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Difference between revisions of "Jetty/Reference/Jetty Classloading"

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Class loading in a web container is slightly more complex than a normal Java application. The normal configuration is that each web context (web application or WAR file) has its own classloader, which has the system classloader as its parent. Such a classloader hierarchy is normal in Java, however the servlet specification complicates the hierarchy because it requires the following:   
 
Class loading in a web container is slightly more complex than a normal Java application. The normal configuration is that each web context (web application or WAR file) has its own classloader, which has the system classloader as its parent. Such a classloader hierarchy is normal in Java, however the servlet specification complicates the hierarchy because it requires the following:   

Latest revision as of 14:37, 23 April 2013



Introduction


Class loading in a web container is slightly more complex than a normal Java application. The normal configuration is that each web context (web application or WAR file) has its own classloader, which has the system classloader as its parent. Such a classloader hierarchy is normal in Java, however the servlet specification complicates the hierarchy because it requires the following:

  • Classes contained within WEB-INF/lib or WEB-INF/classes have priority over classes on the parent classloader. This is the opposite of the normal behaviour of a Java 2 classloader.
  • System classes such as java.lang.String are excluded from the webapp priority, and you may not replace them with classes in WEB-INF/lib or WEB-INF/classes. Unfortunately the specification does not clearly state what classes are System classes, and it is unclear if all javax classes should be treated as System classes.
  • Server implementation classes like org.eclipse.jetty.server.Server should be hidden from the web application and should not be available in any classloader. Unfortunately the specification does not state what classes are Server classes, and it is unclear if common libraries like the Xerces parser should be treated as Implementation classes.

Configuring Webapp Classloading

Jetty provides configuration options to control the three webapp class loading issues identified above.

You can configure webapp classloading by several methods on the org.eclipse.jetty.webapp.WebAppContext. You can call these methods directly if you are working with the Jetty API, or you can inject methods from a context XML file if you are using the Context Provider. You CANNOT set these methods from a jetty-web.xml file, as it executes after the classloader configuration is set.

Controlling Webapp Classloader Priority

The method org.eclipse.jetty.webapp.WebAppContext.setParentLoaderPriority(boolean) allows control over the priority given to webapp classes over system classes. If you set it to false (the default), Jetty uses standard webapp classloading priority. However, if in this mode some classes that are dependencies of other classes are loaded from the parent classloader (due to settings of system classes below), so ambiguities might arise as both the webapp and system classloader versions can end up being loaded.

If set to true, then Jetty uses normal JavaSE classloading priority, and gives priority to the parent/system classloader. This avoids the issues of multiple versions of a class within a webapp, but the version the parent/system loader provides must be the right version for all webapps you configure in this way.

Setting System Classes

You can call the methods org.eclipse.jetty.webapp.WebAppContext.setSystemClasses(String Array) or org.eclipse.jetty.webapp.WebAppContext.addSystemClass(String) to allow fine control over which classes are considered System classes.

  • A web application can see a System class.
  • A WEB-INF class cannot replace a System class.

The default system classes are:


System Classes
java. Java SE classes (per servlet spec v2.5 / SRV.9.7.2)
javax. Java SE classes (per servlet spec v2.5 / SRV.9.7.2)
org.xml. needed by javax.xml
org.w3c. needed by javax.xml
org.apache.commons.logging. special case
org.eclipse.jetty.continuation. webapp can see and not change continuation classes
org.eclipse.jetty.jndi. webapp can see and not change naming classes
org.eclipse.jetty.plus.jaas. webapp can see and not change jaas classes
org.eclipse.jetty.websocket. WebSocket is a jetty extension
org.eclipse.jetty.servlet.DefaultServlet webapp can see and not change default servlet

Absolute classname can be passed, names ending with . are treated as packages names, and names starting with - are treated as negative matches and must be listed before any enclosing packages.

Setting Server Classes

You can call the methods org.eclipse.jetty.webapp.WebAppContext.setServerClasses(String Array) or org.eclipse.jetty.webapp.WebAppContext.addServerClass(String) to allow fine control over which classes are considered Server classes.

  • A web application cannot see a Server class.
  • A WEB-INF class can replace a Server class.

The default server classes are:

Server Classes
-org.eclipse.jetty.continuation. don't hide continuation classes
-org.eclipse.jetty.jndi. don't hide naming classes
-org.eclipse.jetty.plus.jaas. don't hide jaas classes
-org.eclipse.jetty.websocket. don't hide websocket extension
-org.eclipse.jetty.servlet.DefaultServlet don't hide default servlet
org.eclipse.jetty. hide all other jetty classes

Adding Extra Classpaths to Jetty

You can add extra classpaths to Jetty in several ways.

Using start.jar

If you are using start.jar, at startup the jetty runtime automatically loads option Jars from the top level $jetty.home/lib directory. The default settings include:

  • Adding Jars under $jetty.home/lib/ext to the system classpath. You can place additional Jars here.
  • Adding the directory $jetty.home/resources to the classpath (may contain classes or other resources).
  • Adding a single path defined by the command line parameter path.

Using the extraClasspath() method

You can add an additional classpath to a context classloader by calling org.eclipse.jetty.webapp.WebAppContext.setExtraClasspath(String) with a comma-separated list of paths. You can do so directly to the API via a context XML file such as the following:

 
<Configure class="org.eclipse.jetty.webapp.WebAppContext">
 ...
 <Set name="extraClasspath>../my/classes,../my/jars/special.jar,../my/jars/other.jar>
 </Set>
 ...

Using a Custom WebAppClassLoader

If none of the alternatives already described meet your needs, you can always provide a custom classloader for your webapp. We recommend, but do not require, that your custom loader subclasses WebAppClassLoader. You configure the classloader for the webapp like so:

MyCleverClassLoader myCleverClassLoader = new MyCleverClassLoader();
 ...
   WebAppContext webapp = new WebAppContext();
 ...
   webapp.setClassLoader(myCleverClassLoader);

You can also accomplish this in a context xml file.

Starting Jetty with a Custom ClassLoader

If you start a jetty server using a custom class loader - consider the jetty classes not being available to the system class loader, only your custom class loader - you may run into class loading issues when the WebAppClassLoader kicks in. By default the WebAppClassLoader uses the system class loader as its parent, hence the problem. This is easy to fix, like so:

context.setClassLoader(new WebAppClassLoader(this.getClass().getClassLoader(), context));

or

context.setClassLoader(new WebAppClassLoader(new MyCustomClassLoader(), context));