On 1/26/21 6:18 PM, Alex Williamson wrote:
On Mon, 25 Jan 2021 09:40:38 -0500
Matthew Rosato <mjrosato@xxxxxxxxxxxxx> wrote:
On 1/22/21 6:48 PM, Alex Williamson wrote:
On Tue, 19 Jan 2021 15:02:30 -0500
Matthew Rosato <mjrosato@xxxxxxxxxxxxx> wrote:
Some s390 PCI devices (e.g. ISM) perform I/O operations that have very
specific requirements in terms of alignment as well as the patterns in
which the data is read/written. Allowing these to proceed through the
typical vfio_pci_bar_rw path will cause them to be broken in up in such a
way that these requirements can't be guaranteed. In addition, ISM devices
do not support the MIO codepaths that might be triggered on vfio I/O coming
from userspace; we must be able to ensure that these devices use the
non-MIO instructions. To facilitate this, provide a new vfio region by
which non-MIO instructions can be passed directly to the host kernel s390
PCI layer, to be reliably issued as non-MIO instructions.
This patch introduces the new vfio VFIO_REGION_SUBTYPE_IBM_ZPCI_IO region
and implements the ability to pass PCISTB and PCILG instructions over it,
as these are what is required for ISM devices.
There have been various discussions about splitting vfio-pci to allow
more device specific drivers rather adding duct tape and bailing wire
for various device specific features to extend vfio-pci. The latest
iteration is here[1]. Is it possible that such a solution could simply
provide the standard BAR region indexes, but with an implementation that
works on s390, rather than creating new device specific regions to
perform the same task? Thanks,
Alex
[1]https://lore.kernel.org/lkml/20210117181534.65724-1-mgurtovoy@xxxxxxxxxx/
Thanks for the pointer, I'll have to keep an eye on this. An approach
like this could solve some issues, but I think a main issue that still
remains with relying on the standard BAR region indexes (whether using
the current vfio-pci driver or a device-specific driver) is that QEMU
writes to said BAR memory region are happening in, at most, 8B chunks
(which then, in the current general-purpose vfio-pci code get further
split up into 4B iowrite operations). The alternate approach I'm
proposing here is allowing for the whole payload (4K) in a single
operation, which is significantly faster. So, I suspect even with a
device specific driver we'd want this sort of a region anyhow..
Why is this device specific behavior? It would be a fair argument that
acceptable device access widths for MMIO are always device specific, so
we should never break them down. Looking at the PCI spec, a TLP
requires a dword (4-byte) aligned address with a 10-bit length field > indicating the number of dwords, so up to 4K data as you suggest is the
Well, as I mentioned in a different thread, it's not really device
specific behavior but rather architecture/s390x specific behavior;
PCISTB is an interface available to all PCI devices on s390x, it just so
happens that ISM is the first device type that is running into the
nuance. The architecture is designed in such a way that other devices
can use the same interface in the same manner.
To drill down a bit, the PCISTB payload can either be 'strict' or
'relaxed', which via the s390x architecture 'relaxed' means it's not
dword-aligned but rather byte-aligned up to 4K. We find out at init
time which interface a device supports -- So, for a device that
supports 'relaxed' PCISTB like ISM, an example would be a PCISTB of 11
bytes coming from a non-dword-aligned address is permissible, which
doesn't match the TLP from the spec as you described... I believe this
'relaxed' operation that steps outside of the spec is unique to s390x.
(Conversely, devices that use 'strict' PCISTB conform to the typical TLP
definition)
This deviation from spec is to my mind is another argument to treat
these particular PCISTB separately.
whole payload. It's quite possible that the reason we don't have more
access width problems is that MMIO is typically mmap'd on other
platforms. We get away with using the x-no-mmap=on flag for debugging,
but it's not unheard of that the device also doesn't work quite
correctly with that flag, which could be due to access width or timing
difference.
So really, I don't see why we wouldn't want to maintain the guest
access width through QEMU and the kernel interface for all devices. It
seems like that should be our default vfio-pci implementation. I think
we chose the current width based on the QEMU implementation that was
already splitting accesses, and it (mostly) worked. Thanks,
But unless you think that allowing more flexibility than the PCI spec
dictates (byte-aligned up to 4K rather than dword-aligned up to 4K, see
above) this still wouldn't allow me to solve the issue I'm trying to
with this patch set.
If you DO think allowing byte-aligned access up to 4K is OK, then I'm
still left with a further issue (@Niklas): I'm also using this
region-based approach to ensure that the host uses a matching interface
when talking to the host device (basically, s390x has two different
versions of access to PCI devices, and for ISM at least we need to
ensure that the same operation intercepted from the guest is being used
on the host vs attempting to 'upgrade', which always happens via the
standard s390s kernel PCI interfaces).