Microservies-MSA

Springboot with Microservies

N-Tier and monolithic applications used to be the de facto standard. In one single binary web artifact, like an EAR or WAR file, there would be a layered architecture with the decomposition of code into more functional components.

• Presentation Layer

• Business Process Layer/Service Layer

• Data Access Layer

There are several disadvantages to the n-tier monolithic application architecture:

• Tight coupling of code which makes changes hard.

• A single deployment with multiple layers that causes long testing, building, and deployment cycles.

• A big monolithic application that makes code reuse and sharing of components difficult.

• The Microservices Architecture (MSA) decomposes systems into discrete, individual, standalone components that can communicate amongst themselves, working together or with external systems.

** MSA is a more agile framework that fits well with the cloud-based world and lends itself well to web application development and web service development.**

MSA Features:

• MSA is very flexible because it supports any language that can communicate via a RESTful endpoint and leverages REST over HTTP.

• MSA offers agility and systems that are easier to write, test, deploy, and share.

• MSA provides systems that can better scale to load and demand.

• MSA provides systems that are resilient because failures are isolated and don’t cascade through the infrastructure.

Eureka:

• Eureka, created by Netflix, is responsible for the registration and discovery microservices. Spring has incorporated Eureka into Spring Cloud, making it even easier to stand up a Eureka server.

• Eureka consists of a server and a client-side component. The server component will be the registry in which all the microservices register their availability. The microservices use the Eureka client to register; once the registration is complete, it notifies the server of its existence.

What make a microservice different from a normal RESTful service?

  A microservice must register itself with a discovery service

Eureka server to load:

pom.xml:

• spring cloud starter config

• spring cloud netfli eureka server

  javax.xml.bind jaxb-api 2.4.0-b180725.0427

application.properties:

spring.appliation.name=eurela-server
server.port=8761

#dont register itself as client

eureka.client.regiser-with-eureka = false
eureka.client.fetch-registry= false
logging.level.com.netflix.eureka=ON
logging.level.com.netflix.discovery = ON

Starter:

  @SpringBootApplication
  @EnableEurekaServer

login:

  https://localhost:8761

Eureka dashboard:

• system status
• current time -> uptime
• general Info -> total memory, enviroment, cpus
• DS replicas

*** instane currently registered with Eureka

Spring Data REST makes it easy to expose microservices.

Spring Data REST builds on top of Spring Data repositories and automatically exports those as REST resources.

So how does Spring Data Rest work?

• At application startup, Spring Data Rest finds all of the spring data repositories

• Then, Spring Data Rest creates an endpoint that matches the entity name

• Next, Spring Data Rest appends an S to the entity name in the endpoint

• Lastly, Spring Data Rest exposes CRUD (Create, Read, Update, and Delete) operations as RESTful APIs over HTTP

• There is no need to create a controller or service layer!

Item Service

Eureka client

pom.xml:

• spring data

• JPA Item Repository

• Spring DATA REST

• For a @SpringBootApplication to be discovery-aware, all that's needed is the Spring Discovery Client (i.e., spring-cloud-starter-netflix-eureka-client dependency) in the classpath.

• The next step is to annotate the main Spring application class with the @EnableEurekaClient annotation.

• @EnableEurekaClient is optional if the spring-cloud-starter-netflix-eureka-client dependency is on the classpath.

Topics:

* Kafka - <a href="https://github.com/sandysanthosh/Apache-Kafka"> Kafka </a>

* Devops - <a href="https://github.com/sandysanthosh/Devops"> [Devops](https://github.com/sandysanthosh/Devops) </a> 

* Gitlab - <a href="https://github.com/sandysanthosh/GitLab"> [Devops](https://github.com/sandysanthosh/GitLab) </a> https://github.com/sandysanthosh/GitLab

* Openshift red- <a href="https://github.com/sandysanthosh/OpenShift"> [Openshift](https://github.com/sandysanthosh/Openshift) </a> 

Microservices Spring Boot Guide


santhosh kumar
Microservices spring boot checklist 

Here's a checklist for developing microservices using Spring Boot:

Define Service Boundaries: Determine the scope of each service and identify their responsibilities.

Choose an appropriate data storage solution: Decide whether to use a relational database, NoSQL database, or a combination of both.

Implement Service Discovery: Decide on a service discovery mechanism, such as Netflix Eureka or Consul.

Use a Build Tool: Choose a build tool such as Maven or Gradle for building and packaging the application.

Define RESTful APIs: Design and implement RESTful APIs for communication between services.

Use a Configuration Management Tool: Decide on a configuration management tool, such as Spring Cloud Config, to manage configuration properties across all services.

Enable Load Balancing: Implement load balancing, either by using a reverse proxy, such as Nginx, or a service discovery tool.

Add Security: Implement security measures such as authentication, authorization, and encryption to secure communication between services.

Use a Monitoring Tool: Choose a monitoring tool, such as Spring Boot Actuator, to monitor the health and performance of the services.

Implement Resilience: Implement features such as circuit breakers, retries, and timeouts to make services more resilient.

Automate Deployments: Automate the deployment of services using continuous integration and continuous deployment (CI/CD) tools.

Use Logging: Implement logging to monitor and troubleshoot issues in the services.