[PATCH v4 15/19] arm/arm64: KVM: add virtual GICv3 distributor emulation

Wed Dec 3 02:30:56 PST 2014

On Tue, Dec 02, 2014 at 05:32:45PM +0000, Andre Przywara wrote:
> On 02/12/14 17:06, Marc Zyngier wrote:
> > On 02/12/14 16:24, Andre Przywara wrote:
> >> Hej Christoffer,
> >>
> >> On 30/11/14 08:30, Christoffer Dall wrote:
> >>> On Fri, Nov 28, 2014 at 03:24:11PM +0000, Andre Przywara wrote:
> >>>> Hej Christoffer,
> >>>>
> >>>> On 25/11/14 10:41, Christoffer Dall wrote:
> >>>>> Hi Andre,
> >>>>>
> >>>>> On Mon, Nov 24, 2014 at 04:00:46PM +0000, Andre Przywara wrote:
> >>>>>
> >>>>
> >>
> >> [...]
> >>
> >>>>>>>> +
> >>>>>>>> +     if (!is_in_range(mmio->phys_addr, mmio->len, rdbase,
> >>>>>>>> +         GIC_V3_REDIST_SIZE * nrcpus))
> >>>>>>>> +             return false;
> >>>>>>>
> >>>>>>> Did you think more about the contiguous allocation issue here or can you
> >>>>>>> give me a pointer to the requirement in the spec?
> >>>>>>
> >>>>>> 5.4.1 Re-Distributor Addressing
> >>>>>>
> >>>>>
> >>>>> Section 5.4.1 talks about the pages within a single re-distributor having
> >>>>> to be contiguous, not all the re-deistributor regions having to be
> >>>>> contiguous, right?
> >>>>
> >>>> Ah yes, you are right. But I still think it does not matter:
> >>>> 1) We are "implementing" the GICv3. So as the spec does not forbid this,
> >>>> we just state that the redistributor register maps for each VCPU are
> >>>> contiguous. Also we create the FDT accordingly. I will add a comment in
> >>>> the documentation to state this.
> >>>>
> >>>> 2) The kernel's GICv3 DT bindings assume this allocation is the default.
> >>>> Although Marc added bindings to work around this (stride), it seems much
> >>>> more logical to me to not use it.
> >>>
> >>> I don't disagree (and never have) with the fact that it is up to us to
> >>> decide.
> >>>
> >>> My original question, which we haven't talked about yet, is if it is
> >>> *reasonable* to assume that all re-distributor regions will always be
> >>> contiguous?
> >>>
> >>> How will you handle VCPU hotplug for example?
> >>
> >> As kvmtool does not support hotplug, I haven't thought about this yet.
> >> To me it looks like userland should just use maxcpus for the allocation.
> >> If I get the current QEMU code right, there is room for 127 GICv3 VCPUs
> >> (2*64K per VCPU + 64K for the distributor in 16M space) at the moment.
> >> Kvmtool uses a different mapping, which allows to share 1G with virtio,
> >> so the limit is around 8000ish VCPUs here.
> >> Are there any issues with changing the QEMU virt mapping later?
> >> Migration, maybe?
> >> If the UART, the RTC and the virtio regions are moved more towards the
> >> beginning of the 256MB PCI mapping, then there should be space for a bit
> >> less than 1024 VCPUs, if I get this right.
> >>
> >>> Where in the guest
> >>> physical memory map of our various virt machines should these regions
> >>> sit so that we can allocate anough re-distributors for VCPUs etc.?
> >>
> >> Various? Are there other mappings than those described in hw/arm/virt.c?
> >>
> >>> I just want to make sure we're not limiting ourselves by some amount of
> >>> functionality or ABI (redistributor base addresses) that will be hard to
> >>> expand in the future.
> >>
> >> If we are flexible with the mapping at VM creation time, QEMU could just
> >> use a mapping depending on max_cpus:
> >> < 128 VCPUs: use the current mapping
> >> 128 <= x < 1020: use a more compressed mapping
> >>> = 1020: map the redistributor somewhere above 4 GB
> >>
> >> As the device tree binding for GICv3 just supports a stride value, we
> >> don't have any other real options beside this, right? So how I see this,
> >> a contiguous mapping (with possible holes) is the only way.
> > 
> > Not really. The GICv3 binding definitely supports having several regions
> > for the redistributors (see the binding documentation). This allows for
> > the pathological case where you have N regions for N CPUs. Not that we
> > ever want to go there, really.
> 
> Ah yes, thanks for pointing that out. I was mixing this up with the
> stride parameter, which is independent of this. Sorry for that.
> 
> So from a userland point of view we probably would like to have the
> first n VCPU's redistributors mapped at their current places and allow
> for more VCPUs to use memory above 4 GB.
> Which would require quite some changes to the code to support this in a
> very flexible way. I think this could be much easier if we confine
> ourselves to two regions (one contiguous lower (< 4 GB) and one
> contiguous upper region (>4 GB)), so we don't need to support arbitrary
> per VCPU addresses, but could just use the 1st or 2nd map depending on
> the VCPU number.
> Is this too hackish?
> If not, I would add another vgic_addr type (like
> KVM_VGIC_V3_ADDR_TYPE_REDIST_UPPER or so) to be used from userland and
> use that in the handle_mmio region detection.
> Let me know if that sounds reasonable.
> 
The point that I've been trying to make sure we think about is if we'll
regret not being able to fragment the redistributor regions a bit.  Even
if it's technically possible, we may regret requiring a huge contigous
allocation in the guest physical address space.  But maybe we don't care
when we have 40 bits to play with?

-Christoffer