On Tue, May 08, 2018 at 02:19:05PM -0600, Logan Gunthorpe wrote: > > > On 08/05/18 02:13 PM, Alex Williamson wrote: > > Well, I'm a bit confused, this patch series is specifically disabling > > ACS on switches, but per the spec downstream switch ports implementing > > ACS MUST implement direct translated P2P. So it seems the only > > potential gap here is the endpoint, which must support ATS or else > > there's nothing for direct translated P2P to do. The switch port plays > > no part in the actual translation of the request, ATS on the endpoint > > has already cached the translation and is now attempting to use it. > > For the switch port, this only becomes a routing decision, the request > > is already translated, therefore ACS RR and EC can be ignored to > > perform "normal" (direct) routing, as if ACS were not present. It would > > be a shame to go to all the trouble of creating this no-ACS mode to find > > out the target hardware supports ATS and should have simply used it, or > > we should have disabled the IOMMU altogether, which leaves ACS disabled. > > Ah, ok, I didn't think it was the endpoint that had to implement ATS. > But in that case, for our application, we need NVMe cards and RDMA NICs > to all have ATS support and I expect that is just as unlikely. At least > none of the endpoints on my system support it. Maybe only certain GPUs > have this support. I think there is confusion here, Alex properly explained the scheme PCIE-device do a ATS request to the IOMMU which returns a valid translation for a virtual address. Device can then use that address directly without going through IOMMU for translation. ATS is implemented by the IOMMU not by the device (well device implement the client side of it). Also ATS is meaningless without something like PASID as far as i know. Cheers, Jérôme