FeatureGate.sys.mjs

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/* 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

 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

import { AppConstants } from "resource://gre/modules/AppConstants.sys.mjs";

const lazy = {};

ChromeUtils.defineESModuleGetters(lazy, {

  // This is an unfortunate exception where we depend on ASRouter because

  // Nimbus has this dependency.

  // This implementation is written in a way where it will avoid requiring

  // this module if it's not available.

  ASRouterTargeting:

    // eslint-disable-next-line mozilla/no-browser-refs-in-toolkit

    "resource:///modules/asrouter/ASRouterTargeting.sys.mjs",

  FeatureGateImplementation:

    "resource://featuregates/FeatureGateImplementation.sys.mjs",

  ExperimentManager: "resource://nimbus/lib/ExperimentManager.sys.mjs",

  TargetingContext: "resource://messaging-system/targeting/Targeting.sys.mjs",

});

ChromeUtils.defineLazyGetter(lazy, "gFeatureDefinitionsPromise", async () => {

  const url = "resource://featuregates/feature_definitions.json";

  return fetchFeatureDefinitions(url);

});

const kCustomTargeting = {

  // For default values, although something like `channel == 'nightly'` kinda

  // works, local builds don't have that update channel set in that way so it

  // doesn't, and then tests fail because the defaults for the FeatureGate

  // do not match the default value in the prefs code.

  // We may in future want other things from AppConstants here, too.

  nightly_build: AppConstants.NIGHTLY_BUILD,

  thunderbird: AppConstants.MOZ_APP_NAME == "thunderbird",

};

ChromeUtils.defineLazyGetter(lazy, "defaultContexts", () => {

  let ASRouterEnv = {};

  try {

    ASRouterEnv = lazy.ASRouterTargeting.Environment;

  } catch (ex) {

    // No ASRouter; just keep going.

  return [

    kCustomTargeting,

    lazy.ExperimentManager.createTargetingContext(),

    ASRouterEnv,

];

});

function getCombinedContext(...contexts) {

  let combined = lazy.TargetingContext.combineContexts(

    ...lazy.defaultContexts,

    ...contexts

);

  return new lazy.TargetingContext(combined, {

    source: "featuregate",

});

async function fetchFeatureDefinitions(url) {

  const res = await fetch(url);

  let definitionsJson = await res.json();

  return new Map(Object.entries(definitionsJson));

async function buildFeatureGateImplementation(definition) {

  const targetValueKeys = ["defaultValue", "isPublic"];

  for (const key of targetValueKeys) {

    definition[key] = await FeatureGate.evaluateJexlValue(

      definition[key + "Jexl"]

);

  return new lazy.FeatureGateImplementation(definition);

let featureGatePrefObserver = {

  onChange() {

    FeatureGate.annotateCrashReporter();

},

  // Ignore onEnable and onDisable since onChange is called in both cases.

  onEnable() {},

  onDisable() {},

};

const kFeatureGateCache = new Map();

/** A high level control for turning features on and off. */

export class FeatureGate {

/*

   * This is structured as a class with static methods to that sphinx-js can

   * easily document it. This constructor is required for sphinx-js to detect

   * this class for documentation.

*/

  constructor() {}

/**

   * Constructs a feature gate object that is defined in ``Features.toml``.

   * This is the primary way to create a ``FeatureGate``.

   * @param {string} id The ID of the feature's definition in `Features.toml`.

   * @param {string} testDefinitionsUrl A URL from which definitions can be fetched. Only use this in tests.

   * @throws If the ``id`` passed is not defined in ``Features.toml``.

*/

  static async fromId(id, testDefinitionsUrl = undefined) {

    let featureDefinitions;

    if (testDefinitionsUrl) {

      featureDefinitions = await fetchFeatureDefinitions(testDefinitionsUrl);

    } else {

      featureDefinitions = await lazy.gFeatureDefinitionsPromise;

    if (!featureDefinitions.has(id)) {

      throw new Error(

        `Unknown feature id ${id}. Features must be defined in toolkit/components/featuregates/Features.toml`

);

    // Make a copy of the definition, since we are about to modify it

    return buildFeatureGateImplementation({ ...featureDefinitions.get(id) });

/**

   * Constructs feature gate objects for each of the definitions in ``Features.toml``.

   * @param {string} testDefinitionsUrl A URL from which definitions can be fetched. Only use this in tests.

*/

  static async all(testDefinitionsUrl = undefined) {

    let featureDefinitions;

    if (testDefinitionsUrl) {

      featureDefinitions = await fetchFeatureDefinitions(testDefinitionsUrl);

    } else {

      featureDefinitions = await lazy.gFeatureDefinitionsPromise;

    let definitions = [];

    for (let definition of featureDefinitions.values()) {

      // Make a copy of the definition, since we are about to modify it

      definitions[definitions.length] = await buildFeatureGateImplementation(

        Object.assign({}, definition)

);

    return definitions;

  static async observePrefChangesForCrashReportAnnotation(

    testDefinitionsUrl = undefined

) {

    let featureDefinitions = await FeatureGate.all(testDefinitionsUrl);

    for (let definition of featureDefinitions.values()) {

      FeatureGate.addObserver(

        definition.id,

        featureGatePrefObserver,

        testDefinitionsUrl

);

  static async annotateCrashReporter() {

    if (!Services.appinfo.crashReporterEnabled) {

      return;

    let features = await FeatureGate.all();

    let enabledFeatures = [];

    for (let feature of features) {

      if (await feature.getValue()) {

        enabledFeatures.push(feature.preference);

    Services.appinfo.annotateCrashReport(

      "ExperimentalFeatures",

      enabledFeatures.join(",")

);

/**

   * Add an observer for a feature gate by ID. If the feature is of type

   * boolean and currently enabled, `onEnable` will be called.

   * The underlying feature gate instance will be shared with all other callers

   * of this function, and share an observer.

   * @param {string} id The ID of the feature's definition in `Features.toml`.

   * @param {object} observer Functions to be called when the feature changes.

   *        All observer functions are optional.

   * @param {Function()} [observer.onEnable] Called when the feature becomes enabled.

   * @param {Function()} [observer.onDisable] Called when the feature becomes disabled.

   * @param {Function(newValue)} [observer.onChange] Called when the

   *        feature's state changes to any value. The new value will be passed to the

   *        function.

   * @param {string} testDefinitionsUrl A URL from which definitions can be fetched. Only use this in tests.

   * @returns {Promise<boolean>} The current value of the feature.

*/

  static async addObserver(id, observer, testDefinitionsUrl = undefined) {

    if (!kFeatureGateCache.has(id)) {

      kFeatureGateCache.set(

id,

        await FeatureGate.fromId(id, testDefinitionsUrl)

);

    const feature = kFeatureGateCache.get(id);

    return feature.addObserver(observer);

/**

   * Remove an observer of changes from this feature

   * @param {string} id The ID of the feature's definition in `Features.toml`.

   * @param observer Then observer that was passed to addObserver to remove.

*/

  static async removeObserver(id, observer) {

    let feature = kFeatureGateCache.get(id);

    if (!feature) {

      return;

    feature.removeObserver(observer);

    if (feature._observers.size === 0) {

      kFeatureGateCache.delete(id);

/**

   * Get the current value of this feature gate. Implementors should avoid

   * storing the result to avoid missing changes to the feature's value.

   * Consider using :func:`addObserver` if it is necessary to store the value

   * of the feature.

   * @async

   * @param {string} id The ID of the feature's definition in `Features.toml`.

   * @returns {Promise<boolean>} A promise for the value associated with this feature.

*/

  static async getValue(id, testDefinitionsUrl = undefined) {

    let feature = kFeatureGateCache.get(id);

    if (!feature) {

      feature = await FeatureGate.fromId(id, testDefinitionsUrl);

    return feature.getValue();

/**

   * An alias of `getValue` for boolean typed feature gates.

   * @async

   * @param {string} id The ID of the feature's definition in `Features.toml`.

   * @returns {Promise<boolean>} A promise for the value associated with this feature.

   * @throws {Error} If the feature is not a boolean.

*/

  static async isEnabled(id, testDefinitionsUrl = undefined) {

    let feature = kFeatureGateCache.get(id);

    if (!feature) {

      feature = await FeatureGate.fromId(id, testDefinitionsUrl);

    return feature.isEnabled();

/**

   * Take a jexl expression and evaluate it against the standard Nimbus

   * context, extended with some additional properties defined in

   * kCustomTargeting.

   * @param {String} jexlExpression The expression to evaluate.

   * @param {Object[]?} additionalContexts Any additional context properties

   *                                    that should be taken into account.

   * @returns {Promise<boolean>} Resolves to either true or false if successful,

   *          or null if there was some problem with the jexl expression (which

   *          will also log an error to the console).

*/

  static async evaluateJexlValue(jexlExpression, ...additionalContexts) {

    let result = null;

    let context = getCombinedContext(...additionalContexts);

    try {

      result = !!(await context.evalWithDefault(jexlExpression));

    } catch (ex) {

      console.error(ex);

    return result;