MDS-2.1 and Futures

1. MDS-2.1 and Futures Karl Czajkowski Information Sciences Institute University of Southern California

2. Talk Outline • Introduction • Problem, history, etc. • MDS-2 Architecture • Protocols • Features, services • MDS-2.1 Software • Technology map • Information Model • Additional background

3. Resource Discovery/Monitoring R ? R R ? R R R R R R partioned network dispersed users R ? ? R R R R R R R R R R • Distributed users and resources • Variable resource status • Variable grouping and connectivity VO-A VO-B

4. Basic Grid Acquisition Phases • Resource Discovery • “What resources are relevant?” • Bootstraps planner state • Resource Status Query • “How do resources compare (now)?” • Refines planner knowledge • Resource Control • “Did I acquire the resources?” • Not an information service task!

5. MDS History • MDS-1 (classic) • Centralized database • Globus 1.1.2 and earlier • Did not scale • MDS-2 • Distributed services • MDS 2.0 in Globus 1.1.3 • New MDS 2.1 development in alpha release

6. Base Features • Virtual Organizations (Vos) • Group together resources • Support community-specific “discovery” • Specialized “views” • Scalability • Many resources • Many Vos • Graceful degradation of service

7. Virtual Organizations • Collaborating individuals and institutions • Shared goals • Enable sharing of resources • Non-locality of participants • Dynamic in nature • VOs come and go • Resources joing and leave Vos • Resource change status and fail • Community-wide goals

8. Scalability • Large numbers • Many resources • Many users • Independence • Resources shouldn’t affect one another • Vos shouldn’t affect one another • Graceful degradation of service • “As much function as possible” • Tolerate partitions, prune failures

9. New MDS-2.1 Features • Security • GSI mutual-authentication • Fine-grained access control by GSI name • Performance • Better query speeds • Less stale information • Extensibility • Convenience

10. Service Hierarchy VO-specific AggDirs discovery (GRIP?) ? A A lookup (GRIP) registration (GRRP) R R R R standard ResDesc services • Resource Description via Info. Protocol (GRIP) • Co-located with resource on network • Aggregate Directories (via GRIP or other) • Can be made hierarchical • Dynamic Registration via Reg. Protocol (GRRP)

11. R R R R R R R R R R R R R R R registration R fault-partition messages R R R R R R R R R R R R R R R R R R replicated directories divergent directories VO-A VO-B Distributed Services D D D D • Service scales with Grid growth • Loose consistency model tolerates failures • Interoperability by protocols

12. Soft-state Registration • Periodic notification • Service/resource is available • Expected-frequency metadata • Automatic extension • Add new resources to directories • Invite resource to join new directory • Self-cleaning • Reduce occurrence of “dead” references

13. MDS-2 Implementation • Grid Resource Information Service (GRIS) • Provides resource description • Modular content gateway • Grid Index Information Service (GIIS) • Provides aggregate directory • Hierarchical groups of resources • Lightweight Dir. Access Protocol (LDAP) • Standard with many client implementations • Used for GRIP (and GRRP currently)

14. MDS-2.1 Development Activities • Incorporating external advances • New OpenLDAP 2.0.x code-base • Cyrus-SASL/GSI security integration • Leveraging new Globus packaging model • Improving internal components • Better query servicing • New configuration/policy support • Invitation (reverse registration)

15. MDS-2.1 External Software Stack • OpenLDAP 2.0.x (.11) • Implements LDAPv3 protocol • Client and server components • Cyrus-SASL • Generic security • We provide loadable SASL/GSI plugin • Globus GSI (repackaged) • Provides GSS-API interface to PKI • Loadable module works with SASL plugin

16. MDS 2.1 Security • PKI authentication • Static authorization • Class, attribute, object name rules • “Self” authorization • Semi-dynamic rule • Requires “owner” attribute on objects • Dynamic authorization • Directory-based group lists (or future CAS) • Per-object access rule attributes

17. MDS-2.1 Internal Software • Wrappers/tools • Simplify typical idioms • Modular GRIS providers • Probe/query resource status • Generates LDIF-format data • LDAP server “backend” modules • GRIS provider dispatch/caching • GIIS implementation(s)

18. MDS-2.1alpha GRIS Providers • globus-software reports Globus packages • grid-info-host reports host OS info • grid-info-host-interfaces reports NICs • grid-info-host-load reports host load • grid-info-host-filesystem reports disks • globus-gram-reporter reports jobs

19. GRIS Dispatch Tests • Concurrent dispatch for each provider: • Could search intersect provider? No, then stop. • Is provider cache stale? Yes, then refill. • Apply search filter to cache data. • Combine all providers’ results

20. MDS-2.1 GRIS Configuration dn: sw=Globus, hn=${GLOBUS_HOSTNAME}, ${GRID_INFO_ ORGANIZATION_DN} objectclass: GlobusTop objectclass: GlobusActiveObject objectclass: GlobusActiveSearch type: exec path: /opt/globus-mds/bin base: globus-version args: -ldif cachetime: 950400 timelimit: 10 sizelimit: 1 …

21. GRIS Configuration cont’d dn: hn=${GLOBUS_HOSTNAME},{GRID_INFO_ORGANIZ ATION_DN} objectclass: GlobusTop objectclass: GlobusActiveObject objectclass: GlobusActiveSearch type: exec path: /opt/globus-mds/libexec base: globus-gram-reporter args: -f /opt/globus-mds/etc/globus-gram-rep orter.conf -onetime cachetime: 30 timelimit: 10 sizelimit: 20 …

22. Hierarchical GIIS • Maintain set of remote services • Track incoming live registrations • GRIS or GIIS registrants • Cached proxy results (now), or • Same cache logic as GRIS • Refill cache with “chaining” queries • LDAPv3 referral results (planned) • Do not maintain any local info cache • Redirect clients to active registrants

23. Extensible GIIS Framework • Modular registration actions • Re-use registration protocol decoding • Specialize directory update • e.g. prefetch indexable data • Modular query actions • Re-use query protocol decoding • Specialize query handler algorithm • e.g. utilize precomputed indices

24. MDS-LDAP Data Model name dn: hn=hostX types objectclass: computer values system: mips irix dn: queue=default, hn=hostX dn: perf=load5, hn=hostX dn: store=scratch, hn=hostX objectclass: service objectclass: perf objectclass: storage objectclass: queue objectclass: loadaverage objectclass: raidstore • Info named within service • Info tagged with content type name(s) • Values associated with typed attributes url: gram://hostname/default period: 10 free: 33515 MB dispatchtype: immediate load5: 3.2 raidmode: stripe

25. MDS-LDAP Query Model • Search scoping • Search rooted in namespace • Search depth of “root,” “root’s children,” or “root’s subtree” • Search filter • Value or type comparison • Logical combinations of filters • Namespace represents concept space

26. Namespace Management host: hn=R1, O=O1 AggDir host: hn=R2, O=O1 host: hn=R3, O=O1 host: hn=R1, O=O2 host: hn=R2, O=O2 host: hn=R1 O1 O2 R1 host: hn=R1 host: hn=R1 AggDir AggDir host host: hn=R2 host: hn=R2 host: hn=R3 R1 R2 R3 R1 R2 ResDesc • Info is named uniquely within a service • Append “source name” to disambiguate locally, or use URLs to refer to remote info host host host host host

27. More Information • Questions? • HPDC-10 Paper (to appear August 2001) • “Grid Information Services for Distributed Resource Sharing” • MDS-2.1 Alpha Website • http://www.globus.org/mds2-alpha • Early access to development code