[PATCH 0/4] kdump: crashkernel reservation from CMA
Michal Hocko
mhocko at suse.com
Wed Dec 6 07:20:01 PST 2023
On Wed 06-12-23 14:49:51, Michal Hocko wrote:
> On Wed 06-12-23 12:08:05, Philipp Rudo wrote:
[...]
> > If I understand Documentation/core-api/pin_user_pages.rst correctly you
> > missed case 1 Direct IO. In that case "short term" DMA is allowed for
> > pages without FOLL_LONGTERM. Meaning that there is a way you can
> > corrupt the CMA and with that the crash kernel after the production
> > kernel has panicked.
>
> Could you expand on this? How exactly direct IO request survives across
> into the kdump kernel? I do understand the RMDA case because the IO is
> async and out of control of the receiving end.
OK, I guess I get what you mean. You are worried that there is
DIO request
program DMA controller to read into CMA memory
<panic>
boot into crash kernel backed by CMA
DMA transfer is done.
DIO doesn't migrate the pinned memory because it is considered a very
quick operation which doesn't block the movability for too long. That is
why I have considered that a non-problem. RDMA on the other might pin
memory for transfer for much longer but that case is handled by
migrating the memory away.
Now I agree that there is a chance of the corruption from DIO. The
question I am not entirely clear about right now is how big of a real
problem that is. DMA transfers should be a very swift operation. Would
it help to wait for a grace period before jumping into the kdump kernel?
> Also if direct IO is a problem how come this is not a problem for kexec
> in general. The new kernel usually shares all the memory with the 1st
> kernel.
This is also more clear now. Pure kexec is shutting down all the devices
which should terminate the in-flight DMA transfers.
--
Michal Hocko
SUSE Labs
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