As we have discussed in the previous chapters, one of the advantages of the microservice architecture is the capability to be able to scale independently. This will prove to be an excellent asset when we create an application that will use the benefits of cloud computing. In modern architectures, we are no longer attached to a static infrastructure. We deploy our microservices in a cloud, which gives the flexibility to have an optimal number of the instances of our microservices to match our needs, and we build Cloud-Native microservices to smoothly work on those clouds. We discussed this in Chapter 6, Create Cloud-Native Microservices. You may want to read it again as a refresher for some of the concepts used in this chapter. Having a Cloud-Native microservice requires having a cloud that allows us to manage how we can actually scale them, and how we can...
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Hands-On Microservices with Kotlin
By :
Hands-On Microservices with Kotlin
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Overview of this book
With Google's inclusion of first-class support for Kotlin in their Android
ecosystem, Kotlin's future as a mainstream language is assured. Microservices help
design scalable, easy-to-maintain web applications; Kotlin allows us to take
advantage of modern idioms to simplify our development and create high-quality
services. With 100% interoperability with the JVM, Kotlin makes working with
existing Java code easier. Well-known Java systems such as Spring, Jackson, and
Reactor have included Kotlin modules to exploit its language features.
This book guides the reader in designing and implementing services, and producing
production-ready, testable, lean code that's shorter and simpler than a traditional
Java implementation. Reap the benefits of using the reactive paradigm and take
advantage of non-blocking techniques to take your services to the next level in terms
of industry standards. You will consume NoSQL databases reactively to allow you
to create high-throughput microservices. Create cloud-native microservices that
can run on a wide range of cloud providers, and monitor them. You will create Docker
containers for your microservices and scale them. Finally, you will deploy your
microservices in OpenShift Online.
Table of Contents (14 chapters)
Preface
Free Chapter
Understanding Microservices
Getting Started with Spring Boot 2.0
Creating RESTful Services
Creating Reactive Microservices
Reactive Spring Data
Creating Cloud-Native Microservices
Creating Dockers
Scaling Microservices
Testing Spring Microservices
Monitoring Microservices
Deploying Microservices
Best Practices
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