Infrastructure as Code Concepts: Difference between revisions
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* '''Avoid snowflake systems'''. A snowflake is a system or a part of a system that is difficult to rebuild. This happens when people make change to one instance of a system that they don't make to others, and the knowledge how to get in into the current state is lost. As consequence, people avoid making changes, leaving it out of date, unpatched or even partially broken. | * '''Avoid snowflake systems'''. A snowflake is a system or a part of a system that is difficult to rebuild. This happens when people make change to one instance of a system that they don't make to others, and the knowledge how to get in into the current state is lost. As consequence, people avoid making changes, leaving it out of date, unpatched or even partially broken. | ||
* '''Create disposable instances''' that are easy to discard and replace. | * '''Create disposable instances''' that are easy to discard and replace. | ||
* '''Minimize variation'''. More similar the things are, the easier to manage. Aim for your system to have as few '''types of pieces''' as possible. | |||
=Core Practices= | =Core Practices= |
Revision as of 06:38, 30 December 2021
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Overview
Infrastructure is not something you build and forget, in requires constant change: fixing, updating and improving. Infrastructure as Code is a set of technology and engineering practices aimed at delivering change more frequently (or, some would say continuously), quickly and reliably, while improving the overall quality of the system at the same time. Trading speed for quality is a false dichotomy. Used correctly, Infrastructure as Code embeds speed, quality, reliability and compliance into the process of making changes. Changing infrastructure becomes safer. Infrastructure as Code is based on practices from software development, especially test driven development, continuous integration and continuous delivery.
The capability to make changes frequently and reliably is correlated with organizational success. Organizations can't choose between being good at change or being good at stability. They tend to either be good at both or bad at both. (Accelerate by Dr. Nicole Forsgren, Jez Humble and Gene Kim). Changes include adding new services, such as a new database, upgrades, increase of resources to keep up with load, change and tune underlying application runtimes for diagnosis and performance reasons, security patches. Stability comes from the capability of making changes fast and easy: unpatched systems are not stable, they are vulnerable. If you can't fix issues as soon as you discover them, the system is not stable. If you can't recovery from failure quickly, the system is not stable. If the changes you make involve considerable downtime, the system is not stable. If changes frequently fail, the system is not stable. Infrastructure as Code practices help teams perform well against the operational metrics described here.
Automating an existing system is hard. Automation, including automated testing and delivery, should be part of the system's design and implementation, it should evolve organically with the system. You should build the system incrementally, automating as you go.
A few principles to follow when writing infrastructure code:
- Assume systems are unreliable. Cloud platforms run on cheap commodity hardware. Even if they're not, at the scale they run failure happens even when using reliable hardware. This is why the infrastructure platform, and application need to build reliability into software. You must design for uninterrupted service when the underlying resources change.
- Make everything reproducible automatically, without the need on-the-spot decisions about how to build things. Everything should be defined as code: topology, dependencies, configuration. Rebuilding should be a simple "yes/no" decision and running a pipeline instance. Ensuring state continuity takes special care.
- Avoid snowflake systems. A snowflake is a system or a part of a system that is difficult to rebuild. This happens when people make change to one instance of a system that they don't make to others, and the knowledge how to get in into the current state is lost. As consequence, people avoid making changes, leaving it out of date, unpatched or even partially broken.
- Create disposable instances that are easy to discard and replace.
- Minimize variation. More similar the things are, the easier to manage. Aim for your system to have as few types of pieces as possible.
Core Practices
Define Everything as Code
Code can be versioned and compared, it can benefit from lessons learned in software design patterns, principles and techniques such as test driven development, continuous integration, continuous delivery or refactoring.
Once a piece of infrastructure has been defined as code, many identically or slightly different instances of it can be created automatically by tools, automatically tested and deployed. Instances built by tools are built the same way every time, which makes the behavior of the system predictable. Moreover, everyone can see how the infrastructure has been defined by reviewing the code. Structure and configuration can be automatically audited for compliance.
If more people work on the same piece of infrastructure, the changes can be continuously integrated and then continuously tested and delivered, as described in the next section.
Continuously Test and Deliver
Continuously test and deliver all work in progress. Continuously testing small pieces encourages a modular, loosely coupled design. It also helps you find problems sooner, then quickly iterate, fix and rebuild the problematic code, which yields better infrastructure. This is referred to as "building quality in" rather than "testing quality in".
Build Small, Simple, Loosely Coupled Pieces that Can Be Changed Independently
The larger and tightly coupled a system is, the harder it is to change, and the easier it is to break. The alternative is to compose a system from small, simple pieces. Each piece has clearly defined interfaces and it is easy to understand. The component can be tested and deployed in isolation. Microservices fall into this category.
Stack
Collection of infrastructure resources provisioned from cloud platforms.