Disaster Recovery for Big Data by Carlos Izquierdo at Big Data Spain 2017

Transcript

1. None

2. Disaster Recovery for Big Data

3. About us  We are nerds!  Started working in

   Big Data for international companies  Founded a start-up a few years ago:  With colleagues working in related technical areas  And who also knew business stuff!  We’ve been participating in different Big Data projects

4. Introduction “I already have HDFS replication and High Availability in

   my services, why would I need Disaster Recovery (or backup)?”

5. Concepts  High Availability (HA)  Protects from failing components:

   disks, servers, network  Is generally a “systems” issue  Redundant, doubles components  Generally has strict network requirements  Fully automated, immediate

6. Concepts  Backup  Allows you to go back to

   a previous state in time: daily, monthly, etc.  It is a “data” issue  Protects from accidental deletion or modification  Also used to check for unwanted modifications  Takes some time to restore

7. Concepts  Disaster Recovery  Allows you to work elsewhere

    It is a “business” issue  Covers you from: main site failures such as electric power or network outages, fires, floods or building damage  Similar to having insurance  Medium time to be back online

8. The ideal Disaster Recovery  High Availability for datacenters 

   Exact duplicate of the main site  Seamless operation (no changes required)  Same performance  Same data  This is often very expensive and sometimes downright impossible

9. DR considerations  So, can we build a cheap(ish) DR?

    We must evaluate some tradeoffs:  What’s the cost of the service not being available? (Murphy’s Law: accidents will happen when you are busiest)  Is all information equally important? Can we lose a small amount of data?  Can we wait until we recover certain data from backup?  Can I find other uses for the DR site?

10. DR considerations  Near or far?  Availability  Latency

     Legal considerations

11. DR considerations  Synchronous vs Asynchronous  Synchronous replication requires

    a FAST connection  Synchronous works at transaction level and is necessary for operational systems  Asynchronous replication converges over time  Asynchronous is not affected by delays nor does it create them

12. Big Data DR  Can’t generally be copied synchronously 

    No VM replication  Other DR rules apply:  Since it impacts users, someone is in charge of the “starting gun”  DNS and network changes to point clients  Main types:  Storage replication  Dual ingestion

13. Storage replication  Similar to non-Big Data solutions, where central

    storage is replicated  Generally implemented using distcp and HDFS snapshots  Data is ingested in source cluster and then copied

14. Storage replication  Administrative overhead:  Copy jobs must be

    scheduled  Metadata changes must be tracked  Good enough for data that comes traditional ETLs such as daily batches

15. Dual Ingestion  No files, just streams  Generally ingested

    from multiple outside sources through Kafka  Streams must be directed to both sites

16. Dual Ingestion  Adds complexity to apps  Nifi can

    be set up as a front-end to both endpoints  Data consistency must be checked  Can be automatically set up via monitoring  Consolidation processes (such as a monthly re-sync) might be needed

17. Others  Ingestion replication  Variant of the dual ingestion

     A consumer is set up in the source Kafka that in turn writes to a destination Kafka  Bottleneck if the initial streams were generated by many producers  Mixed:  Previous solutions are not mutually exclusive  Storage replication for batch processes’ results  Dual ingestion for streams

18. Commercial offerings  Solutions that ease DR setup  Cloudera

    BDR  Coordinates HDFS snapshots and copy  WANdisco Fusion  Continuous storage replication  Confluent Multi-site  Allows multi-site Kafka data replication

19. Tips  Big Data clusters have many nodes  Costly

    to replicate  Performance / Capacity tradeoff  We can use cheaper servers in DR, since we don’t expect to use them often

20. Tips  Document and test procedures  DR is rarely

    fully automated, so responsibilities and actions should be clearly defined  Plan for (at least) a yearly DR run  Track changes in software and configuration

21. Tips  Once you have a DR solution, other uses

    will surface  DR site can be used for backup  Maintain HDFS snapshots  DR data can be used for testing / reporting  Warning: it may alter stored data

22. Conclusions  Balance HA / Backup / DR as needed,

    they are not exclusive:  Different costs  Different impact  Big Data DR is different:  Dedicated hardware  No VMs, no storage cabin  Plan for DATA CENTRIC solutions

23. Questions