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PostgreSQL High Availability Cookbook

You're reading from   PostgreSQL High Availability Cookbook Managing a reliable PostgreSQL database

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Product type Paperback
Published in Feb 2017
Publisher Packt
ISBN-13 9781787125537
Length 536 pages
Edition 2nd Edition
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Author (1):
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Shaun Thomas Shaun Thomas
Author Profile Icon Shaun Thomas
Shaun Thomas
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Table of Contents (12) Chapters Close

Preface 1. Hardware Planning FREE CHAPTER 2. Handling and Avoiding Downtime 3. Pooling Resources 4. Troubleshooting 5. Monitoring 6. Replication 7. Replication Management Tools 8. Simple Stack 9. Advanced Stack 10. Cluster Control 11. Data Distribution

Tallying up

Now it's time to get serious. For several pages, we have discussed all the components that go into a stable server, and have strongly suggested obtaining multiple spares for each. Well, that applies to the server itself. Not only does this mean having a spare idle server in case of a catastrophic failure, but it means having an online server as well.

Determining how many excess servers we should have isn't quite that simple, but it's fairly close. This is where the project starts to get expensive, but high availability is never cheap; the company itself might depend on it.

Getting ready

For this, we want to consider the overall state of the application architecture. The database doesn't exist in a vacuum. Work with the system and application teams to get an idea of the other servers that depend on the database.

How to do it...

This won't be a very long list. In any case, follow these steps:

  1. For every critical OLTP system, allocate one online replica.
  2. For each two non-cached applications or web servers, consider one online replica.
  3. For each 10 cached applications or web servers, consider one online replica.
  4. For every stage or QA database server analog, allocate one spare server.

How it works...

OLTP systems, by their very nature, produce a very high transactional volume. Any disruption to this volume is extremely visible and costly. A primary goal with running a highly-available service, such as a database, is to minimize downtime. So for any database instance that is a critical component, there should be a copy of the server configured in such a manner that near-immediate promotion to production status is possible.

Any server that needs direct access to the database, whether it be a queue system, application server, or web frontend, is sensitive to database overload. One way of diffusing this risk is to set up one database copy for every two to four directly-connected servers. These copies are only usable for reads and not writes, but a properly designed application can accommodate this limitation. Not only does this reduce contention on the database instance that must handle data writes, it all but eliminates the likelihood of one misbehaving query from taking down the entire constellation of client-visible services.

When a sophisticated cache is involved, the risk to the frontend is greatly reduced. Properly designed, a failed read from the database can default to a cached copy until reads can be re-established. This means we can subsist on fewer database replicas. If the application does not provide that kind of cache, our job as database advocate becomes one of working with appropriate technical leads until such a cache is established.

The extra QA resource may seem excessive at first, but it has a very important role. While the testing teams may never touch the spare server, we can use it in their stead. We can never safely configure a production system for online failover without first testing that configuration on two similarly equipped systems. To do otherwise risks failure of the automatic activation of alternate production servers, which is a de facto outage. Database migrations, upgrades, resynchronization, backup restores, all of these can be tested in the QA environment before they are needed for production use. Without a second server, none of this would be possible.

There's more...

We have brought this up as a tip before, but this deserves special attention. PostgreSQL 9.2 and above now has the capability to stream replicated data from one database standby to another. Even with 10 GbE network cards, there is a limit to the amount of data our master server can or should transmit before its role is put at risk.

While there is still a limit to the number of replicas, we can maintain with this new functionality, overall traffic-and therefore risk-is mitigated. If our database is stuck on a version before 9.2, we may never realize these new benefits. At the time of writing, PostgreSQL 9.6 is the latest release, and 10.0 is well underway. A crafty DBA can encourage the company to adopt a forward stance regarding upgrades by providing an upgrade proposal, procedural checklist, and deployment integration tests.

Now that pg_upgrade is a standard part of PostgreSQL, producing a robust upgrade plan and associated compatibility tests is much easier than in the past. By pushing for upgrades early, we can use new features such as cascading replication, and with PostgreSQL, that can heavily influence our resulting architecture. Consider this when choosing your hardware.

You have been reading a chapter from
PostgreSQL High Availability Cookbook - Second Edition
Published in: Feb 2017
Publisher: Packt
ISBN-13: 9781787125537
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