lkml.org 
[lkml]   [2020]   [Feb]   [14]   [last100]   RSS Feed
Views: [wrap][no wrap]   [headers]  [forward] 
 
Messages in this thread
/
Date
From
SubjectRe: [PATCH 0/7] vfio/pci: SR-IOV support
On Fri, 14 Feb 2020 15:57:04 +1100
Alexey Kardashevskiy <aik@ozlabs.ru> wrote:

> On 12/02/2020 10:05, Alex Williamson wrote:
> > Given the mostly positive feedback from the RFC[1], here's a new
> > non-RFC revision. Changes since RFC:
> >
> > - vfio_device_ops.match semantics refined
> > - Use helpers for struct pci_dev.physfn to avoid breakage without
> > CONFIG_PCI_IOV
> > - Relax to allow SR-IOV configuration changes while PF is opened.
> > There are potentially interesting use cases here, including
> > perhaps QEMU emulating an SR-IOV capability and calling out
> > to a privileged entity to manipulate sriov_numvfs and corral
> > the resulting devices.
> > - Retest vfio_device_feature.argsz to include uuid length.
> > - Add Connie's R-b on 6/7
> >
> > I still wish we had a solution to make it less opaque to the user
> > why a VFIO_GROUP_GET_DEVICE_FD() has failed if a VF token is
> > required, but this is still the best I've been able to come up with.
> > If there are objections or better ideas, please raise them now.
> >
> > The synopsis of this series is that we have an ongoing desire to drive
> > PCIe SR-IOV PFs from userspace with VFIO. There's an immediate need
> > for this with DPDK drivers and potentially interesting future use
> > cases in virtualization. We've been reluctant to add this support
> > previously due to the dependency and trust relationship between the
> > VF device and PF driver. Minimally the PF driver can induce a denial
> > of service to the VF, but depending on the specific implementation,
> > the PF driver might also be responsible for moving data between VFs
> > or have direct access to the state of the VF, including data or state
> > otherwise private to the VF or VF driver.
> >
> > To help resolve these concerns, we introduce a VF token into the VFIO
> > PCI ABI, which acts as a shared secret key between drivers. The
> > userspace PF driver is required to set the VF token to a known value
> > and userspace VF drivers are required to provide the token to access
> > the VF device. If a PF driver is restarted with VF drivers in use, it
> > must also provide the current token in order to prevent a rogue
> > untrusted PF driver from replacing a known driver. The degree to
> > which this new token is considered secret is left to the userspace
> > drivers, the kernel intentionally provides no means to retrieve the
> > current token.
> >
> > Note that the above token is only required for this new model where
> > both the PF and VF devices are usable through vfio-pci. Existing
> > models of VFIO drivers where the PF is used without SR-IOV enabled
> > or the VF is bound to a userspace driver with an in-kernel, host PF
> > driver are unaffected.
> >
> > The latter configuration above also highlights a new inverted scenario
> > that is now possible, a userspace PF driver with in-kernel VF drivers.
> > I believe this is a scenario that should be allowed, but should not be
> > enabled by default. This series includes code to set a default
> > driver_override for VFs sourced from a vfio-pci user owned PF, such
> > that the VFs are also bound to vfio-pci. This model is compatible
> > with tools like driverctl and allows the system administrator to
> > decide if other bindings should be enabled. The VF token interface
> > above exists only between vfio-pci PF and VF drivers, once a VF is
> > bound to another driver, the administrator has effectively pronounced
> > the device as trusted. The vfio-pci driver will note alternate
> > binding in dmesg for logging and debugging purposes.
> >
> > Please review, comment, and test. The example QEMU implementation
> > provided with the RFC[2] is still current for this version. Thanks,
>
>
> It is a cool feature. One question - what device have you tested it with?
>
> Does not a PF want to control/manage VFs on a PF driver side? I am
> thinking of Mellanox CX5 or similar NIC and it acts as an managed
> ethernet switch which might want to do something to VFs and VFs may not
> work as expected without PF's native driver doing things to it, or this
> is not a concern, is it? Thanks,

TBH, I'm starting with the premise that a userspace PF driver already
works. The DPDK folks have produced some "interesting" code that
allows SR-IOV to be enabled on a PF underneath vfio-pci. There's also
a non-upstream igb-uio driver associated with DPDK that seems to be
recommended for SR-IOV PF driver use cases, particularly for an FPGA
device. The testing I've done, and what's provided by the QEMU patch I
reference, is really only unit testing the vf_token support and
DEVICE_FEATURE ioctl provided here. I used this with an Intel 82576
(igb) where the PF driver doesn't particularly like being assigned to a
VM with SR-IOV enabled. Likewise, I can prove that the interfaces here
provide the correct restrictions for the VF, but the VF doesn't work in
a VM due to the state of the PF. I'm hoping we'll have some
confirmation from the DPDK folks that this provides what they need to
abandon the non-upstream drivers and more nefarious hacks. There's a
lot more virtualization work to be done in QEMU before I'd propose
patch I reference above upstream.

To your specific question regarding CX5, I think there are very few
SR-IOV devices where the PF doesn't act as some kind of packet router
or ring management engine. The Amazon device listed in the pci-pf-stub
driver seems to be one of the few SR-IOV devices which claim the PF has
no special interfaces other than exposing the SR-IOV capability itself.
So I think we generally expect a device specific SR-IOV aware driver
running on the PF via this interface. That's certainly the case for
the DPDK code for the FPGA device above. Thanks,

Alex

\
 
 \ /
  Last update: 2020-02-14 16:28    [W:0.116 / U:0.012 seconds]
©2003-2020 Jasper Spaans|hosted at Digital Ocean and TransIP|Read the blog|Advertise on this site