Hi Baolu,
On Tue, May 30, 2023 at 01:37:07PM +0800, Lu Baolu wrote:
This series implements the functionality of delivering IO page faults to user space through the IOMMUFD framework. The use case is nested translation, where modern IOMMU hardware supports two-stage translation tables. The second-stage translation table is managed by the host VMM while the first-stage translation table is owned by the user space. Hence, any IO page fault that occurs on the first-stage page table should be delivered to the user space and handled there. The user space should respond the page fault handling result to the device top-down through the IOMMUFD response uAPI.
User space indicates its capablity of handling IO page faults by setting a user HWPT allocation flag IOMMU_HWPT_ALLOC_FLAGS_IOPF_CAPABLE. IOMMUFD will then setup its infrastructure for page fault delivery. Together with the iopf-capable flag, user space should also provide an eventfd where it will listen on any down-top page fault messages.
On a successful return of the allocation of iopf-capable HWPT, a fault fd will be returned. User space can open and read fault messages from it once the eventfd is signaled.
I think that, whether the guest has an IOPF capability or not, the host should always forward any stage-1 fault/error back to the guest. Yet, the implementation of this series builds with the IOPF framework that doesn't report IOMMU_FAULT_DMA_UNRECOV.
And I have my doubt at the using the IOPF framework with that IOMMU_PAGE_RESP_ASYNC flag: using the IOPF framework is for its bottom half workqueue, because a page response could take a long cycle. But adding that flag feels like we don't really need the bottom half workqueue, i.e. losing the point of using the IOPF framework, IMHO.
Combining the two facts above, I wonder if we really need to go through the IOPF framework; can't we just register a user fault handler in the iommufd directly upon a valid event_fd?
Thanks Nicolin