On 12/09/2018 03:42, Lu Baolu wrote: > Hi, > > On 09/11/2018 12:22 AM, Jean-Philippe Brucker wrote: >> Hi, >> >> On 30/08/2018 05:09, Lu Baolu wrote: >>> Below APIs are introduced in the IOMMU glue for device drivers to use >>> the finer granularity translation. >>> >>> * iommu_capable(IOMMU_CAP_AUX_DOMAIN) >>> - Represents the ability for supporting multiple domains per device >>> (a.k.a. finer granularity translations) of the IOMMU hardware. >> >> iommu_capable() cannot represent hardware capabilities, we need >> something else for systems with multiple IOMMUs that have different >> caps. How about iommu_domain_get_attr on the device's domain instead? > > Domain is not a good choice for per iommu cap query. A domain might be > attached to devices belonging to different iommu's. > > How about an API with device structure as parameter? A device always > belongs to a specific iommu. This API is supposed to be used the > device driver. Ah right, domain attributes won't work. Your suggestion seems more suitable, but maybe users can simply try to enable auxiliary domains first, and conclude that the IOMMU doesn't support it if it returns an error >>> * iommu_en(dis)able_aux_domain(struct device *dev) >>> - Enable/disable the multiple domains capability for a device >>> referenced by @dev. It strikes me now that in the IOMMU driver, iommu_enable/disable_aux_domain() will do the same thing as iommu_sva_device_init/shutdown() (https://www.spinics.net/lists/arm-kernel/msg651896.html). Some IOMMU drivers want to enable PASID and allocate PASID tables only when requested by users, in the sva_init_device IOMMU op (see Joerg's comment last year https://patchwork.kernel.org/patch/9989307/#21025429). Maybe we could simply add a flag to iommu_sva_device_init? >>> * iommu_auxiliary_id(struct iommu_domain *domain) >>> - Return the index value used for finer-granularity DMA translation. >>> The specific device driver needs to feed the hardware with this >>> value, so that hardware device could issue the DMA transaction with >>> this value tagged. >> >> This could also reuse iommu_domain_get_attr. >> >> >> More generally I'm having trouble understanding how auxiliary domains >> will be used. So VFIO allocates PASIDs like this: > > As I wrote in the cover letter, "auxiliary domain" is just a name to > ease discussion. It's actually has no special meaning (we think a domain > as an isolation boundary which could be used by the IOMMU to isolate > the DMA transactions out of a PCI device or partial of it). > > So drivers like vfio should see no difference when use an auxiliary > domain. The auxiliary domain is not aware out of iommu driver. For an auxiliary domain, VFIO does need to retrieve the PASID and write it to hardware. But being able to reuse iommu_map/unmap/iova_to_phys/etc on the auxiliary domain is nice. >> * iommu_enable_aux_domain(parent_dev) >> * iommu_domain_alloc() -> dom1 >> * iommu_domain_alloc() -> dom2 >> * iommu_attach_device(dom1, parent_dev) >> -> dom1 gets PASID #1 >> * iommu_attach_device(dom2, parent_dev) >> -> dom2 gets PASID #2 >> >> Then I'm not sure about the next steps, when userspace does >> VFIO_IOMMU_MAP_DMA or VFIO_IOMMU_BIND on an mdev's container. Is the >> following use accurate? >> >> For the single translation level: >> * iommu_map(dom1, ...) updates first-level/second-level pgtables for >> PASID #1 >> * iommu_map(dom2, ...) updates first-level/second-level pgtables for >> PASID #2 >> >> Nested translation: >> * iommu_map(dom1, ...) updates second-level pgtables for PASID #1 >> * iommu_bind_table(dom1, ...) binds first-level pgtables, provided by >> the guest, for PASID #1 >> * iommu_map(dom2, ...) updates second-level pgtables for PASID #2 >> * iommu_bind_table(dom2, ...) binds first-level pgtables for PASID #2 >>> >> I'm trying to understand how to implement this with SMMU and other > > This is proposed for architectures which support finer granularity > second level translation with no impact on architectures which only > support Source ID or the similar granularity. Just to be clear, in this paragraph you're only referring to the Nested/second-level translation for mdev, which is specific to vt-d rev3? Other architectures can still do first-level translation with PASID, to support some use-cases of IOMMU aware mediated device (assigning mdevs to userspace drivers, for example) >> IOMMUs. It's not a clean fit since we have a single domain to hold the >> second-level pgtables. > > Do you mind explaining why a domain holds multiple second-level > pgtables? Shouldn't that be multiple domains? I didn't mean a single domain holding multiple second-level pgtables, but a single domain holding a single set of second-level pgtables for all mdevs. But let's ignore that, mdev and second-level isn't realistic for arm SMMU. >> Then again, the nested case probably doesn't >> matter for us - we might as well assign the parent directly, since all >> mdevs have the same second-level and can only be assigned to the same VM. >> >> >> Also, can non-VFIO device drivers use auxiliary domains to do map/unmap >> on PASIDs? They are asking to do that and I'm proposing the private >> PASID thing, but since aux domains provide a similar feature we should >> probably converge somehow. > > Yes, any non-VFIO device driver could use aux domain as well. The use > model is: > > iommu_enable_aux_domain(dev) > -- enables aux domain support for this device > > iommu_domain_alloc(dev) > -- allocate an iommu domain > > iommu_attach_device(domain, dev) > -- attach the domain to device > > iommu_auxiliary_id(domain) > -- retrieve the pasid id used by this domain > > The device driver then > > iommu_map(domain, ...) > > set the pasid id to hardware register and start to do dma. Sounds good, I'll drop the private PASID patch if we can figure out a solution to the attach/detach_dev problem discussed on patch 8/10 Thanks, Jean