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Explore OGCE's services like Workflow, GTLAB, Cyberaide, and Gateways, along with innovative gadgets for enhanced user experience.
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OGCE Overview: Services, Gadgets, and Tags Marlon Pierce, Suresh Marru, Gregor von Laszewski, Mary Thomas, Maytal Dahan, Gopi Kandaswamy, Rion Dooley, and Wenjun Wu
Links for More Information • Website: http://www.collab-ogce.org • News/RSS/Blog: http://collab-ogce.blogspot.com • Email: discuss@ogce.org • SVN Code Repository: http://ogce.svn.sourceforge.net/viewvc/ogce/ • And get tar.gz’s • Source Forge: http://sourceforge.net/projects/ogce
Services, Workflow, GTLAB, Cyberaide, and Gadget container are part of an emerging stack
OGCE and Gateways • We develop and package software for use by Gateways. • A lot of this comes from active Gateways. • GPIR: TeraGrid User Portal • Workflow tools: LEAD • Resource Discovery Service, File Browser Applet: TGUPGridChem Gateways OGCE Software
GPIR for Facebook, iGoogle • GPIR: GridPort Information Repository, stores dynamic and static resource information for VOs • Facebook • Mini TeraGrid system monitor and full size system monitor • Mini: http://apps.facebook.com/mini_tgsysmon/ • Full Size: http://apps.facebook.com/tgsysmon/ • Google • Mini System monitor for iGoogle page • To add visit: • http://www.google.com/ig/adde?moduleurl=http://iola.tacc.utexas.edu:22080/gpir-app/minigpir.xml&nocache=1&source=imag GPIR Facebook App
Open Life Science Gateway Bio-gadgets ClustalW gadget Job Submission History gadget Blast gadget
Components for Science Portals • OGCE is founded on the principal that portals should be built out of reusable parts. • Key standard in our first phase: the JSR 168 portlet specification. • Portlets can run in multiple containers • uPortal, Sakai, GridSphere, LifeRay, etc. • Allows us to build Grid specific components and deploy along side other goodies: Sakai collaboration tools, contributed portlets, etc. • Future: Open Social compliant Google Gadgets
Downloading and Installing OGCE • Portal installation is described in greater detail later in the tutorial. • Key point for current purposes: you can have a basic portal up and running in a few minutes. • Installation consists of • Updating properties in pom.xml to match your Grid. • Running “mvn clean install” • That’s it • We’ll now look at some features.
OGCE GPIR portlet can interoperate with TeraGrid and your own GPIR services.
Manage TeraGrid MyProxy credentials with the OGCE ProxyManager portlets.
OGCE file management client portlets interact with TeraGrid GridFTP servers.
General purpose batch and interactive job submission to GRAM, WS-GRAM is supported.
Dashboard Portlet The dashboard portlet allows users to track jobs on the selected resource. The user can view either his own set of jobs or get information on all submitted jobs. 14
Queue forecasting portlets work with the NWS QBETS to predict wait times and deadlines.
PURSe portlets manage user requests for portal accounts and Grid credentials.
OGCE IFrame Portlet can be used to integrate external sites.
Under the Hood: Building Components • Portlets can be built with our Apache Velocity bridge. • “Template” or “steal this code” approach. • OGCE portlets use the Java COG Abstraction Layer to access Grid services. • Provides a buffer over different Grid toolkits and versions. • Provides ability to compose graph-based workflows. • Tutorial in itself • We have also developed Grid Tag Libraries and Beans (GTLAB) to simplify this process.
Some OGCE Services New things available for download
Resource Discovery Service • Extracted from the TeraGrid User Portal • Contributed by Rion Dooley • Axis2 Web service • Integrates information from INCA, GPIR services. • What machines are in my Grid^H^H^H^H Cloud? • What are the service names? • Which ones are actually running? • Works with TeraGrid deployed services, but you can use it with your own information service installations.
Resource Prediction Service (RPS) • Predicts an optimal set of resources for running scientific applications • Predicts a set of resources on which the sum of data transfer time, queue wait time and compute time for the application will be minimum • Data transfer time: Uses input data size and NWS info • Queue wait time: Uses QBETS info • Compute time: Uses application performance info • Axis2 web service with a MySQL backend • RPS is a subset of the Fault Tolerance and Recovery service used in LEAD and VGrADS
Packaging Services • Everything builds with one command • mvn clean install • We use Apache Maven 2 for builds. • Structured, modular builds and consistent layouts • Build a single module: • mvn clean install –f somemod/pom.xml • We include Apache Tomcat in the download, so all you need is Java and MySQL. • Suitable also for the NMI build and test system. • Want the Javadoc? mvn javadoc:javadoc
Upcoming Services • XMC-CAT metadata cataloging service with JSDL sample implementation. • See also our demo on Wednesday. • Swarm Web Service for mass job submission and management. • See also Sangmi Pallickara’s talk Friday at 2:00 • http://escience2008.iu.edu/sessions/SWARM.shtml • GPIR Web Service for information on your Grid. This is being repackaged; older packaged version (but same code) is already available. • Workflow suite services will be integrated in the future.
GTLAB Tag Libraries for building gadgets and portlets out of reusable parts.
User’s Browser JavaScript iGoogle, Facebook OGCE Gadget Container GTLAB Gadgets RPS, RDS, GPIR Services TeraGrid Services Other Services GTLAB’s Relationship to Other Components
MyProxy Example <h:form id="form"> <h:outputText value="Username:"/> <h:inputText value="#{resource.username}" required="true"/> <h:outputText value="Password: "/> <h:inputSecret value="#{resource.password}" required="true"/> <h:outputText value="MyProxy Server: "/> <h:inputText value="#{resource.myproxyHostname}" required="true"/> <o:submit id="submit" value="Submit" binding="#{builder.body}" action="#{builder.junkAction}" > <o:multitask id="multi" persistent="true" taskname="#{resource.taskname}"> <o:myproxy id="mypr" hostname="#{resource.myproxyHostname}" lifetime="2" password="#{resource.password}" port="7512" username="#{resource.username}"/> </o:multitask> </o:submit> </h:form>
Executing Multiple Task <o:submit id="submit" value="Submit" binding="#{builder.body}" action="#{builder.junkAction}" > <o:multitask id="multi" persistent="true" taskname="#{resource.taskname}"> <o:jobsubmitid="js" myfaces="true" arguments="#{resource.arguments}" executable="#{resource.executable}" hostname="#{resource.hostname}" provider="#{resource.provider}" stdout="#{resource.stdout}"/> <o:filetransferid="ft" myfaces="true" from="#{resource.from}" to="#{resource.to}" /> <o:dependency id="dep" task="ft" dependsOn="js"/> </o:multitask> </o:submit>
RRRPS Client with GTLAB <o:submit id="submit" value="Submit" binding="#{builder.body}" action="#{builder.junkAction}"> <o:multitask id="multi" persistent="true" taskname="#{resources.taskname”> <o:rpsOptimal resource="task1-resources" id="rpsoptimal-exec" myfaces="true"/> </o:multitask> </o:submit>
Example with Dependency <o:submit id="submit” …> <o:multitask id="multi” …> <o:rpsAddModel resource="task1-resources" id="rpsAddModel-exec" myfaces="true"/> <o:rpsManager resource="task1-resources" id="rpsManager-exec" myfaces="true"/> <o:dependency id="deps-rpsstuff” task="rpsManager-exec" dependsOn="rpsAddModel-exec"/> </o:multitask> </o:submit>
GTLAB Features • Extends Java Server Faces. • Tag components wrap major COG Abstraction Layer features • And Web Service clients, GridShib, etc. • Supports tag inter-dependencies. • Allows you to do standalone development. • Use JSF portlet bridge to convert into portlets • No new coding, just add/modify XML config files and jars. • Or forget about portlets and • Convert into Google Gadgets • Develop as a Facebook application • Etc.
Installing GTLAB • Download the release code from www.collab-ogce.org or check out from SVN: • svn checkout https://ogce.svn.sourceforge.net/svnroot/ogce/GTLAB • SourceForge also supports tar.gz downloads • Tagged release in http://ogce.svn.sourceforge.net/viewvc/ogce/tags/ • Run “mvn clean install” in GTLAB directory. • Download includes a web server. • Start with “./startup.sh”, go to http://localhost:8080/GTLAB
What’s New with GTLAB? • Completely revised dependency graph processing. • Removed dependence on COG graph processing (still use the COG) • We can now support graphs of any tag you care to write. • Only support pipelines currently, not full DAGs • Redesigned to simplify writing new tags. • Extensive use of factories. • You no longer have to change core code to add a tag • Simplified process of creating new tags • 4 Java files and 3 XML config files • Now can be done in one (mvn) step • Many new tags
Levels of Abstraction in GTLAB code • Note JSF is compatible with JSP, so you can mix and match. • And you can embed JavaScript • YUI, Scriptaculous user interface goodies. • Google and Facebook APIs.
These will work as gadgets, portlets, or standalone applications
GTLAB gadgets can also run as portlets with no code changes by using the JSF portlet bridge. iGoogle Client Aggregator Tomcat Web Server + Portlet Container Tomcat Web Server Compile and deploy into server GTLAB Portlets Code Base GTLAB Gadgets Code Base Decorate with bridge and container jars, xml config files.
Making GTLAB Google Gadgets • A Gadget is a standalone application that is integrated into your personal iGoogle display. • They can run on your Web server. • You can use SSL/HTTPS • Google Gadgets have two versions • http: these use Google’s JavaScript APIs • url: these wrap external applications with IFrames. • Limitations: • Not much real estate (but location, location, location) • Cookies manage state on gadgets from the same server but we need a way to integrate multiple independent servers.
Example Gadget Config File <?xml version="1.0" encoding="UTF-8" ?> <Module> <ModulePrefs title="MyProxy Gadget Example" scrolling="true" height="500"/> <Content type="url" href="http://…/:8080/GTLAB/examples/MyProxyExample.jsf"> </Content> </Module> Save this as MyProxy.xml and place in a Web accessible place.
Gadget containers aggregate content from multiple providers. Content is aggregated on the client by the user. Nearly any web application can be a simple gadget (as Iframes) Other Gadgets Providers Tomcat + GTLAB Gadgets Other Gadgets Providers RSS Feed, Cloud, etc Services Grid and Web Services (TeraGrid, OSG, etc) Social Network Services (Orkut, LinkedIn,etc)
Click “Add stuff” and then “Add feed or gadget”. Type the URL of your gadget.
GTLAB Applications as Google Gadgets: MOAB dashboard, remote directory browser, and proxy management.
Making GTLAB Gadgets into Portlets • Do all development in jsf_standalone. • When you are ready to convert: • cd GTLAB/transition • mvn clean process-resources • cd GTLAB/portlets • mvn clean install • You will need to manually edit portlet.xml, group.xml, and layout.xml in GTLAB/portlet/src/main/webapp/WEB-INF/ • That’s it.
Common science gateway architecture. Aggregation is in the portlet container. Users have limited selections of components. HTML/HTTP Tomcat + Portlets and Container SOAP/HTTP Grid and Web Services (TeraGrid, OSG, etc) Grid and Web Services (TeraGrid, OSG, etc) Grid and Web Services (TeraGrid, OSG, etc)
Various GTLAB applications deployed as portlets: Remote directory browsing, proxy management, and LoadLeveler queues.
What’s next for GTLAB? • OpenID and RSS client support • Many other client libraries • Google, Facebook, Amazon • Support for more complicated graphs • JavaScript/AJAX actions as well as HTML FORM actions. • But really, we’re looking for interested developers and users.