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I have implemented an Edge Nano Server that offers the following advantages: Easy to setup Not limited to HTML protocol.  For example, an edge device can be implemented that connects to devices via Bluetooth Code can be found here: GitHub - cschellberg/EdgeGateway Code contains EdgeNanoServer, docker installation scripts(for installing Thingworx Platform), and a test client done in python. Don Schellberg Consultant
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I have put together a small sample of how to get property values from a Windows Powershell command into Thingworx through an agent using the Java SDK. In order to use this you need to import entities from ExampleExport.xml and then run SteamSensorClient.java passing in the parameters shown in run-configuration.txt (URL, port and AppKey must be adapted for your system). ExampleExport.xml is a sample file distributed with the Java SDK which I’ve also included in the zipfile attached to this post. You need to go in Thingworx Composer to Import/Export … Import from File … Entities … Single File … Choose File … Import. Further instructions / details are given in this short video: Video Link : 2181
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This is a basic troubleshooting guide for ThingWorx. It goes over the importance, types and levels of logs, getting started on troubleshooting the Composer, Mashup and Remote Connectivity.     For full-sized viewing, click on the YouTube link in the player controls.   Visit the Online Success Guide to access our Expert Session videos at any time as well as additional information about ThingWorx training and services.
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Mapping previous versions of ThingWorx Analytics API to ThingWorx Analytics 8.1 Services Since ThingWorx Analytics 8.1, the classic server monolith has been replaced by a series of independent microservices. This new structure groups services around specific elements of functionality (data, training, results). Thus the use of the previous API commands to access ThingWorx Analytics functions has been replaced by the use of ThingWorx Services. Those Services exist within specific Microservice Things accessible in the ThingWorx Platform 8.1. The table below shows a mapping of the most common previous API commands from version 8.0 and previous versions to the version 8.1 related services. The table below does not contain an exhaustive listing either of API commands nor of Services. The API commands used below are samples which might require further information like headers and Body once used. These are used in the table below for reference purposes. Previous API Command Purpose Sample Syntax TWA 8.1 Service Analytics Thing related to Service Service description 1 Version Info GET: http://<IP Address>:8080/1.0/about/versioninfo VersionInfo This service is available in each Mircorservice Thing inheriting from Analytics Server Returns the internal version number for a specific microservice. The first two digits = ThingWorx Core version. The next three digits = version of the microservice. 2 Registering new Dataset POST: http://<IP Address>:8080/1.0/datasets/ CreateDataset Data Microservice Creates the dataset uploads the data along with its metadata and optimizes it automatically. 3 Checking Dataset Status GET: http://<IP Address>:8080/1.0/datasets/<DataSet Name> ListCreatedDatasets Data Microservice This old functionality is replaced by a Service that lists all the created Datasets 4 Creating Metadata POST: http://<IP Address>:8080/1.0/datasets/<DataSet Name>/configuration CreateDataset Data Microservice (Check line 2 for further information) 5 Checking Dataset Configuration GET: http://<IP Address>:8080/1.0/datasets/<DataSet Name>/configuration GetDatasetSchema Data Microservice Retrieves the metadata from a dataset. 6 Loading Dataset CSV POST: http://<IP Address>:8080/1.0/datasets/<DataSet Name>/data CreateDataset Data Microservice (Check line 2 for further information) 7 Checking Job Status GET: http://<IP Address>:8080/1.0/status/<Job ID> GetJobStatus Available in all created Microservices inheriting from AnalyticsJob Server Retrieves the status of a specific job 8 Signals Job POST: http://<IP Address>:8080/1.0/datasets/<DataSet Name>/signals CreateJob Signals Microservice Create a job to identify signals 9 Signal Results Job GET: http://<IP Address>:8080/1.0/datasets/<DataSet Name>/signals/<Job ID>/results RetrieveResult Signals Microservice Retrieve a result of a Signals job 10 Profile Job POST: http://<IP Address>:8080/1.0/datasets/<DataSet Name>/profiles CreateJob Profiling Microservice Creates a job to generate profiles. 11 Profile Result Job GET: http://<IP Address>:8080/1.0/datasets/<DataSet Name>/profiles/<Job ID>/results RetrieveResult Profiling Micorservice Retrieve the results of a profiles job. 12 Train Model Job POST: http://<IP Address>:8080/1.0/datasets/<DataSet Name>/prediction CreateJob Training Micorservice Create a prediction model job. 13 Train Model Result Job GET: http://<IP Address>:8080/1.0/datasets/<DataSet Name>/prediction/<Job ID>/results RetrieveModel Training Microservice Only retrieves the PMML model. But if a holdout for validation was specified in the CreateJob, a validation job is auto-created and runs. 14 Scoring Job POST: http://<IP Address>:8080/1.0/datasets/<DataSet Name>/predictive_scores BatchScore Prediction Microservice Submit Predictive Scoring Job 15 Scoring Job Result GET: http://<IP Address>:8080/1.0/datasets/<DataSet Name>/predictive_scores/<Job ID>/results RetrieveResult Prediction Microservice Retrieve results from prediction scoring jobs
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Key Functional Highlights Patching & Upgrades Supports upgrading from 8.0.1 using the Manufacturing Apps Installer    Streamlined patch support for customer issues Updated the installer technology to align with ThingWorx platform   App Improvements Fixed bugs with acknowledging alerts Added support for collecting feature data from National Instruments InsightCM product   Controls Advisor Added ability to retrieve KEPServerEX connection information in case the connection is lost or deleted Minor UI improvements   Asset Advisor Updated the UI for anomaly status   Production Advisor Improved the status history widget to align with Asset Advisor Added synchronized zooming to the chart widgets     Compatibility ThingWorx 8.1.0 KEPServerEX 6.2, 6.3 KEPServerEX V6.1 and older as well as different OPC Servers (with Kepware OPC aggregator) Support upgrade from 8.0.1     Documentation ThingWorx Manufacturing Apps Get Started     Download ThingWorx Manufacturing Apps Freemium portal PTC Smart Connected Applications
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Procedure on how to configure Single Sign On (SSO) with Thingworx and Windchill, where users will be able to access Thingworx/Navigate with their  Windchill credentials. This video consist of demo and architecture of how SSO works.     For full-sized viewing, click on the YouTube link in the player controls.   Visit the Online Success Guide to access our Expert Session videos at any time as well as additional information about ThingWorx training and services.
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Key Functional Highlights ThingWorx Manufacturing Apps enhancements Support for NI InsightCM connected to KEPServerEX as an aggregator Controls Advisor usability improvement to retrieve App Key for a specific KEPServerEX connection Asset Advisor usability improvement for displaying alerts Compatibility ThingWorx 8.1.0 KEPServerEX 6.2, 6.3 KEPServerEX V6.1 and older as well as different OPC Servers (with Kepware OPC aggregator) Documentation ThingWorx Manufacturing Apps Setup and Configuration Guide ThingWorx Manufacturing Apps Customization Guide What’s New in ThingWorx Manufacturing Apps 8.1.0 Download Extensions for ThingWorx Manufacturing Apps and Asset Remoting Note: this release announcement applies to the ThingWorx Manufacturing Apps Extensions 8.1.0. For the ThingWorx Manufacturing Apps Freemium (Express) 8.1.0 release notes, see this page: ThingWorx Manufacturing Apps 8.1 Freemium is Available for Download!
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Procedure to configure a secure connection between Windchill and Thingworx server. Assuming Windchill and Thingworx are already configured with SSL, this video consists of detailed steps for setting up Thingworx and Windchill to trust each other.     For full-sized viewing, click on the YouTube link in the player controls.   Visit the Online Success Guide to access our Expert Session videos at any time as well as additional information about ThingWorx training and services.
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Introduction to the base EMS connections and settings, what and how the websocket connections work, security, data transfer and bandwidth.     For full-sized viewing, click on the YouTube link in the player controls.   Visit the Online Success Guide to access our Expert Session videos at any time as well as additional information about ThingWorx training and services.
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Finally there is an article which combines all of the available resources on certificate configuration to better enable developers to complete their production-worthy edge devices. Please see the official PTC documentation located here. Please feel free to comment with any questions, comments, or feedback on this! Happy developing!
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The following Expert Session videos are now available for viewing within the ThingWorx Community: ThingWorx Analytics Installation - This Expert Session will walk you through the complete installation of ThingWorx Analytics from the Prerequisites to Confirming the Installation is successful and all steps in between. The first half of the video gives a breakdown of the components and the process of the installation with the second half being an actual Demo of the Installation.     ThingWorx Analytics API Overview - This Expert Session is designed to help beginners get up and running with ThingWorx Analytics. It covers basic concepts like: What are APIs, how to configure the metadata file, and a live Demo that shows you how to interact and use ThingWorx Analytics in real time. This Expert Session would also be useful for experienced users who need a refresher course.   Decision Tree, ThingWorx Analytics Builder - This Expert Session reviews the concept of “Decision Trees” and the functionality that is available in ThingWorx Analytics Builder. First, you will learn how to create and upload a dataset in ThingWorx Analytics Builder.  After that, it shows you how to train a model and score on the model that was just generated. It then goes into detail on how the prediction learner "Decision Tree" operates and classifies inputs.   Use Case Identification - This Expert Session goes over ways to identify and develop a successful use case for ThingWorx Analytics. The example use case presented here is on employee retention in a fictional company with the goal of maximizing employee retention . This presentation will provide you with all the fundamentals you need to develop your own ThingWorx Analytics use cases from the ground up.   ThingWorx Analytics Signals - This Expert Session will provide you with an in depth explanation behind how Signals are calculated in ThingWorx Analytics, what purpose they serve, and why we use them.  Some basic mathematical concepts are discussed so viewers will have a better idea of how ThingWorx Analytics operates behind the scenes.   Related Links For more information, you can visit a new space dedicated to these helpful technical videos.   Additional Expert Sessions will be highlighted here in the ThingWorx Community every few weeks. Visit the Online Success Guide to access additional information about ThingWorx training and services.
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    About   This is part of a ThingBerry related blog post series.         ThingBerry is ThingWorx installed on a RaspBerry Pi, which can be used for portable demonstrations without the need of utilizing e.g. customer networks. Instead the ThingBerry provides its own custom WIFI hotspot and allows Things to connect and send / receive demo data on a small scale.   In this particual blog post we'll discuss on how to connect a ESP8266 module to the ThingBerry WIFI hotspot and send data from a DHT-11 sensor via the MQTT protocol.   As the ThingBerry is a highly unsupported environment for ThingWorx, please see this blog post for all related warnings.   Install MQTT broker on the ThingBerry     To install mosquitto as a MQTT broker, log in to the ThingBerry and run     sudo apt-get install mosquitto   This will provide a basic broker installation, which is good enough for this example. MQTT clients (including ThingWorx) will connect to this broker to exchange messages. There will be no added security like encrypted traffic shown in this example, it's however good practise to secure MQTT broker / client connections.   While the ESP8266 module is publishing information, ThingWorx will subscribe to the corresponding topics to update its internal property values with what is sent by the ESP8266 module.   For more information on MQTT, how to configure it for ThingWorx or more security relevant information also see   https://community.thingworx.com/message/5063#5063 https://community.thingworx.com/community/developers/blog/2016/08/08/securing-mqtt-connection-to-thingworx-platform?sr=tcontent   Configure the ESP8266     There are too many instructions on the web already on how to initially setup the ESP8266 and use it with the Arduino IDE. I'll therefore just refer to Google which covers the topic more extensively than I ever could.   All coding in this example is done in the Arduino IDE and is pushed to the ESP8266 (NodeMCU) via USB. For this you might need to install a CH340g USB driver for the NodeMCU.   In the Arduino IDE under Tools, I have set my environment to   Board: NodeMCU 1.0 (ESP-12E Module) CPU Frequency: 80 MHz Flash Size: 4M (3M SPIFFS) Upload Speed: 115200 Port: COM3   Under Sketch > Include Library > Manage Libraries add / install the following libraries:   DHT sensor library by Adafruit Adafruit Unified Sensor by Adafruit PubSubClient by Nick O'Leary   These bring the libraries necessary to read data from the DHT-11 sensor and to configure the ESP8266 as MQTT client.     Wiring the DHT-11 sensor     The following image shows the PINs on the ESP8266     I'm using a DHT-11 sensor with cables included and already fixed to a board with 3 PINs. In case you're using a different version, there might be additional components and wiring required, like a resistor etc. Google might help here as well.     Ensure that neither board nor sensor are plugged in, and the ESP8266 is powered off.   To hook the sensor up to the ESP8266, join   ( - ) to GND ( + ) to 3.3V (out) to D3   After all the connections are made, connect the ESP8266 via USB to a computer / laptop with the Arudino IDE configured.   Coding   In the Arduino IDE use the following code - adjust the WIFI settings and the MQTT broker configuration. Ensure to rename the ESP_xx name / topic to something more meaningful, e.g. a specific device name (or just leave it as is if in doubt).   Use the ssid and wpa_passphrase from the hostapd.conf used to configure the ThingBerry as WIFI hotspot.   Copy&paste the code below into the Arduino IDE, verify it and upload it to the ESP8266.     If searching for a WIFI connection, the device's blue LED will blink. A successful connection to the broker and publishing the values will result in a static blue LED. In case the LED is off, the connection to the broker is lost or messages cannot be published.   For troubleshooting, use the Serial Monitor function (at 115200 baud) in the Arduino IDE. In case sensor data cannot be read but the wiring is correct and the code addressing the correct PIN verify the sensor is indeed working. It took me a long time to figure out that the first sensor I used was a defective device.   The current configuration sends updates every 10 seconds - longer intervals might make more sense, but can trigger a timeout for the MQTT broker. In this case the program will re-connect automatically and log corresponding messages in the Serial Monitor. This might seem like an error, but is indeed intended behavior by the code and the MQTT broker.     Configure MQTT Thing in ThingWorx     Create a new Thing in ThingWorx based on the MQTT Template. Add two properties:   temperature humidity   Both set to persistent and logged and Data Change Type to ALWAYS. Also configure a Value Stream to log a history of values.   In the configuration, add two more subscriptions. Activate the "subscribe" checkbox and map name (local property) to topic (MQTT topic), e.g.   name = temperature; topic = ESP_xx/temp name = humidity; topic = ESP_xx/hum   Ensure the correct servernames, ports etc. are configured (an empty servername will use the localhost).   Save the configuration. Property values should now be updated from the MQTT broker, depending on what the device is sending.   Code   #include "DHT.h" #include "PubSubClient.h" #include "ESP8266WiFi.h"   /* * * Configure parameters for sensor and network / MQTT connections * */   // setup DHT 11 pin and sensor   #define DHTPin D3 #define DHTTYPE DHT11   // setup WiFi credentials   #define WLAN_SSID "mySSID" #define WLAN_PASS "WIFIpassword"   // setup MQTT   #define MQTTBROKER "mqttbrokerhostname" #define MQTTPORT 1883   // setup built-in blue LED   #define LED 2   /* * ============================================================ * * DO NOT CHANGE ANYTHING BELOW * (unless you know what you're doing) * */   // initiate DHT   DHT dht(DHTPin, DHTTYPE);   // initiate MQTT client   WiFiClient wifiClient; PubSubClient client(MQTTBROKER, MQTTPORT, wifiClient);   /* * setup */   void setup() {     // switch off internal LED     pinMode(LED, OUTPUT);   digitalWrite(LED, HIGH);     // start serial monitor     Serial.begin(115200);     // start DHT     dht.begin();     // start WiFi     WiFi.begin(WLAN_SSID, WLAN_PASS);   }   /* * the loop */   void loop() {     // while not connected to WiFi, print "."   // after connection exit the loop   // blink LED while having no WiFi signal     boolean wifiReconnect = false;     while (WiFi.status() != WL_CONNECTED) {       digitalWrite(LED, LOW);       delay(200);       Serial.print(".");       digitalWrite(LED, HIGH);       delay(300);       wifiReconnect = true;     }     // if WiFi has reconnected, print new connection information and turn on LED     if (wifiReconnect == true) {       // print connection information and local IP address, mac address       Serial.println();     Serial.println("WiFi connected");     Serial.println(WiFi.localIP());     Serial.println(WiFi.macAddress());     Serial.println();       // turn on built-in LED to indiciate successful WiFi connection       digitalWrite(LED, LOW);     }     // if MQTT client is not connected, connect again   // turn on built-in LED to indicate a successful connection     if (!client.connected()) {       Serial.println("Disconnected from MQTT server... trying to connect");       if (client.connect("ESP_xx")) {         Serial.println("Connected to MQTT server");       Serial.println("Topic = ESP_xx");         digitalWrite(LED, LOW);       } else {         Serial.println("MQTT connection failed");         digitalWrite(LED, HIGH);       }       Serial.println();     }     // read temperature and humidity from sensor     float t = dht.readTemperature();   float h = dht.readHumidity();     if (isnan(t) || isnan(h)) {       // if temperature or humidity is not a number, print error       Serial.println("Failed retrieving data from DHT sensor");     } else {       // print temperature and humidity       Serial.print(t);     Serial.print("° - ");     Serial.print(h);     Serial.print("%");     Serial.println();       // only send values to MQTT broker, if client is connected       if (client.connected()) {         // boolean to check for errors during payload transfer         bool isError = false;         // create payload and publish values via MQTT client       // use buffer to convert float to char*         char buffer[10];         dtostrf(t, 0, 0, buffer);         if (client.publish("ESP_xx/temp", buffer)) {             Serial.print("  published /temp  ");           } else {             Serial.print("  failed /temp  ");         isError = true;           }            dtostrf(h, 0, 0, buffer);         if (client.publish("ESP_xx/hum", buffer)) {             Serial.print("  published /hum  ");           } else {             Serial.print("  failed /hum  ");         isError = true;           }         Serial.println();         // on error, turn off LED         if (isError == true) {           digitalWrite(LED, HIGH);         } else {             digitalWrite(LED, LOW);           }       }     }     // sleep for 10 seconds   // if sleep > default mosquitto timeout : a reconnect is forced for each update-cycle     delay(10000);   }
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This Expert Session is designed to help beginners get up and running with ThingWorx Analytics. It covers basic concepts like: What are APIs, how to configure the metadata file, and a live Demo that shows you how to interact and use ThingWorx Analytics in real time. This Expert Session would also be useful for experienced users who need a refresher course.   For full-sized viewing, click on the YouTube link in the player controls.   Visit the Online Success Guide to access our Expert Session videos at any time as well as additional information about ThingWorx training and services.
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The following power point contains some reference slides to start up with DSE/ThingWorx integration. Start with understanding DSE architecture and specifically, the differences compared to regular Relational Databases. Free online courses offered by DataStaxAcademy: –https://academy.datastax.com/courses/understanding-cassandra-architecture –https://academy.datastax.com/courses/installing-and-configuring-cassandra   The following section will guide you through some of the specifics: http://datastax.com/documentation/cassandra/2.0/cassandra/architecture/architecturePlanningAbout_c.html
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Key Functional Highlights Production Advisor is now available in the Freemium and Developer Kit downloads. Plant Managers are provided with real-time monitoring of production status and critical KPI’s such as utilization, performance, quality and OEE, by unifying data from disparate lines, assets and sensors. With Production Advisor, Plant Managers have the ability to detect and react instantly to production issues- reaching lower downtime, higher production throughput and better quality from the factory resources. Compatibility ThingWorx 8.0.1 KEPServerEX 6.2 KEPServerEX V6,1 and older as well as different OPC Servers (with Kepware OPC aggregator) Documentation ThingWorx Manufacturing Apps Setup and Configuration Guide: https://support.ptc.com/WCMS/files/173133/en/ThingWorxManufacturingAppsSetup_8-0-1.pdf ThingWorx Manufacturing Apps Customization Guide: https://support.ptc.com/WCMS/files/173135/en/ThingWorxManufacturingAppsCust_8-0-1.pdf Get Started Documentation on Portal: https://www.ptc.com/en/thingworx/manufacturing-apps/Dashboard/Get-Started (PTC users should use their normal login credentials and do not need to register on the portal) Download Freemium and Developer Kit (8.0.1) are available for download here: https://www.ptc.com/en/thingworx/manufacturing-apps/Dashboard (PTC users should use their normal login credentials and do not need to register on the portal ThingWorx Platform Extensions (8.1.0, released 1 Nov 2017) are available for download here: https://support.ptc.com/appserver/auth/it/esd/product.jsp?prodFamily=TWA
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In this blog I will be testing the SAPODataConnector using the SAP Gateway - Demo Consumption System.   Overview   The SAPODataConnector enables the connection to the SAP Netweaver Gateway through the ODdata specification. It is a specialized implementation of the ODataConnector. See Integration Connectors for documentation.   It relies on three components : Integration Runtime : microservice that runs outside of ThingWorx and has to be deployed separately, it uses Web Socket to communicate with the ThingWorx platform (similar to EMS). Integration Subsystem : available by default since 7.4 (not extension needed) Integration Connector : SAPODataConnector available by default in 8.0 (not extension needed)   ThingWorx can use OAuth to access SAP, but in this blog I will just use basic authentication.   SAP Netweaver Gateway Demo system registration   1. Create an account on the Gateway Demo system (credentials to be used on the connector are sent by email) 2. Verify that the account has access to the basic OData sample service : https://sapes4.sapdevcenter.com/sap/opu/odata/IWBEP/GWSAMPLE_BASIC/   Integration Runtime microservice setup   1. Follow WindchillSwaggerConnector hands-on (7.4) - Integration Runtime microservice setup Note: Only one Integration Runtime instance is required for all your Integration Connectors (Multiple instances are supported for High Availability and scale).   SAPODataConnector setup   Use the New Composer UI (some setting, such as API maps, are not available in the ThingWorx legacy composer)     1. Create a DataShape that is used to map the attributes being retrieved from SAP SAPObjectDS : Id (STRING), Name (STRING), Price (NUMBER) 2. Create a Thing named TestSAPConnector that uses SAPODataConnector as thing template 3. Setup the SAP Netweaver Gateway connection under TestSAPConnector > Configuration Generic Connector Connection Settings Authentication Type = fixed HTTP Connector Connection Settings Username = <SAP Gateway user> Password = < SAP Gateway pwd> Base URL : https://sapes4.sapdevcenter.com/sap Relative URL : /opu/odata/IWBEP/GWSAMPLE_BASIC/ Connection URL : /opu/odata/IWBEP/GWSAMPLE_BASIC/$metadata 4. Create the API maps and service under TestSAPConnector > API Maps (New Composer only) Mapping ID : sap EndPoint : getProductSet Select DataShape : SAPObjectDS (created at step 1) and map the following attributes : Name <- Name Id <- ProductID Price <- Price Pick "Create a Service from this mapping"     Testing our Connector   Test the TestSAPConnector::getProductSet service (keep all the input parameters blank)
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This blog post has been written in collaboration with nexiles GmbH, a PTC Software Partner   The Edge Micro Server (EMS) and the LUA Scripting Resource (LSR) allow for an easy connection of sensors and / or data to the ThingWorx Platform.   Connections are usually established through the HTTP protocol and a REST API which sends unencrypted data and user specific credentials or ThingWorx application keys. This could be fine for a non-production environment. However in a more secure environment or in production, encryption and authentication should be used wherever and whenever possible to ensure the safety and integrity of the data.       In this scenario a user, client machine or remote device can utilize the LUA endpoints via the REST APIs endpoints. For this an authentication mechanism with credentials is required to only allow authenticated sessions. Invokation of services etc. are all protected and encrypted via HTTPS. A default HTTP connection would transfer the credentials as clear text which is most likely not desired.   The LSR then communicates via HTTPS to the EMS.   The EMS communicates to the ThingWorx platform via the AlwaysOn protocol using an encrypted websocket on the platform side.   Prerequisite   ThingWorx is already fully configured for HTTPS. See Trust & Encryption Theory and Hands On for more information and examples   Securing the EMS   EMS to ThingWorx connection   The config.json holds information on the complete EMS configuration. To add a trusted and secure connection to the ThingWorx platform, the servers, connection type and certificates have to be adjusted.   Check the config.json.complete for more information and individual settings.   As an example the following configuration could be a rough outline.   Switch the websocket server port to 443 in ws_servers Declare the connection to the websocket as SSL / TLS in wc_connection Declare the certificate used by the ThingWorx platform in certificates Validate the certificate In case you're using a self-signed certificate, allow using it - otherwise just say "false" If not using a self-signed certificate, but a certificate based on a chain of trust, point to the full chain of trust in the cert_chain parameter I used the client certifcate in X509 (PEM) formatted .cer file I used the client certificate's private key as PKCS #8 (PEM) and encrypted it with the super-secure password "changeme" (no really, change it!)   With this the EMS can connect securely to the ThingWorx platform websocket.   EMS as HTTP(S) server   To secure incoming connections to the EMS, it first of all needs to act as a HTTP server which is then configured to use a custom certificate.   In config.json add the http_server section Define the host and port as well and set SSL to true The full path of the certificate (.cer file) must be provided   With this the EMS can receive client requests from the LSR through a secure interface, protecting the (meta) data sent from the LSR to the EMS.   For my tests I'm using a self-signed certificate - created in the Keystore Explorer and exported as X509 (PEM) formatted .cer file. The private key is not required for this part.   Authentication   To further secure the connection to the EMS acting as HTTP(S) server, it's recommended to use user and password for authentication.   With this, only connections are accepted, that have the configured credentials in the HTTP header.   config.json   {      "ws_servers": [ { "host": "supersecretems.ptc.com", "port": 443 } ],        "appKey": "<#appKey>",        "http_server":  {           "host": "localhost",           "port": 8000,           "ssl": true,           "certificate": "C:\\ThingWorx\\ems.cer",           "authenticate": true,           "user": "EMSAdmin",           "password": "EMSAdmin",           "content_read_timeout": 20000      },        "ws_connection": { "encryption": "ssl" },        "certificates": {           "validate": true,           "allow_self_signed": true,           "client_cert": "C:\\ThingWorx\\twx70.cer",           "key_file": "C:\\ThingWorx\\twx70.pkcs8",           "key_passphrase": "changeme"      }   }   Securing the LSR   LSR to EMS connection   All connections going from the LSR to the EMS are defined in the config.lua with the rap_ parameters.   To setup a secure connection to the EMS, we need to provide the server as defined in the config.json in the http_server section (e.g. the default localhost:8000). Define the usage of SSL / TLS as well as the certificate file.   Client to LSR connection   All connection going to the LSR from any client are defined in the config_lua witht the script_resource_ parameters.   To ensure that all requests are done via authenticated users, setup a userid and password. Configure the usage of SSL / TLS to encrypt the connection between clients and the LSR. A custom certificate is not necessarily required - the LSR provideds its own custom certificate by default.   Now opening https://localhost:8001 (default port for the LSR) in a browser will open an encrypted channel forcing authentication via the credentials defined above.   Of course this needs to be considered for other calls implementing e.g. a GET request to the LSR. This GET request also needs to provide the credentials in its header.   Authentication   It's recommended to also configure the LSR for using a credential based authentication mechanism.   When setting up the LSR to only accept incoming requests with credentials in the header, the script_resource_userid and script_resource_password can be used for authentication.   When connecting to an EMS using authentication, the rap_userid and rap_password can be used to authenticate with the credentials configured in the config.json   config.lua   The following configuration can be posted anywhere in config.lua - best place would be just below the log_level configuration.   scripts.rap_host = "localhost" scripts.rap_port = 8000 scripts.rap_ssl = true scripts.rap_deny_selfsigned = false scripts.rap_cert_file = "C:\ThingWorx\ems.cer" scripts.rap_server_authenticate = true scripts.rap_userid = "EMSAdmin" scripts.rap_password = "EMSAdmin" scripts.script_resource_userid = "admin" scripts.script_resource_password = "admin" scripts.script_resource_ssl = true   EMS specific configuration: rap LSR specific configuration: script_resource   Other considerations   When configuring the EMS and LSR for authentication and encrypted traffic, the configuration files hold information that not everyone should have access to.   Therefore the config.json and config.lua must be also protected from an Operating System point of view. Permissions should only be granted to the (process) user that is calling the EMS / LSR. Ensure that no one else can read / access the properties and certificates to avoid password-snooping on an OS level.   It's best to grant restricted access to the whole microserver directory, so that only privileged users can gain access.   You're next...   This blog should have given some insight on what's required and how it's configured to achieve a more secure and safer EMS / LSR integration in a real-life production environment. Of course it always depends on the actual implementation, but use these steps as a guideline to secure and protect your (Internet of) Things!
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Check out this new KCS article which links to all known best practice documents available for ThingWorx. This article will get larger in time as more articles are published related to the Dos and Don'ts of building an IoT application! Do you know when to use timers, and where to implement their subscriptions? How about ensuring info tables are used at the proper time, and data tables at others? Pesky performance issues wherein ThingWorx runs slow for apparently no reason? All of these questions and more are addressed here!
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Welcome to the ThingWorx Manufacturing Apps Community! The ThingWorx Manufacturing Apps are easy to deploy, pre-configured role-based starter apps that are built on PTC’s industry-leading IoT platform, ThingWorx. These Apps provide manufacturers with real-time visibility into operational information, improved decision making, accelerated time to value, and unmatched flexibility to drive factory performance.   This Community page is open to all users-- including licensed ThingWorx users, Express (“freemium”) users, or anyone interested in trying the Apps. Tech Support community advocates serve users on this site, and are here to answer your questions about downloading, installing, and configuring the ThingWorx Manufacturing Apps.     A. Sign up: ThingWorx Manufacturing Apps Community: PTC account credentials are needed to participate in the ThingWorx Community. If you have not yet registered a PTC eSupport account, start with the Basic Account Creation page.   Manufacturing Apps Web portal: Register a login for the ThingWorx Manufacturing Apps web portal, where you can download the free trial and navigate to the additional resources discussed below.     B. Download: Choose a download/packaging option to get started.   i. Express/Freemium Installer (best for users who are new to ThingWorx): If you want to quickly install ThingWorx Manufacturing Apps (including ThingWorx) use the following installer: Download the Express/Freemium Installer   ii. 30-day Developer Kit trial: To experience the capabilities of the ThingWorx Platform with the Manufacturing Apps and create your own Apps: Download the 30-day Developer Kit trial   iii. Import as a ThingWorx Extension (for users with a Manufacturing Apps entitlement-- including ThingWorx commercial customers, PTC employees, and PTC Partners): ThingWorx Manufacturing apps can be imported as ThingWorx extensions into an existing ThingWorx Platform install (v8.1.0). To locate the download, open the PTC Software Download Page and expand the following folders:   ThingWorx Platform | Release 8.x | ThingWorx Manufacturing Apps Extension | Most Recent Datacode     C. Learn After downloading the installer or extensions, begin with Installation and Configuration.   Follow the steps laid out in the ThingWorx Manufacturing Apps Setup and Configuration Guide 8.2   Find helpful getting-started guides and videos available within the 'Get Started' section of the ThingWorx Manufacturing Apps Portal.     D. Customize Once you have successfully downloaded, installed, and configured the Manufacturing Apps, begin to explore the deeper potential of the Apps and the ThingWorx Platform.   Follow along with the discussion and steps contained in the ThingWorx Manufacturing Apps and Service Apps Customization Guide  8.2   Also contained within the the 'Get Started' page of the ThingWorx Manufacturing Apps Portal, find the "Evolve and Expand" section, featuring: -Custom Plant Layout application -Custom Asset Advisor application -Global Plant View application -Thingworx Manufacturing Apps Technical Lab with Sigma Tile (Raspberry Pi application) -Configuring the Apps with demo data set and simulator -Additional Advanced Documentation     E. Get help / give feedback / interact Use the ThingWorx Manufacturing Apps Community page as a resource to find documentation, peruse past forum threads, or post a question to start a discussion! For advanced troubleshooting, licensed users are encouraged to submit support tickets to the PTC My eSupport portal.
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Starting with ThingWorx Manufacturing Apps 8.1, a Connection Info box was added to Controls Advisor that will display the Configuration settings needed in KEPServerEX. In Controls Advisor, select the server instance you are connecting with, then select the Key icon Be sure the information displayed here matches the settings you have in place in your KEPServerEX Project Properties in the ThingWorx property group.    
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/* Define a DataShape used in an InfoTable Parameter for this service call */ twDataShape* sampleInfoTableAsParameterDs = twDataShape_Create(twDataShapeEntry_Create("ColumnA",NO_DESCRIPTION,TW_STRING)); twDataShape_AddEntry(sampleInfoTableAsParameterDs,twDataShapeEntry_Create("ColumnB",NO_DESCRIPTION,TW_NUMBER)); twDataShape_AddEntry(sampleInfoTableAsParameterDs,twDataShapeEntry_Create("ColumnC",NO_DESCRIPTION,TW_BOOLEAN)); twDataShape_SetName(sampleInfoTableAsParameterDs,"SampleInfoTableAsParameterDataShape");      /* Define Input Parameter that is an InfoTable of Shape SampleInfoTableAsParameterDataShape */ twDataShapeEntry* infoTableDsEntry = twDataShapeEntry_Create("itParam",NULL,TW_INFOTABLE); twDataShapeEntry_AddAspect(infoTableDsEntry, "dataShape", twPrimitive_CreateFromString("SampleInfoTableAsParameterDataShape", TRUE));    twDataShape* inputParametersDefinitionDs = twDataShape_Create(infoTableDsEntry);   /* Register remote function */ twApi_RegisterService(TW_THING, SERVICE_INTEGRATION_THINGNAME, "testMultiRowInfotable", NO_DESCRIPTION,   inputParametersDefinitionDs, TW_NOTHING, NULL, PlatformCallsServiceWithMultiRowInfoTableServiceImpl, NULL); /* Note that you will have to manually create the datashape in ThingWorx before attempting to add this remote service to your Thing. */
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