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I am trying to understand SocketChannels, and NIO in general. I know how to work with regular sockets and how to make a simple thread-per-client server (using the regular blocking sockets).

So my questions:

  • What is a SocketChannel?
  • What is the extra I get when working with a SocketChannel instead of a Socket.
  • What is the relationship between a channel and a buffer?
  • What is a selector?
  • The first sentance in the documentation is A selectable channel for stream-oriented connecting sockets.. What does that mean?

I have read the also this documentation, but somehow I am not getting it...

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    I must apologize for the others who downvoted your question because of the background and not the content. As a fellow graduate student, I totally understand when you are forced to TA a course that is not exactly in your research area, especially when your funding depends on it. I think it's also good that you came here to seek clarification. – Andrew Mao Jan 9 '13 at 0:25
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A Socket is a blocking input/output device. It makes the Thread that is using it to block on reads and potentially also block on writes if the underlying buffer is full. Therefore, you have to create a bunch of different threads if your server has a bunch of open Sockets.

A SocketChannel is a non-blocking way to read from sockets, so that you can have one thread communicate with a bunch of open connections at once. This works by adding a bunch of SocketChannels to a Selector, then looping on the selector's select() method, which can notify you if sockets have been accepted, received data, or closed. This allows you to communicate with multiple clients in one thread and not have the overhead of multiple threads and synchronization.

Buffers are another feature of NIO that allows you to access the underlying data from reads and writes to avoid the overhead of copying data into new arrays.

  • Thanks very much. But I have some missing point still. Is there any advantage using a channel without a selector? or do they come together? – Ramzi Khahil Jan 9 '13 at 10:13
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    You can't use a channel without a selector, because the selector tells you when a channel is ready to be read, for example. I can't think of a reason why you'd want to use channels by themselves, as you would basically be reimplementing the functionality of the selector. – Andrew Mao Jan 9 '13 at 18:21
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    Excuse me, but in which way is SocketChannel non-blocking? Selector.select() is a blocking operation. You said that select() notifies, but in reality it simply blocks. This can't be called a notification, because it does not use callbacks. – ZhekaKozlov Jun 4 '14 at 2:47
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    Terminology is confusing only when misused. The "non-blocking" in "NIO" pertains to the "IO", i.e. the I/O operations. The thread is not "wasted", because it has nothing to do except I/O. And non-blocking I/O is not the same as asynchronous I/O: that's a different subject altogether. – arayq2 Jun 6 '14 at 16:14
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    @AndrewMao You can indeed use a channel without a selector, even in non-blocking mode, which is not the default, although it's not recommended. The "N" in "NIO" stands for "New". – user207421 Apr 7 '17 at 10:15
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By now NIO is so old that few remember what Java was like before 1.4, which is what you need to know in order to understand the "why" of NIO.

In a nutshell, up to Java 1.3, all I/O was of the blocking type. And worse, there was no analog of the select() system call to multiplex I/O. As a result, a server implemented in Java had no choice but to employ a "one-thread-per-connection" service strategy.

The basic point of NIO, introduced in Java 1.4, was to make the functionality of traditional UNIX-style multiplexed non-blocking I/O available in Java. If you understand how to program with select() or poll() to detect I/O readiness on a set of file descriptors (sockets, usually), then you will find the services you need for that in NIO: you will use SocketChannels for non-blocking I/O endpoints, and Selectors for fdsets or pollfd arrays. Servers with threadpools, or with threads handling more than one connection each, now become possible. That's the "extra".

A Buffer is the kind of byte array you need for non-blocking socket I/O, especially on the output/write side. If only part of a buffer can be written immediately, with blocking I/O your thread will simply block until the entirety can be written. With non-blocking I/O, your thread gets a return value of how much was written, leaving it up to you to handle the left-over for the next round. A Buffer takes care of such mechanical details by explicitly implementing a producer/consumer pattern for filling and draining, it being understood that your threads and the JVM's kernel will not be in sync.

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    SocketChannel is blocking. At least read() and write() methods are. The true non-blocking channel is AsynchronousSocketChannel, which was introduced in Java 7. – ZhekaKozlov Jun 4 '14 at 2:35
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    Really? So what happened to the configureBlocking(bool) method that was there ever since NIO was introduced in Java 1.4? – arayq2 Jun 5 '14 at 16:08
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    It sounds like you have confused non-blocking I/O with asynchronous I/O. Even in asynch I/O, blocking is not "completely eliminated" - e.g. get() on a Future<> is a blocking call. The design issue is not whether to block (your essential confusion) but when to block. – arayq2 Jun 9 '14 at 2:28
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    Backward compatibility?? Sigh. Whatever. – arayq2 Jun 9 '14 at 13:16
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    @ZhekaKozlov A SocketChannel in non-blocking mode is non-blocking. Asynchronous I/O is yet another beast, nothing to do with non-blocking mode whatsoever. – user207421 Apr 7 '17 at 10:16
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Even though you are using SocketChannels, It's necessary to employ thread pool to process channels.

Thinking about the scenairo you use only one thread which is responsible for both polling select() and processing the SocketChannels selected from Selectors, if one channel takes 1 seconds for processing, and there are 10 channels in queue, it means you have to wait 10 seconds before next polling which is untolerable. so there should be a thread pool for channels processing.

In this sense, i don't see tremendous difference to the thread-per-client blocking sockets pattern. the major difference is in NIO pattern, the task is smaller, it's more like thread-per-task, and tasks could be read, write, biz process etc. for more detail, you can take a look at Netty's implementation of NioServerSocketChannelFactory, which is using one Boss thread accepting connection, and dispatch tasks to a pool of Worker threads for processing

If you are really fancy at one thread, the bottom-line is at least you shold have pooled I/O threads, because I/O operations is often oders of magnitude slower than instruction-processing cycles, you would not want the precious one thread being blocked by I/O, and this is exactly NodeJS doing, using one thread accept connection, and all I/O are asynchornous and being parallelly processed by back-end I/O threads pool

is the old style thread-per-client dead? I don't think so, NIO programming is complex, and multi-threads is not naturally evil, Keep in mind that modern operating systems and CPU's become better and better at multitasking, so the overheads of multithreading becomes smaller over time.

  • if one channel takes 1 seconds for processing, you should not be using NIO. – John Nov 17 '15 at 12:12
  • @John what would you be using then? – El Mac Mar 24 '16 at 12:14
  • @ElMac obviously more than a single thread. Reading / writing the socket channel may still be implemented as multiplexed single thread. But processing of the data should be done in some other thread pool. – bash0r Nov 12 '18 at 16:52

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