diff --git a/toolkit/modules/Promise-backend.js b/toolkit/modules/Promise-backend.js new file mode 100755 index 000000000000..01244e10e49f --- /dev/null +++ b/toolkit/modules/Promise-backend.js @@ -0,0 +1,745 @@ +/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ +/* vim: set ts=2 et sw=2 tw=80 filetype=javascript: */ +/* 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"; + +/** + * This implementation file is imported by the Promise.jsm module, and as a + * special case by the debugger server. To support chrome debugging, the + * debugger server needs to have all its code in one global, so it must use + * loadSubScript directly. + * + * In the general case, this script should be used by importing Promise.jsm: + * + * Components.utils.import("resource://gre/modules/Promise.jsm"); + * + * More documentation can be found in the Promise.jsm module. + */ + +//////////////////////////////////////////////////////////////////////////////// +//// Globals + +Cu.import("resource://gre/modules/Services.jsm"); +Cu.import("resource://gre/modules/XPCOMUtils.jsm"); + +const STATUS_PENDING = 0; +const STATUS_RESOLVED = 1; +const STATUS_REJECTED = 2; + +// These "private names" allow some properties of the Promise object to be +// accessed only by this module, while still being visible on the object +// manually when using a debugger. They don't strictly guarantee that the +// properties are inaccessible by other code, but provide enough protection to +// avoid using them by mistake. +const salt = Math.floor(Math.random() * 100); +const Name = (n) => "{private:" + n + ":" + salt + "}"; +const N_STATUS = Name("status"); +const N_VALUE = Name("value"); +const N_HANDLERS = Name("handlers"); +const N_WITNESS = Name("witness"); + + +/////// Warn-upon-finalization mechanism +// +// One of the difficult problems with promises is locating uncaught +// rejections. We adopt the following strategy: if a promise is rejected +// at the time of its garbage-collection *and* if the promise is at the +// end of a promise chain (i.e. |thatPromise.then| has never been +// called), then we print a warning. +// +// let deferred = Promise.defer(); +// let p = deferred.promise.then(); +// deferred.reject(new Error("I am un uncaught error")); +// deferred = null; +// p = null; +// +// In this snippet, since |deferred.promise| is not the last in the +// chain, no error will be reported for that promise. However, since +// |p| is the last promise in the chain, the error will be reported +// for |p|. +// +// Note that this may, in some cases, cause an error to be reported more +// than once. For instance, consider: +// +// let deferred = Promise.defer(); +// let p1 = deferred.promise.then(); +// let p2 = deferred.promise.then(); +// deferred.reject(new Error("I am an uncaught error")); +// p1 = p2 = deferred = null; +// +// In this snippet, the error is reported both by p1 and by p2. +// + +XPCOMUtils.defineLazyServiceGetter(this, "FinalizationWitnessService", + "@mozilla.org/toolkit/finalizationwitness;1", + "nsIFinalizationWitnessService"); + +let PendingErrors = { + _counter: 0, + _map: new Map(), + register: function(error) { + let id = "pending-error-" + (this._counter++); + // + // At this stage, ideally, we would like to store the error itself + // and delay any treatment until we are certain that we will need + // to report that error. However, in the (unlikely but possible) + // case the error holds a reference to the promise itself, doing so + // would prevent the promise from being garbabe-collected, which + // would both cause a memory leak and ensure that we cannot report + // the uncaught error. + // + // To avoid this situation, we rather extract relevant data from + // the error and further normalize it to strings. + // + let value = { + date: new Date(), + message: "" + error, + fileName: null, + stack: null, + lineNumber: null + }; + try { // Defend against non-enumerable values + if (error && error instanceof Ci.nsIException) { + // nsIException does things a little differently. + try { + // For starters |.toString()| does not only contain the message, but + // also the top stack frame, and we don't really want that. + value.message = error.message; + } catch (ex) { + // Ignore field + } + try { + // All lowercase filename. ;) + value.fileName = error.filename; + } catch (ex) { + // Ignore field + } + try { + value.lineNumber = error.lineNumber; + } catch (ex) { + // Ignore field + } + } else if (typeof error == "object" && error) { + for (let k of ["fileName", "stack", "lineNumber"]) { + try { // Defend against fallible getters and string conversions + let v = error[k]; + value[k] = v ? ("" + v) : null; + } catch (ex) { + // Ignore field + } + } + } + + if (!value.stack) { + // |error| is not an Error (or Error-alike). Try to figure out the stack. + let stack = null; + if (error && error.location && + error.location instanceof Ci.nsIStackFrame) { + // nsIException has full stack frames in the |.location| member. + stack = error.location; + } else { + // Components.stack to the rescue! + stack = Components.stack; + // Remove those top frames that refer to Promise.jsm. + while (stack) { + if (!stack.filename.endsWith("/Promise.jsm")) { + break; + } + stack = stack.caller; + } + } + if (stack) { + let frames = []; + while (stack) { + frames.push(stack); + stack = stack.caller; + } + value.stack = frames.join("\n"); + } + } + } catch (ex) { + // Ignore value + } + this._map.set(id, value); + return id; + }, + extract: function(id) { + let value = this._map.get(id); + this._map.delete(id); + return value; + }, + unregister: function(id) { + this._map.delete(id); + } +}; + +// Actually print the finalization warning. +Services.obs.addObserver(function observe(aSubject, aTopic, aValue) { + let error = PendingErrors.extract(aValue); + let {message, date, fileName, stack, lineNumber} = error; + let error = Cc['@mozilla.org/scripterror;1'].createInstance(Ci.nsIScriptError); + if (!error || !Services.console) { + // Too late during shutdown to use the nsIConsole + dump("*************************\n"); + dump("A promise chain failed to handle a rejection\n\n"); + dump("On: " + date + "\n"); + dump("Full message: " + message + "\n"); + dump("See https://developer.mozilla.org/Mozilla/JavaScript_code_modules/Promise.jsm/Promise\n"); + dump("Full stack: " + (stack||"not available") + "\n"); + dump("*************************\n"); + return; + } + if (stack) { + message += "\nFull Stack: " + stack; + } + error.init( + /*message*/"A promise chain failed to handle a rejection.\n\n" + + "Date: " + date + "\nFull Message: " + message, + /*sourceName*/ fileName, + /*sourceLine*/ lineNumber?("" + lineNumber):0, + /*lineNumber*/ lineNumber || 0, + /*columnNumber*/ 0, + /*flags*/ Ci.nsIScriptError.errorFlag, + /*category*/ "chrome javascript"); + Services.console.logMessage(error); +}, "promise-finalization-witness", false); + +///////// Additional warnings for developers +// +// The following error types are considered programmer errors, which should be +// reported (possibly redundantly) so as to let programmers fix their code. +const ERRORS_TO_REPORT = ["EvalError", "RangeError", "ReferenceError", "TypeError"]; + +//////////////////////////////////////////////////////////////////////////////// +//// Promise + +/** + * The Promise constructor. Creates a new promise given an executor callback. + * The executor callback is called with the resolve and reject handlers. + * + * @param aExecutor + * The callback that will be called with resolve and reject. + */ +this.Promise = function Promise(aExecutor) +{ + if (typeof(aExecutor) != "function") { + throw new TypeError("Promise constructor must be called with an executor."); + } + + /* + * Internal status of the promise. This can be equal to STATUS_PENDING, + * STATUS_RESOLVED, or STATUS_REJECTED. + */ + Object.defineProperty(this, N_STATUS, { value: STATUS_PENDING, + writable: true }); + + /* + * When the N_STATUS property is STATUS_RESOLVED, this contains the final + * resolution value, that cannot be a promise, because resolving with a + * promise will cause its state to be eventually propagated instead. When the + * N_STATUS property is STATUS_REJECTED, this contains the final rejection + * reason, that could be a promise, even if this is uncommon. + */ + Object.defineProperty(this, N_VALUE, { writable: true }); + + /* + * Array of Handler objects registered by the "then" method, and not processed + * yet. Handlers are removed when the promise is resolved or rejected. + */ + Object.defineProperty(this, N_HANDLERS, { value: [] }); + + /** + * When the N_STATUS property is STATUS_REJECTED and until there is + * a rejection callback, this contains an array + * - {string} id An id for use with |PendingErrors|; + * - {FinalizationWitness} witness A witness broadcasting |id| on + * notification "promise-finalization-witness". + */ + Object.defineProperty(this, N_WITNESS, { writable: true }); + + Object.seal(this); + + let resolve = PromiseWalker.completePromise + .bind(PromiseWalker, this, STATUS_RESOLVED); + let reject = PromiseWalker.completePromise + .bind(PromiseWalker, this, STATUS_REJECTED); + + try { + Function.prototype.call.call(aExecutor, this, resolve, reject); + } catch (ex) { + reject(ex); + } +} + +/** + * Calls one of the provided functions as soon as this promise is either + * resolved or rejected. A new promise is returned, whose state evolves + * depending on this promise and the provided callback functions. + * + * The appropriate callback is always invoked after this method returns, even + * if this promise is already resolved or rejected. You can also call the + * "then" method multiple times on the same promise, and the callbacks will be + * invoked in the same order as they were registered. + * + * @param aOnResolve + * If the promise is resolved, this function is invoked with the + * resolution value of the promise as its only argument, and the + * outcome of the function determines the state of the new promise + * returned by the "then" method. In case this parameter is not a + * function (usually "null"), the new promise returned by the "then" + * method is resolved with the same value as the original promise. + * + * @param aOnReject + * If the promise is rejected, this function is invoked with the + * rejection reason of the promise as its only argument, and the + * outcome of the function determines the state of the new promise + * returned by the "then" method. In case this parameter is not a + * function (usually left "undefined"), the new promise returned by the + * "then" method is rejected with the same reason as the original + * promise. + * + * @return A new promise that is initially pending, then assumes a state that + * depends on the outcome of the invoked callback function: + * - If the callback returns a value that is not a promise, including + * "undefined", the new promise is resolved with this resolution + * value, even if the original promise was rejected. + * - If the callback throws an exception, the new promise is rejected + * with the exception as the rejection reason, even if the original + * promise was resolved. + * - If the callback returns a promise, the new promise will + * eventually assume the same state as the returned promise. + * + * @note If the aOnResolve callback throws an exception, the aOnReject + * callback is not invoked. You can register a rejection callback on + * the returned promise instead, to process any exception occurred in + * either of the callbacks registered on this promise. + */ +Promise.prototype.then = function (aOnResolve, aOnReject) +{ + let handler = new Handler(this, aOnResolve, aOnReject); + this[N_HANDLERS].push(handler); + + // Ensure the handler is scheduled for processing if this promise is already + // resolved or rejected. + if (this[N_STATUS] != STATUS_PENDING) { + + // This promise is not the last in the chain anymore. Remove any watchdog. + if (this[N_WITNESS] != null) { + let [id, witness] = this[N_WITNESS]; + this[N_WITNESS] = null; + witness.forget(); + PendingErrors.unregister(id); + } + + PromiseWalker.schedulePromise(this); + } + + return handler.nextPromise; +}; + + +/** + * Creates a new pending promise and provides methods to resolve or reject it. + * + * @return A new object, containing the new promise in the "promise" property, + * and the methods to change its state in the "resolve" and "reject" + * properties. See the Deferred documentation for details. + */ +Promise.defer = function () +{ + return new Deferred(); +}; + +/** + * Creates a new promise resolved with the specified value, or propagates the + * state of an existing promise. + * + * @param aValue + * If this value is not a promise, including "undefined", it becomes + * the resolution value of the returned promise. If this value is a + * promise, then the returned promise will eventually assume the same + * state as the provided promise. + * + * @return A promise that can be pending, resolved, or rejected. + */ +Promise.resolve = function (aValue) +{ + if (aValue && typeof(aValue) == "function" && aValue.isAsyncFunction) { + throw new TypeError( + "Cannot resolve a promise with an async function. " + + "You should either invoke the async function first " + + "or use 'Task.spawn' instead of 'Task.async' to start " + + "the Task and return its promise."); + } + + return new Promise((aResolve) => aResolve(aValue)); +}; + +/** + * Creates a new promise rejected with the specified reason. + * + * @param aReason + * The rejection reason for the returned promise. Although the reason + * can be "undefined", it is generally an Error object, like in + * exception handling. + * + * @return A rejected promise. + * + * @note The aReason argument should not be a promise. Using a rejected + * promise for the value of aReason would make the rejection reason + * equal to the rejected promise itself, and not its rejection reason. + */ +Promise.reject = function (aReason) +{ + return new Promise((_, aReject) => aReject(aReason)); +}; + +/** + * Returns a promise that is resolved or rejected when all values are + * resolved or any is rejected. + * + * @param aValues + * Iterable of promises that may be pending, resolved, or rejected. When + * all are resolved or any is rejected, the returned promise will be + * resolved or rejected as well. + * + * @return A new promise that is fulfilled when all values are resolved or + * that is rejected when any of the values are rejected. Its + * resolution value will be an array of all resolved values in the + * given order, or undefined if aValues is an empty array. The reject + * reason will be forwarded from the first promise in the list of + * given promises to be rejected. + */ +Promise.all = function (aValues) +{ + if (aValues == null || typeof(aValues["@@iterator"]) != "function") { + throw new Error("Promise.all() expects an iterable."); + } + + if (!Array.isArray(aValues)) { + aValues = [...aValues]; + } + + if (!aValues.length) { + return Promise.resolve([]); + } + + let countdown = aValues.length; + let deferred = Promise.defer(); + let resolutionValues = new Array(countdown); + + function checkForCompletion(aValue, aIndex) { + resolutionValues[aIndex] = aValue; + + if (--countdown === 0) { + deferred.resolve(resolutionValues); + } + } + + for (let i = 0; i < aValues.length; i++) { + let index = i; + let value = aValues[i]; + let resolve = val => checkForCompletion(val, index); + + if (value && typeof(value.then) == "function") { + value.then(resolve, deferred.reject); + } else { + // Given value is not a promise, forward it as a resolution value. + resolve(value); + } + } + + return deferred.promise; +}; + +Object.freeze(Promise); + +//////////////////////////////////////////////////////////////////////////////// +//// PromiseWalker + +/** + * This singleton object invokes the handlers registered on resolved and + * rejected promises, ensuring that processing is not recursive and is done in + * the same order as registration occurred on each promise. + * + * There is no guarantee on the order of execution of handlers registered on + * different promises. + */ +this.PromiseWalker = { + /** + * Singleton array of all the unprocessed handlers currently registered on + * resolved or rejected promises. Handlers are removed from the array as soon + * as they are processed. + */ + handlers: [], + + /** + * Called when a promise needs to change state to be resolved or rejected. + * + * @param aPromise + * Promise that needs to change state. If this is already resolved or + * rejected, this method has no effect. + * @param aStatus + * New desired status, either STATUS_RESOLVED or STATUS_REJECTED. + * @param aValue + * Associated resolution value or rejection reason. + */ + completePromise: function (aPromise, aStatus, aValue) + { + // Do nothing if the promise is already resolved or rejected. + if (aPromise[N_STATUS] != STATUS_PENDING) { + return; + } + + // Resolving with another promise will cause this promise to eventually + // assume the state of the provided promise. + if (aStatus == STATUS_RESOLVED && aValue && + typeof(aValue.then) == "function") { + aValue.then(this.completePromise.bind(this, aPromise, STATUS_RESOLVED), + this.completePromise.bind(this, aPromise, STATUS_REJECTED)); + return; + } + + // Change the promise status and schedule our handlers for processing. + aPromise[N_STATUS] = aStatus; + aPromise[N_VALUE] = aValue; + if (aPromise[N_HANDLERS].length > 0) { + this.schedulePromise(aPromise); + } else if (aStatus == STATUS_REJECTED) { + // This is a rejection and the promise is the last in the chain. + // For the time being we therefore have an uncaught error. + let id = PendingErrors.register(aValue); + let witness = + FinalizationWitnessService.make("promise-finalization-witness", id); + aPromise[N_WITNESS] = [id, witness]; + } + }, + + /** + * Sets up the PromiseWalker loop to start on the next tick of the event loop + */ + scheduleWalkerLoop: function() + { + this.walkerLoopScheduled = true; + Services.tm.currentThread.dispatch(this.walkerLoop, + Ci.nsIThread.DISPATCH_NORMAL); + }, + + /** + * Schedules the resolution or rejection handlers registered on the provided + * promise for processing. + * + * @param aPromise + * Resolved or rejected promise whose handlers should be processed. It + * is expected that this promise has at least one handler to process. + */ + schedulePromise: function (aPromise) + { + // Migrate the handlers from the provided promise to the global list. + for (let handler of aPromise[N_HANDLERS]) { + this.handlers.push(handler); + } + aPromise[N_HANDLERS].length = 0; + + // Schedule the walker loop on the next tick of the event loop. + if (!this.walkerLoopScheduled) { + this.scheduleWalkerLoop(); + } + }, + + /** + * Indicates whether the walker loop is currently scheduled for execution on + * the next tick of the event loop. + */ + walkerLoopScheduled: false, + + /** + * Processes all the known handlers during this tick of the event loop. This + * eager processing is done to avoid unnecessarily exiting and re-entering the + * JavaScript context for each handler on a resolved or rejected promise. + * + * This function is called with "this" bound to the PromiseWalker object. + */ + walkerLoop: function () + { + // If there is more than one handler waiting, reschedule the walker loop + // immediately. Otherwise, use walkerLoopScheduled to tell schedulePromise() + // to reschedule the loop if it adds more handlers to the queue. This makes + // this walker resilient to the case where one handler does not return, but + // starts a nested event loop. In that case, the newly scheduled walker will + // take over. In the common case, the newly scheduled walker will be invoked + // after this one has returned, with no actual handler to process. This + // small overhead is required to make nested event loops work correctly, but + // occurs at most once per resolution chain, thus having only a minor + // impact on overall performance. + if (this.handlers.length > 1) { + this.scheduleWalkerLoop(); + } else { + this.walkerLoopScheduled = false; + } + + // Process all the known handlers eagerly. + while (this.handlers.length > 0) { + this.handlers.shift().process(); + } + }, +}; + +// Bind the function to the singleton once. +PromiseWalker.walkerLoop = PromiseWalker.walkerLoop.bind(PromiseWalker); + +//////////////////////////////////////////////////////////////////////////////// +//// Deferred + +/** + * Returned by "Promise.defer" to provide a new promise along with methods to + * change its state. + */ +function Deferred() +{ + this.promise = new Promise((aResolve, aReject) => { + this.resolve = aResolve; + this.reject = aReject; + }); + Object.freeze(this); +} + +Deferred.prototype = { + /** + * A newly created promise, initially in the pending state. + */ + promise: null, + + /** + * Resolves the associated promise with the specified value, or propagates the + * state of an existing promise. If the associated promise has already been + * resolved or rejected, this method does nothing. + * + * This function is bound to its associated promise when "Promise.defer" is + * called, and can be called with any value of "this". + * + * @param aValue + * If this value is not a promise, including "undefined", it becomes + * the resolution value of the associated promise. If this value is a + * promise, then the associated promise will eventually assume the same + * state as the provided promise. + * + * @note Calling this method with a pending promise as the aValue argument, + * and then calling it again with another value before the promise is + * resolved or rejected, has unspecified behavior and should be avoided. + */ + resolve: null, + + /** + * Rejects the associated promise with the specified reason. If the promise + * has already been resolved or rejected, this method does nothing. + * + * This function is bound to its associated promise when "Promise.defer" is + * called, and can be called with any value of "this". + * + * @param aReason + * The rejection reason for the associated promise. Although the + * reason can be "undefined", it is generally an Error object, like in + * exception handling. + * + * @note The aReason argument should not generally be a promise. In fact, + * using a rejected promise for the value of aReason would make the + * rejection reason equal to the rejected promise itself, not to the + * rejection reason of the rejected promise. + */ + reject: null, +}; + +//////////////////////////////////////////////////////////////////////////////// +//// Handler + +/** + * Handler registered on a promise by the "then" function. + */ +function Handler(aThisPromise, aOnResolve, aOnReject) +{ + this.thisPromise = aThisPromise; + this.onResolve = aOnResolve; + this.onReject = aOnReject; + this.nextPromise = new Promise(() => {}); +} + +Handler.prototype = { + /** + * Promise on which the "then" method was called. + */ + thisPromise: null, + + /** + * Unmodified resolution handler provided to the "then" method. + */ + onResolve: null, + + /** + * Unmodified rejection handler provided to the "then" method. + */ + onReject: null, + + /** + * New promise that will be returned by the "then" method. + */ + nextPromise: null, + + /** + * Called after thisPromise is resolved or rejected, invokes the appropriate + * callback and propagates the result to nextPromise. + */ + process: function() + { + // The state of this promise is propagated unless a handler is defined. + let nextStatus = this.thisPromise[N_STATUS]; + let nextValue = this.thisPromise[N_VALUE]; + + try { + // If a handler is defined for either resolution or rejection, invoke it + // to determine the state of the next promise, that will be resolved with + // the returned value, that can also be another promise. + if (nextStatus == STATUS_RESOLVED) { + if (typeof(this.onResolve) == "function") { + nextValue = this.onResolve(nextValue); + } + } else if (typeof(this.onReject) == "function") { + nextValue = this.onReject(nextValue); + nextStatus = STATUS_RESOLVED; + } + } catch (ex) { + + // An exception has occurred in the handler. + + if (ex && typeof ex == "object" && "name" in ex && + ERRORS_TO_REPORT.indexOf(ex.name) != -1) { + + // We suspect that the exception is a programmer error, so we now + // display it using dump(). Note that we do not use Cu.reportError as + // we assume that this is a programming error, so we do not want end + // users to see it. Also, if the programmer handles errors correctly, + // they will either treat the error or log them somewhere. + + dump("*************************\n"); + dump("A coding exception was thrown in a Promise " + + ((nextStatus == STATUS_RESOLVED) ? "resolution":"rejection") + + " callback.\n\n"); + dump("Full message: " + ex + "\n"); + dump("See https://developer.mozilla.org/Mozilla/JavaScript_code_modules/Promise.jsm/Promise\n"); + dump("Full stack: " + (("stack" in ex)?ex.stack:"not available") + "\n"); + dump("*************************\n"); + + } + + // Additionally, reject the next promise. + nextStatus = STATUS_REJECTED; + nextValue = ex; + } + + // Propagate the newly determined state to the next promise. + PromiseWalker.completePromise(this.nextPromise, nextStatus, nextValue); + }, +}; diff --git a/toolkit/modules/Promise.jsm b/toolkit/modules/Promise.jsm index f1ba862eae7c..8b0e388c1baa 100755 --- a/toolkit/modules/Promise.jsm +++ b/toolkit/modules/Promise.jsm @@ -89,732 +89,13 @@ this.EXPORTED_SYMBOLS = [ * ----------------------------------------------------------------------------- */ -//////////////////////////////////////////////////////////////////////////////// -//// Globals - -const Cc = Components.classes; -const Ci = Components.interfaces; -const Cu = Components.utils; -const Cr = Components.results; - -Cu.import("resource://gre/modules/Services.jsm"); -Cu.import("resource://gre/modules/XPCOMUtils.jsm"); - -const STATUS_PENDING = 0; -const STATUS_RESOLVED = 1; -const STATUS_REJECTED = 2; - -// These "private names" allow some properties of the Promise object to be -// accessed only by this module, while still being visible on the object -// manually when using a debugger. They don't strictly guarantee that the -// properties are inaccessible by other code, but provide enough protection to -// avoid using them by mistake. -const salt = Math.floor(Math.random() * 100); -const Name = (n) => "{private:" + n + ":" + salt + "}"; -const N_STATUS = Name("status"); -const N_VALUE = Name("value"); -const N_HANDLERS = Name("handlers"); -const N_WITNESS = Name("witness"); - - -/////// Warn-upon-finalization mechanism -// -// One of the difficult problems with promises is locating uncaught -// rejections. We adopt the following strategy: if a promise is rejected -// at the time of its garbage-collection *and* if the promise is at the -// end of a promise chain (i.e. |thatPromise.then| has never been -// called), then we print a warning. -// -// let deferred = Promise.defer(); -// let p = deferred.promise.then(); -// deferred.reject(new Error("I am un uncaught error")); -// deferred = null; -// p = null; -// -// In this snippet, since |deferred.promise| is not the last in the -// chain, no error will be reported for that promise. However, since -// |p| is the last promise in the chain, the error will be reported -// for |p|. -// -// Note that this may, in some cases, cause an error to be reported more -// than once. For instance, consider: -// -// let deferred = Promise.defer(); -// let p1 = deferred.promise.then(); -// let p2 = deferred.promise.then(); -// deferred.reject(new Error("I am an uncaught error")); -// p1 = p2 = deferred = null; -// -// In this snippet, the error is reported both by p1 and by p2. -// - -XPCOMUtils.defineLazyServiceGetter(this, "FinalizationWitnessService", - "@mozilla.org/toolkit/finalizationwitness;1", - "nsIFinalizationWitnessService"); - -let PendingErrors = { - _counter: 0, - _map: new Map(), - register: function(error) { - let id = "pending-error-" + (this._counter++); - // - // At this stage, ideally, we would like to store the error itself - // and delay any treatment until we are certain that we will need - // to report that error. However, in the (unlikely but possible) - // case the error holds a reference to the promise itself, doing so - // would prevent the promise from being garbabe-collected, which - // would both cause a memory leak and ensure that we cannot report - // the uncaught error. - // - // To avoid this situation, we rather extract relevant data from - // the error and further normalize it to strings. - // - let value = { - date: new Date(), - message: "" + error, - fileName: null, - stack: null, - lineNumber: null - }; - try { // Defend against non-enumerable values - if (error && error instanceof Ci.nsIException) { - // nsIException does things a little differently. - try { - // For starters |.toString()| does not only contain the message, but - // also the top stack frame, and we don't really want that. - value.message = error.message; - } catch (ex) { - // Ignore field - } - try { - // All lowercase filename. ;) - value.fileName = error.filename; - } catch (ex) { - // Ignore field - } - try { - value.lineNumber = error.lineNumber; - } catch (ex) { - // Ignore field - } - } else if (typeof error == "object" && error) { - for (let k of ["fileName", "stack", "lineNumber"]) { - try { // Defend against fallible getters and string conversions - let v = error[k]; - value[k] = v ? ("" + v) : null; - } catch (ex) { - // Ignore field - } - } - } - - if (!value.stack) { - // |error| is not an Error (or Error-alike). Try to figure out the stack. - let stack = null; - if (error && error.location && - error.location instanceof Ci.nsIStackFrame) { - // nsIException has full stack frames in the |.location| member. - stack = error.location; - } else { - // Components.stack to the rescue! - stack = Components.stack; - // Remove those top frames that refer to Promise.jsm. - while (stack) { - if (!stack.filename.endsWith("/Promise.jsm")) { - break; - } - stack = stack.caller; - } - } - if (stack) { - let frames = []; - while (stack) { - frames.push(stack); - stack = stack.caller; - } - value.stack = frames.join("\n"); - } - } - } catch (ex) { - // Ignore value - } - this._map.set(id, value); - return id; - }, - extract: function(id) { - let value = this._map.get(id); - this._map.delete(id); - return value; - }, - unregister: function(id) { - this._map.delete(id); - } -}; - -// Actually print the finalization warning. -Services.obs.addObserver(function observe(aSubject, aTopic, aValue) { - let error = PendingErrors.extract(aValue); - let {message, date, fileName, stack, lineNumber} = error; - let error = Cc['@mozilla.org/scripterror;1'].createInstance(Ci.nsIScriptError); - if (!error || !Services.console) { - // Too late during shutdown to use the nsIConsole - dump("*************************\n"); - dump("A promise chain failed to handle a rejection\n\n"); - dump("On: " + date + "\n"); - dump("Full message: " + message + "\n"); - dump("See https://developer.mozilla.org/Mozilla/JavaScript_code_modules/Promise.jsm/Promise\n"); - dump("Full stack: " + (stack||"not available") + "\n"); - dump("*************************\n"); - return; - } - if (stack) { - message += "\nFull Stack: " + stack; - } - error.init( - /*message*/"A promise chain failed to handle a rejection.\n\n" + - "Date: " + date + "\nFull Message: " + message, - /*sourceName*/ fileName, - /*sourceLine*/ lineNumber?("" + lineNumber):0, - /*lineNumber*/ lineNumber || 0, - /*columnNumber*/ 0, - /*flags*/ Ci.nsIScriptError.errorFlag, - /*category*/ "chrome javascript"); - Services.console.logMessage(error); -}, "promise-finalization-witness", false); - -///////// Additional warnings for developers -// -// The following error types are considered programmer errors, which should be -// reported (possibly redundantly) so as to let programmers fix their code. -const ERRORS_TO_REPORT = ["EvalError", "RangeError", "ReferenceError", "TypeError"]; - -//////////////////////////////////////////////////////////////////////////////// -//// Promise - -/** - * The Promise constructor. Creates a new promise given an executor callback. - * The executor callback is called with the resolve and reject handlers. - * - * @param aExecutor - * The callback that will be called with resolve and reject. - */ -this.Promise = function Promise(aExecutor) -{ - if (typeof(aExecutor) != "function") { - throw new TypeError("Promise constructor must be called with an executor."); - } - - /* - * Internal status of the promise. This can be equal to STATUS_PENDING, - * STATUS_RESOLVED, or STATUS_REJECTED. - */ - Object.defineProperty(this, N_STATUS, { value: STATUS_PENDING, - writable: true }); - - /* - * When the N_STATUS property is STATUS_RESOLVED, this contains the final - * resolution value, that cannot be a promise, because resolving with a - * promise will cause its state to be eventually propagated instead. When the - * N_STATUS property is STATUS_REJECTED, this contains the final rejection - * reason, that could be a promise, even if this is uncommon. - */ - Object.defineProperty(this, N_VALUE, { writable: true }); - - /* - * Array of Handler objects registered by the "then" method, and not processed - * yet. Handlers are removed when the promise is resolved or rejected. - */ - Object.defineProperty(this, N_HANDLERS, { value: [] }); - - /** - * When the N_STATUS property is STATUS_REJECTED and until there is - * a rejection callback, this contains an array - * - {string} id An id for use with |PendingErrors|; - * - {FinalizationWitness} witness A witness broadcasting |id| on - * notification "promise-finalization-witness". - */ - Object.defineProperty(this, N_WITNESS, { writable: true }); - - Object.seal(this); - - let resolve = PromiseWalker.completePromise - .bind(PromiseWalker, this, STATUS_RESOLVED); - let reject = PromiseWalker.completePromise - .bind(PromiseWalker, this, STATUS_REJECTED); - - try { - Function.prototype.call.call(aExecutor, this, resolve, reject); - } catch (ex) { - reject(ex); - } -} - -/** - * Calls one of the provided functions as soon as this promise is either - * resolved or rejected. A new promise is returned, whose state evolves - * depending on this promise and the provided callback functions. - * - * The appropriate callback is always invoked after this method returns, even - * if this promise is already resolved or rejected. You can also call the - * "then" method multiple times on the same promise, and the callbacks will be - * invoked in the same order as they were registered. - * - * @param aOnResolve - * If the promise is resolved, this function is invoked with the - * resolution value of the promise as its only argument, and the - * outcome of the function determines the state of the new promise - * returned by the "then" method. In case this parameter is not a - * function (usually "null"), the new promise returned by the "then" - * method is resolved with the same value as the original promise. - * - * @param aOnReject - * If the promise is rejected, this function is invoked with the - * rejection reason of the promise as its only argument, and the - * outcome of the function determines the state of the new promise - * returned by the "then" method. In case this parameter is not a - * function (usually left "undefined"), the new promise returned by the - * "then" method is rejected with the same reason as the original - * promise. - * - * @return A new promise that is initially pending, then assumes a state that - * depends on the outcome of the invoked callback function: - * - If the callback returns a value that is not a promise, including - * "undefined", the new promise is resolved with this resolution - * value, even if the original promise was rejected. - * - If the callback throws an exception, the new promise is rejected - * with the exception as the rejection reason, even if the original - * promise was resolved. - * - If the callback returns a promise, the new promise will - * eventually assume the same state as the returned promise. - * - * @note If the aOnResolve callback throws an exception, the aOnReject - * callback is not invoked. You can register a rejection callback on - * the returned promise instead, to process any exception occurred in - * either of the callbacks registered on this promise. - */ -Promise.prototype.then = function (aOnResolve, aOnReject) -{ - let handler = new Handler(this, aOnResolve, aOnReject); - this[N_HANDLERS].push(handler); - - // Ensure the handler is scheduled for processing if this promise is already - // resolved or rejected. - if (this[N_STATUS] != STATUS_PENDING) { - - // This promise is not the last in the chain anymore. Remove any watchdog. - if (this[N_WITNESS] != null) { - let [id, witness] = this[N_WITNESS]; - this[N_WITNESS] = null; - witness.forget(); - PendingErrors.unregister(id); - } - - PromiseWalker.schedulePromise(this); - } - - return handler.nextPromise; -}; - - -/** - * Creates a new pending promise and provides methods to resolve or reject it. - * - * @return A new object, containing the new promise in the "promise" property, - * and the methods to change its state in the "resolve" and "reject" - * properties. See the Deferred documentation for details. - */ -Promise.defer = function () -{ - return new Deferred(); -}; - -/** - * Creates a new promise resolved with the specified value, or propagates the - * state of an existing promise. - * - * @param aValue - * If this value is not a promise, including "undefined", it becomes - * the resolution value of the returned promise. If this value is a - * promise, then the returned promise will eventually assume the same - * state as the provided promise. - * - * @return A promise that can be pending, resolved, or rejected. - */ -Promise.resolve = function (aValue) -{ - if (aValue && typeof(aValue) == "function" && aValue.isAsyncFunction) { - throw new TypeError( - "Cannot resolve a promise with an async function. " + - "You should either invoke the async function first " + - "or use 'Task.spawn' instead of 'Task.async' to start " + - "the Task and return its promise."); - } - - return new Promise((aResolve) => aResolve(aValue)); -}; - -/** - * Creates a new promise rejected with the specified reason. - * - * @param aReason - * The rejection reason for the returned promise. Although the reason - * can be "undefined", it is generally an Error object, like in - * exception handling. - * - * @return A rejected promise. - * - * @note The aReason argument should not be a promise. Using a rejected - * promise for the value of aReason would make the rejection reason - * equal to the rejected promise itself, and not its rejection reason. - */ -Promise.reject = function (aReason) -{ - return new Promise((_, aReject) => aReject(aReason)); -}; - -/** - * Returns a promise that is resolved or rejected when all values are - * resolved or any is rejected. - * - * @param aValues - * Iterable of promises that may be pending, resolved, or rejected. When - * all are resolved or any is rejected, the returned promise will be - * resolved or rejected as well. - * - * @return A new promise that is fulfilled when all values are resolved or - * that is rejected when any of the values are rejected. Its - * resolution value will be an array of all resolved values in the - * given order, or undefined if aValues is an empty array. The reject - * reason will be forwarded from the first promise in the list of - * given promises to be rejected. - */ -Promise.all = function (aValues) -{ - if (aValues == null || typeof(aValues["@@iterator"]) != "function") { - throw new Error("Promise.all() expects an iterable."); - } - - if (!Array.isArray(aValues)) { - aValues = [...aValues]; - } - - if (!aValues.length) { - return Promise.resolve([]); - } - - let countdown = aValues.length; - let deferred = Promise.defer(); - let resolutionValues = new Array(countdown); - - function checkForCompletion(aValue, aIndex) { - resolutionValues[aIndex] = aValue; - - if (--countdown === 0) { - deferred.resolve(resolutionValues); - } - } - - for (let i = 0; i < aValues.length; i++) { - let index = i; - let value = aValues[i]; - let resolve = val => checkForCompletion(val, index); - - if (value && typeof(value.then) == "function") { - value.then(resolve, deferred.reject); - } else { - // Given value is not a promise, forward it as a resolution value. - resolve(value); - } - } - - return deferred.promise; -}; - -Object.freeze(Promise); - -//////////////////////////////////////////////////////////////////////////////// -//// PromiseWalker - -/** - * This singleton object invokes the handlers registered on resolved and - * rejected promises, ensuring that processing is not recursive and is done in - * the same order as registration occurred on each promise. - * - * There is no guarantee on the order of execution of handlers registered on - * different promises. - */ -this.PromiseWalker = { - /** - * Singleton array of all the unprocessed handlers currently registered on - * resolved or rejected promises. Handlers are removed from the array as soon - * as they are processed. - */ - handlers: [], - - /** - * Called when a promise needs to change state to be resolved or rejected. - * - * @param aPromise - * Promise that needs to change state. If this is already resolved or - * rejected, this method has no effect. - * @param aStatus - * New desired status, either STATUS_RESOLVED or STATUS_REJECTED. - * @param aValue - * Associated resolution value or rejection reason. - */ - completePromise: function (aPromise, aStatus, aValue) - { - // Do nothing if the promise is already resolved or rejected. - if (aPromise[N_STATUS] != STATUS_PENDING) { - return; - } - - // Resolving with another promise will cause this promise to eventually - // assume the state of the provided promise. - if (aStatus == STATUS_RESOLVED && aValue && - typeof(aValue.then) == "function") { - aValue.then(this.completePromise.bind(this, aPromise, STATUS_RESOLVED), - this.completePromise.bind(this, aPromise, STATUS_REJECTED)); - return; - } - - // Change the promise status and schedule our handlers for processing. - aPromise[N_STATUS] = aStatus; - aPromise[N_VALUE] = aValue; - if (aPromise[N_HANDLERS].length > 0) { - this.schedulePromise(aPromise); - } else if (aStatus == STATUS_REJECTED) { - // This is a rejection and the promise is the last in the chain. - // For the time being we therefore have an uncaught error. - let id = PendingErrors.register(aValue); - let witness = - FinalizationWitnessService.make("promise-finalization-witness", id); - aPromise[N_WITNESS] = [id, witness]; - } - }, - - /** - * Sets up the PromiseWalker loop to start on the next tick of the event loop - */ - scheduleWalkerLoop: function() - { - this.walkerLoopScheduled = true; - Services.tm.currentThread.dispatch(this.walkerLoop, - Ci.nsIThread.DISPATCH_NORMAL); - }, - - /** - * Schedules the resolution or rejection handlers registered on the provided - * promise for processing. - * - * @param aPromise - * Resolved or rejected promise whose handlers should be processed. It - * is expected that this promise has at least one handler to process. - */ - schedulePromise: function (aPromise) - { - // Migrate the handlers from the provided promise to the global list. - for (let handler of aPromise[N_HANDLERS]) { - this.handlers.push(handler); - } - aPromise[N_HANDLERS].length = 0; - - // Schedule the walker loop on the next tick of the event loop. - if (!this.walkerLoopScheduled) { - this.scheduleWalkerLoop(); - } - }, - - /** - * Indicates whether the walker loop is currently scheduled for execution on - * the next tick of the event loop. - */ - walkerLoopScheduled: false, - - /** - * Processes all the known handlers during this tick of the event loop. This - * eager processing is done to avoid unnecessarily exiting and re-entering the - * JavaScript context for each handler on a resolved or rejected promise. - * - * This function is called with "this" bound to the PromiseWalker object. - */ - walkerLoop: function () - { - // If there is more than one handler waiting, reschedule the walker loop - // immediately. Otherwise, use walkerLoopScheduled to tell schedulePromise() - // to reschedule the loop if it adds more handlers to the queue. This makes - // this walker resilient to the case where one handler does not return, but - // starts a nested event loop. In that case, the newly scheduled walker will - // take over. In the common case, the newly scheduled walker will be invoked - // after this one has returned, with no actual handler to process. This - // small overhead is required to make nested event loops work correctly, but - // occurs at most once per resolution chain, thus having only a minor - // impact on overall performance. - if (this.handlers.length > 1) { - this.scheduleWalkerLoop(); - } else { - this.walkerLoopScheduled = false; - } - - // Process all the known handlers eagerly. - while (this.handlers.length > 0) { - this.handlers.shift().process(); - } - }, -}; - -// Bind the function to the singleton once. -PromiseWalker.walkerLoop = PromiseWalker.walkerLoop.bind(PromiseWalker); - -//////////////////////////////////////////////////////////////////////////////// -//// Deferred - -/** - * Returned by "Promise.defer" to provide a new promise along with methods to - * change its state. - */ -function Deferred() -{ - this.promise = new Promise((aResolve, aReject) => { - this.resolve = aResolve; - this.reject = aReject; - }); - Object.freeze(this); -} - -Deferred.prototype = { - /** - * A newly created promise, initially in the pending state. - */ - promise: null, - - /** - * Resolves the associated promise with the specified value, or propagates the - * state of an existing promise. If the associated promise has already been - * resolved or rejected, this method does nothing. - * - * This function is bound to its associated promise when "Promise.defer" is - * called, and can be called with any value of "this". - * - * @param aValue - * If this value is not a promise, including "undefined", it becomes - * the resolution value of the associated promise. If this value is a - * promise, then the associated promise will eventually assume the same - * state as the provided promise. - * - * @note Calling this method with a pending promise as the aValue argument, - * and then calling it again with another value before the promise is - * resolved or rejected, has unspecified behavior and should be avoided. - */ - resolve: null, - - /** - * Rejects the associated promise with the specified reason. If the promise - * has already been resolved or rejected, this method does nothing. - * - * This function is bound to its associated promise when "Promise.defer" is - * called, and can be called with any value of "this". - * - * @param aReason - * The rejection reason for the associated promise. Although the - * reason can be "undefined", it is generally an Error object, like in - * exception handling. - * - * @note The aReason argument should not generally be a promise. In fact, - * using a rejected promise for the value of aReason would make the - * rejection reason equal to the rejected promise itself, not to the - * rejection reason of the rejected promise. - */ - reject: null, -}; - -//////////////////////////////////////////////////////////////////////////////// -//// Handler - -/** - * Handler registered on a promise by the "then" function. - */ -function Handler(aThisPromise, aOnResolve, aOnReject) -{ - this.thisPromise = aThisPromise; - this.onResolve = aOnResolve; - this.onReject = aOnReject; - this.nextPromise = new Promise(() => {}); -} - -Handler.prototype = { - /** - * Promise on which the "then" method was called. - */ - thisPromise: null, - - /** - * Unmodified resolution handler provided to the "then" method. - */ - onResolve: null, - - /** - * Unmodified rejection handler provided to the "then" method. - */ - onReject: null, - - /** - * New promise that will be returned by the "then" method. - */ - nextPromise: null, - - /** - * Called after thisPromise is resolved or rejected, invokes the appropriate - * callback and propagates the result to nextPromise. - */ - process: function() - { - // The state of this promise is propagated unless a handler is defined. - let nextStatus = this.thisPromise[N_STATUS]; - let nextValue = this.thisPromise[N_VALUE]; - - try { - // If a handler is defined for either resolution or rejection, invoke it - // to determine the state of the next promise, that will be resolved with - // the returned value, that can also be another promise. - if (nextStatus == STATUS_RESOLVED) { - if (typeof(this.onResolve) == "function") { - nextValue = this.onResolve(nextValue); - } - } else if (typeof(this.onReject) == "function") { - nextValue = this.onReject(nextValue); - nextStatus = STATUS_RESOLVED; - } - } catch (ex) { - - // An exception has occurred in the handler. - - if (ex && typeof ex == "object" && "name" in ex && - ERRORS_TO_REPORT.indexOf(ex.name) != -1) { - - // We suspect that the exception is a programmer error, so we now - // display it using dump(). Note that we do not use Cu.reportError as - // we assume that this is a programming error, so we do not want end - // users to see it. Also, if the programmer handles errors correctly, - // they will either treat the error or log them somewhere. - - dump("*************************\n"); - dump("A coding exception was thrown in a Promise " + - ((nextStatus == STATUS_RESOLVED) ? "resolution":"rejection") + - " callback.\n\n"); - dump("Full message: " + ex + "\n"); - dump("See https://developer.mozilla.org/Mozilla/JavaScript_code_modules/Promise.jsm/Promise\n"); - dump("Full stack: " + (("stack" in ex)?ex.stack:"not available") + "\n"); - dump("*************************\n"); - - } - - // Additionally, reject the next promise. - nextStatus = STATUS_REJECTED; - nextValue = ex; - } - - // Propagate the newly determined state to the next promise. - PromiseWalker.completePromise(this.nextPromise, nextStatus, nextValue); - }, -}; +// These constants must be defined on the "this" object for them to be visible +// by subscripts in B2G, since "this" does not match the global scope. +this.Cc = Components.classes; +this.Ci = Components.interfaces; +this.Cu = Components.utils; +this.Cr = Components.results; + +this.Cc["@mozilla.org/moz/jssubscript-loader;1"] + .getService(this.Ci.mozIJSSubScriptLoader) + .loadSubScript("resource://gre/modules/Promise-backend.js", this); diff --git a/toolkit/modules/moz.build b/toolkit/modules/moz.build index d6393e95111b..cb06d27ba62e 100644 --- a/toolkit/modules/moz.build +++ b/toolkit/modules/moz.build @@ -30,6 +30,7 @@ EXTRA_JS_MODULES += [ 'PopupNotifications.jsm', 'Preferences.jsm', 'PrivateBrowsingUtils.jsm', + 'Promise-backend.js', 'Promise.jsm', 'PropertyListUtils.jsm', 'RemoteAddonsChild.jsm',