/* 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/. */ /** * Handles serialization of the data and persistence into a file. * * This modules handles the raw data stored in JavaScript serializable objects, * and contains no special validation or query logic, that is handled entirely * by "storage.js" instead. * * The data can be manipulated only after it has been loaded from disk. The * load process can happen asynchronously, through the "load" method, or * synchronously, through "ensureDataReady". After any modification, the * "saveSoon" method must be called to flush the data to disk asynchronously. * * The raw data should be manipulated synchronously, without waiting for the * event loop or for promise resolution, so that the saved file is always * consistent. This synchronous approach also simplifies the query and update * logic. For example, it is possible to find an object and modify it * immediately without caring whether other code modifies it in the meantime. * * An asynchronous shutdown observer makes sure that data is always saved before * the browser is closed. The data cannot be modified during shutdown. * * The file is stored in JSON format, without indentation, using UTF-8 encoding. */ "use strict"; var EXPORTED_SYMBOLS = ["JSONFile"]; // Globals const { XPCOMUtils } = ChromeUtils.import( "resource://gre/modules/XPCOMUtils.jsm" ); ChromeUtils.defineModuleGetter( this, "AsyncShutdown", "resource://gre/modules/AsyncShutdown.jsm" ); ChromeUtils.defineModuleGetter( this, "DeferredTask", "resource://gre/modules/DeferredTask.jsm" ); ChromeUtils.defineModuleGetter( this, "FileUtils", "resource://gre/modules/FileUtils.jsm" ); ChromeUtils.defineModuleGetter(this, "OS", "resource://gre/modules/osfile.jsm"); ChromeUtils.defineModuleGetter( this, "NetUtil", "resource://gre/modules/NetUtil.jsm" ); XPCOMUtils.defineLazyGetter(this, "gTextDecoder", function() { return new TextDecoder(); }); XPCOMUtils.defineLazyGetter(this, "gTextEncoder", function() { return new TextEncoder(); }); const FileInputStream = Components.Constructor( "@mozilla.org/network/file-input-stream;1", "nsIFileInputStream", "init" ); /** * Delay between a change to the data and the related save operation. */ const kSaveDelayMs = 1500; // JSONFile /** * Handles serialization of the data and persistence into a file. * * @param config An object containing following members: * - path: String containing the file path where data should be saved. * - dataPostProcessor: Function triggered when data is just loaded. The * data object will be passed as the first argument * and should be returned no matter it's modified or * not. Its failure leads to the failure of load() * and ensureDataReady(). * - saveDelayMs: Number indicating the delay (in milliseconds) between a * change to the data and the related save operation. The * default value will be applied if omitted. * - beforeSave: Promise-returning function triggered just before the * data is written to disk. This can be used to create any * intermediate directories before saving. The file will * not be saved if the promise rejects or the function * throws an exception. * - finalizeAt: An `AsyncShutdown` phase or barrier client that should * automatically finalize the file when triggered. Defaults * to `profileBeforeChange`; exposed as an option for * testing. * - compression: A compression algorithm to use when reading and * writing the data. */ function JSONFile(config) { this.path = config.path; if (typeof config.dataPostProcessor === "function") { this._dataPostProcessor = config.dataPostProcessor; } if (typeof config.beforeSave === "function") { this._beforeSave = config.beforeSave; } if (config.saveDelayMs === undefined) { config.saveDelayMs = kSaveDelayMs; } this._saver = new DeferredTask(() => this._save(), config.saveDelayMs); this._options = {}; if (config.compression) { this._options.compression = config.compression; } this._finalizeAt = config.finalizeAt || AsyncShutdown.profileBeforeChange; this._finalizeInternalBound = this._finalizeInternal.bind(this); this._finalizeAt.addBlocker( "JSON store: writing data", this._finalizeInternalBound ); } JSONFile.prototype = { /** * String containing the file path where data should be saved. */ path: "", /** * True when data has been loaded. */ dataReady: false, /** * DeferredTask that handles the save operation. */ _saver: null, /** * Internal data object. */ _data: null, /** * Internal fields used during finalization. */ _finalizeAt: null, _finalizePromise: null, _finalizeInternalBound: null, /** * Serializable object containing the data. This is populated directly with * the data loaded from the file, and is saved without modifications. * * The raw data should be manipulated synchronously, without waiting for the * event loop or for promise resolution, so that the saved file is always * consistent. */ get data() { if (!this.dataReady) { throw new Error("Data is not ready."); } return this._data; }, /** * Sets the loaded data to a new object. This will overwrite any persisted * data on the next save. */ set data(data) { this._data = data; this.dataReady = true; }, /** * Loads persistent data from the file to memory. * * @return {Promise} * @resolves When the operation finished successfully. * @rejects JavaScript exception when dataPostProcessor fails. It never fails * if there is no dataPostProcessor. */ async load() { if (this.dataReady) { return; } let data = {}; try { let bytes = await OS.File.read(this.path, this._options); // If synchronous loading happened in the meantime, exit now. if (this.dataReady) { return; } data = JSON.parse(gTextDecoder.decode(bytes)); } catch (ex) { // If an exception occurred because the file did not exist, we should // just start with new data. Other errors may indicate that the file is // corrupt, thus we move it to a backup location before allowing it to // be overwritten by an empty file. if (!(ex instanceof OS.File.Error && ex.becauseNoSuchFile)) { Cu.reportError(ex); // Move the original file to a backup location, ignoring errors. try { let openInfo = await OS.File.openUnique(this.path + ".corrupt", { humanReadable: true, }); await openInfo.file.close(); await OS.File.move(this.path, openInfo.path); } catch (e2) { Cu.reportError(e2); } } // In some rare cases it's possible for data to have been added to // our database between the call to OS.File.read and when we've been // notified that there was a problem with it. In that case, leave the // synchronously-added data alone. if (this.dataReady) { return; } } this._processLoadedData(data); }, /** * Loads persistent data from the file to memory, synchronously. An exception * can be thrown only if dataPostProcessor exists and fails. */ ensureDataReady() { if (this.dataReady) { return; } let data = {}; try { // This reads the file and automatically detects the UTF-8 encoding. let inputStream = new FileInputStream( new FileUtils.File(this.path), FileUtils.MODE_RDONLY, FileUtils.PERMS_FILE, 0 ); try { let bytes = NetUtil.readInputStream( inputStream, inputStream.available() ); data = JSON.parse(gTextDecoder.decode(bytes)); } finally { inputStream.close(); } } catch (ex) { // If an exception occurred because the file did not exist, we should just // start with new data. Other errors may indicate that the file is // corrupt, thus we move it to a backup location before allowing it to be // overwritten by an empty file. if ( !( ex instanceof Components.Exception && ex.result == Cr.NS_ERROR_FILE_NOT_FOUND ) ) { Cu.reportError(ex); // Move the original file to a backup location, ignoring errors. try { let originalFile = new FileUtils.File(this.path); let backupFile = originalFile.clone(); backupFile.leafName += ".corrupt"; backupFile.createUnique( Ci.nsIFile.NORMAL_FILE_TYPE, FileUtils.PERMS_FILE ); backupFile.remove(false); originalFile.moveTo(backupFile.parent, backupFile.leafName); } catch (e2) { Cu.reportError(e2); } } } this._processLoadedData(data); }, /** * Called when the data changed, this triggers asynchronous serialization. */ saveSoon() { return this._saver.arm(); }, /** * Saves persistent data from memory to the file. * * If an error occurs, the previous file is not deleted. * * @return {Promise} * @resolves When the operation finished successfully. * @rejects JavaScript exception. */ async _save() { let json; try { json = JSON.stringify(this._data); } catch (e) { // If serialization fails, try fallback safe JSON converter. if (typeof this._data.toJSONSafe == "function") { json = JSON.stringify(this._data.toJSONSafe()); } else { throw e; } } // Create or overwrite the file. let bytes = gTextEncoder.encode(json); if (this._beforeSave) { await Promise.resolve(this._beforeSave()); } await OS.File.writeAtomic( this.path, bytes, Object.assign({ tmpPath: this.path + ".tmp" }, this._options) ); }, /** * Synchronously work on the data just loaded into memory. */ _processLoadedData(data) { if (this._finalizePromise) { // It's possible for `load` to race with `finalize`. In that case, don't // process or set the loaded data. return; } this.data = this._dataPostProcessor ? this._dataPostProcessor(data) : data; }, /** * Finishes persisting data to disk and resets all state for this file. * * @return {Promise} * @resolves When the object is finalized. */ _finalizeInternal() { if (this._finalizePromise) { // Finalization already in progress; return the pending promise. This is // possible if `finalize` is called concurrently with shutdown. return this._finalizePromise; } this._finalizePromise = (async () => { await this._saver.finalize(); this._data = null; this.dataReady = false; })(); return this._finalizePromise; }, /** * Ensures that all data is persisted to disk, and prevents future calls to * `saveSoon`. This is called automatically on shutdown, but can also be * called explicitly when the file is no longer needed. */ async finalize() { if (this._finalizePromise) { throw new Error(`The file ${this.path} has already been finalized`); } // Wait for finalization before removing the shutdown blocker. await this._finalizeInternal(); this._finalizeAt.removeBlocker(this._finalizeInternalBound); }, };