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/* -*- Mode: indent-tabs-mode: nil; js-indent-level: 2 -*- */
/* vim: set sts=2 sw=2 et tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
import { ExtensionUtils } from "resource://gre/modules/ExtensionUtils.sys.mjs";
import { ExtensionParent } from "resource://gre/modules/ExtensionParent.sys.mjs";
const { StartupCache } = ExtensionParent;
const lazy = {};
ChromeUtils.defineESModuleGetters(lazy, {
FileUtils: "resource://gre/modules/FileUtils.sys.mjs",
KeyValueService: "resource://gre/modules/kvstore.sys.mjs",
});
class Store {
async _init() {
const { path: storePath } = lazy.FileUtils.getDir("ProfD", [
"extension-store",
]);
// Make sure the folder exists.
await IOUtils.makeDirectory(storePath, { ignoreExisting: true });
this._store = await lazy.KeyValueService.getOrCreateWithOptions(
storePath,
"scripting-contentScripts",
{ strategy: lazy.KeyValueService.RecoveryStrategy.RENAME }
);
}
lazyInit() {
if (!this._initPromise) {
this._initPromise = this._init();
}
return this._initPromise;
}
_uninitForTesting() {
this._store = null;
this._initPromise = null;
}
/**
* Returns all the stored scripts for a given extension (ID).
*
* @param {string} extensionId An extension ID
* @returns {Promise<Array>} An array of scripts
*/
async getAll(extensionId) {
await this.lazyInit();
const pairs = await this.getByExtensionId(extensionId);
return pairs.map(([_, script]) => script);
}
/**
* Writes all the scripts provided for a given extension (ID) to the internal
* store (which is eventually stored on disk).
*
* We store each script of an extension as a key/value pair where the key is
* `<extensionId>/<scriptId>` and the value is the corresponding script
* details as a JSON string.
*
* The format on disk should look like this one:
*
* ```
* {
* "@extension-id/script-1": {"id: "script-1", <other props>},
* "@extension-id/script-2": {"id: "script-2", <other props>}
* }
* ```
*
* @param {string} extensionId An extension ID
* @param {Array} scripts An array of scripts to store on disk
*/
async writeMany(extensionId, scripts) {
await this.lazyInit();
return this._store.writeMany(
scripts.map(script => [
`${extensionId}/${script.id}`,
JSON.stringify(script),
])
);
}
/**
* Deletes all the stored scripts for a given extension (ID).
*
* @param {string} extensionId An extension ID
*/
async deleteAll(extensionId) {
await this.lazyInit();
const pairs = await this.getByExtensionId(extensionId);
return Promise.all(pairs.map(([key, _]) => this._store.delete(key)));
}
/**
* Returns an array of key/script pairs from the internal store belonging to
* the given extension (ID).
*
* The data returned by this method should look like this (assuming we have
* two scripts named `script-1` and `script-2` for the extension with ID
* `@extension-id`):
*
* ```
* [
* ["@extension-id/script-1", {"id: "script-1", <other props>}],
* ["@extension-id/script-2", {"id: "script-2", <other props>}]
* ]
* ```
*
* @param {string} extensionId An extension ID
* @returns {Promise<Array>} An array of key/script pairs
*/
async getByExtensionId(extensionId) {
await this.lazyInit();
const entries = [];
// Retrieve all the scripts registered for the given extension ID by
// enumerating all keys that are stored in a lexical order.
const enumerator = await this._store.enumerate(
`${extensionId}/`, // from_key (inclusive)
`${extensionId}0` // to_key (exclusive)
);
while (enumerator.hasMoreElements()) {
const { key, value } = enumerator.getNext();
entries.push([key, JSON.parse(value)]);
}
return entries;
}
}
const store = new Store();
/**
* Given an extension and some content script options, this function returns
* the content script representation we use internally, which is an object with
* a `scriptId` and a nested object containing `options`. These (internal)
* objects are shared with all content processes using IPC/sharedData.
*
* This function can optionally prepend the extension's base URL to the CSS and
* JS paths, which is needed when we load internal scripts from the scripting
* store (because the UUID in the base URL changes).
*
* @param {Extension} extension
* The extension that owns the content script.
* @param {object} options
* Content script options.
* @param {boolean} prependBaseURL
* Whether to prepend JS and CSS paths with the extension's base URL.
*
* @returns {object}
*/
export const makeInternalContentScript = (
extension,
options,
prependBaseURL = false
) => {
let cssPaths = options.css || [];
let jsPaths = options.js || [];
if (prependBaseURL) {
cssPaths = cssPaths.map(css => `${extension.baseURL}${css}`);
jsPaths = jsPaths.map(js => `${extension.baseURL}${js}`);
}
return {
scriptId: ExtensionUtils.getUniqueId(),
options: {
// We need to store the user-supplied script ID for persisted scripts.
id: options.id,
allFrames: options.allFrames || false,
// Although this flag defaults to true with MV3, it is not with MV2.
// Check permissions at runtime since we aren't checking permissions
// upfront.
checkPermissions: true,
cssPaths,
excludeMatches: options.excludeMatches,
jsPaths,
matches: options.matches,
matchOriginAsFallback: options.matchOriginAsFallback || false,
originAttributesPatterns: null,
persistAcrossSessions: options.persistAcrossSessions,
runAt: options.runAt || "document_idle",
world: options.world || "ISOLATED",
},
};
};
/**
* Given an internal content script registered with the "scripting" API (and an
* extension), this function returns a new object that matches the public
* "scripting" API.
*
* This function is primarily in `scripting.getRegisteredContentScripts()`.
*
* @param {Extension} extension
* The extension that owns the content script.
* @param {object} internalScript
* An internal script (see also: `makeInternalContentScript()`).
*
* @returns {object}
*/
export const makePublicContentScript = (extension, internalScript) => {
let script = {
id: internalScript.id,
allFrames: internalScript.allFrames,
matches: internalScript.matches,
matchOriginAsFallback: internalScript.matchOriginAsFallback,
runAt: internalScript.runAt,
world: internalScript.world,
persistAcrossSessions: internalScript.persistAcrossSessions,
};
if (internalScript.cssPaths.length) {
script.css = internalScript.cssPaths.map(cssPath =>
cssPath.replace(extension.baseURL, "")
);
}
if (internalScript.excludeMatches?.length) {
script.excludeMatches = internalScript.excludeMatches;
}
if (internalScript.jsPaths.length) {
script.js = internalScript.jsPaths.map(jsPath =>
jsPath.replace(extension.baseURL, "")
);
}
return script;
};
export const ExtensionScriptingStore = {
async initExtension(extension) {
let scripts;
// On downgrades/upgrades (and re-installation on top of an existing one),
// we do clear any previously stored scripts and return earlier.
switch (extension.startupReason) {
case "ADDON_INSTALL":
case "ADDON_UPGRADE":
case "ADDON_DOWNGRADE":
// On extension upgrades/downgrades the StartupCache data for the
// extension would already be cleared, and so we set the hasPersistedScripts
// flag here just to avoid having to check that (by loading the rkv store data)
// on the next startup.
StartupCache.general.set(
[extension.id, extension.version, "scripting", "hasPersistedScripts"],
false
);
store.deleteAll(extension.id);
return;
}
const hasPersistedScripts = await StartupCache.get(
extension,
["scripting", "hasPersistedScripts"],
async () => {
scripts = await store.getAll(extension.id);
return !!scripts.length;
}
);
if (!hasPersistedScripts) {
return;
}
// Load the scripts from the storage, then convert them to their internal
// representation and add them to the extension's registered scripts.
scripts ??= await store.getAll(extension.id);
scripts.forEach(script => {
const { scriptId, options } = makeInternalContentScript(
extension,
script,
true /* prepend the css/js paths with the extension base URL */
);
extension.registeredContentScripts.set(scriptId, options);
});
},
getInitialScriptIdsMap(extension) {
// This returns the current map of public script IDs to internal IDs.
// `extension.registeredContentScripts` is initialized in `initExtension`,
// which may be updated later via the scripting API. In practice, the map
// of script IDs is retrieved before any scripting API method is exposed,
// so the return value always matches the initial result from
// `initExtension`.
return new Map(
Array.from(extension.registeredContentScripts.entries())
.filter(
// Filter out entries without an options.id property, which are the
// ones registered through the contentScripts API namespace where the
// id attribute is not allowed, while it is mandatory for the
// scripting API namespace.
([_id, options]) => options.id?.length
)
.map(([scriptId, options]) => [options.id, scriptId])
);
},
async persistAll(extension) {
// We only persist the scripts that should be persisted and we convert each
// script to their "public" representation before storing them. This is
// because we don't want to deal with data migrations if we ever want to
// change the internal representation (the "public" representation is less
// likely to change because it is bound to the public scripting API).
const scripts = Array.from(extension.registeredContentScripts.values())
.filter(options => options.persistAcrossSessions)
.map(options => makePublicContentScript(extension, options));
// We want to replace all the scripts for the extension so we should delete
// the existing ones first, and then write the new ones.
//
// data to be erased and written.
await store.deleteAll(extension.id);
await store.writeMany(extension.id, scripts);
StartupCache.general.set(
[extension.id, extension.version, "scripting", "hasPersistedScripts"],
!!scripts.length
);
},
// Delete all the persisted scripts for the given extension (id).
//
// NOTE: to be only used on addon uninstall, the extension entry in the StartupCache
// is expected to also be fully cleared as part of handling the addon uninstall.
async clearOnUninstall(extensionId) {
await store.deleteAll(extensionId);
},
// As its name implies, don't use this method for anything but an easy access
// to the internal store for testing purposes.
_getStoreForTesting() {
return store;
},
};