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PostgreSQL 12 High Availability Cookbook

You're reading from   PostgreSQL 12 High Availability Cookbook Over 100 recipes to design a highly available server with the advanced features of PostgreSQL 12

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Product type Paperback
Published in Feb 2020
Publisher Packt
ISBN-13 9781838984854
Length 734 pages
Edition 3rd Edition
Languages
Concepts
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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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Toc

Table of Contents (17) Chapters Close

Preface 1. Architectural Considerations 2. Hardware Planning FREE CHAPTER 3. Minimizing Downtime 4. Proxy and Pooling Resources 5. Troubleshooting 6. Monitoring 7. PostgreSQL Replication 8. Backup Management 9. High Availability with repmgr 10. High Availability with Patroni 11. Low-Level Server Mirroring 12. High Availability via Pacemaker 13. High Availability with Multi-Master Replication 14. Data Distribution 15. Zero-downtime Upgrades 16. Other Books You May Enjoy

Architectural Considerations

In many ways, database server architecture is treated as a mere afterthought. It's often much easier to simply create a single node, install some software, and consider the whole affair resolved. If a company is particularly paranoid, they may even spare some thought for a replica server, or perhaps some kind of backup.

The true importance of database cluster architecture is easily overlooked as a result. But what is server architecture? Why does it matter?

Look down the street. Any street is fine. What do you see? Homes, offices, and buildings of various descriptions. With very rare exceptions, each one of these was meticulously planned, from the foundation to the walls to the electrical wires, pipes, up to the roof and drainage systems. A failure in any of these components could lead to the ultimate demise of the entire structure, given enough time.

The same also applies to a PostgreSQL cluster! Database architecture defines what goes into a database server cluster, and the reason for each element. How does it communicate? How many nodes are required? Where do we put those nodes, and why? What common problems are inherent in those decisions? How will our decisions influence the underlying cost? What trade-offs can we make, given some important constraints? How does all of this affect data availability? We need those answers before we even consider hardware or virtualization. There are many important considerations we must entertain when designing a highly available PostgreSQL cluster.

Why then is it so common for critical application and user data that drives the entire application stack behind the company itself to be treated so callously? We direct so much attention and focus on the application, with its various layers of indirection, queues, caches, container automation, and microarchitecture, that the data layer is overlooked or considered a nuisance.

This is actually highly understandable. In most cases, a PostgreSQL database layer demands an entirely different approach that development, system administration, and other information technology fields may not be entirely familiar with managing. Even experienced database administrators may not comprehend the scale and necessary theoretical concepts that drive the high availability of databases.

While we can't reduce the subtle art of database server architecture to a few memorable quips sure to entertain at parties, we can make the subject far more approachable. It shouldn't be necessary to have a Ph.D. in abstract theoretical frameworks to prevent a costly database outage.

In this chapter, we will learn how the layout of the nodes in our PostgreSQL cluster can drastically influence its availability. We will cover the following recipes:

  • Setting expectations with RPO
  • Defining timetables through RTO
  • Picking redundant copies
  • Selecting locations
  • Having enough backups
  • Considering quorum
  • Introducing indirection
  • Preventing split brain
  • Incorporating multi-master
  • Leveraging multi-master
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