Choosing Disaster Recovery Solution for Database Systems

1. Choosing Disaster Recovery Solution for Database Systems EECS711 : Security Management and Audit Spring 2010 Presenter : Amit Dandekar Instructor : Dr. Hossein Saiedian

2. Contents • Database failures types • Availability solutions • Availability mechanisms • Recovery procedures • Conclusion

3. Failure types • Database failure types • Transient • Crash • Media • Site • Operator • Malicious Least Severe Most Severe

4. Failure types Others Natural disaster 3% 6% 30% Hardware related Power failure 16% DBMS related 20% 25% Human error Source: Forrester Research, Inc.

5. Availability solutions • Two categories of availability solutions • Sporadic un-availability of database • Mission critical systems • Online transaction processing systems • Complete un-availability of database • Data warehouse • Decision support systems

6. Availability solutions • Protect against sporadic unavailability • Used to guard against sporadic outages • Implementation may be co-located • Geographically distributed to protect against site failure • Recovery time is expected to be within minutes or less • Recovery point is within minutes or immediate • More complicated to deploy and expensive • Expensive

7. Availability solutions • Protect against complete unavailability • Used to guard against disasters • Geographically distributed implementation • Recovery times within hours or days • Recovery point may be within hours or days • Relatively less complicated to deploy • Less expensive

8. Availability mechanisms • Data synchronization • Online synchronization • Primary and secondary are always synchronized • Allows immediate primary takeover • Comes with communication and performance overhead Offline synchronization • Offline synchronization • Synchronization performed when no active transactions occurring • Typically backup site synced periodically • May lose updates in case of disaster

9. Availability mechanisms • Data replication • Active replication • Data is transferred and processed • Can share workload with primary site • Secondary should have enough processing power • Passive replication • Data is transferred and stored without processing • Typically use Redundant Array of Disks (RAID) • Guards against media failure • Remote mirror required to recover from site failure

10. Popular availability solutions Others 5% Mirroring and replication 20% 40% Backup tapes Log shipping 35% Source: Forrester Research, Inc.

11. Disaster recovery procedure • Recovery when using active replication or online synchronization • Hot site is made the primary site by system admin • Automated fail-over may treat transient failures as disasters • Recovery time can be as short as few minutes

12. Disaster recovery procedure • Three common disaster recovery approaches when using off-line or passive mechanisms • Sledgehammer • Rebuild entire database from scratch • Off-line approach for non-critical, non-volatile data • Behind the back copying • Copy and rebuild table spaces and index datasets • Scalpel • Performs restoration of data at granular level • Restore one table at a time in order of priority

13. Conclusion • Evaluate and identify your database availability requirements • Protect against sporadic un-availability • Protect against complete unavailability • Choose appropriate availability mechanism as disaster recovery technique • Active replication or online synchronization • Passive replication or offline synchronization

14. References Choy, Manhoi, Hong Va Leong, and Man Hon Wong. "Disaster recovery techniques for database systems." Commun. ACM 43.11es (2000): 272-280. Yuhanna, Noel. "ForrTel: Making Your Enterprise Database Highly Available." Forrester Research. Forrester Research, Web. 19 Feb. 2010. <www.forrester.com/Events/Content/0,5180,1131,00.ppt>