On 2024-06-03 6:19 pm, Bjorn Helgaas wrote:
On Fri, May 31, 2024 at 03:58:49PM +0100, Robin Murphy wrote:
On 2024-05-31 12:08 am, Bjorn Helgaas wrote:
[+cc IOMMU and pcie-apple.c folks for comment]
On Tue, May 28, 2024 at 03:39:21PM -0400, Frank Li wrote:
For the i.MX95, configuration of a LUT is necessary to convert Bus Device
Function (BDF) to stream IDs, which are utilized by both IOMMU and ITS.
This involves examining the msi-map and smmu-map to ensure consistent
mapping of PCI BDF to the same stream IDs. Subsequently, LUT-related
registers are configured. In the absence of an msi-map, the built-in MSI
controller is utilized as a fallback.
Additionally, register a PCI bus notifier to trigger imx_pcie_add_device()
upon the appearance of a new PCI device and when the bus is an iMX6 PCI
controller. This function configures the correct LUT based on Device Tree
Settings (DTS).
This scheme is pretty similar to apple_pcie_bus_notifier(). If we
have to do this, I wish it were *more* similar, i.e., copy the
function names, bitmap tracking, code structure, etc.
I don't really know how stream IDs work, but I assume they are used on
most or all arm64 platforms, so I'm a little surprised that of all the
PCI host drivers used on arm64, only pcie-apple.c and pci-imx6.c need
this notifier.
This is one of those things that's mostly at the mercy of the PCIe root
complex implementation. Typically the SMMU StreamID and/or GIC ITS DeviceID
is derived directly from the PCI RID, sometimes with additional high-order
bits hard-wired to disambiguate PCI segments. I believe this RID-translation
LUT is a particular feature of the the Synopsys IP - I know there's also one
on the NXP Layerscape platforms, but on those it's programmed by the
bootloader, which also generates the appropriate "msi-map" and "iommu-map"
properties to match. Ideally that's what i.MX should do as well, but hey.
Maybe this RID-translation is a feature of i.MX, not of Synopsys? I
see that the LUT CSR accesses use IMX95_* definitions.
Well, it's not unreasonable to call things "IMX95" in this context if
they are only relevant to the configuration used by i.MX95, and not to
the other i.MX SoCs which this driver also supports. However the data
register fields certainly look suspiciously similar to those used on
Layerscape[1], although I guess that still doesn't rule out it being
NXP's own widget either. Anyway, the exact details aren't really
significant, the point was really just to say don't expect this to
generalise much beyond what you've seen already, and that there's
precedent for bootloaders doing this for us.
If it's really necessary to do this programming from Linux, then there's
still no point in it being dynamic - the mappings cannot ever change, since
the rest of the kernel believes that what the DT said at boot time was
already a property of the hardware. It would be a lot more logical, and
likely simpler, for the driver to just read the relevant map property and
program the entire LUT to match, all in one go at controller probe time.
Rather like what's already commonly done with the parsing of "dma-ranges" to
program address-translation LUTs for inbound windows.
Plus that would also give a chance of safely dealing with bad DTs specifying
invalid ID mappings (by refusing to probe at all). As it is, returning an
error from a child's BUS_NOTIFY_ADD_DEVICE does nothing except prevent any
further notifiers from running at that point - the device will still be
added, allowed to bind a driver, and able to start sending DMA/MSI traffic
without the controller being correctly programmed, which at best won't work
and at worst may break the whole system.
Frank, could the imx LUT be programmed once at boot-time instead of at
device-add time? I'm guessing maybe not because apparently there is a
risk of running out of LUT entries?
The risk still exists just as much either way - if we have a bogus DT
and/or just more PCI RIDs present than we can handle, we're going to
have a bad time. There's no advantage to only finding that out once we
try to add the 33rd device and it's too late to even do anything about it.
In fact if anything, this notifier approach exacerbates that risk the
most by consuming one LUT entry per PCI RID regardless of whether an
"iommu-map-mask" is involved. Assuming the IMX95_PE0_LUT_MASK field is
the same as its Layerscape counterpart, we could support >32 RIDs if the
map and mask are constructed to squash multiple RIDs onto each StreamID
(the SMMU driver supports this), and we have the up-front information to
easily configure hardware masking in the LUT itself. It's not
necessarily possible to reconstruct such mappings from only seeing
individual input and output values one-by-one.
Thanks,
Robin.
[1]
https://source.denx.de/u-boot/u-boot/-/blob/master/drivers/pci/pcie_layerscape_fixup.c?ref_type=heads#L83
It sounds like the consequences of running out of LUT entries are
catastrophic, e.g., memory corruption from mis-directed DMA? If
that's possible, I think we need to figure out how to prevent the
device from being used, not just dev_warn() about it.
Bjorn
