This page shows you, step by step, how to convert a simple Java application to a version you can distribute on a Mac. To follow along, download the ButtonDemo (.zip) example from the Java Tutorial. This example was created using NetBeans which uses the Ant utility. You can run all necessary tools and make all necessary edits from the command line, without launching NetBeans. The Ant tool is required.
You have created a Java application and want to bundle it for deployment. This requires the following steps:
This step creates the ButtonDemo.jar file.
Execute ant jar in the high-level project directory to create the dist/ButtonDemo.jar file. This jar file is used to create the .app package.
To create the ButtonDemo.app package, use the appbundler tool. The appbundler is not shipped with the 7u6 version of the Oracle JDK for the Mac. You can download it from the Java Application Bundler project on java.net. There is also AppBundler Documentation available.
As of this writing, the most recent version is appbundler-1.0.jar, which is used by this document. Download the latest version available and substitute the file name accordingly.
<?xml version="1.0" encoding="UTF-8"?> <project name="ButtonDemo" default="default" basedir="."> <import file="nbproject/build-impl.xml"/> <taskdef name="bundleapp" classname="com.oracle.appbundler.AppBundlerTask" classpath="lib/appbundler-1.0.jar" /> <target name="bundle-buttonDemo"> <bundleapp outputdirectory="dist" name="ButtonDemo" displayname="Button Demo" identifier="components.ButtonDemo" mainclassname="components.ButtonDemo"> <classpath file="dist/ButtonDemo.jar" /> </bundleapp> </target> </project>
In order to distribute a Java application, you want to avoid dependencies on third party software. Your app package should include the Java Runtime Environment, or JRE. In fact, the Apple Store requires the use of an embedded JRE as a prerequisite for Mac App Store distribution. The runtime sub-element of the <bundleapp> task specifies the root of the JRE that will be included in the app package.
In this example, the location of the JRE is defined using the JAVA_HOME environment variable. However, you might choose to bundle a JRE that is not the same as the one you are using for development. For example you might be developing on 7u6, but you need to bundle the app with 7u4. You will define runtime accordingly.
Since this example defines the runtime sub-element using JAVA_HOME, make sure it is configured correctly for your environment. For example, in your .bashrc file, define JAVA_HOME as follows:
export JAVA_HOME=`/usr/libexec/java_home`
Use the following steps to modify the build.xml file at the top of the project directory:
<property environment="env" />
<runtime dir="${env.JAVA_HOME}" />
The resulting build.xml file should look like the following. (The new lines are shown in bold.)
<?xml version="1.0" encoding="UTF-8"?> <project name="ButtonDemo" default="default" basedir="."> <import file="nbproject/build-impl.xml"/> <property environment="env" /> <taskdef name="bundleapp" classname="com.oracle.appbundler.AppBundlerTask" classpath="lib/appbundler-1.0ea.jar" /> <target name="bundle-buttonDemo"> <bundleapp outputdirectory="dist" name="ButtonDemo" displayname="Button Demo" identifier="components.ButtonDemo" mainclassname="components.ButtonDemo"> <runtime dir="${env.JAVA_HOME}" /> <classpath file="dist/ButtonDemo.jar" /> </bundleapp> </target> </project>
Create a fresh version of ButtonDemo.app, using the ant bundle-buttonDemo command. The resulting version includes the JRE in the app package. You can confirm this by examining the Contents/PlugIns directory inside of the app package.
The Gatekeeper feature, introduced in Mountain Lion (OS X 10.8), allows users to set the level of security for downloaded applications. By default, Gatekeeper is set to allow only OS X App Store and Developer ID signed applications. Unless your app is signed with a Developer ID certificate provided by Apple, your application will not launch on a system with Gatekeeper's default settings.
For information on the signing certificates available, see Code Signing Tasks on developer.apple.com.
The signing certificate contains a field called Common Name. Use the string from the Common Name field to sign your application.
Sign your app using the codesign(1) tool, as shown in the following example:
% codesign -s "Developer ID Application: CommonNameFromCertificate" ExampleApp.app
To verify that the app is signed, the following command provides information about the signing status of the app:
% codesign -d --verbose=4 ExampleApp.app
To check whether an application can be launched when Gatekeeper is enabled, use the spctl command:
% spctl --assess --verbose=4 --type execute ExampleApp.app
If you leave off the --verbose tag, and it does not print any output, indicates 'success'.
For more information, see Distributing Outside the Mac App Store on developer.apple.com.
Packaging an app for the Mac App Store is similar to packaging for regular distribution up until the step of signing the app. Signing the app for the Mac App Store requires a few more steps, and a different kind of certificate.
You will need to create an application ID and then obtain a distribution certificate for that application ID. Submit your app using Application Loader. For more information, see the following links (on developer.apple.com):