      map<int16_t, string> mul_map;
      Xtruct mul_result;
      mul_map[1] = "blah";
      mul_map[2] = "thing";
      testClient.testMulti(mul_result, 42, 4242, 424242, mul_map, Numberz::EIGHT, UserId(24));
      Xtruct xxs;
      xxs.string_thing = "Hello2";
      xxs.byte_thing = 42;
      xxs.i32_thing = 4242;
      xxs.i64_thing = 424242;
      if (mul_result != xxs) {
        cout << "*** FAILED ***" << endl;
        return_code |= ERR_STRUCTS;
      }
    } catch (TTransportException&) {
      throw;
    } catch (exception& ex) {
      cout << "*** FAILED ***" << endl << ex.what() << endl;
      return_code |= ERR_STRUCTS;
    }

    /* test exception */

    try {
      cout << "testClient.testException(\"Xception\") =>" << flush;
      testClient.testException("Xception");
      cout << "  void\n*** FAILED ***" << endl;
      return_code |= ERR_EXCEPTIONS;

    } catch (Xception& e) {
      printf("  {%u, \"%s\"}\n", e.errorCode, e.message.c_str());
    }

    try {
      cout << "testClient.testException(\"TException\") =>" << flush;
      testClient.testException("TException");
      cout << "  void\n*** FAILED ***" << endl;
      return_code |= ERR_EXCEPTIONS;

    } catch (const TException&) {
      cout << "  Caught TException" << endl;
    }

    try {
      cout << "testClient.testException(\"success\") =>" << flush;
      testClient.testException("success");
      cout << "  void" << endl;
    } catch (exception & ex) {                                                                       \
      cout << "*** FAILED ***" << endl << ex.what() << endl;
      return_code |= ERR_EXCEPTIONS;
    }

    /* test multi exception */

    try {
      cout << "testClient.testMultiException(\"Xception\", \"test 1\") =>" << flush;
      Xtruct result;
      testClient.testMultiException(result, "Xception", "test 1");
      cout << "  result\n*** FAILED ***" << endl;
      return_code |= ERR_EXCEPTIONS;
    } catch (Xception& e) {
      printf("  {%u, \"%s\"}\n", e.errorCode, e.message.c_str());
    }

    try {
      cout << "testClient.testMultiException(\"Xception2\", \"test 2\") =>" << flush;
      Xtruct result;
      testClient.testMultiException(result, "Xception2", "test 2");
      cout << "  result\n*** FAILED ***" << endl;
      return_code |= ERR_EXCEPTIONS;

    } catch (Xception2& e) {
      printf("  {%u, {\"%s\"}}\n", e.errorCode, e.struct_thing.string_thing.c_str());
    }

    try {
      cout << "testClient.testMultiException(\"success\", \"test 3\") =>" << flush;
      Xtruct result;
      testClient.testMultiException(result, "success", "test 3");
      printf("  {{\"%s\"}}\n", result.string_thing.c_str());
    } catch (exception & ex) {                                                                       \
      cout << "*** FAILED ***" << endl << ex.what() << endl;
      return_code |= ERR_EXCEPTIONS;
    }

    /* test oneway void */
    {
      cout << "testClient.testOneway(1) =>" << flush;
      uint64_t startOneway = now();
      testClient.testOneway(1);
      uint64_t elapsed = now() - startOneway;
      if (elapsed > 200 * 1000) { // 0.2 seconds
        printf("*** FAILED *** - took %.2f ms\n", (double)elapsed / 1000.0);
      return_code |= ERR_BASETYPES;
      } else {
        printf("  success - took %.2f ms\n", (double)elapsed / 1000.0);
      }
    }

    /**
     * redo a simple test after the oneway to make sure we aren't "off by one" --
     * if the server treated oneway void like normal void, this next test will
     * fail since it will get the void confirmation rather than the correct
     * result. In this circumstance, the client will throw the exception:
     *
     *   TApplicationException: Wrong method namea
     */
    /**
     * I32 TEST
     */
    cout << "re-test testI32(-1)";
    int i32 = testClient.testI32(-1);
    cout << " = " << i32 << endl;
    if (i32 != -1)
      return_code |= ERR_BASETYPES;

    uint64_t stop = now();
    uint64_t tot = stop - start;

    cout << "Total time: " << stop - start << " us" << endl;

    time_tot += tot;
    if (time_min == 0 || tot < time_min) {
      time_min = tot;
    }
    if (tot > time_max) {
      time_max = tot;
    }

    transport->close();
  }

  cout << endl << "All tests done." << endl;

  uint64_t time_avg = time_tot / numTests;

  cout << "Min time: " << time_min << " us" << endl;
  cout << "Max time: " << time_max << " us" << endl;
  cout << "Avg time: " << time_avg << " us" << endl;

  return return_code;
}
Example #2
0
int main(int argc, char** argv) {
  string file_path = boost::filesystem::system_complete(argv[0]).string();
  string dir_path = file_path.substr(0, file_path.size() - EXECUTABLE_FILE_NAME_LENGTH);
#if _WIN32
  transport::TWinsockSingleton::create();
#endif
  string host = "localhost";
  int port = 9090;
  int numTests = 1;
  bool ssl = false;
  string transport_type = "buffered";
  string protocol_type = "binary";
  string domain_socket = "";
  bool noinsane = false;

  boost::program_options::options_description desc("Allowed options");
  desc.add_options()("help,h",
                     "produce help message")("host",
                                             boost::program_options::value<string>(&host)
                                                 ->default_value(host),
                                             "Host to connect")("port",
                                                                boost::program_options::value<int>(
                                                                    &port)->default_value(port),
                                                                "Port number to connect")(
      "domain-socket",
      boost::program_options::value<string>(&domain_socket)->default_value(domain_socket),
      "Domain Socket (e.g. /tmp/ThriftTest.thrift), instead of host and port")(
      "transport",
      boost::program_options::value<string>(&transport_type)->default_value(transport_type),
      "Transport: buffered, framed, http, evhttp")(
      "protocol",
      boost::program_options::value<string>(&protocol_type)->default_value(protocol_type),
      "Protocol: binary, compact, json")("ssl", "Encrypted Transport using SSL")(
      "testloops,n",
      boost::program_options::value<int>(&numTests)->default_value(numTests),
      "Number of Tests")("noinsane", "Do not run insanity test");

  boost::program_options::variables_map vm;
  boost::program_options::store(boost::program_options::parse_command_line(argc, argv, desc), vm);
  boost::program_options::notify(vm);

  if (vm.count("help")) {
    cout << desc << "\n";
    return 1;
  }

  try {
    if (!protocol_type.empty()) {
      if (protocol_type == "binary") {
      } else if (protocol_type == "compact") {
      } else if (protocol_type == "json") {
      } else {
        throw invalid_argument("Unknown protocol type " + protocol_type);
      }
    }

    if (!transport_type.empty()) {
      if (transport_type == "buffered") {
      } else if (transport_type == "framed") {
      } else if (transport_type == "http") {
      } else if (transport_type == "evhttp") {
      } else {
        throw invalid_argument("Unknown transport type " + transport_type);
      }
    }

  } catch (std::exception& e) {
    cerr << e.what() << endl;
    cout << desc << "\n";
    return 1;
  }

  if (vm.count("ssl")) {
    ssl = true;
  }

  if (vm.count("noinsane")) {
    noinsane = true;
  }

  boost::shared_ptr<TTransport> transport;
  boost::shared_ptr<TProtocol> protocol;

  boost::shared_ptr<TSocket> socket;
  boost::shared_ptr<TSSLSocketFactory> factory;

  if (ssl) {
    factory = boost::shared_ptr<TSSLSocketFactory>(new TSSLSocketFactory());
    factory->ciphers("ALL:!ADH:!LOW:!EXP:!MD5:@STRENGTH");
    factory->loadTrustedCertificates((dir_path + "../keys/CA.pem").c_str());
    factory->authenticate(true);
    socket = factory->createSocket(host, port);
  } else {
    if (domain_socket != "") {
      socket = boost::shared_ptr<TSocket>(new TSocket(domain_socket));
      port = 0;
    } else {
      socket = boost::shared_ptr<TSocket>(new TSocket(host, port));
    }
  }

  if (transport_type.compare("http") == 0) {
    boost::shared_ptr<TTransport> httpSocket(new THttpClient(socket, host, "/service"));
    transport = httpSocket;
  } else if (transport_type.compare("framed") == 0) {
    boost::shared_ptr<TFramedTransport> framedSocket(new TFramedTransport(socket));
    transport = framedSocket;
  } else {
    boost::shared_ptr<TBufferedTransport> bufferedSocket(new TBufferedTransport(socket));
    transport = bufferedSocket;
  }

  if (protocol_type.compare("json") == 0) {
    boost::shared_ptr<TProtocol> jsonProtocol(new TJSONProtocol(transport));
    protocol = jsonProtocol;
  } else if (protocol_type.compare("compact") == 0) {
    boost::shared_ptr<TProtocol> compactProtocol(new TCompactProtocol(transport));
    protocol = compactProtocol;
  } else {
    boost::shared_ptr<TBinaryProtocol> binaryProtocol(new TBinaryProtocol(transport));
    protocol = binaryProtocol;
  }

  // Connection info
  cout << "Connecting (" << transport_type << "/" << protocol_type << ") to: " << domain_socket;
  if (port != 0) {
    cout << host << ":" << port;
  }
  cout << endl;

  if (transport_type.compare("evhttp") == 0) {
    event_base* base = event_base_new();
    cout << "Libevent Version: " << event_get_version() << endl;
    cout << "Libevent Method: " << event_base_get_method(base) << endl;
#if LIBEVENT_VERSION_NUMBER >= 0x02000000
    cout << "Libevent Features: 0x" << hex << event_base_get_features(base) << endl;
#endif

    boost::shared_ptr<TProtocolFactory> protocolFactory(new TBinaryProtocolFactory());

    boost::shared_ptr<TAsyncChannel> channel(
        new TEvhttpClientChannel(host.c_str(), "/", host.c_str(), port, base));
    ThriftTestCobClient* client = new ThriftTestCobClient(channel, protocolFactory.get());
    client->testVoid(tcxx::bind(testVoid_clientReturn,
                                host.c_str(),
                                port,
                                base,
                                protocolFactory.get(),
                                tcxx::placeholders::_1));

    event_base_loop(base, 0);
    return 0;
  }

  ThriftTestClient testClient(protocol);

  uint64_t time_min = 0;
  uint64_t time_max = 0;
  uint64_t time_tot = 0;

  int failCount = 0;
  int test = 0;
  for (test = 0; test < numTests; ++test) {

    try {
      transport->open();
    } catch (TTransportException& ttx) {
      printf("Connect failed: %s\n", ttx.what());
      return 1;
    }

    /**
     * CONNECT TEST
     */
    printf("Test #%d, connect %s:%d\n", test + 1, host.c_str(), port);

    uint64_t start = now();

    /**
     * VOID TEST
     */
    try {
      printf("testVoid()");
      testClient.testVoid();
      printf(" = void\n");
    } catch (TApplicationException& tax) {
      printf("%s\n", tax.what());
      failCount++;
    }

    /**
     * STRING TEST
     */
    printf("testString(\"Test\")");
    string s;
    testClient.testString(s, "Test");
    printf(" = \"%s\"\n", s.c_str());
    if (s != "Test")
      failCount++;

    /**
     * BYTE TEST
     */
    printf("testByte(1)");
    uint8_t u8 = testClient.testByte(1);
    printf(" = %d\n", (int)u8);
    if (u8 != 1)
      failCount++;

    /**
     * I32 TEST
     */
    printf("testI32(-1)");
    int32_t i32 = testClient.testI32(-1);
    printf(" = %d\n", i32);
    if (i32 != -1)
      failCount++;

    /**
     * I64 TEST
     */
    printf("testI64(-34359738368)");
    int64_t i64 = testClient.testI64(-34359738368LL);
    printf(" = %" PRId64 "\n", i64);
    if (i64 != -34359738368LL)
      failCount++;

    /**
     * DOUBLE TEST
     */
    printf("testDouble(-5.2098523)");
    double dub = testClient.testDouble(-5.2098523);
    printf(" = %f\n", dub);
    if ((dub - (-5.2098523)) > 0.001)
      failCount++;

    /**
     * BINARY TEST
     */
    // TODO: add testBinary() call

    /**
     * STRUCT TEST
     */
    printf("testStruct({\"Zero\", 1, -3, -5})");
    Xtruct out;
    out.string_thing = "Zero";
    out.byte_thing = 1;
    out.i32_thing = -3;
    out.i64_thing = -5;
    Xtruct in;
    testClient.testStruct(in, out);
    printf(" = {\"%s\", %d, %d, %" PRId64 "}\n",
           in.string_thing.c_str(),
           (int)in.byte_thing,
           in.i32_thing,
           in.i64_thing);
    if (in != out)
      failCount++;

    /**
     * NESTED STRUCT TEST
     */
    printf("testNest({1, {\"Zero\", 1, -3, -5}), 5}");
    Xtruct2 out2;
    out2.byte_thing = 1;
    out2.struct_thing = out;
    out2.i32_thing = 5;
    Xtruct2 in2;
    testClient.testNest(in2, out2);
    in = in2.struct_thing;
    printf(" = {%d, {\"%s\", %d, %d, %" PRId64 "}, %d}\n",
           in2.byte_thing,
           in.string_thing.c_str(),
           (int)in.byte_thing,
           in.i32_thing,
           in.i64_thing,
           in2.i32_thing);
    if (in2 != out2)
      failCount++;

    /**
     * MAP TEST
     */
    map<int32_t, int32_t> mapout;
    for (int32_t i = 0; i < 5; ++i) {
      mapout.insert(make_pair(i, i - 10));
    }
    printf("testMap({");
    map<int32_t, int32_t>::const_iterator m_iter;
    bool first = true;
    for (m_iter = mapout.begin(); m_iter != mapout.end(); ++m_iter) {
      if (first) {
        first = false;
      } else {
        printf(", ");
      }
      printf("%d => %d", m_iter->first, m_iter->second);
    }
    printf("})");
    map<int32_t, int32_t> mapin;
    testClient.testMap(mapin, mapout);
    printf(" = {");
    first = true;
    for (m_iter = mapin.begin(); m_iter != mapin.end(); ++m_iter) {
      if (first) {
        first = false;
      } else {
        printf(", ");
      }
      printf("%d => %d", m_iter->first, m_iter->second);
    }
    printf("}\n");
    if (mapin != mapout)
      failCount++;

    /**
     * STRING MAP TEST
     *  missing
     */

    /**
     * SET TEST
     */
    set<int32_t> setout;
    for (int32_t i = -2; i < 3; ++i) {
      setout.insert(i);
    }
    printf("testSet({");
    set<int32_t>::const_iterator s_iter;
    first = true;
    for (s_iter = setout.begin(); s_iter != setout.end(); ++s_iter) {
      if (first) {
        first = false;
      } else {
        printf(", ");
      }
      printf("%d", *s_iter);
    }
    printf("})");
    set<int32_t> setin;
    testClient.testSet(setin, setout);
    printf(" = {");
    first = true;
    for (s_iter = setin.begin(); s_iter != setin.end(); ++s_iter) {
      if (first) {
        first = false;
      } else {
        printf(", ");
      }
      printf("%d", *s_iter);
    }
    printf("}\n");
    if (setin != setout)
      failCount++;

    /**
     * LIST TEST
     */
    vector<int32_t> listout;
    for (int32_t i = -2; i < 3; ++i) {
      listout.push_back(i);
    }
    printf("testList({");
    vector<int32_t>::const_iterator l_iter;
    first = true;
    for (l_iter = listout.begin(); l_iter != listout.end(); ++l_iter) {
      if (first) {
        first = false;
      } else {
        printf(", ");
      }
      printf("%d", *l_iter);
    }
    printf("})");
    vector<int32_t> listin;
    testClient.testList(listin, listout);
    printf(" = {");
    first = true;
    for (l_iter = listin.begin(); l_iter != listin.end(); ++l_iter) {
      if (first) {
        first = false;
      } else {
        printf(", ");
      }
      printf("%d", *l_iter);
    }
    printf("}\n");
    if (listin != listout)
      failCount++;

    /**
     * ENUM TEST
     */
    printf("testEnum(ONE)");
    Numberz::type ret = testClient.testEnum(Numberz::ONE);
    printf(" = %d\n", ret);
    if (ret != Numberz::ONE)
      failCount++;

    printf("testEnum(TWO)");
    ret = testClient.testEnum(Numberz::TWO);
    printf(" = %d\n", ret);
    if (ret != Numberz::TWO)
      failCount++;

    printf("testEnum(THREE)");
    ret = testClient.testEnum(Numberz::THREE);
    printf(" = %d\n", ret);
    if (ret != Numberz::THREE)
      failCount++;

    printf("testEnum(FIVE)");
    ret = testClient.testEnum(Numberz::FIVE);
    printf(" = %d\n", ret);
    if (ret != Numberz::FIVE)
      failCount++;

    printf("testEnum(EIGHT)");
    ret = testClient.testEnum(Numberz::EIGHT);
    printf(" = %d\n", ret);
    if (ret != Numberz::EIGHT)
      failCount++;

    /**
     * TYPEDEF TEST
     */
    printf("testTypedef(309858235082523)");
    UserId uid = testClient.testTypedef(309858235082523LL);
    printf(" = %" PRId64 "\n", uid);
    if (uid != 309858235082523LL)
      failCount++;

    /**
     * NESTED MAP TEST
     */
    printf("testMapMap(1)");
    map<int32_t, map<int32_t, int32_t> > mm;
    testClient.testMapMap(mm, 1);
    printf(" = {");
    map<int32_t, map<int32_t, int32_t> >::const_iterator mi;
    for (mi = mm.begin(); mi != mm.end(); ++mi) {
      printf("%d => {", mi->first);
      map<int32_t, int32_t>::const_iterator mi2;
      for (mi2 = mi->second.begin(); mi2 != mi->second.end(); ++mi2) {
        printf("%d => %d, ", mi2->first, mi2->second);
      }
      printf("}, ");
    }
    printf("}\n");

    /**
     * INSANITY TEST
     */
    if (!noinsane) {
      Insanity insane;
      insane.userMap.insert(make_pair(Numberz::FIVE, 5000));
      Xtruct truck;
      truck.string_thing = "Truck";
      truck.byte_thing = 8;
      truck.i32_thing = 8;
      truck.i64_thing = 8;
      insane.xtructs.push_back(truck);
      printf("testInsanity()");
      map<UserId, map<Numberz::type, Insanity> > whoa;
      testClient.testInsanity(whoa, insane);
      printf(" = {");
      map<UserId, map<Numberz::type, Insanity> >::const_iterator i_iter;
      for (i_iter = whoa.begin(); i_iter != whoa.end(); ++i_iter) {
        printf("%" PRId64 " => {", i_iter->first);
        map<Numberz::type, Insanity>::const_iterator i2_iter;
        for (i2_iter = i_iter->second.begin(); i2_iter != i_iter->second.end(); ++i2_iter) {
          printf("%d => {", i2_iter->first);
          map<Numberz::type, UserId> userMap = i2_iter->second.userMap;
          map<Numberz::type, UserId>::const_iterator um;
          printf("{");
          for (um = userMap.begin(); um != userMap.end(); ++um) {
            printf("%d => %" PRId64 ", ", um->first, um->second);
          }
          printf("}, ");

          vector<Xtruct> xtructs = i2_iter->second.xtructs;
          vector<Xtruct>::const_iterator x;
          printf("{");
          for (x = xtructs.begin(); x != xtructs.end(); ++x) {
            printf("{\"%s\", %d, %d, %" PRId64 "}, ",
                   x->string_thing.c_str(),
                   (int)x->byte_thing,
                   x->i32_thing,
                   x->i64_thing);
          }
          printf("}");

          printf("}, ");
        }
        printf("}, ");
      }
      printf("}\n");
    }
    /* test exception */

    try {
      printf("testClient.testException(\"Xception\") =>");
      testClient.testException("Xception");
      printf("  void\nFAILURE\n");
      failCount++;

    } catch (Xception& e) {
      printf("  {%u, \"%s\"}\n", e.errorCode, e.message.c_str());
    }

    try {
      printf("testClient.testException(\"TException\") =>");
      testClient.testException("TException");
      printf("  void\nFAILURE\n");
      failCount++;

    } catch (const TException&) {
      printf("  Caught TException\n");
    }

    try {
      printf("testClient.testException(\"success\") =>");
      testClient.testException("success");
      printf("  void\n");
    } catch (...) {
      printf("  exception\nFAILURE\n");
      failCount++;
    }

    /* test multi exception */

    try {
      printf("testClient.testMultiException(\"Xception\", \"test 1\") =>");
      Xtruct result;
      testClient.testMultiException(result, "Xception", "test 1");
      printf("  result\nFAILURE\n");
      failCount++;
    } catch (Xception& e) {
      printf("  {%u, \"%s\"}\n", e.errorCode, e.message.c_str());
    }

    try {
      printf("testClient.testMultiException(\"Xception2\", \"test 2\") =>");
      Xtruct result;
      testClient.testMultiException(result, "Xception2", "test 2");
      printf("  result\nFAILURE\n");
      failCount++;

    } catch (Xception2& e) {
      printf("  {%u, {\"%s\"}}\n", e.errorCode, e.struct_thing.string_thing.c_str());
    }

    try {
      printf("testClient.testMultiException(\"success\", \"test 3\") =>");
      Xtruct result;
      testClient.testMultiException(result, "success", "test 3");
      printf("  {{\"%s\"}}\n", result.string_thing.c_str());
    } catch (...) {
      printf("  exception\nFAILURE\n");
      failCount++;
    }

    /* test oneway void */
    {
      printf("testClient.testOneway(1) =>");
      uint64_t startOneway = now();
      testClient.testOneway(1);
      uint64_t elapsed = now() - startOneway;
      if (elapsed > 200 * 1000) { // 0.2 seconds
        printf("  FAILURE - took %.2f ms\n", (double)elapsed / 1000.0);
        failCount++;
      } else {
        printf("  success - took %.2f ms\n", (double)elapsed / 1000.0);
      }
    }

    /**
     * redo a simple test after the oneway to make sure we aren't "off by one" --
     * if the server treated oneway void like normal void, this next test will
     * fail since it will get the void confirmation rather than the correct
     * result. In this circumstance, the client will throw the exception:
     *
     *   TApplicationException: Wrong method namea
     */
    /**
     * I32 TEST
     */
    printf("re-test testI32(-1)");
    i32 = testClient.testI32(-1);
    printf(" = %d\n", i32);
    if (i32 != -1)
      failCount++;

    uint64_t stop = now();
    uint64_t tot = stop - start;

    printf("Total time: %" PRIu64 " us\n", stop - start);

    time_tot += tot;
    if (time_min == 0 || tot < time_min) {
      time_min = tot;
    }
    if (tot > time_max) {
      time_max = tot;
    }

    transport->close();
  }

  printf("\nAll tests done.\n");

  uint64_t time_avg = time_tot / numTests;

  printf("Min time: %" PRIu64 " us\n", time_min);
  printf("Max time: %" PRIu64 " us\n", time_max);
  printf("Avg time: %" PRIu64 " us\n", time_avg);

  return failCount;
}