Esempio n. 1
1
void
Client::run(int argc, char** argv)
{
    Ice::CommunicatorHolder communicator = initialize(argc, argv);
    instance = this;
    string protocol = getTestProtocol();
    string host = getTestHost();
    _initData.properties = Ice::createProperties(argc, argv, communicator->getProperties());
    _initData.properties->setProperty("Ice.Default.Router", "Glacier2/router:" + getTestEndpoint(50));

    DispatcherPtr dispatcher = new Dispatcher();
    dispatcher->start();
#ifdef ICE_CPP11_MAPPING
    _initData.dispatcher = [dispatcher](std::function<void()> call, const std::shared_ptr<Ice::Connection>& conn)
        {
            dispatcher->dispatch(call, conn);
        };
#else
    _initData.dispatcher = dispatcher;
#endif
    _factory = ICE_MAKE_SHARED(Glacier2::SessionFactoryHelper, _initData, ICE_MAKE_SHARED(FailSessionCallback));

    //
    // Test to create a session with wrong userid/password
    //

    {
        IceUtil::Monitor<IceUtil::Mutex>::Lock lock(_monitor);

        cout << "testing SessionHelper connect with wrong userid/password... " << flush;

        _session = _factory->connect("userid", "xxx");
        //
        // Wait for connectFailed callback
        //
        _monitor.timedWait(IceUtil::Time::seconds(30));

        test(!_session->isConnected());
    }
    _factory->destroy();

    //
    // Test to interrupt connection establishment
    //

    _initData.properties->setProperty("Ice.Default.Router", "");
    _factory = ICE_MAKE_SHARED(Glacier2::SessionFactoryHelper, _initData, ICE_MAKE_SHARED(InterruptConnectCallback));

    {
        IceUtil::Monitor<IceUtil::Mutex>::Lock lock(_monitor);
        cout << "testing SessionHelper connect interrupt... " << flush;
        _factory->setRouterHost(host);
        _factory->setPort(getTestPort(_initData.properties, 1));
        _factory->setProtocol(protocol);
        _session = _factory->connect("userid", "abc123");

        IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(100));
        _session->destroy();

        //
        // Wait for connectFailed callback
        //
        _monitor.timedWait(IceUtil::Time::seconds(30));
        test(!_session->isConnected());
    }
    _factory->destroy();

    _factory = ICE_MAKE_SHARED(Glacier2::SessionFactoryHelper, _initData, ICE_MAKE_SHARED(SuccessSessionCallback));

    {
        IceUtil::Monitor<IceUtil::Mutex>::Lock lock(_monitor);
        cout << "testing SessionHelper connect... " << flush;
        _factory->setRouterHost(host);
        _factory->setPort(getTestPort(_initData.properties, 50));
        _factory->setProtocol(protocol);
        _session = _factory->connect("userid", "abc123");

        //
        // Wait for connect callback
        //
        _monitor.timedWait(IceUtil::Time::seconds(30));

        cout << "testing SessionHelper isConnected after connect... " << flush;
        test(_session->isConnected());
        cout << "ok" << endl;

        cout << "testing SessionHelper categoryForClient after connect... " << flush;
        try
        {
            test(!_session->categoryForClient().empty());
        }
        catch(const Glacier2::SessionNotExistException&)
        {
            test(false);
        }
        cout << "ok" << endl;

        test(!_session->session());

        cout << "testing stringToProxy for server object... " << flush;
        Ice::ObjectPrxPtr base =
            _session->communicator()->stringToProxy("callback:" + getTestEndpoint(_session->communicator()->getProperties()));
        cout << "ok" << endl;

        cout << "pinging server after session creation... " << flush;
        base->ice_ping();
        cout << "ok" << endl;

        cout << "testing checked cast for server object... " << flush;
        CallbackPrxPtr twoway = ICE_CHECKED_CAST(CallbackPrx, base);
        test(twoway);
        cout << "ok" << endl;

        cout << "testing server shutdown... " << flush;
        twoway->shutdown();
        cout << "ok" << endl;

        test(_session->communicator());
        cout << "testing SessionHelper destroy... " << flush;
        _session->destroy();

        //
        // Wait for disconnected callback
        //
        _monitor.wait();

        cout << "testing SessionHelper isConnected after destroy... " << flush;
        test(_session->isConnected() == false);
        cout << "ok" << endl;

        cout << "testing SessionHelper categoryForClient after destroy... " << flush;
        try
        {
            test(!_session->categoryForClient().empty());
            test(false);
        }
        catch(const Glacier2::SessionNotExistException&)
        {
        }
        cout << "ok" << endl;

        cout << "testing SessionHelper session after destroy... " << flush;
        test(_session->session() == ICE_NULLPTR);
        cout << "ok" << endl;

        cout << "testing SessionHelper communicator after destroy... " << flush;
        try
        {
            test(_session->communicator());
            _session->communicator()->stringToProxy("dummy");
            test(false);
        }
        catch(const Ice::CommunicatorDestroyedException&)
        {
        }
        cout << "ok" << endl;

        cout << "uninstalling router with communicator... " << flush;
        communicator->setDefaultRouter(0);
        cout << "ok" << endl;

        Ice::ObjectPrxPtr processBase;
        {
            cout << "testing stringToProxy for process object... " << flush;
            processBase = communicator->stringToProxy("Glacier2/admin -f Process:" + getTestEndpoint(51));
            cout << "ok" << endl;
        }

        Ice::ProcessPrxPtr process;
        {
            cout << "testing checked cast for admin object... " << flush;
            process = ICE_CHECKED_CAST(Ice::ProcessPrx, processBase);
            test(process != 0);
            cout << "ok" << endl;
        }

        cout << "testing Glacier2 shutdown... " << flush;
        process->shutdown();
        try
        {
            process->ice_ping();
            test(false);
        }
        catch(const Ice::LocalException&)
        {
            cout << "ok" << endl;
        }
    }

    _factory->destroy();

    _factory = ICE_MAKE_SHARED(Glacier2::SessionFactoryHelper, _initData, ICE_MAKE_SHARED(AfterShutdownSessionCallback));

    //
    // Wait a bit to ensure glaci2router has been shutdown.
    //
    IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(100));

    {
        IceUtil::Monitor<IceUtil::Mutex>::Lock lock(_monitor);
        cout << "testing SessionHelper connect after router shutdown... " << flush;
        _factory->setRouterHost(host);
        _factory->setPort(getTestPort(_initData.properties, 50));
        _factory->setProtocol(protocol);
        _session = _factory->connect("userid", "abc123");

        //
        // Wait for connectFailed callback
        //
        _monitor.wait();

        cout << "testing SessionHelper isConnect after connect failure... " << flush;
        test(_session->isConnected() == false);
        cout << "ok" << endl;

        cout << "testing SessionHelper communicator after connect failure... " << flush;
        try
        {
            test(_session->communicator());
            _session->communicator()->stringToProxy("dummy");
            test(false);
        }
        catch(const Ice::CommunicatorDestroyedException&)
        {
        }
        cout << "ok" << endl;

        cout << "testing SessionHelper destroy after connect failure... " << flush;
        _session->destroy();
        cout << "ok" << endl;
    }

    _factory->destroy();

    if(dispatcher)
    {
        dispatcher->destroy();
        dispatcher->getThreadControl().join();
    }
}
Esempio n. 2
0
TimeoutPrxPtr
allTests(const Ice::CommunicatorPtr& communicator)
{
    string sref = "timeout:" + getTestEndpoint(communicator, 0);
    Ice::ObjectPrxPtr obj = communicator->stringToProxy(sref);
    test(obj);

    TimeoutPrxPtr timeout = ICE_CHECKED_CAST(TimeoutPrx, obj);
    test(timeout);

    cout << "testing connect timeout... " << flush;
    {
        //
        // Expect ConnectTimeoutException.
        //
        TimeoutPrxPtr to = ICE_UNCHECKED_CAST(TimeoutPrx, obj->ice_timeout(100));
        timeout->holdAdapter(500);
        try
        {
            to->op();
            test(false);
        }
        catch(const Ice::ConnectTimeoutException&)
        {
            // Expected.
        }
    }
    {
        //
        // Expect success.
        //
        timeout->op(); // Ensure adapter is active.
        TimeoutPrxPtr to = ICE_UNCHECKED_CAST(TimeoutPrx, obj->ice_timeout(1000));
        timeout->holdAdapter(500);
        try
        {
            to->op();
        }
        catch(const Ice::ConnectTimeoutException&)
        {
            test(false);
        }
    }
    cout << "ok" << endl;

    // The sequence needs to be large enough to fill the write/recv buffers
    ByteSeq seq(2000000);

    cout << "testing connection timeout... " << flush;
    {
        //
        // Expect TimeoutException.
        //
        TimeoutPrxPtr to = ICE_UNCHECKED_CAST(TimeoutPrx, obj->ice_timeout(100));
        timeout->holdAdapter(500);
        try
        {
            to->sendData(seq);
            test(false);
        }
        catch(const Ice::TimeoutException&)
        {
            // Expected.
        }
    }
    {
        //
        // Expect success.
        //
        timeout->op(); // Ensure adapter is active.
        TimeoutPrxPtr to = ICE_UNCHECKED_CAST(TimeoutPrx, obj->ice_timeout(1000));
        timeout->holdAdapter(500);
        try
        {
            ByteSeq seq(1000000);
            to->sendData(seq);
        }
        catch(const Ice::TimeoutException&)
        {
            test(false);
        }
    }
    cout << "ok" << endl;

    cout << "testing invocation timeout... " << flush;
    {
        Ice::ConnectionPtr connection = obj->ice_getConnection();
        TimeoutPrxPtr to = ICE_UNCHECKED_CAST(TimeoutPrx, obj->ice_invocationTimeout(100));
        test(connection == to->ice_getConnection());
        try
        {
            to->sleep(750);
            test(false);
        }
        catch(const Ice::InvocationTimeoutException&)
        {
        }
        obj->ice_ping();
        to = ICE_CHECKED_CAST(TimeoutPrx, obj->ice_invocationTimeout(500));
        test(connection == to->ice_getConnection());
        try
        {
            to->sleep(250);
        }
        catch(const Ice::InvocationTimeoutException&)
        {
            test(false);
        }
        test(connection == to->ice_getConnection());
    }
    {
        //
        // Expect InvocationTimeoutException.
        //
        TimeoutPrxPtr to = ICE_UNCHECKED_CAST(TimeoutPrx, obj->ice_invocationTimeout(100));
        
#ifdef ICE_CPP11_MAPPING
        auto f = to->sleep_async(750);
        try
        {
            f.get();
            test(false);
        }
        catch(const Ice::InvocationTimeoutException&)
        {
        }
        catch(...)
        {
            test(false);
        }
#else
        CallbackPtr cb = new Callback();
        to->begin_sleep(750, newCallback_Timeout_sleep(cb, &Callback::responseEx, &Callback::exceptionEx));
        cb->check();
#endif
        obj->ice_ping();
    }
    {
        //
        // Expect success.
        //
        TimeoutPrxPtr to = ICE_UNCHECKED_CAST(TimeoutPrx, obj->ice_invocationTimeout(500));
#ifdef ICE_CPP11_MAPPING
        auto f = to->sleep_async(250);
        try
        {
            f.get();
        }
        catch(...)
        {
            test(false);
        }
#else
        CallbackPtr cb = new Callback();
        to->begin_sleep(250, newCallback_Timeout_sleep(cb, &Callback::response, &Callback::exception));
        cb->check();
#endif
    }
    {
        //
        // Backward compatible connection timeouts
        //
        TimeoutPrxPtr to = ICE_UNCHECKED_CAST(TimeoutPrx, obj->ice_invocationTimeout(-2)->ice_timeout(250));
        Ice::ConnectionPtr con;
        try
        {
            con = to->ice_getConnection();
            to->sleep(750);
            test(false);
        }
        catch(const Ice::TimeoutException&)
        {
            try
            {
                con->getInfo();
                test(false);
            }
            catch(const Ice::TimeoutException&)
            {
                // Connection got closed as well.
            }
        }
        obj->ice_ping();
        try
        {
            con = to->ice_getConnection();
#ifdef ICE_CPP11_MAPPING
            to->sleep_async(750).get();
#else
            to->end_sleep(to->begin_sleep(750));
#endif
            test(false);
        }
        catch(const Ice::TimeoutException&)
        {
            try
            {
                con->getInfo();
                test(false);
            }
            catch(const Ice::TimeoutException&)
            {
                // Connection got closed as well.
            }
        }
        obj->ice_ping();
    }
    cout << "ok" << endl;

    cout << "testing close timeout... " << flush;
    {
        TimeoutPrxPtr to = ICE_CHECKED_CAST(TimeoutPrx, obj->ice_timeout(250));
        Ice::ConnectionPtr connection = to->ice_getConnection();
        timeout->holdAdapter(600);
        connection->close(false);
        try
        {
            connection->getInfo(); // getInfo() doesn't throw in the closing state.
        }
        catch(const Ice::LocalException&)
        {
            test(false);
        }
        IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(650));
        try
        {
            connection->getInfo();
            test(false);
        }
        catch(const Ice::CloseConnectionException&)
        {
            // Expected.
        }
        timeout->op(); // Ensure adapter is active.
    }
    cout << "ok" << endl;

    cout << "testing timeout overrides... " << flush;
    {
        //
        // Test Ice.Override.Timeout. This property overrides all
        // endpoint timeouts.
        //
        Ice::InitializationData initData;
        initData.properties = communicator->getProperties()->clone();
        initData.properties->setProperty("Ice.Override.Timeout", "250");
        Ice::CommunicatorPtr comm = Ice::initialize(initData);
        TimeoutPrxPtr to = ICE_CHECKED_CAST(TimeoutPrx, comm->stringToProxy(sref));
        timeout->holdAdapter(700);
        try
        {
            to->sendData(seq);
            test(false);
        }
        catch(const Ice::TimeoutException&)
        {
            // Expected.
        }

        //
        // Calling ice_timeout() should have no effect.
        //
        timeout->op(); // Ensure adapter is active.
        to = ICE_CHECKED_CAST(TimeoutPrx, to->ice_timeout(1000));
        timeout->holdAdapter(500);
        try
        {
            to->sendData(seq);
            test(false);
        }
        catch(const Ice::TimeoutException&)
        {
            // Expected.
        }
        comm->destroy();
    }
    {
        //
        // Test Ice.Override.ConnectTimeout.
        //
        Ice::InitializationData initData;
        initData.properties = communicator->getProperties()->clone();
        initData.properties->setProperty("Ice.Override.ConnectTimeout", "250");
        Ice::CommunicatorPtr comm = Ice::initialize(initData);
        timeout->holdAdapter(750);
        TimeoutPrxPtr to = ICE_UNCHECKED_CAST(TimeoutPrx, comm->stringToProxy(sref));
        try
        {
            to->op();
            test(false);
        }
        catch(const Ice::ConnectTimeoutException&)
        {
            // Expected.
        }
        //
        // Calling ice_timeout() should have no effect on the connect timeout.
        //
        timeout->op(); // Ensure adapter is active.
        timeout->holdAdapter(750);
        to = ICE_UNCHECKED_CAST(TimeoutPrx, to->ice_timeout(1000));
        try
        {
            to->op();
            test(false);
        }
        catch(const Ice::ConnectTimeoutException&)
        {
            // Expected.
        }
        //
        // Verify that timeout set via ice_timeout() is still used for requests.
        //
        timeout->op(); // Ensure adapter is active.
        to = ICE_UNCHECKED_CAST(TimeoutPrx, to->ice_timeout(250));
        to->ice_getConnection(); // Establish connection
        timeout->holdAdapter(750);
        try
        {
            to->sendData(seq);
            test(false);
        }
        catch(const Ice::TimeoutException&)
        {
            // Expected.
        }
        comm->destroy();
    }
    {
        //
        // Test Ice.Override.CloseTimeout.
        //
        Ice::InitializationData initData;
        initData.properties = communicator->getProperties()->clone();
        initData.properties->setProperty("Ice.Override.CloseTimeout", "250");
        Ice::CommunicatorPtr comm = Ice::initialize(initData);
        Ice::ConnectionPtr connection = comm->stringToProxy(sref)->ice_getConnection();
        timeout->holdAdapter(500);
        IceUtil::Time now = IceUtil::Time::now();
        comm->destroy();
        test(IceUtil::Time::now() - now < IceUtil::Time::milliSeconds(400));
    }
    cout << "ok" << endl;

    cout << "testing invocation timeouts with collocated calls... " << flush;
    {
        communicator->getProperties()->setProperty("TimeoutCollocated.AdapterId", "timeoutAdapter");

        Ice::ObjectAdapterPtr adapter = communicator->createObjectAdapter("TimeoutCollocated");
        adapter->activate();

        TimeoutPrxPtr timeout = ICE_UNCHECKED_CAST(TimeoutPrx, adapter->addWithUUID(ICE_MAKE_SHARED(TimeoutI)));
        timeout = timeout->ice_invocationTimeout(100);
        try
        {
            timeout->sleep(300);
            test(false);
        }
        catch(const Ice::InvocationTimeoutException&)
        {
        }

        try
        {
#ifdef ICE_CPP11_MAPPING
            timeout->sleep_async(300).get();
#else
            timeout->end_sleep(timeout->begin_sleep(300));
#endif
            test(false);
        }
        catch(const Ice::InvocationTimeoutException&)
        {
        }

        TimeoutPrxPtr batchTimeout = timeout->ice_batchOneway();
        batchTimeout->ice_ping();
        batchTimeout->ice_ping();
        batchTimeout->ice_ping();

        // Keep the server thread pool busy.
#ifdef ICE_CPP11_MAPPING
        timeout->ice_invocationTimeout(-1)->sleep_async(300); 
#else
        timeout->ice_invocationTimeout(-1)->begin_sleep(300);
#endif
        try
        {
            batchTimeout->ice_flushBatchRequests();
            test(false);
        }
        catch(const Ice::InvocationTimeoutException&)
        {
        }

        batchTimeout->ice_ping();
        batchTimeout->ice_ping();
        batchTimeout->ice_ping();

        // Keep the server thread pool busy.
#ifdef ICE_CPP11_MAPPING
        timeout->ice_invocationTimeout(-1)->sleep_async(300); 
#else
        timeout->ice_invocationTimeout(-1)->begin_sleep(300);
#endif
        try
        {
#ifdef ICE_CPP11_MAPPING
            batchTimeout->ice_flushBatchRequests_async().get();
#else
            batchTimeout->end_ice_flushBatchRequests(batchTimeout->begin_ice_flushBatchRequests());
#endif
            test(false);
        }
        catch(const Ice::InvocationTimeoutException&)
        {
        }

        adapter->destroy();
    }
    cout << "ok" << endl;

    return timeout;
}
Esempio n. 3
0
void
allTests(const Ice::CommunicatorPtr& communicator, const string& ref)
{
    ServerManagerPrxPtr manager = ICE_CHECKED_CAST(ServerManagerPrx, communicator->stringToProxy(ref));
    TestLocatorPrxPtr locator = ICE_UNCHECKED_CAST(TestLocatorPrx, communicator->getDefaultLocator());
    test(manager);

    TestLocatorRegistryPrxPtr registry = ICE_CHECKED_CAST(TestLocatorRegistryPrx, locator->getRegistry());
    test(registry);

    cout << "testing stringToProxy... " << flush;
    Ice::ObjectPrxPtr base = communicator->stringToProxy("test @ TestAdapter");
    Ice::ObjectPrxPtr base2 = communicator->stringToProxy("test @ TestAdapter");
    Ice::ObjectPrxPtr base3 = communicator->stringToProxy("test");
    Ice::ObjectPrxPtr base4 = communicator->stringToProxy("ServerManager"); 
    Ice::ObjectPrxPtr base5 = communicator->stringToProxy("test2");
    Ice::ObjectPrxPtr base6 = communicator->stringToProxy("test @ ReplicatedAdapter");
    cout << "ok" << endl;

    cout << "testing ice_locator and ice_getLocator... " << flush;
    test(Ice::proxyIdentityEqual(base->ice_getLocator(), communicator->getDefaultLocator()));
    Ice::LocatorPrxPtr anotherLocator = ICE_UNCHECKED_CAST(Ice::LocatorPrx, communicator->stringToProxy("anotherLocator"));
    base = base->ice_locator(anotherLocator);
    test(Ice::proxyIdentityEqual(base->ice_getLocator(), anotherLocator));
    communicator->setDefaultLocator(ICE_NULLPTR);
    base = communicator->stringToProxy("test @ TestAdapter");
    test(!base->ice_getLocator());
    base = base->ice_locator(anotherLocator);
    test(Ice::proxyIdentityEqual(base->ice_getLocator(), anotherLocator));
    communicator->setDefaultLocator(locator);
    base = communicator->stringToProxy("test @ TestAdapter");
    test(Ice::proxyIdentityEqual(base->ice_getLocator(), communicator->getDefaultLocator())); 
    
    //
    // We also test ice_router/ice_getRouter (perhaps we should add a
    // test/Ice/router test?)
    //
    test(!base->ice_getRouter());
    Ice::RouterPrxPtr anotherRouter = ICE_UNCHECKED_CAST(Ice::RouterPrx, communicator->stringToProxy("anotherRouter"));
    base = base->ice_router(anotherRouter);
    test(Ice::proxyIdentityEqual(base->ice_getRouter(), anotherRouter));
    Ice::RouterPrxPtr router = ICE_UNCHECKED_CAST(Ice::RouterPrx, communicator->stringToProxy("dummyrouter"));
    communicator->setDefaultRouter(router);
    base = communicator->stringToProxy("test @ TestAdapter");
    test(Ice::proxyIdentityEqual(base->ice_getRouter(), communicator->getDefaultRouter()));
    communicator->setDefaultRouter(0);
    base = communicator->stringToProxy("test @ TestAdapter");
    test(!base->ice_getRouter());
    cout << "ok" << endl;

    cout << "starting server... " << flush;
    manager->startServer();
    cout << "ok" << endl;

    cout << "testing checked cast... " << flush;
    TestIntfPrxPtr obj = ICE_CHECKED_CAST(TestIntfPrx, base);
    test(obj);
    TestIntfPrxPtr obj2 = ICE_CHECKED_CAST(TestIntfPrx, base2);
    test(obj2);
    TestIntfPrxPtr obj3 = ICE_CHECKED_CAST(TestIntfPrx, base3);
    test(obj3);
    ServerManagerPrxPtr obj4 = ICE_CHECKED_CAST(ServerManagerPrx, base4);
    test(obj4);
    TestIntfPrxPtr obj5 = ICE_CHECKED_CAST(TestIntfPrx, base5);
    test(obj5);
    TestIntfPrxPtr obj6 = ICE_CHECKED_CAST(TestIntfPrx, base6);
    test(obj6);
    cout << "ok" << endl;
 
    cout << "testing id@AdapterId indirect proxy... " << flush;
    obj->shutdown();
    manager->startServer();
    try
    {
        obj2->ice_ping();
    }
    catch(const Ice::LocalException& ex)
    {
        cerr << ex << endl;
        test(false);
    }
    cout << "ok" << endl;    
    
    cout << "testing id@ReplicaGroupId indirect proxy... " << flush;
    obj->shutdown();
    manager->startServer();
    try
    {
        obj6->ice_ping();
    }
    catch(const Ice::LocalException& ex)
    {
        cerr << ex << endl;
        test(false);
    }
    cout << "ok" << endl;    

    cout << "testing identity indirect proxy... " << flush;
    obj->shutdown();
    manager->startServer();
    try
    {
        obj3->ice_ping();
    }
    catch(const Ice::LocalException& ex)
    {
        cerr << ex << endl;
        test(false);
    }
    try
    {
        obj2->ice_ping();
    }
    catch(const Ice::LocalException& ex)
    {
        cerr << ex << endl;
        test(false);
    }
    obj->shutdown();
    manager->startServer();
    try
    {
        obj2->ice_ping();
    }
    catch(const Ice::LocalException& ex)
    {
        cerr << ex << endl;
        test(false);
    }
    try
    {
        obj3->ice_ping();
    }
    catch(const Ice::LocalException& ex)
    {
        cerr << ex << endl;
        test(false);
    }
    obj->shutdown();
    manager->startServer();

    try
    {
        obj2->ice_ping();
    }
    catch(const Ice::LocalException& ex)
    {
        cerr << ex << endl;
        test(false);
    }
    obj->shutdown();
    manager->startServer();
    try
    {
        obj3->ice_ping();
    }
    catch(const Ice::LocalException& ex)
    {
        cerr << ex << endl;
        test(false);
    }
    obj->shutdown();
    manager->startServer();
    try
    {
        obj2->ice_ping();
    }
    catch(const Ice::LocalException& ex)
    {
        cerr << ex << endl;
        test(false);
    }
    obj->shutdown();
    manager->startServer();

    try
    {
        obj5->ice_ping();
    }
    catch(const Ice::LocalException& ex)
    {
        cerr << ex << endl;
        test(false);
    }
    cout << "ok" << endl;

    cout << "testing proxy with unknown identity... " << flush;
    try
    {
        base = communicator->stringToProxy("unknown/unknown");
        base->ice_ping();
        test(false);
    }
    catch (const Ice::NotRegisteredException& ex)
    {
        test(ex.kindOfObject == "object");
        test(ex.id == "unknown/unknown");
    }
    cout << "ok" << endl;

    cout << "testing proxy with unknown adapter... " << flush;
    try
    {
        base = communicator->stringToProxy("test @ TestAdapterUnknown");
        base->ice_ping();
        test(false);
    }
    catch (const Ice::NotRegisteredException& ex)
    {
        test(ex.kindOfObject == "object adapter");
        test(ex.id == "TestAdapterUnknown");
    }
    cout << "ok" << endl;

    cout << "testing locator cache timeout... " << flush;

    int count = locator->getRequestCount();
    communicator->stringToProxy("test@TestAdapter")->ice_locatorCacheTimeout(0)->ice_ping(); // No locator cache.
    test(++count == locator->getRequestCount());
    communicator->stringToProxy("test@TestAdapter")->ice_locatorCacheTimeout(0)->ice_ping(); // No locator cache.
    test(++count == locator->getRequestCount());
    communicator->stringToProxy("test@TestAdapter")->ice_locatorCacheTimeout(1)->ice_ping(); // 1s timeout.
    test(count == locator->getRequestCount());
    IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(1300));
    communicator->stringToProxy("test@TestAdapter")->ice_locatorCacheTimeout(1)->ice_ping(); // 1s timeout.
    test(++count == locator->getRequestCount());

    communicator->stringToProxy("test")->ice_locatorCacheTimeout(0)->ice_ping(); // No locator cache.
    count += 2;
    test(count == locator->getRequestCount());
    communicator->stringToProxy("test")->ice_locatorCacheTimeout(1)->ice_ping(); // 1s timeout
    test(count == locator->getRequestCount());
    IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(1300));
    communicator->stringToProxy("test")->ice_locatorCacheTimeout(1)->ice_ping(); // 1s timeout
    count += 2;
    test(count == locator->getRequestCount());

    communicator->stringToProxy("test@TestAdapter")->ice_locatorCacheTimeout(-1)->ice_ping(); 
    test(count == locator->getRequestCount());
    communicator->stringToProxy("test")->ice_locatorCacheTimeout(-1)->ice_ping();
    test(count == locator->getRequestCount());
    communicator->stringToProxy("test@TestAdapter")->ice_ping(); 
    test(count == locator->getRequestCount());
    communicator->stringToProxy("test")->ice_ping();
    test(count == locator->getRequestCount());

    test(communicator->stringToProxy("test")->ice_locatorCacheTimeout(99)->ice_getLocatorCacheTimeout() == 99);

    cout << "ok" << endl;

    cout << "testing proxy from server... " << flush;
    obj = ICE_CHECKED_CAST(TestIntfPrx, communicator->stringToProxy("test@TestAdapter"));
    HelloPrxPtr hello = obj->getHello();
    test(hello->ice_getAdapterId() == "TestAdapter");
    hello->sayHello();
    hello = obj->getReplicatedHello();
    test(hello->ice_getAdapterId() == "ReplicatedAdapter");
    hello->sayHello();
    cout << "ok" << endl;

    cout << "testing locator request queuing... " << flush;
    hello = obj->getReplicatedHello()->ice_locatorCacheTimeout(0)->ice_connectionCached(false);
    count = locator->getRequestCount();
    hello->ice_ping();
    test(++count == locator->getRequestCount());
    int i;

#ifdef ICE_CPP11_MAPPING
    list<future<void>>  results;
    for(i = 0; i < 1000; i++)
    {
        auto result = make_shared<promise<void>>();
        hello->sayHello_async(
            [result]()
            {
                result->set_value();
            },
            [result](exception_ptr)
            {
                test(false);
            });
        results.push_back(result->get_future());
    }
    for(auto& result : results)
    {
        result.get();
    }
    results.clear();
    test(locator->getRequestCount() > count && locator->getRequestCount() < count + 999);
    if(locator->getRequestCount() > count + 800)
    {
        cout << "queuing = " << locator->getRequestCount() - count;
    }
    count = locator->getRequestCount();
    hello = hello->ice_adapterId("unknown");
    for(i = 0; i < 1000; i++)
    {
        auto result = make_shared<promise<void>>();
        hello->sayHello_async(
            [result]()
            {
                test(false);
            },
            [result](exception_ptr ex)
            {
                try
                {
                    rethrow_exception(ex);
                }
                catch(const Ice::NotRegisteredException&)
                {
                    result->set_value();
                }
                catch(...)
                {
                    test(false);
                }
            });
        results.push_back(result->get_future());
    }
    for(auto& result : results)
    {
        result.get();
    }
    results.clear();
    // Take into account the retries.
    test(locator->getRequestCount() > count && locator->getRequestCount() < count + 1999);
    if(locator->getRequestCount() > count + 800)
    {
        cout << "queuing = " << locator->getRequestCount() - count;
    }
#else
    list<Ice::AsyncResultPtr>  results;
    AMICallbackPtr cb = new AMICallback;
    for(i = 0; i < 1000; i++)
    {
        Ice::AsyncResultPtr result = hello->begin_sayHello(
            newCallback_Hello_sayHello(cb, &AMICallback::response1, &AMICallback::exception1));
        results.push_back(result);
    }
    while(!results.empty())
    {
        Ice::AsyncResultPtr result = results.front();
        results.pop_front();
        result->waitForCompleted();
    }

    test(locator->getRequestCount() > count && locator->getRequestCount() < count + 999);
    if(locator->getRequestCount() > count + 800)
    {
        cout << "queuing = " << locator->getRequestCount() - count;
    }
    count = locator->getRequestCount();
    hello = hello->ice_adapterId("unknown");
    for(i = 0; i < 1000; i++)
    {
        Ice::AsyncResultPtr result = hello->begin_sayHello(
            newCallback_Hello_sayHello(cb, &AMICallback::response2, &AMICallback::exception2));
        results.push_back(result);
    }
    while(!results.empty())
    {
        Ice::AsyncResultPtr result = results.front();
        results.pop_front();
        result->waitForCompleted();
    }
    // Take into account the retries.
    test(locator->getRequestCount() > count && locator->getRequestCount() < count + 1999);
    if(locator->getRequestCount() > count + 800)
    {
        cout << "queuing = " << locator->getRequestCount() - count;
    }
#endif
    cout << "ok" << endl;

    cout << "testing adapter locator cache... " << flush;
    try
    {
        communicator->stringToProxy("test@TestAdapter3")->ice_ping();
        test(false);
    }
    catch(const Ice::NotRegisteredException& ex)
    {
        test(ex.kindOfObject == "object adapter");
        test(ex.id == "TestAdapter3");
    }
    registry->setAdapterDirectProxy("TestAdapter3", locator->findAdapterById("TestAdapter"));
    try
    {
        communicator->stringToProxy("test@TestAdapter3")->ice_ping();
        registry->setAdapterDirectProxy("TestAdapter3", communicator->stringToProxy("dummy:tcp"));
        communicator->stringToProxy("test@TestAdapter3")->ice_ping();
    }
    catch(const Ice::LocalException&)
    {
        test(false);
    }
    
    try
    {
        communicator->stringToProxy("test@TestAdapter3")->ice_locatorCacheTimeout(0)->ice_ping();
        test(false);
    }
    catch(const Ice::LocalException&)
    {
    }
    try
    {
        communicator->stringToProxy("test@TestAdapter3")->ice_ping();
        test(false);
    }
    catch(const Ice::LocalException&)
    {   
    }
    registry->setAdapterDirectProxy("TestAdapter3", locator->findAdapterById("TestAdapter"));
    try
    {
        communicator->stringToProxy("test@TestAdapter3")->ice_ping();
    }
    catch(const Ice::LocalException&)
    {
        test(false);
    }
    cout << "ok" <<endl;

    cout << "testing well-known object locator cache... " << flush;

    registry->addObject(communicator->stringToProxy("test3@TestUnknown"));
    try
    {
        communicator->stringToProxy("test3")->ice_ping();
        test(false);
    }
    catch(const Ice::NotRegisteredException& ex)
    {
        test(ex.kindOfObject == "object adapter");
        test(ex.id == "TestUnknown");
    }
    registry->addObject(communicator->stringToProxy("test3@TestAdapter4")); // Update
    registry->setAdapterDirectProxy("TestAdapter4", communicator->stringToProxy("dummy:tcp"));
    try
    {
        communicator->stringToProxy("test3")->ice_ping();
        test(false);
    }
    catch(const Ice::LocalException&)
    {
    }
    registry->setAdapterDirectProxy("TestAdapter4", locator->findAdapterById("TestAdapter"));
    try
    {
        communicator->stringToProxy("test3")->ice_ping();
    }
    catch(const Ice::LocalException&)
    {
        test(false);
    }

    registry->setAdapterDirectProxy("TestAdapter4", communicator->stringToProxy("dummy:tcp"));
    try
    {
        communicator->stringToProxy("test3")->ice_ping();
    }
    catch(const Ice::LocalException&)
    {
        test(false);
    }

    try
    {
        communicator->stringToProxy("test@TestAdapter4")->ice_locatorCacheTimeout(0)->ice_ping();
        test(false);
    }
    catch(const Ice::LocalException&)
    {
    }
    try
    {
        communicator->stringToProxy("test@TestAdapter4")->ice_ping();
        test(false);
    }
    catch(const Ice::LocalException&)
    {   
    }
    try
    {
        communicator->stringToProxy("test3")->ice_ping();
        test(false);
    }
    catch(const Ice::LocalException&)
    {
    }
    registry->addObject(communicator->stringToProxy("test3@TestAdapter"));
    try
    {
        communicator->stringToProxy("test3")->ice_ping();
    }
    catch(const Ice::LocalException&)
    {
        test(false);
    }
    
    registry->addObject(communicator->stringToProxy("test4"));
    try
    {
        communicator->stringToProxy("test4")->ice_ping();
        test(false);
    }
    catch(const Ice::NoEndpointException&)
    {
    }
    cout << "ok" << endl;

    cout << "testing locator cache background updates... " << flush;
    {
        Ice::InitializationData initData;
        initData.properties = communicator->getProperties()->clone();
        initData.properties->setProperty("Ice.BackgroundLocatorCacheUpdates", "1");
        Ice::CommunicatorPtr ic = Ice::initialize(initData);

        registry->setAdapterDirectProxy("TestAdapter5", locator->findAdapterById("TestAdapter"));
        registry->addObject(communicator->stringToProxy("test3@TestAdapter"));

        int count = locator->getRequestCount();
        ic->stringToProxy("test@TestAdapter5")->ice_locatorCacheTimeout(0)->ice_ping(); // No locator cache.
        ic->stringToProxy("test3")->ice_locatorCacheTimeout(0)->ice_ping(); // No locator cache.
        count += 3;
        test(count == locator->getRequestCount());
        registry->setAdapterDirectProxy("TestAdapter5", 0);
        registry->addObject(communicator->stringToProxy("test3:tcp"));
        ic->stringToProxy("test@TestAdapter5")->ice_locatorCacheTimeout(10)->ice_ping(); // 10s timeout.
        ic->stringToProxy("test3")->ice_locatorCacheTimeout(10)->ice_ping(); // 10s timeout.
        test(count == locator->getRequestCount());
        IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(1200));

        // The following request should trigger the background updates but still use the cached endpoints
        // and therefore succeed.
        ic->stringToProxy("test@TestAdapter5")->ice_locatorCacheTimeout(1)->ice_ping(); // 1s timeout.
        ic->stringToProxy("test3")->ice_locatorCacheTimeout(1)->ice_ping(); // 1s timeout.

        try
        {
            while(true)
            {
                ic->stringToProxy("test@TestAdapter5")->ice_locatorCacheTimeout(1)->ice_ping(); // 1s timeout.
                IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(10));
            }
        }
        catch(const Ice::LocalException&)
        {
            // Expected to fail once they endpoints have been updated in the background.
        }
        try
        {
            while(true)
            {
                ic->stringToProxy("test3")->ice_locatorCacheTimeout(1)->ice_ping(); // 1s timeout.
                IceUtil::ThreadControl::sleep(IceUtil::Time::milliSeconds(10));
            }
        }
        catch(const Ice::LocalException&)
        {
            // Expected to fail once they endpoints have been updated in the background.
        }
        ic->destroy();
    }
    cout << "ok" << endl;

    cout << "testing proxy from server after shutdown... " << flush;
    hello = obj->getReplicatedHello();
    obj->shutdown();
    manager->startServer();
    hello->sayHello();
    cout << "ok" << endl;

    cout << "testing object migration... " << flush;
    hello = ICE_CHECKED_CAST(HelloPrx, communicator->stringToProxy("hello"));
    obj->migrateHello();
    hello->ice_getConnection()->close(false);
    hello->sayHello();
    obj->migrateHello();
    hello->sayHello();
    obj->migrateHello();
    hello->sayHello();
    cout << "ok" << endl;

    cout << "testing locator encoding resolution... " << flush;

    hello = ICE_CHECKED_CAST(HelloPrx, communicator->stringToProxy("hello"));
    count = locator->getRequestCount();
    communicator->stringToProxy("test@TestAdapter")->ice_encodingVersion(Ice::Encoding_1_1)->ice_ping();
    test(count == locator->getRequestCount());
    communicator->stringToProxy("test@TestAdapter10")->ice_encodingVersion(Ice::Encoding_1_0)->ice_ping();
    test(++count == locator->getRequestCount());
    communicator->stringToProxy("test -e 1.0@TestAdapter10-2")->ice_ping();
    test(++count == locator->getRequestCount());

    cout << "ok" << endl;

    cout << "shutdown server... " << flush;
    obj->shutdown();
    cout << "ok" << endl;

    cout << "testing whether server is gone... " << flush;
    try
    {
        obj2->ice_ping();
        test(false);
    }
    catch(const Ice::LocalException&)
    {
    }
    try
    {
        obj3->ice_ping();
        test(false);
    }
    catch(const Ice::LocalException&)
    {
    }
    try
    {
        obj5->ice_ping();
        test(false);
    }
    catch(const Ice::LocalException&)
    {
    }
    cout << "ok" << endl;

    string host = communicator->getProperties()->getPropertyAsIntWithDefault("Ice.IPv6", 0) == 0 ? 
            "127.0.0.1" : "\"0:0:0:0:0:0:0:1\"";
    if(communicator->getProperties()->getProperty("Ice.Default.Host") == host)
    {
        cout << "testing indirect proxies to collocated objects... " << flush;
        //
        // Set up test for calling a collocated object through an indirect, adapterless reference.
        //
        Ice::PropertiesPtr properties = communicator->getProperties();
        properties->setProperty("Ice.PrintAdapterReady", "0");
        Ice::ObjectAdapterPtr adapter = communicator->createObjectAdapterWithEndpoints("Hello", "default");
        adapter->setLocator(locator);

        Ice::Identity id;
        id.name = IceUtil::generateUUID();
        registry->addObject(adapter->add(ICE_MAKE_SHARED(HelloI), id));
        adapter->activate();
        
        HelloPrxPtr helloPrx = ICE_CHECKED_CAST(HelloPrx, communicator->stringToProxy(communicator->identityToString(id)));
        test(!helloPrx->ice_getConnection());

        adapter->deactivate();
        cout << "ok" << endl;
    }
    cout << "shutdown server manager... " << flush;
    manager->shutdown();
    cout << "ok" << endl;
}
Esempio n. 4
0
void
allTests(const Ice::CommunicatorPtr& communicator)
{
    string ref = "communicator:" + getTestEndpoint(communicator, 0);
    RemoteCommunicatorPrxPtr com = ICE_UNCHECKED_CAST(RemoteCommunicatorPrx, communicator->stringToProxy(ref));

    RandomNumberGenerator rng;

    cout << "testing binding with single endpoint... " << flush;
    {
        RemoteObjectAdapterPrxPtr adapter = com->createObjectAdapter("Adapter", "default");

        TestIntfPrxPtr test1 = adapter->getTestIntf();
        TestIntfPrxPtr test2 = adapter->getTestIntf();
        test(test1->ice_getConnection() == test2->ice_getConnection());

        test1->ice_ping();
        test2->ice_ping();

        com->deactivateObjectAdapter(adapter);

        TestIntfPrxPtr test3 = ICE_UNCHECKED_CAST(TestIntfPrx, test1);
        test(test3->ice_getConnection() == test1->ice_getConnection());
        test(test3->ice_getConnection() == test2->ice_getConnection());

        try
        {
            test3->ice_ping();
            test(false);
        }
        catch(const Ice::ConnectFailedException&)
        {
        }
    }
    cout << "ok" << endl;

    cout << "testing binding with multiple endpoints... " << flush;
    {
        vector<RemoteObjectAdapterPrxPtr> adapters;
        adapters.push_back(com->createObjectAdapter("Adapter11", "default"));
        adapters.push_back(com->createObjectAdapter("Adapter12", "default"));
        adapters.push_back(com->createObjectAdapter("Adapter13", "default"));

        //
        // Ensure that when a connection is opened it's reused for new
        // proxies and that all endpoints are eventually tried.
        //
        set<string> names;
        names.insert("Adapter11");
        names.insert("Adapter12");
        names.insert("Adapter13");
        while(!names.empty())
        {
            vector<RemoteObjectAdapterPrxPtr> adpts = adapters;

            TestIntfPrxPtr test1 = createTestIntfPrx(adpts);
            random_shuffle(adpts.begin(), adpts.end(), rng);
            TestIntfPrxPtr test2 = createTestIntfPrx(adpts);
            random_shuffle(adpts.begin(), adpts.end(), rng);
            TestIntfPrxPtr test3 = createTestIntfPrx(adpts);

            test(test1->ice_getConnection() == test2->ice_getConnection());
            test(test2->ice_getConnection() == test3->ice_getConnection());

            names.erase(test1->getAdapterName());
            test1->ice_getConnection()->close(false);
        }

        //
        // Ensure that the proxy correctly caches the connection (we
        // always send the request over the same connection.)
        //
        {
            for(vector<RemoteObjectAdapterPrxPtr>::const_iterator p = adapters.begin(); p != adapters.end(); ++p)
            {
                (*p)->getTestIntf()->ice_ping();
            }

            TestIntfPrxPtr test = createTestIntfPrx(adapters);
            string name = test->getAdapterName();
            const int nRetry = 10;
            int i;
            for(i = 0; i < nRetry &&  test->getAdapterName() == name; i++);
            test(i == nRetry);

            for(vector<RemoteObjectAdapterPrxPtr>::const_iterator q = adapters.begin(); q != adapters.end(); ++q)
            {
                (*q)->getTestIntf()->ice_getConnection()->close(false);
            }
        }

        //
        // Deactivate an adapter and ensure that we can still
        // establish the connection to the remaining adapters.
        //
        com->deactivateObjectAdapter(adapters[0]);
        names.insert("Adapter12");
        names.insert("Adapter13");
        while(!names.empty())
        {
            vector<RemoteObjectAdapterPrxPtr> adpts = adapters;

            TestIntfPrxPtr test1 = createTestIntfPrx(adpts);
            random_shuffle(adpts.begin(), adpts.end(), rng);
            TestIntfPrxPtr test2 = createTestIntfPrx(adpts);
            random_shuffle(adpts.begin(), adpts.end(), rng);
            TestIntfPrxPtr test3 = createTestIntfPrx(adpts);

            test(test1->ice_getConnection() == test2->ice_getConnection());
            test(test2->ice_getConnection() == test3->ice_getConnection());

            names.erase(test1->getAdapterName());
            test1->ice_getConnection()->close(false);
        }

        //
        // Deactivate an adapter and ensure that we can still
        // establish the connection to the remaining adapter.
        //
        com->deactivateObjectAdapter(adapters[2]);
        TestIntfPrxPtr test = createTestIntfPrx(adapters);
        test(test->getAdapterName() == "Adapter12");

        deactivate(com, adapters);
    }
    cout << "ok" << endl;

    cout << "testing binding with multiple random endpoints... " << flush;
    {
        vector<RemoteObjectAdapterPrxPtr> adapters;
        adapters.push_back(com->createObjectAdapter("AdapterRandom11", "default"));
        adapters.push_back(com->createObjectAdapter("AdapterRandom12", "default"));
        adapters.push_back(com->createObjectAdapter("AdapterRandom13", "default"));
        adapters.push_back(com->createObjectAdapter("AdapterRandom14", "default"));
        adapters.push_back(com->createObjectAdapter("AdapterRandom15", "default"));

#ifdef _WIN32
        int count = 60;
#else
        int count = 20;
#endif
        int adapterCount = static_cast<int>(adapters.size());
        while(--count > 0)
        {
#ifdef _WIN32
            if(count == 10)
            {
                com->deactivateObjectAdapter(adapters[4]);
                --adapterCount;
            }
            vector<TestIntfPrxPtr> proxies;
            proxies.resize(10);
#else
            if(count < 60 && count % 10 == 0)
            {
                com->deactivateObjectAdapter(adapters[count / 10 - 1]);
                --adapterCount;
            }
            vector<TestIntfPrxPtr> proxies;
            proxies.resize(40);
#endif
            unsigned int i;
            for(i = 0; i < proxies.size(); ++i)
            {
                vector<RemoteObjectAdapterPrxPtr> adpts;
                adpts.resize(IceUtilInternal::random(static_cast<int>(adapters.size())));
                if(adpts.empty())
                {
                    adpts.resize(1);
                }
                for(vector<RemoteObjectAdapterPrxPtr>::iterator p = adpts.begin(); p != adpts.end(); ++p)
                {
                    *p = adapters[IceUtilInternal::random(static_cast<int>(adapters.size()))];
                }
                proxies[i] = createTestIntfPrx(adpts);
            }

            for(i = 0; i < proxies.size(); i++)
            {
#ifdef ICE_CPP11_MAPPING
                proxies[i]->getAdapterName_async();
#else
                proxies[i]->begin_getAdapterName();
#endif
            }
            for(i = 0; i < proxies.size(); i++)
            {
                try
                {
                    proxies[i]->ice_ping();
                }
                catch(const Ice::LocalException&)
                {
                }
            }
            set<Ice::ConnectionPtr> connections;
            for(i = 0; i < proxies.size(); i++)
            {
                if(proxies[i]->ice_getCachedConnection())
                {
                    connections.insert(proxies[i]->ice_getCachedConnection());
                }
            }
            test(static_cast<int>(connections.size()) <= adapterCount);

            for(vector<RemoteObjectAdapterPrxPtr>::const_iterator q = adapters.begin(); q != adapters.end(); ++q)
            {
                try
                {
                    (*q)->getTestIntf()->ice_getConnection()->close(false);
                }
                catch(const Ice::LocalException&)
                {
                    // Expected if adapter is down.
                }
            }
        }
    }
    cout << "ok" << endl;

    cout << "testing binding with multiple endpoints and AMI... " << flush;
    {
        vector<RemoteObjectAdapterPrxPtr> adapters;
        adapters.push_back(com->createObjectAdapter("AdapterAMI11", "default"));
        adapters.push_back(com->createObjectAdapter("AdapterAMI12", "default"));
        adapters.push_back(com->createObjectAdapter("AdapterAMI13", "default"));

        //
        // Ensure that when a connection is opened it's reused for new
        // proxies and that all endpoints are eventually tried.
        //
        set<string> names;
        names.insert("AdapterAMI11");
        names.insert("AdapterAMI12");
        names.insert("AdapterAMI13");
        while(!names.empty())
        {
            vector<RemoteObjectAdapterPrxPtr> adpts = adapters;

            TestIntfPrxPtr test1 = createTestIntfPrx(adpts);
            random_shuffle(adpts.begin(), adpts.end(), rng);
            TestIntfPrxPtr test2 = createTestIntfPrx(adpts);
            random_shuffle(adpts.begin(), adpts.end(), rng);
            TestIntfPrxPtr test3 = createTestIntfPrx(adpts);

            test(test1->ice_getConnection() == test2->ice_getConnection());
            test(test2->ice_getConnection() == test3->ice_getConnection());

            names.erase(getAdapterNameWithAMI(test1));
            test1->ice_getConnection()->close(false);
        }

        //
        // Ensure that the proxy correctly caches the connection (we
        // always send the request over the same connection.)
        //
        {
            for(vector<RemoteObjectAdapterPrxPtr>::const_iterator p = adapters.begin(); p != adapters.end(); ++p)
            {
                (*p)->getTestIntf()->ice_ping();
            }

            TestIntfPrxPtr test = createTestIntfPrx(adapters);
            string name = getAdapterNameWithAMI(test);
            const int nRetry = 10;
            int i;
            for(i = 0; i < nRetry && getAdapterNameWithAMI(test) == name; i++);
            test(i == nRetry);

            for(vector<RemoteObjectAdapterPrxPtr>::const_iterator q = adapters.begin(); q != adapters.end(); ++q)
            {
                (*q)->getTestIntf()->ice_getConnection()->close(false);
            }
        }

        //
        // Deactivate an adapter and ensure that we can still
        // establish the connection to the remaining adapters.
        //
        com->deactivateObjectAdapter(adapters[0]);
        names.insert("AdapterAMI12");
        names.insert("AdapterAMI13");
        while(!names.empty())
        {
            vector<RemoteObjectAdapterPrxPtr> adpts = adapters;

            TestIntfPrxPtr test1 = createTestIntfPrx(adpts);
            random_shuffle(adpts.begin(), adpts.end(), rng);
            TestIntfPrxPtr test2 = createTestIntfPrx(adpts);
            random_shuffle(adpts.begin(), adpts.end(), rng);
            TestIntfPrxPtr test3 = createTestIntfPrx(adpts);

            test(test1->ice_getConnection() == test2->ice_getConnection());
            test(test2->ice_getConnection() == test3->ice_getConnection());

            names.erase(test1->getAdapterName());
            test1->ice_getConnection()->close(false);
        }

        //
        // Deactivate an adapter and ensure that we can still
        // establish the connection to the remaining adapter.
        //
        com->deactivateObjectAdapter(adapters[2]);
        TestIntfPrxPtr test = createTestIntfPrx(adapters);
        test(test->getAdapterName() == "AdapterAMI12");

        deactivate(com, adapters);
    }
    cout << "ok" << endl;

    cout << "testing random endpoint selection... " << flush;
    {
        vector<RemoteObjectAdapterPrxPtr> adapters;
        adapters.push_back(com->createObjectAdapter("Adapter21", "default"));
        adapters.push_back(com->createObjectAdapter("Adapter22", "default"));
        adapters.push_back(com->createObjectAdapter("Adapter23", "default"));

        TestIntfPrxPtr test = createTestIntfPrx(adapters);
        test(test->ice_getEndpointSelection() == Ice::Random);

        set<string> names;
        names.insert("Adapter21");
        names.insert("Adapter22");
        names.insert("Adapter23");
        while(!names.empty())
        {
            names.erase(test->getAdapterName());
            test->ice_getConnection()->close(false);
        }

        test = ICE_UNCHECKED_CAST(TestIntfPrx, test->ice_endpointSelection(Ice::Random));
        test(test->ice_getEndpointSelection() == Ice::Random);

        names.insert("Adapter21");
        names.insert("Adapter22");
        names.insert("Adapter23");
        while(!names.empty())
        {
            names.erase(test->getAdapterName());
            test->ice_getConnection()->close(false);
        }

        deactivate(com, adapters);
    }
    cout << "ok" << endl;

    cout << "testing ordered endpoint selection... " << flush;
    {
        vector<RemoteObjectAdapterPrxPtr> adapters;
        adapters.push_back(com->createObjectAdapter("Adapter31", "default"));
        adapters.push_back(com->createObjectAdapter("Adapter32", "default"));
        adapters.push_back(com->createObjectAdapter("Adapter33", "default"));

        TestIntfPrxPtr test = createTestIntfPrx(adapters);
        test = ICE_UNCHECKED_CAST(TestIntfPrx, test->ice_endpointSelection(Ice::Ordered));
        test(test->ice_getEndpointSelection() == Ice::Ordered);
        const int nRetry = 5;
        int i;

        //
        // Ensure that endpoints are tried in order by deactiving the adapters
        // one after the other.
        //
        for(i = 0; i < nRetry && test->getAdapterName() == "Adapter31"; i++);
#if TARGET_OS_IPHONE > 0
        if(i != nRetry)
        {
            test->ice_getConnection()->close(false);
            for(i = 0; i < nRetry && test->getAdapterName() == "Adapter31"; i++);
        }
#endif
        test(i == nRetry);
        com->deactivateObjectAdapter(adapters[0]);
        for(i = 0; i < nRetry && test->getAdapterName() == "Adapter32"; i++);
#if TARGET_OS_IPHONE > 0
        if(i != nRetry)
        {
            test->ice_getConnection()->close(false);
            for(i = 0; i < nRetry && test->getAdapterName() == "Adapter32"; i++);
        }
#endif
        test(i == nRetry);
        com->deactivateObjectAdapter(adapters[1]);
        for(i = 0; i < nRetry && test->getAdapterName() == "Adapter33"; i++);
#if TARGET_OS_IPHONE > 0
        if(i != nRetry)
        {
            test->ice_getConnection()->close(false);
            for(i = 0; i < nRetry && test->getAdapterName() == "Adapter33"; i++);
        }
#endif
        test(i == nRetry);
        com->deactivateObjectAdapter(adapters[2]);

        try
        {
            test->getAdapterName();
        }
        catch(const Ice::ConnectFailedException&)
        {
        }

        Ice::EndpointSeq endpoints = test->ice_getEndpoints();

        adapters.clear();

        //
        // Now, re-activate the adapters with the same endpoints in the opposite
        // order.
        //
        adapters.push_back(com->createObjectAdapter("Adapter36", endpoints[2]->toString()));
        for(i = 0; i < nRetry && test->getAdapterName() == "Adapter36"; i++);
#if TARGET_OS_IPHONE > 0
        if(i != nRetry)
        {
            test->ice_getConnection()->close(false);
            for(i = 0; i < nRetry && test->getAdapterName() == "Adapter36"; i++);
        }
#endif
        test(i == nRetry);
        test->ice_getConnection()->close(false);
        adapters.push_back(com->createObjectAdapter("Adapter35", endpoints[1]->toString()));
        for(i = 0; i < nRetry && test->getAdapterName() == "Adapter35"; i++);
#if TARGET_OS_IPHONE > 0
        if(i != nRetry)
        {
            test->ice_getConnection()->close(false);
            for(i = 0; i < nRetry && test->getAdapterName() == "Adapter35"; i++);
        }
#endif
        test(i == nRetry);
        test->ice_getConnection()->close(false);
        adapters.push_back(com->createObjectAdapter("Adapter34", endpoints[0]->toString()));
        for(i = 0; i < nRetry && test->getAdapterName() == "Adapter34"; i++);
#if TARGET_OS_IPHONE > 0
        if(i != nRetry)
        {
            test->ice_getConnection()->close(false);
            for(i = 0; i < nRetry && test->getAdapterName() == "Adapter34"; i++);
        }
#endif
        test(i == nRetry);

        deactivate(com, adapters);
    }
    cout << "ok" << endl;

    cout << "testing per request binding with single endpoint... " << flush;
    {
        RemoteObjectAdapterPrxPtr adapter = com->createObjectAdapter("Adapter41", "default");

        TestIntfPrxPtr test1 = ICE_UNCHECKED_CAST(TestIntfPrx, adapter->getTestIntf()->ice_connectionCached(false));
        TestIntfPrxPtr test2 = ICE_UNCHECKED_CAST(TestIntfPrx, adapter->getTestIntf()->ice_connectionCached(false));
        test(!test1->ice_isConnectionCached());
        test(!test2->ice_isConnectionCached());
        test(test1->ice_getConnection() == test2->ice_getConnection());

        test1->ice_ping();

        com->deactivateObjectAdapter(adapter);

        TestIntfPrxPtr test3 = ICE_UNCHECKED_CAST(TestIntfPrx, test1);
        try
        {
            test(test3->ice_getConnection() == test1->ice_getConnection());
            test(false);
        }
        catch(const Ice::ConnectFailedException&)
        {
        }
    }
    cout << "ok" << endl;

    cout << "testing per request binding with multiple endpoints... " << flush;
    {
        vector<RemoteObjectAdapterPrxPtr> adapters;
        adapters.push_back(com->createObjectAdapter("Adapter51", "default"));
        adapters.push_back(com->createObjectAdapter("Adapter52", "default"));
        adapters.push_back(com->createObjectAdapter("Adapter53", "default"));

        TestIntfPrxPtr test = ICE_UNCHECKED_CAST(TestIntfPrx, createTestIntfPrx(adapters)->ice_connectionCached(false));
        test(!test->ice_isConnectionCached());

        set<string> names;
        names.insert("Adapter51");
        names.insert("Adapter52");
        names.insert("Adapter53");
        while(!names.empty())
        {
            names.erase(test->getAdapterName());
        }

        com->deactivateObjectAdapter(adapters[0]);

        names.insert("Adapter52");
        names.insert("Adapter53");
        while(!names.empty())
        {
            names.erase(test->getAdapterName());
        }

        com->deactivateObjectAdapter(adapters[2]);

        test(test->getAdapterName() == "Adapter52");

        deactivate(com, adapters);
    }
    cout << "ok" << endl;

    cout << "testing per request binding with multiple endpoints and AMI... " << flush;
    {
        vector<RemoteObjectAdapterPrxPtr> adapters;
        adapters.push_back(com->createObjectAdapter("AdapterAMI51", "default"));
        adapters.push_back(com->createObjectAdapter("AdapterAMI52", "default"));
        adapters.push_back(com->createObjectAdapter("AdapterAMI53", "default"));

        TestIntfPrxPtr test = ICE_UNCHECKED_CAST(TestIntfPrx, createTestIntfPrx(adapters)->ice_connectionCached(false));
        test(!test->ice_isConnectionCached());

        set<string> names;
        names.insert("AdapterAMI51");
        names.insert("AdapterAMI52");
        names.insert("AdapterAMI53");
        while(!names.empty())
        {
            names.erase(getAdapterNameWithAMI(test));
        }

        com->deactivateObjectAdapter(adapters[0]);

        names.insert("AdapterAMI52");
        names.insert("AdapterAMI53");
        while(!names.empty())
        {
            names.erase(getAdapterNameWithAMI(test));
        }

        com->deactivateObjectAdapter(adapters[2]);

        test(test->getAdapterName() == "AdapterAMI52");

        deactivate(com, adapters);
    }
    cout << "ok" << endl;

    cout << "testing per request binding and ordered endpoint selection... " << flush;
    {
        vector<RemoteObjectAdapterPrxPtr> adapters;
        adapters.push_back(com->createObjectAdapter("Adapter61", "default"));
        adapters.push_back(com->createObjectAdapter("Adapter62", "default"));
        adapters.push_back(com->createObjectAdapter("Adapter63", "default"));

        TestIntfPrxPtr test = createTestIntfPrx(adapters);
        test = ICE_UNCHECKED_CAST(TestIntfPrx, test->ice_endpointSelection(Ice::Ordered));
        test(test->ice_getEndpointSelection() == Ice::Ordered);
        test = ICE_UNCHECKED_CAST(TestIntfPrx, test->ice_connectionCached(false));
        test(!test->ice_isConnectionCached());
        const int nRetry = 5;
        int i;

        //
        // Ensure that endpoints are tried in order by deactiving the adapters
        // one after the other.
        //
        for(i = 0; i < nRetry && test->getAdapterName() == "Adapter61"; i++);
#if TARGET_OS_IPHONE > 0
        test(i >= nRetry - 1); // WORKAROUND: for connection establishment hang.
#else
        test(i == nRetry);
#endif
        com->deactivateObjectAdapter(adapters[0]);
        for(i = 0; i < nRetry && test->getAdapterName() == "Adapter62"; i++);
#if TARGET_OS_IPHONE > 0
        test(i >= nRetry - 1); // WORKAROUND: for connection establishment hang.
#else
        test(i == nRetry);
#endif
        com->deactivateObjectAdapter(adapters[1]);
        for(i = 0; i < nRetry && test->getAdapterName() == "Adapter63"; i++);
#if TARGET_OS_IPHONE > 0
        test(i >= nRetry - 1); // WORKAROUND: for connection establishment hang.
#else
        test(i == nRetry);
#endif
        com->deactivateObjectAdapter(adapters[2]);

        try
        {
            test->getAdapterName();
        }
        catch(const Ice::ConnectFailedException&)
        {
        }

        Ice::EndpointSeq endpoints = test->ice_getEndpoints();

        adapters.clear();

        //
        // Now, re-activate the adapters with the same endpoints in the opposite
        // order.
        //
        adapters.push_back(com->createObjectAdapter("Adapter66", endpoints[2]->toString()));
        for(i = 0; i < nRetry && test->getAdapterName() == "Adapter66"; i++);
#if TARGET_OS_IPHONE > 0
        test(i >= nRetry - 1); // WORKAROUND: for connection establishment hang.
#else
        test(i == nRetry);
#endif
        adapters.push_back(com->createObjectAdapter("Adapter65", endpoints[1]->toString()));
        for(i = 0; i < nRetry && test->getAdapterName() == "Adapter65"; i++);
#if TARGET_OS_IPHONE > 0
        test(i >= nRetry - 1); // WORKAROUND: for connection establishment hang.
#else
        test(i == nRetry);
#endif
        adapters.push_back(com->createObjectAdapter("Adapter64", endpoints[0]->toString()));
        for(i = 0; i < nRetry && test->getAdapterName() == "Adapter64"; i++);
#if TARGET_OS_IPHONE > 0
        test(i >= nRetry - 1); // WORKAROUND: for connection establishment hang.
#else
        test(i == nRetry);
#endif

        deactivate(com, adapters);
    }
    cout << "ok" << endl;

    cout << "testing per request binding and ordered endpoint selection and AMI... " << flush;
    {
        vector<RemoteObjectAdapterPrxPtr> adapters;
        adapters.push_back(com->createObjectAdapter("AdapterAMI61", "default"));
        adapters.push_back(com->createObjectAdapter("AdapterAMI62", "default"));
        adapters.push_back(com->createObjectAdapter("AdapterAMI63", "default"));

        TestIntfPrxPtr test = createTestIntfPrx(adapters);
        test = ICE_UNCHECKED_CAST(TestIntfPrx, test->ice_endpointSelection(Ice::Ordered));
        test(test->ice_getEndpointSelection() == Ice::Ordered);
        test = ICE_UNCHECKED_CAST(TestIntfPrx, test->ice_connectionCached(false));
        test(!test->ice_isConnectionCached());
        const int nRetry = 5;
        int i;

        //
        // Ensure that endpoints are tried in order by deactiving the adapters
        // one after the other.
        //
        for(i = 0; i < nRetry && getAdapterNameWithAMI(test) == "AdapterAMI61"; i++);
#if TARGET_OS_IPHONE > 0
        test(i >= nRetry - 1); // WORKAROUND: for connection establishment hang.
#else
        test(i == nRetry);
#endif
        com->deactivateObjectAdapter(adapters[0]);
        for(i = 0; i < nRetry && getAdapterNameWithAMI(test) == "AdapterAMI62"; i++);
#if TARGET_OS_IPHONE > 0
        test(i >= nRetry - 1); // WORKAROUND: for connection establishment hang.
#else
        test(i == nRetry);
#endif
        com->deactivateObjectAdapter(adapters[1]);
        for(i = 0; i < nRetry && getAdapterNameWithAMI(test) == "AdapterAMI63"; i++);
#if TARGET_OS_IPHONE > 0
        test(i >= nRetry - 1); // WORKAROUND: for connection establishment hang.
#else
        test(i == nRetry);
#endif
        com->deactivateObjectAdapter(adapters[2]);

        try
        {
            test->getAdapterName();
        }
        catch(const Ice::ConnectFailedException&)
        {
        }

        Ice::EndpointSeq endpoints = test->ice_getEndpoints();

        adapters.clear();

        //
        // Now, re-activate the adapters with the same endpoints in the opposite
        // order.
        //
        adapters.push_back(com->createObjectAdapter("AdapterAMI66", endpoints[2]->toString()));
        for(i = 0; i < nRetry && getAdapterNameWithAMI(test) == "AdapterAMI66"; i++);
#if TARGET_OS_IPHONE > 0
        test(i >= nRetry - 1); // WORKAROUND: for connection establishment hang.
#else
        test(i == nRetry);
#endif
        adapters.push_back(com->createObjectAdapter("AdapterAMI65", endpoints[1]->toString()));
        for(i = 0; i < nRetry && getAdapterNameWithAMI(test) == "AdapterAMI65"; i++);
        test(i == nRetry);
        adapters.push_back(com->createObjectAdapter("AdapterAMI64", endpoints[0]->toString()));
        for(i = 0; i < nRetry && getAdapterNameWithAMI(test) == "AdapterAMI64"; i++);
        test(i == nRetry);

        deactivate(com, adapters);
    }
    cout << "ok" << endl;

    cout << "testing endpoint mode filtering... " << flush;
    {
        vector<RemoteObjectAdapterPrxPtr> adapters;
        adapters.push_back(com->createObjectAdapter("Adapter71", "default"));
        adapters.push_back(com->createObjectAdapter("Adapter72", "udp"));

        TestIntfPrxPtr test = createTestIntfPrx(adapters);
        test(test->getAdapterName() == "Adapter71");

        TestIntfPrxPtr testUDP = ICE_UNCHECKED_CAST(TestIntfPrx, test->ice_datagram());
        test(test->ice_getConnection() != testUDP->ice_getConnection());
        try
        {
            testUDP->getAdapterName();
        }
        catch(const Ice::TwowayOnlyException&)
        {
        }
        catch(const IceUtil::IllegalArgumentException&)
        {
        }
    }
    cout << "ok" << endl;

    if(!communicator->getProperties()->getProperty("Ice.Plugin.IceSSL").empty() &&
            communicator->getProperties()->getProperty("Ice.Default.Protocol") == "ssl")
    {
        cout << "testing unsecure vs. secure endpoints... " << flush;
        {
            vector<RemoteObjectAdapterPrxPtr> adapters;
            adapters.push_back(com->createObjectAdapter("Adapter81", "ssl"));
            adapters.push_back(com->createObjectAdapter("Adapter82", "tcp"));

            TestIntfPrxPtr test = createTestIntfPrx(adapters);
            int i;
            for(i = 0; i < 5; i++)
            {
                test(test->getAdapterName() == "Adapter82");
                test->ice_getConnection()->close(false);
            }

            TestIntfPrxPtr testSecure = ICE_UNCHECKED_CAST(TestIntfPrx, test->ice_secure(true));
            test(testSecure->ice_isSecure());
            testSecure = ICE_UNCHECKED_CAST(TestIntfPrx, test->ice_secure(false));
            test(!testSecure->ice_isSecure());
            testSecure = ICE_UNCHECKED_CAST(TestIntfPrx, test->ice_secure(true));
            test(testSecure->ice_isSecure());
            test(test->ice_getConnection() != testSecure->ice_getConnection());

            com->deactivateObjectAdapter(adapters[1]);

            for(i = 0; i < 5; i++)
            {
                test(test->getAdapterName() == "Adapter81");
                test->ice_getConnection()->close(false);
            }

            com->createObjectAdapter("Adapter83", (test->ice_getEndpoints()[1])->toString()); // Reactive tcp OA.

            for(i = 0; i < 5; i++)
            {
                test(test->getAdapterName() == "Adapter83");
                test->ice_getConnection()->close(false);
            }

            com->deactivateObjectAdapter(adapters[0]);
            try
            {
                testSecure->ice_ping();
                test(false);
            }
            catch(const Ice::ConnectFailedException&)
            {
            }

            deactivate(com, adapters);
        }
        cout << "ok" << endl;
    }

    {
        cout << "testing ipv4 & ipv6 connections... " << flush;

        Ice::PropertiesPtr ipv4 = Ice::createProperties();
        ipv4->setProperty("Ice.IPv4", "1");
        ipv4->setProperty("Ice.IPv6", "0");
        ipv4->setProperty("Adapter.Endpoints", "tcp -h localhost");

        Ice::PropertiesPtr ipv6 = Ice::createProperties();
        ipv6->setProperty("Ice.IPv4", "0");
        ipv6->setProperty("Ice.IPv6", "1");
        ipv6->setProperty("Adapter.Endpoints", "tcp -h localhost");

        Ice::PropertiesPtr bothPreferIPv4 = Ice::createProperties();
        bothPreferIPv4->setProperty("Ice.IPv4", "1");
        bothPreferIPv4->setProperty("Ice.IPv6", "1");
        bothPreferIPv4->setProperty("Ice.PreferIPv6Address", "0");
        bothPreferIPv4->setProperty("Adapter.Endpoints", "tcp -h localhost");

        Ice::PropertiesPtr bothPreferIPv6 = Ice::createProperties();
        bothPreferIPv6->setProperty("Ice.IPv4", "1");
        bothPreferIPv6->setProperty("Ice.IPv6", "1");
        bothPreferIPv6->setProperty("Ice.PreferIPv6Address", "1");
        bothPreferIPv6->setProperty("Adapter.Endpoints", "tcp -h localhost");

        vector<Ice::PropertiesPtr> clientProps;
        clientProps.push_back(ipv4);
        clientProps.push_back(ipv6);
        clientProps.push_back(bothPreferIPv4);
        clientProps.push_back(bothPreferIPv6);

        Ice::PropertiesPtr anyipv4 = ipv4->clone();
        anyipv4->setProperty("Adapter.Endpoints", "tcp -p 12012");
        anyipv4->setProperty("Adapter.PublishedEndpoints", "tcp -h 127.0.0.1 -p 12012");

        Ice::PropertiesPtr anyipv6 = ipv6->clone();
        anyipv6->setProperty("Adapter.Endpoints", "tcp -p 12012");
        anyipv6->setProperty("Adapter.PublishedEndpoints", "tcp -h \"::1\" -p 12012");

        Ice::PropertiesPtr anyboth = Ice::createProperties();
        anyboth->setProperty("Ice.IPv4", "1");
        anyboth->setProperty("Ice.IPv6", "1");
        anyboth->setProperty("Adapter.Endpoints", "tcp -p 12012");
        anyboth->setProperty("Adapter.PublishedEndpoints", "tcp -h \"::1\" -p 12012:tcp -h 127.0.0.1 -p 12012");

        Ice::PropertiesPtr localipv4 = ipv4->clone();
        localipv4->setProperty("Adapter.Endpoints", "tcp -h 127.0.0.1");

        Ice::PropertiesPtr localipv6 = ipv6->clone();
        localipv6->setProperty("Adapter.Endpoints", "tcp -h \"::1\"");

        vector<Ice::PropertiesPtr> serverProps = clientProps;
        serverProps.push_back(anyipv4);
        serverProps.push_back(anyipv6);
        serverProps.push_back(anyboth);
        serverProps.push_back(localipv4);
        serverProps.push_back(localipv6);

#if defined(_WIN32) && !defined(ICE_OS_WINRT)
        OSVERSIONINFO ver;
        ver.dwOSVersionInfoSize = sizeof(OSVERSIONINFO);
#  if defined(_MSC_VER) && _MSC_VER >= 1800
#    pragma warning (disable : 4996)
#  endif
        GetVersionEx(&ver);
#  if defined(_MSC_VER) && _MSC_VER >= 1800
#    pragma warning (default : 4996)
#  endif
        const bool dualStack = ver.dwMajorVersion >= 6; // Windows XP IPv6 doesn't support dual-stack
#else
        const bool dualStack = true;
#endif

        bool ipv6NotSupported = false;
        for(vector<Ice::PropertiesPtr>::const_iterator p = serverProps.begin(); p != serverProps.end(); ++p)
        {
            Ice::InitializationData serverInitData;
            serverInitData.properties = *p;
            Ice::CommunicatorPtr serverCommunicator = Ice::initialize(serverInitData);
            Ice::ObjectAdapterPtr oa;
            try
            {
                oa = serverCommunicator->createObjectAdapter("Adapter");
                oa->activate();
            }
            catch(const Ice::DNSException&)
            {
                serverCommunicator->destroy();
                continue; // IP version not supported.
            }
            catch(const Ice::SocketException&)
            {
                if(*p == ipv6)
                {
                    ipv6NotSupported = true;
                }
                serverCommunicator->destroy();
                continue; // IP version not supported.
            }

            // Ensure the published endpoints are actually valid. On
            // Fedora, binding to "localhost" with IPv6 only works but
            // resolving localhost don't return the IPv6 adress.
            Ice::ObjectPrxPtr prx = oa->createProxy(serverCommunicator->stringToIdentity("dummy"));
            try
            {
                prx->ice_collocationOptimized(false)->ice_ping();
            }
            catch(const Ice::LocalException&)
            {
                serverCommunicator->destroy();
                continue; // IP version not supported.
            }

            string strPrx = prx->ice_toString();
            for(vector<Ice::PropertiesPtr>::const_iterator q = clientProps.begin(); q != clientProps.end(); ++q)
            {
                Ice::InitializationData clientInitData;
                clientInitData.properties = *q;
                Ice::CommunicatorHolder clientCommunicator = Ice::initialize(clientInitData);
                Ice::ObjectPrxPtr prx = clientCommunicator->stringToProxy(strPrx);
                try
                {
                    prx->ice_ping();
                    test(false);
                }
                catch(const Ice::ObjectNotExistException&)
                {
                    // Expected, no object registered.
                }
                catch(const Ice::DNSException&)
                {
                    // Expected if no IPv4 or IPv6 address is
                    // associated to localhost or if trying to connect
                    // to an any endpoint with the wrong IP version,
                    // e.g.: resolving an IPv4 address when only IPv6
                    // is enabled fails with a DNS exception.
                }
                catch(const Ice::SocketException&)
                {
                    test((*p == ipv4 && *q == ipv6) || (*p == ipv6 && *q == ipv4) ||
                         (*p == bothPreferIPv4 && *q == ipv6) || (*p == bothPreferIPv6 && *q == ipv4) ||
                         (*p == bothPreferIPv6 && *q == ipv6 && ipv6NotSupported) ||
                         (*p == anyipv4 && *q == ipv6) || (*p == anyipv6 && *q == ipv4) ||
                         (*p == anyboth && *q == ipv4 && !dualStack) ||
                         (*p == localipv4 && *q == ipv6) || (*p == localipv6 && *q == ipv4) ||
                         (*p == ipv6 && *q == bothPreferIPv4) || (*p == ipv6 && *q == bothPreferIPv6) ||
                         (*p == bothPreferIPv6 && *q == ipv6));
                }
            }
            serverCommunicator->destroy();
        }

        cout << "ok" << endl;
    }

    com->shutdown();
}