On Fri, Jun 29, 2018 at 02:29:34PM +0100, Sudeep Holla wrote:
If it matters a lot, vendors must use UID for consistency. Since OS doesn't
use those IDs for any particular reason, OS must not care.
That depends. If you look at how topology_logical_package_id() is used in
x86 code you'll see it gets used as an index to an array in a couple
places. If we don't remap arbitrary IDs to counters than we may miss out
on some opportunities to avoid lists.
Also, we're talking about what's visible to users. I think it's much more
likely to break a user app by exposing topology IDs that have values
greater than the linear CPU numbers (even though properly written apps
shouldn't expect them to be strictly <=), than the opposite.
So I would like to keep it simple and just have this counters for
package ids as demonstrated in Shunyong's patch.
If we don't also handle cores when there are threads, then the cores
will also end up having weird IDs.
Yes, but if PPTT says it has valid ID, I would prefer that over DT like
generated.
Valid *ACPI* ID, which just means it's a guaranteed unique ACPI UID,
which isn't likely going to be anything useful to a user.
How is that different from OS generated one from user's perspective ?
Vendors might assign sockets UID and he may help them to replace one.
Having some generated counter based id is not helpful.
I agree with this. It's a good argument for maintaining a mapping of
package-id to id-physically-printed-on-a-package somewhere. To avoid
maintaining a mapping it could just be stored directly in
cpu_topology[cpu].package_id, but then how can we tell the difference
between a valid printed-on-package-id and an ACPI offset? We'd still
have to maintain additional state to determine if it's valid or not,
so we could just maintain a mapping instead.