Peter Maydell
2021-Dec-13 16:06 UTC
Libvirt on little.BIG ARM systems unable to start guest if no cpuset is provided
KVM on big.little setups is a kernel-level question really; I've cc'd the kvmarm list. On Mon, 13 Dec 2021 at 15:02, Qu Wenruo <quwenruo.btrfs at gmx.com> wrote:> > > > On 2021/12/13 21:17, Michal Pr?vozn?k wrote: > > On 12/11/21 02:58, Qu Wenruo wrote: > >> Hi, > >> > >> Recently I got my libvirt setup on both RK3399 (RockPro64) and RPI CM4, > >> with upstream kernels. > >> > >> For RPI CM4 its mostly smooth sail, but on RK3399 due to its little.BIG > >> setup (core 0-3 are 4x A55 cores, and core 4-5 are 2x A72 cores), it > >> brings quite some troubles for VMs. > >> > >> In short, without proper cpuset to bind the VM to either all A72 cores > >> or all A55 cores, the VM will mostly fail to boot. > >> > >> Currently the working xml is: > >> > >> <vcpu placement='static' cpuset='4-5'>2</vcpu> > >> <cpu mode='host-passthrough' check='none'/> > >> > >> But even with vcpupin, pinning each vcpu to each physical core, VM will > >> mostly fail to start up due to vcpu initialization failed with -EINVAL. > >> > >> > >> This brings a problem, in theory RK3399 SoC should out-perform BCM2711 > >> in multi-core performance, but if a VM can only be bind to either A72 or > >> A55 cores, then the performance is no longer competitive against > >> BCM2711, wasting the PCIE 2.0 x4 capacity. > >> > >> I guess with projects like Asahi Linux making progress, there will be > >> more and more such problems. > >> > >> Any clue on how to properly pass all physical CPU cores to VM for > >> little.BIG setup? > >> > > > > I have never met big.LITTLE but my understanding was that those big > > cores are compatible with little ones and the only difference is that > > the big ones are shut off if there's no demand (to save energy) leaving > > only the little ones running. > > The big ones are not disabled AFAIK. > > And even changing the CPU model to A53 (the little ones), it still fails > to boot, thus it looks like A72 is not really able to emulate A53 cores? > > > > > Anyway, this is likely too high level forum and I'd ask QEMU developers: > > > > https://www.qemu.org/support/ > > That's indeed the case, adding qemu to the CC list. > > And I found an existing bug report: > https://bugs.linaro.org/show_bug.cgi?id=1443(This bug tracking system was essentially abandoned years ago; the status of leftover bugs within it isn't indicative of anything.)> But I still didn't get the point why the 1:1 CPU-to-vcpu mapping still > doesn't work.-- PMM
Marc Zyngier
2021-Dec-13 16:49 UTC
Libvirt on little.BIG ARM systems unable to start guest if no cpuset is provided
On Mon, 13 Dec 2021 16:06:14 +0000, Peter Maydell <peter.maydell at linaro.org> wrote:> > KVM on big.little setups is a kernel-level question really; I've > cc'd the kvmarm list.Thanks Peter for throwing us under the big-little bus! ;-)> > On Mon, 13 Dec 2021 at 15:02, Qu Wenruo <quwenruo.btrfs at gmx.com> wrote: > > > > > > > > On 2021/12/13 21:17, Michal Pr?vozn?k wrote: > > > On 12/11/21 02:58, Qu Wenruo wrote: > > >> Hi, > > >> > > >> Recently I got my libvirt setup on both RK3399 (RockPro64) and RPI CM4, > > >> with upstream kernels. > > >> > > >> For RPI CM4 its mostly smooth sail, but on RK3399 due to its little.BIG > > >> setup (core 0-3 are 4x A55 cores, and core 4-5 are 2x A72 cores), it > > >> brings quite some troubles for VMs. > > >> > > >> In short, without proper cpuset to bind the VM to either all A72 cores > > >> or all A55 cores, the VM will mostly fail to boot.s/A55/A53/. There were thankfully no A72+A55 ever produced (just the though of it makes me sick).> > >> > > >> Currently the working xml is: > > >> > > >> <vcpu placement='static' cpuset='4-5'>2</vcpu> > > >> <cpu mode='host-passthrough' check='none'/> > > >> > > >> But even with vcpupin, pinning each vcpu to each physical core, VM will > > >> mostly fail to start up due to vcpu initialization failed with -EINVAL.Disclaimer: I know nothing about libvirt (and no, I don't want to know! ;-). However, for things to be reliable, you need to taskset the whole QEMU process to the CPU type you intend to use. That's because, AFAICT, QEMU will snapshot the system registers outside of the vcpu threads, and attempt to use the result to configure the actual vcpu threads. If they happen to run on different CPU types, the sysregs will differ in incompatible ways and an error will be returned. This may or may not be a bug, I don't know (I see it as a feature). If you are annoyed with this behaviour, you can always use a different VMM that won't care about such difference (crosvm or kvmtool, to name a few). However, the guest will be able to observe the migration from one cpu type to another. This may or may not affect your guest's behaviour. I personally find the QEMU behaviour reasonable. KVM/arm64 make little effort to support BL virtualisation as design choice (I value my sanity), and userspace is still in control of the placement.> > >> This brings a problem, in theory RK3399 SoC should out-perform BCM2711 > > >> in multi-core performance, but if a VM can only be bind to either A72 or > > >> A55 cores, then the performance is no longer competitive against > > >> BCM2711, wasting the PCIE 2.0 x4 capacity.Vote with your money. If you too think that BL systems are utter crap, do not buy them! Or treat them as 'two systems in one', which is what I do. From that angle, this is of great value! ;-)> > >> I guess with projects like Asahi Linux making progress, there will be > > >> more and more such problems.Well, not more than any other big-little system. They suffer from similar issues, plus those resulting from not fully implementing the ARM architecture. They are however more consistent in their feature set than the ARM implementations ever were.> > >> > > >> Any clue on how to properly pass all physical CPU cores to VM for > > >> little.BIG setup? > > >> > > > > > > I have never met big.LITTLE but my understanding was that those big > > > cores are compatible with little ones and the only difference is that > > > the big ones are shut off if there's no demand (to save energy) leaving > > > only the little ones running.No. They are all notionally running. It is the scheduler that places tasks (such as a vcpu) on a 'convenient' core, where 'convenient' depends on the scheduling policy. HTH, M. -- Without deviation from the norm, progress is not possible.