> From: Jason Wang <jasowang at redhat.com>
> Sent: Wednesday, June 1, 2022 10:00 PM
>
> On Thu, Jun 2, 2022 at 2:58 AM Parav Pandit <parav at nvidia.com>
wrote:
> >
> >
> > > From: Jason Wang <jasowang at redhat.com>
> > > Sent: Tuesday, May 31, 2022 10:42 PM
> > >
> > > Well, the ability to query the virtqueue state was proposed as
> > > another feature (Eugenio, please correct me). This should be
> > > sufficient for making virtio-net to be live migrated.
> > >
> > The device is stopped, it won't answer to this special vq config
done here.
>
> This depends on the definition of the stop. Any query to the device state
> should be allowed otherwise it's meaningless for us.
>
> > Programming all of these using cfg registers doesn't scale for
on-chip
> memory and for the speed.
>
> Well, they are orthogonal and what I want to say is, we should first define
> the semantics of stop and state of the virtqueue.
>
> Such a facility could be accessed by either transport specific method or
admin
> virtqueue, it totally depends on the hardware architecture of the vendor.
>
I find it hard to believe that a vendor can implement a CVQ but not AQ and chose
to expose tens of hundreds of registers.
But maybe, it fits some specific hw.
I like to learn the advantages of such method other than simplicity.
We can clearly that we are shifting away from such PCI registers with SIOV, IMS
and other scalable solutions.
virtio drifting in reverse direction by introducing more registers as transport.
I expect it to an optional transport like AQ.
> >
> > Next would be to program hundreds of statistics of the 64 VQs through
a
> giant PCI config space register in some busy polling scheme.
>
> We don't need giant config space, and this method has been implemented
> by some vDPA vendors.
>
There are tens of 64-bit counters per VQs. These needs to programmed on
destination side.
Programming these via registers requires exposing them on the registers.
In one of the proposals, I see them being queried via CVQ from the device.
Programming them via cfg registers requires large cfg space or synchronous
programming until receiving ACK from it.
This means one entry at a time...
Programming them via CVQ needs replicate and align cmd values etc on all device
types. All duplicate and hard to maintain.
> >
> > I can clearly see how all these are inefficient for faster LM.
> > We need an efficient AQ to proceed with at minimum.
>
> I'm fine with admin virtqueue, but the stop and state are orthogonal to
that.
> And using admin virtqueue for stop/state will be more natural if we use
> admin virtqueue as a transport.
Ok.
We should have defined it bit earlier that all vendors can use. :(