[PATCH 0/3] Revert arm64 cache geometry
Alexander Van Brunt
avanbrunt at nvidia.com
Thu Oct 29 16:06:36 PDT 2015
>> On 29 okt. 2015, at 16:43, Russell King - ARM Linux <linux at arm.linux.org.uk> wrote:
>>
>>> On Thu, Oct 29, 2015 at 12:22:51PM +0900, Ard Biesheuvel wrote:
>>> Fair enough. It is a bit disappointing that we cannot trust these
>>> values, but if the architecture does not mandate their accuracy, we
>>> obviously should not be using them in the way that we are.
>>>
>>> I think we have similar code in the ARM tree, so we should probably
>>> make some changes there as well.
>>
>> I've opposed exporting the cache dimensions to userspace for several
>> reasons:
>>
>
>I agree with the arguments below. However, what I refer to here is kernel code that infers whether a certain VIPT cache is non-aliasing based on the way size, which is calculated from values that are exposed to software for the sole purpose of enumerating cachelines by set/way.
No, CCSIDR_EL1 is for the sole purpose of indicating how to clean / invalidate
caches by set and way. The documentation explicitly says it is not for
enumerating the cache geometry.
________________________________________
From: Ard Biesheuvel <ard.biesheuvel at linaro.org>
Sent: Thursday, October 29, 2015 9:28 AM
To: Russell King - ARM Linux
Cc: Alexander Van Brunt; linux-arm-kernel at lists.infradead.org; Will Deacon; Sudeep Holla; Catalin Marinas
Subject: Re: [PATCH 0/3] Revert arm64 cache geometry
> On 29 okt. 2015, at 16:43, Russell King - ARM Linux <linux at arm.linux.org.uk> wrote:
>
>> On Thu, Oct 29, 2015 at 12:22:51PM +0900, Ard Biesheuvel wrote:
>> Fair enough. It is a bit disappointing that we cannot trust these
>> values, but if the architecture does not mandate their accuracy, we
>> obviously should not be using them in the way that we are.
>>
>> I think we have similar code in the ARM tree, so we should probably
>> make some changes there as well.
>
> I've opposed exporting the cache dimensions to userspace for several
> reasons:
>
I agree with the arguments below. However, what I refer to here is kernel code that infers whether a certain VIPT cache is non-aliasing based on the way size, which is calculated from values that are exposed to software for the sole purpose of enumerating cachelines by set/way.
> * it will become a nightmare with the various different register formats
> to properly decode these values
> * older CPUs don't have the cache ID registers, so we'd need to augment
> any export with additional static configuration somehow
> * I don't trust userland with this information to make the right choices,
> especially when faced with further levels of caches.
>
> The main reason for people wanting the cache dimensions has been "so we
> can select the optimal code for the CPU". Given all the combinations
> of caches out there, I've always said selecting code based on one level
> of cache is totally insane, and userspace is better off doing some
> performance measurement of its implementations and selecting the most
> appropriate version.
>
> There's many things that affect the performance of code paths with CPUs.
> It's not just about cache line size, but instruction latencies, write
> delays, branch prediction and so forth. You can't _say_ "because this
> CPU has a 32K L1 cache, if I optimise my code as X it'll perform
> better everywhere with a 32K L1 cache than optimised Y."
>
> Selecting code based on cache parameters is just wrong.
>
> There may be cases where userspace would like to know the cache line
> size, so it can appropriately align data structures - but that again
> depends on what you're trying to achieve, and what if the L1 cache
> line size is different from the L2 cache line size...
>
> It's a minefield, one which IMHO userspace shouldn't be trusted with.
> Userspace should assume the worst case cache line size seen in ARM
> CPUs and be done with it.
>
> --
> FTTC broadband for 0.8mile line: currently at 9.6Mbps down 400kbps up
> according to speedtest.net.
More information about the linux-arm-kernel
mailing list