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I understand Java's AsynchronousFileChannel to be an async api (does not block the calling thread) and can use a thread in a system thread pool.

My question is: do AsynchronousFileChannel operations have a 1:1 thread ratio?

In other words, if a loop use AsynchronousFileChannel to read 100 of files, will it use 100 threads to do that or will it use only a small number of threads (in standard NIO fashion)?

1 Answer 1

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AsynchronousFileChannel implementation used in general (and actually used e.g. on Linux) is SimpleAsynchronousFileChannelImpl which basically submits Runnables that do blocking IO read + process result in the same thread (either fill a future or call a CompletionHandler) to an ExecutorService which either is supplied as an argument to AsynchronousFileChannel::open, or else a default system-wide one is used (which is an unbounded cached thread pool, but has some options that can be configured). Some think that it is the best that can be done with files since they are "always readable" or at least the OS doesn't provide any clue that they aren't.

On Windows a separate implementation is used which is called WindowsAsynchronousFileChannelImpl. It uses I/O completion ports a.k.a IOCP when run on Windows Vista/2008 and later (major version >= "6") and generally behaves more like you would expect: by default it uses 1 thread to dispatch read results (configurable by "sun.nio.ch.internalThreadPoolSize" system property) and a cached thread pool for processing.

So, answering your question: if you don't supply your own ExecutorService (say a fixed one) to AsynchronousFileChannel::open, then it will be a 1:1 relationship, so there will be 100 threads for 100 files; except for a non-ancient Windows, where by default there will be 1 thread handling I/O but if all results arrive simultaneously (unlikely but still) and you use CompletionHandlers, they will be called each in its own thread too.

Edit: I implemented reading of 100 files and ran it on Linux and Windows (openjdk8) and it 1) confirms which classes are actually used on both (for that remove TF.class while still specifying it in a command line and see the stacktrace), 2) sort of confirms the number of threads used: 100 on Linux, 4 on Windows if completion processing is fast (it will be the same if CompletionHandlers are not used), 100 on Windows if completion processing is slow. Ugly as it is, the code is:

import java.io.IOException;
import java.nio.ByteBuffer;
import java.nio.channels.*;
import java.nio.file.*;
import java.util.concurrent.*;
import java.util.concurrent.atomic.*;
import java.util.*;

public class AsynchFileChannelDemo {

    public static final AtomicInteger ai = new AtomicInteger();

    public static void main(String[] args) throws IOException, InterruptedException, ExecutionException {
        final List<ByteBuffer> bufs = Collections.synchronizedList(new ArrayList<>());
        for (int i = 0; i < 100; i++) {
            Path p = Paths.get("some" + i + ".txt");
            final ByteBuffer buf = ByteBuffer.allocate(1000000);
            AsynchronousFileChannel ch = AsynchronousFileChannel.open(p, StandardOpenOption.READ);
            ch.read(buf, 0, buf, new CompletionHandler<Integer, ByteBuffer>() {
                @Override
                public void completed(Integer result, ByteBuffer attachment) {
                  bufs.add(buf);
                  // put Thread.sleep(10000) here to make it "long"
                }

                @Override
                public void failed(Throwable exc, ByteBuffer attachment) {
                }
            });
        }
        if (args.length > 100) System.out.println(bufs); // never
        System.out.println(ai.get());
    }
}

and

import java.util.concurrent.ThreadFactory;

public class TF implements ThreadFactory {
    @Override
    public Thread newThread(Runnable r) {
        AsynchFileChannelDemo.ai.incrementAndGet();
        Thread t = new Thread(r);
        t.setDaemon(true);
        return t;
    }
}

Compile these, put them in a folder with 100 files named some0.txt to some99.txt, each being 1Mb in size so that reading isn't too fast, run it as

java -Djava.nio.channels.DefaultThreadPool.threadFactory=TF AsynchFileChannelDemo

The number printed is the number of times a new thread was created by the thread factory.

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    @EJP, thank you for your feedback. I will most certainly edit my answer or remove it if it's beyond recovery, but I'd like to understand it better first. As far as I understand this thread pool is created here and as such it does use "threadFactory" and "initialSize" settings, but it still is an unbounded cached thread pool. Should I make it more clear that it's not created on a per-channel basis in my answer? Or is something else wrong with my answer?
    – starikoff
    Sep 16, 2016 at 7:06
  • The concept shared default thread pool seemed to point in the direction of a non 1:1 relationship: that is many files can be concurrently read using a fixed smaller number of threads, using NIO magic. If it does not do this, then I do not know what the benefit would be of using this over standard java.ion and wrapping the execution in a thread and returning a future.
    – adamM
    Sep 17, 2016 at 18:16
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    Initially I was not sure about my answer, but after the edit where I supplied the code for checking things I'm pretty confident about it: I deduced behavior from reading the source code ("theory") and confirmed it with an experiment ("practice"); also, I gave you or anybody interested links and code to check things out if one wants to. My wording might have been a bit sloppy initially, but after @EJP's comment I believe I polished it enough.
    – starikoff
    Sep 26, 2016 at 7:14

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