Re: [PATCH 1/9] KVM: arm64: Document PV-time interface

From: Marc Zyngier
Date: Sat Aug 03 2019 - 07:14:04 EST


On Fri, 2 Aug 2019 15:50:09 +0100
Steven Price <steven.price@xxxxxxx> wrote:

[+Peter for the userspace aspect of things]

Hi Steve,

> Introduce a paravirtualization interface for KVM/arm64 based on the
> "Arm Paravirtualized Time for Arm-Base Systems" specification DEN 0057A.
>
> This only adds the details about "Stolen Time" as the details of "Live
> Physical Time" have not been fully agreed.
>
> User space can specify a reserved area of memory for the guest and
> inform KVM to populate the memory with information on time that the host
> kernel has stolen from the guest.
>
> A hypercall interface is provided for the guest to interrogate the
> hypervisor's support for this interface and the location of the shared
> memory structures.
>
> Signed-off-by: Steven Price <steven.price@xxxxxxx>
> ---
> Documentation/virtual/kvm/arm/pvtime.txt | 107 +++++++++++++++++++++++
> 1 file changed, 107 insertions(+)
> create mode 100644 Documentation/virtual/kvm/arm/pvtime.txt
>
> diff --git a/Documentation/virtual/kvm/arm/pvtime.txt b/Documentation/virtual/kvm/arm/pvtime.txt
> new file mode 100644
> index 000000000000..e6ae9799e1d5
> --- /dev/null
> +++ b/Documentation/virtual/kvm/arm/pvtime.txt
> @@ -0,0 +1,107 @@
> +Paravirtualized time support for arm64
> +======================================
> +
> +Arm specification DEN0057/A defined a standard for paravirtualised time
> +support for Aarch64 guests:

nit: AArch64

> +
> +https://developer.arm.com/docs/den0057/a

Between this file and the above document, which one is authoritative?

> +
> +KVM/Arm64 implements the stolen time part of this specification by providing

nit: KVM/arm64

> +some hypervisor service calls to support a paravirtualized guest obtaining a
> +view of the amount of time stolen from its execution.
> +
> +Two new SMCCC compatible hypercalls are defined:
> +
> +PV_FEATURES 0xC5000020
> +PV_TIME_ST 0xC5000022
> +
> +These are only available in the SMC64/HVC64 calling convention as
> +paravirtualized time is not available to 32 bit Arm guests.
> +
> +PV_FEATURES
> + Function ID: (uint32) : 0xC5000020
> + PV_func_id: (uint32) : Either PV_TIME_LPT or PV_TIME_ST
> + Return value: (int32) : NOT_SUPPORTED (-1) or SUCCESS (0) if the relevant
> + PV-time feature is supported by the hypervisor.

How is PV_FEATURES discovered? Is the intention to make it a generic
ARM-wide PV discovery mechanism, not specific to PV time?

> +
> +PV_TIME_ST
> + Function ID: (uint32) : 0xC5000022
> + Return value: (int64) : IPA of the stolen time data structure for this
> + (V)CPU. On failure:
> + NOT_SUPPORTED (-1)
> +

Is the size implicit? What are the memory attributes? This either needs
documenting here, or point to the right bit to the spec.

> +Stolen Time
> +-----------
> +
> +The structure pointed to by the PV_TIME_ST hypercall is as follows:
> +
> + Field | Byte Length | Byte Offset | Description
> + ----------- | ----------- | ----------- | --------------------------
> + Revision | 4 | 0 | Must be 0 for version 0.1
> + Attributes | 4 | 4 | Must be 0
> + Stolen time | 8 | 8 | Stolen time in unsigned
> + | | | nanoseconds indicating how
> + | | | much time this VCPU thread
> + | | | was involuntarily not
> + | | | running on a physical CPU.
> +
> +The structure will be updated by the hypervisor periodically as time is stolen

Is it really periodic? If so, when is the update frequency?

> +from the VCPU. It will be present within a reserved region of the normal
> +memory given to the guest. The guest should not attempt to write into this
> +memory. There is a structure by VCPU of the guest.

What if the vcpu writes to it? Does it get a fault? If there is a
structure per vcpu, what is the layout in memory? How does a vcpu find
its own data structure? Is that the address returned by PV_TIME_ST?

> +
> +User space interface
> +====================
> +
> +User space can request that KVM provide the paravirtualized time interface to
> +a guest by creating a KVM_DEV_TYPE_ARM_PV_TIME device, for example:
> +
> + struct kvm_create_device pvtime_device = {
> + .type = KVM_DEV_TYPE_ARM_PV_TIME,
> + .attr = 0,
> + .flags = 0,
> + };
> +
> + pvtime_fd = ioctl(vm_fd, KVM_CREATE_DEVICE, &pvtime_device);
> +
> +The guest IPA of the structures must be given to KVM. This is the base address

nit: s/guest //

> +of an array of stolen time structures (one for each VCPU). For example:
> +
> + struct kvm_device_attr st_base = {
> + .group = KVM_DEV_ARM_PV_TIME_PADDR,
> + .attr = KVM_DEV_ARM_PV_TIME_ST,
> + .addr = (u64)(unsigned long)&st_paddr
> + };
> +
> + ioctl(pvtime_fd, KVM_SET_DEVICE_ATTR, &st_base);

So the allocation itself is performed by the kernel? What are the
ordering requirements between creating vcpus and the device? What are
the alignment requirements for the base address?

> +
> +For migration (or save/restore) of a guest it is necessary to save the contents
> +of the shared page(s) and later restore them. KVM_DEV_ARM_PV_TIME_STATE_SIZE
> +provides the size of this data and KVM_DEV_ARM_PV_TIME_STATE allows the state
> +to be read/written.

Is the size variable depending on the number of vcpus?

> +
> +It is also necessary for the physical address to be set identically when
> +restoring.
> +
> + void *save_state(int fd, u64 attr, u32 *size) {
> + struct kvm_device_attr get_size = {
> + .group = KVM_DEV_ARM_PV_TIME_STATE_SIZE,
> + .attr = attr,
> + .addr = (u64)(unsigned long)size
> + };
> +
> + ioctl(fd, KVM_GET_DEVICE_ATTR, get_size);
> +
> + void *buffer = malloc(*size);
> +
> + struct kvm_device_attr get_state = {
> + .group = KVM_DEV_ARM_PV_TIME_STATE,
> + .attr = attr,
> + .addr = (u64)(unsigned long)size
> + };
> +
> + ioctl(fd, KVM_GET_DEVICE_ATTR, buffer);
> + }
> +
> + void *st_state = save_state(pvtime_fd, KVM_DEV_ARM_PV_TIME_ST, &st_size);
> +

Thanks,

M.
--
Without deviation from the norm, progress is not possible.