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Building Serverless Microservices in Python

You're reading from   Building Serverless Microservices in Python A complete guide to building, testing, and deploying microservices using serverless computing on AWS

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Product type Paperback
Published in Mar 2019
Publisher Packt
ISBN-13 9781789535297
Length 168 pages
Edition 1st Edition
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Author (1):
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Richard Takashi Freeman Richard Takashi Freeman
Author Profile Icon Richard Takashi Freeman
Richard Takashi Freeman
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Table of Contents (8) Chapters Close

Preface 1. Serverless Microservices Architectures and Patterns FREE CHAPTER 2. Creating Your First Serverless Data API 3. Deploying Your Serverless Stack 4. Testing Your Serverless Microservice 5. Securing Your Microservice 6. Summary and Future Work 7. Other Books You May Enjoy

Overview of microservice integration patterns

In this section, we'll discuss design patterns, design principles, and how microservice architectural patterns relate to traditional microservice patterns and can be applied to serverless microservices. These topics will help you gain an overview of different integration patterns.

Design patterns

Patterns are reusable blueprints that are a solution to a similar problem others have faced, and that have widely been reviewed, tested, and deployed in various production environments.

Following them means that you will benefit from best practices and the wisdom of the technical crowd. You will also speak the same language as other developers or architects, which allows you to exchange your ideas much faster, integrate with other systems more easily, and run staff handovers more effectively.

Why are patterns useful?

Useful applications almost never exist in isolation. They are almost always integrated in a wider ecosystem, which is especially true for microservices. In other words, the integration specification and requirements need to be communicated and understood by other developers and architects.

When using patterns, you have a common language that is spoken among the technical crowds, allowing you to be understood. It's really about better collaborating, working with other people, exchanging ideas, and working out how to solve problems.

The main aim of patterns is to save you time and effort when implementing new services, as you have a standard terminology and blueprint to build something. In some cases, they help you avoid pitfalls as you can learn from others' experience and also apply the best practices, software, design patterns, and principles.

Software design patterns and principles

Your will probably be using object-oriented (OO) or functional programming in your microservices or Lambda code, so let's briefly talk about the patterns linked to them.

In OO programming, there are many best practice patterns or principles you can use when coding, such as GRASP or SOLID. I will not go into too much depth as it would take a whole book, but I would like to highlight some principles that are important for microservices:

  • SOLID: This has five principles. One example is the Single Responsibility Principle (SRP), where you define classes that each have a single responsibility and hence a single reason for change, reducing the size of the services and increasing their stability.
  • Package cohesion: For example, common closure-principle classes that change together belong together. So when a business rule changes, developers only need to change code in a small number of packages.
  • Package coupling: For example, the acyclic dependencies principle, which states that dependency graphs of packages or components should have no cycles.

Let's briefly go into some of the useful design patterns for microservice:

  • Creational patterns: For example, the factory method creates an instance of several derived classes.
  • Structural patterns: For example, the decorator adds additional responsibilities to an object dynamically.
  • Behavioral patterns: For example, the command pattern encapsulates a request as an object, making it easier to extract parameters, queuing, and logging of requests. Basically, you decouple the parameter that creates the command from the one that executes it.
  • Concurrency patterns: For example, the reactor object provides an asynchronous interface to resources that must be handled synchronously.

Depending on you coding experience, you may be familiar with these. If not, it's worth reading about them to improve you code readability, management, and stability, as well as your productivity. Here are some references where you can find out more:

  • SOLID Object-Oriented Design, Sandi Metz (2009)
  • Design Patterns: Elements of Reusable Object-Oriented Software, Erich Gamma, Richard Helm, Ralph Johnson, John Vlissides (1995)
  • Head First Design Patterns, Eric T Freeman, Elisabeth Robson, Bert Bates, Kathy Sierra (2004)
  • Agile Software Development, Principles, Patterns, and Practices, Robert C. Martin (2002)

Serverless microservices pattern categories

On top of the software design patterns and principles we just discussed are the microservices patterns. From my experience, there are many microservices patterns that I recommended that are relevant for serverless microservices, as shown in the following diagram:

I created this diagram to summarize and illustrate the serverless microservices patterns we will be discussing in this book:

  • Communication styles: How services communicate together and externally.
  • Decomposition pattern: Creating a service that is loosely coupled by business capability or bounded context.
  • Data management: Deals with local and shared data stores.
  • Queries and messaging: Looks at events and messages that are sent between microservices, and how services are queried efficiently.
  • Deployment: Where ideally we would like uniform and independent deployments, you also don't want developers to re-create a new pipeline for each bounded context or microservice.
  • Observability and discovery: Being able to understand whether a service is functioning correctly, monitor and log activity allow you to drill down if there are issues. You also want to know and monitor what is currently running for cost and maintenance reasons, for example.
  • Security: This is critical for compliance, data integrity, data availability, and potential financial damage. It's important to have different encryption, authentication, and authorization processes in place.

Next we will have a look at the communication styles and decomposition pattern first.

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Building Serverless Microservices in Python
Published in: Mar 2019
Publisher: Packt
ISBN-13: 9781789535297
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