1 / 20

CoSMIC: An MDA Tool Suite for Application Deployment and Configuration

CoSMIC: An MDA Tool Suite for Application Deployment and Configuration. Tao Lu, Emre Turkay Aniruddha Gokhale, Douglas Schmidt {lu,turkaye,gokhale,schmidt}@dre.vanderbilt.edu Institute For Software Integrated Systems Vanderbilt University Nashville, TN 37203.

alanna
Download Presentation

CoSMIC: An MDA Tool Suite for Application Deployment and Configuration

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. CoSMIC: An MDA Tool Suite for Application Deployment and Configuration Tao Lu, Emre Turkay Aniruddha Gokhale, Douglas Schmidt {lu,turkaye,gokhale,schmidt}@dre.vanderbilt.edu Institute For Software Integrated Systems Vanderbilt University Nashville, TN 37203 Work supported by AFRL contract# F33615-03-C-4112 for DARPA PCES Program

  2. DRE Applications Middleware Services distributed system Middleware Operating Sys & Protocols Hardware & Networks Research Synopsis Model Driven Middleware for Distributed Real-time & Embedded Systems • Develop, validate, & help to standardize technologies that: • Model • Analyze • Synthesize & • Provision • multiple layers of middleware for distributed real-time and embedded (DRE) systems that require simultaneous control of multiple quality of service properties end-to-end <CONFIGURATION_PASS> <HOME> <…> <COMPONENT> <ID> <…></ID> <EVENT_SUPPLIER> <…events this component supplies…> </EVENT_SUPPLIER> </COMPONENT> </HOME> </CONFIGURATION_PASS>

  3. Total Ship Computing Environments Total Ship C&C Center R&D Focus: Distributed Real-time & Embedded (DRE) Systems • Network-centric & large-scale • Dynamic context • Stringent simultaneous quality of service (QoS) demands • Part of larger systems • Resourceconstrained

  4. … … Middleware Bus Container Replication Security Persistence Notification Growing Trend: Component Middleware for DRE Applns • Component middleware gaining importance (CCM, J2EE, .NET) • Components encapsulate application core logic • Components possess ports: • Event sinks & sources • Connection points e.g., receptacles • Interfaces e.g., facets • attributes • Containers provide execution environment for components with common operating requirements • Containers communicate via a middleware bus

  5. Different Aspects in Component Middleware-based DRE Appln Provisioning & Deployment • Specification & Implementation • Application functionality specification, partitioning and implementation as standalone components • Packaging • bundling a suite of software binary modules and metadata representing application components • Installation • populating a repository with the packages required by the application • Configuration • configuring the packages with the appropriate parameters to satisfy the functional and systemic requirements of application without constraining to any physical resources • Planning • making appropriate deployment decisions including identifying the entities, such as CPUs, of the target environment where the packages will be deployed • Preparation • moving the binaries to the identified entities of the target environment • Launching • triggering the installed binaries and bringing the application to a ready state • Adaptation • Runtime reconfiguration & resource management to maintain end-to-end QoS

  6. … … … Middleware Bus Container Container Replication Security Persistence Notification Our Solution: Model-Driven Middleware for DRE Applns Key Benefits • Preserves DRE application functional & systemic QoS properties as high level models • Domain-specific languages & analysis/synthesis tools transform models to customize underlying multi-layered middleware platforms • Leverages & shapes standards for wider applicability <CONFIGURATION_PASS> <HOME> <…> <COMPONENT> <ID> <…></ID> <EVENT_SUPPLIER> <…events this component supplies…> </EVENT_SUPPLIER> </COMPONENT> </HOME> </CONFIGURATION_PASS> Related Work: • MIC, Vanderbilt (Sztipanovits, Karsai, et al) • Ptolemy, UC Berkeley (Lee et al) • Cadena, KSU (John Hatcliff et al) • Quality Connector, LMCO (Joe Cross et. al)

  7. Boeing Bold Stroke: Our Research Vehicle • Avionics Product Line Component Model • DRE system with 3,000+ domain-specific software components, 3-5 million lines of C++ code • 100+ developers • Mission-control software for Boeing military aircraft, e.g., F-18 E/F, Harrier, UCAV • Leverages the ACE+TAO middleware • Used as Avionics Open Experimental Platform (OEP) for DARPA/IXO PCES & MoBIES programs • Moving towards using CIAO CCM

  8. … … Container Middleware Bus Replication Security Persistence Notification CoSMIC: Our MDM Tool Suite • Applying OMG MDA to address DRE appln development & provisioning challenges w.r.t: • the packaging aspect • the configuration aspect • the planning aspect • the dynamic QoS provisioning & adaptation aspect • Our tool suite is called CoSMIC • CoSMIC = Component Synthesis using Model Integrated Computing

  9. Challenge 1: Packaging Aspect CONTEXT • Application components are bundled together into assemblies • Several different assemblies tailored towards delivering different end-to-end QoS and/or using different algorithms can be part of the package • e.g., Bold Stroke scenarios involve assembling & deploying hundreds of components • Packages describing the components and assemblies can be scripted by using XML descriptors

  10. RT Event Channel Challenge1: Packaging Aspect Ad hoc techniques for ensuring syntactic & semantic compatibility Ad hoc means to determine event channel support PROBLEMS (1/2) End-to-end QoS metric assigned in ad hoc manner

  11. Challenge1: Packaging Aspect XML file in excess of 3,000 lines for medium sized scenarios PROBLEMS (2/2) Existing practices involve handcrafting the XML descriptors <!– Associate components with impls --><componentfiles> <componentfile id=“RateGenerator"> <fileinarchive name=“HouseRateGen.csd"/> </componentfile> <componentfile id=“HiResGPS"> <fileinarchive name=“aGPS.csd"/> </componentfile> <componentfile id=“cockpitDisplay"> <fileinarchive name=“navDisplay-if.csd"/> </componentfile> </componentfiles> Modifications to the assemblies requires modifying XML file

  12. Challenge 1: Packaging Aspect SOLUTION Status: • Component & Assembly Descriptor Modeling Language (CADML) developed in GME • Used to model & synthesize assembly descriptor and package descriptor files for Boldstroke product scenarios

  13. Challenge 1: Packaging Aspect Next Steps Improve syntactic & semantic compatibility checks Align CADML DSML with OMG’s D&C spec Benchmarking of assemblies to assign QoS metrics

  14. Challenge 2: Configuration Aspect CONTEXT Platform independent configuration Configuration of components & assemblies Configuration of component server Configuration of event channel support Configuration of component containers Configuration of middleware bus (i.e., ORB)

  15. Challenge 2: Configuring RT Event Channels PROBLEMS (1/3) Determine the right strategy for event channel integration i.e., within container or within component Determine the right locking strategies PROBLEMS (1/2) Determine priority propagation policies for events Enable colocation optimizations • This “glue code” for event channel integration is traditionally handcrafted

  16. Stub Skeleton 20 10 5 1 20 10 5 1 M/W Bus I/O Subsystem Challenge 2: Configuring Middleware End-to-End PROBLEMS (2/2) Determine right marshaling optimizations Determine right demux strategy Determine right concurrency strategy Configuring subset of underlying transports Determine right connection mgmt policy • Highly flexible middleware tend to provide numerous configuration knobs that can be configured to deliver required systemic properties to applications • Existing techniques of metadata configurations rely on ad hoc manual selection of configuration parameters

  17. Challenge 2: Configuration Aspect • Developed a domain-specific modeling language for TAO/CIAO called Options Configuration Modeling Language (OCML) using GME • User provides a model of desired options & their values e.g., • Middleware bus resources • Concurrency & connection management strategies • Constraint checker flags incompatible options • Synthesizes XML descriptors for middleware configuration SOLUTION

  18. High priority Challenge 2: Configuration Aspect Next Steps • Extend OCML to capture application QoS requirements in a platform independent form • Design model transformers to synthesize platforms-specific configuration models • Design tools that will determine the right values for various platform-specific configuration parameters Point of Contact Emre Turkaye, George Edwards, Gan Deng

  19. Research Snapshot Funded Projects • DARPA Program Composition of Embedded Systems (PCES) • DARPA Adaptive & Reflective Middleware Systems (ARMS) • ITS Warehouse Management (Siemens) • Fault Tolerant CORBA (Lockheed Martin) Collaborations • Dr. Douglas C. Schmidt, Vanderbilt University • Dr. Jeff Gray (Univ of Alabama, Birmingham) • Dr. Swapna Gokhale (Univ of Connecticut) • Dr. Marina Thottan (Bell Labs) • Dr. Priya Narsimhan (CMU) • Dr. Sylvester Fernandez (Lockheed Martin)

  20. Downloading the Middleware & Tools • Beta and Stable release can be accessed from http://www.dre.vanderbilt.edu/Download.html • http://www.dre.vanderbilt.edu/cosmic

More Related