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/*
* Copyright 2002-2021 the original author or authors.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* https://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.springframework.web;
import jakarta.servlet.ServletContext;
import jakarta.servlet.ServletException;
/**
* Interface to be implemented in Servlet environments in order to configure the
* {@link ServletContext} programmatically -- as opposed to (or possibly in conjunction
* with) the traditional {@code web.xml}-based approach.
*
* Implementations of this SPI will be detected automatically by {@link
* SpringServletContainerInitializer}, which itself is bootstrapped automatically
* by any Servlet container. See {@linkplain SpringServletContainerInitializer its
* Javadoc} for details on this bootstrapping mechanism.
*
*
Example
* The traditional, XML-based approach
* Most Spring users building a web application will need to register Spring's {@code
* DispatcherServlet}. For reference, in WEB-INF/web.xml, this would typically be done as
* follows:
*
* <servlet>
* <servlet-name>dispatcher</servlet-name>
* <servlet-class>
* org.springframework.web.servlet.DispatcherServlet
* </servlet-class>
* <init-param>
* <param-name>contextConfigLocation</param-name>
* <param-value>/WEB-INF/spring/dispatcher-config.xml</param-value>
* </init-param>
* <load-on-startup>1</load-on-startup>
* </servlet>
*
* <servlet-mapping>
* <servlet-name>dispatcher</servlet-name>
* <url-pattern>/</url-pattern>
* </servlet-mapping>
*
* The code-based approach with {@code WebApplicationInitializer}
* Here is the equivalent {@code DispatcherServlet} registration logic,
* {@code WebApplicationInitializer}-style:
*
* public class MyWebAppInitializer implements WebApplicationInitializer {
*
* @Override
* public void onStartup(ServletContext container) {
* XmlWebApplicationContext appContext = new XmlWebApplicationContext();
* appContext.setConfigLocation("/WEB-INF/spring/dispatcher-config.xml");
*
* ServletRegistration.Dynamic dispatcher =
* container.addServlet("dispatcher", new DispatcherServlet(appContext));
* dispatcher.setLoadOnStartup(1);
* dispatcher.addMapping("/");
* }
*
* }
*
* As an alternative to the above, you can also extend from {@link
* org.springframework.web.servlet.support.AbstractDispatcherServletInitializer}.
*
* As you can see, thanks to the Servlet container's {@link ServletContext#addServlet}
* method we're actually registering an instance of the {@code DispatcherServlet},
* and this means that the {@code DispatcherServlet} can now be treated like any other
* object -- receiving constructor injection of its application context in this case.
*
* This style is both simpler and more concise. There is no concern for dealing with
* init-params, etc, just normal JavaBean-style properties and constructor arguments. You
* are free to create and work with your Spring application contexts as necessary before
* injecting them into the {@code DispatcherServlet}.
*
*
Most major Spring Web components have been updated to support this style of
* registration. You'll find that {@code DispatcherServlet}, {@code FrameworkServlet},
* {@code ContextLoaderListener} and {@code DelegatingFilterProxy} all now support
* constructor arguments. Even if a component (e.g. non-Spring, other third party) has not
* been specifically updated for use within {@code WebApplicationInitializers}, they still
* may be used in any case. The {@code ServletContext} API allows for setting init-params,
* context-params, etc programmatically.
*
*
A 100% code-based approach to configuration
* In the example above, {@code WEB-INF/web.xml} was successfully replaced with code in
* the form of a {@code WebApplicationInitializer}, but the actual
* {@code dispatcher-config.xml} Spring configuration remained XML-based.
* {@code WebApplicationInitializer} is a perfect fit for use with Spring's code-based
* {@code @Configuration} classes. See @{@link
* org.springframework.context.annotation.Configuration Configuration} Javadoc for
* complete details, but the following example demonstrates refactoring to use Spring's
* {@link org.springframework.web.context.support.AnnotationConfigWebApplicationContext
* AnnotationConfigWebApplicationContext} in lieu of {@code XmlWebApplicationContext}, and
* user-defined {@code @Configuration} classes {@code AppConfig} and
* {@code DispatcherConfig} instead of Spring XML files. This example also goes a bit
* beyond those above to demonstrate typical configuration of the 'root' application
* context and registration of the {@code ContextLoaderListener}:
*
* public class MyWebAppInitializer implements WebApplicationInitializer {
*
* @Override
* public void onStartup(ServletContext container) {
* // Create the 'root' Spring application context
* AnnotationConfigWebApplicationContext rootContext =
* new AnnotationConfigWebApplicationContext();
* rootContext.register(AppConfig.class);
*
* // Manage the lifecycle of the root application context
* container.addListener(new ContextLoaderListener(rootContext));
*
* // Create the dispatcher servlet's Spring application context
* AnnotationConfigWebApplicationContext dispatcherContext =
* new AnnotationConfigWebApplicationContext();
* dispatcherContext.register(DispatcherConfig.class);
*
* // Register and map the dispatcher servlet
* ServletRegistration.Dynamic dispatcher =
* container.addServlet("dispatcher", new DispatcherServlet(dispatcherContext));
* dispatcher.setLoadOnStartup(1);
* dispatcher.addMapping("/");
* }
*
* }
*
* As an alternative to the above, you can also extend from {@link
* org.springframework.web.servlet.support.AbstractAnnotationConfigDispatcherServletInitializer}.
*
* Remember that {@code WebApplicationInitializer} implementations are detected
* automatically -- so you are free to package them within your application as you
* see fit.
*
* Ordering {@code WebApplicationInitializer} execution
* {@code WebApplicationInitializer} implementations may optionally be annotated at the
* class level with Spring's @{@link org.springframework.core.annotation.Order Order}
* annotation or may implement Spring's {@link org.springframework.core.Ordered Ordered}
* interface. If so, the initializers will be ordered prior to invocation. This provides
* a mechanism for users to ensure the order in which servlet container initialization
* occurs. Use of this feature is expected to be rare, as typical applications will likely
* centralize all container initialization within a single {@code WebApplicationInitializer}.
*
* @author Chris Beams
* @since 3.1
* @see SpringServletContainerInitializer
* @see org.springframework.web.context.AbstractContextLoaderInitializer
* @see org.springframework.web.servlet.support.AbstractDispatcherServletInitializer
* @see org.springframework.web.servlet.support.AbstractAnnotationConfigDispatcherServletInitializer
*/
public interface WebApplicationInitializer {
/**
* Configure the given {@link ServletContext} with any servlets, filters, listeners
* context-params and attributes necessary for initializing this web application. See
* examples {@linkplain WebApplicationInitializer above}.
* @param servletContext the {@code ServletContext} to initialize
* @throws ServletException if any call against the given {@code ServletContext}
* throws a {@code ServletException}
*/
void onStartup(ServletContext servletContext) throws ServletException;
}