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PostgreSQL 9 High Availability Cookbook

You're reading from   PostgreSQL 9 High Availability Cookbook Over 100 recipes to design and implement a highly available server with the advanced features of PostgreSQL.

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Product type Paperback
Published in Jul 2014
Publisher Packt
ISBN-13 9781849516969
Length 398 pages
Edition 1st 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. Advanced Stack 9. Cluster Control 10. Data Distribution Index

Protecting your eggs

Did we suggest that having several servers was serious? We lied. The place where our servers live, the data center, also has several redundancies in place. Extra network lines, separate power sources, multiple generators, air conditioning and ventilation, everything a server can require.

Yet, some have joked that a common backhoe is the natural enemy of the Internet. There is more truth to that statement than its apparent lack of gravitas might suggest. Data centers are geographically insecure. Inclement weather, natural disasters, disrupted backbones, power outages, and of course, accidentally damaged trunk lines (from an errant backhoe?), and simple human-error can all remove a data center from the grid. When a data center vanishes from the Internet, our servers become collateral damage.

However, we've done everything right! We have duplicates of everything, multiple parts, cables, even whole servers. What can we possibly do about the data center?

Well, it's complicated...

Getting ready

For this section, we will need a list of every database server in our proposed architecture, and the desired role for each.

How to do it...

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

  1. For every critical OLTP operating pair, allocate at least one standby.
  2. For every two online standby replicas, consider at least one standby.
  3. For every other database instance, allocate one standby.

How it works...

This type of scenario is known as Disaster Recovery. In order to truly diffuse a data center outage, we need backups of every major database server, and even minor servers. The reasoning is simple: we don't know how long we have to operate at reduced capacity. At that point, even non-critical reporting services still need analogs, otherwise business decisions that depend on activity analysis may not be possible.

We only really need half the amount of database servers, as most disaster recovery scenarios are severe enough for raised alertness, reduced refresh times, manually extended queue timeouts, and more. Not only is this less expensive than having a copy of every server as the primary data center, but it also encourages closer monitoring until it can be restored. Larger companies can opt for complete parity between data centers, but this is not a requirement.

As DBAs, our scenario often resembles this:

How it works...

Notice that we didn't make any reservations for QA or development database servers. In the case of a disaster, the primary concern is ensuring the continued availability of the application platform. Further development or testing is likely on hold for the duration of the outage in any case.

There's more...

We cannot stress the importance of this section strongly enough. Some may consider an entire extra data center as optional due to the cost. It is not. Others may think a total of three servers for every primary system is too much maintenance overhead. Again, it is not. The price of a few servers must be weighed against the future of the company itself; it is the cost of admission into the world of high availability.

By the time we begin utilizing failover nodes, or any replicas in a separate data center, the damage has already been done. In the absence of these resources, a database crash can result in hours or even days of unavailability depending on the size of our database, exponentially compounding the effects of the original problem.

With this in mind, all critical production systems the author designs always have a minimum of four nodes: two mirrored production systems, and two mirrored disaster recovery analogs. This ensures even the disaster recovery system is online with one node while the other node is experiencing maintenance. Outages are unexpected, and we must always be prepared for them.

You have been reading a chapter from
PostgreSQL 9 High Availability Cookbook
Published in: Jul 2014
Publisher: Packt
ISBN-13: 9781849516969
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