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SubjectRe: [RFC PATCH v2 00/41] Scalable Vector Extension (SVE) core support
On 22 March 2017 at 14:50, Dave Martin <Dave.Martin@arm.com> wrote:

Hi Dave,

> The Scalable Vector Extension (SVE) [1] is an extension to AArch64 which
> adds extra SIMD functionality and supports much larger vectors.
>
> This series implements core Linux support for SVE.
>
[...]
> KERNEL_MODE_NEON (non-)support
> ------------------------------
>
> "arm64/sve: [BROKEN] Basic support for KERNEL_MODE_NEON" is broken.
> There are significant design issues here that need discussion -- see the
> commit message for details.
>
> Options:
>
> * Make KERNEL_MODE_NEON a runtime choice, and disable it if SVE is
> present.
>
> * Fully SVE-ise the KERNEL_MODE_NEON code: this will involve complexity
> and effort, and may involve unfavourable (and VL-dependent) tradeoffs
> compared with the no-SVE case.
>
> We will nonetheless need something like this if there is a desire to
> support "kernel mode SVE" in the future. The fact that with SVE,
> KERNEL_MODE_NEON brings the cost of kernel-mode SVE but only the
> benefits of kernel-mode NEON argues in favour of this.
>
> * Make KERNEL_MODE_NEON a dynamic choice, and have clients run fallback
> C code instead if at runtime on a case-by-case basis, if SVE regs
> would otherwise need saving.
>
> This is an interface break, but all NEON-optimised kernel code
> necessarily requires a fallback C implementation to exist anyway, and
> the number of clients is not huge.
>
> We could go for a stopgap solution that at least works but is suboptimal
> for SVE systems (such as the first choice above), and then improve it
> later.
>

Without having looked at the patches in detail yet, let me reiterate
my position after we discussed this when this series was sent out the
first time around.

- The primary use case for kernel mode NEON is special purpose
instructions, i.e., AES is 20x faster when using the NEON, simply
because that is how one accesses the logic gates that implement the
AES algorithm. There is nothing SIMD or FP in nature about AES.
Compare the CRC extensions, which use scalar registers and
instructions. Of course, there are a couple of exceptions in the form
of bit-slicing algorithms, but in general, like general SIMD, I don't
think it is highly likely that SVE in kernel mode is something we will
have a need for in the foreseeable future.

- The current way of repeatedly stacking/unstacking NEON register
contents in interrupt context is highly inefficient, given that we are
usually interrupting user mode, not kernel mode, and so stacking once
and unstacking when returning from the exception (which is how we
usually deal with it) would be much better. So changing the current
implementation to perform the eager stack/unstack only when a kernel
mode NEON call is already in progress is likely to improve our current
situation already, regardless of whether such a change is needed to
accommodate SVE. Note that to my knowledge, the only in-tree users of
kernel mode NEON operate in process context or softirq context, never
in hardirq context.

Given the above, I think it is perfectly reasonable to conditionally
disallow kernel mode NEON in hardirq context. The crypto routines that
rely on it can easily be fixed up (I already wrote the patches for
that). This would only be necessary on SVE systems, and the reason for
doing so is that - given how preserving and restoring the NEON
register file blows away the upper SVE part of the registers - whoever
arrives at the SVE-aware preserve routine first should be allowed to
run to completion. This does require disabling softirqs during the
time the preserved NEON state is being manipulated but that does not
strike me as a huge price to pay. Note that both restrictions
(disallowing kernel mode NEON in hardirq context, and the need to
disable softirqs while manipulating the state) could be made runtime
dependent on whether we are actually running on an SVE system.

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