/* 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/. */ "use strict"; /* General utilities used throughout devtools. */ var { Ci, Cu, Cc, components } = require("chrome"); var Services = require("Services"); var promise = require("promise"); /** * Turn the error |aError| into a string, without fail. */ exports.safeErrorString = function safeErrorString(aError) { try { let errorString = aError.toString(); if (typeof errorString == "string") { // Attempt to attach a stack to |errorString|. If it throws an error, or // isn't a string, don't use it. try { if (aError.stack) { let stack = aError.stack.toString(); if (typeof stack == "string") { errorString += "\nStack: " + stack; } } } catch (ee) { } // Append additional line and column number information to the output, // since it might not be part of the stringified error. if (typeof aError.lineNumber == "number" && typeof aError.columnNumber == "number") { errorString += "Line: " + aError.lineNumber + ", column: " + aError.columnNumber; } return errorString; } } catch (ee) { } // We failed to find a good error description, so do the next best thing. return Object.prototype.toString.call(aError); } /** * Report that |aWho| threw an exception, |aException|. */ exports.reportException = function reportException(aWho, aException) { let msg = aWho + " threw an exception: " + exports.safeErrorString(aException); dump(msg + "\n"); if (Cu.reportError) { /* * Note that the xpcshell test harness registers an observer for * console messages, so when we're running tests, this will cause * the test to quit. */ Cu.reportError(msg); } } /** * Given a handler function that may throw, return an infallible handler * function that calls the fallible handler, and logs any exceptions it * throws. * * @param aHandler function * A handler function, which may throw. * @param aName string * A name for aHandler, for use in error messages. If omitted, we use * aHandler.name. * * (SpiderMonkey does generate good names for anonymous functions, but we * don't have a way to get at them from JavaScript at the moment.) */ exports.makeInfallible = function makeInfallible(aHandler, aName) { if (!aName) aName = aHandler.name; return function (/* arguments */) { try { return aHandler.apply(this, arguments); } catch (ex) { let who = "Handler function"; if (aName) { who += " " + aName; } return exports.reportException(who, ex); } } } /** * Interleaves two arrays element by element, returning the combined array, like * a zip. In the case of arrays with different sizes, undefined values will be * interleaved at the end along with the extra values of the larger array. * * @param Array a * @param Array b * @returns Array * The combined array, in the form [a1, b1, a2, b2, ...] */ exports.zip = function zip(a, b) { if (!b) { return a; } if (!a) { return b; } const pairs = []; for (let i = 0, aLength = a.length, bLength = b.length; i < aLength || i < bLength; i++) { pairs.push([a[i], b[i]]); } return pairs; }; /** * Waits for the next tick in the event loop to execute a callback. */ exports.executeSoon = function executeSoon(aFn) { if (isWorker) { setImmediate(aFn); } else { Services.tm.mainThread.dispatch({ run: exports.makeInfallible(aFn) }, Ci.nsIThread.DISPATCH_NORMAL); } }; /** * Waits for the next tick in the event loop. * * @return Promise * A promise that is resolved after the next tick in the event loop. */ exports.waitForTick = function waitForTick() { let deferred = promise.defer(); exports.executeSoon(deferred.resolve); return deferred.promise; }; /** * Waits for the specified amount of time to pass. * * @param number aDelay * The amount of time to wait, in milliseconds. * @return Promise * A promise that is resolved after the specified amount of time passes. */ exports.waitForTime = function waitForTime(aDelay) { let deferred = promise.defer(); require("Timer").setTimeout(deferred.resolve, aDelay); return deferred.promise; }; /** * Like Array.prototype.forEach, but doesn't cause jankiness when iterating over * very large arrays by yielding to the browser and continuing execution on the * next tick. * * @param Array aArray * The array being iterated over. * @param Function aFn * The function called on each item in the array. If a promise is * returned by this function, iterating over the array will be paused * until the respective promise is resolved. * @returns Promise * A promise that is resolved once the whole array has been iterated * over, and all promises returned by the aFn callback are resolved. */ exports.yieldingEach = function yieldingEach(aArray, aFn) { const deferred = promise.defer(); let i = 0; let len = aArray.length; let outstanding = [deferred.promise]; (function loop() { const start = Date.now(); while (i < len) { // Don't block the main thread for longer than 16 ms at a time. To // maintain 60fps, you have to render every frame in at least 16ms; we // aren't including time spent in non-JS here, but this is Good // Enough(tm). if (Date.now() - start > 16) { exports.executeSoon(loop); return; } try { outstanding.push(aFn(aArray[i], i++)); } catch (e) { deferred.reject(e); return; } } deferred.resolve(); }()); return promise.all(outstanding); } /** * Like XPCOMUtils.defineLazyGetter, but with a |this| sensitive getter that * allows the lazy getter to be defined on a prototype and work correctly with * instances. * * @param Object aObject * The prototype object to define the lazy getter on. * @param String aKey * The key to define the lazy getter on. * @param Function aCallback * The callback that will be called to determine the value. Will be * called with the |this| value of the current instance. */ exports.defineLazyPrototypeGetter = function defineLazyPrototypeGetter(aObject, aKey, aCallback) { Object.defineProperty(aObject, aKey, { configurable: true, get: function() { const value = aCallback.call(this); Object.defineProperty(this, aKey, { configurable: true, writable: true, value: value }); return value; } }); } /** * Safely get the property value from a Debugger.Object for a given key. Walks * the prototype chain until the property is found. * * @param Debugger.Object aObject * The Debugger.Object to get the value from. * @param String aKey * The key to look for. * @return Any */ exports.getProperty = function getProperty(aObj, aKey) { let root = aObj; try { do { const desc = aObj.getOwnPropertyDescriptor(aKey); if (desc) { if ("value" in desc) { return desc.value; } // Call the getter if it's safe. return exports.hasSafeGetter(desc) ? desc.get.call(root).return : undefined; } aObj = aObj.proto; } while (aObj); } catch (e) { // If anything goes wrong report the error and return undefined. exports.reportException("getProperty", e); } return undefined; }; /** * Determines if a descriptor has a getter which doesn't call into JavaScript. * * @param Object aDesc * The descriptor to check for a safe getter. * @return Boolean * Whether a safe getter was found. */ exports.hasSafeGetter = function hasSafeGetter(aDesc) { let fn = aDesc.get; return fn && fn.callable && fn.class == "Function" && fn.script === undefined; }; /** * Check if it is safe to read properties and execute methods from the given JS * object. Safety is defined as being protected from unintended code execution * from content scripts (or cross-compartment code). * * See bugs 945920 and 946752 for discussion. * * @type Object aObj * The object to check. * @return Boolean * True if it is safe to read properties from aObj, or false otherwise. */ exports.isSafeJSObject = function isSafeJSObject(aObj) { // If we are running on a worker thread, Cu is not available. In this case, // we always return false, just to be on the safe side. if (isWorker) { return false; } if (Cu.getGlobalForObject(aObj) == Cu.getGlobalForObject(exports.isSafeJSObject)) { return true; // aObj is not a cross-compartment wrapper. } let principal = Cu.getObjectPrincipal(aObj); if (Services.scriptSecurityManager.isSystemPrincipal(principal)) { return true; // allow chrome objects } return Cu.isXrayWrapper(aObj); }; exports.dumpn = function dumpn(str) { if (exports.dumpn.wantLogging) { dump("DBG-SERVER: " + str + "\n"); } } // We want wantLogging to be writable. The exports object is frozen by the // loader, so define it on dumpn instead. exports.dumpn.wantLogging = false; /** * A verbose logger for low-level tracing. */ exports.dumpv = function(msg) { if (exports.dumpv.wantVerbose) { exports.dumpn(msg); } }; // We want wantLogging to be writable. The exports object is frozen by the // loader, so define it on dumpn instead. exports.dumpv.wantVerbose = false; exports.dbg_assert = function dbg_assert(cond, e) { if (!cond) { return e; } }; /** * Utility function for updating an object with the properties of * other objects. * * @param aTarget Object * The object being updated. * @param aNewAttrs Object * The rest params are objects to update aTarget with. You * can pass as many as you like. */ exports.update = function update(aTarget, ...aArgs) { for (let attrs of aArgs) { for (let key in attrs) { let desc = Object.getOwnPropertyDescriptor(attrs, key); if (desc) { Object.defineProperty(aTarget, key, desc); } } } return aTarget; } /** * Utility function for getting the values from an object as an array * * @param aObject Object * The object to iterate over */ exports.values = function values(aObject) { return Object.keys(aObject).map(k => aObject[k]); } /** * Defines a getter on a specified object that will be created upon first use. * * @param aObject * The object to define the lazy getter on. * @param aName * The name of the getter to define on aObject. * @param aLambda * A function that returns what the getter should return. This will * only ever be called once. */ exports.defineLazyGetter = function defineLazyGetter(aObject, aName, aLambda) { Object.defineProperty(aObject, aName, { get: function () { delete aObject[aName]; return aObject[aName] = aLambda.apply(aObject); }, configurable: true, enumerable: true }); }; /** * Defines a getter on a specified object for a module. The module will not * be imported until first use. * * @param aObject * The object to define the lazy getter on. * @param aName * The name of the getter to define on aObject for the module. * @param aResource * The URL used to obtain the module. * @param aSymbol * The name of the symbol exported by the module. * This parameter is optional and defaults to aName. */ exports.defineLazyModuleGetter = function defineLazyModuleGetter(aObject, aName, aResource, aSymbol) { this.defineLazyGetter(aObject, aName, function XPCU_moduleLambda() { var temp = {}; Cu.import(aResource, temp); return temp[aSymbol || aName]; }); }; exports.defineLazyGetter(this, "NetUtil", () => { return Cu.import("resource://gre/modules/NetUtil.jsm", {}).NetUtil; }); exports.defineLazyGetter(this, "OS", () => { return Cu.import("resource://gre/modules/osfile.jsm", {}).OS; }); exports.defineLazyGetter(this, "TextDecoder", () => { return Cu.import("resource://gre/modules/osfile.jsm", {}).TextDecoder; }); /** * Performs a request to load the desired URL and returns a promise. * * @param aURL String * The URL we will request. * @param aOptions Object * An object with the following optional properties: * - loadFromCache: if false, will bypass the cache and * always load fresh from the network (default: true) * - policy: the nsIContentPolicy type to apply when fetching the URL * - window: the window to get the loadGroup from * - charset: the charset to use if the channel doesn't provide one * @returns Promise that resolves with an object with the following members on * success: * - content: the document at that URL, as a string, * - contentType: the content type of the document * * If an error occurs, the promise is rejected with that error. * * XXX: It may be better to use nsITraceableChannel to get to the sources * without relying on caching when we can (not for eval, etc.): * http://www.softwareishard.com/blog/firebug/nsitraceablechannel-intercept-http-traffic/ */ function mainThreadFetch(aURL, aOptions={ loadFromCache: true, policy: Ci.nsIContentPolicy.TYPE_OTHER, window: null, charset: null }) { // Create a channel. let url = aURL.split(" -> ").pop(); let channel; try { channel = newChannelForURL(url, aOptions); } catch (ex) { return promise.reject(ex); } // Set the channel options. channel.loadFlags = aOptions.loadFromCache ? channel.LOAD_FROM_CACHE : channel.LOAD_BYPASS_CACHE; if (aOptions.window) { // Respect private browsing. channel.loadGroup = aOptions.window.QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIWebNavigation) .QueryInterface(Ci.nsIDocumentLoader) .loadGroup; } let deferred = promise.defer(); let onResponse = (stream, status, request) => { if (!components.isSuccessCode(status)) { deferred.reject(new Error(`Failed to fetch ${url}. Code ${status}.`)); return; } try { let charset = channel.contentCharset || aOptions.charset || "UTF-8"; // NetUtil handles charset conversion. let available = stream.available(); let source = NetUtil.readInputStreamToString(stream, available, {charset}); stream.close(); deferred.resolve({ content: source, contentType: request.contentType }); } catch (ex) { let uri = request.originalURI; if (ex.name === "NS_BASE_STREAM_CLOSED" && uri instanceof Ci.nsIFileURL) { // Empty files cause NS_BASE_STREAM_CLOSED exception. Use OS.File to // differentiate between empty files and other errors (bug 1170864). // This can be removed when bug 982654 is fixed. uri.QueryInterface(Ci.nsIFileURL); let result = OS.File.read(uri.file.path).then(bytes => { // Convert the bytearray to a String. let decoder = new TextDecoder(); let content = decoder.decode(bytes); // We can't detect the contentType without opening a channel // and that failed already. This is the best we can do here. return { content, contentType: "text/plain" }; }); deferred.resolve(result); } else { deferred.reject(ex); } } }; // Open the channel try { NetUtil.asyncFetch(channel, onResponse); } catch (ex) { return promise.reject(ex); } return deferred.promise; } /** * Opens a channel for given URL. Tries a bit harder than NetUtil.newChannel. * * @param {String} url - The URL to open a channel for. * @param {Object} options - The options object passed to @method fetch. * @return {nsIChannel} - The newly created channel. Throws on failure. */ function newChannelForURL(url, { policy }) { let channelOptions = { contentPolicyType: policy, loadUsingSystemPrincipal: true, uri: url }; try { return NetUtil.newChannel(channelOptions); } catch (e) { // In the xpcshell tests, the script url is the absolute path of the test // file, which will make a malformed URI error be thrown. Add the file // scheme to see if it helps. channelOptions.uri = "file://" + url; return NetUtil.newChannel(channelOptions); } } // Fetch is defined differently depending on whether we are on the main thread // or a worker thread. if (!this.isWorker) { exports.fetch = mainThreadFetch; } else { // Services is not available in worker threads, nor is there any other way // to fetch a URL. We need to enlist the help from the main thread here, by // issuing an rpc request, to fetch the URL on our behalf. exports.fetch = function (url, options) { return rpc("fetch", url, options); } } /** * Returns a promise that is resolved or rejected when all promises have settled * (resolved or rejected). * * This differs from Promise.all, which will reject immediately after the first * rejection, instead of waiting for the remaining promises to settle. * * @param values * Iterable of promises that may be pending, resolved, or rejected. When * when all promises have settled (resolved or rejected), the returned * promise will be resolved or rejected as well. * * @return A new promise that is fulfilled when all values have settled * (resolved or rejected). Its resolution value will be an array of all * resolved values in the given order, or undefined if values is an * empty array. The reject reason will be forwarded from the first * promise in the list of given promises to be rejected. */ exports.settleAll = values => { if (values === null || typeof(values[Symbol.iterator]) != "function") { throw new Error("settleAll() expects an iterable."); } let deferred = promise.defer(); values = Array.isArray(values) ? values : [...values]; let countdown = values.length; let resolutionValues = new Array(countdown); let rejectionValue; let rejectionOccurred = false; if (!countdown) { deferred.resolve(resolutionValues); return deferred.promise; } function checkForCompletion() { if (--countdown > 0) { return; } if (!rejectionOccurred) { deferred.resolve(resolutionValues); } else { deferred.reject(rejectionValue); } } for (let i = 0; i < values.length; i++) { let index = i; let value = values[i]; let resolver = result => { resolutionValues[index] = result; checkForCompletion(); }; let rejecter = error => { if (!rejectionOccurred) { rejectionValue = error; rejectionOccurred = true; } checkForCompletion(); }; if (value && typeof(value.then) == "function") { value.then(resolver, rejecter); } else { // Given value is not a promise, forward it as a resolution value. resolver(value); } } return deferred.promise; };