예제 #1
0
static PyObject*
propertiesStr(PropertiesObject* self)
{
    assert(self->properties);

    Ice::PropertyDict dict;
    try
    {
        dict = (*self->properties)->getPropertiesForPrefix("");
    }
    catch(const Ice::Exception& ex)
    {
        setPythonException(ex);
        return 0;
    }

    string str;
    for(Ice::PropertyDict::const_iterator p = dict.begin(); p != dict.end(); ++p)
    {
        if(p != dict.begin())
        {
            str.append("\n");
        }
        str.append(p->first + "=" + p->second);
    }

    return createString(str);
}
예제 #2
0
    std::map<string, string> client::getPropertyMap(const Ice::PropertiesPtr& properties) const {

        Ice::PropertiesPtr props;
        if (!properties) {
            props = getProperties();
        } else {
            props = properties;
        }

        std::map<string, string> pm;
        Ice::PropertyDict omeroProperties = props->getPropertiesForPrefix("omero");
        Ice::PropertyDict::const_iterator beg = omeroProperties.begin();
        Ice::PropertyDict::const_iterator end = omeroProperties.end();
        while (beg != end) {
            pm[(*beg).first] = (*beg).second;
            beg++;
        }
        Ice::PropertyDict iceProperties = props->getPropertiesForPrefix("Ice");
        beg = iceProperties.begin();
        end = iceProperties.end();
        while (beg != end) {
            pm[(*beg).first] = (*beg).second;
            beg++;
        }
        return pm;
    }
예제 #3
0
ZEND_METHOD(Ice_Properties, __toString)
{
    if(ZEND_NUM_ARGS() > 0)
    {
        WRONG_PARAM_COUNT;
    }

    Ice::PropertiesPtr _this = Wrapper<Ice::PropertiesPtr>::value(getThis() TSRMLS_CC);
    assert(_this);

    try
    {
        Ice::PropertyDict val = _this->getPropertiesForPrefix("");
        string str;
        for(Ice::PropertyDict::const_iterator p = val.begin(); p != val.end(); ++p)
        {
            if(p != val.begin())
            {
                str.append("\n");
            }
            str.append(p->first + "=" + p->second);
        }
        RETURN_STRINGL(STRCAST(str.c_str()), static_cast<int>(str.length()), 1);
    }
    catch(const IceUtil::Exception& ex)
    {
        throwException(ex TSRMLS_CC);
        RETURN_NULL();
    }
}
void
IcePy::UpdateCallbackWrapper::updated(const Ice::PropertyDict& dict)
{
    AdoptThread adoptThread; // Ensure the current thread is able to call into Python.

    PyObjectHandle result = PyDict_New();
    if(result.get())
    {
        for(Ice::PropertyDict::const_iterator p = dict.begin(); p != dict.end(); ++p)
        {
            PyObjectHandle key = createString(p->first);
            PyObjectHandle val = createString(p->second);
            if(!val.get() || PyDict_SetItem(result.get(), key.get(), val.get()) < 0)
            {
                return;
            }
        }
    }

    PyObjectHandle obj = PyObject_CallMethod(_callback, STRCAST("updated"), STRCAST("O"), result.get());
    if(!obj.get())
    {
        assert(PyErr_Occurred());
        throw AbortMarshaling();
    }
}
예제 #5
0
파일: NodeI.cpp 프로젝트: chenbk85/ice
NodeI::NodeI(const Ice::ObjectAdapterPtr& adapter,
             NodeSessionManager& sessions,
             const ActivatorPtr& activator,
             const IceUtil::TimerPtr& timer,
             const TraceLevelsPtr& traceLevels,
             const NodePrx& proxy,
             const string& name,
             const UserAccountMapperPrx& mapper,
             const string& instanceName) :
    _communicator(adapter->getCommunicator()),
    _adapter(adapter),
    _sessions(sessions),
    _activator(activator),
    _timer(timer),
    _traceLevels(traceLevels),
    _name(name),
    _proxy(proxy),
    _redirectErrToOut(false),
    _allowEndpointsOverride(false),
    _waitTime(0),
    _instanceName(instanceName),
    _userAccountMapper(mapper),
    _platform("IceGrid.Node", _communicator, _traceLevels),
    _fileCache(new FileCache(_communicator)),
    _serial(1),
    _consistencyCheckDone(false)
{
    Ice::PropertiesPtr props = _communicator->getProperties();

    const_cast<string&>(_dataDir) = _platform.getDataDir();
    const_cast<string&>(_serversDir) = _dataDir + "/servers";
    const_cast<string&>(_tmpDir) = _dataDir + "/tmp";
    const_cast<Ice::Int&>(_waitTime) = props->getPropertyAsIntWithDefault("IceGrid.Node.WaitTime", 60);
    const_cast<string&>(_outputDir) = props->getProperty("IceGrid.Node.Output");
    const_cast<bool&>(_redirectErrToOut) = props->getPropertyAsInt("IceGrid.Node.RedirectErrToOut") > 0;
    const_cast<bool&>(_allowEndpointsOverride) = props->getPropertyAsInt("IceGrid.Node.AllowEndpointsOverride") > 0;

    //
    // Parse the properties override property.
    //
    vector<string> overrides = props->getPropertyAsList("IceGrid.Node.PropertiesOverride");
    if(!overrides.empty())
    {
        for(vector<string>::iterator p = overrides.begin(); p != overrides.end(); ++p)
        {
            if(p->find("--") != 0)
            {
                *p = "--" + *p;
            }
        }

        Ice::PropertiesPtr p = Ice::createProperties();
        p->parseCommandLineOptions("", overrides);
        Ice::PropertyDict propDict = p->getPropertiesForPrefix("");
        for(Ice::PropertyDict::const_iterator q = propDict.begin(); q != propDict.end(); ++q)
        {
            _propertiesOverride.push_back(createProperty(q->first, q->second));
        }
    }
}
예제 #6
0
TrustManager::TrustManager(const Ice::CommunicatorPtr& communicator) :
    _communicator(communicator)
{
    Ice::PropertiesPtr properties = communicator->getProperties();
    _traceLevel = properties->getPropertyAsInt("IceSSL.Trace.Security");
    string key;
    try
    {
        key = "IceSSL.TrustOnly";
        _all = parse(properties->getProperty(key));
        key = "IceSSL.TrustOnly.Client";
        _client = parse(properties->getProperty(key));
        key = "IceSSL.TrustOnly.Server";
        _allServer = parse(properties->getProperty(key));
        Ice::PropertyDict dict = properties->getPropertiesForPrefix("IceSSL.TrustOnly.Server.");
        for(Ice::PropertyDict::const_iterator p = dict.begin(); p != dict.end(); ++p)
        {
            string name = p->first.substr(string("IceSSL.TrustOnly.Server.").size());
            key = p->first;
            _server[name] = parse(p->second);
        }
    }
    catch(const ParseException& e)
    {
        Ice::PluginInitializationException ex(__FILE__, __LINE__);
        ex.reason = "IceSSL: invalid property " + key  + ":\n" + e.reason;
        throw ex;
    }
}
예제 #7
0
orca::ComponentData
getComponentData( const Context& context )
{
    orca::ComponentData compData;
    compData.name = context.name();

    Ice::PropertyDict providesProps =
        context.properties()->getPropertiesForPrefix(context.tag()+".Provides");
    orca::ProvidedInterface provided;
    for ( Ice::PropertyDict::iterator i=providesProps.begin(); i!=providesProps.end(); ++i ) {
        provided.name = i->second;
        provided.id = "unknown";
        compData.provides.push_back( provided );
    }

    // special cases: add standard interfaces (depending on startup flags)
    // first, add the Home interface itself
//     std::string homeIdentity = "orca." + context.name().platform + "." + context.name().component + "/Home";
//     provided.name = homeIdentity;
//     provided.id = "::orca::Home";
//     compData.provides.push_back( provided );
//
//     if ( interfaceFlag_& TracerInterface ) {
//         provided.name = "tracer";
//         provided.id = "::orca::Tracer";
//         compData.provides.push_back( provided );
//     }
//
//     if ( interfaceFlag_& StatusInterface ) {
//         provided.name = "status";
//         provided.id = "::orca::Status";
//         compData.provides.push_back( provided );
//     }

    // NOTE: this will not work if the config file uses long notation for req. interfaces
    Ice::PropertyDict requiresProps =
        context.properties()->getPropertiesForPrefix(context.tag()+".Requires");
    orca::RequiredInterface required;
    for ( Ice::PropertyDict::iterator i=requiresProps.begin(); i!=requiresProps.end(); ++i ) {
        required.name = orcaice::toInterfaceName( i->second );
        required.id = "unknown";
        compData.requires.push_back( required );
    }

    return compData;
}
예제 #8
0
  int
  Controller::load_camera_config(Ice::PropertyDict pd, int cam) {
    for(Ice::PropertyDict::const_iterator it = pd.begin(); it != pd.end(); it++) {

		std::istringstream sTemp;
      if((*it).first.compare("rgbdManualCalibrator.Config.Position.X")==0) {
	this->cameras[cam].position.X=(float)atof((*it).second.c_str());
	this->lastx = this->cameras[cam].position.X;
      }
      else if((*it).first.compare("rgbdManualCalibrator.Config.Position.Y")==0) {
	this->cameras[cam].position.Y=(float)atof((*it).second.c_str());
	this->lasty = this->cameras[cam].position.Y;
      }
      else if((*it).first.compare("rgbdManualCalibrator.Config.Position.Z")==0) {
	this->cameras[cam].position.Z=(float)atof((*it).second.c_str());
	this->lastz = this->cameras[cam].position.Z;
      }
      else if((*it).first.compare("rgbdManualCalibrator.Config.Position.H")==0) {
	this->cameras[cam].position.H=(float)atof((*it).second.c_str());
      } 
      else if((*it).first.compare("rgbdManualCalibrator.Config.FOAPosition.X")==0) {
	this->cameras[cam].foa.X=(float)atof((*it).second.c_str());
      } 
      else if((*it).first.compare("rgbdManualCalibrator.Config.FOAPosition.Y")==0) {
	this->cameras[cam].foa.Y=(float)atof((*it).second.c_str());
      } 
      else if((*it).first.compare("rgbdManualCalibrator.Config.FOAPosition.Z")==0) {
	this->cameras[cam].foa.Z=(float)atof((*it).second.c_str());
      } 
      else if((*it).first.compare("rgbdManualCalibrator.Config.FOAPosition.H")==0) {
	this->cameras[cam].foa.H=(float)atof((*it).second.c_str());
      } 
      else if((*it).first.compare("rgbdManualCalibrator.Config.Roll")==0) {
	this->cameras[cam].roll=(float)atof((*it).second.c_str());
      } 
      else if((*it).first.compare("rgbdManualCalibrator.Config.Fx")==0) {
	this->cameras[cam].fdistx=(float)atof((*it).second.c_str());
      } 
      else if((*it).first.compare("rgbdManualCalibrator.Config.Fy")==0) {
	this->cameras[cam].fdisty=(float)atof((*it).second.c_str());
      } 
      else if((*it).first.compare("rgbdManualCalibrator.Config.Skew")==0) {
	this->cameras[cam].skew=(float)atof((*it).second.c_str());
      } 
      else if((*it).first.compare("rgbdManualCalibrator.Config.U0")==0) {
	this->cameras[cam].u0=(float)atof((*it).second.c_str());
      } 
      else if((*it).first.compare("rgbdManualCalibrator.Config.V0")==0) {
	this->cameras[cam].v0=(float)atof((*it).second.c_str());
      } 
      else if((*it).first.compare("rgbdManualCalibrator.Config.Columns")==0) {
	this->cameras[cam].columns=(int)atof((*it).second.c_str());
      } 
      else if((*it).first.compare("rgbdManualCalibrator.Config.Rows")==0) {
	this->cameras[cam].rows=(int)atof((*it).second.c_str());
      } 
    }
  }
예제 #9
0
void
PropsClient::show(const Ice::PropertiesAdminPrx& admin)
{
    Ice::PropertyDict props = admin->getPropertiesForPrefix("Demo");
    cout << "Server's current settings:" << endl;
    for(Ice::PropertyDict::iterator p = props.begin(); p != props.end(); ++p)
    {
        cout << "  " << p->first << "=" << p->second << endl;
    }
}
예제 #10
0
static PyObject*
communicatorProxyToProperty(CommunicatorObject* self, PyObject* args)
{
    //
    // We don't want to accept None here, so we can specify ProxyType and force
    // the caller to supply a proxy object.
    //
    PyObject* proxyObj;
    PyObject* strObj;
    if(!PyArg_ParseTuple(args, STRCAST("O!O"), &ProxyType, &proxyObj, &strObj))
    {
        return 0;
    }

    Ice::ObjectPrx proxy = getProxy(proxyObj);
    string str;
    if(!getStringArg(strObj, "property", str))
    {
        return 0;
    }

    assert(self->communicator);
    Ice::PropertyDict dict;
    try
    {
        dict = (*self->communicator)->proxyToProperty(proxy, str);
    }
    catch(const Ice::Exception& ex)
    {
        setPythonException(ex);
        return 0;
    }

    PyObjectHandle result = PyDict_New();
    if(result.get())
    {
        for(Ice::PropertyDict::iterator p = dict.begin(); p != dict.end(); ++p)
        {
            PyObjectHandle key = createString(p->first);
            PyObjectHandle val = createString(p->second);
            if(!val.get() || PyDict_SetItem(result.get(), key.get(), val.get()) < 0)
            {
                return 0;
            }
        }
    }

    return result.release();
}
예제 #11
0
MurmurIce::MurmurIce() {
	count = 0;

	if (meta->mp.qsIceEndpoint.isEmpty())
		return;

	Ice::PropertiesPtr ipp = Ice::createProperties();

	::Meta::mp.qsSettings->beginGroup("Ice");
	foreach(const QString &v, ::Meta::mp.qsSettings->childKeys()) {
		ipp->setProperty(u8(v), u8(::Meta::mp.qsSettings->value(v).toString()));
	}
	::Meta::mp.qsSettings->endGroup();

	Ice::PropertyDict props = ippProperties->getPropertiesForPrefix("");
	Ice::PropertyDict::iterator i;
	for (i=props.begin(); i != props.end(); ++i) {
		ipp->setProperty((*i).first, (*i).second);
	}
	ipp->setProperty("Ice.ImplicitContext", "Shared");

	Ice::InitializationData idd;
	idd.properties = ipp;

	try {
		communicator = Ice::initialize(idd);
		if (! meta->mp.qsIceSecretWrite.isEmpty()) {
			::Ice::ImplicitContextPtr impl = communicator->getImplicitContext();
			if (impl)
				impl->put("secret", u8(meta->mp.qsIceSecretWrite));
		}
		adapter = communicator->createObjectAdapterWithEndpoints("Murmur", qPrintable(meta->mp.qsIceEndpoint));
		MetaPtr m = new MetaI;
		MetaPrx mprx = MetaPrx::uncheckedCast(adapter->add(m, communicator->stringToIdentity("Meta")));
		adapter->addServantLocator(new ServerLocator(), "s");

		iopServer = new ServerI;

		adapter->activate();
		foreach(const Ice::EndpointPtr ep, mprx->ice_getEndpoints()) {
			qWarning("MurmurIce: Endpoint \"%s\" running", qPrintable(u8(ep->toString())));
		}

		meta->connectListener(this);
	} catch (Ice::Exception &e) {
		qCritical("MurmurIce: Initialization failed: %s", qPrintable(u8(e.ice_name())));
	}
}
예제 #12
0
static PyObject*
propertiesGetPropertiesForPrefix(PropertiesObject* self, PyObject* args)
{
    PyObject* prefixObj;
    if(!PyArg_ParseTuple(args, STRCAST("O"), &prefixObj))
    {
        return 0;
    }

    string prefix;
    if(!getStringArg(prefixObj, "prefix", prefix))
    {
        return 0;
    }

    assert(self->properties);
    Ice::PropertyDict dict;
    try
    {
        dict = (*self->properties)->getPropertiesForPrefix(prefix);
    }
    catch(const Ice::Exception& ex)
    {
        setPythonException(ex);
        return 0;
    }

    PyObjectHandle result = PyDict_New();
    if(result.get())
    {
        for(Ice::PropertyDict::iterator p = dict.begin(); p != dict.end(); ++p)
        {
            PyObjectHandle key = createString(p->first);
            PyObjectHandle val = createString(p->second);
            if(!val.get() || PyDict_SetItem(result.get(), key.get(), val.get()) < 0)
            {
                return 0;
            }
        }
    }

    return result.release();
}
예제 #13
0
TrustManager::TrustManager(const Ice::CommunicatorPtr& communicator) :
    _communicator(communicator)
{
    Ice::PropertiesPtr properties = communicator->getProperties();
    _traceLevel = properties->getPropertyAsInt("IceSSL.Trace.Security");
    string key;
    try
    {
        key = "IceSSL.TrustOnly";
        parse(properties->getProperty(key), _rejectAll, _acceptAll);
        key = "IceSSL.TrustOnly.Client";
        parse(properties->getProperty(key), _rejectClient, _acceptClient);
        key = "IceSSL.TrustOnly.Server";
        parse(properties->getProperty(key), _rejectAllServer, _acceptAllServer);
        Ice::PropertyDict dict = properties->getPropertiesForPrefix("IceSSL.TrustOnly.Server.");
        for(Ice::PropertyDict::const_iterator p = dict.begin(); p != dict.end(); ++p)
        {
            string name = p->first.substr(string("IceSSL.TrustOnly.Server.").size());
            key = p->first;
            list<DistinguishedName> reject, accept;
            parse(p->second, reject, accept);
            if(!reject.empty())
            {
                _rejectServer[name] = reject;
            }
            if(!accept.empty())
            {
                _acceptServer[name] = accept;
            }
        }
    }
    catch(const ParseException& e)
    {
        Ice::PluginInitializationException ex(__FILE__, __LINE__);
        ex.reason = "IceSSL: invalid property " + key  + ":\n" + e.reason;
        throw ex;
    }
}
예제 #14
0
int
PropsClient::run(int argc, char* argv[])
{
    if(argc > 1)
    {
        cerr << appName() << ": too many arguments" << endl;
        return EXIT_FAILURE;
    }

    PropsPrx props = PropsPrx::checkedCast(communicator()->propertyToProxy("Props.Proxy"));
    if(!props)
    {
        cerr << argv[0] << ": invalid proxy" << endl;
        return EXIT_FAILURE;
    }

    Ice::PropertiesAdminPrx admin =
        Ice::PropertiesAdminPrx::checkedCast(communicator()->propertyToProxy("Admin.Proxy"));

    Ice::PropertyDict batch1;
    batch1["Demo.Prop1"] = "1";
    batch1["Demo.Prop2"] = "2";
    batch1["Demo.Prop3"] = "3";

    Ice::PropertyDict batch2;
    batch2["Demo.Prop1"] = "10";
    batch2["Demo.Prop2"] = ""; // An empty value removes this property
    batch2["Demo.Prop3"] = "30";

    show(admin);
    menu();

    char c = 'x';
    do
    {
        try
        {
            cout << "==> ";
            cin >> c;
            if(c == '1' || c == '2')
            {
                Ice::PropertyDict dict = c == '1' ? batch1 : batch2;
                cout << "Sending:" << endl;
                for(Ice::PropertyDict::iterator p = dict.begin(); p != dict.end(); ++p)
                {
                    if(p->first.find("Demo") == 0)
                    {
                        cout << "  " << p->first << "=" << p->second << endl;
                    }
                }
                cout << endl;

                admin->setProperties(dict);

                cout << "Changes:" << endl;
                Ice::PropertyDict changes = props->getChanges();
                if(changes.empty())
                {
                    cout << "  None." << endl;
                }
                else
                {
                    for(Ice::PropertyDict::iterator p = changes.begin(); p != changes.end(); ++p)
                    {
                        cout << "  " << p->first;
                        if(p->second.empty())
                        {
                            cout << " was removed" << endl;
                        }
                        else
                        {
                            cout << " is now " << p->second << endl;
                        }
                    }
                }
            }
            else if(c == 'c')
            {
                show(admin);
            }
            else if(c == 's')
            {
                props->shutdown();
            }
            else if(c == 'x')
            {
                // Nothing to do
            }
            else if(c == '?')
            {
                menu();
            }
            else
            {
                cout << "unknown command `" << c << "'" << endl;
                menu();
            }
        }
        catch(const Ice::Exception& ex)
        {
            cerr << ex << endl;
        }
    }
    while(cin.good() && c != 'x');

    return EXIT_SUCCESS;
}
예제 #15
0
파일: Service.cpp 프로젝트: herclogon/ice
void
ServiceI::start(
    const string& name,
    const CommunicatorPtr& communicator,
    const StringSeq& /*args*/)
{
    PropertiesPtr properties = communicator->getProperties();

    validateProperties(name, properties, communicator->getLogger());

    int id = properties->getPropertyAsIntWithDefault(name + ".NodeId", -1);

    // If we are using a replicated deployment and if the topic
    // manager thread pool max size is not set then ensure it is set
    // to some suitably high number. This ensures no deadlocks in the
    // replicated case due to call forwarding from replicas to
    // coordinators.
    if(id != -1 && properties->getProperty(name + ".TopicManager.ThreadPool.SizeMax").empty())
    {
        properties->setProperty(name + ".TopicManager.ThreadPool.SizeMax", "100");
    }

    Ice::ObjectAdapterPtr topicAdapter = communicator->createObjectAdapter(name + ".TopicManager");
    Ice::ObjectAdapterPtr publishAdapter = communicator->createObjectAdapter(name + ".Publish");

    //
    // We use the name of the service for the name of the database environment.
    //
    string instanceName = properties->getPropertyWithDefault(name + ".InstanceName", "IceStorm");
    Identity topicManagerId;
    topicManagerId.category = instanceName;
    topicManagerId.name = "TopicManager";

    if(properties->getPropertyAsIntWithDefault(name+ ".Transient", 0) > 0)
    {
        _instance = new Instance(instanceName, name, communicator, publishAdapter, topicAdapter, 0);
        try
        {
            TransientTopicManagerImplPtr manager = new TransientTopicManagerImpl(_instance);
            _managerProxy = TopicManagerPrx::uncheckedCast(topicAdapter->add(manager, topicManagerId));
        }
        catch(const Ice::Exception& ex)
        {
            _instance = 0;

            LoggerOutputBase s;
            s << "exception while starting IceStorm service " << name << ":\n";
            s << ex;

            IceBox::FailureException e(__FILE__, __LINE__);
            e.reason = s.str();
            throw e;
        }
        topicAdapter->activate();
        publishAdapter->activate();
        return;
    }

    if(id == -1) // No replication.
    {
        _instance = new Instance(instanceName, name, communicator, publishAdapter, topicAdapter);

        try
        {
            _manager = new TopicManagerImpl(_instance);
            _managerProxy = TopicManagerPrx::uncheckedCast(topicAdapter->add(_manager->getServant(), topicManagerId));
        }
        catch(const Ice::Exception& ex)
        {
            _instance = 0;

            LoggerOutputBase s;
            s << "exception while starting IceStorm service " << name << ":\n";
            s << ex;

            IceBox::FailureException e(__FILE__, __LINE__);
            e.reason = s.str();
            throw e;
        }
    }
    else
    {
        // Here we want to create a map of id -> election node
        // proxies.
        map<int, NodePrx> nodes;

        string topicManagerAdapterId = properties->getProperty(name + ".TopicManager.AdapterId");

        // We support two possible deployments. The first is a manual
        // deployment, the second is IceGrid.
        //
        // Here we check for the manual deployment
        const string prefix = name + ".Nodes.";
        Ice::PropertyDict props = properties->getPropertiesForPrefix(prefix);
        if(!props.empty())
        {
            for(Ice::PropertyDict::const_iterator p = props.begin(); p != props.end(); ++p)
            {
                int nodeid = atoi(p->first.substr(prefix.size()).c_str());
                nodes[nodeid] = NodePrx::uncheckedCast(communicator->propertyToProxy(p->first));
            }
        }
        else
        {
            // If adapter id's are defined for the topic manager or
            // node adapters then we consider this an IceGrid based
            // deployment.
            string nodeAdapterId = properties->getProperty(name + ".Node.AdapterId");

            // Validate first that the adapter ids match for the node
            // and the topic manager otherwise some other deployment
            // is being used.
            const string suffix = ".TopicManager";
            if(topicManagerAdapterId.empty() || nodeAdapterId.empty() ||
               topicManagerAdapterId.replace(
                   topicManagerAdapterId.find(suffix), suffix.size(), ".Node") != nodeAdapterId)
            {
                Ice::Error error(communicator->getLogger());
                error << "deployment error: `" << topicManagerAdapterId << "' prefix does not match `"
                      << nodeAdapterId << "'";
                throw IceBox::FailureException(__FILE__, __LINE__, "IceGrid deployment is incorrect");
            }

            // Determine the set of node id and node proxies.
            //
            // This is determined by locating all topic manager
            // replicas, and then working out the node for that
            // replica.
            //
            // We work out the node id by removing the instance
            // name. The node id must follow.
            //
            IceGrid::LocatorPrx locator = IceGrid::LocatorPrx::checkedCast(communicator->getDefaultLocator());
            assert(locator);
            IceGrid::QueryPrx query = locator->getLocalQuery();
            Ice::ObjectProxySeq replicas = query->findAllReplicas(
                communicator->stringToProxy(instanceName + "/TopicManager"));

            for(Ice::ObjectProxySeq::const_iterator p = replicas.begin(); p != replicas.end(); ++p)
            {
                string adapterid = (*p)->ice_getAdapterId();

                // Replace TopicManager with the node endpoint.
                adapterid = adapterid.replace(adapterid.find(suffix), suffix.size(), ".Node");

                // The adapter id must start with the instance name.
                if(adapterid.find(instanceName) != 0)
                {
                    Ice::Error error(communicator->getLogger());
                    error << "deployment error: `" << adapterid << "' does not start with `" << instanceName << "'";
                    throw IceBox::FailureException(__FILE__, __LINE__, "IceGrid deployment is incorrect");
                }

                // The node id follows. We find the first digit (the
                // start of the node id, and then the end of the
                // digits).
                string::size_type start = instanceName.size();
                while(start < adapterid.size() && !IceUtilInternal::isDigit(adapterid[start]))
                {
                    ++start;
                }
                string::size_type end = start;
                while(end < adapterid.size() && IceUtilInternal::isDigit(adapterid[end]))
                {
                    ++end;
                }
                if(start == end)
                {
                    // We must have at least one digit, otherwise there is
                    // some sort of deployment error.
                    Ice::Error error(communicator->getLogger());
                    error << "deployment error: node id does not follow instance name. instance name:"
                          << instanceName << " adapter id: " << adapterid;
                    throw IceBox::FailureException(__FILE__, __LINE__, "IceGrid deployment is incorrect");
                }

                int nodeid = atoi(adapterid.substr(start, end-start).c_str());
                ostringstream os;
                os << "node" << nodeid;
                Ice::Identity id;
                id.category = instanceName;
                id.name = os.str();

                nodes[nodeid] = NodePrx::uncheckedCast((*p)->ice_adapterId(adapterid)->ice_identity(id));
            }
        }

        if(nodes.size() < 3)
        {
            Ice::Error error(communicator->getLogger());
            error << "Replication requires at least 3 Nodes";
            throw IceBox::FailureException(__FILE__, __LINE__, "Replication requires at least 3 Nodes");
        }

        try
        {
            // If the node thread pool size is not set then initialize
            // to the number of nodes + 1 and disable thread pool size
            // warnings.
            if(properties->getProperty(name + ".Node.ThreadPool.Size").empty())
            {
                ostringstream os;
                os << nodes.size() + 1;
                properties->setProperty(name + ".Node.ThreadPool.Size", os.str());
                properties->setProperty(name + ".Node.ThreadPool.SizeWarn", "0");
            }
            if(properties->getProperty(name + ".Node.MessageSizeMax").empty())
            {
                properties->setProperty(name + ".Node.MessageSizeMax", "0"); // No limit on data exchanged internally
            }

            Ice::ObjectAdapterPtr nodeAdapter = communicator->createObjectAdapter(name + ".Node");

            _instance = new Instance(instanceName, name, communicator, publishAdapter, topicAdapter,
                                     nodeAdapter, nodes[id]);
            _instance->observers()->setMajority(static_cast<unsigned int>(nodes.size())/2);

            // Trace replication information.
            TraceLevelsPtr traceLevels = _instance->traceLevels();
            if(traceLevels->election > 0)
            {
                Ice::Trace out(traceLevels->logger, traceLevels->electionCat);
                out << "I am node " << id << "\n";
                for(map<int, NodePrx>::const_iterator p = nodes.begin(); p != nodes.end(); ++p)
                {
                    out << "\tnode: " << p->first << " proxy: " << p->second->ice_toString() << "\n";
                }
            }

            if(topicManagerAdapterId.empty())
            {
                // We're not using an IceGrid deployment. Here we need
                // a proxy which is used to create proxies to the
                // replicas later.
                _managerProxy = TopicManagerPrx::uncheckedCast(topicAdapter->createProxy(topicManagerId));
            }
            else
            {
                // If we're using IceGrid deployment we need to create
                // indirect proxies.
                _managerProxy = TopicManagerPrx::uncheckedCast(topicAdapter->createIndirectProxy(topicManagerId));
            }

            _manager = new TopicManagerImpl(_instance);
            topicAdapter->add(_manager->getServant(), topicManagerId);

            ostringstream os; // The node object identity.
            os << "node" << id;
            Ice::Identity nodeid;
            nodeid.category = instanceName;
            nodeid.name = os.str();

            NodeIPtr node = new NodeI(_instance, _manager, _managerProxy, id, nodes);
            _instance->setNode(node);
            nodeAdapter->add(node, nodeid);
            nodeAdapter->activate();

            node->start();
        }
        catch(const Ice::Exception& ex)
        {
            _instance = 0;

            LoggerOutputBase s;
            s << "exception while starting IceStorm service " << name << ":\n";
            s << ex;

            IceBox::FailureException e(__FILE__, __LINE__);
            e.reason = s.str();
            throw e;
        }
    }

    topicAdapter->add(new FinderI(TopicManagerPrx::uncheckedCast(topicAdapter->createProxy(topicManagerId))),
                      communicator->stringToIdentity("IceStorm/Finder"));

    topicAdapter->activate();
    publishAdapter->activate();
}