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Signed-off-by: Stefan Weil <sw@weilnetz.de> Message-Id: <20211117210702.1393570-1-sw@weilnetz.de> Reviewed-by: Philippe Mathieu-Daudé <philmd@redhat.com> [thuth: "what's" --> "what is" as suggested by philmd] Signed-off-by: Thomas Huth <thuth@redhat.com>
256 lines
11 KiB
Plaintext
256 lines
11 KiB
Plaintext
Hyper-V Enlightenments
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======================
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1. Description
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===============
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In some cases when implementing a hardware interface in software is slow, KVM
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implements its own paravirtualized interfaces. This works well for Linux as
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guest support for such features is added simultaneously with the feature itself.
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It may, however, be hard-to-impossible to add support for these interfaces to
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proprietary OSes, namely, Microsoft Windows.
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KVM on x86 implements Hyper-V Enlightenments for Windows guests. These features
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make Windows and Hyper-V guests think they're running on top of a Hyper-V
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compatible hypervisor and use Hyper-V specific features.
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2. Setup
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=========
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No Hyper-V enlightenments are enabled by default by either KVM or QEMU. In
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QEMU, individual enlightenments can be enabled through CPU flags, e.g:
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qemu-system-x86_64 --enable-kvm --cpu host,hv_relaxed,hv_vpindex,hv_time, ...
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Sometimes there are dependencies between enlightenments, QEMU is supposed to
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check that the supplied configuration is sane.
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When any set of the Hyper-V enlightenments is enabled, QEMU changes hypervisor
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identification (CPUID 0x40000000..0x4000000A) to Hyper-V. KVM identification
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and features are kept in leaves 0x40000100..0x40000101.
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3. Existing enlightenments
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===========================
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3.1. hv-relaxed
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================
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This feature tells guest OS to disable watchdog timeouts as it is running on a
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hypervisor. It is known that some Windows versions will do this even when they
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see 'hypervisor' CPU flag.
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3.2. hv-vapic
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==============
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Provides so-called VP Assist page MSR to guest allowing it to work with APIC
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more efficiently. In particular, this enlightenment allows paravirtualized
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(exit-less) EOI processing.
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3.3. hv-spinlocks=xxx
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======================
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Enables paravirtualized spinlocks. The parameter indicates how many times
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spinlock acquisition should be attempted before indicating the situation to the
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hypervisor. A special value 0xffffffff indicates "never notify".
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3.4. hv-vpindex
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================
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Provides HV_X64_MSR_VP_INDEX (0x40000002) MSR to the guest which has Virtual
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processor index information. This enlightenment makes sense in conjunction with
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hv-synic, hv-stimer and other enlightenments which require the guest to know its
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Virtual Processor indices (e.g. when VP index needs to be passed in a
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hypercall).
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3.5. hv-runtime
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================
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Provides HV_X64_MSR_VP_RUNTIME (0x40000010) MSR to the guest. The MSR keeps the
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virtual processor run time in 100ns units. This gives guest operating system an
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idea of how much time was 'stolen' from it (when the virtual CPU was preempted
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to perform some other work).
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3.6. hv-crash
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==============
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Provides HV_X64_MSR_CRASH_P0..HV_X64_MSR_CRASH_P5 (0x40000100..0x40000105) and
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HV_X64_MSR_CRASH_CTL (0x40000105) MSRs to the guest. These MSRs are written to
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by the guest when it crashes, HV_X64_MSR_CRASH_P0..HV_X64_MSR_CRASH_P5 MSRs
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contain additional crash information. This information is outputted in QEMU log
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and through QAPI.
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Note: unlike under genuine Hyper-V, write to HV_X64_MSR_CRASH_CTL causes guest
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to shutdown. This effectively blocks crash dump generation by Windows.
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3.7. hv-time
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=============
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Enables two Hyper-V-specific clocksources available to the guest: MSR-based
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Hyper-V clocksource (HV_X64_MSR_TIME_REF_COUNT, 0x40000020) and Reference TSC
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page (enabled via MSR HV_X64_MSR_REFERENCE_TSC, 0x40000021). Both clocksources
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are per-guest, Reference TSC page clocksource allows for exit-less time stamp
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readings. Using this enlightenment leads to significant speedup of all timestamp
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related operations.
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3.8. hv-synic
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==============
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Enables Hyper-V Synthetic interrupt controller - an extension of a local APIC.
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When enabled, this enlightenment provides additional communication facilities
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to the guest: SynIC messages and Events. This is a pre-requisite for
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implementing VMBus devices (not yet in QEMU). Additionally, this enlightenment
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is needed to enable Hyper-V synthetic timers. SynIC is controlled through MSRs
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HV_X64_MSR_SCONTROL..HV_X64_MSR_EOM (0x40000080..0x40000084) and
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HV_X64_MSR_SINT0..HV_X64_MSR_SINT15 (0x40000090..0x4000009F)
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Requires: hv-vpindex
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3.9. hv-stimer
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===============
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Enables Hyper-V synthetic timers. There are four synthetic timers per virtual
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CPU controlled through HV_X64_MSR_STIMER0_CONFIG..HV_X64_MSR_STIMER3_COUNT
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(0x400000B0..0x400000B7) MSRs. These timers can work either in single-shot or
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periodic mode. It is known that certain Windows versions revert to using HPET
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(or even RTC when HPET is unavailable) extensively when this enlightenment is
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not provided; this can lead to significant CPU consumption, even when virtual
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CPU is idle.
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Requires: hv-vpindex, hv-synic, hv-time
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3.10. hv-tlbflush
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==================
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Enables paravirtualized TLB shoot-down mechanism. On x86 architecture, remote
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TLB flush procedure requires sending IPIs and waiting for other CPUs to perform
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local TLB flush. In virtualized environment some virtual CPUs may not even be
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scheduled at the time of the call and may not require flushing (or, flushing
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may be postponed until the virtual CPU is scheduled). hv-tlbflush enlightenment
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implements TLB shoot-down through hypervisor enabling the optimization.
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Requires: hv-vpindex
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3.11. hv-ipi
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=============
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Enables paravirtualized IPI send mechanism. HvCallSendSyntheticClusterIpi
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hypercall may target more than 64 virtual CPUs simultaneously, doing the same
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through APIC requires more than one access (and thus exit to the hypervisor).
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Requires: hv-vpindex
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3.12. hv-vendor-id=xxx
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=======================
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This changes Hyper-V identification in CPUID 0x40000000.EBX-EDX from the default
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"Microsoft Hv". The parameter should be no longer than 12 characters. According
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to the specification, guests shouldn't use this information and it is unknown
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if there is a Windows version which acts differently.
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Note: hv-vendor-id is not an enlightenment and thus doesn't enable Hyper-V
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identification when specified without some other enlightenment.
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3.13. hv-reset
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===============
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Provides HV_X64_MSR_RESET (0x40000003) MSR to the guest allowing it to reset
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itself by writing to it. Even when this MSR is enabled, it is not a recommended
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way for Windows to perform system reboot and thus it may not be used.
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3.14. hv-frequencies
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============================================
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Provides HV_X64_MSR_TSC_FREQUENCY (0x40000022) and HV_X64_MSR_APIC_FREQUENCY
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(0x40000023) allowing the guest to get its TSC/APIC frequencies without doing
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measurements.
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3.15 hv-reenlightenment
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========================
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The enlightenment is nested specific, it targets Hyper-V on KVM guests. When
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enabled, it provides HV_X64_MSR_REENLIGHTENMENT_CONTROL (0x40000106),
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HV_X64_MSR_TSC_EMULATION_CONTROL (0x40000107)and HV_X64_MSR_TSC_EMULATION_STATUS
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(0x40000108) MSRs allowing the guest to get notified when TSC frequency changes
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(only happens on migration) and keep using old frequency (through emulation in
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the hypervisor) until it is ready to switch to the new one. This, in conjunction
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with hv-frequencies, allows Hyper-V on KVM to pass stable clocksource (Reference
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TSC page) to its own guests.
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Note, KVM doesn't fully support re-enlightenment notifications and doesn't
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emulate TSC accesses after migration so 'tsc-frequency=' CPU option also has to
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be specified to make migration succeed. The destination host has to either have
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the same TSC frequency or support TSC scaling CPU feature.
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Recommended: hv-frequencies
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3.16. hv-evmcs
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===============
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The enlightenment is nested specific, it targets Hyper-V on KVM guests. When
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enabled, it provides Enlightened VMCS version 1 feature to the guest. The feature
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implements paravirtualized protocol between L0 (KVM) and L1 (Hyper-V)
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hypervisors making L2 exits to the hypervisor faster. The feature is Intel-only.
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Note: some virtualization features (e.g. Posted Interrupts) are disabled when
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hv-evmcs is enabled. It may make sense to measure your nested workload with and
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without the feature to find out if enabling it is beneficial.
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Requires: hv-vapic
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3.17. hv-stimer-direct
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=======================
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Hyper-V specification allows synthetic timer operation in two modes: "classic",
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when expiration event is delivered as SynIC message and "direct", when the event
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is delivered via normal interrupt. It is known that nested Hyper-V can only
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use synthetic timers in direct mode and thus 'hv-stimer-direct' needs to be
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enabled.
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Requires: hv-vpindex, hv-synic, hv-time, hv-stimer
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3.18. hv-avic (hv-apicv)
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=======================
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The enlightenment allows to use Hyper-V SynIC with hardware APICv/AVIC enabled.
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Normally, Hyper-V SynIC disables these hardware feature and suggests the guest
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to use paravirtualized AutoEOI feature.
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Note: enabling this feature on old hardware (without APICv/AVIC support) may
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have negative effect on guest's performance.
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3.19. hv-no-nonarch-coresharing=on/off/auto
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===========================================
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This enlightenment tells guest OS that virtual processors will never share a
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physical core unless they are reported as sibling SMT threads. This information
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is required by Windows and Hyper-V guests to properly mitigate SMT related CPU
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vulnerabilities.
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When the option is set to 'auto' QEMU will enable the feature only when KVM
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reports that non-architectural coresharing is impossible, this means that
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hyper-threading is not supported or completely disabled on the host. This
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setting also prevents migration as SMT settings on the destination may differ.
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When the option is set to 'on' QEMU will always enable the feature, regardless
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of host setup. To keep guests secure, this can only be used in conjunction with
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exposing correct vCPU topology and vCPU pinning.
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3.20. hv-version-id-{build,major,minor,spack,sbranch,snumber}
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=============================================================
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This changes Hyper-V version identification in CPUID 0x40000002.EAX-EDX from the
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default (WS2016).
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- hv-version-id-build sets 'Build Number' (32 bits)
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- hv-version-id-major sets 'Major Version' (16 bits)
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- hv-version-id-minor sets 'Minor Version' (16 bits)
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- hv-version-id-spack sets 'Service Pack' (32 bits)
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- hv-version-id-sbranch sets 'Service Branch' (8 bits)
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- hv-version-id-snumber sets 'Service Number' (24 bits)
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Note: hv-version-id-* are not enlightenments and thus don't enable Hyper-V
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identification when specified without any other enlightenments.
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4. Supplementary features
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=========================
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4.1. hv-passthrough
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===================
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In some cases (e.g. during development) it may make sense to use QEMU in
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'pass-through' mode and give Windows guests all enlightenments currently
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supported by KVM. This pass-through mode is enabled by "hv-passthrough" CPU
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flag.
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Note: "hv-passthrough" flag only enables enlightenments which are known to QEMU
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(have corresponding "hv-*" flag) and copies "hv-spinlocks="/"hv-vendor-id="
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values from KVM to QEMU. "hv-passthrough" overrides all other "hv-*" settings on
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the command line. Also, enabling this flag effectively prevents migration as the
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list of enabled enlightenments may differ between target and destination hosts.
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4.2. hv-enforce-cpuid
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=====================
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By default, KVM allows the guest to use all currently supported Hyper-V
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enlightenments when Hyper-V CPUID interface was exposed, regardless of if
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some features were not announced in guest visible CPUIDs. 'hv-enforce-cpuid'
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feature alters this behavior and only allows the guest to use exposed Hyper-V
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enlightenments.
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5. Useful links
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================
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Hyper-V Top Level Functional specification and other information:
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https://github.com/MicrosoftDocs/Virtualization-Documentation
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