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Microservice Patterns and Best Practices

You're reading from   Microservice Patterns and Best Practices Explore patterns like CQRS and event sourcing to create scalable, maintainable, and testable microservices

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Product type Paperback
Published in Jan 2018
Publisher Packt
ISBN-13 9781788474030
Length 366 pages
Edition 1st Edition
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Author (1):
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Vinicius Feitosa Pacheco Vinicius Feitosa Pacheco
Author Profile Icon Vinicius Feitosa Pacheco
Vinicius Feitosa Pacheco
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Table of Contents (15) Chapters Close

Preface 1. Understanding the Microservices Concepts FREE CHAPTER 2. The Microservice Tools 3. Internal Patterns 4. Microservice Ecosystem 5. Shared Data Microservice Design Pattern 6. Aggregator Microservice Design Pattern 7. Proxy Microservice Design Pattern 8. Chained Microservice Design Pattern 9. Branch Microservice Design Pattern 10. Asynchronous Messaging Microservice 11. Microservices Working Together 12. Testing Microservices 13. Monitoring Security and Deployment 14. Other Books You May Enjoy

Light weight communication

In monolithic systems, many projects fail to be successful in the move to microservices architecture just because of problems in the communication layer. Of course, when we talk about containers, distributed applications, and business domain partitioning, some terms may amaze you—these terms are latency and data translation.

Communication in a monolithic application is made up of internal components, such as methods, functions, attributes, and parameters. In this ecosystem, latency and data translation are irrelevant. In the world of microservices, they are topics that must be thoroughly analyzed.

There are two methods of communication between microservices:

  • Synchronous
  • Asynchronous

It is important to understand how each of these forms works. Let's see how:

One-to-One

One-to-Many

Synchronous

Request/response

-

Asynchronous

Notification

Publish/subscribe

Request/async response

Publish/async responses

 

Have a look at the preceding table; the type of communication adopted will vary according to the need of the domain. For direct and sequential systems, a synchronous communication approach may be more appropriate. In the case of tasks that do not need an immediate response, the asynchronous approach can be the most appropriate.

Synchronous

When it comes to the communication layer between microservices, synchronous is certainly the most widely used approach. Within this topic, some protocols are well known and others less so. The range of direct protocols is as follows:

  • HTTP
  • TCP
  • WebSockets
  • Sockets
  • RPC
  • SOAP

Arguably, the most commonly implemented is HTTP. Many microservices use HTTP to communicate with each other, where as the HTTP is typically used with JSON.

The problem with this approach is that, with HTTP, JSON can generate an unwanted processing time to send and translate the information. Some teams that use JSON with HTTP only adopt the keep alive strategy for app-to-app communication and conventional connections to APIs.

When it comes to HTTP, API with JSON is practically normative. However, for internal communication between microservices, this is quite questionable. A good approach, in this case, considering problems of latency and data translation, is the use of binary traffic for communication between microservices.

There are some very interesting options for this approach: Avro, Protocol Buffer with CPRM, and Thrift are some examples. Another important point is that with binary we are not tied to any specific technology, and changing the communication interface with this technology is extremely simple.

Asynchronous

In some direct communications between microservices, timing may be important, but there are other times where the process can simply be asynchronous; there's no need for an immediate response or confirmation of success, all that is required is to simply run a task. For this approach, the message broker is just perfect.

Some software applications appear a good choice for message brokers, such as RabbitMQ, ActiveMQ, ZeroMQ, Kafka, and Redis. Each of these options has its own peculiarities, some are faster, others are more resilient. Again, the business setting is going to determine which technology is used.

You have been reading a chapter from
Microservice Patterns and Best Practices
Published in: Jan 2018
Publisher: Packt
ISBN-13: 9781788474030
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