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Software Assurance of Web-based Applications

Software Assurance of Web-based Applications. 2 nd Annual OSMA Software Assurance Symposium Wednesday, September 4, 2002. Tim Kurtz SAIC/GRC Risk Management Office Tim.Kurtz@grc.nasa.gov. Roadmap. Introduction

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Software Assurance of Web-based Applications

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  1. Software Assurance of Web-based Applications 2nd Annual OSMA Software Assurance Symposium Wednesday, September 4, 2002 Tim Kurtz SAIC/GRC Risk Management Office Tim.Kurtz@grc.nasa.gov

  2. Roadmap • Introduction • Overview and History of Web-apps • Research Plan • Initial Results/Proposed Methodologies • What’s Next • A Look Back Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  3. Introduction • Internet, initially used for an information channel, has grown into a commercial channel • Enormous amount of business takes place on the internet • Consumer purchases from online retailers totaled $53B in 2001, non-travel site sales were up 20% from 2000 • Averages - $155 million weekday, $97 million weekend day • $321.6 million - Wed., Dec. 12 – highest sales day of the year • Effect of an order entry system that processed orders but forgot to bill customers for a week • NASA uses web-based apps to control combustion experiments • Effects of failure of a NASA web-app… • Wouldn’t bankrupt • Lost money, resources, science, possible injury • Bad publicity Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  4. Introduction • DoD, software industry recognized Software Crisis in the 80’s resulting in • Software development standards • Software QA standards • Certification processes • NASA employs these standards and processes • Geared towards large development efforts requiring large resources and months/years to develop • Don’t specifically address web-app development Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  5. Overview and HistoryEvolution of the Web • Initial web content consisted of static documents containing • Text, pictures and graphics • Links to other static pages • Used mainly to provide information • Today, content includes dynamic pages • Database reports, search results, financial transactions • Sound/video files • Interactive pages • Web is used for • Environmental control • Commerce • Micro gravity experiment control • Data collection Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  6. Overview and History NASA - Technologies • WITS (Web Interface for Telescience) interface can be used by scientists from their home institutions to participate in planetary rover missions by viewing downlink data and generating rover commands. A similar system could be used to command space science instruments or spacecraft. • The Goal Performance Evaluation System (GPES) helps automate the process of employee (and organization) performance evaluation/planning. • The KSC Electronic Documentation System (KEDS), an engineering drawing viewing/printing software application, was implemented as a state-of-the-art WWW intranet application, providing networked viewing and printing of KSC released engineering drawings from any MS Windows-based PC • WWWorkflow, developed at JPL for the computer mediation of work through an organization, exploits an opportunity created by organization intranets to provide a common user interface across heterogeneous platforms. • On-Line Test Procedure, an effective combination of wireless technology, and internet access to electronic test procedure data. Ref. http://technology.nasa.gov search for web-based, web control web interface Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  7. Overview and History NASA – Success Stories • The Web Interactive Training (WIT) project. Several WIT-based training courses were developed for the Safety and Mission Assurance Directorate at KSC to efficiently and effectively train a large base of NASA workers using state-of-the-art technologies delivered over the Internet through a Web browser interface • Tempest Embedded Web Server • originally developed to support the Manned Space Flight Program for Shuttle and Station experiment remote control. • This technology is currently being used in the Virtual Interactive Classroom( VIC) at NASA Glenn Research Center. • Researchers no longer need to be at the test site in order to collect data. • Launchpad to Learning: KSC's Web-Based Engineering Career Education Ref. http://technology.nasa.gov search for web-based, web control web interface Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  8. Overview and History NASA – Program Areas • An Intelligent Case-based Help Desk: Web-based support for EOSDIS customers • 1997 Teacher Tutorials: Teacher training and tools for web-based science, math and technology, etc. • A Web-based Distribution of Ionoshperic Thermal Plasma Data from the DMSP Spacecraft • Testbed Web-based Tool Development to Involve Non-professionals in Space Science Research • Assist in the Development of a new Automated, Web-based Change Tracking System for the Launch Processing System-Configuration Management (LPS-CM) Paper Trail Ref. http://technology.nasa.gov search for web-based, web control web interface Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  9. Research Plan • 3 year effort to determine: • How much is NASA using web-apps and how much will they be used in the future? • What is NASA doing to assure the quality of the web-apps they are developing and using right now? • What should NASA be doing? • Surveys, results and resources available on web site • Use the tools and techniques on pilot projects • Assumptions • Web-apps need to be defined and classified to determine level and type of SA and testing needed • Web SA and testing methodologies need to be identified Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  10. Research Plan http://osat-ext.grc.nasa.gov/rmo/sawba Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  11. Research Plan Web Site http://osat-ext.grc.nasa.gov/rmo/sawba • What's New - information about the latest happenings at the SAWbA web and research. • Schedule - contains research tasks completed last month, in process this month and planned tasks for next month. Events related to the research. Milestones and deliverables and their status. • Archives - collection of documents and software developed during the research and links to tools we found useful. • Biblio - books, articles and web resources found during the research. • FAQ page - frequently asked questions and answers related to web-based applications • Surveys/Communities of Practice – post surveys and questionnaires to web site & news groups. Analyze responses. Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  12. Research PlanResearch Schedule Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  13. Research PlanPilot Projects • Micro-gravity Combustion project • Control and conduct gas/fluid combustion experiment • Data collection • Development begins 2002 • CMM level 2 pilot projects Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  14. Research PlanCharacterize Development Modes Ref.:’Donald J. Reifer, Web Development: Estimating Quick-to-Market Software, 15th International Forum on COCOMO and Software Estimation Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  15. Research PlanCharacterize Development Modes Ref.:’Donald J. Reifer, Web Development: Estimating Quick-to-Market Software, 15th International Forum on COCOMO and Software Estimation Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  16. Initial ResultsQA and Testing • SA and testing of static pages consists of • Checking spelling, grammar and anchors (links) • Validating code • Finding orphaned files • Dynamic pages require much more effort • Coding standards • Automated tools (test scripts) • Error detection and prevention • Component testing • Site testing Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  17. Initial ResultsStatic and Dynamic QA/Tests Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  18. Initial Results Methodology - Planning Use: • Tailor planning activities to development effort, risks • Correlate SA activities with schedule and milestones • Identify necessary resources/skills SA activity: • Generate Software Assurance plan Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  19. Initial Results Methodology - Coding Standards Use: • Implemented for each language used in the project, i.e. HTML, XML, JavaScript, VBScript, etc. • May be separate standards or combined • Tailored to each project, environment and requirements. • Reduces the opportunity for making errors. • Ensure browser compatibility. SA activity: • Check code and enforce the standards. Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  20. Initial Results Methodology - Web Box Testing Use: • Verify component functionality and integration. • Verifies outputs. • Establish infrastructure for building, publishing and testing programs and scripts. • Set up tool checks for programs and scripts. SA activity: • Witness selected tests • Check code and enforce coding standards. • Inspect output pages for correct results and compliance to coding standards. Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  21. Initial Results Methodology - Site Testing Use: • Determine if web-app will crash during: • Normal use • Abnormal use • Map default set of paths through site. • Test critical paths’ functionality using default set of paths. • Verify creation and display of all static and dynamic pages/dynamic data. • Verify back-end applications (servers, databases) are robust SA activity: • Verify tests are completed successfully Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  22. Initial Results Methodology - Regression Testing Use: • Determine if changes have introduced errors. • Repeat each previously successful white box, black box and web box test cases which might have been affected by the changes. SA Activity: • Witness or verify all affected tests successfully completed • Inspect changed code and output pages for correct results and compliance to coding standards. Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  23. Initial Results Methodology – Safety/Security Use: • Identify safety/security issues • Implement controls to reduce/eliminate • Test controls SA Activity: • Review/provide input to safety/security issues • Monitor development and testing of controls Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  24. Initial Results Methodology - Metrics Use: • Assist project planning • Determine project status SA Activity: • Collect, review and analyze metrics Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  25. Initial Results Methodology – Candidate Metrics • Specification • User commands • Database files • Class definitions • Design • Object oriented • Function points • Program • Lines of source code • Complexity • Progress • Coding status • Testing status Ref: http://www.mmhq.co.uk/my-complexity/measures-software.shtml Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  26. What’s Next? • We need to answer some questions • What is the current and future extent of the use of web based applications in NASA projects? • Take the Web-app usage survey – http://osat-ext.grc.nasa.gov/rmo/sawba/UsingSurveyphp.htm • What is NASA currently doing to assure the quality of web based applications? • Take the Web-app usage survey –http://osat-ext.grc.nasa.gov/rmo/sawba/AssuranceSurveyphp.htm Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

  27. A Look Back • Introduction • Overview and history • Research plan • Overview of web application SA and testing activities for static and dynamic web sites • Specific types of testing and SA • Planning • Coding standards • Web box testing • Site testing • Regression testing • Safety/Security • Metrics • Need survey information from NASA/commercial projects Tim Kurtz SAIC/GRC Risk Management OfficeResearch funded by NASA OSMA and GSFC IV&V Facility

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