Re: [PATCH v2 4/4] vfio: vfio_iommu_type1: implement VFIO_IOMMU_INFO_CAPABILITIES

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On 21/05/2019 16:59, Alex Williamson wrote:
On Tue, 21 May 2019 11:14:38 +0200
Pierre Morel <pmorel@xxxxxxxxxxxxx> wrote:

On 20/05/2019 20:23, Alex Williamson wrote:
On Mon, 20 May 2019 18:31:08 +0200
Pierre Morel <pmorel@xxxxxxxxxxxxx> wrote:
On 20/05/2019 16:27, Cornelia Huck wrote:
On Mon, 20 May 2019 13:19:23 +0200
Pierre Morel <pmorel@xxxxxxxxxxxxx> wrote:
On 17/05/2019 20:04, Pierre Morel wrote:
On 17/05/2019 18:41, Alex Williamson wrote:
On Fri, 17 May 2019 18:16:50 +0200
Pierre Morel <pmorel@xxxxxxxxxxxxx> wrote:
We implement the capability interface for VFIO_IOMMU_GET_INFO.

When calling the ioctl, the user must specify
VFIO_IOMMU_INFO_CAPABILITIES to retrieve the capabilities and
must check in the answer if capabilities are supported.

The iommu get_attr callback will be used to retrieve the specific
attributes and fill the capabilities.

Currently two Z-PCI specific capabilities will be queried and
filled by the underlying Z specific s390_iommu:
VFIO_IOMMU_INFO_CAP_QFN for the PCI query function attributes
and
VFIO_IOMMU_INFO_CAP_QGRP for the PCI query function group.

Other architectures may add new capabilities in the same way
after enhancing the architecture specific IOMMU driver.

Signed-off-by: Pierre Morel <pmorel@xxxxxxxxxxxxx>
---
     drivers/vfio/vfio_iommu_type1.c | 122
+++++++++++++++++++++++++++++++++++++++-
     1 file changed, 121 insertions(+), 1 deletion(-)

diff --git a/drivers/vfio/vfio_iommu_type1.c
b/drivers/vfio/vfio_iommu_type1.c
index d0f731c..9435647 100644
--- a/drivers/vfio/vfio_iommu_type1.c
+++ b/drivers/vfio/vfio_iommu_type1.c
@@ -1658,6 +1658,97 @@ static int
vfio_domains_have_iommu_cache(struct vfio_iommu *iommu)
         return ret;
     }
+static int vfio_iommu_type1_zpci_fn(struct iommu_domain *domain,
+                    struct vfio_info_cap *caps, size_t size)
+{
+    struct vfio_iommu_type1_info_pcifn *info_fn;
+    int ret;
+
+    info_fn = kzalloc(size, GFP_KERNEL);
+    if (!info_fn)
+        return -ENOMEM;
+
+    ret = iommu_domain_get_attr(domain, DOMAIN_ATTR_ZPCI_FN,
+                    &info_fn->response);

What ensures that the 'struct clp_rsp_query_pci' returned from this
get_attr remains consistent with a 'struct vfio_iommu_pci_function'?
Why does the latter contains so many reserved fields (beyond simply
alignment) for a user API?  What fields of these structures are
actually useful to userspace?  Should any fields not be exposed to the
user?  Aren't BAR sizes redundant to what's available through the vfio
PCI API?  I'm afraid that simply redefining an internal structure as
the API leaves a lot to be desired too.  Thanks,

Alex
Hi Alex,

I simply used the structure returned by the firmware to be sure to be
consistent with future evolutions and facilitate the copy from CLP and
to userland.

If you prefer, and I understand that this is the case, I can define a
specific VFIO_IOMMU structure with only the fields relevant to the user,
leaving future enhancement of the user's interface being implemented in
another kernel patch when the time has come.

TBH, I had no idea that CLP is an s390 firmware interface and this is
just dumping that to userspace.  The cover letter says:

    Using the PCI VFIO interface allows userland, a.k.a. QEMU, to
    retrieve ZPCI specific information without knowing Z specific
    identifiers like the function ID or the function handle of the zPCI
    function hidden behind the PCI interface.

But what does this allow userland to do and what specific pieces of
information do they need?  We do have a case already where Intel
graphics devices have a table (OpRegion) living in host system memory
that we expose via a vfio region, so it wouldn't be unprecedented to do
something like this, but as Connie suggests, if we knew what was being
consumed here and why, maybe we could generalize it into something
useful for others.

OK, sorry I try to explain better.

1) A short description, of zPCI functions and groups

IN Z, PCI cards, leave behind an adapter between subchannels and PCI.
We access PCI cards through 2 ways:
- dedicated PCI instructions (pci_load/pci_store/pci/store_block)
- DMA
We receive events through
- Adapter interrupts
- CHSC events

The adapter propose an IOMMU to protect the DMA
and the interrupt handling goes through a MSIX like interface handled by
the adapter.

The architecture specific PCI do the interface between the standard PCI
level and the zPCI function (PCI + DMA/IOMMU/Interrupt)

To handle the communication through the "zPCI way" the CLP interface
provides instructions to retrieve informations from the adapters.

There are different group of functions having same functionalities.

clp_list give us a list from zPCI functions
clp_query_pci_function returns informations specific to a function
clp_query_group returns information on a function group


2) Why do we need it in the guest

We need to provide the guest with information on the adapters and zPCI
functions returned by the clp_query instruction so that the guest's
driver gets the right information on how the way to the zPCI function
has been built in the host.


When a guest issues the CLP instructions we intercept the clp command in
QEMU and we need to feed the response with the right values for the guest.
The "right" values are not the raw CLP response values:

- some identifier must be virtualized, like UID and FID,

- some values must match what the host received from the CLP response,
like the size of the transmited blocks, the DMA Address Space Mask,
number of interrupt, MSIA

- some other must match what the host handled with the adapter and
function, the start and end of DMA,

- some what the host IOMMU driver supports (frame size),

This seems very reminiscent of virtualizing PCI config space... so why
is this being proposed as a VFIO IOMMU ioctl extension?  These are all
function level characteristics, right?  Should this be a capability on
the VFIO device, or perhaps a region like we used for the Intel
OpRegion (though the structure size seems more akin to a capability
here)?  As I mentioned in my previous reply, tying this into the IOMMU
interface seemed to rely on (I assume) an one-to-one-to-one mapping of
PCI function to IOMMU group to IOMMU domain, but that doesn't still
doesn't necessarily lend itself to using the IOMMU for device level
information.  If there is IOMMU info, perhaps it needs to be split, ie.
expose a frame size via domain_get_attr, expose device level features
via a device capability, let QEMU assemble these into something
coherent to emulate the clp interface.

3) We have three different way to get This information:

The PCI Linux interface is a standard PCI interface and some Z specific
information is available in sysfs.
Not all the information needed to be returned inside the CLP response is
available.
So we can not use the sysfs interface to get all the information.

There is a CLP ioctl interface but this interface is not secure in that
it returns the information for all adapters in the system.

The VFIO interface offers the advantage to point to a single PCI
function, so more secure than the clp ioctl interface.
Coupled with the s390_iommu we get access to the zPCI CLP instruction
and to the values handled by the zPCI driver.


4) Until now we used to fill the CLP response to the guest inside QEMU
with fixed values corresponding to the only PCI card we supported.
To support new cards we need to get the right values from the kernel out.

If it's already emulated, I much prefer figuring out how to expose the
right pieces of information via an appropriate interface to virtualize
fields that are actually necessary rather than simply providing an
interface to dump the clp info straight to userspace and pipe it to the
VM.  Thanks,

Alex


OK, I understand. Seems very clear, IOMMU features through IOMMU interface device features through device interface.

Some times I do not understand what I did. Seems I messed up.

Thanks to have take time to explain.

Been back in a while with a better series.

Regards,
Pierre




--
Pierre Morel
Linux/KVM/QEMU in Böblingen - Germany




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