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Extension Mechanism Architecture

Contents

Introduction

Note: Optional packages are the new name for what used to be known as standard extensions. The "extension mechanism" is that functionality of the JDK and JRE that supports the use of optional packages.

This document describes the Java platform's mechanism for handling optional packages. An optional package is a group of packages housed in one or more JAR files that implement an API that extends the Java platform. Optional package classes extend the platform in the sense that the virtual machine can find and load them without their being on the class path, much as if they were classes in the platform's core API.

An implementation of an optional package may consist of code written in the Java programming language and, less commonly, platform-specific native code. In addition, it may include properties, localization catalogs, images, serialized data, and other resources specific to the optional package.

Support for optional packages in browsers such as Internet Explorer and Netscape Navigator is available through the Java Plug-in.

A optional package is an implementation of an open, standard API (examples of optional packages from Sun are JavaServlet, Java3D, JavaManagement). Most optional packages are rooted in the javax.* namespace, although there may be exceptions.

The Extension Mechanism

Architecture

The extension mechanism is designed to contain the following elements: Applications must therefore, in general, be prepared to specify and supply the optional packages (and, more generally, libraries) that it needs. The system will prefer installed copies of optional packages (and libraries) if they exist; otherwise, it will delegate to the class loader of the application to find and load the referenced optional package (and library) classes.

This architecture, since it allows applications, applets and servlets to extend their own class path, also permits packaging and deploying these as multiple JAR files.

Each optional package or application consists of at least one JAR file containing an optional manifest, code and assorted resources. As described below, this primary JAR file can also include additional information in its manifest to describe dependencies on other JAR files. The jar command line tool included with the JDK provides a convenient means of packaging optional packages, although any ZIP-compatible archiving tool should work as well. (See the reference pages for the jar tool: [Windows][Solaris])

An optional package or application may refer to additional JAR files which will be referenced from the primary JAR, and these can optionally contain their own dependency information as well.

Packages comprising optional packages should be named per the standard package naming conventions when implementing optional packages. These conventions are outlined in The Java Language Specification, but the requirement that the domain prefix be specified in all upper case letters has been removed. For example, the package name com.sun.server is an accepted alternative to COM.sun.server. Unique package naming is recommended in order to avoid conflicts, because applications and optional packages may share the same class loader. 

Optional Package Deployment

An optional package may either be bundled with an application or installed in the JRE for use by all applications. Bundled optional packages are provided at the same code base as the application and will automatically be downloaded in the case of network applications (applets). For this reason, bundled optional packages are often called download optional packages. Installed optional packages are loaded when first used and will be shared by all applications running on the same runtime environment.

When packaging optional packages, the JAR file manifest can be used to identify vendor and version information (see The Java Versioning Specification).

Classes for installed optional packages are shared by all code in the same virtual machine. Thus, installed optional packages are similar to the platform's core classes (in rt.jar), but with an associated class loader and a pre-configured security policy as described below.

Classes for bundled optional packages are private to the class loader of the application, applet or servlet. In the case of network applications such as applets, these optional packages will be automatically downloaded as needed. Since class loaders are currently associated with a codebase, this permits multiple applets originating from the same codebase to share implementations (JARs). 

Bundled Optional Packages

The manifest for an application or optional package can specify one or more relative URLs referring to the JAR files and directories for the optional packages (and other libraries) that it needs. These relative URLs will be treated relative to the code base that the containing application or optional package JAR file was loaded from.

An application (or, more generally, JAR file) specifies the relative URLs of the optional packages (and libraries) that it needs via the manifest attribute Class-Path. This attribute lists the URLs to search for implementations of optional packages (or other libraries) if they cannot be found as optional packages installed on the host Java virtual machine*. These relative URLs may include JAR files and directories for any libraries or resources needed by the application or optional package. Relative URLs not ending with '/' are assumed to refer to JAR files. For example,

Class-Path: servlet.jar infobus.jar acme/beans.jar images/
Multiple Class-Path headers may be specified, and are combined sequentially.

Currently, the URLs must be relative to the code base of the JAR file for security reasons. Thus, remote optional packages will originate from the same code base as the application. A future enhancement will leverage the facilities of the Java 2 Platform's Security APIs to allow references to JAR files at other URLs.

Each relative URL is resolved against the code base that the containing application or optional package was loaded from. If the resulting URL is invalid or refers to a resource that cannot be found then it is ignored.

The resulting URLs are used to extend the class path for the application, applet, or servlet by inserting the URLs in the class path immediately following the URL of the containing JAR file. Any duplicate URLs are omitted. For example, given the following class path:

        a.jar b.jar
If optional package b.jar contained the following Class-Path manifest attribute:
        Class-Path: x.jar a.jar
Then the resulting application class path would be the following:
        a.jar b.jar x.jar
Of course, if x.jar had dependencies of its own then these would be added according to the same rules and so on for each subsequent URL. In the actual implementation, JAR file dependencies are processed lazily so that the JAR files are not actually opened until needed. 

Installed Optional Packages

In Sun's implementation of the Java 2 Platform, the JAR files of a installed optional package are placed in a standard local code source
<java-home>\lib\ext                     [Windows]
<java-home>/lib/ext                     [Solaris]
Its native code libraries, if any, are placed in
<java-home>\bin                         [Windows]
<java-home>/lib/<arch>                  [Solaris]
Here <java-home> refers to the directory where the runtime software is installed (which is the top-level directory of the JRE or the jre directory in the JDK), and <arch> refers to the Solaris processor architecture (sparc or x86).

A installed optional package may additionally contain one or more shared libraries (such as .dll files) and executables. Native libraries may also be placed in jre/lib/ext/<arch> for both Windows and Solaris, where <arch> will be x86 on Windows systems. The jre/lib/ext/<arch> directory is searched after jre\bin (Windows) or jre/lib/<arch> (Solaris).

Currently, an optional package that contains native code cannot be downloaded by network code, whether such code is trusted or not, into the virtual machine at execution time. An optional package that contains native code and is bundled with a network application must be installed in the JDK or JRE.

By default, installed optional packages in this standard directory are trusted. That is, they are granted the same privileges as if they were core platform classes (those in rt.jar). This default privilege is specified in the system policy file, but can be overridden for a particular optional package by adding the appropriate policy file entry.

Note also that if a installed optional package JAR is signed by a trusted entity, then it will be granted the privileges associated with the trusted signer.

Other locations for installed optional packages can be specified through the system property java.ext.dirs. This property specifies one or more directories to search for installed optional packages, each separated by File.pathSeparatorChar. The default setting for this property is the standard directory for installed optional packages indicated above.

Optional Package Sealing

JAR files and packages can be optionally sealed, so that an optional package or package can enforce consistency within a version.

A package sealed within a JAR specifies that all classes defined in that package must originate from the same JAR. Otherwise, a SecurityException is thrown.

A sealed JAR specifies that all packages defined by that JAR are sealed unless overridden specifically for a package.

A sealed package is specified via the manifest attribute, Sealed, whose value is true or false (case irrelevant). For example,

Name: javax/servlet/internal/
Sealed: true
specifies that the javax.servlet.internal package is sealed, and that all classes in that package must be loaded from the same JAR file.

If this attribute is missing, the package sealing attribute is that of the containing JAR file.

A sealed JAR is specified via the same manifest header, Sealed, with the value again of either true or false. For example,

Sealed: true
specifies that all packages in this archive are sealed unless explicitly overridden for a particular package with the Sealed attribute in a manifest entry.

If this attribute is missing, the module is assumed to not be sealed, for backwards compatibility. The system then defaults to examining package headers for sealing information.

Package sealing is also important for security, because it restricts access to package-protected members to only those classes defined in the package that originated from the same JAR file.

Package sealing is checked for installed as well as downloaded optional packages, and will result in a SecurityException if violated. Also, the null package is not sealable, so classes that are to be sealed must be placed in their own packages. 

Optional Package Security

The code source for a installed optional package (namely <java-home>/lib/ext) has a pre-configured security policy associated with it. In Sun's implementation, the exact level of trust granted to JARs in this directory is specified by the standard security policy configuration file
<java-home>/lib/security/java.policy
The default policy is for a installed optional package to behave the same way it would if were part of the core platform. This follows from the common need for a installed optional package to load native code.

The Java Security Model provides some safety when installed optional package code is called from untrusted code. However optional package code must be carefully reviewed for potential security breaches wherever it uses privileged blocks.

A remotely loaded optional package that needs to use access-checked system services (such as file I/O) to function correctly must either be signed by a trusted entity or loaded from a trusted source.

Consult the Java security documentation for further details regarding how to write optional package and application code to use the Java 2 Platform's security features.

API Details

The following classes in the Java 2 platform support the extension mechanism:

*As used on this web site, the terms "Java Virtual Machine" or "JVM" mean a virtual machine for the Java platform.


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