Can someone explain to me how event-driven IO system calls like select, poll, and epoll relate to blocking vs non-blocking IO?

I don't understand how related -- if at all, these concepts are


The select system call is supported in almost all Unixes and provides means for userland applications to watch over a group of descriptors and get information about which subset of this group is ready for reading/writing. Its particular interface is a bit clunky and the implementation in most kernels is mediocre at best.

epoll is provided only in Linux for the same purpose, but is a huge improvement over select in terms of efficiency and programming interface. Other Unixes have their specialised calls too.

That said, the event-driven IO system calls do not require either blocking or non-blocking descriptors. Blocking is a behaviour that affects system calls like read, write, accept and connect. select and epoll_wait do have blocking timeouts, but that is something unrelated to the descriptors.

Of course, using these event-driven system calls with blocking descriptors is a bit odd because you would expect that you can immediately read the data without blocking after you have been notified that it is available. Always relying that a blocking descriptor won't block after you have been notified for its readiness is a bit risky because race conditions are possible.

Non-blocking, event-driven IO can make server applications vastly more efficient because threads are not needed for each descriptor (connection). Compare the Apache web server to Nginx or Lighttpd in terms of performance and you'll see the benefit.

  • Does Apache really using thread per connection and blocking mode? OMG... – user405725 Apr 27 '11 at 17:16
  • I'm not sure but I think it spawns a thread (or chooses one from a pool) for each connection in each worker process. – Blagovest Buyukliev Apr 27 '11 at 17:26
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    I think a thread-per-connection server can be almost as fast as an event-driven one. The cause of Apache's slowness and bloat is not threads but the gigantic amount of overhead involved in handling each request. pthread_create only costs about the same amount as 2-3 open calls, and of course if you already have the thread blocked on accept before the connection arrives, the cost is even lower. – R.. Apr 27 '11 at 17:46
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    @R: I believe your benchmark has already been performed and discussed: kegel.com/c10k.html – Ioan Apr 27 '11 at 20:10
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    @loan: That site's pretty old, from a time when using threads, especially on Linux, was a complete joke. (The atrocious hack known as LinuxThreads was still mainstream...) – R.. Apr 28 '11 at 1:39

They're largely unrelated, except that you may want to use non-blocking file descriptors with event-driven IO for the following reasons:

  1. Old versions of Linux definitely have bugs in the kernel where read can block even after select indicated a socket was readable (it happened with UDP sockets and packets with bad checksums). Current versions of Linux may still have some such bugs; I'm not sure.

  2. If there's any possibility that other processes have access to your file descriptors and will read/write to them, or if your program is multi-threaded and other threads might do so, then there is a race condition between select determining that the file descriptor is readable/writable and your program performing IO on it, which could result in blocking.

  3. You almost surely want to make a socket non-blocking before calling connect; otherwise you'll block until the connection is made. Use select for writing to determine when it's successfully connected, and select for errors to determine if the connection failed.

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    +1, You might also add a well-known race with listening TCP socket where client drops the connection attempt in-between select and accept. – Nikolai Fetissov Apr 27 '11 at 17:18

select and similar functions (you mentioned a few) are usually used to implement an event loop in an event driven system.

I.e., instead of read()ing directly from a socket or file -- potentially blocking if the no data is available, the application calls select() on multiple file descriptors waiting for data to be available on any one of them.

When a file descriptor becomes available, you can be assured data is available and the read() operation will not block.

This is one way of processing data from multiple sources simultaneously without resorting to multiple threads.

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