1 / 33

Standards Conformance Testing and M&S Web Services

Standards Conformance Testing and M&S Web Services. Bernard P. Zeigler, Ph.D., Arizona Center for Integrative Modeling and Simulation and Joint Interoperability Test Command Fort Huachuca, AZ 85613-7051. Outline. Role of Standards Conformance Testing in Net-Centric T&E

zeheb
Download Presentation

Standards Conformance Testing and M&S Web Services

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Standards Conformance Testing and M&S Web Services Bernard P. Zeigler, Ph.D., Arizona Center for Integrative Modeling and Simulation and Joint Interoperability Test Command Fort Huachuca, AZ 85613-7051

  2. Outline • Role of Standards Conformance Testing in Net-Centric T&E • JITC responsibility for Link-16 standards conformance testing • Link-16: Challenges to implementation and testing • M&S–based Automated Test Case Generation • Application to Link-16 in the IABM SIAP Context • Service Oriented Architecture: M&S-based Testing Services • Link-16 standards conformance testing • certification for GIG deployable services • exposing M&S-based T&E assets as services

  3. Net-Centric Test and Evaluation: Some Assertions Net-Centric T&E • places an increased emphasis on standards conformance testing (SCT) • SCT will be the first gate before more extensive T&E • necessary, but not sufficient, for interoperability and mission effectiveness • performed on distributed net-centric test-bed infrastructure • Global Information Grid (GIG) • provide on-site or downloadable SCT packages • emphasizes services rather than systems • testing of Service Oriented Architecture (SOA) • GIG enterprise services

  4. JITC is the Responsible Test Organization for Tactical Data Link Standards • Joint Interoperability Test Command (JITC) is responsible for ensuring systems that implement Tactical Data Link* (TDL) • are interoperable and • in compliance with the applicable joint standards • This is accomplished by conducting the following types of tests: • Joint / NATO /Combined Interoperability • Performance Assessment in Operational Environments • Standards Validation • Standards Conformance • JITC employs a variety of tools that provide its analysts the ability to evaluate TDL system performance in both the lab and live environments. source: http://jitc.fhu.disa.mil * Link 11/11B/16 and Variable Message Format (VMF)

  5. Link-16: Challenges to Implementation and Testing Joint Single Link Implementation Requirements Specification JSLIRS is an evolving standard (MIL-STD-6016c) for tactical data link information exchange and networked command/control of radar systems • Presents significant challenges to automated conformance testing: • The specification document states requirements in natural language • open to ambiguous interpretations • The document is voluminous • many interdependent chapters and appendixes • labor intensive and prone to error • potentially incomplete and inconsistent. • Problem: how to ensure that a certification test procedure • is traceable back to specification • completely covers the requirements • can be consistently replicated across the numerous contexts • military service, inter-national, and commercial companies

  6. Benefits of Formalization and Automation • Provides traceability to original specification • Reduces ambiguity from textual specification • Facilitates integrating Modeling & Simulation into the testing process • Enables testing of complex: • Standards • Systems • Functions • Families of systems

  7. SIAP/IABM —Successor to Link-16 • SIAP (Single Integrated Air Picture) Goal: Improve the adequacy and fidelity of information to form a shared understanding of tactical situation • Integrated Architecture Behavior Model (IABM) requires that all sensors utilize a standard reference frame for conveying information about the location of targets. • Developed by the Joint SIAP System Engineering Organization (JSSEO), Arlington, Va., a sub-office of the Assistant Secretary of the Army for Acquisition, Logistics and Technology. source: http://www.navyleague.org/sea_power/mar_04_18.php

  8. Automated Test Case Generator (ATC-Gen) • IABM is an extension of Link-16 developed in HLA environment and requires HLA simulation-based testing • JITC has taken the initiative to integrate modeling and simulation into the automation of the testing process • Funded the development of Automated Test Case Generator (ATC-Gen) led by ACIMS using DEVS (Discrete Event System Specification) technology. • In R&D of two years, proved the feasibility and the general direction • First major test of IABM – Config05 – ATC-Gen is the basis for testing link-16 and extended IABM requirements

  9. Discrete Event Nature of Link-16 Specification Transaction Level - example P.1.2 = Drop Track Transmit 1 Preparation 2 Processing 3 Modify C2 Record for TN Transmit Msg Rule Processing Constraints (Exception) Rules Validity checking Track Display Time outs Operator decisions Periodic Msg Other ConsequentProcessing Jumps (stimuli) to other Transactions of specification Stop Stop, Do Nothing, Alerts, Or jump to other Transaction Output from Input to system system DEVS t t t t 1 2 3 4

  10. ATC Gen Goals & Approach Test Driver SUT DEVS Simulator HLA HLA Network • Goals: • To increase the productivity and effectiveness of standards conformance testing (SCT) at Joint Interoperability Test Command (JITC) • To apply systems theory, modeling and simulation concepts, and current software technology to (semi-)automate portions of conformance testing Objective: Automate Testing Capture Specification as If-Then Rules in XML Analyze Rules to Extract I/O Behavior Synthesize DEVS Test Models Test Driver Executes Models to Induce Testable Behavior in System Under Test (SUT) Interact With SUT Over Middleware

  11. ATC Gen Tool • Standard to XML Translation • Analyst interprets the requirements text to extract state variables and rules, where rules are written in the form: If P is true nowCondition Then do action A laterConsequence Unless Q occurs in the interimException • Dependency Analysis & Test Generation • Dependency Analyzer (DA) determines the relationship between rules by identifying shared state variables • Test Model Generator converts Analyst defined test sequences to executable simulation models • Test Driver • Test Driver interacts with and connects to SUT via HLA or Simple J interfaces to perform conformance testing • Validated against legacy test tools

  12. Capturing the Link-16 Standard in XML Appendix P Appendix U Section 4.11.13 Appendix D MIL-STD-6061C Appendix P Appendix U Section 4.11.13 Appendix D XML FILES Repository

  13. Rule AnalysisExtract I/O Behaviors Appendix P Appendix U Section 4.11.13 Appendix D MIL-STD-6061C RULE ANALYSIS RESULTS

  14. Test SequenceManually Derive & Create Paths Automatic Generation of Path File (Text) ResponderNnot specified> D.1.3.1.9ND.1.3.1> D.1.3.3.10.1a, D.1.3.3.13.1ND.1.3.1> D.1.3.12.1ND.1.3.1>

  15. Test SequenceValidation & Generation Completed Path File Repository Appendix P Appendix U Section 4.11.13 Appendix D XML FILES GENERATED TEST SEQUENCE (XML) DEPENDENCY ANALYZER Validates Test Sequence

  16. Test CaseGeneration Test Sequence with Assigned Values TEST CASE GENERATOR GENERATED TEST CASE (XML)

  17. Test ModelValidation & Generation Test Case TEST MODEL GENERATOR GENERATED TEST CASE MIRROR (XML) Test Model #include "hierSequence.h" #include "PPLI.h" #include "RemoteTNdrop.h" const port_t hierSeqDigraph::start=0; const port_t hierSeqDigraph::inJmsg=1; const port_t hierSeqDigraph::pass=2; const port_t hierSeqDigraph::outJmsg=3; hierSeqDigraph::hierSeqDigraph():staticDigraph() { PPLI *pp = new PPLI(); add(pp); couple(this, this->start, pp, pp->start); couple(pp, pp->outJmsg, this, this->outJmsg); RemoteTNdrop *p1 = new RemoteTNdrop(); add(p1); couple(this, this->start, p1, p1->start); couple(this, this->inJmsg, p1, p1->inJmsg); couple(p1, p1->outJmsg, this, this->outJmsg); }

  18. Test ModelExecution Test Model (C++) #include "hierSequence.h" #include "PPLI.h" #include "RemoteTNdrop.h" const port_t hierSeqDigraph::start=0; const port_t hierSeqDigraph::inJmsg=1; const port_t hierSeqDigraph::pass=2; const port_t hierSeqDigraph::outJmsg=3; hierSeqDigraph::hierSeqDigraph():staticDigraph() { PPLI *pp = new PPLI(); add(pp); couple(this, this->start, pp, pp->start); couple(pp, pp->outJmsg, this, this->outJmsg); RemoteTNdrop *p1 = new RemoteTNdrop(); add(p1); couple(this, this->start, p1, p1->start); couple(this, this->inJmsg, p1, p1->inJmsg); couple(p1, p1->outJmsg, this, this->outJmsg); } TEST DRIVER SYSTEM UNDER TEST

  19. Extending M&S-Based T&E to the GIG • Migrate ATC-Gen capability to the GIG-SOA • accessible to all developers requiring Link-16 conformance testing and certification • enable self-tests for Link-16 standards conformance • expose Link-16 XML-rule repository as authorized reference model • register ATC-Gen test capabilities as web services • Extend M&S-Based automated testing • provide mission thread testing for GIG deployable services • certify transitions through the stages of DISA’s Federated Distributed Certification Environment • Expose M&S-based T&E assets as services • experimental frame components: generators, acceptors, transducers • exploit DEVS reusability support • characterize services for discovery and reuse

  20. Link-16 XML Repository Web-Service Asset • Organized according to MIL-STD-6016C macro-structure hierarchy • Folders store aggregations/abstractions of lower level rules • MIL-STD-6016C Reference Model • Removes ambiguity • Annotates problems areas, improving the ability to find and fix issues • Provides organization for indexing states, rules, and variables • Supports test generation and executable rule construction

  21. Transferring DEVS-based Testing Methodology to SOA DEVS Model DEVS Simulator HLA DEVS Model Packaging:FOM DEVS Simulator Messaging:Interactions,Updates Communication: RTI SOA Service Discovery: UDDI Sevice Description: WSDL Packaging:XML Messaging:SOAP Communication: HTTP • DEVS-based Testing Methodology readily migrates to SOA environment as shown below • In particular, the ATC-Gen Test Driver can be offered as a service for Link-16 conformance self-test • Further, the methodology can be applied to other test and evaluation contexts

  22. Automating Mission Thread/Vignettes for GES Testing • Objective – automate to the maximum extent the definition of mission threads/vignettes and the generation of test services based on them • Enable COI and community wide service users and developers to easily write threads/scenarios in (restricted) Natural Language form • Interacting with such users/developers, implement these scenarios with DEVS test federation models that can execute over Core ES • Mission thread/Vignette scenario testing applies objectives-driven testing to all service levels and throughout service offering life cycle • Repository can support re-use and re-application for regression testing to preserve service behavior under continual change in SOA environment

  23. Mission Thread Testing Applies to all Service Levels and Throughout Service Offering Life Cycle Mission Threads enable objectives driven testing at every development level Community-wide Enterprise Services COI Enterprise Services CORE Enterprise Services Mission Threads enable objectives driven testing throughout service offering life-cycle

  24. NLP Mission Thread Scenario Generation Restricted Natural Language form of Mission Thread Scenario Specification JTAC working with FourthInfDiv …. … USNAircraft gets deconfliction from USMCAircraft Transform to System Entity Structure Scenario in XML Natural Language Parser (actor = JTAC, action = work, actee = FourthInfDiv) …. (actor = JTAC, action = requests, message = ImmediatCAS, actee = DirectAirSuppAirborne) …. Transform to DEVS Parser outputs tagged equivalent of input DEVS Test Driver for NCES Mission Threads

  25. Example: Joint Close Air Support Scenario

  26. NLP Test Generation Example: Joint Close Air Support Scenario JTAC works with ODA! JTAC is supported by a Predator! JTAC requests ImmediateCAS to AWACS ! AWACS passes requestImmediateCAS to CAOC! CAOC assigns USMCAircraft to JTAC! CAOC sends readyOrder to USMCAircraft ! USMCAircraft sends sitBriefRequest to AWACS ! AWACS sends sitBrief to USMCAircraft ! USMCAircraft sends requestForTAC to JTAC ! JTAC sends TACCommand to USMCAircraft ! USMCAircraft sends deconflictRequest to UAV! USMCAircraft gets targetLocation from UAV!! NCES

  27. DEVS-based Web-Services Testing DEVS Test Player Service Under Test DEVS Test Federation NCES/GIG Live Test Player DEVS Simulator Node SOAP-XML

  28. Demo:http://acims9.acims.arizona.edu Web Service: Find aircraft available for CAS given coordin-ates and time frame.

  29. M&S-Based T&E Services on the SOA:Experimental Frame Repository SUT Generator Acceptor Transducer Experimental Frame • Compose EF from generator, acceptor, and transducer components in repository • Characterize functionalities using M&S Theory and WSDL • Support composability based on migration of DEVS technology to SOA Request Generator Acceptor Repository Transducer Repository Repository

  30. Example: Synthetic Environment Repository Experimental Frame Partial Order Experimental Frames needed for Testing Objectives Experimental Frame- Model Applicability Relations Environmental and Standards Reference Models available for use in Testing

  31. Summary and Conclusions There is an acute need for a new Net-centric testing paradigm at the enterprise level where joint and coalition operations are conducted (Editorial, ITEA Jnl, Sept, 2005) • Net-Centric T&E places an increased emphasis on standards conformance self-testing over the GIG-SOA and emphasizes services rather than systems • Due to its formal and abstract basis, the DEVS functionality migrates quite directly to execute over the web-services middleware based on XML and SOAP • This extension enables semi-automated construction of DEVS test federations for verification testing of a wide variety of proposed web services: • ATC-Gen Link-16 and other TDL standards conformance self testing • Mission thread or vignette scenario specification using natural language input can replace Link-16 style standards formalization as the source input for test case generation • M&S-based T&E services can exploit experimental frame methodology

  32. Bernard P. Zeiglerzeigler@ece.arizona.eduACIMSwww.acims.arizona.eduJITCjitc.fhu.disa.mil Contact: More information:

  33. Joint Interoperability, Assured Security, Best Value, Customer Success Global Net-Centric Solutions -- The Warfighter's Edge

More Related