Test Enabled and Training Architecture (TENA) Don McGregor Research Associate MOVES Institute TENA TENA is used in range environments, often in the L portion of LVC Slightly different emphasis; small devices, real-time-ish, sometimes embedded, high performance in the sense of low overhead required, multiple unusual platforms Government-owned source built for multiple platforms Live, Virtual, constructive TENA Large-ish user support network https://www.tena-sda.org Available to international militaries with permission (used in Sweden) Schedule A software Remote Objects Theres a popular concept in computer science called remote procedure calls or distributed objects. Youve got a piece of code on one host, and you want to call it from another You can create and send a message from the client to the server to make this call happen, but its popular to make it appear as if the object is really on the client. This is done via a proxy object Proxy Objects -doSomething(int i) -doSomethingElse(float f); -doSomething(int i) -doSomethingElse(float f); -doSomething(int i) -doSomethingElse(float f); -doSomething(int i) -doSomethingElse(float f); ProxyReal Object The proxy is a stand-in for the real object on another host. Methods are called by a user on the proxy, which does no computation itself. Instead, it passes the request (along with any parameters) to the real object on a server. The server does the computation and passes back the return value Proxy and Servant The object on the client side is called the proxy, while the real object on the server side is called the servant This means the proxy and servant need to agree on how messages are passed back and forth, ports for passing messages over sockets, etc. The good news is that this can be automated by appropriate code, so the user doesnt have to write any of it Typically you write a interface file in a special language, then the proxy code and servant interface is generated for you The infrastructure can use a variety of technologies for message passing: multicast, tcp, udp, etc. TENA Objects 8 TENA Description Language The TDL/CORBA IDL below is run through a compiler to generate the proxy objects and to create the server-side connectors. (TDL and IDL are very similar) TDL TDL is a way to write something like a Java interfaceits like a class, and it defines methods. It also defines instance variables Its written in a language that is very much like C++ or Java, but isnt. Same concepts of classes and inheritance. No code logic, just interfaces and variables Note that this is different from HLAHLA had only classes with data values, no methods Once written you compile the TDL to Java or C++ language implementations 10 TDL Distributed programming has more things that can go wrong than normal programming, and more issues to deal with Sometimes you might not want to wait for a return value from a method. You can define oneway methods that are fire and forget, and may or may not work. You may not care if objects in the method arguments are modified on the server side are passed backyou can specify that they dont have to be. These can be specified with in/ 11 TENA Description Language You can also generate TENA TDL from a UML diagram via MagicDraw 12 Dangers While this is nice, always remember that the proxy object is not the same thing as the real object. Calls are being made across the network, so theyll be much slower and less reliable than using a real object for(int idx = 0; idx < 1000; idx++ { proxy.doSomething(idx); } TENA Remote Objects Remote objects are the approach that TENA takes Clients have proxies that connect to the servant objects running on other hosts, so we may have a radar object instance running on a device on the range being called from a host in the lab, and the radar object being shown in a DIS application via a gateway Stateful Distributed Objects TENA adds stateful distributed objects to regular distributed objects With distributed objects you need to call a method to discover state With SDOs the state is pushed to subscribed listeners periodically (often at state change points) So for example a Radar object instance might tell listening objects that it has turned on rather than waiting for other objects to ask its state, or having other objects poll its state TENA So a TENA application can consist of Objects that that application publishes (for example, a radar or tank) Objects that that application is listening to (for example, helicopters published by other applications) Your own application logic TENA has gateways to allow operation with other standards, for example DIS or HLA TENA TENA uses something called CORBA in the background, specifically the TAO realtime CORBA ORB But all this is hidden from the user, and as a result is never seen directly Multiple language bindings: C++ is primary, C# also, Java CORBA CORBA provides the infrastructure for many things: Publishing objects Handling parameter serialization, object serialization, response serialization Object lookup The interface description language (IDL) Generating proxy and servant interfaces You provide the servant logic, CORBA does most of the rest Object Serialization What if you pass an object as a parameter to a method on a servant? Eg, Position with attributes of floats (x,y,z). Or what if you want an object returned as a method result? The attributes of the object need to be placed in a format that can be passed in a message to the servant; this is all done automatically, but it needs to be done How to you find published objects? TENA TENA App Cooperating TENA Apps Vs DIS 23 VBS2 Vendor A DIS Combat XXI Vendor B DIS Standardized Wire Format, Different APIs for DIS Vs HLA 24 VBS2 Vendor A HLA Combat XXI Vendor B HLA Standardized API, Different Wire Formats for Each Vendor Vs TENA 25 VBS2 TENA Middleware Combat XXI TENA Middleware One vendor for TENA middleware. The wire format is whatever that single vendor specifies. TENA APIs and wire formats are not officially standardized; they are defacto standards JMETC Joint Mission Environment Test Capability Classic government behavior: every time we run a live exercise, set up a network, then tear it down afterwards Takes months to approve the security paperwork Better government behavior: set up a network on the ranges once, then have all subsequent exercises use that network. This is the JMETC idea JMETC Always-on, monitored 24/7 Security dweebs do their thing for you Overall TENA uses a hidden implementation of CORBA Adds stateful distributed objects, which pushes state information to subscribed listeners High performance, hides most network details Govt-provided middleware for most architectures (Linux/Windows/IOS/32/64)