XULRunner applications, extensions, and themes all share a common directory structure, and in some cases the same bundle can be used as a standalone XULRunner application as well as an installable application extension.
Basic structure of a bundle
A bundle may include any of the following files:
Path from the root of the bundle | Description | Version information |
---|---|---|
/install.rdf |
Extension/Theme Install Manifest | |
/application.ini |
Application Launch Manifest | |
/bootstrap.js |
The bootstrap script for extensions not requiring a restart (those with <em:bootstrap>true</em:bootstrap> in their install.rdf ). Note that other files and directories (e.g. chrome.manifest , components , defaults ) in bootstrapped extensions are not processed by a supporting application. |
(>=2.0) |
/chrome.manifest |
Chrome Registration Manifest | (>=1.8) |
/components/* |
XPCOM components (*.js, *.dll), and interface files from *.xpt | (>=1.7) |
/defaults/preferences/*.js |
Default Preferences | (>=1.7) |
/plugins/* |
NPAPI Plugins | (>=1.8) |
/chrome/icons/default/* |
Window Icons | (>=1.8) |
/icon.png |
Extension icon, for display in the Add-ons Manager, 32px × 32px | (>=1.9.2) |
/icon64.png |
Extension icon, for display in the Add-ons Manager, 64px × 64px | (>=2.0) |
/options.xul |
Extension options, for display in the Add-ons Manager | (>=7.0) |
... | Additional resources (such as chrome:// or resource:// providers can be registered in the chrome.manifest) | |
Application-specific | ||
/searchplugins/*.src |
Sherlock search plugins | Firefox 1.5 and greater. |
/searchplugins/*.xml |
MozSearch and OpenSearch plugins | Firefox 2 and greater |
/dictionaries/*.{aff|dic} |
Myspell dictionaries | Firefox 2 and greater |
Of course, an extension need not (and normally won't) have all of these directories. Themes are limited for security reasons, and can normally only provide a chrome.manifest which registers the theme and a JAR file.
Platform-specific files
Gecko 2.0 (Firefox 4 / Thunderbird 3.3 / SeaMonkey 2.1) removed support for platform-specific subdirectories, described below. Instead, you need to use manifest flags, such as the OS
and ABI
flags, in your chrome manifest to specify components that should be loaded for specific platforms.
For example:
binary-component components/windows/mycomponent.dll ABI=WINNT_x86-msvc binary-component components/mac/mycomponent.dylib ABI=Darwin_x86-gcc3 binary-component components/mac/mycomponent64.dylib ABI=Darwin_x86_64-gcc3 binary-component components/linux/mycomponent.so ABI=Linux_x86-gcc3
This also means you can no longer have platform-specific preference files in your bundle.
Platform-specific subdirectories: Gecko 1.9.2.x and earlier
Note: Platform-specific subdirectory support was removed in Gecko 2.0. See the section Platform-specific files to learn how to use platform-specific files.
In some cases a single extension or application may wish to include binary component or plugins for multiple platforms, or theme authors might want to include multiple platform-specific JAR files. To facilitate the first case, the extension/app loader has special sub-directories specifically for platform-specific files (starting with Toolkit/Gecko 1.8, Firefox/Thunderbird 1.5). The platform string is defined during the toolkit build process to a value unique for the combination of operating system, processor architecture and compiler. The format of the platform string is:
{OS_TARGET}_{TARGET_XPCOM_ABI}
All of the files which are loaded from the main extension directory are loaded from the subdirectory
/platform/{platform string}
if it exists. For example, if a plugin vendor wanted to make a plugin available for consumer computers running Linux(of the form: /platform/Linux*/), Macintosh(of the form: /platform/Darwin*/), and Windows(of the form: /platform/WIN*/), it would provide the following files:
/platform/Linux_x86-gcc3/plugins/libMyPlugin.so /platform/WINNT_x86-msvc/plugins/MyPlugin.dll /platform/Darwin_ppc-gcc3/plugins/libMyPlugin.dylib
Because XPT files are not platform-specific, any associated XPT files would go in the generic components directory:
/components/MyPlugin.xpt
If an extension has non-binary platform-specific code (such as code which uses the windows registry from script), it can also use just the operating system identifier as a platform-subdirectory:
/platform/WINNT/components/registerDoctype.js
When platform-specific JAR files are used, each platform directory should have its own chrome.manifest
file:
chrome.manifest chrome/mytheme-base.jar platform/Darwin/chrome.manifest platform/Darwin/chrome/mytheme-mac.jar platform/WINNT/chrome.manifest platform/WINNT/chrome/mytheme-win.jar
The app/extension loader processes the base directory first, followed by the applicable platform directories (first /{OS_TARGET}/, then /{OS_TARGET}_{TARGET_XPCOM_ABI}/). When default preferences are defined in several directories, the ones loaded later overwrite the earlier ones.
Official references for toolkit API
- Structure of an Installable Bundle: describes the common structure of installable bundles, including extensions, themes, and XULRunner applications
- Extension Packaging: specific information about how to package extensions
- Theme Packaging: specific information about how to package themes
- Multiple-item Extension Packaging: specific information about multiple-item extension XPIs
- XUL Application Packaging: specific information about how to package XULRunner applications
- Chrome Registration
- Printing in XUL Apps