/* 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/. */ ;((factory) => { // Module boilerplate :( if (typeof(require) === 'function') { // CommonJS require("chrome").Cu.import(module.uri, exports); } else if (typeof Components != 'undefined') { // JSM let module = { uri: __URI__, id: "toolkit/loader", exports: Object.create(null) } factory(module); Object.assign(this, module.exports); this.EXPORTED_SYMBOLS = Object.getOwnPropertyNames(module.exports); } else { throw Error("Loading environment is not supported"); } })(module => { 'use strict'; module.metadata = { "stability": "unstable" }; const { classes: Cc, Constructor: CC, interfaces: Ci, utils: Cu, results: Cr, manager: Cm } = Components; const systemPrincipal = CC('@mozilla.org/systemprincipal;1', 'nsIPrincipal')(); const { loadSubScript } = Cc['@mozilla.org/moz/jssubscript-loader;1']. getService(Ci.mozIJSSubScriptLoader); const { addObserver, notifyObservers } = Cc['@mozilla.org/observer-service;1']. getService(Ci.nsIObserverService); const { XPCOMUtils } = Cu.import("resource://gre/modules/XPCOMUtils.jsm", {}); const { NetUtil } = Cu.import("resource://gre/modules/NetUtil.jsm", {}); const { join: pathJoin, normalize, dirname } = Cu.import("resource://gre/modules/osfile/ospath_unix.jsm"); XPCOMUtils.defineLazyServiceGetter(this, "resProto", "@mozilla.org/network/protocol;1?name=resource", "nsIResProtocolHandler"); XPCOMUtils.defineLazyServiceGetter(this, "zipCache", "@mozilla.org/libjar/zip-reader-cache;1", "nsIZipReaderCache"); XPCOMUtils.defineLazyGetter(this, "XulApp", () => { let xulappURI = module.uri.replace("toolkit/loader.js", "sdk/system/xul-app.jsm"); return Cu.import(xulappURI, {}); }); // Define some shortcuts. const bind = Function.call.bind(Function.bind); const getOwnPropertyDescriptor = Object.getOwnPropertyDescriptor; const prototypeOf = Object.getPrototypeOf; const getOwnIdentifiers = x => [...Object.getOwnPropertyNames(x), ...Object.getOwnPropertySymbols(x)]; const NODE_MODULES = new Set([ "assert", "buffer_ieee754", "buffer", "child_process", "cluster", "console", "constants", "crypto", "_debugger", "dgram", "dns", "domain", "events", "freelist", "fs", "http", "https", "_linklist", "module", "net", "os", "path", "punycode", "querystring", "readline", "repl", "stream", "string_decoder", "sys", "timers", "tls", "tty", "url", "util", "vm", "zlib", ]); const COMPONENT_ERROR = '`Components` is not available in this context.\n' + 'Functionality provided by Components may be available in an SDK\n' + 'module: https://developer.mozilla.org/en-US/Add-ons/SDK \n\n' + 'However, if you still need to import Components, you may use the\n' + '`chrome` module\'s properties for shortcuts to Component properties:\n\n' + 'Shortcuts: \n' + ' Cc = Components' + '.classes \n' + ' Ci = Components' + '.interfaces \n' + ' Cu = Components' + '.utils \n' + ' CC = Components' + '.Constructor \n' + 'Example: \n' + ' let { Cc, Ci } = require(\'chrome\');\n'; // Workaround for bug 674195. Freezing objects from other compartments fail, // so we use `Object.freeze` from the same component instead. function freeze(object) { if (prototypeOf(object) === null) { Object.freeze(object); } else { prototypeOf(prototypeOf(object.isPrototypeOf)). constructor. // `Object` from the owner compartment. freeze(object); } return object; } // Returns map of given `object`-s own property descriptors. const descriptor = iced(function descriptor(object) { let value = {}; getOwnIdentifiers(object).forEach(function(name) { value[name] = getOwnPropertyDescriptor(object, name) }); return value; }); Loader.descriptor = descriptor; // Freeze important built-ins so they can't be used by untrusted code as a // message passing channel. freeze(Object); freeze(Object.prototype); freeze(Function); freeze(Function.prototype); freeze(Array); freeze(Array.prototype); freeze(String); freeze(String.prototype); // This function takes `f` function sets it's `prototype` to undefined and // freezes it. We need to do this kind of deep freeze with all the exposed // functions so that untrusted code won't be able to use them a message // passing channel. function iced(f) { if (!Object.isFrozen(f)) { f.prototype = undefined; } return freeze(f); } // Defines own properties of given `properties` object on the given // target object overriding any existing property with a conflicting name. // Returns `target` object. Note we only export this function because it's // useful during loader bootstrap when other util modules can't be used & // thats only case where this export should be used. const override = iced(function override(target, source) { let properties = descriptor(target) let extension = descriptor(source || {}) getOwnIdentifiers(extension).forEach(function(name) { properties[name] = extension[name]; }); return Object.defineProperties({}, properties); }); Loader.override = override; function sourceURI(uri) { return String(uri).split(" -> ").pop(); } Loader.sourceURI = iced(sourceURI); function isntLoaderFrame(frame) { return frame.fileName !== module.uri } function parseURI(uri) { return String(uri).split(" -> ").pop(); } Loader.parseURI = parseURI; function parseStack(stack) { let lines = String(stack).split("\n"); return lines.reduce(function(frames, line) { if (line) { let atIndex = line.indexOf("@"); let columnIndex = line.lastIndexOf(":"); let lineIndex = line.lastIndexOf(":", columnIndex - 1); let fileName = parseURI(line.slice(atIndex + 1, lineIndex)); let lineNumber = parseInt(line.slice(lineIndex + 1, columnIndex)); let columnNumber = parseInt(line.slice(columnIndex + 1)); let name = line.slice(0, atIndex).split("(").shift(); frames.unshift({ fileName: fileName, name: name, lineNumber: lineNumber, columnNumber: columnNumber }); } return frames; }, []); } Loader.parseStack = parseStack; function serializeStack(frames) { return frames.reduce(function(stack, frame) { return frame.name + "@" + frame.fileName + ":" + frame.lineNumber + ":" + frame.columnNumber + "\n" + stack; }, ""); } Loader.serializeStack = serializeStack; class DefaultMap extends Map { constructor(createItem, items = undefined) { super(items); this.createItem = createItem; } get(key) { if (!this.has(key)) { this.set(key, this.createItem(key)); } return super.get(key); } } const urlCache = { /** * Returns a list of fully-qualified URLs for entries within the zip * file at the given URI which are either directories or files with a * .js or .json extension. * * @param {nsIJARURI} uri * @param {string} baseURL * The original base URL, prior to resolution. * * @returns {Set} */ getZipFileContents(uri, baseURL) { // Make sure the path has a trailing slash, and strip off the leading // slash, so that we can easily check whether it is a path prefix. let basePath = addTrailingSlash(uri.JAREntry).slice(1); let file = uri.JARFile.QueryInterface(Ci.nsIFileURL).file; let enumerator = zipCache.getZip(file).findEntries("(*.js|*.json|*/)"); let results = new Set(); for (let entry of XPCOMUtils.IterStringEnumerator(enumerator)) { if (entry.startsWith(basePath)) { let path = entry.slice(basePath.length); results.add(baseURL + path); } } return results; }, zipContentsCache: new DefaultMap(baseURL => { let uri = NetUtil.newURI(baseURL); if (baseURL.startsWith("resource:")) { uri = NetUtil.newURI(resProto.resolveURI(uri)); } if (uri instanceof Ci.nsIJARURI) { return urlCache.getZipFileContents(uri, baseURL); } return null; }), filesCache: new DefaultMap(url => { try { let uri = NetUtil.newURI(url).QueryInterface(Ci.nsIFileURL); return uri.file.exists(); } catch (e) { return false; } }), QueryInterface: XPCOMUtils.generateQI([Ci.nsISupportsWeakReference]), observe() { // Clear any module resolution caches when the startup cache is flushed, // since it probably means we're loading new copies of extensions. this.zipContentsCache.clear(); this.filesCache.clear(); }, /** * Returns the base URL for the given URL, if one can be determined. For * a resource: URL, this is the root of the resource package. For a jar: * URL, it is the root of the JAR file. Otherwise, null is returned. * * @param {string} url * @returns {string?} */ getBaseURL(url) { // By using simple string matching for the common case of resource: URLs // backed by jar: URLs, we can avoid creating any nsIURI objects for the // common case where the JAR contents are already cached. if (url.startsWith("resource://")) { return /^resource:\/\/[^\/]+\//.exec(url)[0]; } let uri = NetUtil.newURI(url); if (uri instanceof Ci.nsIJARURI) { return `jar:${uri.JARFile.spec}!/`; } return null; }, /** * Returns true if the target of the given URL exists as a local file, * or as an entry in a local zip file. * * @param {string} url * @returns {boolean} */ exists(url) { if (!/\.(?:js|json)$/.test(url)) { url = addTrailingSlash(url); } let baseURL = this.getBaseURL(url); let scripts = baseURL && this.zipContentsCache.get(baseURL); if (scripts) { return scripts.has(url); } return this.filesCache.get(url); }, } addObserver(urlCache, "startupcache-invalidate", true); function readURI(uri) { let nsURI = NetUtil.newURI(uri); if (nsURI.scheme == "resource") { // Resolve to a real URI, this will catch any obvious bad paths without // logging assertions in debug builds, see bug 1135219 uri = resProto.resolveURI(nsURI); } let stream = NetUtil.newChannel({ uri: NetUtil.newURI(uri, 'UTF-8'), loadUsingSystemPrincipal: true} ).open2(); let count = stream.available(); let data = NetUtil.readInputStreamToString(stream, count, { charset: 'UTF-8' }); stream.close(); return data; } // Combines all arguments into a resolved, normalized path function join(base, ...paths) { // If this is an absolute URL, we need to normalize only the path portion, // or we wind up stripping too many slashes and producing invalid URLs. let match = /^((?:resource|file|chrome)\:\/\/[^\/]*|jar:[^!]+!)(.*)/.exec(base); if (match) { return match[1] + normalize(pathJoin(match[2], ...paths)); } return normalize(pathJoin(base, ...paths)); } Loader.join = join; // Function takes set of options and returns a JS sandbox. Function may be // passed set of options: // - `name`: A string value which identifies the sandbox in about:memory. Will // throw exception if omitted. // - `principal`: String URI or `nsIPrincipal` for the sandbox. Defaults to // system principal. // - `prototype`: Ancestor for the sandbox that will be created. Defaults to // `{}`. // - `wantXrays`: A Boolean value indicating whether code outside the sandbox // wants X-ray vision with respect to objects inside the sandbox. Defaults // to `true`. // - `sandbox`: A sandbox to share JS compartment with. If omitted new // compartment will be created. // - `metadata`: A metadata object associated with the sandbox. It should // be JSON-serializable. // For more details see: // https://developer.mozilla.org/en/Components.utils.Sandbox const Sandbox = iced(function Sandbox(options) { // Normalize options and rename to match `Cu.Sandbox` expectations. options = { // Do not expose `Components` if you really need them (bad idea!) you // still can expose via prototype. wantComponents: false, sandboxName: options.name, principal: 'principal' in options ? options.principal : systemPrincipal, wantXrays: 'wantXrays' in options ? options.wantXrays : true, wantGlobalProperties: 'wantGlobalProperties' in options ? options.wantGlobalProperties : [], sandboxPrototype: 'prototype' in options ? options.prototype : {}, invisibleToDebugger: 'invisibleToDebugger' in options ? options.invisibleToDebugger : false, metadata: 'metadata' in options ? options.metadata : {}, waiveIntereposition: !!options.waiveIntereposition }; if (options.metadata && options.metadata.addonID) { options.addonId = options.metadata.addonID; } let sandbox = Cu.Sandbox(options.principal, options); // Each sandbox at creation gets set of own properties that will be shadowing // ones from it's prototype. We override delete such `sandbox` properties // to avoid shadowing. delete sandbox.Iterator; delete sandbox.Components; delete sandbox.importFunction; delete sandbox.debug; return sandbox; }); Loader.Sandbox = Sandbox; // Evaluates code from the given `uri` into given `sandbox`. If // `options.source` is passed, then that code is evaluated instead. // Optionally following options may be given: // - `options.encoding`: Source encoding, defaults to 'UTF-8'. // - `options.line`: Line number to start count from for stack traces. // Defaults to 1. // - `options.version`: Version of JS used, defaults to '1.8'. const evaluate = iced(function evaluate(sandbox, uri, options) { let { source, line, version, encoding } = override({ encoding: 'UTF-8', line: 1, version: '1.8', source: null }, options); return source ? Cu.evalInSandbox(source, sandbox, version, uri, line) : loadSubScript(uri, sandbox, encoding); }); Loader.evaluate = evaluate; // Populates `exports` of the given CommonJS `module` object, in the context // of the given `loader` by evaluating code associated with it. const load = iced(function load(loader, module) { let { sandboxes, globals, loadModuleHook } = loader; let require = Require(loader, module); // We expose set of properties defined by `CommonJS` specification via // prototype of the sandbox. Also globals are deeper in the prototype // chain so that each module has access to them as well. let descriptors = descriptor({ require: require, module: module, exports: module.exports, get Components() { // Expose `Components` property to throw error on usage with // additional information throw new ReferenceError(COMPONENT_ERROR); } }); let sandbox; if ((loader.useSharedGlobalSandbox || isSystemURI(module.uri)) && loader.sharedGlobalBlocklist.indexOf(module.id) == -1) { // Create a new object in this sandbox, that will be used as // the scope object for this particular module sandbox = new loader.sharedGlobalSandbox.Object(); // Inject all expected globals in the scope object getOwnIdentifiers(globals).forEach(function(name) { descriptors[name] = getOwnPropertyDescriptor(globals, name) descriptors[name].configurable = true; }); Object.defineProperties(sandbox, descriptors); } else { sandbox = Sandbox({ name: module.uri, prototype: Object.create(globals, descriptors), wantXrays: false, wantGlobalProperties: module.id == "sdk/indexed-db" ? ["indexedDB"] : [], invisibleToDebugger: loader.invisibleToDebugger, metadata: { addonID: loader.id, URI: module.uri } }); } sandboxes[module.uri] = sandbox; try { evaluate(sandbox, module.uri); } catch (error) { let { message, fileName, lineNumber } = error; let stack = error.stack || Error().stack; let frames = parseStack(stack).filter(isntLoaderFrame); let toString = String(error); let file = sourceURI(fileName); // Note that `String(error)` where error is from subscript loader does // not puts `:` after `"Error"` unlike regular errors thrown by JS code. // If there is a JS stack then this error has already been handled by an // inner module load. if (/^Error opening input stream/.test(String(error))) { let caller = frames.slice(0).pop(); fileName = caller.fileName; lineNumber = caller.lineNumber; message = "Module `" + module.id + "` is not found at " + module.uri; toString = message; } // Workaround for a Bug 910653. Errors thrown by subscript loader // do not include `stack` field and above created error won't have // fileName or lineNumber of the module being loaded, so we ensure // it does. else if (frames[frames.length - 1].fileName !== file) { frames.push({ fileName: file, lineNumber: lineNumber, name: "" }); } let prototype = typeof(error) === "object" ? error.constructor.prototype : Error.prototype; throw Object.create(prototype, { message: { value: message, writable: true, configurable: true }, fileName: { value: fileName, writable: true, configurable: true }, lineNumber: { value: lineNumber, writable: true, configurable: true }, stack: { value: serializeStack(frames), writable: true, configurable: true }, toString: { value: () => toString, writable: true, configurable: true }, }); } if (loadModuleHook) { module = loadModuleHook(module, require); } if (loader.checkCompatibility) { let err = XulApp.incompatibility(module); if (err) { throw err; } } if (module.exports && typeof(module.exports) === 'object') freeze(module.exports); return module; }); Loader.load = load; // Utility function to normalize module `uri`s so they have `.js` extension. function normalizeExt(uri) { return isJSURI(uri) ? uri : isJSONURI(uri) ? uri : isJSMURI(uri) ? uri : uri + '.js'; } // Strips `rootURI` from `string` -- used to remove absolute resourceURI // from a relative path function stripBase(rootURI, string) { return string.replace(rootURI, './'); } // Utility function to join paths. In common case `base` is a // `requirer.uri` but in some cases it may be `baseURI`. In order to // avoid complexity we require `baseURI` with a trailing `/`. const resolve = iced(function resolve(id, base) { if (!isRelative(id)) return id; let baseDir = dirname(base); if (!baseDir) return normalize(id); let resolved = join(baseDir, id); // Joining and normalizing removes the './' from relative files. // We need to ensure the resolution still has the root if (isRelative(base)) resolved = './' + resolved; return resolved; }); Loader.resolve = resolve; // Attempts to load `path` and then `path.js` // Returns `path` with valid file, or `undefined` otherwise function resolveAsFile(path) { // Append '.js' to path name unless it's another support filetype path = normalizeExt(path); if (urlCache.exists(path)) { return path; } return null; } // Attempts to load `path/package.json`'s `main` entry, // followed by `path/index.js`, or `undefined` otherwise function resolveAsDirectory(path) { try { // If `path/package.json` exists, parse the `main` entry // and attempt to load that let manifestPath = addTrailingSlash(path) + 'package.json'; let main = (urlCache.exists(manifestPath) && getManifestMain(JSON.parse(readURI(manifestPath)))); if (main) { let found = resolveAsFile(join(path, main)); if (found) { return found } } } catch (e) {} return resolveAsFile(addTrailingSlash(path) + 'index.js'); } function resolveRelative(rootURI, modulesDir, id) { let fullId = join(rootURI, modulesDir, id); let resolvedPath = (resolveAsFile(fullId) || resolveAsDirectory(fullId)); if (resolvedPath) { return stripBase(rootURI, resolvedPath); } return null; } // From `resolve` module // https://github.com/substack/node-resolve/blob/master/lib/node-modules-paths.js function* getNodeModulePaths(rootURI, start) { let moduleDir = 'node_modules'; let parts = start.split('/'); while (parts.length) { let leaf = parts.pop(); let path = join(...parts, leaf, moduleDir); if (leaf !== moduleDir && urlCache.exists(join(rootURI, path))) { yield path; } } if (urlCache.exists(join(rootURI, moduleDir))) { yield moduleDir; } } // Node-style module lookup // Takes an id and path and attempts to load a file using node's resolving // algorithm. // `id` should already be resolved relatively at this point. // http://nodejs.org/api/modules.html#modules_all_together const nodeResolve = iced(function nodeResolve(id, requirer, { rootURI }) { // Resolve again id = Loader.resolve(id, requirer); // If this is already an absolute URI then there is no resolution to do if (isAbsoluteURI(id)) { return null; } // we assume that extensions are correct, i.e., a directory doesnt't have '.js' // and a js file isn't named 'file.json.js' let resolvedPath; if ((resolvedPath = resolveRelative(rootURI, "", id))) { return resolvedPath; } // If the requirer is an absolute URI then the node module resolution below // won't work correctly as we prefix everything with rootURI if (isAbsoluteURI(requirer)) { return null; } // If manifest has dependencies, attempt to look up node modules // in the `dependencies` list for (let modulesDir of getNodeModulePaths(rootURI, dirname(requirer))) { if ((resolvedPath = resolveRelative(rootURI, modulesDir, id))) { return resolvedPath; } } // We would not find lookup for things like `sdk/tabs`, as that's part of // the alias mapping. If during `generateMap`, the runtime lookup resolves // with `resolveURI` -- if during runtime, then `resolve` will throw. return null; }); Loader.nodeResolve = nodeResolve; function addTrailingSlash(path) { return path.replace(/\/*$/, "/"); } const resolveURI = iced(function resolveURI(id, mapping) { // Do not resolve if already a resource URI if (isAbsoluteURI(id)) return normalizeExt(id); for (let [path, uri] of mapping) { // Strip off any trailing slashes to make comparisons simpler let stripped = path.replace(/\/+$/, ""); // We only want to match path segments explicitly. Examples: // * "foo/bar" matches for "foo/bar" // * "foo/bar" matches for "foo/bar/baz" // * "foo/bar" does not match for "foo/bar-1" // * "foo/bar/" does not match for "foo/bar" // * "foo/bar/" matches for "foo/bar/baz" // // Check for an empty path, an exact match, or a substring match // with the next character being a forward slash. if(stripped === "" || id === stripped || id.startsWith(stripped + "/")) { return normalizeExt(id.replace(path, uri)); } } return null; }); Loader.resolveURI = resolveURI; // Creates version of `require` that will be exposed to the given `module` // in the context of the given `loader`. Each module gets own limited copy // of `require` that is allowed to load only a modules that are associated // with it during link time. const Require = iced(function Require(loader, requirer) { let { modules, mapping, resolve: loaderResolve, load, manifest, rootURI, isNative, requireMap, requireHook } = loader; if (isSystemURI(requirer.uri)) { // Built-in modules don't require the expensive module resolution // algorithm used by SDK add-ons, so give them the more efficient standard // resolve instead. isNative = false; loaderResolve = Loader.resolve; } function require(id) { if (!id) // Throw if `id` is not passed. throw Error('You must provide a module name when calling require() from ' + requirer.id, requirer.uri); if (requireHook) { return requireHook(id, _require); } return _require(id); } function _require(id) { // Fix require() from react-autosuggest if (id == 'React') id = 'react'; let { uri, requirement } = getRequirements(id); let module = null; // If module is already cached by loader then just use it. if (uri in modules) { module = modules[uri]; } else if (isJSMURI(uri)) { module = modules[uri] = Module(requirement, uri); module.exports = Cu.import(uri, {}); freeze(module); } else if (isJSONURI(uri)) { let data; // First attempt to load and parse json uri // ex: `test.json` // If that doesn't exist, check for `test.json.js` // for node parity try { data = JSON.parse(readURI(uri)); module = modules[uri] = Module(requirement, uri); module.exports = data; freeze(module); } catch (err) { // If error thrown from JSON parsing, throw that, do not // attempt to find .json.js file if (err && /JSON\.parse/.test(err.message)) throw err; uri = uri + '.js'; } } // If not yet cached, load and cache it. // We also freeze module to prevent it from further changes // at runtime. if (!(uri in modules)) { // Many of the loader's functionalities are dependent // on modules[uri] being set before loading, so we set it and // remove it if we have any errors. module = modules[uri] = Module(requirement, uri); try { freeze(load(loader, module)); } catch (e) { // Clear out modules cache so we can throw on a second invalid require delete modules[uri]; // Also clear out the Sandbox that was created delete loader.sandboxes[uri]; throw e; } } return module.exports; } // Resolution function taking a module name/path and // returning a resourceURI and a `requirement` used by the loader. // Used by both `require` and `require.resolve`. function getRequirements(id) { if (!id) // Throw if `id` is not passed. throw Error('you must provide a module name when calling require() from ' + requirer.id, requirer.uri); let requirement, uri; // TODO should get native Firefox modules before doing node-style lookups // to save on loading time if (isNative) { // If a requireMap is available from `generateMap`, use that to // immediately resolve the node-style mapping. // TODO: write more tests for this use case if (requireMap && requireMap[requirer.id]) requirement = requireMap[requirer.id][id]; let { overrides } = manifest.jetpack; for (let key in overrides) { // ignore any overrides using relative keys if (/^[.\/]/.test(key)) { continue; } // If the override is for x -> y, // then using require("x/lib/z") to get reqire("y/lib/z") // should also work if (id == key || id.startsWith(key + "/")) { id = overrides[key] + id.substr(key.length); id = id.replace(/^[.\/]+/, ""); } } // For native modules, we want to check if it's a module specified // in 'modules', like `chrome`, or `@loader` -- if it exists, // just set the uri to skip resolution if (!requirement && modules[id]) uri = requirement = id; // If no requireMap was provided, or resolution not found in // the requireMap, and not a npm dependency, attempt a runtime lookup if (!requirement && !NODE_MODULES.has(id)) { // If `isNative` defined, this is using the new, native-style // loader, not cuddlefish, so lets resolve using node's algorithm // and get back a path that needs to be resolved via paths mapping // in `resolveURI` requirement = loaderResolve(id, requirer.id, { manifest: manifest, rootURI: rootURI }); } // If not found in the map, not a node module, and wasn't able to be // looked up, it's something // found in the paths most likely, like `sdk/tabs`, which should // be resolved relatively if needed using traditional resolve if (!requirement) { requirement = isRelative(id) ? Loader.resolve(id, requirer.id) : id; } } else if (modules[id]) { uri = requirement = id; } else if (requirer) { // Resolve `id` to its requirer if it's relative. requirement = loaderResolve(id, requirer.id); } else { requirement = id; } // Resolves `uri` of module using loaders resolve function. uri = uri || resolveURI(requirement, mapping); // Throw if `uri` can not be resolved. if (!uri) { throw Error('Module: Can not resolve "' + id + '" module required by ' + requirer.id + ' located at ' + requirer.uri, requirer.uri); } return { uri: uri, requirement: requirement }; } // Expose the `resolve` function for this `Require` instance require.resolve = _require.resolve = function resolve(id) { let { uri } = getRequirements(id); return uri; } // This is like webpack's require.context. It returns a new require // function that prepends the prefix to any requests. require.context = prefix => { return id => { return require(prefix + id); }; }; // Make `require.main === module` evaluate to true in main module scope. require.main = loader.main === requirer ? requirer : undefined; return iced(require); }); Loader.Require = Require; const main = iced(function main(loader, id) { // If no main entry provided, and native loader is used, // read the entry in the manifest if (!id && loader.isNative) id = getManifestMain(loader.manifest); let uri = resolveURI(id, loader.mapping); let module = loader.main = loader.modules[uri] = Module(id, uri); return loader.load(loader, module).exports; }); Loader.main = main; // Makes module object that is made available to CommonJS modules when they // are evaluated, along with `exports` and `require`. const Module = iced(function Module(id, uri) { return Object.create(null, { id: { enumerable: true, value: id }, exports: { enumerable: true, writable: true, value: Object.create(null), configurable: true }, uri: { value: uri } }); }); Loader.Module = Module; // Takes `loader`, and unload `reason` string and notifies all observers that // they should cleanup after them-self. const unload = iced(function unload(loader, reason) { // subject is a unique object created per loader instance. // This allows any code to cleanup on loader unload regardless of how // it was loaded. To handle unload for specific loader subject may be // asserted against loader.destructor or require('@loader/unload') // Note: We don not destroy loader's module cache or sandboxes map as // some modules may do cleanup in subsequent turns of event loop. Destroying // cache may cause module identity problems in such cases. let subject = { wrappedJSObject: loader.destructor }; notifyObservers(subject, 'sdk:loader:destroy', reason); }); Loader.unload = unload; // Function makes new loader that can be used to load CommonJS modules // described by a given `options.manifest`. Loader takes following options: // - `globals`: Optional map of globals, that all module scopes will inherit // from. Map is also exposed under `globals` property of the returned loader // so it can be extended further later. Defaults to `{}`. // - `modules` Optional map of built-in module exports mapped by module id. // These modules will incorporated into module cache. Each module will be // frozen. // - `resolve` Optional module `id` resolution function. If given it will be // used to resolve module URIs, by calling it with require term, requirer // module object (that has `uri` property) and `baseURI` of the loader. // If `resolve` does not returns `uri` string exception will be thrown by // an associated `require` call. function Loader(options) { if (options.sharedGlobalBlacklist && !options.sharedGlobalBlocklist) { options.sharedGlobalBlocklist = options.sharedGlobalBlacklist; } let { modules, globals, resolve, paths, rootURI, manifest, requireMap, isNative, metadata, sharedGlobal, sharedGlobalBlocklist, checkCompatibility, waiveIntereposition } = override({ paths: {}, modules: {}, globals: { get console() { // Import Console.jsm from here to prevent loading it until someone uses it let { ConsoleAPI } = Cu.import("resource://gre/modules/Console.jsm"); let console = new ConsoleAPI({ consoleID: options.id ? "addon/" + options.id : "" }); Object.defineProperty(this, "console", { value: console }); return this.console; } }, checkCompatibility: false, resolve: options.isNative ? // Make the returned resolve function have the same signature (id, requirer) => Loader.nodeResolve(id, requirer, { rootURI: rootURI }) : Loader.resolve, sharedGlobalBlocklist: ["sdk/indexed-db"], waiveIntereposition: false }, options); // Create overrides defaults, none at the moment if (typeof manifest != "object" || !manifest) { manifest = {}; } if (typeof manifest.jetpack != "object" || !manifest.jetpack) { manifest.jetpack = { overrides: {} }; } if (typeof manifest.jetpack.overrides != "object" || !manifest.jetpack.overrides) { manifest.jetpack.overrides = {}; } // We create an identity object that will be dispatched on an unload // event as subject. This way unload listeners will be able to assert // which loader is unloaded. Please note that we intentionally don't // use `loader` as subject to prevent a loader access leakage through // observer notifications. let destructor = freeze(Object.create(null)); // Make mapping array that is sorted from longest path to shortest path. let mapping = Object.keys(paths) .sort((a, b) => b.length - a.length) .map(path => [path, paths[path]]); // Define pseudo modules. modules = override({ '@loader/unload': destructor, '@loader/options': options, 'chrome': { Cc: Cc, Ci: Ci, Cu: Cu, Cr: Cr, Cm: Cm, CC: bind(CC, Components), components: Components, // `ChromeWorker` has to be inject in loader global scope. // It is done by bootstrap.js:loadSandbox for the SDK. ChromeWorker: ChromeWorker } }, modules); const builtinModuleExports = modules; modules = {}; for (let id of Object.keys(builtinModuleExports)) { // We resolve `uri` from `id` since modules are cached by `uri`. let uri = resolveURI(id, mapping); // In native loader, the mapping will not contain values for // pseudomodules -- store them as their ID rather than the URI if (isNative && !uri) uri = id; let module = Module(id, uri); // Lazily expose built-in modules in order to // allow them to be loaded lazily. Object.defineProperty(module, "exports", { enumerable: true, get: function() { return builtinModuleExports[id]; } }); modules[uri] = freeze(module); } // Create the unique sandbox we will be using for all modules, // so that we prevent creating a new comportment per module. // The side effect is that all modules will share the same // global objects. let sharedGlobalSandbox = Sandbox({ name: "Addon-SDK", wantXrays: false, wantGlobalProperties: [], invisibleToDebugger: options.invisibleToDebugger || false, metadata: { addonID: options.id, URI: "Addon-SDK" }, prototype: options.sandboxPrototype || {} }); // Loader object is just a representation of a environment // state. We freeze it and mark make it's properties non-enumerable // as they are pure implementation detail that no one should rely upon. let returnObj = { destructor: { enumerable: false, value: destructor }, globals: { enumerable: false, value: globals }, mapping: { enumerable: false, value: mapping }, // Map of module objects indexed by module URIs. modules: { enumerable: false, value: modules }, metadata: { enumerable: false, value: metadata }, useSharedGlobalSandbox: { enumerable: false, value: !!sharedGlobal }, sharedGlobalSandbox: { enumerable: false, value: sharedGlobalSandbox }, sharedGlobalBlocklist: { enumerable: false, value: sharedGlobalBlocklist }, sharedGlobalBlacklist: { enumerable: false, value: sharedGlobalBlocklist }, // Map of module sandboxes indexed by module URIs. sandboxes: { enumerable: false, value: {} }, resolve: { enumerable: false, value: resolve }, // ID of the addon, if provided. id: { enumerable: false, value: options.id }, // Whether the modules loaded should be ignored by the debugger invisibleToDebugger: { enumerable: false, value: options.invisibleToDebugger || false }, load: { enumerable: false, value: options.load || load }, checkCompatibility: { enumerable: false, value: checkCompatibility }, requireHook: { enumerable: false, value: options.requireHook }, loadModuleHook: { enumerable: false, value: options.loadModuleHook }, // Main (entry point) module, it can be set only once, since loader // instance can have only one main module. main: new function() { let main; return { enumerable: false, get: function() { return main; }, // Only set main if it has not being set yet! set: function(module) { main = main || module; } } } }; if (isNative) { returnObj.isNative = { enumerable: false, value: true }; returnObj.manifest = { enumerable: false, value: manifest }; returnObj.requireMap = { enumerable: false, value: requireMap }; returnObj.rootURI = { enumerable: false, value: addTrailingSlash(rootURI) }; } return freeze(Object.create(null, returnObj)); }; Loader.Loader = Loader; var isSystemURI = uri => /^resource:\/\/(gre|devtools|testing-common)\//.test(uri); var isJSONURI = uri => uri.endsWith('.json'); var isJSMURI = uri => uri.endsWith('.jsm'); var isJSURI = uri => uri.endsWith('.js'); var isAbsoluteURI = uri => uri.startsWith("resource://") || uri.startsWith("chrome://") || uri.startsWith("file://"); var isRelative = id => id.startsWith("."); // Default `main` entry to './index.js' and ensure is relative, // since node allows 'lib/index.js' without relative `./` function getManifestMain(manifest) { let main = manifest.main || './index.js'; return isRelative(main) ? main : './' + main; } module.exports = iced(Loader); });