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Microservices with Clojure

You're reading from   Microservices with Clojure Develop event-driven, scalable, and reactive microservices with real-time monitoring

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Product type Paperback
Published in Jan 2018
Publisher Packt
ISBN-13 9781788622240
Length 336 pages
Edition 1st Edition
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Author (1):
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Anuj Kumar Anuj Kumar
Author Profile Icon Anuj Kumar
Anuj Kumar
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Table of Contents (13) Chapters Close

Preface 1. Monolithic Versus Microservices 2. Microservices Architecture FREE CHAPTER 3. Microservices for Helping Hands Application 4. Development Environment 5. REST APIs for Microservices 6. Introduction to Pedestal 7. Achieving Immutability with Datomic 8. Building Microservices for Helping Hands 9. Configuring Microservices 10. Event-Driven Patterns for Microservices 11. Deploying and Monitoring Secured Microservices 12. Other Books You May Enjoy

Microservices

Microservices are a functional approach well applied to software. It tries to decompose the entire application functionally into a set of services that can be deployed and scaled independently. Each service does only one job and does it well. It has its own database, decides its own schema, and provides access to datasets and services through well-defined application programming interfaces that are better known as APIs, often paired with a user interface. APIs follow a set communication protocols, but services are free to choose their own technology stack and can be deployed on hardware of choice.

In a microservice environment, as shown in the preceding diagram, there are no layers like in monoliths; instead, each service is organized around a bounded context (https://en.wikipedia.org/wiki/Domain-driven_design#Bounded_context) that adds a business capability to the application as a whole. New capabilities in such an application are added as new services that are deployed and scaled independently. Each user request in a microservices-based application may call one or more internal microservice to retrieve data, process it, and generate the required response, as shown in the following diagram. Such software evolves faster and has low technology debt. They do not get married to a particular technology stack and can adopt a new technology faster:

Data management

In a microservices-based application, databases are isolated for each business capability and are managed by only one service at a time. Any request that needs access to the data managed by another service strictly uses the APIs provided by the service managing the database. This makes it possible to not only use the best database technology available to manage the business capability, but also to isolate the technology debt to the service managing it. However, it is recommended for the calling service to cache responses over time to avoid tight coupling with the target service and reduce the network overhead of each API call.

For example, a service managing user interests might use a graph database (https://en.wikipedia.org/wiki/Graph_database) to build a network of users, whereas a service managing user transactions might use a relational database (https://en.wikipedia.org/wiki/Relational_database) due to its inherent ACID (https://en.wikipedia.org/wiki/ACID) properties that are suitable for transactions. The dependent service only needs to know the APIs to connect to the service for data and not the technology of the underlying database.

This is contrary to a monolithic layered architecture, where databases are organized by business capability, which may be accessed by one or more persistence modules based on the request. If the underlying database is using a different technology, then each of the modules accessing the databases have to comply with the same technology, thus inheriting the complexity of each database technology that it has access to.

Database isolation should be done at the database level and not at the database technology level. Avoid deploying multiple instances of the same relational database or graph database as much as possible. Instead, try to scale them on demand and use the isolation capability of these systems to maintain separate databases within them for each service.

The concept of microservices is very similar to a well-known architecture called service-oriented architecture (SOA) (https://en.wikipedia.org/wiki/Service-oriented_architecture). In microservices, the focus is on identifying the right bounded context and keeping the microservices as lightweight as possible. Instead of using a complex message-oriented middleware (https://en.wikipedia.org/wiki/Message-oriented_middleware) such as ESB (https://en.wikipedia.org/wiki/Enterprise_service_bus), a simple mode of communication is used that is often just HTTP.

"Architectural Style [of Microservices] is referred to as fine-grained SOA, perhaps service orientation done right"

- Martin Fowler on microservices

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