[PATCH 5/5] arm64: kdump: Don't defer the reservation of crash high memory
Kefeng Wang
wangkefeng.wang at huawei.com
Wed Jun 22 05:03:21 PDT 2022
On 2022/6/22 2:04, Catalin Marinas wrote:
> On Tue, Jun 21, 2022 at 02:24:01PM +0800, Kefeng Wang wrote:
>> On 2022/6/21 13:33, Baoquan He wrote:
>>> On 06/13/22 at 04:09pm, Zhen Lei wrote:
>>>> If the crashkernel has both high memory above DMA zones and low memory
>>>> in DMA zones, kexec always loads the content such as Image and dtb to the
>>>> high memory instead of the low memory. This means that only high memory
>>>> requires write protection based on page-level mapping. The allocation of
>>>> high memory does not depend on the DMA boundary. So we can reserve the
>>>> high memory first even if the crashkernel reservation is deferred.
>>>>
>>>> This means that the block mapping can still be performed on other kernel
>>>> linear address spaces, the TLB miss rate can be reduced and the system
>>>> performance will be improved.
>>> Ugh, this looks a little ugly, honestly.
>>>
>>> If that's for sure arm64 can't split large page mapping of linear
>>> region, this patch is one way to optimize linear mapping. Given kdump
>>> setting is necessary on arm64 server, the booting speed is truly
>>> impacted heavily.
>> Is there some conclusion or discussion that arm64 can't split large page
>> mapping?
>>
>> Could the crashkernel reservation (and Kfence pool) be splited dynamically?
>>
>> I found Mark replay "arm64: remove page granularity limitation from
>> KFENCE"[1],
>>
>> "We also avoid live changes from block<->table mappings, since the
>> archtitecture gives us very weak guarantees there and generally requires
>> a Break-Before-Make sequence (though IIRC this was tightened up
>> somewhat, so maybe going one way is supposed to work). Unless it's
>> really necessary, I'd rather not split these block mappings while
>> they're live."
> The problem with splitting is that you can end up with two entries in
> the TLB for the same VA->PA mapping (e.g. one for a 4KB page and another
> for a 2MB block). In the lucky case, the CPU will trigger a TLB conflict
> abort (but can be worse like loss of coherency).
Thanks for your explanation,
> Prior to FEAT_BBM (added in ARMv8.4), such scenario was not allowed at
> all, the software would have to unmap the range, TLBI, remap. With
> FEAT_BBM (level 2), we can do this without tearing the mapping down but
> we still need to handle the potential TLB conflict abort. The handler
> only needs a TLBI but if it touches the memory range being changed it
> risks faulting again. With vmap stacks and the kernel image mapped in
> the vmalloc space, we have a small window where this could be handled
> but we probably can't go into the C part of the exception handling
> (tracing etc. may access a kmalloc'ed object for example).
So if without FEAT_BBM,we can only guarantee BBM sequence via
"unmap the range, TLBI, remap" or the following option, and with
FEAT_BBM (level 2), we could have easy way to avoid TLB conflict for
some vmalloc space, but still hard to deal with other scence?
>
> Another option is to do a stop_machine() (if multi-processor at that
> point), disable the MMUs, modify the page tables, re-enable the MMU but
> it's also complicated.
>
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