Exemplo n.º 1
0
    void opString(const Ice::AsyncResultPtr& result)
    {
        string cmp = testString;
        if(_useCookie)
        {
            CookiePtr cookie = CookiePtr::dynamicCast(result->getCookie());
            cmp = cookie->getString();
        }

        Ice::ByteSeq outParams;
        if(result->getProxy()->end_ice_invoke(outParams, result))
        {
            Ice::InputStream in(_communicator, result->getProxy()->ice_getEncodingVersion(), outParams);
            in.startEncapsulation();
            string s;
            in.read(s);
            test(s == cmp);
            in.read(s);
            test(s == cmp);
            in.endEncapsulation();
            called();
        }
        else
        {
            test(false);
        }
    }
Exemplo n.º 2
0
    void opException(const Ice::AsyncResultPtr& result)
    {
        if(_useCookie)
        {
            CookiePtr cookie = CookiePtr::dynamicCast(result->getCookie());
            test(cookie->getString() == testString);
        }

        Ice::ByteSeq outParams;
        if(result->getProxy()->end_ice_invoke(outParams, result))
        {
            test(false);
        }
        else
        {
            Ice::InputStreamPtr in = Ice::createInputStream(_communicator, outParams);
            try
            {
                in->throwException();
            }
            catch(const Test::MyException&)
            {
                called();
            }
            catch(...)
            {
                test(false);
            }
        }
    }
Exemplo n.º 3
0
    void opString(const Ice::AsyncResultPtr& result)
    {
        string cmp = testString;
        if(_useCookie)
        {
            CookiePtr cookie = CookiePtr::dynamicCast(result->getCookie());
            cmp = cookie->getString();
        }

        Ice::ByteSeq outParams;
        if(result->getProxy()->end_ice_invoke(outParams, result))
        {
            Ice::InputStreamPtr in = Ice::createInputStream(_communicator, outParams);
            string s;
            in->read(s);
            test(s == cmp);
            in->read(s);
            test(s == cmp);
            called();
        }
        else
        {
            test(false);
        };
    }
::std::string
IceProxy::com::pera::base::runtime::remote::RobotRemoteService::end_runLocalRobotStart(const ::Ice::AsyncResultPtr& __result)
{
    ::Ice::AsyncResult::__check(__result, this, __com__pera__base__runtime__remote__RobotRemoteService__runLocalRobotStart_name);
    ::std::string __ret;
    bool __ok = __result->__wait();
    try
    {
        if(!__ok)
        {
            try
            {
                __result->__throwUserException();
            }
            catch(const ::com::pera::base::runtime::remote::RemoteException&)
            {
                throw;
            }
            catch(const ::Ice::UserException& __ex)
            {
                throw ::Ice::UnknownUserException(__FILE__, __LINE__, __ex.ice_name());
            }
        }
        ::IceInternal::BasicStream* __is = __result->__startReadParams();
        __is->read(__ret);
        __result->__endReadParams();
        return __ret;
    }
    catch(const ::Ice::LocalException& ex)
    {
        __result->__getObserver().failed(ex.ice_name());
        throw;
    }
}
Exemplo n.º 5
0
    void opException(const Ice::AsyncResultPtr& result)
    {
        if(_useCookie)
        {
            CookiePtr cookie = CookiePtr::dynamicCast(result->getCookie());
            test(cookie->getString() == testString);
        }

        Ice::ByteSeq outParams;
        if(result->getProxy()->end_ice_invoke(outParams, result))
        {
            test(false);
        }
        else
        {
            Ice::InputStream in(_communicator, result->getProxy()->ice_getEncodingVersion(), outParams);
            in.startEncapsulation();
            try
            {
                in.throwException();
            }
            catch(const Test::MyException&)
            {
                in.endEncapsulation();
                called();
            }
            catch(...)
            {
                test(false);
            }
        }
    }
Exemplo n.º 6
0
::RoboCompGetAprilTags::listaMarcas
IceProxy::RoboCompGetAprilTags::GetAprilTags::end_checkMarcas(const ::Ice::AsyncResultPtr& __result)
{
    ::Ice::AsyncResult::__check(__result, this, __RoboCompGetAprilTags__GetAprilTags__checkMarcas_name);
    ::RoboCompGetAprilTags::listaMarcas __ret;
    bool __ok = __result->__wait();
    try
    {
        if(!__ok)
        {
            try
            {
                __result->__throwUserException();
            }
            catch(const ::Ice::UserException& __ex)
            {
                throw ::Ice::UnknownUserException(__FILE__, __LINE__, __ex.ice_name());
            }
        }
        ::IceInternal::BasicStream* __is = __result->__startReadParams();
        __is->read(__ret);
        __result->__endReadParams();
        return __ret;
    }
    catch(const ::Ice::LocalException& ex)
    {
        __result->__getObserver().failed(ex.ice_name());
        throw;
    }
}
void
IceProxy::com::pera::base::runtime::remote::RobotRemoteService::end_runRobotStop(const ::Ice::AsyncResultPtr& __result)
{
    ::Ice::AsyncResult::__check(__result, this, __com__pera__base__runtime__remote__RobotRemoteService__runRobotStop_name);
    bool __ok = __result->__wait();
    try
    {
        if(!__ok)
        {
            try
            {
                __result->__throwUserException();
            }
            catch(const ::com::pera::base::runtime::remote::RemoteException&)
            {
                throw;
            }
            catch(const ::Ice::UserException& __ex)
            {
                throw ::Ice::UnknownUserException(__FILE__, __LINE__, __ex.ice_name());
            }
        }
        __result->__readEmptyParams();
    }
    catch(const ::Ice::LocalException& ex)
    {
        __result->__getObserver().failed(ex.ice_name());
        throw;
    }
}
Exemplo n.º 8
0
bool
IceProxy::RoboCompPlanning::Planning::end_getNextAction(::RoboCompPlanning::Plan& solution, const ::Ice::AsyncResultPtr& __result)
{
    ::Ice::AsyncResult::__check(__result, this, __RoboCompPlanning__Planning__getNextAction_name);
    bool __ret;
    bool __ok = __result->__wait();
    try
    {
        if(!__ok)
        {
            try
            {
                __result->__throwUserException();
            }
            catch(const ::RoboCompPlanning::ServerException&)
            {
                throw;
            }
            catch(const ::Ice::UserException& __ex)
            {
                throw ::Ice::UnknownUserException(__FILE__, __LINE__, __ex.ice_name());
            }
        }
        ::IceInternal::BasicStream* __is = __result->__startReadParams();
        __is->read(solution);
        __is->read(__ret);
        __result->__endReadParams();
        return __ret;
    }
    catch(const ::Ice::LocalException& ex)
    {
        __result->__getObserver().failed(ex.ice_name());
        throw;
    }
}
Exemplo n.º 9
0
void
IceProxy::OWSMODULE::DataOperation::end_CheckState(::OWSMODULE::OWSTask& task, const ::Ice::AsyncResultPtr& __result)
{
    ::Ice::AsyncResult::__check(__result, this, __OWSMODULE__DataOperation__CheckState_name);
    bool __ok = __result->__wait();
    try
    {
        if(!__ok)
        {
            try
            {
                __result->__throwUserException();
            }
            catch(const ::Ice::UserException& __ex)
            {
                throw ::Ice::UnknownUserException(__FILE__, __LINE__, __ex.ice_name());
            }
        }
        ::IceInternal::BasicStream* __is = __result->__startReadParams();
        __is->read(task);
        __result->__endReadParams();
    }
    catch(const ::Ice::LocalException& ex)
    {
        __result->__getObserver().failed(ex.ice_name());
        throw;
    }
}
Exemplo n.º 10
0
::Ice::Int
IceProxy::CoreSpace::CoreBase::end_sub(const ::Ice::AsyncResultPtr& __result)
{
    ::Ice::AsyncResult::__check(__result, this, __CoreSpace__CoreBase__sub_name);
    ::Ice::Int __ret;
    bool __ok = __result->__wait();
    try
    {
        if(!__ok)
        {
            try
            {
                __result->__throwUserException();
            }
            catch(const ::Ice::UserException& __ex)
            {
                throw ::Ice::UnknownUserException(__FILE__, __LINE__, __ex.ice_name());
            }
        }
        ::IceInternal::BasicStream* __is = __result->__startReadParams();
        __is->read(__ret);
        __result->__endReadParams();
        return __ret;
    }
    catch(const ::Ice::LocalException& ex)
    {
        __result->__getObserver().failed(ex.ice_name());
        throw;
    }
}
Exemplo n.º 11
0
::Ice::Int
IceProxy::OWSMODULE::DataOperation::end_ReadData(::OWSMODULE::byteSeq& DataBlock, const ::Ice::AsyncResultPtr& __result)
{
    ::Ice::AsyncResult::__check(__result, this, __OWSMODULE__DataOperation__ReadData_name);
    ::Ice::Int __ret;
    bool __ok = __result->__wait();
    try
    {
        if(!__ok)
        {
            try
            {
                __result->__throwUserException();
            }
            catch(const ::Ice::UserException& __ex)
            {
                throw ::Ice::UnknownUserException(__FILE__, __LINE__, __ex.ice_name());
            }
        }
        ::IceInternal::BasicStream* __is = __result->__startReadParams();
        __is->read(DataBlock);
        __is->read(__ret);
        __result->__endReadParams();
        return __ret;
    }
    catch(const ::Ice::LocalException& ex)
    {
        __result->__getObserver().failed(ex.ice_name());
        throw;
    }
}
Exemplo n.º 12
0
void
IceProxy::RoboCompGenericBase::GenericBase::end_getBasePose(::Ice::Int& x, ::Ice::Int& z, ::Ice::Float& alpha, const ::Ice::AsyncResultPtr& __result)
{
    ::Ice::AsyncResult::__check(__result, this, __RoboCompGenericBase__GenericBase__getBasePose_name);
    bool __ok = __result->__wait();
    try
    {
        if(!__ok)
        {
            try
            {
                __result->__throwUserException();
            }
            catch(const ::RoboCompGenericBase::HardwareFailedException&)
            {
                throw;
            }
            catch(const ::Ice::UserException& __ex)
            {
                throw ::Ice::UnknownUserException(__FILE__, __LINE__, __ex.ice_name());
            }
        }
        ::IceInternal::BasicStream* __is = __result->__startReadParams();
        __is->read(x);
        __is->read(z);
        __is->read(alpha);
        __result->__endReadParams();
    }
    catch(const ::Ice::LocalException& ex)
    {
        __result->__getObserver().failed(ex.ice_name());
        throw;
    }
}
::std::string
IceProxy::pera::Demo601Server::PeraDemo601ServerService::end_InvokeMethod(const ::Ice::AsyncResultPtr& __result)
{
    ::Ice::AsyncResult::__check(__result, this, __pera__Demo601Server__PeraDemo601ServerService__InvokeMethod_name);
    ::std::string __ret;
    bool __ok = __result->__wait();
    try
    {
        if(!__ok)
        {
            try
            {
                __result->__throwUserException();
            }
            catch(const ::pera::Demo601Server::InvokeException&)
            {
                throw;
            }
            catch(const ::Ice::UserException& __ex)
            {
                throw ::Ice::UnknownUserException(__FILE__, __LINE__, __ex.ice_name());
            }
        }
        ::IceInternal::BasicStream* __is = __result->__startReadParams();
        __is->read(__ret);
        __result->__endReadParams();
        return __ret;
    }
    catch(const ::Ice::LocalException& ex)
    {
        __result->__getObserver().failed(ex.ice_name());
        throw;
    }
}
Exemplo n.º 14
0
bool
IceProxy::kelp::cmd2kcn::end_delSelfConfig(const ::Ice::AsyncResultPtr& __result)
{
    ::Ice::AsyncResult::__check(__result, this, __kelp__cmd2kcn__delSelfConfig_name);
    bool __ret;
    bool __ok = __result->__wait();
    try
    {
        if(!__ok)
        {
            try
            {
                __result->__throwUserException();
            }
            catch(const ::Ice::UserException& __ex)
            {
                throw ::Ice::UnknownUserException(__FILE__, __LINE__, __ex.ice_name());
            }
        }
        ::IceInternal::BasicStream* __is = __result->__startReadParams();
        __is->read(__ret);
        __result->__endReadParams();
        return __ret;
    }
    catch(const ::Ice::LocalException& ex)
    {
        __result->__getObserver().failed(ex.ice_name());
        throw;
    }
}
Exemplo n.º 15
0
void
IceProxy::RoboCompJoyStick::JoyStick::end_readJoyStickBufferedData(::RoboCompJoyStick::JoyStickBufferedData& gbd, const ::Ice::AsyncResultPtr& __result)
{
    ::Ice::AsyncResult::__check(__result, this, __RoboCompJoyStick__JoyStick__readJoyStickBufferedData_name);
    bool __ok = __result->__wait();
    try
    {
        if(!__ok)
        {
            try
            {
                __result->__throwUserException();
            }
            catch(const ::Ice::UserException& __ex)
            {
                throw ::Ice::UnknownUserException(__FILE__, __LINE__, __ex.ice_name());
            }
        }
        ::IceInternal::BasicStream* __is = __result->__startReadParams();
        __is->read(gbd);
        __result->__endReadParams();
    }
    catch(const ::Ice::LocalException& ex)
    {
        __result->__getObserver().failed(ex.ice_name());
        throw;
    }
}
Exemplo n.º 16
0
void
SubscriberOneway::flush()
{
    IceUtil::Monitor<IceUtil::RecMutex>::Lock sync(_lock);

    //
    // If the subscriber isn't online we're done.
    //
    if(_state != SubscriberStateOnline || _events.empty())
    {
        return;
    }

    // Send up to _maxOutstanding pending events.
    while(_outstanding < _maxOutstanding && !_events.empty())
    {
        //
        // Dequeue the head event, count one more outstanding AMI
        // request.
        //
        EventDataPtr e = _events.front();
        _events.erase(_events.begin());
        if(_observer)
        {
            _observer->outstanding(1);
        }

        try
        {
            Ice::AsyncResultPtr result = _obj->begin_ice_invoke(
                e->op, e->mode, e->data, e->context, Ice::newCallback_Object_ice_invoke(this,
                                                                                        &SubscriberOneway::exception,
                                                                                        &SubscriberOneway::sent));
            if(!result->sentSynchronously())
            {
                ++_outstanding;
            }
            else if(_observer)
            {
                _observer->delivered(1);
            }
        }
        catch(const Ice::Exception& ex)
        {
            error(true, ex);
            return;
        }
    }

    if(_events.empty() && _outstanding == 0 && _shutdown)
    {
        _lock.notify();
    }
}
Exemplo n.º 17
0
::std::string IceProxy::zerocexample::MessageIce::end_getContent(const ::Ice::AsyncResultPtr& __result)
{
	::Ice::AsyncResult::__check(__result, this, __zerocexample__MessageIce__getContent_name);
	::std::string __ret;
	if (!__result->__wait())
	{
		try
		{
			__result->__throwUserException();
		}
		catch (const ::Ice::UserException& __ex)
		{
			throw ::Ice::UnknownUserException(__FILE__, __LINE__, __ex.ice_name());
		}
	}
	::IceInternal::BasicStream* __is = __result->__startReadParams();
	__is->read(__ret);
	__result->__endReadParams();
	return __ret;
}
Exemplo n.º 18
0
void
IceProxy::GlobalTable::DistributedMap::end_putNget(::std::string& counts, const ::Ice::AsyncResultPtr& __result)
{
    ::Ice::AsyncResult::__check(__result, this, __GlobalTable__DistributedMap__putNget_name);
    if(!__result->__wait())
    {
        try
        {
            __result->__throwUserException();
        }
        catch(const ::Ice::UserException& __ex)
        {
            throw ::Ice::UnknownUserException(__FILE__, __LINE__, __ex.ice_name());
        }
    }
    ::IceInternal::BasicStream* __is = __result->__getIs();
    __is->startReadEncaps();
    __is->read(counts);
    __is->endReadEncaps();
}
Exemplo n.º 19
0
Arquivo: Proxy.cpp Projeto: lmtoo/ice
void
IceProxy::Ice::Object::__end(const ::Ice::AsyncResultPtr& __result, const std::string& operation) const
{
    AsyncResult::__check(__result, this, operation);
    bool __ok = __result->__wait();
    if(_reference->getMode() == Reference::ModeTwoway)
    {
        if(!__ok)
        {
            try
            {
                __result->__throwUserException();
            }
            catch(const UserException& __ex)
            {
                throw UnknownUserException(__FILE__, __LINE__, __ex.ice_id());
            }
        }
        __result->__readEmptyParams();
    }
}
Exemplo n.º 20
0
::MCS::LocFoup
IceProxy::MCS::MESLink::end_GetFoup(const ::Ice::AsyncResultPtr& __result)
{
    ::Ice::AsyncResult::__check(__result, this, __MCS__MESLink__GetFoup_name);
    ::MCS::LocFoup __ret;
    if(!__result->__wait())
    {
        try
        {
            __result->__throwUserException();
        }
        catch(const ::Ice::UserException& __ex)
        {
            throw ::Ice::UnknownUserException(__FILE__, __LINE__, __ex.ice_name());
        }
    }
    ::IceInternal::BasicStream* __is = __result->__getIs();
    __is->startReadEncaps();
    __ret.__read(__is);
    __is->endReadEncaps();
    return __ret;
}
Exemplo n.º 21
0
void
NodeI::Update::completed(const Ice::AsyncResultPtr& result)
{
    try
    {
        result->throwLocalException();
        finished(true);
    }
    catch(const Ice::LocalException&)
    {
        finished(false);
    }
}
Exemplo n.º 22
0
 virtual void
 completed(const ::Ice::AsyncResultPtr& result) const
 {
     try
     {
         AsyncResult::__check(result, _communicator.get(), __flushBatchRequests_name);
         result->__wait();
     }
     catch(const ::Ice::Exception&)
     {
         _exception(current_exception());
     }
 }
Exemplo n.º 23
0
Arquivo: demo.cpp Projeto: xly931/demo
::std::string
IceProxy::HSFoward::HSBnsProc::end_amdfun(const ::Ice::AsyncResultPtr& __result)
{
    ::Ice::AsyncResult::__check(__result, this, __HSFoward__HSBnsProc__amdfun_name);
    ::std::string __ret;
    if(!__result->__wait())
    {
        try
        {
            __result->__throwUserException();
        }
        catch(const ::Ice::UserException& __ex)
        {
            throw ::Ice::UnknownUserException(__FILE__, __LINE__, __ex.ice_name());
        }
    }
    ::IceInternal::BasicStream* __is = __result->__getIs();
    __is->startReadEncaps();
    __is->read(__ret);
    __is->endReadEncaps();
    return __ret;
}
Exemplo n.º 24
0
::Ice::Int
IceProxy::loggerice::loggerctrl::end_Register(const ::Ice::AsyncResultPtr& __result)
{
    ::Ice::AsyncResult::__check(__result, this, __loggerice__loggerctrl__Register_name);
    ::Ice::Int __ret;
    if(!__result->__wait())
    {
        try
        {
            __result->__throwUserException();
        }
        catch(const ::Ice::UserException& __ex)
        {
            throw ::Ice::UnknownUserException(__FILE__, __LINE__, __ex.ice_name());
        }
    }
    ::IceInternal::BasicStream* __is = __result->__getIs();
    __is->startReadEncaps();
    __is->read(__ret);
    __is->endReadEncaps();
    return __ret;
}
Exemplo n.º 25
0
	void finished(const Ice::AsyncResultPtr& result)
	{
		DetectorPrx detector = DetectorPrx::uncheckedCast(result->getProxy());

		try
		{
			detector->end_process(result);
			localAndClientMsg(VLogger::DEBUG, NULL, "FinishedCallback: detector finished.\n");
		}
		catch (const Ice::Exception& e)
		{
			localAndClientMsg(VLogger::WARN, NULL, "Exception: %s\n", 
				 e.ice_name().c_str());
		}
		mFinished = true;
	}
Exemplo n.º 26
0
void
Subscriber::completed(const Ice::AsyncResultPtr& result)
{
    try
    {
        result->throwLocalException();

        IceUtil::Monitor<IceUtil::RecMutex>::Lock sync(_lock);

        // Decrement the _outstanding count.
        --_outstanding;
        assert(_outstanding >= 0 && _outstanding < _maxOutstanding);
        if(_observer)
        {
            _observer->delivered(_outstandingCount);
        }
        
        //
        // A successful response means we're no longer retrying, we're
        // back active.
        //
        _currentRetry = 0;
        
        if(_events.empty() && _outstanding == 0 && _shutdown)
        {
            _lock.notify();
        }
        else
        {
            flush();
        }
    }
    catch(const Ice::LocalException& ex)
    {
        error(true, ex);
    }
}
Exemplo n.º 27
0
void
SubscriberBatch::doFlush()
{
    IceUtil::Monitor<IceUtil::RecMutex>::Lock sync(_lock);

    //
    // If the subscriber isn't online we're done.
    //
    if(_state != SubscriberStateOnline)
    {
        return;
    }

    EventDataSeq v;
    v.swap(_events);
    assert(!v.empty());

    if(_observer)
    {
        _outstandingCount = static_cast<Ice::Int>(v.size());
        _observer->outstanding(_outstandingCount);
    }

    try
    {
        vector<Ice::Byte> dummy;
        for(EventDataSeq::const_iterator p = v.begin(); p != v.end(); ++p)
        {
            _obj->ice_invoke((*p)->op, (*p)->mode, (*p)->data, dummy, (*p)->context);
        }

        Ice::AsyncResultPtr result = _obj->begin_ice_flushBatchRequests(
            Ice::newCallback_Object_ice_flushBatchRequests(this,
                                                           &SubscriberBatch::exception,
                                                           &SubscriberBatch::sent));
        if(result->sentSynchronously())
        {
            --_outstanding;
            assert(_outstanding == 0);
            if(_observer)
            {
                _observer->delivered(_outstandingCount);
            }
        }
    }
    catch(const Ice::Exception& ex)
    {
        error(false, ex);
        return;
    }

    if(_events.empty() && _outstanding == 0 && _shutdown)
    {
        _lock.notify();
    }

    // This is significantly faster than the async version, but it can
    // block the calling thread. Bad news!

    //_obj->ice_flushBatchRequests();
}
Exemplo n.º 28
0
void
allTests(const Ice::CommunicatorPtr& communicator, const string& ref)
{
    ServerManagerPrx manager = ServerManagerPrx::checkedCast(communicator->stringToProxy(ref));
    TestLocatorPrx locator = TestLocatorPrx::uncheckedCast(communicator->getDefaultLocator());
    test(manager);

    TestLocatorRegistryPrx registry = TestLocatorRegistryPrx::checkedCast(locator->getRegistry());
    test(registry);

    cout << "testing stringToProxy... " << flush;
    Ice::ObjectPrx base = communicator->stringToProxy("test @ TestAdapter");
    Ice::ObjectPrx base2 = communicator->stringToProxy("test @ TestAdapter");
    Ice::ObjectPrx base3 = communicator->stringToProxy("test");
    Ice::ObjectPrx base4 = communicator->stringToProxy("ServerManager"); 
    Ice::ObjectPrx base5 = communicator->stringToProxy("test2");
    Ice::ObjectPrx 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::LocatorPrx anotherLocator = Ice::LocatorPrx::uncheckedCast(communicator->stringToProxy("anotherLocator"));
    base = base->ice_locator(anotherLocator);
    test(Ice::proxyIdentityEqual(base->ice_getLocator(), anotherLocator));
    communicator->setDefaultLocator(0);
    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::RouterPrx anotherRouter = Ice::RouterPrx::uncheckedCast(communicator->stringToProxy("anotherRouter"));
    base = base->ice_router(anotherRouter);
    test(Ice::proxyIdentityEqual(base->ice_getRouter(), anotherRouter));
    Ice::RouterPrx router = Ice::RouterPrx::uncheckedCast(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;
    TestIntfPrx obj = TestIntfPrx::checkedCast(base);
    test(obj);
    TestIntfPrx obj2 = TestIntfPrx::checkedCast(base2);
    test(obj2);
    TestIntfPrx obj3 = TestIntfPrx::checkedCast(base3);
    test(obj3);
    ServerManagerPrx obj4 = ServerManagerPrx::checkedCast(base4);
    test(obj4);
    TestIntfPrx obj5 = TestIntfPrx::checkedCast(base5);
    test(obj5);
    TestIntfPrx obj6 = TestIntfPrx::checkedCast(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 = TestIntfPrx::checkedCast(communicator->stringToProxy("test@TestAdapter"));
    HelloPrx 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;

    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;
    }
    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 = HelloPrx::checkedCast(communicator->stringToProxy("hello"));
    obj->migrateHello();
    // TODO: enable after fixing ICE-5489
    //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 = HelloPrx::checkedCast(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;

    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(new HelloI, id));
    adapter->activate();
    
    try
    {
        HelloPrx helloPrx = HelloPrx::checkedCast(communicator->stringToProxy(communicator->identityToString(id)));
        Ice::ConnectionPtr connection = helloPrx->ice_getConnection();
        test(false);
    }
    catch(const Ice::CollocationOptimizationException&)
    {
    }
    adapter->deactivate();
    cout << "ok" << endl;

    cout << "shutdown server manager... " << flush;
    manager->shutdown();
    cout << "ok" << endl;
}
Exemplo n.º 29
0
void
allTests(const Ice::CommunicatorPtr& communicator)
{
    string sref = "test:" + getTestEndpoint(communicator, 0);
    Ice::ObjectPrxPtr obj = communicator->stringToProxy(sref);
    test(obj);

    Test::TestIntfPrxPtr p = ICE_UNCHECKED_CAST(Test::TestIntfPrx, obj);

    sref = "testController:" + getTestEndpoint(communicator, 1, "tcp");
    obj = communicator->stringToProxy(sref);
    test(obj);

    Test::TestIntfControllerPrxPtr testController = ICE_UNCHECKED_CAST(Test::TestIntfControllerPrx, obj);

    cout << "testing dispatcher... " << flush;
    {
        p->op();

        CallbackPtr cb = ICE_MAKE_SHARED(Callback);
#ifdef ICE_CPP11_MAPPING
        p->opAsync(
            [cb]()
            {
                cb->response();
            },
            [cb](exception_ptr err)
            {
                try
                {
                    rethrow_exception(err);
                }
                catch(const Ice::Exception& ex)
                {
                    cb->exception(ex);
                }
            });
        cb->check();

        auto i = p->ice_adapterId("dummy");
        i->opAsync(
            [cb]()
            {
                cb->response();
            },
            [cb](exception_ptr err)
            {
                try
                {
                    rethrow_exception(err);
                }
                catch(const Ice::Exception& ex)
                {
                    cb->exception(ex);
                }
            });
        cb->check();

        {
            //
            // Expect InvocationTimeoutException.
            //
            auto to = p->ice_invocationTimeout(250);
            to->sleepAsync(500,
                [cb]()
                {
                    cb->responseEx();
                },
                [cb](exception_ptr err)
                {
                    try
                    {
                        rethrow_exception(err);
                    }
                    catch(const Ice::Exception& ex)
                    {
                        cb->exceptionEx(ex);
                    }
                });
            cb->check();
        }
        testController->holdAdapter();

        Ice::ByteSeq seq;
        seq.resize(1024); // Make sure the request doesn't compress too well.
        for(Ice::ByteSeq::iterator q = seq.begin(); q != seq.end(); ++q)
        {
            *q = static_cast<Ice::Byte>(IceUtilInternal::random(255));
        }

        vector<shared_ptr<promise<void>>> completed;
        while(true)
        {
            auto s = make_shared<promise<bool>>();
            auto fs = s->get_future();
            auto c = make_shared<promise<void>>();

            p->opWithPayloadAsync(seq,
                [=]()
                {
                    c->set_value();
                },
                [=](exception_ptr)
                {
                    c->set_value();
                },
                [=](bool sent)
                {
                    s->set_value(sent);
                });
            completed.push_back(c);

            if(fs.wait_for(chrono::milliseconds(0)) != future_status::ready || !fs.get())
            {
                break;
            }
        }
        testController->resumeAdapter();
        for(auto& c : completed)
        {
            c->get_future().get();
        }
#else
        Test::Callback_TestIntf_opPtr callback = Test::newCallback_TestIntf_op(cb,
                                                                               &Callback::response,
                                                                               &Callback::exception);
        p->begin_op(callback);
        cb->check();

        Test::TestIntfPrx i = p->ice_adapterId("dummy");
        i->begin_op(callback);
        cb->check();

        {
            //
            // Expect InvocationTimeoutException.
            //
            Test::TestIntfPrx to = p->ice_invocationTimeout(250);
            to->begin_sleep(500, Test::newCallback_TestIntf_sleep(cb, &Callback::responseEx, &Callback::exceptionEx));
            cb->check();
        }

        testController->holdAdapter();

        Test::Callback_TestIntf_opWithPayloadPtr callback2 =
            Test::newCallback_TestIntf_opWithPayload(cb, &Callback::payload, &Callback::ignoreEx, &Callback::sent);

        Ice::ByteSeq seq;
        seq.resize(1024); // Make sure the request doesn't compress too well.
        for(Ice::ByteSeq::iterator q = seq.begin(); q != seq.end(); ++q)
        {
            *q = static_cast<Ice::Byte>(IceUtilInternal::random(255));
        }
        Ice::AsyncResultPtr result;
        while((result = p->begin_opWithPayload(seq, callback2))->sentSynchronously());
        testController->resumeAdapter();
        result->waitForCompleted();
#endif
    }
    cout << "ok" << endl;

    p->shutdown();
}
Exemplo n.º 30
0
void
allTests(const Ice::CommunicatorPtr& communicator)
{
    cout << "testing stringToProxy... " << flush;
    string ref = "hold:" + getTestEndpoint(communicator, 0);
    Ice::ObjectPrxPtr base = communicator->stringToProxy(ref);
    test(base);
    string refSerialized = "hold:" + getTestEndpoint(communicator, 1);
    Ice::ObjectPrxPtr baseSerialized = communicator->stringToProxy(refSerialized);
    test(base);
    cout << "ok" << endl;

    cout << "testing checked cast... " << flush;
    HoldPrxPtr hold = ICE_CHECKED_CAST(HoldPrx, base);
    test(hold);
#ifdef ICE_CPP11_MAPPING
    test(Ice::targetEquals(hold, base));
#else
    test(hold == base);
#endif
    HoldPrxPtr holdSerialized = ICE_CHECKED_CAST(HoldPrx, baseSerialized);
    test(holdSerialized);
    
#ifdef ICE_CPP11_MAPPING
    test(Ice::targetEquals(holdSerialized, baseSerialized));
#else
    test(holdSerialized == baseSerialized);
#endif
    cout << "ok" << endl;

    cout << "changing state between active and hold rapidly... " << flush;
    int i;
    for(i = 0; i < 100; ++i)
    {
        hold->putOnHold(0);
    }
    for(i = 0; i < 100; ++i)
    {
        hold->ice_oneway()->putOnHold(0);
    }
    for(i = 0; i < 100; ++i)
    {
        holdSerialized->putOnHold(0);
    }
    for(i = 0; i < 100; ++i)
    {
        holdSerialized->ice_oneway()->putOnHold(0);
    }
    cout << "ok" << endl;

    cout << "testing without serialize mode... " << flush;
    {
        ConditionPtr cond = new Condition(true);
        int value = 0;
#ifdef ICE_CPP11_MAPPING
        shared_ptr<promise<void>> completed;
        while(cond->value())
        {
            completed = make_shared<promise<void>>();
            promise<bool> sent;
            hold->set_async(value + 1, IceUtilInternal::random(5),
                [cond, expected = value, completed](int value)
                {
                    if(value != expected)
                    {
                        cond->set(false);
                    }
                    completed->set_value();
                },
                [completed](exception_ptr)
                {
                    completed->set_value();
                },
                [&sent](bool sentSynchronously)
                {
                    sent.set_value(sentSynchronously);
                });
            
            ++value;
            if(value % 100 == 0)
            {
                sent.get_future().get();;
            }
            
            if(value > 1000000)
            {
                // Don't continue, it's possible that out-of-order dispatch doesn't occur
                // after 100000 iterations and we don't want the test to last for too long
                // when this occurs.
                break;
            }
        }
        test(value > 100000 || !cond->value());
        completed->get_future().get();
#else
        
        Ice::AsyncResultPtr result;
        while(cond->value())
        {
            result = hold->begin_set(value + 1, 
                                     IceUtilInternal::random(5),
                                     newCallback_Hold_set(new SetCB(cond, value), &SetCB::response, &SetCB::exception));
            ++value;
            if(value % 100 == 0)
            {
                result->waitForSent();
            }

            if(value > 1000000)
            {
                // Don't continue, it's possible that out-of-order dispatch doesn't occur
                // after 100000 iterations and we don't want the test to last for too long
                // when this occurs.
                break;
            }
        }
        test(value > 100000 || !cond->value());
        result->waitForCompleted();
#endif
    }
    cout << "ok" << endl;

    cout << "testing with serialize mode... " << flush;
    {
        ConditionPtr cond = new Condition(true);
        int value = 0;
#ifdef ICE_CPP11_MAPPING
        shared_ptr<promise<void>> completed;
        while(value < 3000 && cond->value())
        {
            completed = make_shared<promise<void>>();
            promise<bool> sent;
            holdSerialized->set_async(
                value + 1,
                IceUtilInternal::random(1),
                [cond, expected = value, completed](int value)
                {
                    if(value != expected)
                    {
                        cond->set(false);
                    }
                    completed->set_value();
                },
                [completed](exception_ptr)
                {
                    completed->set_value();
                },
                [&sent](bool sentSynchronously)
                {
                    sent.set_value(sentSynchronously);
                });
            ++value;
            if(value % 100 == 0)
            {
                sent.get_future().get();
            }
        }
#else
        Ice::AsyncResultPtr result;
        while(value < 3000 && cond->value())
        {
            result = holdSerialized->begin_set(value + 1,
                                               IceUtilInternal::random(1),
                                               newCallback_Hold_set(new SetCB(cond, value), 
                                                                    &SetCB::response, 
                                                                    &SetCB::exception));
            ++value;
            if(value % 100 == 0)
            {
                result->waitForSent();
            }
        }
        result->waitForCompleted();
#endif
        test(cond->value());
        for(int i = 0; i < 10000; ++i)
        {
            holdSerialized->ice_oneway()->setOneway(value + 1, value);
            ++value;
            if((i % 100) == 0)
            {
                holdSerialized->ice_oneway()->putOnHold(1);
            }
        }
    }
    cout << "ok" << endl;

    cout << "testing serialization... " << flush;
    {
        int value = 0;
        holdSerialized->set(value, 0);
#ifdef ICE_CPP11_MAPPING
        shared_ptr<promise<void>> completed;
        for(int i = 0; i < 10000; ++i)
        {
            completed = make_shared<promise<void>>();
            // Create a new proxy for each request
            holdSerialized->ice_oneway()->setOneway_async(value + 1, value,
                nullptr,
                [](exception_ptr)
                {
                },
                [completed](bool sentSynchronously)
                {
                    completed->set_value();
                });
            ++value;
            if((i % 100) == 0)
            {
                completed->get_future().get();
                holdSerialized->ice_ping(); // Ensure everything's dispatched
                holdSerialized->ice_getConnection()->close(false);
            }
        }
        completed->get_future().get();
#else
        Ice::AsyncResultPtr result;
        for(int i = 0; i < 10000; ++i)
        {
            // Create a new proxy for each request
            result = holdSerialized->ice_oneway()->begin_setOneway(value + 1, value);
            ++value;
            if((i % 100) == 0)
            {
                result->waitForSent();
                holdSerialized->ice_ping(); // Ensure everything's dispatched
                holdSerialized->ice_getConnection()->close(false);
            }
        }
        result->waitForCompleted();
#endif
    }
    cout << "ok" << endl;

    cout << "testing waitForHold... " << flush;
    {
        hold->waitForHold();
        hold->waitForHold();
        for(i = 0; i < 1000; ++i)
        {
            hold->ice_oneway()->ice_ping();
            if((i % 20) == 0)
            {
                hold->putOnHold(0);
            }
        }
        hold->putOnHold(-1);
        hold->ice_ping();
        hold->putOnHold(-1);
        hold->ice_ping();
    }
    cout << "ok" << endl;

    cout << "changing state to hold and shutting down server... " << flush;
    hold->shutdown();
    cout << "ok" << endl;
}