示例#1
0
文件: ACM.cs 项目: skyhack1212/ice-1
        public ACMConfig(Ice.Properties p, Ice.Logger l, string prefix, ACMConfig dflt)
        {
            Debug.Assert(prefix != null);

            string timeoutProperty;

            if ((prefix.Equals("Ice.ACM.Client") || prefix.Equals("Ice.ACM.Server")) &&
                p.getProperty(prefix + ".Timeout").Length == 0)
            {
                timeoutProperty = prefix; // Deprecated property.
            }
            else
            {
                timeoutProperty = prefix + ".Timeout";
            }

            timeout = p.getPropertyAsIntWithDefault(timeoutProperty, dflt.timeout / 1000) * 1000;

            int hb = p.getPropertyAsIntWithDefault(prefix + ".Heartbeat", (int)dflt.heartbeat);

            if (hb >= (int)Ice.ACMHeartbeat.HeartbeatOff && hb <= (int)Ice.ACMHeartbeat.HeartbeatAlways)
            {
                heartbeat = (Ice.ACMHeartbeat)hb;
            }
            else
            {
                l.warning("invalid value for property `" + prefix + ".Heartbeat" +
                          "', default value will be used instead");
                heartbeat = dflt.heartbeat;
            }

            int cl = p.getPropertyAsIntWithDefault(prefix + ".Close", (int)dflt.close);

            if (cl >= (int)Ice.ACMClose.CloseOff && cl <= (int)Ice.ACMClose.CloseOnIdleForceful)
            {
                close = (Ice.ACMClose)cl;
            }
            else
            {
                l.warning("invalid value for property `" + prefix + ".Close" +
                          "', default value will be used instead");
                close = dflt.close;
            }
        }
示例#2
0
        public ACMMonitor acm(Ice.Optional <int> timeout, Ice.Optional <Ice.ACMClose> c, Ice.Optional <Ice.ACMHeartbeat> h)
        {
            Debug.Assert(_instance != null);

            ACMConfig config = (ACMConfig)_config.Clone();

            if (timeout.HasValue)
            {
                config.timeout = timeout.Value * 1000; // To milliseconds
            }
            if (c.HasValue)
            {
                config.close = c.Value;
            }
            if (h.HasValue)
            {
                config.heartbeat = h.Value;
            }
            return(new ConnectionACMMonitor(this, _instance.timer(), config));
        }
示例#3
0
        public ACMMonitor acm(int?timeout, Ice.ACMClose?c, Ice.ACMHeartbeat?h)
        {
            Debug.Assert(_communicator != null);

            ACMConfig config = _config.Clone();

            if (timeout.HasValue)
            {
                config.timeout = timeout.Value * 1000; // To milliseconds
            }
            if (c.HasValue)
            {
                config.close = c.Value;
            }
            if (h.HasValue)
            {
                config.heartbeat = h.Value;
            }
            return(new ConnectionACMMonitor(this, _communicator.timer(), config));
        }
示例#4
0
文件: ACM.cs 项目: pedia/zeroc-ice
        public ACMConfig(Ice.Properties p, Ice.Logger l, string prefix, ACMConfig dflt)
        {
            Debug.Assert(prefix != null);
            
            string timeoutProperty;
            if((prefix.Equals("Ice.ACM.Client") || prefix.Equals("Ice.ACM.Server")) &&
               p.getProperty(prefix + ".Timeout").Length == 0)
            {
                timeoutProperty = prefix; // Deprecated property.
            }
            else
            {
                timeoutProperty = prefix + ".Timeout";
            };
        
            timeout = p.getPropertyAsIntWithDefault(timeoutProperty, dflt.timeout / 1000) * 1000;

            int hb = p.getPropertyAsIntWithDefault(prefix + ".Heartbeat", (int)dflt.heartbeat);
            if(hb >= (int)Ice.ACMHeartbeat.HeartbeatOff && hb <= (int)Ice.ACMHeartbeat.HeartbeatAlways)
            {
                heartbeat = (Ice.ACMHeartbeat)hb;
            }
            else
            {
                l.warning("invalid value for property `" + prefix + ".Heartbeat" + 
                          "', default value will be used instead");
                heartbeat = dflt.heartbeat;
            }

            int cl = p.getPropertyAsIntWithDefault(prefix + ".Close", (int)dflt.close);
            if(cl >= (int)Ice.ACMClose.CloseOff && cl <= (int)Ice.ACMClose.CloseOnIdleForceful)
            {
                close = (Ice.ACMClose)cl;
            }
            else
            {
                l.warning("invalid value for property `" + prefix + ".Close" +
                          "', default value will be used instead");
                close = dflt.close;
            }
        }
示例#5
0
 internal ConnectionACMMonitor(FactoryACMMonitor parent, Timer timer, ACMConfig config)
 {
     _parent = parent;
     _timer  = timer;
     _config = config;
 }
示例#6
0
 internal FactoryACMMonitor(Instance instance, ACMConfig config)
 {
     _instance = instance;
     _config   = config;
 }
示例#7
0
        //
        // Only for use by Ice.CommunicatorI
        //
        public Instance(Ice.Communicator communicator, Ice.InitializationData initData)
        {
            _state = StateActive;
            _initData = initData;

            try
            {
                if(_initData.properties == null)
                {
                    _initData.properties = Ice.Util.createProperties();
                }
#if !SILVERLIGHT && !UNITY
                lock(_staticLock)
                {
                    if(!_oneOfDone)
                    {
                        string stdOut = _initData.properties.getProperty("Ice.StdOut");
                        string stdErr = _initData.properties.getProperty("Ice.StdErr");

                        System.IO.StreamWriter outStream = null;

                        if(stdOut.Length > 0)
                        {
                            try
                            {
                                outStream = System.IO.File.AppendText(stdOut);
                            }
                            catch(System.IO.IOException ex)
                            {
                                Ice.FileException fe = new Ice.FileException(ex);
                                fe.path = stdOut;
                                throw fe;
                            }
                            outStream.AutoFlush = true;
                            System.Console.Out.Close();
                            System.Console.SetOut(outStream);
                        }
                        if(stdErr.Length > 0)
                        {
                            if(stdErr.Equals(stdOut))
                            {
                                System.Console.SetError(outStream);
                            }
                            else
                            {
                                System.IO.StreamWriter errStream = null;
                                try
                                {
                                    errStream = System.IO.File.AppendText(stdErr);
                                }
                                catch(System.IO.IOException ex)
                                {
                                    Ice.FileException fe = new Ice.FileException(ex);
                                    fe.path = stdErr;
                                    throw fe;
                                }
                                errStream.AutoFlush = true;
                                System.Console.Error.Close();
                                System.Console.SetError(errStream);
                            }
                        }

                        _oneOfDone = true;
                    }
                }
#endif

                if(_initData.logger == null)
                {
#if !SILVERLIGHT && !UNITY
                    string logfile = _initData.properties.getProperty("Ice.LogFile");
                    if(_initData.properties.getPropertyAsInt("Ice.UseSyslog") > 0 &&
                       AssemblyUtil.platform_ != AssemblyUtil.Platform.Windows)
                    {
                        if(logfile.Length != 0)
                        {
                            throw new Ice.InitializationException("Ice.LogFile and Ice.UseSyslog cannot both be set.");
                        }
                        _initData.logger = new Ice.SysLoggerI(_initData.properties.getProperty("Ice.ProgramName"),
                            _initData.properties.getPropertyWithDefault("Ice.SyslogFacility", "LOG_USER"));
                    }
                    else if(logfile.Length != 0)
                    {

                        _initData.logger =
                            new Ice.FileLoggerI(_initData.properties.getProperty("Ice.ProgramName"), logfile);
                    }
                    else if(Ice.Util.getProcessLogger() is Ice.LoggerI)
                    {
                        //
                        // Ice.ConsoleListener is enabled by default.
                        //
#  if COMPACT
                        _initData.logger =
                            new Ice.ConsoleLoggerI(_initData.properties.getProperty("Ice.ProgramName"));
#  else
                        bool console =
                            _initData.properties.getPropertyAsIntWithDefault("Ice.ConsoleListener", 1) > 0;
                        _initData.logger =
                            new Ice.TraceLoggerI(_initData.properties.getProperty("Ice.ProgramName"), console);
#  endif
                    }
#else
                    if(Ice.Util.getProcessLogger() is Ice.LoggerI)
                    {
                        _initData.logger =
                            new Ice.ConsoleLoggerI(_initData.properties.getProperty("Ice.ProgramName"));
                    }
#endif
                    else
                    {
                        _initData.logger = Ice.Util.getProcessLogger();
                    }
                }

                _traceLevels = new TraceLevels(_initData.properties);

                _defaultsAndOverrides = new DefaultsAndOverrides(_initData.properties, _initData.logger);

                _clientACM = new ACMConfig(_initData.properties,
                                           _initData.logger,
                                           "Ice.ACM.Client",
                                           new ACMConfig(_initData.properties, _initData.logger, "Ice.ACM",
                                                         new ACMConfig(false)));

                _serverACM = new ACMConfig(_initData.properties,
                                           _initData.logger,
                                           "Ice.ACM.Server",
                                           new ACMConfig(_initData.properties, _initData.logger, "Ice.ACM",
                                                         new ACMConfig(true)));

#if COMPACT || SILVERLIGHT
                char[] separators = { ' ', '\t', '\n', '\r' };
                _factoryAssemblies = _initData.properties.getProperty("Ice.FactoryAssemblies").Split(separators);
#endif
                {
                    const int defaultMessageSizeMax = 1024;
                    int num =
                        _initData.properties.getPropertyAsIntWithDefault("Ice.MessageSizeMax", defaultMessageSizeMax);
                    if(num < 1 || num > 0x7fffffff / 1024)
                    {
                        _messageSizeMax = 0x7fffffff;
                    }
                    else
                    {
                        _messageSizeMax = num * 1024; // Property is in kilobytes, _messageSizeMax in bytes
                    }
                }

                if(_initData.properties.getProperty("Ice.BatchAutoFlushSize").Length == 0 && 
                   _initData.properties.getProperty("Ice.BatchAutoFlush").Length > 0)
                {
                    if(_initData.properties.getPropertyAsInt("Ice.BatchAutoFlush") > 0)
                    {
                        _batchAutoFlushSize = _messageSizeMax;
                    }
                }
                else
                {
                    int num = _initData.properties.getPropertyAsIntWithDefault("Ice.BatchAutoFlushSize", 1024); // 1MB
                    if(num < 1)
                    {
                        _batchAutoFlushSize = num;
                    }
                    else if(num > 0x7fffffff / 1024)
                    {
                        _batchAutoFlushSize = 0x7fffffff;
                    }
                    else
                    {
                        _batchAutoFlushSize = num * 1024; // Property is in kilobytes, _batchAutoFlushSize in bytes
                    }
                }

                _cacheMessageBuffers = _initData.properties.getPropertyAsIntWithDefault("Ice.CacheMessageBuffers", 2);

                _implicitContext = Ice.ImplicitContextI.create(_initData.properties.getProperty("Ice.ImplicitContext"));
                _routerManager = new RouterManager();

                _locatorManager = new LocatorManager(_initData.properties);

                _referenceFactory = new ReferenceFactory(this, communicator);

                _proxyFactory = new ProxyFactory(this);

                _requestHandlerFactory = new RequestHandlerFactory(this);

                bool isIPv6Supported = Network.isIPv6Supported();
                bool ipv4 = _initData.properties.getPropertyAsIntWithDefault("Ice.IPv4", 1) > 0;
                bool ipv6 = _initData.properties.getPropertyAsIntWithDefault("Ice.IPv6", isIPv6Supported ? 1 : 0) > 0;
                if(!ipv4 && !ipv6)
                {
                    throw new Ice.InitializationException("Both IPV4 and IPv6 support cannot be disabled.");
                }
                else if(ipv4 && ipv6)
                {
                    _protocolSupport = Network.EnableBoth;
                }
                else if(ipv4)
                {
                    _protocolSupport = Network.EnableIPv4;
                }
                else
                {
                    _protocolSupport = Network.EnableIPv6;
                }
                _preferIPv6 = _initData.properties.getPropertyAsInt("Ice.PreferIPv6Address") > 0;

                _networkProxy = createNetworkProxy(_initData.properties, _protocolSupport);

                _endpointFactoryManager = new EndpointFactoryManager(this);
                ProtocolInstance tcpProtocolInstance = new ProtocolInstance(this, Ice.TCPEndpointType.value, "tcp");
                EndpointFactory tcpEndpointFactory = new TcpEndpointFactory(tcpProtocolInstance);
                _endpointFactoryManager.add(tcpEndpointFactory);

                ProtocolInstance udpProtocolInstance =
                    new ProtocolInstance(this, Ice.UDPEndpointType.value, "udp");
                EndpointFactory udpEndpointFactory = new UdpEndpointFactory(udpProtocolInstance);
                _endpointFactoryManager.add(udpEndpointFactory);

                ProtocolInstance wsProtocolInstance = new ProtocolInstance(this, Ice.WSEndpointType.value, "ws");
                _endpointFactoryManager.add(new WSEndpointFactory(wsProtocolInstance,
                                                                  tcpEndpointFactory.clone(wsProtocolInstance)));

#if !SILVERLIGHT
                _pluginManager = new Ice.PluginManagerI(communicator);
#endif

                _outgoingConnectionFactory = new OutgoingConnectionFactory(communicator, this);

                _servantFactoryManager = new ObjectFactoryManager();

                _objectAdapterFactory = new ObjectAdapterFactory(this, communicator);

                _retryQueue = new RetryQueue(this);
            }
示例#8
0
文件: ACM.cs 项目: pedia/zeroc-ice
 internal FactoryACMMonitor(Instance instance, ACMConfig config)
 {
     _instance = instance;
     _config = config;
 }
示例#9
0
文件: ACM.cs 项目: pedia/zeroc-ice
 internal ConnectionACMMonitor(FactoryACMMonitor parent, Timer timer, ACMConfig config)
 {
     _parent = parent;
     _timer = timer;
     _config = config;
 }
示例#10
0
        //
        // Only for use by ObjectAdapterFactory
        //
        public ObjectAdapterI(Instance instance, Communicator communicator,
            ObjectAdapterFactory objectAdapterFactory, string name,
            RouterPrx router, bool noConfig)
        {
            instance_ = instance;
            _communicator = communicator;
            _objectAdapterFactory = objectAdapterFactory;
            _servantManager = new ServantManager(instance, name);
            _name = name;
            _incomingConnectionFactories = new List<IncomingConnectionFactory>();
            _publishedEndpoints = new List<EndpointI>();
            _routerEndpoints = new List<EndpointI>();
            _routerInfo = null;
            _directCount = 0;
            _noConfig = noConfig;

            if(_noConfig)
            {
                _id = "";
                _replicaGroupId = "";
                _reference = instance_.referenceFactory().create("dummy -t", "");
                _acm = instance_.serverACM();
                return;
            }

            Properties properties = instance_.initializationData().properties;
            List<string> unknownProps = new List<string>();
            bool noProps = filterProperties(unknownProps);

            //
            // Warn about unknown object adapter properties.
            //
            if(unknownProps.Count != 0 && properties.getPropertyAsIntWithDefault("Ice.Warn.UnknownProperties", 1) > 0)
            {
                StringBuilder message = new StringBuilder("found unknown properties for object adapter `");
                message.Append(_name);
                message.Append("':");
                foreach(string s in unknownProps)
                {
                    message.Append("\n    ");
                    message.Append(s);
                }
                instance_.initializationData().logger.warning(message.ToString());
            }

            //
            // Make sure named adapter has configuration.
            //
            if(router == null && noProps)
            {
                //
                // These need to be set to prevent warnings/asserts in the destructor.
                //
                state_ = StateDestroyed;
                instance_ = null;
                _incomingConnectionFactories = null;

                InitializationException ex = new InitializationException();
                ex.reason = "object adapter `" + _name + "' requires configuration";
                throw ex;
            }

            _id = properties.getProperty(_name + ".AdapterId");
            _replicaGroupId = properties.getProperty(_name + ".ReplicaGroupId");

            //
            // Setup a reference to be used to get the default proxy options
            // when creating new proxies. By default, create twoway proxies.
            //
            string proxyOptions = properties.getPropertyWithDefault(_name + ".ProxyOptions", "-t");
            try
            {
                _reference = instance_.referenceFactory().create("dummy " + proxyOptions, "");
            }
            catch(ProxyParseException)
            {
                InitializationException ex = new InitializationException();
                ex.reason = "invalid proxy options `" + proxyOptions + "' for object adapter `" + _name + "'";
                throw ex;
            }

            _acm = new ACMConfig(properties, communicator.getLogger(), _name + ".ACM", instance_.serverACM());

            {
                int defaultMessageSizeMax = instance.messageSizeMax() / 1024;
                int num = properties.getPropertyAsIntWithDefault(_name + ".MessageSizeMax", defaultMessageSizeMax);
                if(num < 1 || num > 0x7fffffff / 1024)
                {
                    _messageSizeMax = 0x7fffffff;
                }
                else
                {
                    _messageSizeMax = num * 1024; // Property is in kilobytes, _messageSizeMax in bytes
                }
            }

            try
            {
                int threadPoolSize = properties.getPropertyAsInt(_name + ".ThreadPool.Size");
                int threadPoolSizeMax = properties.getPropertyAsInt(_name + ".ThreadPool.SizeMax");
                if(threadPoolSize > 0 || threadPoolSizeMax > 0)
                {
                    _threadPool = new ThreadPool(instance_, _name + ".ThreadPool", 0);
                }

                if(router == null)
                {
                    router = RouterPrxHelper.uncheckedCast(
                        instance_.proxyFactory().propertyToProxy(_name + ".Router"));
                }
                if(router != null)
                {
                    _routerInfo = instance_.routerManager().get(router);
                    if(_routerInfo != null)
                    {
                        //
                        // Make sure this router is not already registered with another adapter.
                        //
                        if(_routerInfo.getAdapter() != null)
                        {
                            Ice.AlreadyRegisteredException ex = new Ice.AlreadyRegisteredException();
                            ex.kindOfObject = "object adapter with router";
                            ex.id = instance_.identityToString(router.ice_getIdentity());
                            throw ex;
                        }

                        //
                        // Add the router's server proxy endpoints to this object
                        // adapter.
                        //
                        EndpointI[] endpoints = _routerInfo.getServerEndpoints();
                        for(int i = 0; i < endpoints.Length; ++i)
                        {
                            _routerEndpoints.Add(endpoints[i]);
                        }
                        _routerEndpoints.Sort(); // Must be sorted.

                        //
                        // Remove duplicate endpoints, so we have a list of unique endpoints.
                        //
                        for(int i = 0; i < _routerEndpoints.Count-1;)
                        {
                            EndpointI e1 = _routerEndpoints[i];
                            EndpointI e2 = _routerEndpoints[i + 1];
                            if(e1.Equals(e2))
                            {
                                _routerEndpoints.RemoveAt(i);
                            }
                            else
                            {
                                ++i;
                            }
                        }

                        //
                        // Associate this object adapter with the router. This way,
                        // new outgoing connections to the router's client proxy will
                        // use this object adapter for callbacks.
                        //
                        _routerInfo.setAdapter(this);

                        //
                        // Also modify all existing outgoing connections to the
                        // router's client proxy to use this object adapter for
                        // callbacks.
                        //
                        instance_.outgoingConnectionFactory().setRouterInfo(_routerInfo);
                    }
                }
                else
                {
                    //
                    // Parse the endpoints, but don't store them in the adapter. The connection
                    // factory might change it, for example, to fill in the real port number.
                    //
                    List<EndpointI> endpoints =  parseEndpoints(properties.getProperty(_name + ".Endpoints"), true);
                    foreach(EndpointI endp in endpoints)
                    {
                        IncomingConnectionFactory factory = new IncomingConnectionFactory(instance, endp, this);
                        _incomingConnectionFactories.Add(factory);
                    }
                    if(endpoints.Count == 0)
                    {
                        TraceLevels tl = instance_.traceLevels();
                        if(tl.network >= 2)
                        {
                            instance_.initializationData().logger.trace(tl.networkCat, "created adapter `" + _name +
                                                                        "' without endpoints");
                        }
                    }

                    //
                    // Parse published endpoints.
                    //
                    _publishedEndpoints = parsePublishedEndpoints();
                }

                if(properties.getProperty(_name + ".Locator").Length > 0)
                {
                    setLocator(LocatorPrxHelper.uncheckedCast(
                        instance_.proxyFactory().propertyToProxy(_name + ".Locator")));
                }
                else
                {
                    setLocator(instance_.referenceFactory().getDefaultLocator());
                }
            }
            catch(LocalException)
            {
                destroy();
                throw;
            }
        }
示例#11
0
        public ACMConfig(Ice.Communicator communicator, Ice.Logger logger, string prefix, ACMConfig defaults)
        {
            Debug.Assert(prefix != null);

            string timeoutProperty;

            if ((prefix == "Ice.ACM.Client" || prefix == "Ice.ACM.Server") &&
                communicator.GetProperty($"{prefix}.Timeout") == null)
            {
                timeoutProperty = prefix; // Deprecated property.
            }
            else
            {
                timeoutProperty = prefix + ".Timeout";
            }

            timeout = communicator.GetPropertyAsInt(timeoutProperty) * 1000 ?? defaults.timeout;
            if (timeout < 0)
            {
                logger.warning($"invalid value for property `{timeoutProperty}', default value will be used instead");
                timeout = defaults.timeout;
            }

            int hb = communicator.GetPropertyAsInt($"{prefix}.Heartbeat") ?? (int)defaults.heartbeat;

            if (hb >= (int)Ice.ACMHeartbeat.HeartbeatOff && hb <= (int)Ice.ACMHeartbeat.HeartbeatAlways)
            {
                heartbeat = (Ice.ACMHeartbeat)hb;
            }
            else
            {
                logger.warning($"invalid value for property `{prefix}.Heartbeat', default value will be used instead");
                heartbeat = defaults.heartbeat;
            }

            int cl = communicator.GetPropertyAsInt($"{prefix}.Close") ?? (int)defaults.close;

            if (cl >= (int)Ice.ACMClose.CloseOff && cl <= (int)Ice.ACMClose.CloseOnIdleForceful)
            {
                close = (Ice.ACMClose)cl;
            }
            else
            {
                logger.warning($"invalid value for property `{prefix}.Close', default value will be used instead");
                close = defaults.close;
            }
        }
示例#12
0
 internal FactoryACMMonitor(Ice.Communicator communicator, ACMConfig config)
 {
     _communicator = communicator;
     _config       = config;
 }
示例#13
0
        public void monitor(long now, ACMConfig acm)
        {
            lock(this)
            {
                if(_state != StateActive)
                {
                    return;
                }

                //
                // We send a heartbeat if there was no activity in the last
                // (timeout / 4) period. Sending a heartbeat sooner than
                // really needed is safer to ensure that the receiver will
                // receive in time the heartbeat. Sending the heartbeat if
                // there was no activity in the last (timeout / 2) period
                // isn't enough since monitor() is called only every (timeout
                // / 2) period.
                //
                // Note that this doesn't imply that we are sending 4 heartbeats
                // per timeout period because the monitor() method is sill only
                // called every (timeout / 2) period.
                //
                if(acm.heartbeat == ACMHeartbeat.HeartbeatAlways ||
                   (acm.heartbeat != ACMHeartbeat.HeartbeatOff && _writeStream.isEmpty() &&
                    now >= (_acmLastActivity + acm.timeout / 4)))
                {
                    if(acm.heartbeat != ACMHeartbeat.HeartbeatOnInvocation || _dispatchCount > 0)
                    {
                        heartbeat();
                    }
                }

                if(_readStream.size() > Protocol.headerSize || !_writeStream.isEmpty())
                {
                    //
                    // If writing or reading, nothing to do, the connection
                    // timeout will kick-in if writes or reads don't progress.
                    // This check is necessary because the actitivy timer is
                    // only set when a message is fully read/written.
                    //
                    return;
                }

                if(acm.close != ACMClose.CloseOff && now >= (_acmLastActivity + acm.timeout))
                {
                    if(acm.close == ACMClose.CloseOnIdleForceful ||
                       (acm.close != ACMClose.CloseOnIdle && (_asyncRequests.Count > 0)))
                    {
                        //
                        // Close the connection if we didn't receive a heartbeat in
                        // the last period.
                        //
                        setState(StateClosed, new ConnectionTimeoutException());
                    }
                    else if(acm.close != ACMClose.CloseOnInvocation &&
                            _dispatchCount == 0 && _batchRequestQueue.isEmpty()  &&
                            _asyncRequests.Count == 0)
                    {
                        //
                        // The connection is idle, close it.
                        //
                        setState(StateClosing, new ConnectionTimeoutException());
                    }
                }
            }
        }
示例#14
0
        public IncomingConnectionFactory(ObjectAdapter adapter, Endpoint endpoint, Endpoint?publish,
                                         ACMConfig acmConfig)
        {
            _communicator      = adapter.Communicator;
            _endpoint          = endpoint;
            _publishedEndpoint = publish;
            _adapter           = adapter;
            _warn    = _communicator.GetPropertyAsBool("Ice.Warn.Connections") ?? false;
            _monitor = new FactoryACMMonitor(_communicator, acmConfig);

            if (_communicator.OverrideTimeout != null)
            {
                _endpoint = _endpoint.NewTimeout(_communicator.OverrideTimeout.Value);
            }

            if (_communicator.OverrideCompress != null)
            {
                _endpoint = _endpoint.NewCompressionFlag(_communicator.OverrideCompress.Value);
            }

            try
            {
                _transceiver = _endpoint.GetTransceiver();
                if (_transceiver != null)
                {
                    if (_communicator.TraceLevels.Network >= 2)
                    {
                        _communicator.Logger.Trace(_communicator.TraceLevels.NetworkCat,
                                                   $"attempting to bind to {_endpoint.Name} socket\n{_transceiver}");
                    }
                    _endpoint = _transceiver.Bind();

                    var connection = new Connection(_communicator, null, _transceiver, null, _endpoint, _adapter);
                    _ = connection.StartAsync();
                    _connections.Add(connection);
                }
                else
                {
                    _acceptor = _endpoint.GetAcceptor(_adapter !.Name);

                    if (_communicator.TraceLevels.Network >= 2)
                    {
                        _communicator.Logger.Trace(_communicator.TraceLevels.NetworkCat,
                                                   $"attempting to bind to {_endpoint.Name} socket {_acceptor}");
                    }
                    _endpoint = _acceptor !.Listen();

                    if (_communicator.TraceLevels.Network >= 1)
                    {
                        _communicator.Logger.Trace(_communicator.TraceLevels.NetworkCat,
                                                   $"listening for {_endpoint.Name} connections\n{_acceptor!.ToDetailedString()}");
                    }
                }
            }
            catch (System.Exception)
            {
                //
                // Clean up.
                //
                try
                {
                    _transceiver?.Close();
                    _acceptor?.Close();
                }
                catch (System.Exception)
                {
                    // Ignore
                }

                _monitor.Destroy();
                _connections.Clear();

                throw;
            }
        }