Re: [PATCH v2 4/4] virtio-net: Add support for USO features

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On 2024/07/27 5:47, Peter Xu wrote:
On Fri, Jul 26, 2024 at 04:17:12PM +0100, Daniel P. Berrangé wrote:
On Fri, Jul 26, 2024 at 10:43:42AM -0400, Peter Xu wrote:
On Fri, Jul 26, 2024 at 09:48:02AM +0100, Daniel P. Berrangé wrote:
On Fri, Jul 26, 2024 at 09:03:24AM +0200, Thomas Huth wrote:
On 26/07/2024 08.08, Michael S. Tsirkin wrote:
On Thu, Jul 25, 2024 at 06:18:20PM -0400, Peter Xu wrote:
On Tue, Aug 01, 2023 at 01:31:48AM +0300, Yuri Benditovich wrote:
USO features of virtio-net device depend on kernel ability
to support them, for backward compatibility by default the
features are disabled on 8.0 and earlier.

Signed-off-by: Yuri Benditovich <yuri.benditovich@xxxxxxxxxx>
Signed-off-by: Andrew Melnychecnko <andrew@xxxxxxxxxx>

Looks like this patch broke migration when the VM starts on a host that has
USO supported, to another host that doesn't..

This was always the case with all offloads. The answer at the moment is,
don't do this.

May I ask for my understanding:
"don't do this" = don't automatically enable/disable virtio features in QEMU
depending on host kernel features, or "don't do this" = don't try to migrate
between machines that have different host kernel features?

Long term, we need to start exposing management APIs
to discover this, and management has to disable unsupported features.

Ack, this likely needs some treatments from the libvirt side, too.

When QEMU automatically toggles machine type featuers based on host
kernel, relying on libvirt to then disable them again is impractical,
as we cannot assume that the libvirt people are using knows about
newly introduced features. Even if libvirt is updated to know about
it, people can easily be using a previous libvirt release.

QEMU itself needs to make the machine types do that they are there
todo, which is to define a stable machine ABI.

What QEMU is missing here is a "platform ABI" concept, to encode
sets of features which are tied to specific platform generations.
As long as we don't have that we'll keep having these broken
migration problems from machine types dynamically changing instead
of providing a stable guest ABI.

Any more elaboration on this idea?  Would it be easily feasible in
implementation?

In terms of launching QEMU I'd imagine:

   $QEMU -machine pc-q35-9.1 -platform linux-6.9 ...args...

Any virtual machine HW features which are tied to host kernel features
would have their defaults set based on the requested -platform. The
-machine will be fully invariant wrt the host kernel.

You would have -platform hlep to list available platforms, and
corresonding QMP "query-platforms" command to list what platforms
are supported on a given host OS.

Downstream distros can provide their own platforms definitions
(eg "linux-rhel-9.5") if they have kernels whose feature set
diverges from upstream due to backports.

Mgmt apps won't need to be taught about every single little QEMU
setting whose default is derived from the kernel. Individual
defaults are opaque and controlled by the requested platform.

Live migration has clearly defined semantics, and mgmt app can
use query-platforms to validate two hosts are compatible.

Omitting -platform should pick the very latest platform that is
cmpatible with the current host (not neccessarily the latest
platform built-in to QEMU).

This seems to add one more layer to maintain, and so far I don't know
whether it's a must.

To put it simple, can we simply rely on qemu cmdline as "the guest ABI"?  I
thought it was mostly the case already, except some extremely rare
outliers.

When we have one host that boots up a VM using:

   $QEMU1 $cmdline

Then another host boots up:

   $QEMU2 $cmdline -incoming XXX

Then migration should succeed if $cmdline is exactly the same, and the VM
can boot up all fine without errors on both sides.

AFAICT this has nothing to do with what kernel is underneath, even not
Linux?  I think either QEMU1 / QEMU2 has the option to fail.  But if it
didn't, I thought the ABI should be guaranteed.

That's why I think this is a migration violation, as 99.99% of other device
properties should be following this rule.  The issue here is, we have the
same virtio-net-pci cmdline on both sides in this case, but the ABI got
break.

That's also why I was suggesting if the property contributes to the guest
ABI, then AFAIU QEMU needs to:

   - Firstly, never quietly flipping any bit that affects the ABI...

   - Have a default value of off, then QEMU will always allow the VM to boot
     by default, while advanced users can opt-in on new features.  We can't
     make this ON by default otherwise some VMs can already fail to boot,

It may not be necessary the case that old features are supported by every systems. In an extreme case, a user may migrate a VM from Linux to Windows, which probably doesn't support any offloading at all. A more convincing scenario is RSS offloading with eBPF; using eBPF requires a privilege so we cannot assume it is always available even on the latest version of Linux.


   - If the host doesn't support the feature while the cmdline enabled it,
     it needs to fail QEMU boot rather than flipping, so that it says "hey,
     this host does not support running such VM specified, due to XXX
     feature missing".

This is handled in:

"virtio-net: Convert feature properties to OnOffAuto"
https://patchew.org/QEMU/20240714-auto-v3-0-e27401aabab3@xxxxxxxxxx/


That's the only way an user could understand what happened, and IMHO that's
a clean way that we stick with QEMU cmdline on defining the guest ABI,
while in which the machine type is the fundation of such definition, as the
machine type can decides many of the rest compat properties.  And that's
the whole point of the compat properties too (to make sure the guest ABI is
stable).

If kernel breaks it easily, all compat property things that we maintain can
already stop making sense in general, because it didn't define the whol
guest ABI..

So AFAIU that's really what we used for years, I hope I didn't overlook
somehting.  And maybe we don't yet need the "-platform" layer if we can
keep up with this rule?

I think a device which cannot conform to that rule should be non-migratable. For example, virtio-gpu-gl does not conform to it, and does not support migration either.

Regards,
Akihiko Odaki




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