On 1/10/24 13:36, Nicolin Chen wrote:
On Tue, Oct 01, 2024 at 11:55:59AM +1000, Alexey Kardashevskiy wrote:
On 11/9/24 17:08, Nicolin Chen wrote:
On Wed, Sep 11, 2024 at 06:12:21AM +0000, Tian, Kevin wrote:
From: Nicolin Chen nicolinc@nvidia.com Sent: Wednesday, August 28, 2024 1:00 AM
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On a multi-IOMMU system, the VIOMMU object can be instanced to the number of vIOMMUs in a guest VM, while holding the same parent HWPT to share the
Is there restriction that multiple vIOMMU objects can be only created on a multi-IOMMU system?
I think it should be generally restricted to the number of pIOMMUs, although likely (not 100% sure) we could do multiple vIOMMUs on a single-pIOMMU system. Any reason for doing that?
Just to clarify the terminology here - what are pIOMMU and vIOMMU exactly?
On AMD, IOMMU is a pretend-pcie device, one per a rootport, manages a DT
- device table, one entry per BDFn, the entry owns a queue. A slice of
that can be passed to a VM (== queues mapped directly to the VM, and such IOMMU appears in the VM as a pretend-pcie device too). So what is [pv]IOMMU here? Thanks,
The "p" stands for physical: the entire IOMMU unit/instance. In the IOMMU subsystem terminology, it's a struct iommu_device. It sounds like AMD would register one iommu device per rootport?
Yup, my test machine has 4 of these.
The "v" stands for virtual: a slice of the pIOMMU that could be shared or passed through to a VM:
- Intel IOMMU doesn't have passthrough queues, so it uses a shared queue (for invalidation). In this case, vIOMMU will be a pure SW structure for HW queue sharing (with the host machine and other VMs). That said, I think the channel (or the port) that Intel VT-d uses internally for a device to do a two-stage translation can be seen as a "passthrough" feature, held by a vIOMMU.
- AMD IOMMU can assign passthrough queues to VMs, in which case, vIOMMU will be a structure holding all passthrough resource (of the pIOMMU) assisgned to a VM. If there is a shared resource, it can be packed into the vIOMMU struct too. FYI, vQUEUE (future series) on the other hand will represent each passthrough queue in a vIOMMU struct. The VM then, per that specific pIOMMU (rootport?), will have one vIOMMU holding a number of vQUEUEs.
- ARM SMMU is sort of in the middle, depending on the impls. vIOMMU will be a structure holding both passthrough and shared resource. It can define vQUEUEs, if the impl has passthrough queues like AMD does.
Allowing a vIOMMU to hold shared resource makes it a bit of an upgraded model for IOMMU virtualization, from the existing HWPT model that now looks like a subset of the vIOMMU model.
Thanks for confirming.
I've just read in this thread that "it should be generally restricted to the number of pIOMMUs, although likely (not 100% sure) we could do multiple vIOMMUs on a single-pIOMMU system. Any reason for doing that?"? thought "we have every reason to do that, unless p means something different", so I decided to ask :) Thanks,
Thanks Nicolin