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It seems most everyone does asynchronous requests with XMLHttpRequest but obviously the fact that there is the ability to do synchronous requests indicates there might be a valid reason to do so. So what might that valid reason be?

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That's a pretty good question! I don't think the answer will be very interesting, but great question nevertheless. Have you tried a synchronous call to see what will happen? –  Tad Donaghe Jan 18 '10 at 18:38
Synchronous calls block the browser which leads to a terrible user experience. Thus my question. I couldn't think of any good reason to use it. –  Darrell Brogdon Jan 18 '10 at 18:40
Semi-serious answer: maybe simply to fill the chapter that comes before the asynchronous requests in whatever JavaScript book you are reading. –  Ben James Jan 18 '10 at 18:53

15 Answers 15

up vote 19 down vote accepted

I think they might become more popular as HTML 5 standards progress. If a web application is given access to multiple threads, I could foresee developers using a dedicated thread to make synchronous requests for, as Jonathan said, to ensure one request happens before another. With the current situation of one thread, it is a less than ideal design as it blocks until the request is complete.

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What part of HTML5 adds threads? –  Weston C Jun 29 '10 at 20:44
I assume he meant 'Web Workers' –  evilpie Jun 29 '10 at 20:50
I think the distilled point. In UI Thread, Create a thread or a async task of sorts. If in thread already, use synchronized under most cases. Threads are a lot more "block friendly" –  HaMMeReD Aug 4 '11 at 6:18
This is an old answer, but this comment applies to even back then, even before HTML5, browsers provided for 2 threads for making requests. I wrote a connection pool script to utilize both, because even with async request, with one connection, you could tie the browser up. Making use of both allows for more data to be pushed/pulled through the line; but iirc, I think the sync requests still tied up the browser. –  vol7ron Mar 6 '13 at 22:55
Firefox (and probable all non-IE browsers) does not support async XHR timeOut. HTML5 WebWorkers do support timeouts. So, you may want to wrap sync XHR request to WebWorker with timeout to implement async-like XHR with timeout behaviour. –  Dmitry Kaigorodov Aug 22 '13 at 22:01

I'd say that if you consider blocking the user's browser while the request completes acceptable, then sure use a synchronous request.

If serialization of requests is your aim, then this can be accomplished using async requests, by having the onComplete callback of your previous request fire the next in line.

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Hmm, I'd add a sliding window to that, otherwise you'll basically lose the round-trip time for each request –  Stephan Eggermont Jan 18 '10 at 18:49

What happens if you make a synchronous call in production code?

The sky falls down.

No seriously, the user does not like a locked up browser.

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The question is "why do it with XMLHTTPREQUEST" not "why do or not do sync calls" –  Itay Moav -Malimovka Jan 18 '10 at 22:43
If you add a reasonable timeout that shouldn't be a problem. –  Greg May 8 '12 at 21:29

I use it to validate a username, during the check that the username does not exist already.

I know it would be better to do that asynchronously, but then I should use a different code for this particular validation rule. I explain better. My validation setup uses some validation functions, which return true or false, depending if the data is valid.

Since the function has to return, I cannot use asynchronous techniques, so I just make that synchronous and hope that the server will answer promptly enough not to be too noticeable. If I used an AJAX callback, then I would have to handle the rest of the execution differently from the other validation methods.

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Sometimes you have an action that depends in others. For example, action B can only be started if A is finished. The synchronous approach is usually used to avoid race conditions. Sometimes using a synchronous call is a simpler implementation then creating complex logic to check every state of your asynchronous calls that depend on each other.

The problem with this approach is that you "block" the user's browser until the action is finished (until the request returns, finishes, loads, etc). So be careful when using it.

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The question is "why do it with XMLHTTPREQUEST" not "why do sync calls" –  Itay Moav -Malimovka Jan 18 '10 at 22:43
The author himself says "Synchronous calls block the browser which leads to a terrible user experience." in a comment, so everyone in this thread applied for the "synchronous calls" approach. Why did you take this literal understanding of the question if you can't really say for sure what the author meant? –  GmonC Jan 18 '10 at 23:19

I use synchronous calls when developing code- whatever you did while the request was commuting to and from the server can obscure the cause of an error.

When it's working, I make it asynchronous, but I try to include an abort timer and failure callbacks, cause you never know...

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XMLHTTPREQUEST is usually for async. Some times (for debugging, or specific business logic) you would like to change all/several of the async calls in one page to sync.
You would like to do it without changing everything in your JS code. The async/sync flag gives you that ability, and if designed correctly, you need only change one line in your code/change the value of one var during run time.

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You'd want to perform synchronous calls in any sort of transaction-like processing, or wherever any order of operation is necessary.

For instance, let's say you want to customize an event to log you out after playing a song. If the logout operation occurs first, then the song will never be played. This requires synchronizing the requests.

Another reason would be when working with a WebService, especially when performing math on the server.

Example: Server has a variable with value of 1.

 Step (1) Perform Update: add 1 to variable
 Step (2) Perform Update: set variable to the power of 3
 End Value: variable equals 8

If Step (2) occurs first, then the end value is 2, not 8; thus order of operation matters and synchronization is needed.

There are very few times that a synchronous call may be justified in a common real world example. Perhaps when clicking login and then clicking a portion of the site that requires a user to be logged in.

As others have said, it will tie up your browser, so stay away from it where you can.

Instead of synchronous calls, though, often users want to stop an event that is currently loading and then perform some other operation. In a way this is synchronization, since the first event is quit before the second begins. To do this, use the abort() method on the xml connection object.

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I think this should be the true answer –  user376314 Jul 7 '10 at 5:11
@Zack: that's a good example, however you could probably do the same with asynchronous calls depending on the event that is calling it. –  vol7ron Jul 23 '10 at 23:33
+1 There is a valid case that logical race conditions can result from asynchronous server requests... However, the solution doesn't have to be synchronicity. Unless your requests are being handled from a Web Worker, it would be better to write a transport layer that would number the requests and then ensure operations are handled in order of request ids. –  Roy Tinker Aug 4 '11 at 17:29
-1 Transaction processing is a perfect example where you must use guarantee's that stuff fails or succeeds - just because the command is synchronous, doesn't mean that the first request succeeded... you have rely on the response telling you such. In this example you would do the second request only from within the result-handler of the first request - in which case they both might as well be async. –  Mathew Oct 17 '12 at 21:20
@Mathew: that is only true if your transaction-like process is dependent on the result of the action before it. If you have a button that creates a new object (retrieved from the server) in your page; if it was asynchronous the user could potentially click multiple times and return many objects. A synchronous call would prevent that and only allow another new object to be created after the first has finished, regardless if it errored out, or not. Please pay attention to wording, I made it transaction-like and not transaction on purpose. –  vol7ron Oct 17 '12 at 22:00

I can see a use for synchronous XHR requests to be used when a resource in a variable location must be loaded before other static resources in the page that depend on the first resource to fully function. In point of fact, I'm implementing such an XHR request in a little sub-project of my own whereas JavaScript resources reside in variable locations on the server depending on a set of specific parameters. Subsequent JavaScript resources rely on those variable resources and such files MUST be guaranteed to load before the other reliant files are loaded, thus making the application whole.

That idea foundation really kind of expands on vol7ron's answer. Transaction-based procedures are really the only time where synchronous requests should be made. In most other cases, asynchronous calls are the better alternative in which, after the call, the DOM is updated as necessary. In many cases, such as user-based systems, you could have certain features locked to "unauthorized users" until they have, per se, logged in. The those features, after the asynchronous call, are unlocked via a DOM update procedure.

I'd have to finally say that I agree with most individuals' points on the matter: wherever possible, synchronous XHR requests should be avoided as, with the way it works, the browser locks up with synchronous calls. When implementing synchronous requests, they should be done in a manner where the browser would normally be locked, anyway, say in the HEAD section before page loading actually occurs.

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Synchronous XHRs are useful for saving user data. If you handle the beforeunload event you can upload data to the server as the user closes the page.

If this were done using the async option, then the page could close before the request completes. Doing this synchronously ensures the request completes or fails in an expected way.

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Edited: I realize you're just dumping txt from a lazy HN user, but a little time in phrasing it nicely is appreciated here on SO. –  Frank Krueger Aug 4 '11 at 16:41

jQuery uses synchronous AJAX internally under some circumstances. When inserting HTML that contains scripts, the browser will not execute them. The scripts need to be executed manually. These scripts may attach click handlers. Assume a user clicks on an element before the handler is attached and the page would not function as intended. Therefore to prevent race conditions, synchronous AJAX would be used to fetch those scripts. Because synchronous AJAX effectively blocks everything else, it can be sure that scripts and events execute in the right order.

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Firefox (and probable all non-IE browsers) does not support async XHR timeOut.

  1. Stackoverflow discussion
  2. Mozilla Firefox XMLHttpRequest

HTML5 WebWorkers do support timeouts. So, you may want to wrap sync XHR request to WebWorker with timeout to implement async-like XHR with timeout behaviour.

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Let's say you have an ajax application which needs to do half a dozen http gets to load various data from the server before the user can do any interaction.

Obviously you want this triggered from onload.

Synchronous calls work very well for this without any added complexity to the code. It is simple and straightforward.


The only drawback is that your browser locks up until all data is loaded or a timeout happens. As for the ajax application in question, this isn't much of a problem because the application is of no use until all the initial data is loaded anyway.


However many browsers lock up all windows/tabs when while the javascript is busy in any one of them, which is a stupid browser design problem - but as a result blocking on possibly slow network gets is not polite if it keeps users from using other tabs while waiting for ajax page to load.

However, it looks like synchronous gets have been removed or restricted from recent browsers anyway. I'm not sure if that's because somebody decided they were just always bad, or if browser writers were confused by the WC Working Draft on the topic.

http://www.w3.org/TR/2012/WD-XMLHttpRequest-20120117/#the-open-method does make it look like (see section 4.7.3) you are not allowed to set a timeout when using blocking mode. Seems counter intuitive to me: Whenever one does blocking IO it's polite to set a reasonable timeout, so why allow blocking io but not with a user specified timeout?

My opinion is that blocking IO has a vital role in some situations but must be implemented correctly. While it is not acceptable for one browser tab or window to lock up all other tabs or windows, that's a browser design flaw. Shame where shame is due. But it is perfectly acceptable in some cases for an individual tab or window to be non-responsive for a couple of seconds (i.e. using blocking IO/HTTP GET) in some situations -- for example, on page load, perhaps a lot of data needs to be before anything can be done anyway. Sometimes properly implemented blocking code is the cleanest way to do it.

Of course equivalent function in this case can be obtained using asynchronous http gets, but what sort of goofy routine is required?

I guess I would try something along these lines:

On document load, do the following: 1: Set up 6 global "Done" flag variables, initialized to 0. 2: Execute all 6 background gets (Assuming the order didn't matter)

Then, the completion callbacks for each of the 6 http get's would set their respective "Done" flags. Also, each callback would check all the other done flags to see if all 6 HTTP gets had completed. The last callback to complete, upon seeing that all others had completed, would then call the REAL init function which would then set everything up, now that the data was all fetched.

If the order of the fetching mattered -- or if the webserver was unable to accept multiple requests at same time -- then you would need something like this:

In onload(), the first http get would be launched. In it's callback, the second one would be launched. In it's callback, the third -- and so on and so forth, with each callback launching the next HTTP GET. When the last one returned, then it would call the real init() routine.

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I just had a situation where asynchronous requests for a list of urls called in succession using forEach (and a for loop) would cause the remaining requests to be cancelled. I switched to synchronous and they work as intended.

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There are many real world cases where blocking the UI is exactly the desired behaviour.

Take an app with multiple fields and some fields must be validated by a xmlhttp call to a remote server providing as input this field's value and other fields values.

In synchronous mode, the logic is simple, the blocking experienced by the user is very short and there is no problem.

In async mode, the user may change the values of any other fields while the initial one is being validated. These changes will trigger other xmlhttp calls with values from the initial field not yet validated. What happens if the initial validation failed ? Pure mess. If sync mode becomes deprecated and prohibited, the application logic becomes a nightmare to handle. Basically the application has to be re-written to manage locks (eg. disable other items during validation processes). Code complexity increases tremendously. Failing to do so may lead to logic failure and ultimately data corruption.

Basically the question is: what is more important, non-blocked UI experience or risk of data corruption ? The answer should remain with the application developer, not the W3C.

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