const dispatch = require('../dispatch/central-dispatch'); const log = require('../util/log'); const maybeFormatMessage = require('../util/maybe-format-message'); const BlockType = require('./block-type'); // These extensions are currently built into the VM repository but should not be loaded at startup. // TODO: move these out into a separate repository? // TODO: change extension spec so that library info, including extension ID, can be collected through static methods const Scratch3PenBlocks = require('../extensions/scratch3_pen'); const Scratch3WeDo2Blocks = require('../extensions/scratch3_wedo2'); const Scratch3MusicBlocks = require('../extensions/scratch3_music'); const Scratch3MicroBitBlocks = require('../extensions/scratch3_microbit'); const Scratch3Text2SpeechBlocks = require('../extensions/scratch3_text2speech'); const Scratch3TranslateBlocks = require('../extensions/scratch3_translate'); const Scratch3VideoSensingBlocks = require('../extensions/scratch3_video_sensing'); const Scratch3Speech2TextBlocks = require('../extensions/scratch3_speech2text'); const Scratch3Ev3Blocks = require('../extensions/scratch3_ev3'); const Scratch3MakeyMakeyBlocks = require('../extensions/scratch3_makeymakey'); const Scratch3GdxForBlocks = require('../extensions/scratch3_gdx_for'); const builtinExtensions = { pen: Scratch3PenBlocks, wedo2: Scratch3WeDo2Blocks, music: Scratch3MusicBlocks, microbit: Scratch3MicroBitBlocks, text2speech: Scratch3Text2SpeechBlocks, translate: Scratch3TranslateBlocks, videoSensing: Scratch3VideoSensingBlocks, speech2text: Scratch3Speech2TextBlocks, ev3: Scratch3Ev3Blocks, makeymakey: Scratch3MakeyMakeyBlocks, gdxfor: Scratch3GdxForBlocks }; /** * @typedef {object} ArgumentInfo - Information about an extension block argument * @property {ArgumentType} type - the type of value this argument can take * @property {*|undefined} default - the default value of this argument (default: blank) */ /** * @typedef {object} ConvertedBlockInfo - Raw extension block data paired with processed data ready for scratch-blocks * @property {ExtensionBlockMetadata} info - the raw block info * @property {object} json - the scratch-blocks JSON definition for this block * @property {string} xml - the scratch-blocks XML definition for this block */ /** * @typedef {object} CategoryInfo - Information about a block category * @property {string} id - the unique ID of this category * @property {string} name - the human-readable name of this category * @property {string|undefined} blockIconURI - optional URI for the block icon image * @property {string} color1 - the primary color for this category, in '#rrggbb' format * @property {string} color2 - the secondary color for this category, in '#rrggbb' format * @property {string} color3 - the tertiary color for this category, in '#rrggbb' format * @property {Array.} blocks - the blocks, separators, etc. in this category * @property {Array.} menus - the menus provided by this category */ /** * @typedef {object} PendingExtensionWorker - Information about an extension worker still initializing * @property {string} extensionURL - the URL of the extension to be loaded by this worker * @property {Function} resolve - function to call on successful worker startup * @property {Function} reject - function to call on failed worker startup */ class ExtensionManager { constructor (runtime) { /** * The ID number to provide to the next extension worker. * @type {int} */ this.nextExtensionWorker = 0; /** * FIFO queue of extensions which have been requested but not yet loaded in a worker, * along with promise resolution functions to call once the worker is ready or failed. * * @type {Array.} */ this.pendingExtensions = []; /** * Map of worker ID to workers which have been allocated but have not yet finished initialization. * @type {Array.} */ this.pendingWorkers = []; /** * Set of loaded extension URLs/IDs (equivalent for built-in extensions). * @type {Set.} * @private */ this._loadedExtensions = new Map(); /** * Keep a reference to the runtime so we can construct internal extension objects. * TODO: remove this in favor of extensions accessing the runtime as a service. * @type {Runtime} */ this.runtime = runtime; dispatch.setService('extensions', this).catch(e => { log.error(`ExtensionManager was unable to register extension service: ${JSON.stringify(e)}`); }); } /** * Check whether an extension is registered or is in the process of loading. This is intended to control loading or * adding extensions so it may return `true` before the extension is ready to be used. Use the promise returned by * `loadExtensionURL` if you need to wait until the extension is truly ready. * @param {string} extensionID - the ID of the extension. * @returns {boolean} - true if loaded, false otherwise. */ isExtensionLoaded (extensionID) { return this._loadedExtensions.has(extensionID); } /** * Load an extension by URL or internal extension ID * @param {string} extensionURL - the URL for the extension to load OR the ID of an internal extension * @returns {Promise} resolved once the extension is loaded and initialized or rejected on failure */ loadExtensionURL (extensionURL) { if (builtinExtensions.hasOwnProperty(extensionURL)) { /** @TODO dupe handling for non-builtin extensions. See commit 670e51d33580e8a2e852b3b038bb3afc282f81b9 */ if (this.isExtensionLoaded(extensionURL)) { const message = `Rejecting attempt to load a second extension with ID ${extensionURL}`; log.warn(message); return Promise.reject(new Error(message)); } const extension = builtinExtensions[extensionURL]; const extensionInstance = new extension(this.runtime); return this._registerInternalExtension(extensionInstance).then(serviceName => { this._loadedExtensions.set(extensionURL, serviceName); }); } return new Promise((resolve, reject) => { // If we `require` this at the global level it breaks non-webpack targets, including tests const ExtensionWorker = require('worker-loader?name=extension-worker.js!./extension-worker'); this.pendingExtensions.push({extensionURL, resolve, reject}); dispatch.addWorker(new ExtensionWorker()); }); } /** * Regenerate blockinfo for any loaded extensions * @returns {Promise} resolved once all the extensions have been reinitialized */ refreshBlocks () { const allPromises = Array.from(this._loadedExtensions.values()).map(serviceName => dispatch.call(serviceName, 'getInfo') .then(info => { info = this._prepareExtensionInfo(serviceName, info); dispatch.call('runtime', '_refreshExtensionPrimitives', info); }) .catch(e => { log.error(`Failed to refresh buildtin extension primitives: ${JSON.stringify(e)}`); }) ); return Promise.all(allPromises); } allocateWorker () { const id = this.nextExtensionWorker++; const workerInfo = this.pendingExtensions.shift(); this.pendingWorkers[id] = workerInfo; return [id, workerInfo.extensionURL]; } /** * Collect extension metadata from the specified service and begin the extension registration process. * @param {string} serviceName - the name of the service hosting the extension. */ registerExtensionService (serviceName) { dispatch.call(serviceName, 'getInfo').then(info => { this._registerExtensionInfo(serviceName, info); }); } /** * Called by an extension worker to indicate that the worker has finished initialization. * @param {int} id - the worker ID. * @param {*?} e - the error encountered during initialization, if any. */ onWorkerInit (id, e) { const workerInfo = this.pendingWorkers[id]; delete this.pendingWorkers[id]; if (e) { workerInfo.reject(e); } else { workerInfo.resolve(id); } } /** * Register an internal (non-Worker) extension object * @param {object} extensionObject - the extension object to register * @returns {Promise} resolved once the extension is fully registered or rejected on failure */ _registerInternalExtension (extensionObject) { const extensionInfo = extensionObject.getInfo(); const fakeWorkerId = this.nextExtensionWorker++; const serviceName = `extension_${fakeWorkerId}_${extensionInfo.id}`; return dispatch.setService(serviceName, extensionObject) .then(() => { dispatch.call('extensions', 'registerExtensionService', serviceName); return serviceName; }); } /** * Sanitize extension info then register its primitives with the VM. * @param {string} serviceName - the name of the service hosting the extension * @param {ExtensionInfo} extensionInfo - the extension's metadata * @private */ _registerExtensionInfo (serviceName, extensionInfo) { extensionInfo = this._prepareExtensionInfo(serviceName, extensionInfo); dispatch.call('runtime', '_registerExtensionPrimitives', extensionInfo).catch(e => { log.error(`Failed to register primitives for extension on service ${serviceName}:`, e); }); } /** * Modify the provided text as necessary to ensure that it may be used as an attribute value in valid XML. * @param {string} text - the text to be sanitized * @returns {string} - the sanitized text * @private */ _sanitizeID (text) { return text.toString().replace(/[<"&]/, '_'); } /** * Apply minor cleanup and defaults for optional extension fields. * TODO: make the ID unique in cases where two copies of the same extension are loaded. * @param {string} serviceName - the name of the service hosting this extension block * @param {ExtensionInfo} extensionInfo - the extension info to be sanitized * @returns {ExtensionInfo} - a new extension info object with cleaned-up values * @private */ _prepareExtensionInfo (serviceName, extensionInfo) { extensionInfo = Object.assign({}, extensionInfo); if (!/^[a-z0-9]+$/i.test(extensionInfo.id)) { throw new Error('Invalid extension id'); } extensionInfo.name = extensionInfo.name || extensionInfo.id; extensionInfo.blocks = extensionInfo.blocks || []; extensionInfo.targetTypes = extensionInfo.targetTypes || []; extensionInfo.blocks = extensionInfo.blocks.reduce((results, blockInfo) => { try { let result; switch (blockInfo) { case '---': // separator result = '---'; break; default: // an ExtensionBlockMetadata object result = this._prepareBlockInfo(serviceName, blockInfo); break; } results.push(result); } catch (e) { // TODO: more meaningful error reporting log.error(`Error processing block: ${e.message}, Block:\n${JSON.stringify(blockInfo)}`); } return results; }, []); extensionInfo.menus = extensionInfo.menus || []; extensionInfo.menus = this._prepareMenuInfo(serviceName, extensionInfo.menus); return extensionInfo; } /** * Prepare extension menus. e.g. setup binding for dynamic menu functions. * @param {string} serviceName - the name of the service hosting this extension block * @param {Array.} menus - the menu defined by the extension. * @returns {Array.} - a menuInfo object with all preprocessing done. * @private */ _prepareMenuInfo (serviceName, menus) { const menuNames = Object.getOwnPropertyNames(menus); for (let i = 0; i < menuNames.length; i++) { const item = menuNames[i]; // If the value is a string, it should be the name of a function in the // extension object to call to populate the menu whenever it is opened. // Set up the binding for the function object here so // we can use it later when converting the menu for Scratch Blocks. if (typeof menus[item] === 'string') { const serviceObject = dispatch.services[serviceName]; const menuName = menus[item]; menus[item] = this._getExtensionMenuItems.bind(this, serviceObject, menuName); } } return menus; } /** * Fetch the items for a particular extension menu, providing the target ID for context. * @param {object} extensionObject - the extension object providing the menu. * @param {string} menuName - the name of the menu function to call. * @returns {Array} menu items ready for scratch-blocks. * @private */ _getExtensionMenuItems (extensionObject, menuName) { // Fetch the items appropriate for the target currently being edited. This assumes that menus only // collect items when opened by the user while editing a particular target. const editingTarget = this.runtime.getEditingTarget() || this.runtime.getTargetForStage(); const editingTargetID = editingTarget ? editingTarget.id : null; const extensionMessageContext = this.runtime.makeMessageContextForTarget(editingTarget); // TODO: Fix this to use dispatch.call when extensions are running in workers. const menuFunc = extensionObject[menuName]; const menuItems = menuFunc.call(extensionObject, editingTargetID).map( item => { item = maybeFormatMessage(item, extensionMessageContext); if (typeof item === 'object') { return [ maybeFormatMessage(item.text, extensionMessageContext), item.value ]; } return item; }); if (!menuItems || menuItems.length < 1) { throw new Error(`Extension menu returned no items: ${menuName}`); } return menuItems; } /** * Apply defaults for optional block fields. * @param {string} serviceName - the name of the service hosting this extension block * @param {ExtensionBlockMetadata} blockInfo - the block info from the extension * @returns {ExtensionBlockMetadata} - a new block info object which has values for all relevant optional fields. * @private */ _prepareBlockInfo (serviceName, blockInfo) { blockInfo = Object.assign({}, { blockType: BlockType.COMMAND, terminal: false, blockAllThreads: false, arguments: {} }, blockInfo); blockInfo.opcode = this._sanitizeID(blockInfo.opcode); blockInfo.text = blockInfo.text || blockInfo.opcode; if (blockInfo.blockType !== BlockType.EVENT) { blockInfo.func = blockInfo.func ? this._sanitizeID(blockInfo.func) : blockInfo.opcode; /** * This is only here because the VM performs poorly when blocks return promises. * @TODO make it possible for the VM to resolve a promise and continue during the same Scratch "tick" */ if (dispatch._isRemoteService(serviceName)) { blockInfo.func = dispatch.call.bind(dispatch, serviceName, blockInfo.func); } else { const serviceObject = dispatch.services[serviceName]; const func = serviceObject[blockInfo.func]; if (func) { blockInfo.func = func.bind(serviceObject); } else if (blockInfo.blockType !== BlockType.EVENT) { throw new Error(`Could not find extension block function called ${blockInfo.func}`); } } } else if (blockInfo.func) { log.warn(`Ignoring function "${blockInfo.func}" for event block ${blockInfo.opcode}`); } return blockInfo; } } module.exports = ExtensionManager;