On Wed, Sep 15, 2021 at 10:45:36AM +0300, Oded Gabbay wrote: > On Tue, Sep 14, 2021 at 7:12 PM Jason Gunthorpe <jgg@xxxxxxxx> wrote: > > > > On Tue, Sep 14, 2021 at 04:18:31PM +0200, Daniel Vetter wrote: > > > On Sun, Sep 12, 2021 at 07:53:07PM +0300, Oded Gabbay wrote: > > > > Hi, > > > > Re-sending this patch-set following the release of our user-space TPC > > > > compiler and runtime library. > > > > > > > > I would appreciate a review on this. > > > > > > I think the big open we have is the entire revoke discussions. Having the > > > option to let dma-buf hang around which map to random local memory ranges, > > > without clear ownership link and a way to kill it sounds bad to me. > > > > > > I think there's a few options: > > > - We require revoke support. But I've heard rdma really doesn't like that, > > > I guess because taking out an MR while holding the dma_resv_lock would > > > be an inversion, so can't be done. Jason, can you recap what exactly the > > > hold-up was again that makes this a no-go? > > > > RDMA HW can't do revoke. Like why? I'm assuming when the final open handle or whatever for that MR is closed, you do clean up everything? Or does that MR still stick around forever too? > > So we have to exclude almost all the HW and several interesting use > > cases to enable a revoke operation. > > > > > - For non-revokable things like these dma-buf we'd keep a drm_master > > > reference around. This would prevent the next open to acquire > > > ownership rights, which at least prevents all the nasty potential > > > problems. > > > > This is what I generally would expect, the DMABUF FD and its DMA > > memory just floats about until the unrevokable user releases it, which > > happens when the FD that is driving the import eventually gets closed. > This is exactly what we are doing in the driver. We make sure > everything is valid until the unrevokable user releases it and that > happens only when the dmabuf fd gets closed. > And the user can't close it's fd of the device until he performs the > above, so there is no leakage between users. Maybe I got the device security model all wrong, but I thought Guadi is single user, and the only thing it protects is the system against the Gaudi device trhough iommu/device gart. So roughly the following can happen: 1. User A opens gaudi device, sets up dma-buf export 2. User A registers that with RDMA, or anything else that doesn't support revoke. 3. User A closes gaudi device 4. User B opens gaudi device, assumes that it has full control over the device and uploads some secrets, which happen to end up in the dma-buf region user A set up 5. User B extracts secrets. > > I still don't think any of the complexity is needed, pinnable memory > > is a thing in Linux, just account for it in mlocked and that is > > enough. It's not mlocked memory, it's mlocked memory and I can exfiltrate it. Mlock is fine, exfiltration not so much. It's mlock, but a global pool and if you didn't munlock then the next mlock from a completely different user will alias with your stuff. Or is there something that prevents that? Oded at least explain that gaudi works like a gpu from 20 years ago, single user, no security at all within the device. -Daniel -- Daniel Vetter Software Engineer, Intel Corporation http://blog.ffwll.ch