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in Unix Network Programming by Stevens et al non-blocking sockets are illustrated with code making use of select call. The very same call that usually selects between blocking file descriptors.

My understanding was that non-blocking design was exactly an alternative to select: instead of being blocked in select call, my code could loop checking non-blocking descriptors and performing something else on top of that. Was my understanding wrong or is there anything enigmatic about select call that makes it inevitable in non-blocking design?

Down to practicalities, I need to work with a large number of tcp sockets putting "personal" timeout on each of them. I thought of using non-blocking design and looping through correspondent arrays. Would it be appropriate without select?

Thank you.

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Your understanding is not correct. Non-blocking sockets are not designed to do away with blocking on select. They are designed to do away with blocking on send, recv, connect and other operations. Of those connect is particularly troublesome as with blocking sockets it cannot be multiplexed by select. With non-blocking sockets you can eliminate select entirely, or can use it whenever it makes sense, and use periodic checks in other cases. –  n.m. Jul 11 '13 at 17:27
What do you mean, 'putting personal timeout on each of them'? Do you mean that each socket has a customizable inactivity timer after which the connection is dropped? –  Elchonon Edelson Jul 11 '13 at 18:40
@n.m. Thank you, this is actually exactly what i wanted be sure at: possibility of elimination of select call with non-blocking sockets. –  wick Jul 12 '13 at 9:13
@ElchononEdelson Yes, this is exactly what I mean, sorry if i didn't make myself clear enough –  wick Jul 12 '13 at 9:14
Your statement 'that usually selects between blocking sockets' is just guesswork. –  EJP Jul 14 '13 at 21:50
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A customizable inactivity timer shouldn't really have anything to do with the select() call. maintain your array of timers separately, update them on every tick, or every <x> iterations through your event loop, reset any timer each time the associated socket has activity, close it when inactivity reaches threshold. That's got nothing whatsoever to do with how you actually handle input/output.

Whether or not you use select() is orthogonal to whether you use non-blocking sockets. select() isn't there to keep you from blocking on reads, after all. What select() is for is to keep you from blocking when you don't want to. (And not just on reads: you can always call select() with a zero timeout, and select() won't block either). Also, it provides a mechanism for knowing when there's input that's much more efficient than "iterate over my entire set of sockets, trying a nonblocking read() on each one in turn".

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Aha! so this is where I'm stumped, why select is more efficient than just combing through descriptors in non-blocking mode? Besides, what is upper limit of number of descriptors - it is not that much for select - is it? –  wick Jul 13 '13 at 13:17
The upper limit for descriptors that select() can handle is slightly more than a thousand, but if that's a problem, your OS will generally have implementation-specific alternatives that provide the capability for a larger set. –  Elchonon Edelson Jul 14 '13 at 3:29
As for why select() is more efficient, I would tend to assume that it's because select() isn't actually performing a try/fail to read on every single file descriptor sequentially, it's just asking the kernel "is there pending input on any of these?" and passing the answer back to you, where you can then perform a read specifically on the subset of descriptors for which there is actually input. –  Elchonon Edelson Jul 14 '13 at 3:30
Ok, thanks a lot for confirming this. –  wick Jul 14 '13 at 18:24
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