linux.git/arch/x86/kernel/cpu/common.c, branch v7.1 Linux kernel source tree Merge tag 'for-linus' of git://git.kernel.org/pub/scm/virt/kvm/kvm 2026-04-17T14:18:03+00:00 Linus Torvalds torvalds@linux-foundation.org 2026-04-17T14:18:03+00:00 01f492e1817e858d1712f2489d0afbaa552f417b Pull kvm updates from Paolo Bonzini: "Arm: - Add support for tracing in the standalone EL2 hypervisor code, which should help both debugging and performance analysis. This uses the new infrastructure for 'remote' trace buffers that can be exposed by non-kernel entities such as firmware, and which came through the tracing tree - Add support for GICv5 Per Processor Interrupts (PPIs), as the starting point for supporting the new GIC architecture in KVM - Finally add support for pKVM protected guests, where pages are unmapped from the host as they are faulted into the guest and can be shared back from the guest using pKVM hypercalls. Protected guests are created using a new machine type identifier. As the elusive guestmem has not yet delivered on its promises, anonymous memory is also supported This is only a first step towards full isolation from the host; for example, the CPU register state and DMA accesses are not yet isolated. Because this does not really yet bring fully what it promises, it is hidden behind CONFIG_ARM_PKVM_GUEST + 'kvm-arm.mode=protected', and also triggers TAINT_USER when a VM is created. Caveat emptor - Rework the dreaded user_mem_abort() function to make it more maintainable, reducing the amount of state being exposed to the various helpers and rendering a substantial amount of state immutable - Expand the Stage-2 page table dumper to support NV shadow page tables on a per-VM basis - Tidy up the pKVM PSCI proxy code to be slightly less hard to follow - Fix both SPE and TRBE in non-VHE configurations so that they do not generate spurious, out of context table walks that ultimately lead to very bad HW lockups - A small set of patches fixing the Stage-2 MMU freeing in error cases - Tighten-up accepted SMC immediate value to be only #0 for host SMCCC calls - The usual cleanups and other selftest churn LoongArch: - Use CSR_CRMD_PLV for kvm_arch_vcpu_in_kernel() - Add DMSINTC irqchip in kernel support RISC-V: - Fix steal time shared memory alignment checks - Fix vector context allocation leak - Fix array out-of-bounds in pmu_ctr_read() and pmu_fw_ctr_read_hi() - Fix double-free of sdata in kvm_pmu_clear_snapshot_area() - Fix integer overflow in kvm_pmu_validate_counter_mask() - Fix shift-out-of-bounds in make_xfence_request() - Fix lost write protection on huge pages during dirty logging - Split huge pages during fault handling for dirty logging - Skip CSR restore if VCPU is reloaded on the same core - Implement kvm_arch_has_default_irqchip() for KVM selftests - Factored-out ISA checks into separate sources - Added hideleg to struct kvm_vcpu_config - Factored-out VCPU config into separate sources - Support configuration of per-VM HGATP mode from KVM user space s390: - Support for ESA (31-bit) guests inside nested hypervisors - Remove restriction on memslot alignment, which is not needed anymore with the new gmap code - Fix LPSW/E to update the bear (which of course is the breaking event address register) x86: - Shut up various UBSAN warnings on reading module parameter before they were initialized - Don't zero-allocate page tables that are used for splitting hugepages in the TDP MMU, as KVM is guaranteed to set all SPTEs in the page table and thus write all bytes - As an optimization, bail early when trying to unsync 4KiB mappings if the target gfn can just be mapped with a 2MiB hugepage x86 generic: - Copy single-chunk MMIO write values into struct kvm_vcpu (more precisely struct kvm_mmio_fragment) to fix use-after-free stack bugs where KVM would dereference stack pointer after an exit to userspace - Clean up and comment the emulated MMIO code to try to make it easier to maintain (not necessarily "easy", but "easier") - Move VMXON+VMXOFF and EFER.SVME toggling out of KVM (not *all* of VMX and SVM enabling) as it is needed for trusted I/O - Advertise support for AVX512 Bit Matrix Multiply (BMM) instructions - Immediately fail the build if a required #define is missing in one of KVM's headers that is included multiple times - Reject SET_GUEST_DEBUG with -EBUSY if there's an already injected exception, mostly to prevent syzkaller from abusing the uAPI to trigger WARNs, but also because it can help prevent userspace from unintentionally crashing the VM - Exempt SMM from CPUID faulting on Intel, as per the spec - Misc hardening and cleanup changes x86 (AMD): - Fix and optimize IRQ window inhibit handling for AVIC; make it per-vCPU so that KVM doesn't prematurely re-enable AVIC if multiple vCPUs have to-be-injected IRQs - Clean up and optimize the OSVW handling, avoiding a bug in which KVM would overwrite state when enabling virtualization on multiple CPUs in parallel. This should not be a problem because OSVW should usually be the same for all CPUs - Drop a WARN in KVM_MEMORY_ENCRYPT_REG_REGION where KVM complains about a "too large" size based purely on user input - Clean up and harden the pinning code for KVM_MEMORY_ENCRYPT_REG_REGION - Disallow synchronizing a VMSA of an already-launched/encrypted vCPU, as doing so for an SNP guest will crash the host due to an RMP violation page fault - Overhaul KVM's APIs for detecting SEV+ guests so that VM-scoped queries are required to hold kvm->lock, and enforce it by lockdep. Fix various bugs where sev_guest() was not ensured to be stable for the whole duration of a function or ioctl - Convert a pile of kvm->lock SEV code to guard() - Play nicer with userspace that does not enable KVM_CAP_EXCEPTION_PAYLOAD, for which KVM needs to set CR2 and DR6 as a response to ioctls such as KVM_GET_VCPU_EVENTS (even if the payload would end up in EXITINFO2 rather than CR2, for example). Only set CR2 and DR6 when consumption of the payload is imminent, but on the other hand force delivery of the payload in all paths where userspace retrieves CR2 or DR6 - Use vcpu->arch.cr2 when updating vmcb12's CR2 on nested #VMEXIT instead of vmcb02->save.cr2. The value is out of sync after a save/restore or after a #PF is injected into L2 - Fix a class of nSVM bugs where some fields written by the CPU are not synchronized from vmcb02 to cached vmcb12 after VMRUN, and so are not up-to-date when saved by KVM_GET_NESTED_STATE - Fix a class of bugs where the ordering between KVM_SET_NESTED_STATE and KVM_SET_{S}REGS could cause vmcb02 to be incorrectly initialized after save+restore - Add a variety of missing nSVM consistency checks - Fix several bugs where KVM failed to correctly update VMCB fields on nested #VMEXIT - Fix several bugs where KVM failed to correctly synthesize #UD or #GP for SVM-related instructions - Add support for save+restore of virtualized LBRs (on SVM) - Refactor various helpers and macros to improve clarity and (hopefully) make the code easier to maintain - Aggressively sanitize fields when copying from vmcb12, to guard against unintentionally allowing L1 to utilize yet-to-be-defined features - Fix several bugs where KVM botched rAX legality checks when emulating SVM instructions. There are remaining issues in that KVM doesn't handle size prefix overrides for 64-bit guests - Fail emulation of VMRUN/VMLOAD/VMSAVE if mapping vmcb12 fails instead of somewhat arbitrarily synthesizing #GP (i.e. don't double down on AMD's architectural but sketchy behavior of generating #GP for "unsupported" addresses) - Cache all used vmcb12 fields to further harden against TOCTOU bugs x86 (Intel): - Drop obsolete branch hint prefixes from the VMX instruction macros - Use ASM_INPUT_RM() in __vmcs_writel() to coerce clang into using a register input when appropriate - Code cleanups guest_memfd: - Don't mark guest_memfd folios as accessed, as guest_memfd doesn't support reclaim, the memory is unevictable, and there is no storage to write back to LoongArch selftests: - Add KVM PMU test cases s390 selftests: - Enable more memory selftests x86 selftests: - Add support for Hygon CPUs in KVM selftests - Fix a bug in the MSR test where it would get false failures on AMD/Hygon CPUs with exactly one of RDPID or RDTSCP - Add an MADV_COLLAPSE testcase for guest_memfd as a regression test for a bug where the kernel would attempt to collapse guest_memfd folios against KVM's will" * tag 'for-linus' of git://git.kernel.org/pub/scm/virt/kvm/kvm: (373 commits) KVM: x86: use inlines instead of macros for is_sev_*guest x86/virt: Treat SVM as unsupported when running as an SEV+ guest KVM: SEV: Goto an existing error label if charging misc_cg for an ASID fails KVM: SVM: Move lock-protected allocation of SEV ASID into a separate helper KVM: SEV: use mutex guard in snp_handle_guest_req() KVM: SEV: use mutex guard in sev_mem_enc_unregister_region() KVM: SEV: use mutex guard in sev_mem_enc_ioctl() KVM: SEV: use mutex guard in snp_launch_update() KVM: SEV: Assert that kvm->lock is held when querying SEV+ support KVM: SEV: Document that checking for SEV+ guests when reclaiming memory is "safe" KVM: SEV: Hide "struct kvm_sev_info" behind CONFIG_KVM_AMD_SEV=y KVM: SEV: WARN on unhandled VM type when initializing VM KVM: LoongArch: selftests: Add PMU overflow interrupt test KVM: LoongArch: selftests: Add basic PMU event counting test KVM: LoongArch: selftests: Add cpucfg read/write helpers LoongArch: KVM: Add DMSINTC inject msi to vCPU LoongArch: KVM: Add DMSINTC device support LoongArch: KVM: Make vcpu_is_preempted() as a macro rather than function LoongArch: KVM: Move host CSR_GSTAT save and restore in context switch LoongArch: KVM: Move host CSR_EENTRY save and restore in context switch ... 
Pull kvm updates from Paolo Bonzini:
 "Arm:

   - Add support for tracing in the standalone EL2 hypervisor code,
     which should help both debugging and performance analysis. This
     uses the new infrastructure for 'remote' trace buffers that can be
     exposed by non-kernel entities such as firmware, and which came
     through the tracing tree

   - Add support for GICv5 Per Processor Interrupts (PPIs), as the
     starting point for supporting the new GIC architecture in KVM

   - Finally add support for pKVM protected guests, where pages are
     unmapped from the host as they are faulted into the guest and can
     be shared back from the guest using pKVM hypercalls. Protected
     guests are created using a new machine type identifier. As the
     elusive guestmem has not yet delivered on its promises, anonymous
     memory is also supported

     This is only a first step towards full isolation from the host; for
     example, the CPU register state and DMA accesses are not yet
     isolated. Because this does not really yet bring fully what it
     promises, it is hidden behind CONFIG_ARM_PKVM_GUEST +
     'kvm-arm.mode=protected', and also triggers TAINT_USER when a VM is
     created. Caveat emptor

   - Rework the dreaded user_mem_abort() function to make it more
     maintainable, reducing the amount of state being exposed to the
     various helpers and rendering a substantial amount of state
     immutable

   - Expand the Stage-2 page table dumper to support NV shadow page
     tables on a per-VM basis

   - Tidy up the pKVM PSCI proxy code to be slightly less hard to
     follow

   - Fix both SPE and TRBE in non-VHE configurations so that they do not
     generate spurious, out of context table walks that ultimately lead
     to very bad HW lockups

   - A small set of patches fixing the Stage-2 MMU freeing in error
     cases

   - Tighten-up accepted SMC immediate value to be only #0 for host
     SMCCC calls

   - The usual cleanups and other selftest churn

  LoongArch:

   - Use CSR_CRMD_PLV for kvm_arch_vcpu_in_kernel()

   - Add DMSINTC irqchip in kernel support

  RISC-V:

   - Fix steal time shared memory alignment checks

   - Fix vector context allocation leak

   - Fix array out-of-bounds in pmu_ctr_read() and pmu_fw_ctr_read_hi()

   - Fix double-free of sdata in kvm_pmu_clear_snapshot_area()

   - Fix integer overflow in kvm_pmu_validate_counter_mask()

   - Fix shift-out-of-bounds in make_xfence_request()

   - Fix lost write protection on huge pages during dirty logging

   - Split huge pages during fault handling for dirty logging

   - Skip CSR restore if VCPU is reloaded on the same core

   - Implement kvm_arch_has_default_irqchip() for KVM selftests

   - Factored-out ISA checks into separate sources

   - Added hideleg to struct kvm_vcpu_config

   - Factored-out VCPU config into separate sources

   - Support configuration of per-VM HGATP mode from KVM user space

  s390:

   - Support for ESA (31-bit) guests inside nested hypervisors

   - Remove restriction on memslot alignment, which is not needed
     anymore with the new gmap code

   - Fix LPSW/E to update the bear (which of course is the breaking
     event address register)

  x86:

   - Shut up various UBSAN warnings on reading module parameter before
     they were initialized

   - Don't zero-allocate page tables that are used for splitting
     hugepages in the TDP MMU, as KVM is guaranteed to set all SPTEs in
     the page table and thus write all bytes

   - As an optimization, bail early when trying to unsync 4KiB mappings
     if the target gfn can just be mapped with a 2MiB hugepage

  x86 generic:

   - Copy single-chunk MMIO write values into struct kvm_vcpu (more
     precisely struct kvm_mmio_fragment) to fix use-after-free stack
     bugs where KVM would dereference stack pointer after an exit to
     userspace

   - Clean up and comment the emulated MMIO code to try to make it
     easier to maintain (not necessarily "easy", but "easier")

   - Move VMXON+VMXOFF and EFER.SVME toggling out of KVM (not *all* of
     VMX and SVM enabling) as it is needed for trusted I/O

   - Advertise support for AVX512 Bit Matrix Multiply (BMM) instructions

   - Immediately fail the build if a required #define is missing in one
     of KVM's headers that is included multiple times

   - Reject SET_GUEST_DEBUG with -EBUSY if there's an already injected
     exception, mostly to prevent syzkaller from abusing the uAPI to
     trigger WARNs, but also because it can help prevent userspace from
     unintentionally crashing the VM

   - Exempt SMM from CPUID faulting on Intel, as per the spec

   - Misc hardening and cleanup changes

  x86 (AMD):

   - Fix and optimize IRQ window inhibit handling for AVIC; make it
     per-vCPU so that KVM doesn't prematurely re-enable AVIC if multiple
     vCPUs have to-be-injected IRQs

   - Clean up and optimize the OSVW handling, avoiding a bug in which
     KVM would overwrite state when enabling virtualization on multiple
     CPUs in parallel. This should not be a problem because OSVW should
     usually be the same for all CPUs

   - Drop a WARN in KVM_MEMORY_ENCRYPT_REG_REGION where KVM complains
     about a "too large" size based purely on user input

   - Clean up and harden the pinning code for KVM_MEMORY_ENCRYPT_REG_REGION

   - Disallow synchronizing a VMSA of an already-launched/encrypted
     vCPU, as doing so for an SNP guest will crash the host due to an
     RMP violation page fault

   - Overhaul KVM's APIs for detecting SEV+ guests so that VM-scoped
     queries are required to hold kvm->lock, and enforce it by lockdep.
     Fix various bugs where sev_guest() was not ensured to be stable for
     the whole duration of a function or ioctl

   - Convert a pile of kvm->lock SEV code to guard()

   - Play nicer with userspace that does not enable
     KVM_CAP_EXCEPTION_PAYLOAD, for which KVM needs to set CR2 and DR6
     as a response to ioctls such as KVM_GET_VCPU_EVENTS (even if the
     payload would end up in EXITINFO2 rather than CR2, for example).
     Only set CR2 and DR6 when consumption of the payload is imminent,
     but on the other hand force delivery of the payload in all paths
     where userspace retrieves CR2 or DR6

   - Use vcpu->arch.cr2 when updating vmcb12's CR2 on nested #VMEXIT
     instead of vmcb02->save.cr2. The value is out of sync after a
     save/restore or after a #PF is injected into L2

   - Fix a class of nSVM bugs where some fields written by the CPU are
     not synchronized from vmcb02 to cached vmcb12 after VMRUN, and so
     are not up-to-date when saved by KVM_GET_NESTED_STATE

   - Fix a class of bugs where the ordering between KVM_SET_NESTED_STATE
     and KVM_SET_{S}REGS could cause vmcb02 to be incorrectly
     initialized after save+restore

   - Add a variety of missing nSVM consistency checks

   - Fix several bugs where KVM failed to correctly update VMCB fields
     on nested #VMEXIT

   - Fix several bugs where KVM failed to correctly synthesize #UD or
     #GP for SVM-related instructions

   - Add support for save+restore of virtualized LBRs (on SVM)

   - Refactor various helpers and macros to improve clarity and
     (hopefully) make the code easier to maintain

   - Aggressively sanitize fields when copying from vmcb12, to guard
     against unintentionally allowing L1 to utilize yet-to-be-defined
     features

   - Fix several bugs where KVM botched rAX legality checks when
     emulating SVM instructions. There are remaining issues in that KVM
     doesn't handle size prefix overrides for 64-bit guests

   - Fail emulation of VMRUN/VMLOAD/VMSAVE if mapping vmcb12 fails
     instead of somewhat arbitrarily synthesizing #GP (i.e. don't double
     down on AMD's architectural but sketchy behavior of generating #GP
     for "unsupported" addresses)

   - Cache all used vmcb12 fields to further harden against TOCTOU bugs

  x86 (Intel):

   - Drop obsolete branch hint prefixes from the VMX instruction macros

   - Use ASM_INPUT_RM() in __vmcs_writel() to coerce clang into using a
     register input when appropriate

   - Code cleanups

  guest_memfd:

   - Don't mark guest_memfd folios as accessed, as guest_memfd doesn't
     support reclaim, the memory is unevictable, and there is no storage
     to write back to

  LoongArch selftests:

   - Add KVM PMU test cases

  s390 selftests:

   - Enable more memory selftests

  x86 selftests:

   - Add support for Hygon CPUs in KVM selftests

   - Fix a bug in the MSR test where it would get false failures on
     AMD/Hygon CPUs with exactly one of RDPID or RDTSCP

   - Add an MADV_COLLAPSE testcase for guest_memfd as a regression test
     for a bug where the kernel would attempt to collapse guest_memfd
     folios against KVM's will"

* tag 'for-linus' of git://git.kernel.org/pub/scm/virt/kvm/kvm: (373 commits)
  KVM: x86: use inlines instead of macros for is_sev_*guest
  x86/virt: Treat SVM as unsupported when running as an SEV+ guest
  KVM: SEV: Goto an existing error label if charging misc_cg for an ASID fails
  KVM: SVM: Move lock-protected allocation of SEV ASID into a separate helper
  KVM: SEV: use mutex guard in snp_handle_guest_req()
  KVM: SEV: use mutex guard in sev_mem_enc_unregister_region()
  KVM: SEV: use mutex guard in sev_mem_enc_ioctl()
  KVM: SEV: use mutex guard in snp_launch_update()
  KVM: SEV: Assert that kvm->lock is held when querying SEV+ support
  KVM: SEV: Document that checking for SEV+ guests when reclaiming memory is "safe"
  KVM: SEV: Hide "struct kvm_sev_info" behind CONFIG_KVM_AMD_SEV=y
  KVM: SEV: WARN on unhandled VM type when initializing VM
  KVM: LoongArch: selftests: Add PMU overflow interrupt test
  KVM: LoongArch: selftests: Add basic PMU event counting test
  KVM: LoongArch: selftests: Add cpucfg read/write helpers
  LoongArch: KVM: Add DMSINTC inject msi to vCPU
  LoongArch: KVM: Add DMSINTC device support
  LoongArch: KVM: Make vcpu_is_preempted() as a macro rather than function
  LoongArch: KVM: Move host CSR_GSTAT save and restore in context switch
  LoongArch: KVM: Move host CSR_EENTRY save and restore in context switch
  ...
Merge tag 'x86_fred_for_v7.1_rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip 2026-04-14T21:50:51+00:00 Linus Torvalds torvalds@linux-foundation.org 2026-04-14T21:50:51+00:00 e9635f2a73604ad9cb33d480b489a03bdd03329f Pull x86 FRED updates from Borislav Petkov: "We made the FRED support an opt-in initially out of fear of it breaking machines left and right in the case of a hw bug in the first generation of machines supporting it. Now that that the FRED code has seen a lot of hammering, flip the logic to be opt-out as is the usual case with new hw features" * tag 'x86_fred_for_v7.1_rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip: x86/fred: Remove kernel log message when initializing exceptions x86/fred: Enable FRED by default 
Pull x86 FRED updates from Borislav Petkov:
 "We made the FRED support an opt-in initially out of fear of it
  breaking machines left and right in the case of a hw bug in the first
  generation of machines supporting it.

  Now that that the FRED code has seen a lot of hammering, flip the
  logic to be opt-out as is the usual case with new hw features"

* tag 'x86_fred_for_v7.1_rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip:
  x86/fred: Remove kernel log message when initializing exceptions
  x86/fred: Enable FRED by default
Merge tag 'x86_cpu_for_7.1-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip 2026-04-14T21:24:45+00:00 Linus Torvalds torvalds@linux-foundation.org 2026-04-14T21:24:45+00:00 9f2bb6c7b364f186aa37c524f6df33bd488d4efa Pull x86 cpu updates from Dave Hansen: - Complete LASS enabling: deal with vsyscall and EFI The existing Linear Address Space Separation (LASS) support punted on support for common EFI and vsyscall configs. Complete the implementation by supporting EFI and vsyscall=xonly. - Clean up CPUID usage in newer Intel "avs" audio driver and update the x86-cpuid-db file * tag 'x86_cpu_for_7.1-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip: tools/x86/kcpuid: Update bitfields to x86-cpuid-db v3.0 ASoC: Intel: avs: Include CPUID header at file scope ASoC: Intel: avs: Check maximum valid CPUID leaf x86/cpu: Remove LASS restriction on vsyscall emulation x86/vsyscall: Disable LASS if vsyscall mode is set to EMULATE x86/vsyscall: Restore vsyscall=xonly mode under LASS x86/traps: Consolidate user fixups in the #GP handler x86/vsyscall: Reorganize the page fault emulation code x86/cpu: Remove LASS restriction on EFI x86/efi: Disable LASS while executing runtime services x86/cpu: Defer LASS enabling until userspace comes up 
Pull x86 cpu updates from Dave Hansen:

 - Complete LASS enabling: deal with vsyscall and EFI

   The existing Linear Address Space Separation (LASS) support punted
   on support for common EFI and vsyscall configs. Complete the
   implementation by supporting EFI and vsyscall=xonly.

 - Clean up CPUID usage in newer Intel "avs" audio driver and update the
   x86-cpuid-db file

* tag 'x86_cpu_for_7.1-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip:
  tools/x86/kcpuid: Update bitfields to x86-cpuid-db v3.0
  ASoC: Intel: avs: Include CPUID header at file scope
  ASoC: Intel: avs: Check maximum valid CPUID leaf
  x86/cpu: Remove LASS restriction on vsyscall emulation
  x86/vsyscall: Disable LASS if vsyscall mode is set to EMULATE
  x86/vsyscall: Restore vsyscall=xonly mode under LASS
  x86/traps: Consolidate user fixups in the #GP handler
  x86/vsyscall: Reorganize the page fault emulation code
  x86/cpu: Remove LASS restriction on EFI
  x86/efi: Disable LASS while executing runtime services
  x86/cpu: Defer LASS enabling until userspace comes up
Merge tag 'kvm-x86-vmxon-7.1' of https://github.com/kvm-x86/linux into HEAD 2026-04-13T11:04:48+00:00 Paolo Bonzini pbonzini@redhat.com 2026-04-13T11:04:48+00:00 4a530993dafec27085321424aeab303eb0e7869e KVM x86 VMXON and EFER.SVME extraction for 7.1 Move _only_ VMXON+VMXOFF and EFER.SVME toggling out of KVM (versus all of VMX and SVM enabling) out of KVM and into the core kernel so that non-KVM TDX enabling, e.g. for trusted I/O, can make SEAMCALLs without needing to ensure KVM is fully loaded. TIO isn't a hypervisor, and isn't trying to be a hypervisor. Specifically, TIO should _never_ have it's own VMCSes (that are visible to the host; the TDX-Module has it's own VMCSes to do SEAMCALL/SEAMRET), and so there is simply no reason to move that functionality out of KVM. With that out of the way, dealing with VMXON/VMXOFF and EFER.SVME is a fairly simple refcounting game. 
KVM x86 VMXON and EFER.SVME extraction for 7.1

Move _only_ VMXON+VMXOFF and EFER.SVME toggling out of KVM (versus all of VMX
and SVM enabling) out of KVM and into the core kernel so that non-KVM TDX
enabling, e.g. for trusted I/O, can make SEAMCALLs without needing to ensure
KVM is fully loaded.

TIO isn't a hypervisor, and isn't trying to be a hypervisor. Specifically, TIO
should _never_ have it's own VMCSes (that are visible to the host; the
TDX-Module has it's own VMCSes to do SEAMCALL/SEAMRET), and so there is simply
no reason to move that functionality out of KVM.

With that out of the way, dealing with VMXON/VMXOFF and EFER.SVME is a fairly
simple refcounting game.
x86/fred: Enable FRED by default 2026-03-27T15:04:47+00:00 H. Peter Anvin hpa@zytor.com 2026-03-25T23:01:47+00:00 ac66a73be03a0a72aeeb33d3610cfc43cb101a0b When FRED was added to the mainline kernel, it was set up as an explicit opt-in due to the risk of regressions before hardware was available publicly. Now, Panther Lake (Core Ultra 300 series) has been released, and benchmarking by Phoronix has shown that it provides a significant performance benefit on most workloads: https://www.phoronix.com/review/intel-fred-panther-lake Accordingly, enable FRED by default if the CPU supports it. FRED can of course still be disabled via the fred=off command line option. Touch up Kconfig help too. Signed-off-by: H. Peter Anvin (Intel) <hpa@zytor.com> Signed-off-by: Borislav Petkov (AMD) <bp@alien8.de> Reviewed-by: Sohil Mehta <sohil.mehta@intel.com> Link: https://patch.msgid.link/20260325230151.1898287-2-hpa@zytor.com 
When FRED was added to the mainline kernel, it was set up as an explicit
opt-in due to the risk of regressions before hardware was available publicly.

Now, Panther Lake (Core Ultra 300 series) has been released, and benchmarking
by Phoronix has shown that it provides a significant performance benefit on
most workloads:

  https://www.phoronix.com/review/intel-fred-panther-lake

Accordingly, enable FRED by default if the CPU supports it. FRED can of
course still be disabled via the fred=off command line option.

Touch up Kconfig help too.

Signed-off-by: H. Peter Anvin (Intel) <hpa@zytor.com>
Signed-off-by: Borislav Petkov (AMD) <bp@alien8.de>
Reviewed-by: Sohil Mehta <sohil.mehta@intel.com>
Link: https://patch.msgid.link/20260325230151.1898287-2-hpa@zytor.com
x86/cpu: Add comment clarifying CRn pinning 2026-03-23T13:25:53+00:00 Peter Zijlstra peterz@infradead.org 2026-03-20T09:25:21+00:00 a3e93cac25316aad03bf561e3c205f4ca0b8f452 To avoid future confusion on the purpose and design of the CRn pinning code. Also note that if the attacker controls page-tables, the CRn bits lose much of the attraction anyway. Signed-off-by: Peter Zijlstra (Intel) <peterz@infradead.org> Signed-off-by: Borislav Petkov (AMD) <bp@alien8.de> Link: https://patch.msgid.link/20260320092521.GG3739106@noisy.programming.kicks-ass.net 
To avoid future confusion on the purpose and design of the CRn pinning code.

Also note that if the attacker controls page-tables, the CRn bits lose much of
the attraction anyway.

Signed-off-by: Peter Zijlstra (Intel) <peterz@infradead.org>
Signed-off-by: Borislav Petkov (AMD) <bp@alien8.de>
Link: https://patch.msgid.link/20260320092521.GG3739106@noisy.programming.kicks-ass.net
x86/cpu: Remove X86_CR4_FRED from the CR4 pinned bits mask 2026-03-23T13:12:03+00:00 Borislav Petkov (AMD) bp@alien8.de 2026-03-19T11:07:59+00:00 411df123c017169922cc767affce76282b8e6c85 Commit in Fixes added the FRED CR4 bit to the CR4 pinned bits mask so that whenever something else modifies CR4, that bit remains set. Which in itself is a perfectly fine idea. However, there's an issue when during boot FRED is initialized: first on the BSP and later on the APs. Thus, there's a window in time when exceptions cannot be handled. This becomes particularly nasty when running as SEV-{ES,SNP} or TDX guests which, when they manage to trigger exceptions during that short window described above, triple fault due to FRED MSRs not being set up yet. See Link tag below for a much more detailed explanation of the situation. So, as a result, the commit in that Link URL tried to address this shortcoming by temporarily disabling CR4 pinning when an AP is not online yet. However, that is a problem in itself because in this case, an attack on the kernel needs to only modify the online bit - a single bit in RW memory - and then disable CR4 pinning and then disable SM*P, leading to more and worse things to happen to the system. So, instead, remove the FRED bit from the CR4 pinning mask, thus obviating the need to temporarily disable CR4 pinning. If someone manages to disable FRED when poking at CR4, then idt_invalidate() would make sure the system would crash'n'burn on the first exception triggered, which is a much better outcome security-wise. Fixes: ff45746fbf00 ("x86/cpu: Add X86_CR4_FRED macro") Suggested-by: Dave Hansen <dave.hansen@linux.intel.com> Suggested-by: Peter Zijlstra <peterz@infradead.org> Signed-off-by: Borislav Petkov (AMD) <bp@alien8.de> Cc: <stable@kernel.org> # 6.12+ Link: https://lore.kernel.org/r/177385987098.1647592.3381141860481415647.tip-bot2@tip-bot2 
Commit in Fixes added the FRED CR4 bit to the CR4 pinned bits mask so
that whenever something else modifies CR4, that bit remains set. Which
in itself is a perfectly fine idea.

However, there's an issue when during boot FRED is initialized: first on
the BSP and later on the APs. Thus, there's a window in time when
exceptions cannot be handled.

This becomes particularly nasty when running as SEV-{ES,SNP} or TDX
guests which, when they manage to trigger exceptions during that short
window described above, triple fault due to FRED MSRs not being set up
yet.

See Link tag below for a much more detailed explanation of the
situation.

So, as a result, the commit in that Link URL tried to address this
shortcoming by temporarily disabling CR4 pinning when an AP is not
online yet.

However, that is a problem in itself because in this case, an attack on
the kernel needs to only modify the online bit - a single bit in RW
memory - and then disable CR4 pinning and then disable SM*P, leading to
more and worse things to happen to the system.

So, instead, remove the FRED bit from the CR4 pinning mask, thus
obviating the need to temporarily disable CR4 pinning.

If someone manages to disable FRED when poking at CR4, then
idt_invalidate() would make sure the system would crash'n'burn on the
first exception triggered, which is a much better outcome security-wise.

Fixes: ff45746fbf00 ("x86/cpu: Add X86_CR4_FRED macro")
Suggested-by: Dave Hansen <dave.hansen@linux.intel.com>
Suggested-by: Peter Zijlstra <peterz@infradead.org>
Signed-off-by: Borislav Petkov (AMD) <bp@alien8.de>
Cc: <stable@kernel.org> # 6.12+
Link: https://lore.kernel.org/r/177385987098.1647592.3381141860481415647.tip-bot2@tip-bot2
x86/cpu: Enable FSGSBASE early in cpu_init_exception_handling() 2026-03-23T12:29:50+00:00 Nikunj A Dadhania nikunj@amd.com 2026-03-18T07:56:52+00:00 05243d490bb7852a8acca7b5b5658019c7797a52 Move FSGSBASE enablement from identify_cpu() to cpu_init_exception_handling() to ensure it is enabled before any exceptions can occur on both boot and secondary CPUs. == Background == Exception entry code (paranoid_entry()) uses ALTERNATIVE patching based on X86_FEATURE_FSGSBASE to decide whether to use RDGSBASE/WRGSBASE instructions or the slower RDMSR/SWAPGS sequence for saving/restoring GSBASE. On boot CPU, ALTERNATIVE patching happens after enabling FSGSBASE in CR4. When the feature is available, the code is permanently patched to use RDGSBASE/WRGSBASE, which require CR4.FSGSBASE=1 to execute without triggering == Boot Sequence == Boot CPU (with CR pinning enabled): trap_init() cpu_init() <- Uses unpatched code (RDMSR/SWAPGS) x2apic_setup() ... arch_cpu_finalize_init() identify_boot_cpu() identify_cpu() cr4_set_bits(X86_CR4_FSGSBASE) # Enables the feature # This becomes part of cr4_pinned_bits ... alternative_instructions() <- Patches code to use RDGSBASE/WRGSBASE Secondary CPUs (with CR pinning enabled): start_secondary() cr4_init() <- Code already patched, CR4.FSGSBASE=1 set implicitly via cr4_pinned_bits cpu_init() <- exceptions work because FSGSBASE is already enabled Secondary CPU (with CR pinning disabled): start_secondary() cr4_init() <- Code already patched, CR4.FSGSBASE=0 cpu_init() x2apic_setup() rdmsrq(MSR_IA32_APICBASE) <- Triggers #VC in SNP guests exc_vmm_communication() paranoid_entry() <- Uses RDGSBASE with CR4.FSGSBASE=0 (patched code) ... ap_starting() identify_secondary_cpu() identify_cpu() cr4_set_bits(X86_CR4_FSGSBASE) <- Enables the feature, which is too late == CR Pinning == Currently, for secondary CPUs, CR4.FSGSBASE is set implicitly through CR-pinning: the boot CPU sets it during identify_cpu(), it becomes part of cr4_pinned_bits, and cr4_init() applies those pinned bits to secondary CPUs. This works but creates an undocumented dependency between cr4_init() and the pinning mechanism. == Problem == Secondary CPUs boot after alternatives have been applied globally. They execute already-patched paranoid_entry() code that uses RDGSBASE/WRGSBASE instructions, which require CR4.FSGSBASE=1. Upcoming changes to CR pinning behavior will break the implicit dependency, causing secondary CPUs to generate #UD. This issue manifests itself on AMD SEV-SNP guests, where the rdmsrq() in x2apic_setup() triggers a #VC exception early during cpu_init(). The #VC handler (exc_vmm_communication()) executes the patched paranoid_entry() path. Without CR4.FSGSBASE enabled, RDGSBASE instructions trigger #UD. == Fix == Enable FSGSBASE explicitly in cpu_init_exception_handling() before loading exception handlers. This makes the dependency explicit and ensures both boot and secondary CPUs have FSGSBASE enabled before paranoid_entry() executes. Fixes: c82965f9e530 ("x86/entry/64: Handle FSGSBASE enabled paranoid entry/exit") Reported-by: Borislav Petkov <bp@alien8.de> Suggested-by: Sohil Mehta <sohil.mehta@intel.com> Signed-off-by: Nikunj A Dadhania <nikunj@amd.com> Signed-off-by: Borislav Petkov (AMD) <bp@alien8.de> Reviewed-by: Sohil Mehta <sohil.mehta@intel.com> Cc: <stable@kernel.org> Link: https://patch.msgid.link/20260318075654.1792916-2-nikunj@amd.com 
Move FSGSBASE enablement from identify_cpu() to cpu_init_exception_handling()
to ensure it is enabled before any exceptions can occur on both boot and
secondary CPUs.

== Background ==

Exception entry code (paranoid_entry()) uses ALTERNATIVE patching based on
X86_FEATURE_FSGSBASE to decide whether to use RDGSBASE/WRGSBASE instructions
or the slower RDMSR/SWAPGS sequence for saving/restoring GSBASE.

On boot CPU, ALTERNATIVE patching happens after enabling FSGSBASE in CR4.
When the feature is available, the code is permanently patched to use
RDGSBASE/WRGSBASE, which require CR4.FSGSBASE=1 to execute without triggering

== Boot Sequence ==

Boot CPU (with CR pinning enabled):
  trap_init()
    cpu_init()                   <- Uses unpatched code (RDMSR/SWAPGS)
      x2apic_setup()
  ...
  arch_cpu_finalize_init()
    identify_boot_cpu()
      identify_cpu()
        cr4_set_bits(X86_CR4_FSGSBASE)  # Enables the feature
	# This becomes part of cr4_pinned_bits
    ...
    alternative_instructions()   <- Patches code to use RDGSBASE/WRGSBASE

Secondary CPUs (with CR pinning enabled):
  start_secondary()
    cr4_init()                   <- Code already patched, CR4.FSGSBASE=1
                                    set implicitly via cr4_pinned_bits

    cpu_init()                   <- exceptions work because FSGSBASE is
                                    already enabled

Secondary CPU (with CR pinning disabled):
  start_secondary()
    cr4_init()                   <- Code already patched, CR4.FSGSBASE=0
    cpu_init()
      x2apic_setup()
        rdmsrq(MSR_IA32_APICBASE)  <- Triggers #VC in SNP guests
          exc_vmm_communication()
            paranoid_entry()       <- Uses RDGSBASE with CR4.FSGSBASE=0
                                      (patched code)
    ...
    ap_starting()
      identify_secondary_cpu()
        identify_cpu()
	  cr4_set_bits(X86_CR4_FSGSBASE)  <- Enables the feature, which is
                                             too late

== CR Pinning ==

Currently, for secondary CPUs, CR4.FSGSBASE is set implicitly through
CR-pinning: the boot CPU sets it during identify_cpu(), it becomes part of
cr4_pinned_bits, and cr4_init() applies those pinned bits to secondary CPUs.
This works but creates an undocumented dependency between cr4_init() and the
pinning mechanism.

== Problem ==

Secondary CPUs boot after alternatives have been applied globally. They
execute already-patched paranoid_entry() code that uses RDGSBASE/WRGSBASE
instructions, which require CR4.FSGSBASE=1. Upcoming changes to CR pinning
behavior will break the implicit dependency, causing secondary CPUs to
generate #UD.

This issue manifests itself on AMD SEV-SNP guests, where the rdmsrq() in
x2apic_setup() triggers a #VC exception early during cpu_init(). The #VC
handler (exc_vmm_communication()) executes the patched paranoid_entry() path.
Without CR4.FSGSBASE enabled, RDGSBASE instructions trigger #UD.

== Fix ==

Enable FSGSBASE explicitly in cpu_init_exception_handling() before loading
exception handlers. This makes the dependency explicit and ensures both
boot and secondary CPUs have FSGSBASE enabled before paranoid_entry()
executes.

Fixes: c82965f9e530 ("x86/entry/64: Handle FSGSBASE enabled paranoid entry/exit")
Reported-by: Borislav Petkov <bp@alien8.de>
Suggested-by: Sohil Mehta <sohil.mehta@intel.com>
Signed-off-by: Nikunj A Dadhania <nikunj@amd.com>
Signed-off-by: Borislav Petkov (AMD) <bp@alien8.de>
Reviewed-by: Sohil Mehta <sohil.mehta@intel.com>
Cc: <stable@kernel.org>
Link: https://patch.msgid.link/20260318075654.1792916-2-nikunj@amd.com
x86/cpu: Remove LASS restriction on vsyscall emulation 2026-03-19T22:11:13+00:00 Sohil Mehta sohil.mehta@intel.com 2026-03-09T18:10:29+00:00 584d752b8a1f0ee3a7d5a831e55623c10e7ca0ee Vsyscall emulation has two modes of operation: XONLY and EMULATE. The default XONLY mode is now supported with a LASS-triggered #GP. OTOH, LASS is disabled if someone requests the deprecated EMULATE mode via the vsyscall=emulate command line option. So, remove the restriction on LASS when the overall vsyscall emulation support is compiled in. As a result, there is no need for setup_lass() anymore. LASS is enabled by default through a late_initcall(). Signed-off-by: Sohil Mehta <sohil.mehta@intel.com> Signed-off-by: Dave Hansen <dave.hansen@linux.intel.com> Reviewed-by: Dave Hansen <dave.hansen@linux.intel.com> Reviewed-by: H. Peter Anvin (Intel) <hpa@zytor.com> Reviewed-by: Tested-by: Maciej Wieczor-Retman <maciej.wieczor-retman@intel.com> Link: https://patch.msgid.link/20260309181029.398498-6-sohil.mehta@intel.com 
Vsyscall emulation has two modes of operation: XONLY and EMULATE. The
default XONLY mode is now supported with a LASS-triggered #GP. OTOH,
LASS is disabled if someone requests the deprecated EMULATE mode via the
vsyscall=emulate command line option. So, remove the restriction on LASS
when the overall vsyscall emulation support is compiled in.

As a result, there is no need for setup_lass() anymore. LASS is enabled
by default through a late_initcall().

Signed-off-by: Sohil Mehta <sohil.mehta@intel.com>
Signed-off-by: Dave Hansen <dave.hansen@linux.intel.com>
Reviewed-by: Dave Hansen <dave.hansen@linux.intel.com>
Reviewed-by: H. Peter Anvin (Intel) <hpa@zytor.com>
Reviewed-by:
Tested-by: Maciej Wieczor-Retman <maciej.wieczor-retman@intel.com>
Link: https://patch.msgid.link/20260309181029.398498-6-sohil.mehta@intel.com
KVM: VMX: Unconditionally allocate root VMCSes during boot CPU bringup 2026-03-04T16:52:34+00:00 Sean Christopherson seanjc@google.com 2026-02-14T01:26:50+00:00 405b7c27934eaabbcc52ccfbaeb22ef966b6b5f0 Allocate the root VMCS (misleading called "vmxarea" and "kvm_area" in KVM) for each possible CPU during early boot CPU bringup, before early TDX initialization, so that TDX can eventually do VMXON on-demand (to make SEAMCALLs) without needing to load kvm-intel.ko. Allocate the pages early on, e.g. instead of trying to do so on-demand, to avoid having to juggle allocation failures at runtime. Opportunistically rename the per-CPU pointers to better reflect the role of the VMCS. Use Intel's "root VMCS" terminology, e.g. from various VMCS patents[1][2] and older SDMs, not the more opaque "VMXON region" used in recent versions of the SDM. While it's possible the VMCS passed to VMXON no longer serves as _the_ root VMCS on modern CPUs, it is still in effect a "root mode VMCS", as described in the patents. Link: https://patentimages.storage.googleapis.com/c7/e4/32/d7a7def5580667/WO2013101191A1.pdf [1] Link: https://patentimages.storage.googleapis.com/13/f6/8d/1361fab8c33373/US20080163205A1.pdf [2] Tested-by: Chao Gao <chao.gao@intel.com> Reviewed-by: Dan Williams <dan.j.williams@intel.com> Tested-by: Sagi Shahar <sagis@google.com> Link: https://patch.msgid.link/20260214012702.2368778-5-seanjc@google.com Signed-off-by: Sean Christopherson <seanjc@google.com> 
Allocate the root VMCS (misleading called "vmxarea" and "kvm_area" in KVM)
for each possible CPU during early boot CPU bringup, before early TDX
initialization, so that TDX can eventually do VMXON on-demand (to make
SEAMCALLs) without needing to load kvm-intel.ko.  Allocate the pages early
on, e.g. instead of trying to do so on-demand, to avoid having to juggle
allocation failures at runtime.

Opportunistically rename the per-CPU pointers to better reflect the role
of the VMCS.  Use Intel's "root VMCS" terminology, e.g. from various VMCS
patents[1][2] and older SDMs, not the more opaque "VMXON region" used in
recent versions of the SDM.  While it's possible the VMCS passed to VMXON
no longer serves as _the_ root VMCS on modern CPUs, it is still in effect
a "root mode VMCS", as described in the patents.

Link: https://patentimages.storage.googleapis.com/c7/e4/32/d7a7def5580667/WO2013101191A1.pdf [1]
Link: https://patentimages.storage.googleapis.com/13/f6/8d/1361fab8c33373/US20080163205A1.pdf [2]
Tested-by: Chao Gao <chao.gao@intel.com>
Reviewed-by: Dan Williams <dan.j.williams@intel.com>
Tested-by: Sagi Shahar <sagis@google.com>
Link: https://patch.msgid.link/20260214012702.2368778-5-seanjc@google.com
Signed-off-by: Sean Christopherson <seanjc@google.com>