What is the difference between asynchronous and non-blocking calls? Also between blocking and synchronous calls (with examples please)?

12 Answers 12

up vote 250 down vote accepted

In many circumstances they are different names for the same thing, but in some contexts they are quite different. So it depends. Terminology is not applied in a totally consistent way across the whole software industry.

For example in the classic sockets API, a non-blocking socket is one that simply returns immediately with a special "would block" error message, whereas a blocking socket would have blocked. You have to use a separate function such as select or poll to find out when is a good time to retry.

But asynchronous sockets (as supported by Windows sockets), or the asynchronous IO pattern used in .NET, are more convenient. You call a method to start an operation, and the framework calls you back when it's done. Even here, there are basic differences. Asynchronous Win32 sockets "marshal" their results onto a specific GUI thread by passing Window messages, whereas .NET asynchronous IO is free-threaded (you don't know what thread your callback will be called on).

So they don't always mean the same thing. To distil the socket example, we could say:

  • Blocking and synchronous mean the same thing: you call the API, it hangs up the thread until it has some kind of answer and returns it to you.
  • Non-blocking means that if an answer can't be returned rapidly, the API returns immediately with an error and does nothing else. So there must be some related way to query whether the API is ready to be called (that is, to simulate a wait in an efficient way, to avoid manual polling in a tight loop).
  • Asynchronous means that the API always returns immediately, having started a "background" effort to fulfil your request, so there must be some related way to obtain the result.
  • ready state IO rather than completion state IO; on Linux see libaio – Will Apr 12 '10 at 21:26
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    Thanks for pointing out that the terms are context sensitive and sometimes may be used inconsistently. I find in technology especially, but other areas too, that it is often more useful to acknowledge that fact than to get into debates about which precise definition is correct, as sometimes happens. – Chad N B Nov 27 '12 at 5:25
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    Followup Q: The answer seems to make two different distinctions between the terms. First, the notification: non-blocking implies the application must check again later (polling) whereas async implies we can forget about it and rely on the framework/OS to notify us via callback or posting an event. Second, the action: non-blocking does absolutely nothing but return an error, whereas async queues the action or does it "in the background" in some sense. Which difference is more important in distinguishing the terms? Is either distinction more strongly associated with one term? Or is it ambiguous? – Chad N B Nov 27 '12 at 5:36
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    @ChadNB - as terms, non-blocking is strongly associated with polling. Regarding the question of whether the API "remembers" your attempt to call it: the only reason for the API to remember is in order to call you back. If you're going to be calling it to re-poll, then you already have to maintain the necessary state to know to make that subsequent call, so the API would add no value by also maintaining state. – Daniel Earwicker Dec 3 '12 at 11:05
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    Rather than saying the non-blocking call returns an "error", I think it would be more accurate to say that a non-blocking call does as much as can be done essentially immediately, and then indicates how much it did. For some operations, the amount of work done will either be "everything" or "nothing", but some other operations (like stream I/O) may return a quantitative indication. Non-blocking is semantically equivalent to blocking with a very short timeout if the blocking I/O implementation will allow an operation which times out to be smoothly retried later (some do; some don't). – supercat Sep 10 '14 at 13:27
  • Asynchronous refers to something done in parallel, say is another thread.
  • Non-blocking often refers to polling, i.e. checking whether given condition holds (socket is readable, device has more data, etc.)
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    when I/O is involved, asynchronous usually isn't "in parallel", nor "another thread", mostly it's notification-based. that is: don't block, don't poll, just get the signal. of course, it can be argued that the signal is coming from the 'real world' which can be thought as 'another thread'... – Javier Apr 12 '10 at 21:36
  • Well, yes, we can argue the exact wording all day :) – Nikolai Fetissov Apr 13 '10 at 3:07
  • but how do you explain the AIO in Linux? which used both the Async and non-blocking. AIO LINKS – Djvu Sep 20 '14 at 2:11
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    To anyone reading this answer: this is not arguing over exact wording. In the same way that concurrency and parallelism are not the same notions and distinguishing them is not a wording issue. Asynchronicity and parallelism are two different beasts and this answer inaccurately makes them be the same. – Ptival Aug 8 '16 at 22:33
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    Async doesn't necessarily mean it's done in parallel, see this great post on stackoverflow about concurrent and parallel programming. – BARJ Oct 27 '17 at 5:29

As you can probably see from the multitude of different (and often mutually exclusive) answers, it depends on who you ask. In some arenas, the terms are synonymous. Or they might each refer to two similar concepts:

  • One interpretation is that the call will do something in the background essentially unsupervised in order to allow the program to not be held up by a lengthy process that it does not need to control. Playing audio might be an example - a program could call a function to play (say) an mp3, and from that point on could continue on to other things while leaving it to the OS to manage the process of rendering the audio on the sound hardware.
  • The alternative interpretation is that the call will do something that the program will need to monitor, but will allow most of the process to occur in the background only notifying the program at critical points in the process. For example, asynchronous file IO might be an example - the program supplies a buffer to the operating system to write to file, and the OS only notifies the program when the operation is complete or an error occurs.

In either case, the intention is to allow the program to not be blocked waiting for a slow process to complete - how the program is expected to respond is the only real difference. Which term refers to which also changes from programmer to programmer, language to language, or platform to platform. Or the terms may refer to completely different concepts (such as the use of synchronous/asynchronous in relation to thread programming).

Sorry, but I don't believe there is a single right answer that is globally true.

  • +1 Good answer. People need to be aware that "asynchronous" can mean either non-blocking, or the Microsoft asynch (event-based/ callback) approach. – Arcane Engineer Dec 13 '11 at 10:03

Putting this question in the context of NIO and NIO.2 in java 7, async IO is one step more advanced than non-blocking. With java NIO non-blocking calls, one would set all channels (SocketChannel, ServerSocketChannel, FileChannel, etc) as such by calling AbstractSelectableChannel.configureBlocking(false). After those IO calls return, however, you will likely still need to control the checks such as if and when to read/write again, etc.
For instance,

while (!isDataEnough()) {
    socketchannel.read(inputBuffer);
    // do something else and then read again
}

With the asynchronous api in java 7, these controls can be made in more versatile ways. One of the 2 ways is to use CompletionHandler. Notice that both read calls are non-blocking.

asyncsocket.read(inputBuffer, 60, TimeUnit.SECONDS /* 60 secs for timeout */, 
    new CompletionHandler<Integer, Object>() {
        public void completed(Integer result, Object attachment) {...}  
        public void failed(Throwable e, Object attachment) {...}
    }
}
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    FileChannel is not selectable and can't be configured to non-blocking. – michaelliu Mar 14 '14 at 19:00

synchronous / asynchronous is to describe the relation between two modules.
blocking / non-blocking is to describe the situation of one module.

An example:
Module X: "I".
Module Y: "bookstore".
X asks Y: do you have a book named "c++ primer"?

1) blocking: before Y answers X, X keeps waiting there for the answer. Now X (one module) is blocking. X and Y are two threads or two processes or one thread or one process? we DON'T know.

2) non-blocking: before Y answers X, X just leaves there and do other things. X may come back every two minutes to check if Y has finished its job? Or X won't come back until Y calls him? We don't know. We only know that X can do other things before Y finishes its job. Here X (one module) is non-blocking. X and Y are two threads or two processes or one process? we DON'T know. BUT we are sure that X and Y couldn't be one thread.

3) synchronous: before Y answers X, X keeps waiting there for the answer. It means that X can't continue until Y finishes its job. Now we say: X and Y (two modules) are synchronous. X and Y are two threads or two processes or one thread or one process? we DON'T know.

4) asynchronous: before Y answers X, X leaves there and X can do other jobs. X won't come back until Y calls him. Now we say: X and Y (two modules) are asynchronous. X and Y are two threads or two processes or one process? we DON'T know. BUT we are sure that X and Y couldn't be one thread.


Please pay attention on the two bold-sentences above. Why does the bold-sentence in the 2) contain two cases whereas the bold-sentence in the 4) contains only one case? This is a key of the difference between non-blocking and asynchronous.

Here is a typical example about non-blocking & synchronous:

// thread X
while (true)
{
    msg = recv(Y, NON_BLOCKING_FLAG);
    if (msg is not empty)
    {
        break;
    }
    sleep(2000); // 2 sec
}

// thread Y
// prepare the book for X
send(X, book);

You can see that this design is non-blocking (you can say that most of time this loop does something nonsense but in CPU's eyes, X is running, which means that X is non-blocking) whereas X and Y are synchronous because X can't continue do anything (X can't jump out of the loop) until it gets the book from Y.
Normally in this case, make X blocking is much better because non-blocking spends much resource for a stupid loop. But this example is good to help you understand the fact: non-blocking doesn't mean asynchronous.

The four words do make us confused easily, what we should remember is that the four words serve for the design of architecture. Learning about how to design a good architecture is the only way to distinguish them.

For example, we may design such a kind of architecture:

// Module X = Module X1 + Module X2
// Module X1
while (true)
{
    msg = recv(many_other_modules, NON_BLOCKING_FLAG);
    if (msg is not null)
    {
        if (msg == "done")
        {
            break;
        }
        // create a thread to process msg
    }
    sleep(2000); // 2 sec
}
// Module X2
broadcast("I got the book from Y");


// Module Y
// prepare the book for X
send(X, book);

In the example here, we can say that

  • X1 is non-blocking
  • X1 and X2 are synchronous
  • X and Y are asynchronous

If you need, you can also describe those threads created in X1 with the four words.

The more important things are: when do we use synchronous instead of asynchronous? when do we use blocking instead of non-blocking?

Why is Nginx non-blocking? Why is Apache blocking?

To make a good choice, you must analyze your need and test the performance of different architectures. There is no such an architecture that is suitable for various of needs.

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    IMO the best answer since it catches the essence of the concept: the relationship between one or two participants. – Fábio Ferreira Aug 7 at 9:04

A nonblocking call returns immediately with whatever data are available: the full number of bytes requested, fewer, or none at all.

An asynchronous call requests a transfer that will be performed in its whole(entirety) but will complete at some future time.

Non-blocking: This function won't wait while on the stack.

Asynchronous: Work may continue on behalf of the function call after that call has left the stack

  • but read with the non-blocking flag for normal files does block.. – Marenz Apr 6 '11 at 13:33
  • @Marenz meaning you can't do non-blocking io directly with posix calls. That doesn't change the meaning he gives here. – tmc Jul 20 '11 at 7:34
  • @Marenz Which only means that the flag is ignored for files. It doesn't affect the meaning of this answer. – user207421 Apr 2 at 1:47

Blocking call: Control returns only when the call completes.

Non blocking call: Control returns immediately. Later OS somehow notifies the process that the call is complete.


Synchronous program: A program which uses Blocking calls. In order not to freeze during the call it must have 2 or more threads (that's why it's called Synchronous - threads are running synchronously).

Asynchronous program: A program which uses Non blocking calls. It can have only 1 thread and still remain interactive.

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    Non-blocking call: Control returns after doing as much as can be done essentially immediately; the method indicates how much was done. That is different from an asynchronous call, which behaves as you described for blocking call. – supercat Sep 9 '14 at 12:41

Synchronous is defined as happening at the same time.

Asynchronous is defined as not happening at the same time.

This is what causes the first confusion. Synchronous is actually what is known as parallel. While asynchronous is sequential, do this, then do that.

Now the whole problem is about modeling an asynchronous behaviour, because you've got some operation that needs the response of another before it can begin. Thus it's a coordination problem, how will you know that you can now start that operation?

The simplest solution is known as blocking.

Blocking is when you simply choose to wait for the other thing to be done and return you a response before moving on to the operation that needed it.

So if you need to put butter on toast, and thus you first need to toast the bred. The way you'd coordinate them is that you'd first toast the bred, then stare endlessly at the toaster until it pops the toast, and then you'd proceed to put butter on them.

It's the simplest solution, and works very well. There's no real reason not to use it, unless you happen to also have other things you need to be doing which don't require coordination with the operations. For example, doing some dishes. Why wait idle staring at the toaster constantly for the toast to pop, when you know it'll take a bit of time, and you could wash a whole dish while it finishes?

That's where two other solutions known respectively as non-blocking and asynchronous come into play.

Non-blocking is when you choose to do other unrelated things while you wait for the operation to be done. Checking back on the availability of the response as you see fit.

So instead of looking at the toaster for it to pop. You go and wash a whole dish. And then you peek at the toaster to see if the toasts have popped. If they havn't, you go wash another dish, checking back at the toaster between each dish. When you see the toasts have popped, you stop washing the dishes, and instead you take the toast and move on to putting butter on them.

Having to constantly check on the toasts can be annoying though, imagine the toaster is in another room. In between dishes you waste your time going to that other room to check on the toast.

Here comes asynchronous.

Asynchronous is when you choose to do other unrelated things while you wait for the operation to be done. Instead of checking on it though, you delegate the work of checking to something else, could be the operation itself or a watcher, and you have that thing notify and possibly interupt you when the response is availaible so you can proceed to the other operation that needed it.

Its a weird terminology. Doesn't make a whole lot of sense, since all these solutions are ways to create asynchronous coordination of dependent tasks. That's why I prefer to call it evented.

So for this one, you decide to upgrade your toaster so it beeps when the toasts are done. You happen to be constantly listening, even while you are doing dishes. On hearing the beep, you queue up in your memory that as soon as you are done washing your current dish, you'll stop and go put the butter on the toast. Or you could choose to interupt the washing of the current dish, and deal with the toast right away.

If you have trouble hearing the beep, you can have your partner watch the toaster for you, and come tell you when the toast is ready. Your partner can itself choose any of the above three strategies to coordinate its task of watching the toaster and telling you when they are ready.

On a final note, it's good to understand that while non-blocking and async (or what I prefer to call evented) do allow you to do other things while you wait, you don't have too. You can choose to constantly loop on checking the status of a non-blocking call, doing nothing else. That's often worse than blocking though (like looking st the toaster, then away, then back at it until its done), so a lot of non-blocking APIs allow you to transition into a blocking mode from it. For evented, you can just wait idle until you are notified. The downside in that case is that adding the notification was complex and potentially costly to begin with. You had to buy a new toaster with beep functionality, or convince your partner to watch it for you.

And one more thing, you need to realize the trade offs all three provide. One is not obviously better than the others. Think of my example. If your toaster is so fast, you won't have time to wash a dish, not even begin washing it, that's how fast your toaster is. Getting started on something else in that case is just a waste of time and effort. Blocking will do. Similarly, if washing a dish will take 10 times longer then the toasting. You have to ask yourself what's more important to get done? The toast might get cold and hard by that time, not worth it, blocking will also do. Or you should pick faster things to do while you wait. There's more obviously, but my answer is already pretty long, my point is you need to think about all that, and the complexities of implementing each to decide if its worth it, and if it'll actually improve your throughout or performance.

Edit:

Even though this is already long, I also want it to be complete, so I'll add two more points.

1) There also commonly exists a fourth model known as multiplexed. This is when while you wait for one task, you start another, and while you wait for both, you start one more, and so on, until you've got many tasks all started and then, you wait idle, but on all of them. So as soon as any is done, you can proceed with handling its response, and then go back to waiting for the others. It's known as multiplexed, because while you wait, you need to check each task one after the other to see if they are done, ad vitam, until one is. It's a bit of an extension on top of normal non-blocking.

In our example it would be like starting the toaster, then the dishwasher, then the microwave, etc. And then waiting on any of them. Where you'd check the toaster to see if it's done, if not, you'd check the dishwasher, if not, the microwave, and around again.

2) Even though I believe it to be a big mistake, synchronous is often used to mean one thing at a time. And asynchronous many things at a time. Thus you'll see synchronous blocking and non-blocking used to refer to blocking and non-blocking. And asynchronous blocking and non-blocking used to refer to multiplexed and evented.

I don't really understand how we got there. But when it comes to IO and Computation, synchronous and asynchronous often refer to what is better known as non-overlapped and overlapped. That is, asynchronous means that IO and Computation are overlapped, aka, happening concurrently. While synchronous means they are not, thus happening sequentially. For synchronous non-blocking, that would mean you don't start other IO or Computation, you just busy wait and simulate a blocking call. I wish people stopped misusing syncronous and asynchronous like that. So I'm not encouraging it.

They differ in spelling only. There is no difference in what they refer to. To be technical you could say they differ in emphasis. Non blocking refers to control flow(it doesn't block.) Asynchronous refers to when the event\data is handled(not synchronously.)

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    They differ in spelling only??? Really? – Koray Tugay Feb 27 '15 at 20:10

The blocking models require the initiating application to block when the I/O has started. This means that it isn't possible to overlap processing and I/O at the same time. The synchronous non-blocking model allows overlap of processing and I/O, but it requires that the application check the status of the I/O on a recurring basis. This leaves asynchronous non-blocking I/O, which permits overlap of processing and I/O, including notification of I/O completion.

Blocking: control returns to invoking precess after processing of primitive(sync or async) completes

Non blocking: control returns to process immediately after invocation

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    This does not even answer what is being asked. – Koray Tugay Feb 27 '15 at 20:08

protected by Shankar Damodaran Jul 10 '14 at 12:29

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