On Tue, 07 Sep 2021 17:30:33 +0100, Oliver Upton <oupton@xxxxxxxxxx> wrote: > > On Mon, Sep 6, 2021 at 4:12 AM Marc Zyngier <maz@xxxxxxxxxx> wrote: > > > > Hi Oliver, > > > > On Thu, 19 Aug 2021 23:36:34 +0100, > > Oliver Upton <oupton@xxxxxxxxxx> wrote: > > > > > > Certain VMMs/operators may wish to give their guests the ability to > > > initiate a system suspend that could result in the VM being saved to > > > persistent storage to be resumed at a later time. The PSCI v1.0 > > > specification describes an SMC, SYSTEM_SUSPEND, that allows a kernel to > > > request a system suspend. This call is optional for v1.0, and KVM > > > elected to not support the call in its v1.0 implementation. > > > > > > This series adds support for the SYSTEM_SUSPEND PSCI call to KVM/arm64. > > > Since this is a system-scoped event, KVM cannot quiesce the VM on its > > > own. We add a new system exit type in this series to clue in userspace > > > that a suspend was requested. Per the KVM_EXIT_SYSTEM_EVENT ABI, a VMM > > > that doesn't care about this event can simply resume the guest without > > > issue (we set up the calling vCPU to come out of reset correctly on next > > > KVM_RUN). > > > > More idle thoughts on this: > > > > Although the definition of SYSTEM_SUSPEND is very simple from a PSCI > > perspective, I don't think it is that simple at the system level, > > because PSCI is only concerned with the CPU. > > > > For example, what is a wake-up event? My first approach would be to > > consider interrupts to be such events. However, this approach suffers > > from at least two issues: > > > > - How do you define which interrupts are actual wake-up events? > > Nothing in the GIC architecture defines what a wake-up is (let alone > > a wake-up event). > > Good point. > > One possible implementation of suspend could just be a `WFI` in a > higher EL. In this case, KVM could emulate WFI wake up events > according to D1.16.2 in DDI 0487G.a. But I agree, it isn't entirely > clear what constitutes a wakeup from powered down state. It isn't, and it is actually IMPDEF (there isn't much in the ARM ARM in terms of what constitutes a low power state). And even if you wanted to emulate a WFI in userspace, the problem of interrupts that have their source in the kernel remains. How to you tell userspace that such an event has occurred if the vcpu thread isn't in the kernel? > > > - Assuming you have a way to express the above, how do you handle > > wake-ups from interrupts that have their source in the kernel (such > > as timers, irqfd sources)? > > I think this could be handled, so long as we allow userspace to > indicate it has woken a vCPU. Depending on this, in the next KVM_RUN > we'd say: > > - Some IMP DEF event occurred; I'm waking this CPU now I'm seeing the problem from the other side. The vcpu has exited to userspace on a SUSPEND event. How is the kernel supposed to tell userspace that there is a pending interrupt? To do that, you'd have to keep the vcpu in the kernel on SUSPEND. Which is *exactly* WFI. > - I've either chosen to ignore the guest or will defer to KVM's > suspend implementation > > > How do you cope with directly injected interrupts? > > No expert on this, I'll need to do a bit more reading to give a good > answer here. > > > It looks to me that your implementation can only work with userspace > > provided events, which is pretty limited. > > Right. I implemented this from the mindset that userspace may do > something heavyweight when a guest suspends, like save it to a > persistent store to resume later on. No matter what we do in KVM, I > think it's probably best to give userspace the right of first refusal > to handle the suspension. Maybe. But if you want to handle wake-up from interrupts to actually work, you must return to the kernel for the wake-up to occurs. The problem is that you piggyback on an existing feature (suspend) to implement something else (opportunistic save/restore?). Oddly enough the stars don't exactly align! ;-) I have the feeling that a solution to this problem would be to exit to userspace with something indicating an *intent* to suspend. At this stage, userspace can do two things: - resume the guest: the guest may have been moved to some other machine, cold storage, whatever... The important thing is that the guest is directly runnable without any extra event - confirm the suspension by returning to the kernel, which will execute a blocking WFI on behalf of the guest With this, you end-up with something that is works from an interrupt perspective (even for directly injected interrupts), and you can save your guest on suspend. > > > Other items worth considering: ongoing DMA, state of the caches at > > suspend time, device state in general All of this really needs to be > > defined before we can move forward with this feature. > > I believe it is largely up to the caller to get devices in a quiesced > state appropriate for a system suspend, but PSCI is delightfully vague > on this topic. Indeed, it only deals with the CPU. Oh look, another opportunity to write a new spec! :) > On the contrary, it is up to KVM's implementation to > guarantee caches are clean when servicing the guest request. This last point is pretty unclear to me. If the guest doesn't clean to the PoC (or even to one of the PoPs) when it calls into suspend, that's a clear indication that it doesn't care about its data. Why should KVM be more conservative here? It shouldn't be in the business of working around guest bugs. Thanks, M. -- Without deviation from the norm, progress is not possible. _______________________________________________ kvmarm mailing list kvmarm@xxxxxxxxxxxxxxxxxxxxx https://lists.cs.columbia.edu/mailman/listinfo/kvmarm