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    SubjectRe: [PATCH v3 2/3] uio_pci_generic: add MSI/MSI-X support
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    On Tue, 2015-10-06 at 18:23 +0300, Avi Kivity wrote:
    >
    > On 10/06/2015 05:56 PM, Michael S. Tsirkin wrote:
    > > On Tue, Oct 06, 2015 at 05:43:50PM +0300, Vlad Zolotarov wrote:
    > >> The only "like VFIO" behavior we implement here is binding the MSI-X
    > >> interrupt notification to eventfd descriptor.
    > > There will be more if you add some basic memory protections.
    > >
    > > Besides, that's not true.
    > > Your patch queries MSI capability, sets # of vectors.
    > > You even hinted you want to add BAR mapping down the road.
    >
    > BAR mapping is already available from sysfs; it is not mandatory.
    >
    > > VFIO does all of that.
    > >
    >
    > Copying vfio maintainer Alex (hi!).
    >
    > vfio's charter is modern iommu-capable configurations. It is designed to
    > be secure enough to be usable by an unprivileged user.
    >
    > For performance and hardware reasons, many dpdk deployments use
    > uio_pci_generic. They are willing to trade off the security provided by
    > vfio for the performance and deployment flexibility of pci_uio_generic.
    > Forcing these features into vfio will compromise its security and
    > needlessly complicate its code (I guess it can be done with a "null"
    > iommu, but then vfio will have to decide whether it is secure or not).

    It's not just the iommu model vfio uses, it's that vfio is built around
    iommu groups. For instance to use a device in vfio, the user opens the
    vfio group file and asks for the device within that group. That's a
    fairly fundamental part of the mechanics to sidestep.

    However, is there an opportunity at a lower level? Systems without an
    iommu typically have dma ops handled via a software iotlb (ie. bounce
    buffers), but I think they simply don't have iommu ops registered.
    Could a no-iommu, iommu subsystem provide enough dummy iommu ops to fake
    out vfio? It would need to iterate the devices on the bus and come up
    with dummy iommu groups and dummy versions of iommu_map and unmap. The
    grouping is easy, one device per group, there's no isolation anyway.
    The vfio type1 iommu backend will do pinning, which seems like an
    improvement over the mlock that uio users probably try to do now. I
    guess the no-iommu map would error if the IOVA isn't simply the bus
    address of the page mapped.

    Of course this is entirely unsafe and this no-iommu driver should taint
    the kernel, but it at least standardizes on one userspace API and you're
    already doing completely unsafe things with uio. vfio should be
    enlightened at least to the point that it allows only privileged users
    access to devices under such a (lack of) iommu.

    > >> This doesn't justifies the
    > >> hassle of implementing IOMMU-less VFIO mode.
    > > This applies to both VFIO and UIO really. I'm not sure the hassle of
    > > maintaining this functionality in tree is justified. It remains to be
    > > seen whether there are any users that won't taint the kernel.
    > > Apparently not in the current form of the patch, but who knows.
    >
    > It is not msix that taints the kernel, it's uio_pci_generic. Msix is a
    > tiny feature addition that doesn't change the security situation one bit.
    >
    > btw, currently you can map BARs and dd to /dev/mem to your heart's
    > content without tainting the kernel. I don't see how you can claim that
    > msix support makes the situation worse, when root can access every bit
    > of physical memory, either directly or via DMA.





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