JAR (file format): Difference between revisions
Cybercobra (talk | contribs) fmt to explain derivation |
|||
| Line 47: | Line 47: | ||
==Apache Ant Zip/JAR support== |
==Apache Ant Zip/JAR support== |
||
The [[Apache Ant]] build tool has its own package to read and write Zip and JAR archives, including support for the [[Unix]] [[filesystem]] extensions. The org.apache.tools.zip package is released under the [[Apache Software Foundation]] license and is designed to be usable outside '''Ant'''. |
The [[Apache Ant]] build tool has its own package to read and write Zip and JAR archives, including support for the [[Unix]] [[filesystem]] extensions. The org.apache.tools.zip package is released under the [[Apache Software Foundation]] license and is designed to be usable outside '''Ant'''. |
||
hdt |
|||
== Related formats == |
== Related formats == |
||
Revision as of 13:53, 20 March 2012
 | This article provides insufficient context for those unfamiliar with the subject. (December 2011) |
 | This article needs additional citations for verification. (June 2008) |
 | |
| Filename extension |
.jar |
|---|---|
| Internet media type |
application/java-archive |
| Uniform Type Identifier (UTI) | com.sun.java-archive |
| Developed by | Netscape, Sun Microsystems, Oracle Corporation |
| Type of format | file archive, data compression |
| Extended from | ZIP |
In software, JAR (Java ARchive) is an archive file format typically used to aggregate many Java class files and associated metadata and resources (text, images and so on) into one file to distribute application software or libraries on the Java platform.[1]
JAR files are built on the ZIP file format and have the .jar file extension. Computer users can create or extract JAR files using the jar command that comes with a JDK. They can also use zip tools to do so; however, the order of entries in the zip file headers is important when compressing, as the manifest often needs to be first.
Design
A JAR file allows Java runtimes to efficiently deploy a set of classes and their associated resources. The elements in a JAR file can be compressed, which, together with the ability to download an entire application in a single request, makes downloading a JAR file much faster than separately downloading the many uncompressed files which would form a single Java Application. The package java.util.zip contains classes that read and write JAR files.
A JAR file has an optional manifest file located in the path META-INF/MANIFEST.MF. The entries in the manifest file determine how one can use the JAR file. JAR files intended to be executed as standalone programs will have one of their classes specified as the "main" class. The manifest file would have an entry such as
Main-Class: myPrograms.MyClass
Users can typically start such JAR files with a command similar to:
java -jar foo.jar
To unzip a JAR file users can use any standard unzip software. However, anyone with an installed Java Virtual Machine can use the jar command to expand the file:
jar -xf foo.jar
These files can also include a Classpath entry, which identifies other JAR files for loading with the JAR. This entry consists of a list of absolute or relative paths to other JAR files. Although intended to simplify JAR use, in practice it turns out to be notoriously brittle, as it depends on all the relevant JARs being in the exact locations specified when the entry-point JAR was built. To change versions or locations of libraries, a new manifest is needed.
Developers can digitally sign JAR files. In that case, the signature information becomes part of the embedded manifest file. The JAR itself is not signed, but instead every file inside the archive is listed along with its checksum; it is these checksums that are signed. Multiple entities may sign the JAR file, changing the JAR file itself with each signing, although the signed files themselves remain valid. When the Java runtime loads signed JAR files, it can validate the signatures and refuse to load classes that do not match the signature. It can also support 'sealed' packages, in which the Classloader will only permit Java classes to be loaded into the same package if they are all signed by the same entities. This prevents malicious code from being inserted into an existing package, and so gaining access to package-scoped classes and data.
Developers can obfuscate JAR files so that a user of the JAR file doesn't get much information regarding the code it contains, or to reduce its size, which is useful in mobile phone application development.
Microsoft Windows users who prefer having Windows EXE files can use tools such as JSmooth, Launch4J, WinRun4J or Nullsoft Scriptable Install System to wrap JAR files into executables.
Apache Ant Zip/JAR support
The Apache Ant build tool has its own package to read and write Zip and JAR archives, including support for the Unix filesystem extensions. The org.apache.tools.zip package is released under the Apache Software Foundation license and is designed to be usable outside Ant. hdt
Related formats
Several related file formats build on the JAR format:
- WAR (Web application archive) files, also Java archives, store XML files, Java classes, JavaServer Pages and other objects for Web Applications.
- RAR (resource adapter archive) files (not to be confused with the RAR file format), also Java archives, store XML files, Java classes and other objects for J2EE Connector Architecture (JCA) applications.
- EAR (enterprise archive) files provide composite Java archives which combine XML files, Java classes and other objects including JAR, WAR and RAR Java archive files for Enterprise Applications.
- SAR (service archive) is similar to EAR. It provides a service.xml file and accompanying JAR files.
- APK (Android Application Package), a variant of the Java archive format, is used for Android applications.[2]
See also
References
External links
| Archiving only | |
|---|---|
| Compression only | |
| Archiving and compression | |
| Software packaging and distribution | |
| Document packaging and distribution | |
