4 Creating and Configuring Servlets

This chapter describes what is new and changed in recent servlet specifications, and how to create and configure servlets

This chapter includes the following sections:

What's New and Changed in Servlets

These sections summarize the changes in the Servlet programming model and requirements between Servlet 3.1 and 3.0.

What's New and Changed in Servlet 3.1

WebLogic Server supports the servlet 3.1 specification (see http://jcp.org/en/jsr/detail?id=340), which introduces the following new features:

  • Support added for non-blocking I/O reads and writes—Servlet 3.0 allowed asynchronous request processing but only traditional I/O was permitted, which restricted scalability of your applications since threads associated with client requests could be sitting idle because of input/output considerations. Servlet 31. supports non-blocking I/O for read and write listeners, which allows you to build scalable applications.

  • Supports HTTP protocol upgrade processing—HTTP/1.1 allows the client to specify additional communication protocols that it supports and would like to use. Servlet 3.1 supports the HTTP protocol upgrade functionality in servlets.

  • Enhanced security by handling uncovered HTTP methods—The deny-uncovered-http-methods flag can be set in an application's web.xml file, which forces the container to deny any HTTP protocol method when it is used with a request URL for which the HTTP method is uncovered at the combined security constraint that applies to the url-pattern that is the best match for the request URL.

  • New Java EE 7 servlet examples—When you install WebLogic Server complete with the examples, the examples source code is placed in the EXAMPLES_HOMEexamples\src\examples directory. The default path is ORACLE_HOME\wlserver\samples\server. From this directory, you can access the source code and instruction files for the Servlet 3.1 examples without having to set up the samples domain.

    The ORACLE_HOME\user_projects\domains\wl_server directory contains the WebLogic Server examples domain; it contains your applications and the XML configuration files that define how your applications and Oracle WebLogic Server will behave, as well as startup and environment scripts. For more information about the WebLogic Server code examples, see "Sample Applications and Code Examples" in Understanding Oracle WebLogic Server.

    • Using HTTP Protocol Upgrade API – demonstrates how to use the HTTP Protocol Upgrade API that allows the client to specify additional communication protocols.

    • Using the Non-Blocking I/O ReadListener – demonstrates how to use the ReadListener interface in servlets for reading from a request in a non-blocking manner.

    • Using the Non-Blocking I/O WriteListener – demonstrates how to use the WriteListener interface in servlets for writing to a request in a non-blocking manner.

    • Changing the Session ID – demonstrates how to change the session ID using the HttpServletRequest API.

    • Handling Uncovered HTTP Methods – demonstrates how to deny uncovered HTTP methods:


What Was New and Changed in Servlet 3.0

The Servlet 3.0 specification (see http://jcp.org/en/jsr/detail?id=315) introduced the following features:

  • Asynchronous processing—a servlet no longer has to wait for a response from a resource, such as a database, before its thread can continue. In other words, the thread is not blocked.

  • Web module deployment descriptor fragments (web fragments)—The web-fragment.xml file enhances pluggability of library JARs which are packaged under WEB-INF/lib. A web fragment is a part or all of the web.xml file that can be specified and included in a library or framework JAR's META-INF directory.

  • New Java EE 6 servlet examples—When you install WebLogic Server complete with the examples, the examples source code is placed in the EXAMPLES_HOME\examples\src\examples directory. The default path is ORACLE_HOME\wlserver\samples\server. From this directory, you can access the source code and instruction files for the Servlet 3.0 examples without having to set up the samples domain

    The ORACLE_HOME\user_projects\domains\wl_server directory contains the WebLogic Server examples domain; it contains your applications and the XML configuration files that define how your applications and Oracle WebLogic Server will behave, as well as startup and environment scripts. For more information about the WebLogic Server code examples, see Sample Applications and Code Examplesin Understanding Oracle WebLogic Server.

    • Using Annotations for Servlets, Filters and Listeners – demonstrates how to define Web application components solely from annotations, such as @WebServlet@WebListener, and @WebFilter, no longer requiring definition and mapping entries within the web.xml descriptor.

    • Asynchronous Servlet and Request Handling – demonstrates asynchronous processing in servlet 3.0, in which a servlet is marked as being capable of handling asynchronous requests.

    • Handling File Uploads with Multipart File – demonstrates the use of the @MultipartConfig annotation to handle the uploading of files from the browser client.

    • Using Programmatic Security – demonstrates the use of the new login() and authenticate() methods of the HttpServletRequest interface, which enable applications to programmatically control security.

    • Servlet Web Fragments – demonstrates the pluggable nature of servlet 3.0, in which modular, self-contained extensions can be easily added to Web applications.



As of WebLogic Server 12.1.3, WebLogic Server-specific annotations have been deprecated and will be removed in a future release: @WLServlet, @WLFilter, and @WLInitParam, in favor of the standard annotations defined in the Servlet 3.1 specification. In addition, instead of weblogic.servlet.http.AbstractAsyncServlet, you should use the standard asynchronous processing model defined in the Servlet 3.1 specification. For information on configuring Servlet 3.1 asynchronous processing, see async-descriptor in web.xml Deployment Descriptor Elements.

Configuring Servlets

This section describes configuring servlets using Java EE metadata annotations versus in deployment descriptors, and how to use servlet mapping in a Web application.

Servlet Annotations

With Java EE metadata annotations, the standard web.xml deployment descriptor is optional. The servlet specification states annotations can be defined on certain Web components, such as servlets, filters, listeners, and tag handlers. The annotations are used to declare dependencies on external resources. The container will detect annotations on such components and inject necessary dependencies before the component's life cycle methods are invoked. See WebLogic Annotation for Web Components.

However, you can also define servlets as a part of a Web application in several entries in the standard Web application deployment descriptor, web.xml. The web.xml file is located in the WEB-INF directory of your Web application.

The first entry, under the root servlet element in web.xml, defines a name for the servlet and specifies the compiled class that executes the servlet. (Or, instead of specifying a servlet class, you can specify a JSP.) The servlet element also contains definitions for initialization attributes and security roles for the servlet.

The second entry in web.xml, under the servlet-mapping element, defines the URL pattern that calls this servlet.

Servlet Mapping

Servlet mapping controls how you access a servlet. The following examples demonstrate how you can use servlet mapping in your Web application. In the examples, a set of servlet configurations and mappings (from the web.xml deployment descriptor) is followed by a table (see Table 4-1) showing the URLs used to invoke these servlets.

Example 4-1 Servlet Mapping Example


Table 4-1 url-patterns and Servlet Invocation

URL Servlet Invoked

The default servlet, if configured, or an HTTP 404 File Not Found error message.

If the mapping for the list servlet had been /seedlist*, the list servlet would be invoked.


If the mapping for the list servlet had been /seedlist*, the list servlet would be invoked.


ServletServlet can be used to create a default mappings for servlets. For example, to create a default mapping to map all servlets to /myservlet/*, so the servlets can be called using http://host:port/web-app-name/myservlet/com/foo/FooServlet, add the following to your web.xml file. (The web.xml file is located in the WEB-INF directory of your Web application.)


Setting Up a Default Servlet

Each Web application has a default servlet. This default servlet can be a servlet that you specify, or, if you do not specify a default servlet, WebLogic Server uses an internal servlet called the FileServlet as the default servlet.

You can register any servlet as the default servlet. Writing your own default servlet allows you to use your own logic to decide how to handle a request that falls back to the default servlet.

Setting up a default servlet replaces the FileServlet and should be done carefully because the FileServlet is used to serve most files, such as text files, HTML file, image files, and more. If you expect your default servlet to serve such files, you will need to write that functionality into your default servlet.

To set up a user-defined default servlet:

  1. Define your servlet as described in Configuring How a Client Accesses a Web Application.

  2. Add a servlet-mapping with url-pattern = "/" as follows:

  3. If you still want the FileServlet to serve files with other extensions:

    1. Define a servlet and give it a <servlet-name>, for example myFileServlet.

    2. Define the <servlet-class> as weblogic.servlet.FileServlet.

    3. Using the <servlet-mapping> element, map file extensions to the myFileServlet (in addition to the mappings for your default servlet). For example, if you want the myFileServlet to serve.gif files, map *.gif to the myFileServlet.


      The FileServlet includes the SERVLET_PATH when determining the source filename if the docHome parameter (deprecated in this release) is not specified. As a result, it is possible to explicitly serve only files from specific directories by mapping the FileServlet to /dir/*, etc.

Servlet Initialization Attributes

You define initialization attributes for servlets in the Web application deployment descriptor, web.xml, in the init-param element of the servlet element, using param-name and param-value tags. The web.xml file is located in the WEB-INF directory of your Web application. For example:

Example 4-2 Example of Configuring Servlet Initialization Attributes in web.xml

    <param-value>WebLogic Developer</param-value> 

Writing a Simple HTTP Servlet

The section provides a procedure for writing a simple HTTP servlet, which prints out the message Hello World. A complete code example (the HelloWorldServlet) illustrating these steps is included at the end of this section. Additional information about using various Java EE and WebLogic Server services such as JDBC, RMI, and JMS, in your servlet are discussed later in this document.

  1. Import the appropriate package and classes, including the following:

    import javax.servlet.*;
    import javax.servlet.http.*;
    import java.io.*;
  2. Extend javax.servlet.http.HttpServlet. For example:

    public class HelloWorldServlet extends HttpServlet{
  3. Implement a service() method.

    The main function of a servlet is to accept an HTTP request from a Web browser, and return an HTTP response. This work is done by the service() method of your servlet. Service methods include response objects used to create output and request objects used to receive data from the client.

    You may have seen other servlet examples implement the doPost() and/or doGet() methods. These methods reply only to POST or GET requests; if you want to handle all request types from a single method, your servlet can simply implement the service() method. (However, if you choose to implement the service() method, you cannot implement the doPost() or doGet() methods, unless you call super.service() at the beginning of the service() method.) The HTTP servlet specification describes other methods used to handle other request types, but all of these methods are collectively referred to as service methods.

    All the service methods take the same parameter arguments. An HttpServletRequest provides information about the request, and your servlet uses an HttpServletResponse to reply to the HTTP client. The service method looks like the following:

    public void service(HttpServletRequest req,
           HttpServletResponse res) throws IOException
  4. Set the content type, as follows:

  5. Get a reference to a java.io.PrintWriter object to use for output, as follows:

    PrintWriter out = res.getWriter();
  6. Create some HTML using the println() method on the PrintWriter object, as shown in the following example:

    out.println("<html><head><title>Hello World!</title></head>");
    out.println("<body><h1>Hello World!</h1></body></html>");
  7. Compile the servlet, as follows:

    1. Set up a development environment shell with the correct classpath and path settings.

    2. From the directory containing the Java source code for your servlet, compile your servlet into the WEB-INF/classes directory of the Web application that contains your servlet. For example:

      javac -d /myWebApplication/WEB-INF/classes myServlet.java
  8. Deploy the servlet as part of a Web application hosted on WebLogic Server.

  9. Call the servlet from a browser.

    The URL you use to call a servlet is determined by:

    • The name of the Web application containing the servlet and

    • The name of the servlet as mapped in the deployment descriptor of the Web application. Request parameters can also be included in the URL used to call a servlet.

    Generally the URL for a servlet conforms to the following:


    The components of the URL are defined as follows:

    • host is the name of the machine running WebLogic Server.

    • port is the port at which the above machine is listening for HTTP requests.

    • webApplicationName is the name of the Web application containing the servlet.

    • parameters are one or more name-value pairs containing information sent from the browser that can be used in your servlet.

    For example, to use a Web browser to call the HelloWorldServlet (the example featured in this document), which is deployed in the examplesWebApp and served from a WebLogic Server running on your machine, enter the following URL:


    The host:port portion of the URL can be replaced by a DNS name that is mapped to WebLogic Server.

Advanced Features

The preceding steps create a basic servlet. You will probably also use more advanced features of servlets:

Complete HelloWorldServlet Example

This section provides the complete Java source code for the example used in the preceding procedure. The example is a simple servlet that provides a response to an HTTP request. Later in this document, this example is expanded to illustrate how to use HTTP parameters, cookies, and session tracking.

Example 4-3 HelloWorldServlet.java

import javax.servlet.*;
import javax.servlet.http.*;
import java.io.*;
public class HelloWorldServlet extends HttpServlet {
  public void service(HttpServletRequest req, 
                      HttpServletResponse res)
       throws IOException
    // Must set the content type first
    // Now obtain a PrintWriter to insert HTML into
    PrintWriter out = res.getWriter();
    out.println("<html><head><title>" +
                "Hello World!</title></head>");
    out.println("<body><h1>Hello World!</h1></body></html>");

You can find the source code and instructions for compiling and running examples in the ORACLE_HOME\wlserver\samples\server\examples\src\examples\splitdir\helloWorldEar directory of your WebLogic Server distribution, whereORACLE_HOME represents the directory in which you installed WebLogic Server. For more information about the WebLogic Server code examples, see "Sample Applications and Code Examples" in Understanding Oracle WebLogic Server.

Debugging Servlet Containers

The following sections provide information on debugging options available in the WebLogic Server servlet container:

Disabling Access Logging

Logging access for servlets can be expensive with regard to server performance. Therefore, in cases where access logging is not required, you can improve performance by disabling logging to the access log file.


The optional access-logging-disabled property in the container-descriptor in weblogic.xml can be used to specify whether access logging for an underlying Web application is disabled.

  • If the property is set as true, then application accesses are not logged.

  • If the property is not defined or is set as false, then application accesses are logged.


    The access-logging-disabled property functions at the Web application level. Therefore, if it is defined in a Web application, it does not affect other Web applications. This property works under both development mode and production mode.


The following example demonstrates how to disable access logging:

<?xml version="1.0" encoding="ISO-8859-1"?>
<weblogic-web-app xmlns="http://xmlns.oracle.com/weblogic/weblogic-web-app">

Debugging Specific Sessions

Tracking session change is very helpful when developing applications, especially for replicated sessions. Although you can utilize HttpSessionAttributeListener to track session changes at the Web application level, developers need a finer-grained debugging option to track session changes during a specific request.


The wl_debug_session request attribute or a same-named session attribute can log attribute changes in the current session. When either flag is used, the container logs the modifications of the underlying session in the server log.

You can enable specific session debugging by using either of the following methods:

  • Set the wl_debug_session attribute to the current session, as follows:

  • session.setAttribute('wl_debug_session', Boolean.TRUE);

  • Use the wl_debug_session attribute in the request query string as the indicator. The container adds a wl_debug_session session attribute to the current session, as shown in the following example:


To stop debugging a session, you can simply remove the wl_debug_session attribute.


This feature is available only in development mode. The severity of the debug message is at the debug level. You need to adjust the severity of the logger to debug or lower for the system logger to output the debug message to the server log file.

Tracking a Request Handle Footprint

Tracking a request handle footprint is very helpful while in application development mode. For example, when debugging an application, you need to know many pieces of information. This includes such information as: what request is received, how it is dispatched, what session it is bound to it, when the servlet is invoked, and what response is sent. Finally, when a ServletException occurs, you need a way to link the exception to corresponding request to find the root cause of the error.


The WebLogic Server servlet container provides more detailed log messages during request handling to better describe each milestone in a request flow. No additional configuration changes are required other than enabling the DebugHttp logger.

You can then find the footprint of a request handle in the server log. Once in production mode, you should disable DebugHttp logger to maximize server performance.