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I ask here since googling leads you on a merry trip around archives with no hint as to what the current state is. If you go by Google, it seems that async IO was all the rage in 2001 to 2003, and by 2006 some stuff like epoll and libaio was turning up; kevent appeared but seems to have disappeared, and as far as I can tell, there is still no good way to mix completion-based and ready-based signaling, async sendfile - is that even possible? - and everything else in a single-threaded event loop.

So please tell me I'm wrong and it's all rosy! - and, importantly, what APIs to use.

How does Linux compare to FreeBSD and other operating systems in this regard?

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Mm, maybe you should put your flame-suit and ask on LKML. –  ninjalj Oct 11 '10 at 18:28

3 Answers 3

Asynchronous disc IO is alive and kicking ... it is actually supported and works reasonably well now, but has significant limitations (but with enough functionality that some of the major users can usefully use it - for example MySQL's Innodb does in the latest version).

Asynchronous disc IO is the ability to invoke disc IO operations in a non-blocking manner (in a single thread) and wait for them to complete. This works fine, http://lse.sourceforge.net/io/aio.html has more info.

AIO does enough for a typical application (database server) to be able to use it. AIO is a good alternative to either creating lots of threads doing synchronous IO, or using scatter/gather in the preadv family of system calls which now exist.

It's possible to do a "shopping list" synchronous IO job using the newish preadv call where the kernel will go and get a bunch of pages from different offsets in a file. This is ok as long as you have only one file to read. (NB: Equivalent write function exists).

poll, epoll etc, are just fancy ways of doing select() that suffer from fewer limitations and scalability problems - they may not be able to be mixed with disc aio easily, but in a real-world application, you can probably get around this fairly trivially by using threads (some database servers tend to do these kinds of operations in separate threads anyway). Poll() is good, epoll is better, for large numbers of file descriptors. select() is ok too for small numbers of file descriptors (or specifically, low file descriptor numbers).

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so where does this stand? stackoverflow.com/questions/1825621/… –  Will Oct 12 '10 at 5:41
(I thought poll and select were symmetric and O(n), whereas epoll is O(1) –  Will Oct 12 '10 at 5:41
poll is better than select because it works a lot better with a sparse set of file descriptors - say you want to poll 10 FDs out of 10000 opened ones, you don't need an array of 10000 entries to be initialised with zeroes. epoll is better because you only need to register the new FDs you're interested in, not pass in all the ones you were already watching. –  MarkR Oct 12 '10 at 10:26

AIO as such is still somewhat limited and a real pain to get started with, but it kind of works for the most part, once you've dug through it.

It has some in my opinion serious bugs, but those are really features. For example, when submitting a certain amount of commands or data, your submitting thread will block. I don't remember the exact justification for this feature, but the reply I got back then was something like "yes of course, the kernel has a limit on its queue size, that is as intended". Which is acceptable if you submit a few thousand requests... obviously there has to be a limit somewhere. It might make sense from a DoS point of view, too (otherwise a malicious program could force the kernel to run out of memory by posting a billion requests). But still, it's something that you can realistically encounter with "normal" numbers (a hundred or so) and it will strike you unexpectedly, which is no good. Plus, if you only submit half a dozen or so requests and they're a bit larger (some megabytes of data) the same may happen, apparently because the kernel breaks them up in sub-requests. Which, again, kind of makes sense, but seeing how the docs don't tell you, one should expect that it makes no difference (apart from taking longer) whether you read 500 bytes or 50 megabytes of data.

Also, there seems to be no way of doing buffered AIO, at least on any of my Debian and Ubuntu systems (although I've seen other people complain about the exact opposite, i.e. unbuffered writes in fact going via the buffers). From what I can see on my systems, AIO is only really asynchronous with buffering turned off, which is a shame (it is why I am presently using an ugly construct around memory mapping and a worker thread instead).

An important issue with anything asynchronous is being able to epoll_wait() on it, which is important if you are doing anything else apart from disk IO (such as receiving network traffic). Of course there is io_getevents, but it is not so desirable/useful, as it only works for one singular thing.

In recent kernels, there is support for eventfd. At first sight, it appears useless, since it is not obvious how it may be helpful in any way. However, to your rescue, there is the undocumented function io_set_eventfd which lets you associate AIO with an eventfd, which is epoll_wait()-able. You have to dig through the headers to find out about it, but it's certainly there, and it works just fine.

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i take it this is referring to kernel AIO as opposed to POSIX AIO? –  Janus Troelsen Feb 8 at 0:54
@JanusTroelsen: Yes, like the question, this refers to kernel AIO (libaio). POSIX AIO is not so much a Linux feature, but a library feature implemented in librt using a thread pool and standard synchronous I/O. Surprisingly, this works much better than the kernel implementation, in every respect. –  Damon Feb 8 at 12:50

Most of what I've learned about asynchronous I/O in Linux was by working on the Lighttpd source. It is a single-threaded web server that handles many simultaneous connections, using the what it believes is the best of whatever asynchronous I/O mechanisms are available on the running system. Take a look at the source, it supports Linux, BSD, and (I think) a few other operating systems.

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