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I was wondering if I could make a large number of system calls at the same time, with only one switch overhead. I need this because I have a need to make many (128) system calls at the same time. If I could do this without switching between kernel and userland 256+ times I think it could make my (speed sensitive) library significantly faster.

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If you're serious that switching between user context and kernel context is unacceptably expensive ... then use an OS that doesn't have any context switching. Like DOS, for example. IMHO... ALSO: look at this article: ibm.com/developerworks/linux/library/l-real-time-linux –  paulsm4 Jun 16 '12 at 4:48
    
My library is throughput sensitive, not realtime. –  Not a Name Jun 16 '12 at 4:51
    
Also, it wouldn't be expensive if I didn't have to do it 128 times in a row. –  Not a Name Jun 16 '12 at 5:03
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@NotaName: You've built a library that requires at least 128 concurrent system calls, you haven't got any benchmarks or profiles but have a hunch that you'd have a 50% speed up? I can guarantee you're doing it wrong. –  Joshua K Jun 16 '12 at 5:53
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You're definitely doing it wrong. –  Joshua K Jun 16 '12 at 23:33

2 Answers 2

up vote 8 down vote accepted

You really can't do that from an application program. What you could do is build a loadable kernel module that implements those operations and presents a simple API -- then you can change context once, do all the work, and return.

However, as with most of these sorts of optimization questions, the first thing to ask is "why do you think it's going to be necessary?" Do you have timing information etc? Have you profiled? How much of a performance issue do you really have, and is the additional complexity going to be worth the speedup?

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I have no profiling information because I haven't quite finished my library yet (not usable). But I know that syscalls are relatively slow (compared to everything else I'm doing), and my library doesn't need to spend 90% of the time switching contexts and dealing with switch overhead. But I estimate that a 50% speedup of this library will speed-up applications that use it by about 5-10%. –  Not a Name Jun 16 '12 at 4:49
    
Kernel module will execute in kernel space and you will not have interrupts and context switches as much as executing system calls from user space. –  Alex W Jun 16 '12 at 5:14
    
@NotaName, Ask yourself what would be the ration between syscall overhead, syscall useful work and non-syscall useful work. Normally, the overhead would be small compared to the other two. –  ugoren Jun 18 '12 at 13:37

I don't think Linux will support syscall chaining anytime soon. You might have more luck implementing this on another kernel and porting your application.

That said, it's not difficult to write a proxy to do the job in kernelspace for you, but don't expect it to be merged upstream. I've worked on real-time stuff and we had a solution like that, but never used in production because of support issues :/.

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