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coming from node.js point of view, where all code is non-blocking.

in golang, non-blocking is easily achieved using channels.

if one were writing a node.js type server in go, does it make sense to make it non-blocking? for example, having a database connect() function return a channel, as versus blocking while waiting for the connection to occur.

to me, this seems the correct approach

but ...

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non-blocking asynchronous IO is better then blocking IO. So yes. –  Raynos Jun 13 '11 at 10:27
2  
@raynos: I don't know that's a truism. for example, in a standard php/apache set up, being blocked in one process simply means other processes get their ticks. in node.js non-blocking is imperative because its javascript is single threaded. –  cc young Jun 13 '11 at 12:23
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@ccyoung in php/apache you create a thread/process for each connection which is inefficient. You need to do this because you block. if you don't block you reduce this overhead. Btw php is also single threaded, apache spawns multiple php processes. Node could have chosen to do this if it wanted to be slow / inefficient. –  Raynos Jun 13 '11 at 12:33
    
@Raynos: That's not true at all. In fact I'd say it's preferable to use blocking calls whenever plausible. –  Matt Joiner Jun 13 '11 at 12:35
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@cdunn2001 idle means they are waiting for more tasks. Blocking/sleeping/waiting means they are waiting for a single task to complete. Basically idle means it's doing nothing but it can do anything at any time. –  Raynos Aug 7 '11 at 20:15

5 Answers 5

up vote 32 down vote accepted

Blocking and non-blocking aren't really about performance, they are about an interface. If you have a single thread of execution then a blocking call prevents your program from doing any useful work while it's waiting. But if you have multiple threads of execution a blocking call doesn't really matter because you can just leave that thread blocked and do useful work in another.

In Go, a goroutine is swapped out for another one when it blocks on I/O. The Go runtime uses non-blocking I/O syscalls to avoid the operating system blocking the thread so a different goroutine can be run on it while the first is waiting for it's I/O.

Goroutines are really cheap so writing non-blocking style code is not needed.

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thanks. as asked @Nathan, do you think it's a good idea have a db interface's connect() and query() non-blocking? appreciate your insight. –  cc young Jun 14 '11 at 6:45
7  
Yes, it's best to make all your functions block the goroutine. This makes them easier to use and think about. The caller can always easily make them non-blocking themselves. –  Jessta Jun 15 '11 at 5:01
    
You want a function to block only the code that depends on the result of that function--this should be obvious once you think about it. If you don't need to wait for the result of a function, then stick it in a goroutine. –  tylerl Jun 30 '11 at 0:51
    
What makes goroutines cheaper than any other userland threading library? The context switches alone can still cause a major performance hit if they are frequent enough. There is also a non-negligible memory overhead associated with using many threads if you don't know the maximum size of the stack at compile time. –  gerty3000 Apr 14 '13 at 22:57
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@chmike The cost of switching goroutines is tiny, similar to the cost of switching events in an event loop. –  Jessta Aug 11 '13 at 12:00

Write blocking functions. The language allows you to easily turn a synchronous call into an asynchronous one.

If you want to call a function asynchronously, use a go statement. Something like this:

c := make(chan bool)
go func() {
    blockingFunction()
    c <- true
}()

// do some other stuff here while the blocking function runs

// wait for the blocking function to finish if it hasn't already
<-c
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thanks for the example, but my question was not how to get around blocking, but whether writing non-blocking in golang is itself is a worthy goal. sorry if I didn't make that clear ;) –  cc young Jun 13 '11 at 11:26
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I'm saying that because you can always get around blocking, you should always write blocking functions. –  Evan Shaw Jun 13 '11 at 21:52
    
I can respect that. in regard to a db interface, you would not worry about Connect() and Query() blocking, letting the user get around if important to the app. or perhaps out of courtesy the package could offer ConnectNB() and QueryNB(). the package would then need to offer LastErr() as well. –  cc young Jun 14 '11 at 6:59

For typical web-server type applications, I would recommend not making everything asynchronous. There are a few reasons.

  • It's easier to reason about serial blocking code than async code (easier to see bugs)

  • golang error handling is based on defer(), panic(), and recover(), which probably won't give you what you want with 100% asynchronous code

  • Goroutines can leak if you're not careful [one discussion]. The more async behavior you have, the harder it becomes to track down these types of problems and the more likely they are to show up.

One strategy is to focus the asynchonicity at a high level and leave everything else blocking. So you might have a "database handler" blob that is logically distinct from the "request handler" blob. They both run in separate goroutines and communicate using channels. But within the "database handler", the calls to establish a database connection and execute each query are blocking.

You don't have to choose 100% asynchronous or 0% asynchronous.

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thanks. this and @jessta add a lot. for a db interface, I thought connect() and query() would be good to have non-blocking, for example. is this what you mean by "database handler", or do you mean the the function that, for example, posts to the db? also, thanks for link on leaks. –  cc young Jun 14 '11 at 6:43
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@cc_young connect() and query() would be blocking in my example and called by the database handler. The database handler would have a channel interface with actions such as "update user nickname", "get friends list". To get the list of friends, you send the username and response channel as a request on the "friend list request" channel. The database handler gets the request, checks the local cache first, returns immediately if cached. Otherwise it executes a query on the database (blocks). Once results are available, send them on the response channel. –  Nathan Whitehead Jun 14 '11 at 20:30
    
after working on this several days have concluded you are 100% right. –  cc young Jun 18 '11 at 10:20

Blocking interfaces are always simpler and better than non-blocking ones. The beauty of Go is that it allows you to write concurrent (and parallel) code in a simple, and easy to reason about, blocking style.

The fashion for non-blocking programming is all due to deficiencies in the languages people are using (specially JavaScript), not because non-blocking programming is intrinsically better.

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In Go, system calls are implemented in a non-blocking way using the most efficient underlying mechanism that the OS supports (e.g. epoll). If you have no other code to run while you wait for the result of a call, then it blocks the thread (for lack of a better thing to do), but if you have alternate goroutines active, then they will run instead.

Callbacks (as you're used to using in js) allow for essentially the same underlying mechanics, but with arguably more mental gymnastics necessary for the programmer.

In Go, your code to run after a function call is specified immediately following the function call rather than defined as a callback. Code that you want to run parallel to an execution path should be wrapped in a goroutine, with communication through channels.

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