On 13/10/16 19:59, Dan Williams wrote:
> On Thu, Oct 13, 2016 at 9:01 AM, Andrew Cooper
> <andrew.coop...@citrix.com> wrote:
>> On 13/10/16 16:40, Dan Williams wrote:
>>> On Thu, Oct 13, 2016 at 2:08 AM, Jan Beulich <jbeul...@suse.com> wrote:
>>> [..]
>>>>> I think we can do the similar for Xen, like to lay another pseudo
>>>>> device on /dev/pmem and do the reservation, like 2. in my previous
>>>>> reply.
>>>> Well, my opinion certainly doesn't count much here, but I continue to
>>>> consider this a bad idea. For entities like drivers it may well be
>>>> appropriate, but I think there ought to be an independent concept
>>>> of "OS reserved", and in the Xen case this could then be shared
>>>> between hypervisor and Dom0 kernel. Or if we were to consider Dom0
>>>> "just a guest", things should even be the other way around: Xen gets
>>>> all of the OS reserved space, and Dom0 needs something custom.
>>> You haven't made the case why Xen is special and other applications of
>>> persistent memory are not.
>> In a Xen system, Xen runs in the baremetal root-mode ring0, and dom0 is
>> a VM running in ring1/3 with the nvdimm driver.  This is the opposite
>> way around to the KVM model.
>> Dom0, being the hardware domain, has default ownership of all the
>> hardware, but to gain access in the first place, it must request a
>> mapping from Xen.
> This is where my understanding the Xen model breaks down.  Are you
> saying dom0 can't access the persistent memory range unless the ring0
> agent has metadata storage space for tracking what it maps into dom0?

No.  I am trying to point out that the current suggestion wont work, and
needs re-designing.

Xen *must* be able to properly configure mappings of the NVDIMM for
dom0, *without* modifying any content on the NVDIMM.  Otherwise, data
corruption will occur.

Whether this means no Xen metadata, or the metadata living elsewhere in
regular ram, such as the main frametable, is an implementation detail.

>> Once dom0 has a mapping of the nvdimm, the nvdimm driver can go to work
>> and figure out what is on the DIMM, and which areas are safe to use.
> I don't understand this ordering of events.  Dom0 needs to have a
> mapping to even write the on-media structure to indicate a
> reservation.  So, initial dom0 access can't depend on metadata
> reservation already being present.

I agree.

Overall, I think the following is needed.

* Xen starts up.
** Xen might find some NVDIMM SPA/MFN ranges in the NFIT table, and
needs to note this information somehow.
** Xen might find some Type 7 E820 regions, and needs to note this
information somehow.
* Xen starts dom0.
* Once OSPM is running, a Xen component in Linux needs to collect and
report all NVDIMM SPA/MFN regions it knowns about.
** This covers the AML-only case, and the hotplug case.
* Dom0 requests a mapping of the NVDIMMs via the usual mechanism.
** This should work, as Xen is aware that there is something there to be
mapped (rather than just empty physical address space).
* Dom0 finds that some NVDIMM ranges are now available for use (probably
modelled as hotplug events).
* /dev/pmem $STUFF starts happening as normal.

At some pointer later after dom0 policy decisions are made (ultimately,
by the host administrator):
* If an area of NVDIMM is chosen for Xen to use, Dom0 needs to inform
Xen of the SPA/MFN regions which are safe to use.
* Xen then incorporates these regions into its idea of RAM, and starts
using them for whatever.


Reply via email to