gecko-dev/services/common/async.js

198 строки
5.7 KiB
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/. */
var EXPORTED_SYMBOLS = ["Async"];
ChromeUtils.import("resource://gre/modules/Services.jsm");
ChromeUtils.import("resource://gre/modules/XPCOMUtils.jsm");
/*
* Helpers for various async operations.
*/
var Async = {
/**
* Execute an arbitrary number of asynchronous functions one after the
* other, passing the callback arguments on to the next one. All functions
* must take a callback function as their last argument. The 'this' object
* will be whatever chain()'s is.
*
* @usage this._chain = Async.chain;
* this._chain(this.foo, this.bar, this.baz)(args, for, foo)
*
* This is equivalent to:
*
* let self = this;
* self.foo(args, for, foo, function (bars, args) {
* self.bar(bars, args, function (baz, params) {
* self.baz(baz, params);
* });
* });
*/
chain: function chain() {
let funcs = Array.slice(arguments);
let thisObj = this;
return function callback() {
if (funcs.length) {
let args = Array.slice(arguments).concat(callback);
let f = funcs.shift();
f.apply(thisObj, args);
}
};
},
/**
* Check if the app is still ready (not quitting). Returns true, or throws an
* exception if not ready.
*/
checkAppReady: function checkAppReady() {
// Watch for app-quit notification to stop any sync calls
Services.obs.addObserver(function onQuitApplication() {
Services.obs.removeObserver(onQuitApplication, "quit-application");
Async.checkAppReady = Async.promiseYield = function() {
let exception = Components.Exception("App. Quitting", Cr.NS_ERROR_ABORT);
exception.appIsShuttingDown = true;
throw exception;
};
}, "quit-application");
// In the common case, checkAppReady just returns true
return (Async.checkAppReady = function() { return true; })();
},
/**
* Check if the app is still ready (not quitting). Returns true if the app
* is ready, or false if it is being shut down.
*/
isAppReady() {
try {
return Async.checkAppReady();
} catch (ex) {
if (!Async.isShutdownException(ex)) {
throw ex;
}
}
return false;
},
/**
* Check if the passed exception is one raised by checkAppReady. Typically
* this will be used in exception handlers to allow such exceptions to
* make their way to the top frame and allow the app to actually terminate.
*/
isShutdownException(exception) {
return exception && exception.appIsShuttingDown === true;
},
/**
* A "tight loop" of promises can still lock up the browser for some time.
* Periodically waiting for a promise returned by this function will solve
* that.
* You should probably not use this method directly and instead use jankYielder
* below.
* Some reference here:
* - https://gist.github.com/jesstelford/bbb30b983bddaa6e5fef2eb867d37678
* - https://bugzilla.mozilla.org/show_bug.cgi?id=1094248
*/
promiseYield() {
return new Promise(resolve => {
Services.tm.currentThread.dispatch(resolve, Ci.nsIThread.DISPATCH_NORMAL);
});
},
// Returns a method that yields every X calls.
// Common case is calling the returned method every iteration in a loop.
jankYielder(yieldEvery = 50) {
let iterations = 0;
return async () => {
Async.checkAppReady(); // Let it throw!
if (++iterations % yieldEvery === 0) {
await Async.promiseYield();
}
};
},
/**
* Turn a synchronous iterator/iterable into an async iterator that calls a
* Async.jankYielder at each step.
*
* @param iterable {Iterable}
* Iterable or iterator that should be wrapped. (Anything usable in
* for..of should work)
*
* @param [maybeYield = 50] {number|() => Promise<void>}
* Either an existing jankYielder to use, or a number to provide as the
* argument to Async.jankYielder.
*/
async* yieldingIterator(iterable, maybeYield = 50) {
if (typeof maybeYield == "number") {
maybeYield = Async.jankYielder(maybeYield);
}
for (let item of iterable) {
await maybeYield();
yield item;
}
},
asyncQueueCaller(log) {
return new AsyncQueueCaller(log);
},
asyncObserver(log, obj) {
return new AsyncObserver(log, obj);
}
};
/**
* Allows consumers to enqueue asynchronous callbacks to be called in order.
* Typically this is used when providing a callback to a caller that doesn't
* await on promises.
*/
class AsyncQueueCaller {
constructor(log) {
this._log = log;
this._queue = Promise.resolve();
this.QueryInterface = ChromeUtils.generateQI([Ci.nsIObserver, Ci.nsISupportsWeakReference]);
}
/**
* /!\ Never await on another function that calls enqueueCall /!\
* on the same queue or we will deadlock.
*/
enqueueCall(func) {
this._queue = (async () => {
await this._queue;
try {
return await func();
} catch (e) {
this._log.error(e);
return false;
}
})();
}
promiseCallsComplete() {
return this._queue;
}
}
/*
* Subclass of AsyncQueueCaller that can be used with Services.obs directly.
* When this observe() is called, it will enqueue a call to the consumers's
* observe().
*/
class AsyncObserver extends AsyncQueueCaller {
constructor(obj, log) {
super(log);
this.obj = obj;
}
observe(subject, topic, data) {
this.enqueueCall(() => this.obj.observe(subject, topic, data));
}
promiseObserversComplete() {
return this.promiseCallsComplete();
}
}