Re: [RFC PATCH] iommu: arm-smmu-nvidia: Add default domain type implementation op

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On 2023/7/13 21:31, Thierry Reding wrote:
On Tue, Jul 11, 2023 at 05:55:11PM +0200, Thierry Reding wrote:
On Tue, Jul 11, 2023 at 01:58:34PM +0300, Stanimir Varbanov wrote:
Hi Thierry,

Thank you for the comments!

On 7/10/23 13:40, Thierry Reding wrote:
On Mon, Jul 10, 2023 at 11:22:52AM +0300, Stanimir Varbanov wrote:
Add def_domain_type implementation op and override default IOMMU
domain Kconfig option (CONFIG_IOMMU_DEFAULT_PASSTHROUGH=y), which
could be enabled on some distros. The current quirk has been done
for Tegra234 machine, because I found the issue on it. The issue
itself appears on USB host controller which cannot be initialized
without IOMMU translation. Something more, we proved that IOMMU
translation is needed for display and GPU drivers as well.

I evaluated few possible options to solve that:

  a) select default IOMMU domain from .def_domain_type op
  b) Unset CONFIG_IOMMU_DEFAULT_PASSTHROUGH=n
  c) add iommu.passthrough=0 on the kernel cmdline
  d) firmware - ACPI / DT

a) This option is implemented in the proposed patch.

b) Since that the community has agreed that pass-through is preferred
as a default IOMMU domain option because this will avoid performance
impacts on some of the platforms [1]. On the other side we have examples
where you cannot even install Linux distribution on a machine where the
storage media cannot be detected and the system just hangs.

That's not how I read that thread. It sounds more to me like Will and
Robin had ideas on how to improve the performance and were planning to
address these issues. It doesn't exactly sound to me like there was
concensus to make passthrough the default.

Having said that, given that it's possible for distributions and users
to set CONFIG_IOMMU_DEFAULT_PASSTHROUGH=y, I think it would be useful in
general to have a way of enforcing IOMMU translations if it's needed by
the hardware.

Exactly, the problem is that some platforms prefer passthrough to avoid
performance impacts but others cannot even boot the kernel (and thus
installation failure). Passing iommu.passthrough=0 should be an
administrator decision, balancing between security and performance.

On the other hand the aforementioned mail thread gave some performance
numbers which might be are outdated having the improvements made in smmu
driver in mind. Unfortunately, I cannot confirm that the performance has
been improved during that time.


I'm not sure I fully understand the particular problems that you're
seeing on Tegra234, though. I'm not aware of anything in the USB host
controller driver (or hardware, for that matter) that would require the
IOMMU to be enabled. The only peculiarity that I can think of is the
firmware, which is typically loaded by an early bootloader and therefore
might perhaps need the IOMMU to properly map this in the kernel.
However, my understanding is that this firmware is loaded into special
carveout regions which don't require remapping.

On Jetson Orin AGX (R35.2.1) I see these errors:

tegra-mc 2c00000.memory-controller: unknown: write @0x0000000000000080:
EMEM address decode error (EMEM decode error)

tegra-xusb 3610000.usb: Error while assigning device slot ID
tegra-xusb 3610000.usb: Max number of devices this xHCI host supports is 36.
usb usb2-port3: couldn't allocate usb_device
tegra-mc 2c00000.memory-controller: unknown: write @0x0000000000000090:
EMEM address decode error (EMEM decode error)
tegra-xusb 3610000.usb: Error while assigning device slot ID
tegra-xusb 3610000.usb: Max number of devices this xHCI host supports is 36.
usb usb1-port3: couldn't allocate usb_device

tegra-mc 2c00000.memory-controller: unknown: write @0x00000000000000a0:
EMEM address decode error (EMEM decode error)
tegra-xusb 3610000.usb: Error while assigning device slot ID
tegra-xusb 3610000.usb: Max number of devices this xHCI host supports is 36.
usb usb1-port4: couldn't allocate usb_device


However, passthrough is admittedly not something that we've thoroughly
tested, so it's possible you're running into a use-case that I'm not
aware of. In that case, could you provide a few more specifics (such as
the DTB and .config) of your build configuration so that I can try and
reproduce?

To reproduce you have to add iommu.passthrough=1 on kernel cmdline. The
dtb is from Jetpack.

I was able to reproduce this on Jetson Orin NX (the differences to AGX
Orin should be negligible in this context), though I ended up patching
the DTB to disable all SMMUs. What fixed it for me was to drop the
dma-coherent property from the usb@3610000 node. Can you try that on
your end to see if that works for you as well?

Not that that's a proper solution, of course, but just trying to find
out if there's perhaps something else going on.

 From the looks of it, it seems like these devices aren't actually DMA
coherent inherently, but rather the SMMU translations make the accesses
to memory coherent. I'm trying to find out the exact details, but if it
turns out to be the case, then what we really want is a way for an IOMMU
to mark any devices that get attached to it as DMA coherent. It's not
sufficient to hard-code this in DT because there are various ways in
which device can end up not attached to an IOMMU despite what the DT
says.

Jason, or anyone of the IOMMU folks, any thoughts on how this could be
achieved? DT already has a way of walking up the "DMA hierarchy" looking
for a DMA coherent parent, but again, making this rely entirely on DT
seems insufficient.

I've got a bit more information on what's happening here. There are
three different ways that a device's memory accesses can coherent on
Tegra: 1) when translated through the ARM SMMU, 2) some devices can
force coherency through configuration registers and 3) each device can
be forced to be coherent via the memory controller.

Option 3) is not something we have much control over because this is
configured during early boot and the corresponding registers locked
down, so the OS can at maximum read out the configuration.

Option 1) is what is typically used, so a common pattern is that if we
enable IOMMU translations via DT, we also set dma-coherent. Conversely,
if IOMMU translations are disabled via DT, the dma-coherent property
should also be removed because by default most devices will not be
hardcoded to be DMA coherent via option 3). Most device drivers will
also not program the device's configuration registers.

As a result the desired configuration is to always enable SMMU and rely
on the SMMU translations to provide DMA coherency. As we've seen this
can be problematic, because the device tree doesn't always tell the true
story. For example even if the iommus property exists, the device may
not end up attached to the IOMMU for a number of reasons (the IOMMU
could itself be disabled, a kernel command-line option could prevent the
attachment, or a device could even be detached explicitly).

So I think what we want to avoid is to mark all device tree nodes as
dma-coherent because it can lead to inconsistencies. A better option
would be to have this property inherited via the IOMMU if the IOMMU
translations themselves cause the coherency to be established. Now it
seems like DT already contains a way of doing that via the "DMA parent".
This works by looking up a special interconnects path called "dma-mem".
We already use this on Tegra to make the memory controller the DMA
parent of all memory clients (i.e. all DMA capable hardware blocks) in
order to enforce a bus-level DMA mask.

However, in order for the DMA parent mechanism to work for IOMMU, we'd
need to redirect the DMA parent to be the IOMMU, but in that case we
loose the link to the memory controller. Unless, perhaps, if there's a
way to construct an ICC path from device to IOMMU and then to memory
controller and external memory controller (EMC).

For reference, here's roughly what the data path looks like on Tegra:

	device --> MC --> SMMU enabled --> SMMU --> EMC --> DRAM
	              |                          ^
	              --> SMMU bypass -----------|

SMMU can be enabled/disabled per device via a stream ID override
register in the memory controller.

The biggest downside of that mechanism is still that it's a static
configuration and doesn't respect the actual runtime attachment of a
device to an IOMMU.

Adding the DT folks to see if they have any good ideas on how best to
represent this from a DT point of view. Would it perhaps be an option
to consider the iommus property when walking up the DMA ancestry?

Is it possible to handle this dynamically in the code? Say, set device
to be DMA coherent in probe_finalize callback of Tegra iommu driver if
the IOMMU translation for this device is on. And clear it in the iommu
release device path.

Normally we switch the DMA ops in the probe_finalize callback and iommu
device release.

Best regards,
baolu



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