+Jeremi
On Fri, Apr 14, 2023, Mathias Krause wrote:
On 06.04.23 15:22, Mathias Krause wrote:
On 06.04.23 04:25, Sean Christopherson wrote:
These are quite risky to backport. E.g. we botched patch 6[*], and my initial fix also had a subtle bug. There have also been quite a few KVM MMU changes since 5.4, so it's possible that an edge case may exist in 5.4 that doesn't exist in mainline.
I totally agree. Getting the changes to work with older kernels needs more work. The MMU role handling was refactored in 5.14 and down to 5.4 it differs even more, so backports to earlier kernels definitely needs more care.
My plan would be to limit backporting of the whole series to kernels down to 5.15 (maybe 5.10 if it turns out to be doable) and for kernels before that only without patch 6. That would leave out the problematic change but still give us the benefits of dropping the needless mmu unloads for only toggling CR0.WP in the VM. This already helps us a lot!
To back up the "helps us a lot" with some numbers, here are the results I got from running the 'ssdd 10 50000' micro-benchmark on the backports I did, running on a grsecurity L1 VM (host is a vanilla kernel, as stated below; runtime in seconds, lower is better):
legacy TDP shadow Linux v5.4.240 - 8.87s 56.8s + patches - 5.84s 55.4s
I believe "legacy" and "TDP" are flip-flopped, the TDP MMU does't exist in v5.4.
Linux v5.10.177 10.37s 88.7s 69.7s + patches 4.88s 4.92s 70.1s Linux v5.15.106 9.94s 66.1s 64.9s + patches 4.81s 4.79s 64.6s Linux v6.1.23 7.65s 8.23s 68.7s + patches 3.36s 3.36s 69.1s Linux v6.2.10 7.61s 7.98s 68.6s + patches 3.37s 3.41s 70.2s
I guess we can grossly ignore the shadow MMU numbers, beside noting them to regress from v5.4 to v5.10 (something to investigate?). The backports don't help (much) for shadow MMU setups and the flux in the measurements is likely related to the slab allocations involved.
Another unrelated data point is that TDP MMU is really broken for our use case on v5.10 and v5.15 -- it's even slower that shadow paging!
OTOH, the backports give nice speed-ups, ranging from ~2.2 times faster for pure EPT (legacy) MMU setups up to 18(!!!) times faster for TDP MMU on v5.10.
Anyone that's enabling the TDP MMU on v5.10 is on their own, we didn't enable the TDP MMU by default until v5.14 for very good reasons.
I backported the whole series down to v5.10 but left out the CR0.WP guest owning patch+fix for v5.4 as the code base is too different to get all the nuances right, as Sean already hinted. However, even this limited backport provides a big performance fix for our use case!
As a compromise of sorts, I propose that we disable the TDP MMU by default on v5.15, and backport these fixes to v6.1. v5.15 and earlier won't get "ludicrous speed", but I think that's perfectly acceptable since KVM has had the suboptimal behavior literally since EPT/NPT support was first added.
I'm comfortable backporting to v6.1 as that is recent enough, and there weren't substantial MMU changes between v6.1 and v6.3 in this area. I.e. I have a decent level of confidence that we aren't overlooking some subtle dependency.
For v5.15, I am less confident in the safety of a backport, and more importantly, I think we should disable the TDP MMU by default to mitigate the underlying flaw that makes the 18x speedup possible. That flaw is that KVM can end up freeing and rebuilding TDP MMU roots every time CR0.WP is toggled or a vCPU transitions to/from SMM.
We mitigated the CR0.WP case between v5.15 and v6.1[1], which is why v6.1 doesn't exhibit the same pain as v5.10, but Jeremi discovered that the SMM case badly affects KVM-on-HyperV[2], e.g. when lauching KVM guests using WSL. I posted a fix[3] to finally resolve the underlying bug, but as Jeremi discovered[4], backporting the fix to v5.15 is going to be gnarly, to say the least. It'll be far worse than backporting these CR0.WP patches, and maybe even infeasible without a large scale rework (no thanks).
Anyone that will realize meaningful benefits from the TDP MMU is all but guaranteed to be rolling their own kernels, i.e. can do the backports themselves if they want to use a v5.15 based kernel. The big selling point of the TDP MMU is that it scales better to hundreds of vCPUs, particularly when live migrating such VMs. I highly doubt that anyone running a stock kernel is running 100+ vCPU VMs, let alone trying to live migrate them.
[1] https://lkml.kernel.org/r/20220209170020.1775368-1-pbonzini%40redhat.com [2] https://lore.kernel.org/all/959c5bce-beb5-b463-7158-33fc4a4f910c@linux.micro... [3] https://lore.kernel.org/all/20230413231251.1481410-1-seanjc@google.com [4] https://lore.kernel.org/all/7332d846-fada-eb5c-6068-18ff267bd37f@linux.micro...