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In my previous post “Introduction to Spring Boot”, we have discussed about Spring Boot basics. Now we will discuss about “What are the main components of Spring Boot” and “How Spring Boot works under-the-hood”.
Spring Boot Framework has mainly four major Components.
NOTE:- In addition to these four major components, there are two more Spring Boot components:
To quick start new Spring Boot projects, we can use “Spring Initializr” web interface. Spring Initializr URL: https://start.spring.io. We have many Spring Boot IDEs like Eclipse IDE, IntelliJ IDEA, Spring STS Suite etc. We will discuss these two components in coming posts. Now we will discuss these Spring Boot four components one by one in detail.
Spring Boot Starters is one of the major key features or components of Spring Boot Framework. The main responsibility of Spring Boot Starter is to combine a group of common or related dependencies into single dependencies. We will explore this statement in detail with one example. For instance, we would like to develop a Spring WebApplication with Tomcat WebServer. Then we need to add the following minimal jar dependencies in your Maven’s pom.xml file or Gradle’s build.gradle file
If we want to add some database stuff, then we need to add database related jars like Spring JDBC jar file, Spring ORM jar files,Spring Transaction Jar file etc.
We need to define lot of dependencies in our build files. It is very tedious and cumbersome tasks for a Developer. And also it increases our build file size. What is the solution to avoid this much dependencies definitions in our build files? The solution is Spring Boot Starter component. Spring Boot Starter component combines all related jars into single jar file so that we can add only jar file dependency to our build files. Instead of adding above 4 jars files to our build file, we need to add one and only one jar file: “spring-boot-starter-web” jar file. When we add “spring-boot-starter-web” jar file dependency to our build file, then Spring Boot Framework will automatically download all required jars and add to our project classpath. In the same way, “spring-boot-starter-logging” jar file loads all it’s dependency jars like “jcl-over-slf4j, jul-to-slf4j,log4j-over-slf4j, logback-classic” to our project classpath.
That’s it about Spring Boot Starter component. We will discuss some more details with some Spring Boot examples in coming posts.
Another important key component of Spring Boot Framework is Spring Boot AutoConfigurator. Most of the Spring IO Platform (Spring Framework) Critics opinion is that "To develop a Spring-based application requires lot of configuration (Either XML Configuration of Annotation Configuration). Then how to solve this problem. The solution to this problem is Spring Boot AutoConfigurator. The main responsibility of Spring Boot AutoConfigurator is to reduce the Spring Configuration. If we develop Spring applications in Spring Boot,then We dont need to define single XML configuration and almost no or minimal Annotation configuration. Spring Boot AutoConfigurator component will take care of providing those information. For instance, if we want to declare a Spring MVC application using Spring IO Platform, then we need to define lot of XML Configuration like views, view resolvers etc. But if we use Spring Boot Framework, then we dont need to define those XML Configuration. Spring Boot AutoConfigurator will take of this. If we use “spring-boot-starter-web” jar file in our project build file, then Spring Boot AutoConfigurator will resolve views, view resolvers etc. automatically. And also Spring Boot reduces defining of Annotation configuration. If we use @SpringBootApplication annotation at class level, then Spring Boot AutoConfigurator will automatically add all required annotations to Java Class ByteCode. If we go through Spring Boot Documentation, we can find the following definition for @SpringBootApplication.
@Target(value=TYPE) @Retention(value=RUNTIME) @Documented @Inherited @Configuration @EnableAutoConfiguration @ComponentScan public @interface SpringBootApplication
That is, @SpringBootApplication = @Configuration + @ComponentScan + @EnableAutoConfiration. That’s it about Spring Boot AutoConfigurate component. We will discuss some more details with some Spring Boot examples in coming posts. NOTE:-
Spring Boot CLI(Command Line Interface) is a Spring Boot software to run and test Spring Boot applications from command prompt. When we run Spring Boot applications using CLI, then it internally uses Spring Boot Starter and Spring Boot AutoConfigurate components to resolve all dependencies and execute the application. We can run even Spring Web Applications with simple Spring Boot CLI Commands. Spring Boot CLI has introduced a new “spring” command to execute Groovy Scripts from command prompt. spring command example:
spring run HelloWorld.groovy
Here HelloWorld.groovy is a Groovy script FileName. Like Java source file names have *.java extension, Groovy script files have *.groovy extension. “spring” command executes HelloWorld.groovy and produces output. Spring Boot CLI component requires many steps like CLI Installation, CLI Setup, Develop simple Spring Boot application and test it. So we are going to dedicate another post to discuss it in details with some Spring Boot Examples. Please refer my next post on Spring Boot CLI.
Spring Boot Actuator components gives many features, but two major features are
When we run our Spring Boot Web Application using CLI, Spring Boot Actuator automatically provides hostname as “localhost” and default port number as “8080”. We can access this application using “https://localhost:8080/” end point. We actually use HTTP Request methods like GET and POST to represent Management EndPoints using Spring Boot Actuator. We will discuss some more details about Spring Boot Actuator in coming posts.
It’s always recommended to understand how Spring Boot Framework reduces build’s dependencies,Spring Configuration, etc. How Spring Boot works under-the-hood. If you are familiar with Groovy Programming language, then you know most of the stuff. In Groovy, we don’t need to add some some imports and no need to add some dependencies to Groovy project. When we compile Groovy scripts using Groovy Compiler(groovyc), it will automatically adds all default import statements then compile it. In the same way, Groovy Programming language contains a JAR Dependency Resolver to resolve and add all required jar files to Groovy Project classpath. Spring Boot Framework internally uses Groovy to add some defaults like Default import statements, Application main() method etc. When we run Groovy Scripts from CLI Command prompt, it uses this main() method to run the Spring Boot Application.
Grape is an Embedded Dependency Resolution engine. Grape is a JAR Dependency Manager embedded into Groovy. Grape lets us quickly add maven repository dependencies to our project classpath to reduce build file definitions. Spring Boot Framework programming model is mainly inspired by Groovy Programming model. Spring Boot Framework internally depends on these two major components: Groovy and Grape. You can refer Grape documentation https://docs.groovy-lang.org/latest/html/documentation/grape.html for more details. That’s it about Spring Components and Internals. We will discuss about these components in details with some Spring Boot examples in coming posts. If you have any queries, please drop me a comment.
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