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I have created 6 Sockets and simultaneously listening to all of them using select. I want to find out how much time does the CPU take switching from 1 socket to another. Does anyone know; if not can someone guide me please on how to compute this problem!

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closed as unclear what you're asking by EJP, Joseph Quinsey, Andrew Medico, Kerrek SB, Yu Hao May 6 '14 at 6:47

Please clarify your specific problem or add additional details to highlight exactly what you need. As it's currently written, it’s hard to tell exactly what you're asking. See the How to Ask page for help clarifying this question.If this question can be reworded to fit the rules in the help center, please edit the question.

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What do you mean by "switching from 1 socket to another"? The select function doesn't "switch" between sockets, it checks which socket received activity, and from your point of view it could be said that the kernel checks all sockets simultaneously. –  Joachim Pileborg Jan 8 '14 at 10:31
    
What have you tried to do already? Have you used the standard Linux profiling tools? See stackoverflow.com/questions/2229336/linux-application-profiling –  Jackson Jan 8 '14 at 10:32
    
I was under the notion that if my 1_socket receives 6 bytes of data and my 2_socket also receives 6 bytes of data, it will first resolve on 1_socket then switch onto 2_socket!!! –  Ansh David Jan 8 '14 at 10:35
    
What is 'it'? What do you mean by 'resolve'? And 'switch'? –  EJP Jan 8 '14 at 10:41
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The select function can return with multiple sockets active in the sets. So both 1_socket and 2_socket (as per your example) may be in e.g. the read set when select returns. There simply is no "switching". –  Joachim Pileborg Jan 8 '14 at 10:49

1 Answer 1

up vote 2 down vote accepted

I think you may have misunderstood what the select call is actually doing, the man page for select says the following:

Three independent sets of file descriptors are watched. Those listed in readfds will be watched to see if characters become available for reading (more precisely, to see if a read will not block; in particu- lar, a file descriptor is also ready on end-of-file), those in writefds will be watched to see if a write will not block, and those in exceptfds will be watched for exceptions. On exit, the sets are modified in place to indicate which file descriptors actually changed status. Each of the three file descriptor sets may be specified as NULL if no file descriptors are to be watched for the corresponding class of events.

So when your call to select returns what it will tell you is which, if any, of the file descriptors are (in your case) ready to be read from. It's then up to you to decide which to read and how to read it.

If you can I'd reccomend tracking down a copy of Unix Network Programming (by Stevens, Fenner, Rudoff). This will give you all the background information and example C code that you will ever want on network programming.

Or look at the tutorial here

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