From 26a029d407be480d791972afb5975cf62c9360a6 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Fri, 19 Apr 2024 02:47:55 +0200 Subject: Adding upstream version 124.0.1. Signed-off-by: Daniel Baumann --- toolkit/components/extensions/docs/background.rst | 133 ++++++++++++++++++++++ 1 file changed, 133 insertions(+) create mode 100644 toolkit/components/extensions/docs/background.rst (limited to 'toolkit/components/extensions/docs/background.rst') diff --git a/toolkit/components/extensions/docs/background.rst b/toolkit/components/extensions/docs/background.rst new file mode 100644 index 0000000000..5d5dcd06b9 --- /dev/null +++ b/toolkit/components/extensions/docs/background.rst @@ -0,0 +1,133 @@ +Background +========== + +WebExtensions run in a sandboxed environment much like regular web content. +The purpose of extensions is to enhance the browser in a way that +regular content cannot -- WebExtensions APIs bridge this gap by exposing +browser features to extensions in a way preserves safety, reliability, +and performance. +The implementation of a WebExtension API runs with +:doc:`chrome privileges `. +Browser internals are accessed using +:ref:`XPCOM` +or :doc:`ChromeOnly WebIDL features `. + +The rest of this documentation covers how API implementations interact +with the implementation of WebExtensions. +To expose some browser feature to WebExtensions, the first step is +to design the API. Some high-level principles for API design +are documented on the Mozilla wiki: + +- `Vision for WebExtensions `_ +- `API Policies `_ +- `Process for creating new APIs `_ + +Javascript APIs +--------------- +Many WebExtension APIs are accessed directly from extensions through +Javascript. Functions are the most common type of object to expose, +though some extensions expose properties of primitive Javascript types +(e.g., constants). +Regardless of the exact method by which something is exposed, +there are a few important considerations when designing part of an API +that is accessible from Javascript: + +- **Namespace**: + Everything provided to extensions is exposed as part of a global object + called ``browser``. For compatibility with Google Chrome, many of these + features are also exposed on a global object called ``chrome``. + Functions and other objects are not exposed directly as properties on + ``browser``, they are organized into *namespaces*, which appear as + properties on ``browser``. For example, the + `tabs API `_ + uses a namespace called ``tabs``, so all its functions and other + properties appear on the object ``browser.tabs``. + For a new API that provides features via Javascript, the usual practice + is to create a new namespace with a concise but descriptive name. + +- **Environments**: + There are several different types of Javascript environments in which + extension code can execute: extension pages, content scripts, proxy + scripts, and devtools pages. + Extension pages include the background page, popups, and content pages + accessed via |getURL|_. + When creating a new Javascript feature the designer must choose + in which of these environments the feature will be available. + Most Javascript features are available in extension pages, + other environments have limited sets of API features available. + +.. |getURL| replace:: ``browser.runtime.getURL()`` +.. _getURL: https://developer.mozilla.org/en-US/Add-ons/WebExtensions/API/runtime/getURL + +- **Permissions**: + Many Javascript features are only present for extensions that + include an appropriate permission in the manifest. + The guidelines for when an API feature requires a permission are + described in (*citation needed*). + +The specific types of features that can be exposed via Javascript are: + +- **Functions**: + A function callable from Javascript is perhaps the most commonly + used feature in WebExtension APIs. + New API functions are asynchronous, returning a + `Promise `_. Even functions that do not return a result + use Promises so that errors can be indicated asynchronously + via a rejected Promise as opposed to a synchronously thrown Error. + This is due to the fact that extensions run in a child process and + many API functions require communication with the main process. + If an API function that needs to communicate in this way returned a + synchronous result, then all Javascript execution in the child + process would need to be paused until a response from the main process + was received. Even if a function could be implemented synchronously + within a child process, the standard practice is to make it + asynchronous so as not to constrain the implementation of the underlying + browser feature and make it impossible to move functionality out of the + child process. + Another consequence of functions using inter-process communication is + that the parameters to a function and its return value must all be + simple data types that can be sent between processes using the + `structured clone algorithm `_. + +- **Events**: + Events complement functions (which allow an extension to call into + an API) by allowing an event within the browser to invoke a callback + in the extension. + Any time an API requires an extension to pass a callback function that + gets invoked some arbitrary number of times, that API method should be + defined as an event. + +Manifest Keys +------------- +In addition to providing functionality via Javascript, WebExtension APIs +can also take actions based on the contents of particular properties +in an extension's manifest (or even just the presence of a particular +property). +Manifest entries are used for features in which an extension specifies +some static information that is used when an extension is installed or +when it starts up (i.e., before it has the chance to run any code to use +a Javascript API). +An API may handle a manifest key and implement Javascript functionality, +see the +`browser action `_ +API for an example. + +Other Considerations +-------------------- +In addition to the guidelines outlined above, +there are some other considerations when designing and implementing +a WebExtension API: + +- **Cleanup**: A badly written WebExtension should not be able to permanently + leak any resources. In particular, any action from an extension that + causes a resource to be allocated within the browser should be + automatically cleaned up when the extension is disabled or uninstalled. + This is described in more detail in the section on :ref:`lifecycle`. + +- **Performance**: A new WebExtension API should not add any new overhead + to the browser when the API is not used. That is, the implementation + of the API should not be loaded at all unless it is actively used by + an extension. In addition, initialization should be delayed when + possible -- extensions ared started relatively early in the browser + startup process so any unnecessary work done during extension startup + contributes directly to sluggish browser startup. -- cgit v1.2.3