Re: [RFC PATCH 00/21] iommu/amd: Introduce support for HW accelerated vIOMMU w/ nested page table
From: Suthikulpanit, Suravee
Date: Fri Jun 23 2023 - 18:05:38 EST
Jason,
On 6/23/2023 4:45 AM, Jason Gunthorpe wrote:
On Thu, Jun 22, 2023 at 06:15:17PM -0700, Suthikulpanit, Suravee wrote:
Jason,
On 6/22/2023 6:46 AM, Jason Gunthorpe wrote:
On Wed, Jun 21, 2023 at 06:54:47PM -0500, Suravee Suthikulpanit wrote:
Since the IOMMU hardware virtualizes the guest command buffer, this allows
IOMMU operations to be accelerated such as invalidation of guest pages
(i.e. stage1) when the command is issued by the guest kernel without
intervention from the hypervisor.
This is similar to what we are doing on ARM as well.
Ok
This series is implemented on top of the IOMMUFD framework. It leverages
the exisiting APIs and ioctls for providing guest iommu information
(i.e. struct iommu_hw_info_amd), and allowing guest to provide guest page
table information (i.e. struct iommu_hwpt_amd_v2) for setting up user
domain.
Please see the [4],[5], and [6] for more detail on the AMD HW-vIOMMU.
NOTES
-----
This series is organized into two parts:
* Part1: Preparing IOMMU driver for HW-vIOMMU support (Patch 1-8).
* Part2: Introducing HW-vIOMMU support (Patch 9-21).
* Patch 12 and 21 extends the existing IOMMUFD ioctls to support
additional opterations, which can be categorized into:
- Ioctls to init/destroy AMD HW-vIOMMU instance
- Ioctls to attach/detach guest devices to the AMD HW-vIOMMU instance.
- Ioctls to attach/detach guest domains to the AMD HW-vIOMMU instance.
I'm re-looking into these three a bit and will get back.
- Ioctls to trap certain AMD HW-vIOMMU MMIO register accesses.
To describe the need for this ioctl, AMD IOMMU has two set of MMIO
registers:
1. Control MMIO
2. Data MMIO
For AMD HW-vIOMMU, the hardware define a private memory address space
(PAS) containing VF Control MMIO and VF MMIO register for each guest
IOMMU instance, which represents the guest view of the AMD IOMMU MMIO
registers. This memory is also accessed by the IOMMU hardware to
virtualize the guest MMIO register.
When the guest IOMMU driver write to guest control MMIO register of the
QEMU AMD HW-vIOMMU device model, it traps into QEMU. QEMU reads the
value call VIOMMU_MMIO_ACCESS to tell the AMD IOMMU driver in the host
to program VFCtrlMMIO or VFMMIO register for this guest.
Similar for the read on guest control MMIO register, QEMU calls ioctl to
get the value from AMD iommu driver, which reads the guest VFCtrlMMIO or
VFMMIO register and provide back to the guest.
- Ioctls to trap AMD HW-vIOMMU command buffer initialization.
For this ioctl, the IOMMU hardware define an IOMMU PAS containing a
command buffer for each guest IOMMU instance. This memory is also
accessed by IOMMU hardware to virtualize the guest command buffer.
When the guest IOMMU driver write to guest Command Buffer Base Address
MMIO register of the QEMU AMD HW-vIOMMU device model, it traps into
QEMU. QEMU reads the value, parse the GPA, and translate to HVA. Then it
calls VIOMMU_CMDBUF_UPDATE to communicate the HVA to IOMMU driver to map
it in the IOMMU PAS so that it use this memory to virtualize the guest
command buffer.
No one else seems to need this kind of stuff, why is AMD different?
Emulation and mediation to create the vIOMMU is supposed to be in the
VMM side, not in the kernel. I don't want to see different models by
vendor.
These ioctl is not necessary for emulation, which I would agree that it
should be done on the VMM side (e.g. QEMU). These ioctls provides necessary
information for programming the AMD IOMMU hardware to provide
hardware-assisted virtualized IOMMU.
You have one called 'trap', it shouldn't be like this. It seems like
this is trying to parse the command buffer in the kernel, it should be
done in the VMM.
Please see the more detail description above. Basically, all parsing is
done in the VMM, and it use the ioctl to tell IOMMU driver to program
the VFCtrlMMIO/VFMMIO registers or IOMMU PAS for the hardware to access.
In this series, AMD IOMMU GCR3 table is actually setup when the
IOMMUFD_CMD_HWPT_ALLOC is called, which the driver provides a hook to struct
iommu_ops.domain_alloc_user().
That isn't entirely right either, the GCR3 should be programmed into
HW during iommu_domain attach.
>> The AMD-specific information is communicated from QEMU via
iommu_domain_user_data.iommu_hwpt_amd_v2. This is similar to INTEL
and ARM.
This is only for requesting the iommu_domain and supplying the gcr3 VA
for later use.
Ah, ok. Lemme look into this again and get back to you.
....
There are still work to be done in this to fully support PASID. I'll
take a look at this next.
I would expect PASID work is only about invalidation?
Actually, I am referring to supporting non-zero PASID, which requires
walking the guest IOMMU gCR3 table and communicate this to the hypervisor.
To start focus only on user space page tables and kernel mediated
invalidation and fit into the same model as everyone else. This is
approx the same patches and uAPI you see for ARM and Intel. AFAICT
AMD's HW is very similar to ARM's, so you should be aligning to the
ARM design.
I think the user space page table is covered as described above.
I'm not sure, it doesn't look like it is what I would expect.
Lemme clean up this part and get back in next RFC.
It seems that user-space is supposed to call the ioctl
IOMMUFD_CMD_HWPT_INVALIDATE for both INTEL and ARM to issue invalidation for
stage 1 page table. Please lemme know if I misunderstand the purpose of this
ioctl.
Yes, the VMM traps the invalidation and issues it like this.
However, for AMD since the HW-vIOMMU virtualizes the guest command buffer,
and when it sees the page table invalidation command in the guest command
buffer, it takes care of the invalidation using information in the DomIDMap,
which maps guest domain ID (gDomID) of a particular guest to the
corresponding host domain ID (hDomID) of the device and invalidate the
nested translation according to the specified PASID, DomID, and GVA.
The VMM should do all of this stuff. The VMM parses the command buffer
and the VMM converts the commands to invalidation ioctls.
I'm a unclear if AMD supports a mode where the HW can directly operate
a command/invalidation queue in the VM without virtualization. Eg DMA
from guest memory and deliver directly to the guest completion
interrupts.
Correct, VMM does not need to parse the command buffer. The hardware
takes care of virtualizing the invalidation commands in the guest
command buffer directly buffer w/o VMM helps to do invalidation from the
host side.
For AMD IOMMU, the invalidation command is normally followed by the
COMPLETION_WAIT command on a memory semaphore, in which the hardware
updates after all the prior commands are completed.
For Linux, we are not using Completion Wait interrupt. The iommu driver
polls on the memory semphore in a loop.
If it always needs SW then the SW part should be in the VMM, not the
kernel. Then you don't need to load all these tables into the kernel.
As described, the IOMMU driver needs to program the IOMMU PAS. IOMMU
hardware uses its own IOMMU page table to access the PAS.
For example, an AMD IOMMU hardware is normally listed as a PCI device
(e.g. PCI ID 00:00.2). To setup IOMMU PAS for this IOMMU instance, the
IOMMU driver allocate an IOMMU v1 page table for this device, which
contains PAS mapping.
The IOMMU hardware use the PAS for storing Guest IOMMU information such
as Guest MMIOs, DevID Mapping Table, DomID Mapping Table, and Guest
Command/Event/PPR logs.
Thanks,
Suravee