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i.e. Time A = voltage hits the NIC; Time B = Selector from Java NIO package is able to select socket channel for I/O.

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You could determine the time from the line being set to it reaching the JVM empirically. I doubt there is a way to do so purely in software. If you're only interested in how much time it spends gaffing around in the kernel, you could compile a kernel to log timestamps and look at those. –  Anon. Dec 20 '10 at 22:31
    
Why do you need to know this? –  Thorbjørn Ravn Andersen Dec 20 '10 at 22:45

2 Answers 2

Use SO_TIMESTAMP and find a NIC that actually supports timestamps and one that supports timestamps with better than millisecond resolution. Then you should have a chance if you can get Java to read incoming cmsg ancillary data.

Without good hardware support the packets are going to be tagged by the kernel with most likely a low resolution unstable timer.

(edit #1) Example code in C requiring 2.6.30 or newer kernel I think:

http://www.mjmwired.net/kernel/Documentation/networking/timestamping/timestamping.c

(edit #2) Example code to determine kernel to user-space latency in C:

http://vilimpoc.org/research/ku-latency/

(edit #3) I recommend following the J-OWAMP project which is dependent upon high resolution timers and packet latency testing. The OWAMP team have been pushing the Linux kernel team for better SO_TIMESTAMP support.

http://www.av.it.pt/jowamp/

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you'll need to use something like tcpdump and then correlate timestamps between your application logs and the "sniffer" logs to determine this, it's not possible from the jvm alone.

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