Esempio n. 1
0
        /// <summary>
        /// Adds a node to be monitored. If there is no session to the endpoint, one is created.
        /// If there is no spubscription with the requested publishing interval, one is created.
        /// </summary>
        /// <param name="publishingInterval"></param>
        /// <param name="samplingInterval"></param>
        /// <param name="nodeId"></param>
        public void AddNodeForMonitoring(int publishingInterval, int samplingInterval, NodeId nodeId)
        {
            _opcSessionSemaphore.Wait();
            try
            {
                if (PublisherShutdownInProgress)
                {
                    return;
                }

                // check if there is already a subscription with the same publishing interval, which could be used to monitor the node
                OpcSubscription opcSubscription = OpcSubscriptions.FirstOrDefault(s => s.RequestedPublishingInterval == publishingInterval);

                // if there was none found, create one
                if (opcSubscription == null)
                {
                    opcSubscription = new OpcSubscription(publishingInterval);
                    OpcSubscriptions.Add(opcSubscription);
                    Trace($"AddNodeForMonitoring: No matching subscription with publishing interval of {publishingInterval} found'. Requested to create a new one.");
                }

                // if it is already there, we just ignore it, otherwise we add a new item to monitor.
                OpcMonitoredItem opcMonitoredItem = opcSubscription.OpcMonitoredItems.FirstOrDefault(m => m.StartNodeId == nodeId);

                // if there was none found, create one
                if (opcMonitoredItem == null)
                {
                    // add a new item to monitor
                    opcMonitoredItem = new OpcMonitoredItem(nodeId, EndpointUri)
                    {
                        RequestedSamplingInterval = samplingInterval
                    };
                    opcSubscription.OpcMonitoredItems.Add(opcMonitoredItem);
                    Trace($"AddNodeForMonitoring: Added item with nodeId '{nodeId.ToString()}' for monitoring.");

                    // Start publishing.
                    Task.Run(async() => await ConnectAndMonitor());
                }
            }
            finally
            {
                _opcSessionSemaphore.Release();
            }
        }
Esempio n. 2
0
        /// <summary>
        /// Create the publisher data structures to manage OPC sessions, subscriptions and monitored items.
        /// </summary>
        /// <returns></returns>
        public static async Task <bool> CreateOpcPublishingDataAsync()
        {
            // create a list to manage sessions, subscriptions and monitored items.
            try
            {
                await PublisherNodeConfigurationSemaphore.WaitAsync().ConfigureAwait(false);

                await OpcSessionsListSemaphore.WaitAsync().ConfigureAwait(false);

                var uniqueEndpointUrls = _nodePublishingConfiguration.Select(n => n.EndpointUrl).Distinct();
                foreach (var endpointUrl in uniqueEndpointUrls)
                {
                    // create new session info.
                    OpcSession opcSession = new OpcSession(endpointUrl, _nodePublishingConfiguration.Where(n => n.EndpointUrl == endpointUrl).First().UseSecurity, OpcSessionCreationTimeout);

                    // create a subscription for each distinct publishing inverval
                    var nodesDistinctPublishingInterval = _nodePublishingConfiguration.Where(n => n.EndpointUrl.Equals(endpointUrl, StringComparison.OrdinalIgnoreCase)).Select(c => c.OpcPublishingInterval).Distinct();
                    foreach (var nodeDistinctPublishingInterval in nodesDistinctPublishingInterval)
                    {
                        // create a subscription for the publishing interval and add it to the session.
                        OpcSubscription opcSubscription = new OpcSubscription(nodeDistinctPublishingInterval);

                        // add all nodes with this OPC publishing interval to this subscription.
                        var nodesWithSamePublishingInterval = _nodePublishingConfiguration.Where(n => n.EndpointUrl.Equals(endpointUrl, StringComparison.OrdinalIgnoreCase)).Where(n => n.OpcPublishingInterval == nodeDistinctPublishingInterval);
                        foreach (var nodeInfo in nodesWithSamePublishingInterval)
                        {
                            // differentiate if NodeId or ExpandedNodeId format is used
                            if (nodeInfo.ExpandedNodeId != null)
                            {
                                // create a monitored item for the node, we do not have the namespace index without a connected session.
                                // so request a namespace update.
                                OpcMonitoredItem opcMonitoredItem = new OpcMonitoredItem(nodeInfo.ExpandedNodeId, opcSession.EndpointUrl, nodeInfo.OpcSamplingInterval, nodeInfo.DisplayName);
                                opcSubscription.OpcMonitoredItems.Add(opcMonitoredItem);
                                Interlocked.Increment(ref NodeConfigVersion);
                            }
                            else if (nodeInfo.NodeId != null)
                            {
                                // create a monitored item for the node with the configured or default sampling interval
                                OpcMonitoredItem opcMonitoredItem = new OpcMonitoredItem(nodeInfo.NodeId, opcSession.EndpointUrl, nodeInfo.OpcSamplingInterval, nodeInfo.DisplayName);
                                opcSubscription.OpcMonitoredItems.Add(opcMonitoredItem);
                                Interlocked.Increment(ref NodeConfigVersion);
                            }
                            else
                            {
                                Logger.Error($"Node {nodeInfo.OriginalId} has an invalid format. Skipping...");
                            }
                        }

                        // add subscription to session.
                        opcSession.OpcSubscriptions.Add(opcSubscription);
                    }

                    // add session.
                    OpcSessions.Add(opcSession);
                }
            }
            catch (Exception e)
            {
                Logger.Fatal(e, "Creation of the internal OPC data managment structures failed. Exiting...");
                return(false);
            }
            finally
            {
                OpcSessionsListSemaphore.Release();
                PublisherNodeConfigurationSemaphore.Release();
            }
            return(true);
        }
Esempio n. 3
0
        /// <summary>
        /// Adds a event node to be monitored. If there is no subscription with the requested publishing interval,
        /// one is created.
        /// </summary>
        public async Task <HttpStatusCode> AddEventNodeForMonitoringAsync(NodeId nodeId, ExpandedNodeId expandedNodeId,
                                                                          int?opcPublishingInterval, int?opcSamplingInterval, string displayName,
                                                                          int?heartbeatInterval, bool?skipFirst, CancellationToken ct, IotCentralItemPublishMode?iotCentralItemPublishMode,
                                                                          PublishNodesMethodRequestModel publishEventsMethodData)
        {
            string logPrefix     = "AddEventNodeForMonitoringAsync:";
            bool   sessionLocked = false;

            try
            {
                sessionLocked = await LockSessionAsync().ConfigureAwait(false);

                if (!sessionLocked || ct.IsCancellationRequested)
                {
                    return(HttpStatusCode.Gone);
                }

                // check if there is already a subscription with the same publishing interval, which can be used to monitor the node
                int opcPublishingIntervalForNode      = opcPublishingInterval ?? OpcPublishingIntervalDefault;
                IOpcSubscription opcEventSubscription = OpcEventSubscriptions.FirstOrDefault(s => s.RequestedPublishingInterval == opcPublishingIntervalForNode);

                // if there was none found, create one
                if (opcEventSubscription == null)
                {
                    if (opcPublishingInterval == null)
                    {
                        Logger.Information($"{logPrefix} No matching subscription with default publishing interval found.");
                        Logger.Information($"Create a new subscription with a default publishing interval.");
                    }
                    else
                    {
                        Logger.Information($"{logPrefix} No matching subscription with publishing interval of {opcPublishingInterval} found.");
                        Logger.Information($"Create a new subscription with a publishing interval of {opcPublishingInterval}.");
                    }
                    opcEventSubscription = new OpcSubscription(opcPublishingInterval);
                    OpcEventSubscriptions.Add(opcEventSubscription);
                }

                // create objects for publish check
                ExpandedNodeId expandedNodeIdCheck = expandedNodeId;
                NodeId         nodeIdCheck         = nodeId;
                if (State == SessionState.Connected)
                {
                    if (expandedNodeId == null)
                    {
                        string namespaceUri = _namespaceTable.ToArray().ElementAtOrDefault(nodeId.NamespaceIndex);
                        expandedNodeIdCheck = new ExpandedNodeId(nodeId.Identifier, nodeId.NamespaceIndex, namespaceUri, 0);
                    }
                    if (nodeId == null)
                    {
                        nodeIdCheck = new NodeId(expandedNodeId.Identifier, (ushort)(_namespaceTable.GetIndex(expandedNodeId.NamespaceUri)));
                    }
                }

                // if it is already published, we do nothing, else we create a new monitored event item
                if (!IsEventNodePublishedInSessionInternal(nodeIdCheck, expandedNodeIdCheck))
                {
                    OpcMonitoredItem           opcMonitoredItem     = null;
                    EncryptedNetworkCredential encryptedCredentials = null;

                    if (publishEventsMethodData.OpcAuthenticationMode == OpcAuthenticationMode.UsernamePassword)
                    {
                        if (string.IsNullOrWhiteSpace(publishEventsMethodData.UserName) && string.IsNullOrWhiteSpace(publishEventsMethodData.Password))
                        {
                            throw new ArgumentException($"If {nameof(publishEventsMethodData.OpcAuthenticationMode)} is set to '{OpcAuthenticationMode.UsernamePassword}', you have to specify '{nameof(publishEventsMethodData.UserName)}' and/or '{nameof(publishEventsMethodData.Password)}'.");
                        }

                        encryptedCredentials = await EncryptedNetworkCredential.FromPlainCredential(publishEventsMethodData.UserName, publishEventsMethodData.Password);
                    }

                    // add a new item to monitor
                    if (expandedNodeId == null)
                    {
                        opcMonitoredItem = new OpcMonitoredItem(new EventConfigurationModel(publishEventsMethodData.EndpointId, publishEventsMethodData.EndpointName, publishEventsMethodData.EndpointUrl, publishEventsMethodData.UseSecurity, publishEventsMethodData.OpcAuthenticationMode ?? OpcAuthenticationMode.Anonymous, encryptedCredentials,
                                                                                            publishEventsMethodData.OpcEvents[0].Id, publishEventsMethodData.OpcEvents[0].DisplayName, publishEventsMethodData.OpcEvents[0].SelectClauses,
                                                                                            publishEventsMethodData.OpcEvents[0].WhereClause, publishEventsMethodData.OpcEvents[0].IotCentralEventPublishMode), EndpointId, EndpointUrl);;
                    }
                    else
                    {
                        opcMonitoredItem = new OpcMonitoredItem(new EventConfigurationModel(publishEventsMethodData.EndpointId, publishEventsMethodData.EndpointName, publishEventsMethodData.EndpointUrl, publishEventsMethodData.UseSecurity, publishEventsMethodData.OpcAuthenticationMode ?? OpcAuthenticationMode.Anonymous, encryptedCredentials,
                                                                                            expandedNodeId.ToString(), publishEventsMethodData.OpcEvents[0].DisplayName, publishEventsMethodData.OpcEvents[0].SelectClauses,
                                                                                            publishEventsMethodData.OpcEvents[0].WhereClause, publishEventsMethodData.OpcEvents[0].IotCentralEventPublishMode), EndpointId, EndpointUrl);
                    }
                    opcEventSubscription.OpcMonitoredItems.Add(opcMonitoredItem);
                    Interlocked.Increment(ref NodeConfigVersion);
                    Logger.Debug($"{logPrefix} Added event item with nodeId '{(expandedNodeId == null ? nodeId.ToString() : expandedNodeId.ToString())}' for monitoring.");

                    // trigger the actual OPC communication with the server to be done
                    ConnectAndMonitorSession.Set();
                    return(HttpStatusCode.Accepted);
                }
                else
                {
                    Logger.Debug($"{logPrefix} Node with Id '{(expandedNodeId == null ? nodeId.ToString() : expandedNodeId.ToString())}' is already monitored.");
                }
            }
            catch (Exception e)
            {
                Logger.Error(e, $"{logPrefix} Exception while trying to add node '{(expandedNodeId == null ? nodeId.ToString() : expandedNodeId.ToString())}' for monitoring.");
                return(HttpStatusCode.InternalServerError);
            }
            finally
            {
                if (sessionLocked)
                {
                    ReleaseSession();
                }
            }
            return(HttpStatusCode.OK);
        }
Esempio n. 4
0
        public static void Main(string[] args)
        {
            var opcTraceInitialized = false;

            try
            {
                var shouldShowHelp = false;

                // command line options configuration
                Mono.Options.OptionSet options = new Mono.Options.OptionSet {
                    // Publishing configuration options
                    { "pf|publishfile=", $"the filename to configure the nodes to publish.\nDefault: '{NodesToPublishAbsFilenameDefault}'", (string p) => NodesToPublishAbsFilename = p },
                    { "sd|shopfloordomain=", $"the domain of the shopfloor. if specified this domain is appended (delimited by a ':' to the 'ApplicationURI' property when telemetry is sent to IoTHub.\n" +
                      "The value must follow the syntactical rules of a DNS hostname.\nDefault: not set", (string s) => {
                          Regex domainNameRegex = new Regex("^(([a-zA-Z0-9]|[a-zA-Z0-9][a-zA-Z0-9\\-]*[a-zA-Z0-9])\\.)*([A-Za-z0-9]|[A-Za-z0-9][A-Za-z0-9\\-]*[A-Za-z0-9])$");
                          if (domainNameRegex.IsMatch(s))
                          {
                              ShopfloorDomain = s;
                          }
                          else
                          {
                              throw new OptionException("The shopfloor domain is not a valid DNS hostname.", "shopfloordomain");
                          }
                      } },
                    { "sw|sessionconnectwait=", $"specify the wait time in seconds publisher is trying to connect to disconnected endpoints and starts monitoring unmonitored items\nMin: 10\nDefault: {PublisherSessionConnectWaitSec}", (int i) => {
                          if (i > 10)
                          {
                              PublisherSessionConnectWaitSec = i;
                          }
                          else
                          {
                              throw new OptionException("The sessionconnectwait must be greater than 10 sec", "sessionconnectwait");
                          }
                      } },
                    { "vc|verboseconsole=", $"the output of publisher is shown on the console.\nDefault: {VerboseConsole}", (bool b) => VerboseConsole = b },

                    // IoTHub specific options
                    { "ih|iothubprotocol=", $"the protocol to use for communication with Azure IoTHub (allowed values: {string.Join(", ", Enum.GetNames(IotHubProtocol.GetType()))}).\nDefault: {Enum.GetName(IotHubProtocol.GetType(), IotHubProtocol)}",
                      (Microsoft.Azure.Devices.Client.TransportType p) => IotHubProtocol = p },
                    { "ms|iothubmessagesize=", $"the max size of a message which can be send to IoTHub. when telemetry of this size is available it will be sent.\n0 will enforce immediate send when telemetry is available\nMin: 0\nMax: 256 * 1024\nDefault: {_MaxSizeOfIoTHubMessageBytes}", (uint u) => {
                          if (u >= 0 && u <= 256 * 1024)
                          {
                              _MaxSizeOfIoTHubMessageBytes = u;
                          }
                          else
                          {
                              throw new OptionException("The iothubmessagesize must be in the range between 1 and 256*1024.", "iothubmessagesize");
                          }
                      } },
                    { "si|iothubsendinterval=", $"the interval in seconds when telemetry should be send to IoTHub. If 0, then only the iothubmessagesize parameter controls when telemetry is sent.\nDefault: '{_DefaultSendIntervalSeconds}'", (int i) => {
                          if (i >= 0)
                          {
                              _DefaultSendIntervalSeconds = i;
                          }
                          else
                          {
                              throw new OptionException("The iothubsendinterval must be larger or equal 0.", "iothubsendinterval");
                          }
                      } },

                    // opc server configuration options
                    { "lf|logfile=", $"the filename of the logfile to use.\nDefault: './Logs/<applicationname>.log.txt'", (string l) => LogFileName = l },
                    { "pn|portnum=", $"the server port of the publisher OPC server endpoint.\nDefault: {PublisherServerPort}", (ushort p) => PublisherServerPort = p },
                    { "pa|path=", $"the enpoint URL path part of the publisher OPC server endpoint.\nDefault: '{PublisherServerPath}'", (string a) => PublisherServerPath = a },
                    { "lr|ldsreginterval=", $"the LDS(-ME) registration interval in ms. If 0, then the registration is disabled.\nDefault: {LdsRegistrationInterval}", (int i) => {
                          if (i >= 0)
                          {
                              LdsRegistrationInterval = i;
                          }
                          else
                          {
                              throw new OptionException("The ldsreginterval must be larger or equal 0.", "ldsreginterval");
                          }
                      } },
                    { "ot|operationtimeout=", $"the operation timeout of the publisher OPC UA client in ms.\nDefault: {OpcOperationTimeout}", (int i) => {
                          if (i >= 0)
                          {
                              OpcOperationTimeout = i;
                          }
                          else
                          {
                              throw new OptionException("The operation timeout must be larger or equal 0.", "operationtimeout");
                          }
                      } },
                    { "oi|opcsamplinginterval=", "the publisher is using this as default value in milliseconds to request the servers to sample the nodes with this interval\n" +
                      "this value might be revised by the OPC UA servers to a supported sampling interval.\n" +
                      "please check the OPC UA specification for details how this is handled by the OPC UA stack.\n" +
                      "a negative value will set the sampling interval to the publishing interval of the subscription this node is on.\n" +
                      $"0 will configure the OPC UA server to sample in the highest possible resolution and should be taken with care.\nDefault: {OpcSamplingInterval}", (int i) => OpcSamplingInterval = i },
                    { "op|opcpublishinginterval=", "the publisher is using this as default value in milliseconds for the publishing interval setting of the subscriptions established to the OPC UA servers.\n" +
                      "please check the OPC UA specification for details how this is handled by the OPC UA stack.\n" +
                      $"a value less than or equal zero will let the server revise the publishing interval.\nDefault: {OpcPublishingInterval}", (int i) => {
                          if (i > 0 && i >= OpcSamplingInterval)
                          {
                              OpcPublishingInterval = i;
                          }
                          else
                          {
                              if (i <= 0)
                              {
                                  OpcPublishingInterval = 0;
                              }
                              else
                              {
                                  throw new OptionException($"The opcpublishinterval ({i}) must be larger than the opcsamplinginterval ({OpcSamplingInterval}).", "opcpublishinterval");
                              }
                          }
                      } },
                    { "ct|createsessiontimeout=", $"specify the timeout in seconds used when creating a session to an endpoint. On unsuccessful connection attemps a backoff up to {OpcSessionCreationBackoffMax} times the specified timeout value is used.\nMin: 1\nDefault: {OpcSessionCreationTimeout}", (uint u) => {
                          if (u > 1)
                          {
                              OpcSessionCreationTimeout = u;
                          }
                          else
                          {
                              throw new OptionException("The createsessiontimeout must be greater than 1 sec", "createsessiontimeout");
                          }
                      } },
                    { "ki|keepaliveinterval=", $"specify the interval in seconds the publisher is sending keep alive messages to the OPC servers on the endpoints it is connected to.\nMin: 2\nDefault: {OpcKeepAliveIntervalInSec}", (int i) => {
                          if (i >= 2)
                          {
                              OpcKeepAliveIntervalInSec = i;
                          }
                          else
                          {
                              throw new OptionException("The keepaliveinterval must be greater or equal 2", "keepalivethreshold");
                          }
                      } },
                    { "kt|keepalivethreshold=", $"specify the number of keep alive packets a server can miss, before the session is disconneced\nMin: 1\nDefault: {OpcKeepAliveDisconnectThreshold}", (uint u) => {
                          if (u > 1)
                          {
                              OpcKeepAliveDisconnectThreshold = u;
                          }
                          else
                          {
                              throw new OptionException("The keepalivethreshold must be greater than 1", "keepalivethreshold");
                          }
                      } },
                    { "st|opcstacktracemask=", $"the trace mask for the OPC stack. See github OPC .NET stack for definitions.\nTo enable IoTHub telemetry tracing set it to 711.\nDefault: {OpcStackTraceMask:X}  ({Program.OpcStackTraceMask})", (int i) => {
                          if (i >= 0)
                          {
                              OpcStackTraceMask = i;
                          }
                          else
                          {
                              throw new OptionException("The OPC stack trace mask must be larger or equal 0.", "opcstacktracemask");
                          }
                      } },
                    { "as|autotrustservercerts=", $"the publisher trusts all servers it is establishing a connection to.\nDefault: {OpcPublisherAutoTrustServerCerts}", (bool b) => OpcPublisherAutoTrustServerCerts = b },

                    // trust own public cert option
                    { "tm|trustmyself=", $"the publisher certificate is put into the trusted certificate store automatically.\nDefault: {TrustMyself}", (bool b) => TrustMyself = b },

                    // own cert store options
                    { "at|appcertstoretype=", $"the own application cert store type. \n(allowed values: Directory, X509Store)\nDefault: '{OpcOwnCertStoreType}'", (string s) => {
                          if (s.Equals(X509Store, StringComparison.OrdinalIgnoreCase) || s.Equals(Directory, StringComparison.OrdinalIgnoreCase))
                          {
                              OpcOwnCertStoreType = s.Equals(X509Store, StringComparison.OrdinalIgnoreCase) ? X509Store : Directory;
                              OpcOwnCertStorePath = s.Equals(X509Store, StringComparison.OrdinalIgnoreCase) ? _opcOwnCertX509StorePathDefault : _opcOwnCertDirectoryStorePathDefault;
                          }
                          else
                          {
                              throw new OptionException();
                          }
                      } },
                    { "ap|appcertstorepath=", $"the path where the own application cert should be stored\nDefault (depends on store type):\n" +
                      $"X509Store: '{_opcOwnCertX509StorePathDefault}'\n" +
                      $"Directory: '{_opcOwnCertDirectoryStorePathDefault}'", (string s) => OpcOwnCertStorePath = s },

                    // trusted cert store options
                    {
                        "tt|trustedcertstoretype=", $"the trusted cert store type. \n(allowed values: Directory, X509Store)\nDefault: {OpcTrustedCertStoreType}", (string s) => {
                            if (s.Equals(X509Store, StringComparison.OrdinalIgnoreCase) || s.Equals(Directory, StringComparison.OrdinalIgnoreCase))
                            {
                                OpcTrustedCertStoreType = s.Equals(X509Store, StringComparison.OrdinalIgnoreCase) ? X509Store : Directory;
                                OpcTrustedCertStorePath = s.Equals(X509Store, StringComparison.OrdinalIgnoreCase) ? OpcTrustedCertX509StorePathDefault : OpcTrustedCertDirectoryStorePathDefault;
                            }
                            else
                            {
                                throw new OptionException();
                            }
                        }
                    },
                    { "tp|trustedcertstorepath=", $"the path of the trusted cert store\nDefault (depends on store type):\n" +
                      $"X509Store: '{OpcTrustedCertX509StorePathDefault}'\n" +
                      $"Directory: '{OpcTrustedCertDirectoryStorePathDefault}'", (string s) => OpcTrustedCertStorePath = s },

                    // rejected cert store options
                    { "rt|rejectedcertstoretype=", $"the rejected cert store type. \n(allowed values: Directory, X509Store)\nDefault: {OpcRejectedCertStoreType}", (string s) => {
                          if (s.Equals(X509Store, StringComparison.OrdinalIgnoreCase) || s.Equals(Directory, StringComparison.OrdinalIgnoreCase))
                          {
                              OpcRejectedCertStoreType = s.Equals(X509Store, StringComparison.OrdinalIgnoreCase) ? X509Store : Directory;
                              OpcRejectedCertStorePath = s.Equals(X509Store, StringComparison.OrdinalIgnoreCase) ? _opcRejectedCertX509StorePathDefault : _opcRejectedCertDirectoryStorePathDefault;
                          }
                          else
                          {
                              throw new OptionException();
                          }
                      } },
                    { "rp|rejectedcertstorepath=", $"the path of the rejected cert store\nDefault (depends on store type):\n" +
                      $"X509Store: '{_opcRejectedCertX509StorePathDefault}'\n" +
                      $"Directory: '{_opcRejectedCertDirectoryStorePathDefault}'", (string s) => OpcRejectedCertStorePath = s },

                    // issuer cert store options
                    {
                        "it|issuercertstoretype=", $"the trusted issuer cert store type. \n(allowed values: Directory, X509Store)\nDefault: {OpcIssuerCertStoreType}", (string s) => {
                            if (s.Equals(X509Store, StringComparison.OrdinalIgnoreCase) || s.Equals(Directory, StringComparison.OrdinalIgnoreCase))
                            {
                                OpcIssuerCertStoreType = s.Equals(X509Store, StringComparison.OrdinalIgnoreCase) ? X509Store : Directory;
                                OpcIssuerCertStorePath = s.Equals(X509Store, StringComparison.OrdinalIgnoreCase) ? _opcIssuerCertX509StorePathDefault : _opcIssuerCertDirectoryStorePathDefault;
                            }
                            else
                            {
                                throw new OptionException();
                            }
                        }
                    },
                    { "ip|issuercertstorepath=", $"the path of the trusted issuer cert store\nDefault (depends on store type):\n" +
                      $"X509Store: '{_opcIssuerCertX509StorePathDefault}'\n" +
                      $"Directory: '{_opcIssuerCertDirectoryStorePathDefault}'", (string s) => OpcIssuerCertStorePath = s },

                    // device connection string cert store options
                    { "dt|devicecertstoretype=", $"the iothub device cert store type. \n(allowed values: Directory, X509Store)\nDefault: {IotDeviceCertStoreType}", (string s) => {
                          if (s.Equals(X509Store, StringComparison.OrdinalIgnoreCase) || s.Equals(Directory, StringComparison.OrdinalIgnoreCase))
                          {
                              IotDeviceCertStoreType = s.Equals(X509Store, StringComparison.OrdinalIgnoreCase) ? X509Store : Directory;
                              IotDeviceCertStorePath = s.Equals(X509Store, StringComparison.OrdinalIgnoreCase) ? _iotDeviceCertX509StorePathDefault : _iotDeviceCertDirectoryStorePathDefault;
                          }
                          else
                          {
                              throw new OptionException();
                          }
                      } },
                    { "dp|devicecertstorepath=", $"the path of the iot device cert store\nDefault Default (depends on store type):\n" +
                      $"X509Store: '{_iotDeviceCertX509StorePathDefault}'\n" +
                      $"Directory: '{_iotDeviceCertDirectoryStorePathDefault}'", (string s) => IotDeviceCertStorePath = s },

                    // misc
                    { "h|help", "show this message and exit", h => shouldShowHelp = h != null },
                };

                List <string> arguments;
                try
                {
                    // parse the command line
                    arguments = options.Parse(args);
                }
                catch (OptionException e)
                {
                    // show message
                    WriteLine($"Error: {e.Message}");
                    // show usage
                    Usage(options);
                    return;
                }

                // Validate and parse arguments.
                if (arguments.Count > 2 || shouldShowHelp)
                {
                    Usage(options);
                    return;
                }
                else if (arguments.Count == 2)
                {
                    ApplicationName = arguments[0];
                    _IotHubOwnerConnectionString = arguments[1];
                }
                else if (arguments.Count == 1)
                {
                    ApplicationName = arguments[0];
                }
                else
                {
                    ApplicationName = Utils.GetHostName();
                }

                WriteLine("Publisher is starting up...");

                // init OPC configuration and tracing
                Init(OpcStackTraceMask, VerboseConsole);
                OpcStackConfiguration opcStackConfiguration = new OpcStackConfiguration(ApplicationName);
                opcTraceInitialized = true;
                OpcConfiguration    = opcStackConfiguration.Configuration;

                // log shopfloor domain setting
                if (string.IsNullOrEmpty(ShopfloorDomain))
                {
                    Trace("There is no shopfloor domain configured.");
                }
                else
                {
                    Trace($"Publisher is in shopfloor domain '{ShopfloorDomain}'.");
                }

                // Set certificate validator.
                if (OpcPublisherAutoTrustServerCerts)
                {
                    Trace("Publisher configured to auto trust server certificates of the servers it is connecting to.");
                    OpcConfiguration.CertificateValidator.CertificateValidation += new CertificateValidationEventHandler(CertificateValidator_AutoTrustServerCerts);
                }
                else
                {
                    Trace("Publisher configured to not auto trust server certificates. When connecting to servers, you need to manually copy the rejected server certs to the trusted store to trust them.");
                    OpcConfiguration.CertificateValidator.CertificateValidation += new CertificateValidationEventHandler(CertificateValidator_Default);
                }

                // start our server interface
                try
                {
                    Trace($"Starting server on endpoint {OpcConfiguration.ServerConfiguration.BaseAddresses[0].ToString()} ...");
                    _publisherServer = new PublisherServer();
                    _publisherServer.Start(OpcConfiguration);
                    Trace("Server started.");
                }
                catch (Exception e)
                {
                    Trace(e, $"Failed to start Publisher OPC UA server.");
                    Trace("exiting...");
                    return;
                }

                // get information on the nodes to publish and validate the json by deserializing it.
                try
                {
                    PublishDataSemaphore.Wait();
                    if (string.IsNullOrEmpty(NodesToPublishAbsFilename))
                    {
                        // check if we have an env variable specifying the published nodes path, otherwise use the default
                        NodesToPublishAbsFilename = NodesToPublishAbsFilenameDefault;
                        if (!string.IsNullOrEmpty(Environment.GetEnvironmentVariable("_GW_PNFP")))
                        {
                            Trace("Publishing node configuration file path read from environment.");
                            NodesToPublishAbsFilename = Environment.GetEnvironmentVariable("_GW_PNFP");
                        }
                    }

                    Trace($"Attempting to load nodes file from: {NodesToPublishAbsFilename}");
                    PublisherConfigFileEntries = JsonConvert.DeserializeObject <List <PublisherConfigFileEntry> >(File.ReadAllText(NodesToPublishAbsFilename));
                    Trace($"Loaded {PublisherConfigFileEntries.Count.ToString()} config file entry/entries.");

                    foreach (var publisherConfigFileEntry in PublisherConfigFileEntries)
                    {
                        if (publisherConfigFileEntry.NodeId == null)
                        {
                            // new node configuration syntax.
                            foreach (var opcNode in publisherConfigFileEntry.OpcNodes)
                            {
                                PublishConfig.Add(new NodeToPublishConfig(ExpandedNodeId.Parse(opcNode.ExpandedNodeId), publisherConfigFileEntry.EndpointUri, opcNode.OpcSamplingInterval ?? OpcSamplingInterval, opcNode.OpcPublishingInterval ?? OpcPublishingInterval));
                            }
                        }
                        else
                        {
                            // legacy (using ns=) node configuration syntax using default sampling and publishing interval.
                            PublishConfig.Add(new NodeToPublishConfig(publisherConfigFileEntry.NodeId, publisherConfigFileEntry.EndpointUri, OpcSamplingInterval, OpcPublishingInterval));
                        }
                    }
                }
                catch (Exception e)
                {
                    Trace(e, "Loading of the node configuration file failed. Does the file exist and has correct syntax?");
                    Trace("exiting...");
                    return;
                }
                finally
                {
                    PublishDataSemaphore.Release();
                }
                Trace($"There are {PublishConfig.Count.ToString()} nodes to publish.");

                // initialize and start IoTHub messaging
                IotHubCommunication = new IotHubMessaging();
                if (!IotHubCommunication.Init(_IotHubOwnerConnectionString, _MaxSizeOfIoTHubMessageBytes, _DefaultSendIntervalSeconds))
                {
                    return;
                }

                // create a list to manage sessions, subscriptions and monitored items.
                try
                {
                    PublishDataSemaphore.Wait();
                    OpcSessionsSemaphore.Wait();
                    var uniqueEndpointUrls = PublishConfig.Select(n => n.EndpointUri).Distinct();
                    foreach (var endpointUrl in uniqueEndpointUrls)
                    {
                        // create new session info.
                        OpcSession opcSession = new OpcSession(endpointUrl, OpcSessionCreationTimeout);

                        // create a subscription for each distinct publishing inverval
                        var nodesDistinctPublishingInterval = PublishConfig.Where(n => n.EndpointUri.Equals(endpointUrl)).Select(c => c.OpcPublishingInterval).Distinct();
                        foreach (var nodeDistinctPublishingInterval in nodesDistinctPublishingInterval)
                        {
                            // create a subscription for the publishing interval and add it to the session.
                            OpcSubscription opcSubscription = new OpcSubscription(nodeDistinctPublishingInterval);

                            // add all nodes with this OPC publishing interval to this subscription.
                            var nodesWithSamePublishingInterval = PublishConfig.Where(n => n.EndpointUri.Equals(endpointUrl)).Where(n => n.OpcPublishingInterval == nodeDistinctPublishingInterval);
                            foreach (var nodeInfo in nodesWithSamePublishingInterval)
                            {
                                // differentiate if legacy (using ns=) or new syntax (using nsu=) is used
                                if (nodeInfo.NodeId == null)
                                {
                                    // create a monitored item for the node
                                    OpcMonitoredItem opcMonitoredItem = new OpcMonitoredItem(nodeInfo.ExpandedNodeId, opcSession.EndpointUri)
                                    {
                                        RequestedSamplingInterval = nodeInfo.OpcSamplingInterval,
                                        SamplingInterval          = nodeInfo.OpcSamplingInterval
                                    };
                                    opcSubscription.OpcMonitoredItems.Add(opcMonitoredItem);
                                }
                                else
                                {
                                    // give user a warning that the syntax is obsolete
                                    Trace($"Please update the syntax of the configuration file and use ExpandedNodeId instead of NodeId property name for node with identifier '{nodeInfo.NodeId.ToString()}' on EndpointUrl '{nodeInfo.EndpointUri.AbsolutePath}'.");

                                    // create a monitored item for the node with the configured or default sampling interval
                                    OpcMonitoredItem opcMonitoredItem = new OpcMonitoredItem(nodeInfo.NodeId, opcSession.EndpointUri)
                                    {
                                        RequestedSamplingInterval = nodeInfo.OpcSamplingInterval,
                                        SamplingInterval          = nodeInfo.OpcSamplingInterval
                                    };
                                    opcSubscription.OpcMonitoredItems.Add(opcMonitoredItem);
                                }
                            }

                            // add subscription to session.
                            opcSession.OpcSubscriptions.Add(opcSubscription);
                        }

                        // add session.
                        OpcSessions.Add(opcSession);
                    }
                }
                finally
                {
                    OpcSessionsSemaphore.Release();
                    PublishDataSemaphore.Release();
                }

                // kick off the task to maintain all sessions
                var cts = new CancellationTokenSource();
                Task.Run(async() => await SessionConnector(cts.Token));

                // Show notification on session events
                _publisherServer.CurrentInstance.SessionManager.SessionActivated += ServerEventStatus;
                _publisherServer.CurrentInstance.SessionManager.SessionClosing   += ServerEventStatus;
                _publisherServer.CurrentInstance.SessionManager.SessionCreated   += ServerEventStatus;

                // stop on user request
                WriteLine("");
                WriteLine("");
                WriteLine("Publisher is running. Press ENTER to quit.");
                WriteLine("");
                WriteLine("");
                ReadLine();
                cts.Cancel();
                WriteLine("Publisher is shuting down...");

                // close all connected session
                PublisherShutdownInProgress = true;

                // stop the server
                _publisherServer.Stop();

                // Clean up Publisher sessions
                Task.Run(async() => await SessionShutdown()).Wait();

                // shutdown the IoTHub messaging
                IotHubCommunication.Shutdown();
            }
            catch (Exception e)
            {
                if (opcTraceInitialized)
                {
                    Trace(e, e.StackTrace);
                    e = e.InnerException ?? null;
                    while (e != null)
                    {
                        Trace(e, e.StackTrace);
                        e = e.InnerException ?? null;
                    }
                    Trace("Publisher exiting... ");
                }
                else
                {
                    WriteLine($"{DateTime.Now.ToString()}: {e.Message.ToString()}");
                    WriteLine($"{DateTime.Now.ToString()}: {e.StackTrace}");
                    e = e.InnerException ?? null;
                    while (e != null)
                    {
                        WriteLine($"{DateTime.Now.ToString()}: {e.Message.ToString()}");
                        WriteLine($"{DateTime.Now.ToString()}: {e.StackTrace}");
                        e = e.InnerException ?? null;
                    }
                    WriteLine($"{DateTime.Now.ToString()}: Publisher exiting...");
                }
            }
        }