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SubjectRe: [PATCH v9 0/9] IPI virtualization support for VM
From
Kindly PING!

Thanks for your time.
BR,
Zeng Guang

On 4/19/2022 11:31 PM, Zeng, Guang wrote:
> Currently, issuing an IPI except self-ipi in guest on Intel CPU
> always causes a VM-exit. It can lead to non-negligible overhead
> to some workloads involving frequent IPIs when running in VMs.
>
> IPI virtualization is a new VT-x feature, targeting to eliminate
> VM-exits on source vCPUs when issuing unicast, physical-addressing
> IPIs. Once it is enabled, the processor virtualizes following kinds
> of operations that send IPIs without causing VM-exits:
> - Memory-mapped ICR writes
> - MSR-mapped ICR writes
> - SENDUIPI execution
>
> This patch series implements IPI virtualization support in KVM.
>
> Patches 1-4 add tertiary processor-based VM-execution support
> framework, which is used to enumerate IPI virtualization.
>
> Patch 5 handles APIC-write VM exit due to writes to ICR MSR when
> guest works in x2APIC mode. This is a new case introduced by
> Intel VT-x.
>
> Patch 6 cleanup code in vmx_refresh_apicv_exec_ctrl(). Prepare for
> IPIv status dynamical update along with APICv status change.
>
> Patch 7 move kvm_arch_vcpu_precreate() under kvm->lock protection.
> This patch is prepared for IPIv PID-table allocation prior to
> the creation of vCPUs.
>
> Patch 8 provide userspace capability to set maximum possible VCPU
> ID for current VM. IPIv can refer to this value to allocate memory
> for PID-pointer table.
>
> Patch 9 implements IPI virtualization related function including
> feature enabling through tertiary processor-based VM-execution in
> various scenarios of VMCS configuration, PID table setup in vCPU
> creation and vCPU block consideration.
>
> Document for IPI virtualization is now available at the latest "Intel
> Architecture Instruction Set Extensions Programming Reference".
>
> Document Link:
> https://software.intel.com/content/www/us/en/develop/download/intel-architecture-instruction-set-extensions-programming-reference.html
>
> We did experiment to measure average time sending IPI from source vCPU
> to the target vCPU completing the IPI handling by kvm unittest w/ and
> w/o IPI virtualization. When IPI virtualization enabled, it will reduce
> 22.21% and 15.98% cycles consuming in xAPIC mode and x2APIC mode
> respectively.
> --------------------------------------
> KVM unittest:vmexit/ipi
>
> 2 vCPU, AP was modified to run in idle loop instead of halt to ensure
> no VM exit impact on target vCPU.
>
> Cycles of IPI
> xAPIC mode x2APIC mode
> test w/o IPIv w/ IPIv w/o IPIv w/ IPIv
> 1 6106 4816 4265 3768
> 2 6244 4656 4404 3546
> 3 6165 4658 4233 3474
> 4 5992 4710 4363 3430
> 5 6083 4741 4215 3551
> 6 6238 4904 4304 3547
> 7 6164 4617 4263 3709
> 8 5984 4763 4518 3779
> 9 5931 4712 4645 3667
> 10 5955 4530 4332 3724
> 11 5897 4673 4283 3569
> 12 6140 4794 4178 3598
> 13 6183 4728 4363 3628
> 14 5991 4994 4509 3842
> 15 5866 4665 4520 3739
> 16 6032 4654 4229 3701
> 17 6050 4653 4185 3726
> 18 6004 4792 4319 3746
> 19 5961 4626 4196 3392
> 20 6194 4576 4433 3760
>
> Average cycles 6059 4713.1 4337.85 3644.8
> %Reduction -22.21% -15.98%
>
> --------------------------------------
> IPI microbenchmark:
> (https://lore.kernel.org/kvm/20171219085010.4081-1-ynorov@caviumnetworks.com)
>
> 2 vCPUs, 1:1 pin vCPU to pCPU, guest VM runs with idle=poll, x2APIC mode
>
> Result with IPIv enabled:
>
> Dry-run: 0, 272798 ns
> Self-IPI: 5094123, 11114037 ns
> Normal IPI: 131697087, 173321200 ns
> Broadcast IPI: 0, 155649075 ns
> Broadcast lock: 0, 161518031 ns
>
> Result with IPIv disabled:
>
> Dry-run: 0, 272766 ns
> Self-IPI: 5091788, 11123699 ns
> Normal IPI: 145215772, 174558920 ns
> Broadcast IPI: 0, 175785384 ns
> Broadcast lock: 0, 149076195 ns
>
>
> As IPIv can benefit unicast IPI to other CPU, Normal IPI test case gain
> about 9.73% time saving on average out of 15 test runs when IPIv is
> enabled.
>
> Normal IPI statistics (unit:ns):
> test w/o IPIv w/ IPIv
> 1 153346049 140907046
> 2 147218648 141660618
> 3 145215772 117890672
> 4 146621682 136430470
> 5 144821472 136199421
> 6 144704378 131676928
> 7 141403224 131697087
> 8 144775766 125476250
> 9 140658192 137263330
> 10 144768626 138593127
> 11 145166679 131946752
> 12 145020451 116852889
> 13 148161353 131406280
> 14 148378655 130174353
> 15 148903652 127969674
>
> Average time 145944306.6 131742993.1 ns
> %Reduction -9.73%
>
> --------------------------------------
> hackbench:
>
> 8 vCPUs, guest VM free run, x2APIC mode
> ./hackbench -p -l 100000
>
> w/o IPIv w/ IPIv
> Time 91.887 74.605
> %Reduction -18.808%
>
> 96 vCPUs, guest VM fre run, x2APIC mode
> ./hackbench -p -l 1000000
>
> w/o IPIv w/ IPIv
> Time 287.504 235.185
> %Reduction -18.198%
>
> --------------------------------------
> v8->v9:
> 1. Drop patch to forbid change of APIC ID.
> 2. Change max_vcpu_ids only set once
> 3. Refactor vCPU pre-creation code
>
> v7->v8:
> 1. Add trace in kvm_apic_write_nodecode() to track
> vICR Write in APIC Write VM-exit handling
> 2. Move IPIv PID table allocation done in the vCPU
> pre-creation (kvm_arch_vcpu_precreate()) protected
> by kvm->lock.
> 3. Misc code refine
>
> v6->v7:
> 1. Revise kvm_apic_write_nodecode() on dealing with
> vICR busy bit in x2apic mode
> 2. Merge PID-table memory allocation with max_vcpu_id
> into IPIv enabling patch
> 3. Change to allocate PID-table, setup vCPU's PID-table
> entry and IPIv related VMCS fields once IPIv can
> be enabled, which support runtime enabling IPIv.
>
> v5->v6:
> 1. Adapt kvm_apic_write_nodecode() implementation based
> on Sean's fix of x2apic's ICR register process.
> 2. Drop the patch handling IPIv table entry setting in
> case APIC ID changed, instead applying Levitsky's patch
> to disallow setting APIC ID in any case.
> 3. Drop the patch resizing the PID-pointer table on demand.
> Allow userspace to set maximum vcpu id at runtime that
> IPIv can refer to the practical value to allocate memory
> for PID-pointer table.
>
> v4 -> v5:
> 1. Deal with enable_ipiv parameter following current
> vmcs configuration rule.
> 2. Allocate memory for PID-pointer table dynamically
> 3. Support guest runtime modify APIC ID in xAPIC mode
> 4. Helper to judge possibility to take PI block in IPIv case
>
> v3 -> v4:
> 1. Refine code style of patch 2
> 2. Move tertiary control shadow build into patch 3
> 3. Make vmx_tertiary_exec_control to be static function
>
> v2 -> v3:
> 1. Misc change on tertiary execution control
> definition and capability setup
> 2. Alternative to get tertiary execution
> control configuration
>
> v1 -> v2:
> 1. Refine the IPIv enabling logic for VM.
> Remove ipiv_active definition per vCPU.
>
> --------------------------------------
>
> Chao Gao (1):
> KVM: VMX: enable IPI virtualization
>
> Robert Hoo (4):
> x86/cpu: Add new VMX feature, Tertiary VM-Execution control
> KVM: VMX: Extend BUILD_CONTROLS_SHADOW macro to support 64-bit
> variation
> KVM: VMX: Detect Tertiary VM-Execution control when setup VMCS config
> KVM: VMX: Report tertiary_exec_control field in dump_vmcs()
>
> Zeng Guang (4):
> KVM: x86: Add support for vICR APIC-write VM-Exits in x2APIC mode
> KVM: VMX: Clean up vmx_refresh_apicv_exec_ctrl()
> KVM: Move kvm_arch_vcpu_precreate() under kvm->lock
> KVM: x86: Allow userspace set maximum VCPU id for VM
>
> Documentation/virt/kvm/api.rst | 18 ++++
> arch/s390/kvm/kvm-s390.c | 2 -
> arch/x86/include/asm/kvm-x86-ops.h | 1 +
> arch/x86/include/asm/kvm_host.h | 7 ++
> arch/x86/include/asm/msr-index.h | 1 +
> arch/x86/include/asm/vmx.h | 11 +++
> arch/x86/include/asm/vmxfeatures.h | 5 +-
> arch/x86/kernel/cpu/feat_ctl.c | 9 +-
> arch/x86/kvm/lapic.c | 24 ++++-
> arch/x86/kvm/vmx/capabilities.h | 13 +++
> arch/x86/kvm/vmx/evmcs.c | 2 +
> arch/x86/kvm/vmx/evmcs.h | 1 +
> arch/x86/kvm/vmx/posted_intr.c | 15 +++-
> arch/x86/kvm/vmx/posted_intr.h | 2 +
> arch/x86/kvm/vmx/vmcs.h | 1 +
> arch/x86/kvm/vmx/vmx.c | 137 +++++++++++++++++++++++++----
> arch/x86/kvm/vmx/vmx.h | 64 ++++++++------
> arch/x86/kvm/x86.c | 29 +++++-
> virt/kvm/kvm_main.c | 10 ++-
> 19 files changed, 294 insertions(+), 58 deletions(-)
>

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