/* 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 { cancelIdleCallback, clearTimeout, requestIdleCallback, setTimeout, } from "resource://gre/modules/Timer.sys.mjs"; import { XPCOMUtils } from "resource://gre/modules/XPCOMUtils.sys.mjs"; import { AppConstants } from "resource://gre/modules/AppConstants.sys.mjs"; const lazy = {}; ChromeUtils.defineESModuleGetters(lazy, { PrivacyFilter: "resource://gre/modules/sessionstore/PrivacyFilter.sys.mjs", PrivateBrowsingUtils: "resource://gre/modules/PrivateBrowsingUtils.sys.mjs", RunState: "resource:///modules/sessionstore/RunState.sys.mjs", SessionFile: "resource:///modules/sessionstore/SessionFile.sys.mjs", SessionStore: "resource:///modules/sessionstore/SessionStore.sys.mjs", }); /* * Minimal interval between two save operations (in milliseconds). * * To save system resources, we generally do not save changes immediately when * a change is detected. Rather, we wait a little to see if this change is * followed by other changes, in which case only the last write is necessary. * This delay is defined by "browser.sessionstore.interval". * * Furthermore, when the user is not actively using the computer, webpages * may still perform changes that require (re)writing to sessionstore, e.g. * updating Session Cookies or DOM Session Storage, or refreshing, etc. We * expect that these changes are much less critical to the user and do not * need to be saved as often. In such cases, we increase the delay to * "browser.sessionstore.interval.idle". * * When the user returns to the computer, if a save is pending, we reschedule * it to happen soon, with "browser.sessionstore.interval". */ const PREF_INTERVAL_ACTIVE = "browser.sessionstore.interval"; const PREF_INTERVAL_IDLE = "browser.sessionstore.interval.idle"; const PREF_IDLE_DELAY = "browser.sessionstore.idleDelay"; // Notify observers about a given topic with a given subject. function notify(subject, topic) { Services.obs.notifyObservers(subject, topic); } // TelemetryStopwatch helper functions. function stopWatch(method) { return function(...histograms) { for (let hist of histograms) { TelemetryStopwatch[method]("FX_SESSION_RESTORE_" + hist); } }; } var stopWatchStart = stopWatch("start"); var stopWatchFinish = stopWatch("finish"); /** * The external API implemented by the SessionSaver module. */ export var SessionSaver = Object.freeze({ /** * Immediately saves the current session to disk. */ run() { return SessionSaverInternal.run(); }, /** * Saves the current session to disk delayed by a given amount of time. Should * another delayed run be scheduled already, we will ignore the given delay * and state saving may occur a little earlier. */ runDelayed() { SessionSaverInternal.runDelayed(); }, /** * Sets the last save time to the current time. This will cause us to wait for * at least the configured interval when runDelayed() is called next. */ updateLastSaveTime() { SessionSaverInternal.updateLastSaveTime(); }, /** * Cancels all pending session saves. */ cancel() { SessionSaverInternal.cancel(); }, }); /** * The internal API. */ var SessionSaverInternal = { /** * The timeout ID referencing an active timer for a delayed save. When no * save is pending, this is null. */ _timeoutID: null, /** * The idle callback ID referencing an active idle callback. When no idle * callback is pending, this is null. * */ _idleCallbackID: null, /** * A timestamp that keeps track of when we saved the session last. We will * this to determine the correct interval between delayed saves to not deceed * the configured session write interval. */ _lastSaveTime: 0, /** * `true` if the user has been idle for at least * `SessionSaverInternal._intervalWhileIdle` ms. Idleness is computed * with `nsIUserIdleService`. */ _isIdle: false, /** * `true` if the user was idle when we last scheduled a delayed save. * See `_isIdle` for details on idleness. */ _wasIdle: false, /** * Minimal interval between two save operations (in ms), while the user * is active. */ _intervalWhileActive: null, /** * Minimal interval between two save operations (in ms), while the user * is idle. */ _intervalWhileIdle: null, /** * How long before we assume that the user is idle (ms). */ _idleDelay: null, /** * Immediately saves the current session to disk. */ run() { return this._saveState(true /* force-update all windows */); }, /** * Saves the current session to disk delayed by a given amount of time. Should * another delayed run be scheduled already, we will ignore the given delay * and state saving may occur a little earlier. * * @param delay (optional) * The minimum delay in milliseconds to wait for until we collect and * save the current session. */ runDelayed(delay = 2000) { // Bail out if there's a pending run. if (this._timeoutID) { return; } // Interval until the next disk operation is allowed. let interval = this._isIdle ? this._intervalWhileIdle : this._intervalWhileActive; delay = Math.max(this._lastSaveTime + interval - Date.now(), delay, 0); // Schedule a state save. this._wasIdle = this._isIdle; this._timeoutID = setTimeout(() => { // Execute _saveStateAsync when we have idle time. let saveStateAsyncWhenIdle = () => { this._saveStateAsync(); }; this._idleCallbackID = requestIdleCallback(saveStateAsyncWhenIdle); }, delay); }, /** * Sets the last save time to the current time. This will cause us to wait for * at least the configured interval when runDelayed() is called next. */ updateLastSaveTime() { this._lastSaveTime = Date.now(); }, /** * Cancels all pending session saves. */ cancel() { clearTimeout(this._timeoutID); this._timeoutID = null; cancelIdleCallback(this._idleCallbackID); this._idleCallbackID = null; }, /** * Observe idle/ active notifications. */ observe(subject, topic, data) { switch (topic) { case "idle": this._isIdle = true; break; case "active": this._isIdle = false; if (this._timeoutID && this._wasIdle) { // A state save has been scheduled while we were idle. // Replace it by an active save. clearTimeout(this._timeoutID); this._timeoutID = null; this.runDelayed(); } break; default: throw new Error(`Unexpected change value ${topic}`); } }, /** * Saves the current session state. Collects data and writes to disk. * * @param forceUpdateAllWindows (optional) * Forces us to recollect data for all windows and will bypass and * update the corresponding caches. */ _saveState(forceUpdateAllWindows = false) { // Cancel any pending timeouts. this.cancel(); if (lazy.PrivateBrowsingUtils.permanentPrivateBrowsing) { // Don't save (or even collect) anything in permanent private // browsing mode this.updateLastSaveTime(); return Promise.resolve(); } stopWatchStart("COLLECT_DATA_MS"); let state = lazy.SessionStore.getCurrentState(forceUpdateAllWindows); lazy.PrivacyFilter.filterPrivateWindowsAndTabs(state); // Make sure we only write worth saving tabs to disk. lazy.SessionStore.keepOnlyWorthSavingTabs(state); // Make sure that we keep the previous session if we started with a single // private window and no non-private windows have been opened, yet. if (state.deferredInitialState) { state.windows = state.deferredInitialState.windows || []; delete state.deferredInitialState; } if (AppConstants.platform != "macosx") { // We want to restore closed windows that are marked with _shouldRestore. // We're doing this here because we want to control this only when saving // the file. while (state._closedWindows.length) { let i = state._closedWindows.length - 1; if (!state._closedWindows[i]._shouldRestore) { // We only need to go until _shouldRestore // is falsy since we're going in reverse. break; } delete state._closedWindows[i]._shouldRestore; state.windows.unshift(state._closedWindows.pop()); } } // Clear cookies and storage on clean shutdown. this._maybeClearCookiesAndStorage(state); stopWatchFinish("COLLECT_DATA_MS"); return this._writeState(state); }, /** * Purges cookies and DOMSessionStorage data from the session on clean * shutdown, only if requested by the user's preferences. */ _maybeClearCookiesAndStorage(state) { // Only do this on shutdown. if (!lazy.RunState.isClosing) { return; } // Don't clear when restarting. if ( Services.prefs.getBoolPref("browser.sessionstore.resume_session_once") ) { return; } let sanitizeCookies = Services.prefs.getBoolPref("privacy.sanitize.sanitizeOnShutdown") && Services.prefs.getBoolPref("privacy.clearOnShutdown.cookies"); if (sanitizeCookies) { // Remove cookies. delete state.cookies; // Remove DOMSessionStorage data. for (let window of state.windows) { for (let tab of window.tabs) { delete tab.storage; } } } }, /** * Saves the current session state. Collects data asynchronously and calls * _saveState() to collect data again (with a cache hit rate of hopefully * 100%) and write to disk afterwards. */ _saveStateAsync() { // Allow scheduling delayed saves again. this._timeoutID = null; // Write to disk. this._saveState(); }, /** * Write the given state object to disk. */ _writeState(state) { // We update the time stamp before writing so that we don't write again // too soon, if saving is requested before the write completes. Without // this update we may save repeatedly if actions cause a runDelayed // before writing has completed. See Bug 902280 this.updateLastSaveTime(); // Write (atomically) to a session file, using a tmp file. Once the session // file is successfully updated, save the time stamp of the last save and // notify the observers. return lazy.SessionFile.write(state).then(() => { this.updateLastSaveTime(); notify(null, "sessionstore-state-write-complete"); }, console.error); }, }; XPCOMUtils.defineLazyPreferenceGetter( SessionSaverInternal, "_intervalWhileActive", PREF_INTERVAL_ACTIVE, 15000 /* 15 seconds */, () => { // Cancel any pending runs and call runDelayed() with // zero to apply the newly configured interval. SessionSaverInternal.cancel(); SessionSaverInternal.runDelayed(0); } ); XPCOMUtils.defineLazyPreferenceGetter( SessionSaverInternal, "_intervalWhileIdle", PREF_INTERVAL_IDLE, 3600000 /* 1 h */ ); XPCOMUtils.defineLazyPreferenceGetter( SessionSaverInternal, "_idleDelay", PREF_IDLE_DELAY, 180000 /* 3 minutes */, (key, previous, latest) => { // Update the idle observer for the new `PREF_IDLE_DELAY` value. Here we need // to re-fetch the service instead of the original one in use; This is for a // case that the Mock service in the unit test needs to be fetched to // replace the original one. var idleService = Cc["@mozilla.org/widget/useridleservice;1"].getService( Ci.nsIUserIdleService ); if (previous != undefined) { idleService.removeIdleObserver(SessionSaverInternal, previous); } if (latest != undefined) { idleService.addIdleObserver(SessionSaverInternal, latest); } } ); var idleService = Cc["@mozilla.org/widget/useridleservice;1"].getService( Ci.nsIUserIdleService ); idleService.addIdleObserver( SessionSaverInternal, SessionSaverInternal._idleDelay );