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SubjectRE: [RFC PATCH 0/3] kernel: add support for 256-bit IO access
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From: Thomas Gleixner
> Sent: 19 March 2018 15:05
>
> On Mon, 19 Mar 2018, David Laight wrote:
> > From: Rahul Lakkireddy
> > In principle it ought to be possible to get access to one or two
> > (eg) AVX registers by saving them to stack and telling the fpu
> > save code where you've put them.
>
> No. We have functions for this and we are not adding new ad hoc magic.

I was thinking that a real API might do this...
Useful also for code that needs AVX-like registers to do things like CRCs.

> > OTOH, for x86, if the code always runs in process context (eg from a
> > system call) then, since the ABI defines them all as caller-saved
> > the AVX(2) registers, it is only necessary to ensure that the current
> > FPU registers belong to the current process once.
> > The registers can be set to zero by an 'invalidate' instruction on
> > system call entry (hope this is done) and after use.
>
> Why would a system call touch the FPU registers? The kernel normally does
> not use FPU instructions and the code which explicitely does has to take
> care of save/restore. It would be performance madness to fiddle with the
> FPU stuff unconditionally if nothing uses it.

If system call entry reset the AVX registers then any FP save/restore
would be faster because the AVX registers wouldn't need to be saved
(and the cpu won't save them).
I believe the instruction to reset the AVX registers is fast.
The AVX registers only ever need saving if the process enters the
kernel through an interrupt.

David

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