linux

mirror of git://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git synced 2025-08-19 22:11:22 +00:00

Author	SHA1	Message	Date
Sean Christopherson	331282fdb1	KVM: SVM: Drop 32-bit "support" from __svm_sev_es_vcpu_run() Drop 32-bit "support" from __svm_sev_es_vcpu_run(), as SEV/SEV-ES firmly 64-bit only. The "support" was purely the result of bad copy+paste from __svm_vcpu_run(), which in turn was slightly less bad copy+paste from __vmx_vcpu_run(). Opportunistically convert to unadulterated register accesses so that it's easier (but still not easy) to follow which registers hold what arguments, and when. Reviewed-by: Tom Lendacky <thomas.lendacky@amd.com> Link: https://lore.kernel.org/r/20240223204233.3337324-4-seanjc@google.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2024-04-09 10:20:29 -07:00
Sean Christopherson	7774c8f32e	KVM: SVM: Wrap __svm_sev_es_vcpu_run() with #ifdef CONFIG_KVM_AMD_SEV Compile (and link) __svm_sev_es_vcpu_run() if and only if SEV support is actually enabled. This will allow dropping non-existent 32-bit "support" from __svm_sev_es_vcpu_run() without causing undue confusion. Intentionally don't provide a stub (but keep the declaration), as any sane compiler, even with things like KASAN enabled, should eliminate the call to __svm_sev_es_vcpu_run() since sev_es_guest() unconditionally returns "false" if CONFIG_KVM_AMD_SEV=n. Reviewed-by: Tom Lendacky <thomas.lendacky@amd.com> Link: https://lore.kernel.org/r/20240223204233.3337324-3-seanjc@google.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2024-04-09 10:20:28 -07:00
Sean Christopherson	19597a71a0	KVM: SVM: Create a stack frame in __svm_vcpu_run() for unwinding Unconditionally create a stack frame in __svm_vcpu_run() to play nice with unwinding via frame pointers, at least until the point where RBP is loaded with the guest's value. Don't bother conditioning the code on CONFIG_FRAME_POINTER=y, as RBP needs to be saved and restored anyways (due to it being clobbered with the guest's value); omitting the "MOV RSP, RBP" is not worth the extra #ifdef. Creating a stack frame will allow removing the OBJECT_FILES_NON_STANDARD tag from vmenter.S once __svm_sev_es_vcpu_run() is fixed to not stomp all over RBP for no reason. Reviewed-by: Tom Lendacky <thomas.lendacky@amd.com> Link: https://lore.kernel.org/r/20240223204233.3337324-2-seanjc@google.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2024-04-09 10:20:28 -07:00
Christophe JAILLET	4710e4fc3e	KVM: SVM: Remove a useless zeroing of allocated memory Remove KVM's unnecessary zeroing of memory when allocating the pages array in sev_pin_memory() via __vmalloc(), as the array is only used to hold kernel pointers. The kmalloc() path for "small" regions doesn't zero the array, and if KVM leaks state and/or accesses uninitialized data, then the kernel has bigger problems. Signed-off-by: Christophe JAILLET <christophe.jaillet@wanadoo.fr> Link: https://lore.kernel.org/r/c7619a3d3cbb36463531a7c73ccbde9db587986c.1710004509.git.christophe.jaillet@wanadoo.fr [sean: massage changelog] Signed-off-by: Sean Christopherson <seanjc@google.com>	2024-04-09 10:15:30 -07:00
Ingo Molnar	5f2ca44ed2	Merge branch 'linus' into x86/urgent, to pick up dependent commit We want to fix: `0e11073247` ("x86/retpoline: Do the necessary fixup to the Zen3/4 srso return thunk for !SRSO") So merge in Linus's latest into x86/urgent to have it available. Signed-off-by: Ingo Molnar <mingo@kernel.org>	2024-04-06 13:00:32 +02:00
Borislav Petkov (AMD)	0ecaefb303	x86/CPU/AMD: Track SNP host status with cc_platform_*() The host SNP worthiness can determined later, after alternatives have been patched, in snp_rmptable_init() depending on cmdline options like iommu=pt which is incompatible with SNP, for example. Which means that one cannot use X86_FEATURE_SEV_SNP and will need to have a special flag for that control. Use that newly added CC_ATTR_HOST_SEV_SNP in the appropriate places. Move kdump_sev_callback() to its rightful place, while at it. Fixes: `216d106c7f` ("x86/sev: Add SEV-SNP host initialization support") Signed-off-by: Borislav Petkov (AMD) <bp@alien8.de> Reviewed-by: Tom Lendacky <thomas.lendacky@amd.com> Tested-by: Srikanth Aithal <sraithal@amd.com> Link: https://lore.kernel.org/r/20240327154317.29909-6-bp@alien8.de	2024-04-04 10:40:30 +02:00
Paolo Bonzini	1d55934ed5	KVM SVM changes for 6.9: - Add support for systems that are configured with SEV and SEV-ES+ enabled, but have all ASIDs assigned to SEV-ES+ guests, which effectively makes SEV unusuable. Cleanup ASID handling to make supporting this scenario less brittle/ugly. - Return -EINVAL instead of -EBUSY if userspace attempts to invoke KVM_SEV{,ES}_INIT on an SEV+ guest. The operation is simply invalid, and not related to resource contention in any way. -----BEGIN PGP SIGNATURE----- iQIzBAABCgAdFiEEKTobbabEP7vbhhN9OlYIJqCjN/0FAmXeMssACgkQOlYIJqCj N/3UQg/8D5J0N1jqE6cnPsN3OA733Q+fRkfJd6zLUn5qJ8jqssxeNUiRCCUYIP8b ijuUB1/SCphQoIlAmy73+lmLOs2AMtW5Qaephekv4YZlSlsqIbIq12LJ88PGv/Gd WO6zxeWnIPh1jLvaHA5bqEg6VC/vyl0enCXaw6o0ll3UubAQ5wcHaYoW0SM28bT3 mHJJBjElgvV9845y3sZkWYYP4AYAbrhNWVJLYgxZjByCYPHo5h0bffZKzniWxAZQ kANkotYJ2mMXAnagmuUvxOBxzSSVn7dYijR6u7eAx5PPodv9mptrFyY0XdGl0o8O MexEF4IQRpJN4JhFmC0Wm0Zw42TDq+CSBv2YqHEfnpgN7BYjIqiefx3+DdaQ3fwp czd+EVHHqDOklyCpBmOtZAtqSrSNAJn7OJk36Q/SCaEMbmgyE1nCNAZ7CubHpwET 9jGumcQ2gd+fcw8Ju8ehxD9su7tQun93gIZ5DGGcw3/x0P85V5eWvafjqv5lNnZ+ 5uwHFqt9Bir1Pdk59MyWpIH1YZ//Us3KYe+yApRwyjxMpiilrkYYowvQbu0/3BKo 0WcIDnTezYlF1EdHBruok/lgmIKm04FrlbxwAGFUFD0ClBSwZCr9K59gczX3v4sq giI4lWoHwRN79hM6QioeJcFDzSaxos9hppgcAw0+1fL8RsOPedA= =9jK/ -----END PGP SIGNATURE----- Merge tag 'kvm-x86-svm-6.9' of https://github.com/kvm-x86/linux into HEAD KVM SVM changes for 6.9: - Add support for systems that are configured with SEV and SEV-ES+ enabled, but have all ASIDs assigned to SEV-ES+ guests, which effectively makes SEV unusuable. Cleanup ASID handling to make supporting this scenario less brittle/ugly. - Return -EINVAL instead of -EBUSY if userspace attempts to invoke KVM_SEV{,ES}_INIT on an SEV+ guest. The operation is simply invalid, and not related to resource contention in any way.	2024-03-18 19:03:26 -04:00
Linus Torvalds	4f712ee0cb	S390: * Changes to FPU handling came in via the main s390 pull request * Only deliver to the guest the SCLP events that userspace has requested. * More virtual vs physical address fixes (only a cleanup since virtual and physical address spaces are currently the same). * Fix selftests undefined behavior. x86: * Fix a restriction that the guest can't program a PMU event whose encoding matches an architectural event that isn't included in the guest CPUID. The enumeration of an architectural event only says that if a CPU supports an architectural event, then the event can be programmed using the architectural encoding. The enumeration does NOT say anything about the encoding when the CPU doesn't report support the event in general. It might support it, and it might support it using the same encoding that made it into the architectural PMU spec. * Fix a variety of bugs in KVM's emulation of RDPMC (more details on individual commits) and add a selftest to verify KVM correctly emulates RDMPC, counter availability, and a variety of other PMC-related behaviors that depend on guest CPUID and therefore are easier to validate with selftests than with custom guests (aka kvm-unit-tests). * Zero out PMU state on AMD if the virtual PMU is disabled, it does not cause any bug but it wastes time in various cases where KVM would check if a PMC event needs to be synthesized. * Optimize triggering of emulated events, with a nice ~10% performance improvement in VM-Exit microbenchmarks when a vPMU is exposed to the guest. * Tighten the check for "PMI in guest" to reduce false positives if an NMI arrives in the host while KVM is handling an IRQ VM-Exit. * Fix a bug where KVM would report stale/bogus exit qualification information when exiting to userspace with an internal error exit code. * Add a VMX flag in /proc/cpuinfo to report 5-level EPT support. * Rework TDP MMU root unload, free, and alloc to run with mmu_lock held for read, e.g. to avoid serializing vCPUs when userspace deletes a memslot. * Tear down TDP MMU page tables at 4KiB granularity (used to be 1GiB). KVM doesn't support yielding in the middle of processing a zap, and 1GiB granularity resulted in multi-millisecond lags that are quite impolite for CONFIG_PREEMPT kernels. * Allocate write-tracking metadata on-demand to avoid the memory overhead when a kernel is built with i915 virtualization support but the workloads use neither shadow paging nor i915 virtualization. * Explicitly initialize a variety of on-stack variables in the emulator that triggered KMSAN false positives. * Fix the debugregs ABI for 32-bit KVM. * Rework the "force immediate exit" code so that vendor code ultimately decides how and when to force the exit, which allowed some optimization for both Intel and AMD. * Fix a long-standing bug where kvm_has_noapic_vcpu could be left elevated if vCPU creation ultimately failed, causing extra unnecessary work. * Cleanup the logic for checking if the currently loaded vCPU is in-kernel. * Harden against underflowing the active mmu_notifier invalidation count, so that "bad" invalidations (usually due to bugs elsehwere in the kernel) are detected earlier and are less likely to hang the kernel. x86 Xen emulation: * Overlay pages can now be cached based on host virtual address, instead of guest physical addresses. This removes the need to reconfigure and invalidate the cache if the guest changes the gpa but the underlying host virtual address remains the same. * When possible, use a single host TSC value when computing the deadline for Xen timers in order to improve the accuracy of the timer emulation. * Inject pending upcall events when the vCPU software-enables its APIC to fix a bug where an upcall can be lost (and to follow Xen's behavior). * Fall back to the slow path instead of warning if "fast" IRQ delivery of Xen events fails, e.g. if the guest has aliased xAPIC IDs. RISC-V: * Support exception and interrupt handling in selftests * New self test for RISC-V architectural timer (Sstc extension) * New extension support (Ztso, Zacas) * Support userspace emulation of random number seed CSRs. ARM: * Infrastructure for building KVM's trap configuration based on the architectural features (or lack thereof) advertised in the VM's ID registers * Support for mapping vfio-pci BARs as Normal-NC (vaguely similar to x86's WC) at stage-2, improving the performance of interacting with assigned devices that can tolerate it * Conversion of KVM's representation of LPIs to an xarray, utilized to address serialization some of the serialization on the LPI injection path * Support for _architectural_ VHE-only systems, advertised through the absence of FEAT_E2H0 in the CPU's ID register * Miscellaneous cleanups, fixes, and spelling corrections to KVM and selftests LoongArch: * Set reserved bits as zero in CPUCFG. * Start SW timer only when vcpu is blocking. * Do not restart SW timer when it is expired. * Remove unnecessary CSR register saving during enter guest. * Misc cleanups and fixes as usual. Generic: * cleanup Kconfig by removing CONFIG_HAVE_KVM, which was basically always true on all architectures except MIPS (where Kconfig determines the available depending on CPU capabilities). It is replaced either by an architecture-dependent symbol for MIPS, and IS_ENABLED(CONFIG_KVM) everywhere else. * Factor common "select" statements in common code instead of requiring each architecture to specify it * Remove thoroughly obsolete APIs from the uapi headers. * Move architecture-dependent stuff to uapi/asm/kvm.h * Always flush the async page fault workqueue when a work item is being removed, especially during vCPU destruction, to ensure that there are no workers running in KVM code when all references to KVM-the-module are gone, i.e. to prevent a very unlikely use-after-free if kvm.ko is unloaded. * Grab a reference to the VM's mm_struct in the async #PF worker itself instead of gifting the worker a reference, so that there's no need to remember to conditionally clean up after the worker. Selftests: * Reduce boilerplate especially when utilize selftest TAP infrastructure. * Add basic smoke tests for SEV and SEV-ES, along with a pile of library support for handling private/encrypted/protected memory. * Fix benign bugs where tests neglect to close() guest_memfd files. -----BEGIN PGP SIGNATURE----- iQFIBAABCAAyFiEE8TM4V0tmI4mGbHaCv/vSX3jHroMFAmX0iP8UHHBib256aW5p QHJlZGhhdC5jb20ACgkQv/vSX3jHroND7wf+JZoNvwZ+bmwWe/4jn/YwNoYi/C5z eypn8M1gsWEccpCpqPBwznVm9T29rF4uOlcMvqLEkHfTpaL1EKUUjP1lXPz/ileP 6a2RdOGxAhyTiFC9fjy+wkkjtLbn1kZf6YsS0hjphP9+w0chNbdn0w81dFVnXryd j7XYI8R/bFAthNsJOuZXSEjCfIHxvTTG74OrTf1B1FEBB+arPmrgUeJftMVhffQK Sowgg8L/Ii/x6fgV5NZQVSIyVf1rp8z7c6UaHT4Fwb0+RAMW8p9pYv9Qp1YkKp8y 5j0V9UzOHP7FRaYimZ5BtwQoqiZXYylQ+VuU/Y2f4X85cvlLzSqxaEMAPA== =mqOV -----END PGP SIGNATURE----- Merge tag 'for-linus' of git://git.kernel.org/pub/scm/virt/kvm/kvm Pull kvm updates from Paolo Bonzini: "S390: - Changes to FPU handling came in via the main s390 pull request - Only deliver to the guest the SCLP events that userspace has requested - More virtual vs physical address fixes (only a cleanup since virtual and physical address spaces are currently the same) - Fix selftests undefined behavior x86: - Fix a restriction that the guest can't program a PMU event whose encoding matches an architectural event that isn't included in the guest CPUID. The enumeration of an architectural event only says that if a CPU supports an architectural event, then the event can be programmed using the architectural encoding. The enumeration does NOT say anything about the encoding when the CPU doesn't report support the event in general. It might support it, and it might support it using the same encoding that made it into the architectural PMU spec - Fix a variety of bugs in KVM's emulation of RDPMC (more details on individual commits) and add a selftest to verify KVM correctly emulates RDMPC, counter availability, and a variety of other PMC-related behaviors that depend on guest CPUID and therefore are easier to validate with selftests than with custom guests (aka kvm-unit-tests) - Zero out PMU state on AMD if the virtual PMU is disabled, it does not cause any bug but it wastes time in various cases where KVM would check if a PMC event needs to be synthesized - Optimize triggering of emulated events, with a nice ~10% performance improvement in VM-Exit microbenchmarks when a vPMU is exposed to the guest - Tighten the check for "PMI in guest" to reduce false positives if an NMI arrives in the host while KVM is handling an IRQ VM-Exit - Fix a bug where KVM would report stale/bogus exit qualification information when exiting to userspace with an internal error exit code - Add a VMX flag in /proc/cpuinfo to report 5-level EPT support - Rework TDP MMU root unload, free, and alloc to run with mmu_lock held for read, e.g. to avoid serializing vCPUs when userspace deletes a memslot - Tear down TDP MMU page tables at 4KiB granularity (used to be 1GiB). KVM doesn't support yielding in the middle of processing a zap, and 1GiB granularity resulted in multi-millisecond lags that are quite impolite for CONFIG_PREEMPT kernels - Allocate write-tracking metadata on-demand to avoid the memory overhead when a kernel is built with i915 virtualization support but the workloads use neither shadow paging nor i915 virtualization - Explicitly initialize a variety of on-stack variables in the emulator that triggered KMSAN false positives - Fix the debugregs ABI for 32-bit KVM - Rework the "force immediate exit" code so that vendor code ultimately decides how and when to force the exit, which allowed some optimization for both Intel and AMD - Fix a long-standing bug where kvm_has_noapic_vcpu could be left elevated if vCPU creation ultimately failed, causing extra unnecessary work - Cleanup the logic for checking if the currently loaded vCPU is in-kernel - Harden against underflowing the active mmu_notifier invalidation count, so that "bad" invalidations (usually due to bugs elsehwere in the kernel) are detected earlier and are less likely to hang the kernel x86 Xen emulation: - Overlay pages can now be cached based on host virtual address, instead of guest physical addresses. This removes the need to reconfigure and invalidate the cache if the guest changes the gpa but the underlying host virtual address remains the same - When possible, use a single host TSC value when computing the deadline for Xen timers in order to improve the accuracy of the timer emulation - Inject pending upcall events when the vCPU software-enables its APIC to fix a bug where an upcall can be lost (and to follow Xen's behavior) - Fall back to the slow path instead of warning if "fast" IRQ delivery of Xen events fails, e.g. if the guest has aliased xAPIC IDs RISC-V: - Support exception and interrupt handling in selftests - New self test for RISC-V architectural timer (Sstc extension) - New extension support (Ztso, Zacas) - Support userspace emulation of random number seed CSRs ARM: - Infrastructure for building KVM's trap configuration based on the architectural features (or lack thereof) advertised in the VM's ID registers - Support for mapping vfio-pci BARs as Normal-NC (vaguely similar to x86's WC) at stage-2, improving the performance of interacting with assigned devices that can tolerate it - Conversion of KVM's representation of LPIs to an xarray, utilized to address serialization some of the serialization on the LPI injection path - Support for _architectural_ VHE-only systems, advertised through the absence of FEAT_E2H0 in the CPU's ID register - Miscellaneous cleanups, fixes, and spelling corrections to KVM and selftests LoongArch: - Set reserved bits as zero in CPUCFG - Start SW timer only when vcpu is blocking - Do not restart SW timer when it is expired - Remove unnecessary CSR register saving during enter guest - Misc cleanups and fixes as usual Generic: - Clean up Kconfig by removing CONFIG_HAVE_KVM, which was basically always true on all architectures except MIPS (where Kconfig determines the available depending on CPU capabilities). It is replaced either by an architecture-dependent symbol for MIPS, and IS_ENABLED(CONFIG_KVM) everywhere else - Factor common "select" statements in common code instead of requiring each architecture to specify it - Remove thoroughly obsolete APIs from the uapi headers - Move architecture-dependent stuff to uapi/asm/kvm.h - Always flush the async page fault workqueue when a work item is being removed, especially during vCPU destruction, to ensure that there are no workers running in KVM code when all references to KVM-the-module are gone, i.e. to prevent a very unlikely use-after-free if kvm.ko is unloaded - Grab a reference to the VM's mm_struct in the async #PF worker itself instead of gifting the worker a reference, so that there's no need to remember to conditionally clean up after the worker Selftests: - Reduce boilerplate especially when utilize selftest TAP infrastructure - Add basic smoke tests for SEV and SEV-ES, along with a pile of library support for handling private/encrypted/protected memory - Fix benign bugs where tests neglect to close() guest_memfd files" * tag 'for-linus' of git://git.kernel.org/pub/scm/virt/kvm/kvm: (246 commits) selftests: kvm: remove meaningless assignments in Makefiles KVM: riscv: selftests: Add Zacas extension to get-reg-list test RISC-V: KVM: Allow Zacas extension for Guest/VM KVM: riscv: selftests: Add Ztso extension to get-reg-list test RISC-V: KVM: Allow Ztso extension for Guest/VM RISC-V: KVM: Forward SEED CSR access to user space KVM: riscv: selftests: Add sstc timer test KVM: riscv: selftests: Change vcpu_has_ext to a common function KVM: riscv: selftests: Add guest helper to get vcpu id KVM: riscv: selftests: Add exception handling support LoongArch: KVM: Remove unnecessary CSR register saving during enter guest LoongArch: KVM: Do not restart SW timer when it is expired LoongArch: KVM: Start SW timer only when vcpu is blocking LoongArch: KVM: Set reserved bits as zero in CPUCFG KVM: selftests: Explicitly close guest_memfd files in some gmem tests KVM: x86/xen: fix recursive deadlock in timer injection KVM: pfncache: simplify locking and make more self-contained KVM: x86/xen: remove WARN_ON_ONCE() with false positives in evtchn delivery KVM: x86/xen: inject vCPU upcall vector when local APIC is enabled KVM: x86/xen: improve accuracy of Xen timers ...	2024-03-15 13:03:13 -07:00
Linus Torvalds	685d982112	Core x86 changes for v6.9: - The biggest change is the rework of the percpu code, to support the 'Named Address Spaces' GCC feature, by Uros Bizjak: - This allows C code to access GS and FS segment relative memory via variables declared with such attributes, which allows the compiler to better optimize those accesses than the previous inline assembly code. - The series also includes a number of micro-optimizations for various percpu access methods, plus a number of cleanups of %gs accesses in assembly code. - These changes have been exposed to linux-next testing for the last ~5 months, with no known regressions in this area. - Fix/clean up __switch_to()'s broken but accidentally working handling of FPU switching - which also generates better code. - Propagate more RIP-relative addressing in assembly code, to generate slightly better code. - Rework the CPU mitigations Kconfig space to be less idiosyncratic, to make it easier for distros to follow & maintain these options. - Rework the x86 idle code to cure RCU violations and to clean up the logic. - Clean up the vDSO Makefile logic. - Misc cleanups and fixes. [ Please note that there's a higher number of merge commits in this branch (three) than is usual in x86 topic trees. This happened due to the long testing lifecycle of the percpu changes that involved 3 merge windows, which generated a longer history and various interactions with other core x86 changes that we felt better about to carry in a single branch. ] Signed-off-by: Ingo Molnar <mingo@kernel.org> -----BEGIN PGP SIGNATURE----- iQJFBAABCgAvFiEEBpT5eoXrXCwVQwEKEnMQ0APhK1gFAmXvB0gRHG1pbmdvQGtl cm5lbC5vcmcACgkQEnMQ0APhK1jUqRAAqnEQPiabF5acQlHrwviX+cjSobDlqtH5 9q2AQy9qaEHapzD0XMOxvFye6XIvehGOGxSPvk6CoviSxBND8rb56lvnsEZuLeBV Bo5QSIL2x42Zrvo11iPHwgXZfTIusU90sBuKDRFkYBAxY3HK2naMDZe8MAsYCUE9 nwgHF8DDc/NYiSOXV8kosWoWpNIkoK/STyH5bvTQZMqZcwyZ49AIeP1jGZb/prbC e/rbnlrq5Eu6brpM7xo9kELO0Vhd34urV14KrrIpdkmUKytW2KIsyvW8D6fqgDBj NSaQLLcz0pCXbhF+8Nqvdh/1coR4L7Ymt08P1rfEjCsQgb/2WnSAGUQuC5JoGzaj ngkbFcZllIbD9gNzMQ1n4Aw5TiO+l9zxCqPC/r58Uuvstr+K9QKlwnp2+B3Q73Ft rojIJ04NJL6lCHdDgwAjTTks+TD2PT/eBWsDfJ/1pnUWttmv9IjMpnXD5sbHxoiU 2RGGKnYbxXczYdq/ALYDWM6JXpfnJZcXL3jJi0IDcCSsb92xRvTANYFHnTfyzGfw EHkhbF4e4Vy9f6QOkSP3CvW5H26BmZS9DKG0J9Il5R3u2lKdfbb5vmtUmVTqHmAD Ulo5cWZjEznlWCAYSI/aIidmBsp9OAEvYd+X7Z5SBIgTfSqV7VWHGt0BfA1heiVv F/mednG0gGc= =3v4F -----END PGP SIGNATURE----- Merge tag 'x86-core-2024-03-11' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip Pull core x86 updates from Ingo Molnar: - The biggest change is the rework of the percpu code, to support the 'Named Address Spaces' GCC feature, by Uros Bizjak: - This allows C code to access GS and FS segment relative memory via variables declared with such attributes, which allows the compiler to better optimize those accesses than the previous inline assembly code. - The series also includes a number of micro-optimizations for various percpu access methods, plus a number of cleanups of %gs accesses in assembly code. - These changes have been exposed to linux-next testing for the last ~5 months, with no known regressions in this area. - Fix/clean up __switch_to()'s broken but accidentally working handling of FPU switching - which also generates better code - Propagate more RIP-relative addressing in assembly code, to generate slightly better code - Rework the CPU mitigations Kconfig space to be less idiosyncratic, to make it easier for distros to follow & maintain these options - Rework the x86 idle code to cure RCU violations and to clean up the logic - Clean up the vDSO Makefile logic - Misc cleanups and fixes * tag 'x86-core-2024-03-11' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip: (52 commits) x86/idle: Select idle routine only once x86/idle: Let prefer_mwait_c1_over_halt() return bool x86/idle: Cleanup idle_setup() x86/idle: Clean up idle selection x86/idle: Sanitize X86_BUG_AMD_E400 handling sched/idle: Conditionally handle tick broadcast in default_idle_call() x86: Increase brk randomness entropy for 64-bit systems x86/vdso: Move vDSO to mmap region x86/vdso/kbuild: Group non-standard build attributes and primary object file rules together x86/vdso: Fix rethunk patching for vdso-image-{32,64}.o x86/retpoline: Ensure default return thunk isn't used at runtime x86/vdso: Use CONFIG_COMPAT_32 to specify vdso32 x86/vdso: Use $(addprefix ) instead of $(foreach ) x86/vdso: Simplify obj-y addition x86/vdso: Consolidate targets and clean-files x86/bugs: Rename CONFIG_RETHUNK => CONFIG_MITIGATION_RETHUNK x86/bugs: Rename CONFIG_CPU_SRSO => CONFIG_MITIGATION_SRSO x86/bugs: Rename CONFIG_CPU_IBRS_ENTRY => CONFIG_MITIGATION_IBRS_ENTRY x86/bugs: Rename CONFIG_CPU_UNRET_ENTRY => CONFIG_MITIGATION_UNRET_ENTRY x86/bugs: Rename CONFIG_SLS => CONFIG_MITIGATION_SLS ...	2024-03-11 19:53:15 -07:00
Linus Torvalds	38b334fc76	- Add the x86 part of the SEV-SNP host support. This will allow the kernel to be used as a KVM hypervisor capable of running SNP (Secure Nested Paging) guests. Roughly speaking, SEV-SNP is the ultimate goal of the AMD confidential computing side, providing the most comprehensive confidential computing environment up to date. This is the x86 part and there is a KVM part which did not get ready in time for the merge window so latter will be forthcoming in the next cycle. - Rework the early code's position-dependent SEV variable references in order to allow building the kernel with clang and -fPIE/-fPIC and -mcmodel=kernel - The usual set of fixes, cleanups and improvements all over the place -----BEGIN PGP SIGNATURE----- iQIzBAABCgAdFiEEzv7L6UO9uDPlPSfHEsHwGGHeVUoFAmXvH0wACgkQEsHwGGHe VUrzmA//VS/n6dhHRnm/nAGngr4PeegkgV1OhyKYFfiZ272rT6P9QvblQrgcY0dc Ij1DOhEKlke51pTHvMOQ33B3P4Fuc0mx3dpCLY0up5V26kzQiKCjRKEkC4U1bcw8 W4GqMejaR89bE14bYibmwpSib9T/uVsV65eM3xf1iF5UvsnoUaTziymDoy+nb43a B1pdd5vcl4mBNqXeEvt0qjg+xkMLpWUI9tJDB8mbMl/cnIFGgMZzBaY8oktHSROK QpuUnKegOgp1RXpfLbNjmZ2Q4Rkk4MNazzDzWq3EIxaRjXL3Qp507ePK7yeA2qa0 J3jCBQc9E2j7lfrIkUgNIzOWhMAXM2YH5bvH6UrIcMi1qsWJYDmkp2MF1nUedjdf Wj16/pJbeEw1aKKIywJGwsmViSQju158vY3SzXG83U/A/Iz7zZRHFmC/ALoxZptY Bi7VhfcOSpz98PE3axnG8CvvxRDWMfzBr2FY1VmQbg6VBNo1Xl1aP/IH1I8iQNKg /laBYl/qP+1286TygF1lthYROb1lfEIJprgi2xfO6jVYUqPb7/zq2sm78qZRfm7l 25PN/oHnuidfVfI/H3hzcGubjOG9Zwra8WWYBB2EEmelf21rT0OLqq+eS4T6pxFb GNVfc0AzG77UmqbrpkAMuPqL7LrGaSee4NdU3hkEdSphlx1/YTo= =c1ps -----END PGP SIGNATURE----- Merge tag 'x86_sev_for_v6.9_rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip Pull x86 SEV updates from Borislav Petkov: - Add the x86 part of the SEV-SNP host support. This will allow the kernel to be used as a KVM hypervisor capable of running SNP (Secure Nested Paging) guests. Roughly speaking, SEV-SNP is the ultimate goal of the AMD confidential computing side, providing the most comprehensive confidential computing environment up to date. This is the x86 part and there is a KVM part which did not get ready in time for the merge window so latter will be forthcoming in the next cycle. - Rework the early code's position-dependent SEV variable references in order to allow building the kernel with clang and -fPIE/-fPIC and -mcmodel=kernel - The usual set of fixes, cleanups and improvements all over the place * tag 'x86_sev_for_v6.9_rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip: (36 commits) x86/sev: Disable KMSAN for memory encryption TUs x86/sev: Dump SEV_STATUS crypto: ccp - Have it depend on AMD_IOMMU iommu/amd: Fix failure return from snp_lookup_rmpentry() x86/sev: Fix position dependent variable references in startup code crypto: ccp: Make snp_range_list static x86/Kconfig: Remove CONFIG_AMD_MEM_ENCRYPT_ACTIVE_BY_DEFAULT Documentation: virt: Fix up pre-formatted text block for SEV ioctls crypto: ccp: Add the SNP_SET_CONFIG command crypto: ccp: Add the SNP_COMMIT command crypto: ccp: Add the SNP_PLATFORM_STATUS command x86/cpufeatures: Enable/unmask SEV-SNP CPU feature KVM: SEV: Make AVIC backing, VMSA and VMCB memory allocation SNP safe crypto: ccp: Add panic notifier for SEV/SNP firmware shutdown on kdump iommu/amd: Clean up RMP entries for IOMMU pages during SNP shutdown crypto: ccp: Handle legacy SEV commands when SNP is enabled crypto: ccp: Handle non-volatile INIT_EX data when SNP is enabled crypto: ccp: Handle the legacy TMR allocation when SNP is enabled x86/sev: Introduce an SNP leaked pages list crypto: ccp: Provide an API to issue SEV and SNP commands ...	2024-03-11 17:44:11 -07:00
Paolo Bonzini	e9025cdd8c	KVM x86 PMU changes for 6.9: - Fix several bugs where KVM speciously prevents the guest from utilizing fixed counters and architectural event encodings based on whether or not guest CPUID reports support for the _architectural_ encoding. - Fix a variety of bugs in KVM's emulation of RDPMC, e.g. for "fast" reads, priority of VMX interception vs #GP, PMC types in architectural PMUs, etc. - Add a selftest to verify KVM correctly emulates RDMPC, counter availability, and a variety of other PMC-related behaviors that depend on guest CPUID, i.e. are difficult to validate via KVM-Unit-Tests. - Zero out PMU metadata on AMD if the virtual PMU is disabled to avoid wasting cycles, e.g. when checking if a PMC event needs to be synthesized when skipping an instruction. - Optimize triggering of emulated events, e.g. for "count instructions" events when skipping an instruction, which yields a ~10% performance improvement in VM-Exit microbenchmarks when a vPMU is exposed to the guest. - Tighten the check for "PMI in guest" to reduce false positives if an NMI arrives in the host while KVM is handling an IRQ VM-Exit. -----BEGIN PGP SIGNATURE----- iQIzBAABCgAdFiEEKTobbabEP7vbhhN9OlYIJqCjN/0FAmXrUFQACgkQOlYIJqCj N/11dhAAnr9e6mPmXvaH4YKcvOGgTmwIQdi5W4IBzGm27ErEb0Vyskx3UATRhRm+ gZyp3wNgEA9LeifICDNu4ypn7HZcl2VtRql6FYcB8Bcu8OiHfU8PhWL0/qrpY20e zffUj2tDweq2ft9Iks1SQJD0sxFkcXIcSKOffP7pRZJHFTKLltGORXwxzd9HJHPY nc4nERKegK2yH4A4gY6nZ0oV5L3OMUNHx815db5Y+HxXOIjBCjTQiNNd6mUdyX1N C5sIiElXLdvRTSDvirHfA32LqNwnajDGox4QKZkB3wszCxJ3kRd4OCkTEKMYKHxd KoKCJQnAdJFFW9xqbT8nNKXZ+hg2+ZQuoSaBuwKryf7jWi0e6a7jcV0OH+cQSZw7 UNudKhs3r4ambfvnFp2IVZlZREMDB+LAjo2So48Jn/JGCAzqte3XqwVKskn9pS9S qeauXCdOLioZALYtTBl8RM1rEY5mbwQrpPv9CzbeU09qQ/hpXV14W9GmbyeOZcI1 T1cYgEqlLuifRluwT/hxrY321+4noF116gSK1yb07x/sJU8/lhRooEk9V562066E qo6nIvc7Bv9gTGLwo6VReKSPcTT/6t3HwgPsRjqe+evso3EFN9f9hG+uPxtO6TUj pdPm3mkj2KfxDdJLf+Ys16gyGdiwI0ZImIkA0uLdM0zftNsrb4Y= =vayI -----END PGP SIGNATURE----- Merge tag 'kvm-x86-pmu-6.9' of https://github.com/kvm-x86/linux into HEAD KVM x86 PMU changes for 6.9: - Fix several bugs where KVM speciously prevents the guest from utilizing fixed counters and architectural event encodings based on whether or not guest CPUID reports support for the _architectural_ encoding. - Fix a variety of bugs in KVM's emulation of RDPMC, e.g. for "fast" reads, priority of VMX interception vs #GP, PMC types in architectural PMUs, etc. - Add a selftest to verify KVM correctly emulates RDMPC, counter availability, and a variety of other PMC-related behaviors that depend on guest CPUID, i.e. are difficult to validate via KVM-Unit-Tests. - Zero out PMU metadata on AMD if the virtual PMU is disabled to avoid wasting cycles, e.g. when checking if a PMC event needs to be synthesized when skipping an instruction. - Optimize triggering of emulated events, e.g. for "count instructions" events when skipping an instruction, which yields a ~10% performance improvement in VM-Exit microbenchmarks when a vPMU is exposed to the guest. - Tighten the check for "PMI in guest" to reduce false positives if an NMI arrives in the host while KVM is handling an IRQ VM-Exit.	2024-03-11 10:41:09 -04:00
Paolo Bonzini	c9cd0beae9	KVM x86 misc changes for 6.9: - Explicitly initialize a variety of on-stack variables in the emulator that triggered KMSAN false positives (though in fairness in KMSAN, it's comically difficult to see that the uninitialized memory is never truly consumed). - Fix the deubgregs ABI for 32-bit KVM, and clean up code related to reading DR6 and DR7. - Rework the "force immediate exit" code so that vendor code ultimately decides how and when to force the exit. This allows VMX to further optimize handling preemption timer exits, and allows SVM to avoid sending a duplicate IPI (SVM also has a need to force an exit). - Fix a long-standing bug where kvm_has_noapic_vcpu could be left elevated if vCPU creation ultimately failed, and add WARN to guard against similar bugs. - Provide a dedicated arch hook for checking if a different vCPU was in-kernel (for directed yield), and simplify the logic for checking if the currently loaded vCPU is in-kernel. - Misc cleanups and fixes. -----BEGIN PGP SIGNATURE----- iQIzBAABCgAdFiEEKTobbabEP7vbhhN9OlYIJqCjN/0FAmXrRjQACgkQOlYIJqCj N/2Dzw//b+ptSBAl1kGBRmk/DqsX7J9ZkQYCQOTeh1vXiUM+XRTSQoArN0Oo1roy 3wcEnQ0beVw7jMuzZ8UUuTfU8WUMja/kwltnqXYNHwLnb6yH0I/BIengXWdUdAMc FmgPZ4qJR2IzKYzvDsc3eEQ515O8UHWakyVDnmLBtiakAeBcUTYceHpEEPpzE5y5 ODASTQKM9o/h8R8JwKFTJ8/mrOLNcsu5SycwFdnmubLJCrNWtJWTijA6y1lh6shn hbEJex+ESoC2v8p7IP53u1SGJubVlPajt+RkYJtlEI3WVsevp024eYcF4nb1OjXi qS2Y3W7DQGWvyCBoSzoMY+9nRMgyOOpHYetdiz+9oZOmnjiYWY0ku59U7Gv+Aotj AUbCn4Ry/OpqsuZ7Oo7i3IT8R7uzsTeNNdxhYBn1OQquBEZ0KBYXlZkGfTk9K0t0 Fhka/5Zu6fBlg5J+zCyaXUGmsGWBo/9HxsC5z1JuKo8fatro5qyqYE5KiM01dkqc 6FET6gL+fFprC5c67JGRPdEtk6F9Emb+6oiTTA8/8q8JQQAKiJKk95Nlq7KzPfVS A5RQPTuTJ7acE/5CY4zB1DdxCjqgnonBEA2ULnA/J10Rk8orHJRnGJcEwKEyDrZh HpsxIIqt++i8KffORpCym6zSAVYuQjn1mu7MGth+zuCqhcEpBfc= =GX0O -----END PGP SIGNATURE----- Merge tag 'kvm-x86-misc-6.9' of https://github.com/kvm-x86/linux into HEAD KVM x86 misc changes for 6.9: - Explicitly initialize a variety of on-stack variables in the emulator that triggered KMSAN false positives (though in fairness in KMSAN, it's comically difficult to see that the uninitialized memory is never truly consumed). - Fix the deubgregs ABI for 32-bit KVM, and clean up code related to reading DR6 and DR7. - Rework the "force immediate exit" code so that vendor code ultimately decides how and when to force the exit. This allows VMX to further optimize handling preemption timer exits, and allows SVM to avoid sending a duplicate IPI (SVM also has a need to force an exit). - Fix a long-standing bug where kvm_has_noapic_vcpu could be left elevated if vCPU creation ultimately failed, and add WARN to guard against similar bugs. - Provide a dedicated arch hook for checking if a different vCPU was in-kernel (for directed yield), and simplify the logic for checking if the currently loaded vCPU is in-kernel. - Misc cleanups and fixes.	2024-03-11 10:24:56 -04:00
Paolo Bonzini	5abf6dceb0	SEV: disable SEV-ES DebugSwap by default The DebugSwap feature of SEV-ES provides a way for confidential guests to use data breakpoints. However, because the status of the DebugSwap feature is recorded in the VMSA, enabling it by default invalidates the attestation signatures. In 6.10 we will introduce a new API to create SEV VMs that will allow enabling DebugSwap based on what the user tells KVM to do. Contextually, we will change the legacy KVM_SEV_ES_INIT API to never enable DebugSwap. For compatibility with kernels that pre-date the introduction of DebugSwap, as well as with those where KVM_SEV_ES_INIT will never enable it, do not enable the feature by default. If anybody wants to use it, for now they can enable the sev_es_debug_swap_enabled module parameter, but this will result in a warning. Fixes: `d1f85fbe83` ("KVM: SEV: Enable data breakpoints in SEV-ES") Cc: stable@vger.kernel.org Signed-off-by: Paolo Bonzini <pbonzini@redhat.com>	2024-03-09 11:42:25 -05:00
Sean Christopherson	5ef1d8c1dd	KVM: SVM: Flush pages under kvm->lock to fix UAF in svm_register_enc_region() Do the cache flush of converted pages in svm_register_enc_region() before dropping kvm->lock to fix use-after-free issues where region and/or its array of pages could be freed by a different task, e.g. if userspace has __unregister_enc_region_locked() already queued up for the region. Note, the "obvious" alternative of using local variables doesn't fully resolve the bug, as region->pages is also dynamically allocated. I.e. the region structure itself would be fine, but region->pages could be freed. Flushing multiple pages under kvm->lock is unfortunate, but the entire flow is a rare slow path, and the manual flush is only needed on CPUs that lack coherency for encrypted memory. Fixes: `19a23da539` ("Fix unsynchronized access to sev members through svm_register_enc_region") Reported-by: Gabe Kirkpatrick <gkirkpatrick@google.com> Cc: Josh Eads <josheads@google.com> Cc: Peter Gonda <pgonda@google.com> Cc: stable@vger.kernel.org Signed-off-by: Sean Christopherson <seanjc@google.com> Message-Id: <20240217013430.2079561-1-seanjc@google.com> Signed-off-by: Paolo Bonzini <pbonzini@redhat.com>	2024-02-23 03:55:59 -05:00
Sean Christopherson	0ec3d6d1f1	KVM: x86: Fully defer to vendor code to decide how to force immediate exit Now that vmx->req_immediate_exit is used only in the scope of vmx_vcpu_run(), use force_immediate_exit to detect that KVM should usurp the VMX preemption to force a VM-Exit and let vendor code fully handle forcing a VM-Exit. Opportunsitically drop __kvm_request_immediate_exit() and just have vendor code call smp_send_reschedule() directly. SVM already does this when injecting an event while also trying to single-step an IRET, i.e. it's not exactly secret knowledge that KVM uses a reschedule IPI to force an exit. Link: https://lore.kernel.org/r/20240110012705.506918-7-seanjc@google.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2024-02-22 16:22:41 -08:00
Sean Christopherson	bf1a49436e	KVM: x86: Move handling of is_guest_mode() into fastpath exit handlers Let the fastpath code decide which exits can/can't be handled in the fastpath when L2 is active, e.g. when KVM generates a VMX preemption timer exit to forcefully regain control, there is no "work" to be done and so such exits can be handled in the fastpath regardless of whether L1 or L2 is active. Moving the is_guest_mode() check into the fastpath code also makes it easier to see that L2 isn't allowed to use the fastpath in most cases, e.g. it's not immediately obvious why handle_fastpath_preemption_timer() is called from the fastpath and the normal path. Link: https://lore.kernel.org/r/20240110012705.506918-5-seanjc@google.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2024-02-22 16:22:36 -08:00
Sean Christopherson	9c9025ea00	KVM: x86: Plumb "force_immediate_exit" into kvm_entry() tracepoint Annotate the kvm_entry() tracepoint with "immediate exit" when KVM is forcing a VM-Exit immediately after VM-Enter, e.g. when KVM wants to inject an event but needs to first complete some other operation. Knowing that KVM is (or isn't) forcing an exit is useful information when debugging issues related to event injection. Suggested-by: Maxim Levitsky <mlevitsk@redhat.com> Link: https://lore.kernel.org/r/20240110012705.506918-2-seanjc@google.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2024-02-22 16:22:36 -08:00
Sean Christopherson	fc5375dd8c	KVM: x86: Make kvm_get_dr() return a value, not use an out parameter Convert kvm_get_dr()'s output parameter to a return value, and clean up most of the mess that was created by forcing callers to provide a pointer. No functional change intended. Acked-by: Mathias Krause <minipli@grsecurity.net> Reviewed-by: Mathias Krause <minipli@grsecurity.net> Link: https://lore.kernel.org/r/20240209220752.388160-2-seanjc@google.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2024-02-22 16:14:47 -08:00
Ingo Molnar	4589f199eb	Merge branch 'x86/bugs' into x86/core, to pick up pending changes before dependent patches Merge in pending alternatives patching infrastructure changes, before applying more patches. Signed-off-by: Ingo Molnar <mingo@kernel.org>	2024-02-14 10:49:37 +01:00
Linus Torvalds	4356e9f841	work around gcc bugs with 'asm goto' with outputs We've had issues with gcc and 'asm goto' before, and we created a 'asm_volatile_goto()' macro for that in the past: see commits `3f0116c323` ("compiler/gcc4: Add quirk for 'asm goto' miscompilation bug") and `a9f180345f` ("compiler/gcc4: Make quirk for asm_volatile_goto() unconditional"). Then, much later, we ended up removing the workaround in commit `43c249ea0b` ("compiler-gcc.h: remove ancient workaround for gcc PR 58670") because we no longer supported building the kernel with the affected gcc versions, but we left the macro uses around. Now, Sean Christopherson reports a new version of a very similar problem, which is fixed by re-applying that ancient workaround. But the problem in question is limited to only the 'asm goto with outputs' cases, so instead of re-introducing the old workaround as-is, let's rename and limit the workaround to just that much less common case. It looks like there are at least two separate issues that all hit in this area: (a) some versions of gcc don't mark the asm goto as 'volatile' when it has outputs: https://gcc.gnu.org/bugzilla/show_bug.cgi?id=98619 https://gcc.gnu.org/bugzilla/show_bug.cgi?id=110420 which is easy to work around by just adding the 'volatile' by hand. (b) Internal compiler errors: https://gcc.gnu.org/bugzilla/show_bug.cgi?id=110422 which are worked around by adding the extra empty 'asm' as a barrier, as in the original workaround. but the problem Sean sees may be a third thing since it involves bad code generation (not an ICE) even with the manually added 'volatile'. but the same old workaround works for this case, even if this feels a bit like voodoo programming and may only be hiding the issue. Reported-and-tested-by: Sean Christopherson <seanjc@google.com> Link: https://lore.kernel.org/all/20240208220604.140859-1-seanjc@google.com/ Cc: Nick Desaulniers <ndesaulniers@google.com> Cc: Uros Bizjak <ubizjak@gmail.com> Cc: Jakub Jelinek <jakub@redhat.com> Cc: Andrew Pinski <quic_apinski@quicinc.com> Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>	2024-02-09 15:57:48 -08:00
Sean Christopherson	fdd58834d1	KVM: SVM: Return -EINVAL instead of -EBUSY on attempt to re-init SEV/SEV-ES Return -EINVAL instead of -EBUSY if userspace attempts KVM_SEV{,ES}_INIT on a VM that already has SEV active. Returning -EBUSY is nonsencial as it's impossible to deactivate SEV without destroying the VM, i.e. the VM isn't "busy" in any sane sense of the word, and the odds of any userspace wanting exactly -EBUSY on a userspace bug are minuscule. Reviewed-by: Tom Lendacky <thomas.lendacky@amd.com> Link: https://lore.kernel.org/r/20240131235609.4161407-5-seanjc@google.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2024-02-06 11:10:12 -08:00
Ashish Kalra	0aa6b90ef9	KVM: SVM: Add support for allowing zero SEV ASIDs Some BIOSes allow the end user to set the minimum SEV ASID value (CPUID 0x8000001F_EDX) to be greater than the maximum number of encrypted guests, or maximum SEV ASID value (CPUID 0x8000001F_ECX) in order to dedicate all the SEV ASIDs to SEV-ES or SEV-SNP. The SEV support, as coded, does not handle the case where the minimum SEV ASID value can be greater than the maximum SEV ASID value. As a result, the following confusing message is issued: [ 30.715724] kvm_amd: SEV enabled (ASIDs 1007 - 1006) Fix the support to properly handle this case. Fixes: `916391a2d1` ("KVM: SVM: Add support for SEV-ES capability in KVM") Suggested-by: Sean Christopherson <seanjc@google.com> Signed-off-by: Ashish Kalra <ashish.kalra@amd.com> Cc: stable@vger.kernel.org Acked-by: Tom Lendacky <thomas.lendacky@amd.com> Link: https://lore.kernel.org/r/20240104190520.62510-1-Ashish.Kalra@amd.com Link: https://lore.kernel.org/r/20240131235609.4161407-4-seanjc@google.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2024-02-06 11:10:11 -08:00
Sean Christopherson	466eec4a22	KVM: SVM: Use unsigned integers when dealing with ASIDs Convert all local ASID variables and parameters throughout the SEV code from signed integers to unsigned integers. As ASIDs are fundamentally unsigned values, and the global min/max variables are appropriately unsigned integers, too. Functionally, this is a glorified nop as KVM guarantees min_sev_asid is non-zero, and no CPU supports -1u as the _only_ asid, i.e. the signed vs. unsigned goof won't cause problems in practice. Opportunistically use sev_get_asid() in sev_flush_encrypted_page() instead of open coding an equivalent. Reviewed-by: Tom Lendacky <thomas.lendacky@amd.com> Link: https://lore.kernel.org/r/20240131235609.4161407-3-seanjc@google.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2024-02-06 11:09:34 -08:00
Sean Christopherson	cc4ce37bed	KVM: SVM: Set sev->asid in sev_asid_new() instead of overloading the return Explicitly set sev->asid in sev_asid_new() when a new ASID is successfully allocated, and return '0' to indicate success instead of overloading the return value to multiplex the ASID with error codes. There is exactly one caller of sev_asid_new(), and sev_asid_free() already consumes sev->asid, i.e. returning the ASID isn't necessary for flexibility, nor does it provide symmetry between related APIs. Reviewed-by: Tom Lendacky <thomas.lendacky@amd.com> Link: https://lore.kernel.org/r/20240131235609.4161407-2-seanjc@google.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2024-02-06 11:08:44 -08:00
Sean Christopherson	b31880ca2f	KVM: x86/pmu: Move pmc_idx => pmc translation helper to common code Add a common helper for internal PMC lookups, and delete the ops hook and Intel's implementation. Keep AMD's implementation, but rename it to amd_pmu_get_pmc() to make it somewhat more obvious that it's suited for both KVM-internal and guest-initiated lookups. Because KVM tracks all counters in a single bitmap, getting a counter when iterating over a bitmap, e.g. of all valid PMCs, requires a small amount of math, that while simple, isn't super obvious and doesn't use the same semantics as PMC lookups from RDPMC! Although AMD doesn't support fixed counters, the common PMU code still behaves as if there a split, the high half of which just happens to always be empty. Opportunstically add a comment to explain both what is going on, and why KVM uses a single bitmap, e.g. the boilerplate for iterating over separate bitmaps could be done via macros, so it's not (just) about deduplicating code. Link: https://lore.kernel.org/r/20231110022857.1273836-4-seanjc@google.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2024-02-01 09:35:47 -08:00
Sean Christopherson	7bb7fce136	KVM: x86/pmu: Prioritize VMX interception over #GP on RDPMC due to bad index Apply the pre-intercepts RDPMC validity check only to AMD, and rename all relevant functions to make it as clear as possible that the check is not a standard PMC index check. On Intel, the basic rule is that only invalid opcodes and privilege/permission/mode checks have priority over VM-Exit, i.e. RDPMC with an invalid index should VM-Exit, not #GP. While the SDM doesn't explicitly call out RDPMC, it _does_ explicitly use RDMSR of a non-existent MSR as an example where VM-Exit has priority over #GP, and RDPMC is effectively just a variation of RDMSR. Manually testing on various Intel CPUs confirms this behavior, and the inverted priority was introduced for SVM compatibility, i.e. was not an intentional change for Intel PMUs. On AMD, all exceptions on RDPMC have priority over VM-Exit. Check for a NULL kvm_pmu_ops.check_rdpmc_early instead of using a RET0 static call so as to provide a convenient location to document the difference between Intel and AMD, and to again try to make it as obvious as possible that the early check is a one-off thing, not a generic "is this PMC valid?" helper. Fixes: `8061252ee0` ("KVM: SVM: Add intercept checks for remaining twobyte instructions") Cc: Jim Mattson <jmattson@google.com> Tested-by: Dapeng Mi <dapeng1.mi@linux.intel.com> Link: https://lore.kernel.org/r/20240109230250.424295-8-seanjc@google.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2024-01-30 15:28:02 -08:00
Sean Christopherson	ecb490770a	KVM: x86/pmu: Don't ignore bits 31:30 for RDPMC index on AMD Stop stripping bits 31:30 prior to validating/consuming the RDPMC index on AMD. Per the APM's documentation of RDPMC, values greater than 27 are reserved. The behavior of upper bits being flags is firmly Intel-only. Fixes: `ca724305a2` ("KVM: x86/vPMU: Implement AMD vPMU code for KVM") Tested-by: Dapeng Mi <dapeng1.mi@linux.intel.com> Link: https://lore.kernel.org/r/20240109230250.424295-7-seanjc@google.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2024-01-30 15:28:02 -08:00
Sean Christopherson	cbbd1aa891	KVM: x86/pmu: Allow programming events that match unsupported arch events Remove KVM's bogus restriction that the guest can't program an event whose encoding matches an unsupported architectural event. The enumeration of an architectural event only says that if a CPU supports an architectural event, then the event can be programmed using the architectural encoding. The enumeration does NOT say anything about the encoding when the CPU doesn't report support the architectural event. Preventing the guest from counting events whose encoding happens to match an architectural event breaks existing functionality whenever Intel adds an architectural encoding that was ever used for a CPU that doesn't enumerate support for the architectural event, even if the encoding is for the exact same event! E.g. the architectural encoding for Top-Down Slots is 0x01a4. Broadwell CPUs, which do not support the Top-Down Slots architectural event, 0x01a4 is a valid, model-specific event. Denying guest usage of 0x01a4 if/when KVM adds support for Top-Down slots would break any Broadwell-based guest. Reported-by: Kan Liang <kan.liang@linux.intel.com> Closes: https://lore.kernel.org/all/2004baa6-b494-462c-a11f-8104ea152c6a@linux.intel.com Fixes: `a21864486f` ("KVM: x86/pmu: Fix available_event_types check for REF_CPU_CYCLES event") Reviewed-by: Dapeng Mi <dapeng1.mi@linux.intel.com> Reviewed-by: Jim Mattson <jmattson@google.com> Reviewed-by: Kan Liang <kan.liang@linux.intel.com> Tested-by: Dapeng Mi <dapeng1.mi@linux.intel.com> Link: https://lore.kernel.org/r/20240109230250.424295-3-seanjc@google.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2024-01-30 15:28:02 -08:00
Brijesh Singh	75253db41a	KVM: SEV: Make AVIC backing, VMSA and VMCB memory allocation SNP safe Implement a workaround for an SNP erratum where the CPU will incorrectly signal an RMP violation #PF if a hugepage (2MB or 1GB) collides with the RMP entry of a VMCB, VMSA or AVIC backing page. When SEV-SNP is globally enabled, the CPU marks the VMCB, VMSA, and AVIC backing pages as "in-use" via a reserved bit in the corresponding RMP entry after a successful VMRUN. This is done for _all_ VMs, not just SNP-Active VMs. If the hypervisor accesses an in-use page through a writable translation, the CPU will throw an RMP violation #PF. On early SNP hardware, if an in-use page is 2MB-aligned and software accesses any part of the associated 2MB region with a hugepage, the CPU will incorrectly treat the entire 2MB region as in-use and signal a an RMP violation #PF. To avoid this, the recommendation is to not use a 2MB-aligned page for the VMCB, VMSA or AVIC pages. Add a generic allocator that will ensure that the page returned is not 2MB-aligned and is safe to be used when SEV-SNP is enabled. Also implement similar handling for the VMCB/VMSA pages of nested guests. [ mdr: Squash in nested guest handling from Ashish, commit msg fixups. ] Reported-by: Alper Gun <alpergun@google.com> # for nested VMSA case Signed-off-by: Brijesh Singh <brijesh.singh@amd.com> Co-developed-by: Marc Orr <marcorr@google.com> Signed-off-by: Marc Orr <marcorr@google.com> Co-developed-by: Ashish Kalra <ashish.kalra@amd.com> Signed-off-by: Ashish Kalra <ashish.kalra@amd.com> Signed-off-by: Michael Roth <michael.roth@amd.com> Signed-off-by: Borislav Petkov (AMD) <bp@alien8.de> Acked-by: Vlastimil Babka <vbabka@suse.cz> Acked-by: Paolo Bonzini <pbonzini@redhat.com> Link: https://lore.kernel.org/r/20240126041126.1927228-22-michael.roth@amd.com	2024-01-29 20:34:19 +01:00
Brijesh Singh	1ca5614b84	crypto: ccp: Add support to initialize the AMD-SP for SEV-SNP Before SNP VMs can be launched, the platform must be appropriately configured and initialized via the SNP_INIT command. During the execution of SNP_INIT command, the firmware configures and enables SNP security policy enforcement in many system components. Some system components write to regions of memory reserved by early x86 firmware (e.g. UEFI). Other system components write to regions provided by the operation system, hypervisor, or x86 firmware. Such system components can only write to HV-fixed pages or Default pages. They will error when attempting to write to pages in other page states after SNP_INIT enables their SNP enforcement. Starting in SNP firmware v1.52, the SNP_INIT_EX command takes a list of system physical address ranges to convert into the HV-fixed page states during the RMP initialization. If INIT_RMP is 1, hypervisors should provide all system physical address ranges that the hypervisor will never assign to a guest until the next RMP re-initialization. For instance, the memory that UEFI reserves should be included in the range list. This allows system components that occasionally write to memory (e.g. logging to UEFI reserved regions) to not fail due to RMP initialization and SNP enablement. Note that SNP_INIT(_EX) must not be executed while non-SEV guests are executing, otherwise it is possible that the system could reset or hang. The psp_init_on_probe module parameter was added for SEV/SEV-ES support and the init_ex_path module parameter to allow for time for the necessary file system to be mounted/available. SNP_INIT(_EX) does not use the file associated with init_ex_path. So, to avoid running into issues where SNP_INIT(_EX) is called while there are other running guests, issue it during module probe regardless of the psp_init_on_probe setting, but maintain the previous deferrable handling for SEV/SEV-ES initialization. [ mdr: Squash in psp_init_on_probe changes from Tom, reduce proliferation of 'probe' function parameter where possible. bp: Fix 32-bit allmodconfig build. ] Signed-off-by: Brijesh Singh <brijesh.singh@amd.com> Co-developed-by: Ashish Kalra <ashish.kalra@amd.com> Signed-off-by: Ashish Kalra <ashish.kalra@amd.com> Co-developed-by: Jarkko Sakkinen <jarkko@profian.com> Signed-off-by: Jarkko Sakkinen <jarkko@profian.com> Signed-off-by: Tom Lendacky <thomas.lendacky@amd.com> Signed-off-by: Michael Roth <michael.roth@amd.com> Signed-off-by: Borislav Petkov (AMD) <bp@alien8.de> Link: https://lore.kernel.org/r/20240126041126.1927228-14-michael.roth@amd.com	2024-01-29 20:34:18 +01:00
Linus Torvalds	09d1c6a80f	Generic: - Use memdup_array_user() to harden against overflow. - Unconditionally advertise KVM_CAP_DEVICE_CTRL for all architectures. - Clean up Kconfigs that all KVM architectures were selecting - New functionality around "guest_memfd", a new userspace API that creates an anonymous file and returns a file descriptor that refers to it. guest_memfd files are bound to their owning virtual machine, cannot be mapped, read, or written by userspace, and cannot be resized. guest_memfd files do however support PUNCH_HOLE, which can be used to switch a memory area between guest_memfd and regular anonymous memory. - New ioctl KVM_SET_MEMORY_ATTRIBUTES allowing userspace to specify per-page attributes for a given page of guest memory; right now the only attribute is whether the guest expects to access memory via guest_memfd or not, which in Confidential SVMs backed by SEV-SNP, TDX or ARM64 pKVM is checked by firmware or hypervisor that guarantees confidentiality (AMD PSP, Intel TDX module, or EL2 in the case of pKVM). x86: - Support for "software-protected VMs" that can use the new guest_memfd and page attributes infrastructure. This is mostly useful for testing, since there is no pKVM-like infrastructure to provide a meaningfully reduced TCB. - Fix a relatively benign off-by-one error when splitting huge pages during CLEAR_DIRTY_LOG. - Fix a bug where KVM could incorrectly test-and-clear dirty bits in non-leaf TDP MMU SPTEs if a racing thread replaces a huge SPTE with a non-huge SPTE. - Use more generic lockdep assertions in paths that don't actually care about whether the caller is a reader or a writer. - let Xen guests opt out of having PV clock reported as "based on a stable TSC", because some of them don't expect the "TSC stable" bit (added to the pvclock ABI by KVM, but never set by Xen) to be set. - Revert a bogus, made-up nested SVM consistency check for TLB_CONTROL. - Advertise flush-by-ASID support for nSVM unconditionally, as KVM always flushes on nested transitions, i.e. always satisfies flush requests. This allows running bleeding edge versions of VMware Workstation on top of KVM. - Sanity check that the CPU supports flush-by-ASID when enabling SEV support. - On AMD machines with vNMI, always rely on hardware instead of intercepting IRET in some cases to detect unmasking of NMIs - Support for virtualizing Linear Address Masking (LAM) - Fix a variety of vPMU bugs where KVM fail to stop/reset counters and other state prior to refreshing the vPMU model. - Fix a double-overflow PMU bug by tracking emulated counter events using a dedicated field instead of snapshotting the "previous" counter. If the hardware PMC count triggers overflow that is recognized in the same VM-Exit that KVM manually bumps an event count, KVM would pend PMIs for both the hardware-triggered overflow and for KVM-triggered overflow. - Turn off KVM_WERROR by default for all configs so that it's not inadvertantly enabled by non-KVM developers, which can be problematic for subsystems that require no regressions for W=1 builds. - Advertise all of the host-supported CPUID bits that enumerate IA32_SPEC_CTRL "features". - Don't force a masterclock update when a vCPU synchronizes to the current TSC generation, as updating the masterclock can cause kvmclock's time to "jump" unexpectedly, e.g. when userspace hotplugs a pre-created vCPU. - Use RIP-relative address to read kvm_rebooting in the VM-Enter fault paths, partly as a super minor optimization, but mostly to make KVM play nice with position independent executable builds. - Guard KVM-on-HyperV's range-based TLB flush hooks with an #ifdef on CONFIG_HYPERV as a minor optimization, and to self-document the code. - Add CONFIG_KVM_HYPERV to allow disabling KVM support for HyperV "emulation" at build time. ARM64: - LPA2 support, adding 52bit IPA/PA capability for 4kB and 16kB base granule sizes. Branch shared with the arm64 tree. - Large Fine-Grained Trap rework, bringing some sanity to the feature, although there is more to come. This comes with a prefix branch shared with the arm64 tree. - Some additional Nested Virtualization groundwork, mostly introducing the NV2 VNCR support and retargetting the NV support to that version of the architecture. - A small set of vgic fixes and associated cleanups. Loongarch: - Optimization for memslot hugepage checking - Cleanup and fix some HW/SW timer issues - Add LSX/LASX (128bit/256bit SIMD) support RISC-V: - KVM_GET_REG_LIST improvement for vector registers - Generate ISA extension reg_list using macros in get-reg-list selftest - Support for reporting steal time along with selftest s390: - Bugfixes Selftests: - Fix an annoying goof where the NX hugepage test prints out garbage instead of the magic token needed to run the test. - Fix build errors when a header is delete/moved due to a missing flag in the Makefile. - Detect if KVM bugged/killed a selftest's VM and print out a helpful message instead of complaining that a random ioctl() failed. - Annotate the guest printf/assert helpers with __printf(), and fix the various bugs that were lurking due to lack of said annotation. There are two non-KVM patches buried in the middle of guest_memfd support: fs: Rename anon_inode_getfile_secure() and anon_inode_getfd_secure() mm: Add AS_UNMOVABLE to mark mapping as completely unmovable The first is small and mostly suggested-by Christian Brauner; the second a bit less so but it was written by an mm person (Vlastimil Babka). -----BEGIN PGP SIGNATURE----- iQFIBAABCAAyFiEE8TM4V0tmI4mGbHaCv/vSX3jHroMFAmWcMWkUHHBib256aW5p QHJlZGhhdC5jb20ACgkQv/vSX3jHroO15gf/WLmmg3SET6Uzw9iEq2xo28831ZA+ 6kpILfIDGKozV5safDmMvcInlc/PTnqOFrsKyyN4kDZ+rIJiafJdg/loE0kPXBML wdR+2ix5kYI1FucCDaGTahskBDz8Lb/xTpwGg9BFLYFNmuUeHc74o6GoNvr1uliE 4kLZL2K6w0cSMPybUD+HqGaET80ZqPwecv+s1JL+Ia0kYZJONJifoHnvOUJ7DpEi rgudVdgzt3EPjG0y1z6MjvDBXTCOLDjXajErlYuZD3Ej8N8s59Dh2TxOiDNTLdP4 a4zjRvDmgyr6H6sz+upvwc7f4M4p+DBvf+TkWF54mbeObHUYliStqURIoA== =66Ws -----END PGP SIGNATURE----- Merge tag 'for-linus' of git://git.kernel.org/pub/scm/virt/kvm/kvm Pull kvm updates from Paolo Bonzini: "Generic: - Use memdup_array_user() to harden against overflow. - Unconditionally advertise KVM_CAP_DEVICE_CTRL for all architectures. - Clean up Kconfigs that all KVM architectures were selecting - New functionality around "guest_memfd", a new userspace API that creates an anonymous file and returns a file descriptor that refers to it. guest_memfd files are bound to their owning virtual machine, cannot be mapped, read, or written by userspace, and cannot be resized. guest_memfd files do however support PUNCH_HOLE, which can be used to switch a memory area between guest_memfd and regular anonymous memory. - New ioctl KVM_SET_MEMORY_ATTRIBUTES allowing userspace to specify per-page attributes for a given page of guest memory; right now the only attribute is whether the guest expects to access memory via guest_memfd or not, which in Confidential SVMs backed by SEV-SNP, TDX or ARM64 pKVM is checked by firmware or hypervisor that guarantees confidentiality (AMD PSP, Intel TDX module, or EL2 in the case of pKVM). x86: - Support for "software-protected VMs" that can use the new guest_memfd and page attributes infrastructure. This is mostly useful for testing, since there is no pKVM-like infrastructure to provide a meaningfully reduced TCB. - Fix a relatively benign off-by-one error when splitting huge pages during CLEAR_DIRTY_LOG. - Fix a bug where KVM could incorrectly test-and-clear dirty bits in non-leaf TDP MMU SPTEs if a racing thread replaces a huge SPTE with a non-huge SPTE. - Use more generic lockdep assertions in paths that don't actually care about whether the caller is a reader or a writer. - let Xen guests opt out of having PV clock reported as "based on a stable TSC", because some of them don't expect the "TSC stable" bit (added to the pvclock ABI by KVM, but never set by Xen) to be set. - Revert a bogus, made-up nested SVM consistency check for TLB_CONTROL. - Advertise flush-by-ASID support for nSVM unconditionally, as KVM always flushes on nested transitions, i.e. always satisfies flush requests. This allows running bleeding edge versions of VMware Workstation on top of KVM. - Sanity check that the CPU supports flush-by-ASID when enabling SEV support. - On AMD machines with vNMI, always rely on hardware instead of intercepting IRET in some cases to detect unmasking of NMIs - Support for virtualizing Linear Address Masking (LAM) - Fix a variety of vPMU bugs where KVM fail to stop/reset counters and other state prior to refreshing the vPMU model. - Fix a double-overflow PMU bug by tracking emulated counter events using a dedicated field instead of snapshotting the "previous" counter. If the hardware PMC count triggers overflow that is recognized in the same VM-Exit that KVM manually bumps an event count, KVM would pend PMIs for both the hardware-triggered overflow and for KVM-triggered overflow. - Turn off KVM_WERROR by default for all configs so that it's not inadvertantly enabled by non-KVM developers, which can be problematic for subsystems that require no regressions for W=1 builds. - Advertise all of the host-supported CPUID bits that enumerate IA32_SPEC_CTRL "features". - Don't force a masterclock update when a vCPU synchronizes to the current TSC generation, as updating the masterclock can cause kvmclock's time to "jump" unexpectedly, e.g. when userspace hotplugs a pre-created vCPU. - Use RIP-relative address to read kvm_rebooting in the VM-Enter fault paths, partly as a super minor optimization, but mostly to make KVM play nice with position independent executable builds. - Guard KVM-on-HyperV's range-based TLB flush hooks with an #ifdef on CONFIG_HYPERV as a minor optimization, and to self-document the code. - Add CONFIG_KVM_HYPERV to allow disabling KVM support for HyperV "emulation" at build time. ARM64: - LPA2 support, adding 52bit IPA/PA capability for 4kB and 16kB base granule sizes. Branch shared with the arm64 tree. - Large Fine-Grained Trap rework, bringing some sanity to the feature, although there is more to come. This comes with a prefix branch shared with the arm64 tree. - Some additional Nested Virtualization groundwork, mostly introducing the NV2 VNCR support and retargetting the NV support to that version of the architecture. - A small set of vgic fixes and associated cleanups. Loongarch: - Optimization for memslot hugepage checking - Cleanup and fix some HW/SW timer issues - Add LSX/LASX (128bit/256bit SIMD) support RISC-V: - KVM_GET_REG_LIST improvement for vector registers - Generate ISA extension reg_list using macros in get-reg-list selftest - Support for reporting steal time along with selftest s390: - Bugfixes Selftests: - Fix an annoying goof where the NX hugepage test prints out garbage instead of the magic token needed to run the test. - Fix build errors when a header is delete/moved due to a missing flag in the Makefile. - Detect if KVM bugged/killed a selftest's VM and print out a helpful message instead of complaining that a random ioctl() failed. - Annotate the guest printf/assert helpers with __printf(), and fix the various bugs that were lurking due to lack of said annotation" * tag 'for-linus' of git://git.kernel.org/pub/scm/virt/kvm/kvm: (185 commits) x86/kvm: Do not try to disable kvmclock if it was not enabled KVM: x86: add missing "depends on KVM" KVM: fix direction of dependency on MMU notifiers KVM: introduce CONFIG_KVM_COMMON KVM: arm64: Add missing memory barriers when switching to pKVM's hyp pgd KVM: arm64: vgic-its: Avoid potential UAF in LPI translation cache RISC-V: KVM: selftests: Add get-reg-list test for STA registers RISC-V: KVM: selftests: Add steal_time test support RISC-V: KVM: selftests: Add guest_sbi_probe_extension RISC-V: KVM: selftests: Move sbi_ecall to processor.c RISC-V: KVM: Implement SBI STA extension RISC-V: KVM: Add support for SBI STA registers RISC-V: KVM: Add support for SBI extension registers RISC-V: KVM: Add SBI STA info to vcpu_arch RISC-V: KVM: Add steal-update vcpu request RISC-V: KVM: Add SBI STA extension skeleton RISC-V: paravirt: Implement steal-time support RISC-V: Add SBI STA extension definitions RISC-V: paravirt: Add skeleton for pv-time support RISC-V: KVM: Fix indentation in kvm_riscv_vcpu_set_reg_csr() ...	2024-01-17 13:03:37 -08:00
Breno Leitao	aefb2f2e61	x86/bugs: Rename CONFIG_RETPOLINE => CONFIG_MITIGATION_RETPOLINE Step 5/10 of the namespace unification of CPU mitigations related Kconfig options. [ mingo: Converted a few more uses in comments/messages as well. ] Suggested-by: Josh Poimboeuf <jpoimboe@kernel.org> Signed-off-by: Breno Leitao <leitao@debian.org> Signed-off-by: Ingo Molnar <mingo@kernel.org> Reviewed-by: Ariel Miculas <amiculas@cisco.com> Acked-by: Josh Poimboeuf <jpoimboe@kernel.org> Cc: Linus Torvalds <torvalds@linux-foundation.org> Link: https://lore.kernel.org/r/20231121160740.1249350-6-leitao@debian.org	2024-01-10 10:52:28 +01:00
Linus Torvalds	b51cc5d028	x86/cleanups changes for v6.8: - A micro-optimization got misplaced as a cleanup: - Micro-optimize the asm code in secondary_startup_64_no_verify() - Change global variables to local - Add missing kernel-doc function parameter descriptions - Remove unused parameter from a macro - Remove obsolete Kconfig entry - Fix comments - Fix typos, mostly scripted, manually reviewed Signed-off-by: Ingo Molnar <mingo@kernel.org> -----BEGIN PGP SIGNATURE----- iQJFBAABCgAvFiEEBpT5eoXrXCwVQwEKEnMQ0APhK1gFAmWb2i8RHG1pbmdvQGtl cm5lbC5vcmcACgkQEnMQ0APhK1iFIQ//RjqKWmEBfv0UVCNgtRgkUKOvYVkfhC1R FykHWbSE+/oDODS7B+gbWqzl9Fq2Oxx9re4KZuMfnojE96KZ6H1flQn7z3UVRUrf pfMx13E+uyf7qbVZktqH38lUS4s/AHdX2PKCiXlU/0hIkiBdjbAl3ylyqMv7ytIL Fi2N9iYJN+eLlMkc3A5IK83xNiU8rb0gO6Uywn3nUbqadY/YX2gDpND5kfzRIneR lTKy4rX3+E65qYB2Ly1wDr7e0Q0rgaTzPctx6twFrxQXK+MsHiartJhM5juND/tU DEjSW9ISOHlitKEJI/zbdrvJlr5AKDNy2zHYmQQuqY6+YHRamCKqwIjLIPkKj52g lAbosNwvp/o8W3zUHgUfVZR5hVxN863zV2qa/ehoQ3b/9kNjQC8actILjYEgIVu9 av1sd+nETbjCUABIF9H9uAoRbgc+wQs2nupJZrjvginFz8+WVhgaBdJDMYCNAmjc fNMjGtRS7YXiIMj09ZAXFThVW302FdbTgggDh/qlQlDOXFu5HRbyuWR+USr4/jkP qs2G6m/BHDs9HxDRo/no+ccSrUBV5phfhZbO7qwjTf2NJJvPHW+cxGpT00zU2v8A lgfVI7SDkxwbyi1gacJ054GqEhsWuEdi40ikqxjhL8Oq4xwwsey/PiaIxjkDQx92 Gj3XUSDnGEs= =kUav -----END PGP SIGNATURE----- Merge tag 'x86-cleanups-2024-01-08' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip Pull x86 cleanups from Ingo Molnar: - Change global variables to local - Add missing kernel-doc function parameter descriptions - Remove unused parameter from a macro - Remove obsolete Kconfig entry - Fix comments - Fix typos, mostly scripted, manually reviewed and a micro-optimization got misplaced as a cleanup: - Micro-optimize the asm code in secondary_startup_64_no_verify() * tag 'x86-cleanups-2024-01-08' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip: arch/x86: Fix typos x86/head_64: Use TESTB instead of TESTL in secondary_startup_64_no_verify() x86/docs: Remove reference to syscall trampoline in PTI x86/Kconfig: Remove obsolete config X86_32_SMP x86/io: Remove the unused 'bw' parameter from the BUILDIO() macro x86/mtrr: Document missing function parameters in kernel-doc x86/setup: Make relocated_ramdisk a local variable of relocate_initrd()	2024-01-08 17:23:32 -08:00
Paolo Bonzini	8c9244af4d	KVM SVM changes for 6.8: - Revert a bogus, made-up nested SVM consistency check for TLB_CONTROL. - Advertise flush-by-ASID support for nSVM unconditionally, as KVM always flushes on nested transitions, i.e. always satisfies flush requests. This allows running bleeding edge versions of VMware Workstation on top of KVM. - Sanity check that the CPU supports flush-by-ASID when enabling SEV support. - Fix a benign NMI virtualization bug where KVM would unnecessarily intercept IRET when manually injecting an NMI, e.g. when KVM pends an NMI and injects a second, "simultaneous" NMI. -----BEGIN PGP SIGNATURE----- iQJGBAABCgAwFiEEMHr+pfEFOIzK+KY1YJEiAU0MEvkFAmWW/9ESHHNlYW5qY0Bn b29nbGUuY29tAAoJEGCRIgFNDBL50PcP/Rbdf/68/g1m4JQYl8rf2h7BD4PGE5yw ZpeXSkeZmzyRYPiJjJaZLcvvezyusIPoGRfmsKgj2nI7LCSVyHDmaHVp2h854Xz8 kSWmK5znBYDx+vUqhIKEN2nwFNYSUaSqcRZWvoXi0BzalWlwCgK2yu8xeRDUhn4B +gDKlqZuJMYY1J3V8e64ZkvdxRHsw0WyvD0Ns4EgCe/2v5V9gc08a7vuSq80EtaE yf0cZmubDwuV96LfZnDkZnZpm4C1GNeLxAN1wlj7J6fAvrCAggetDtkJtWCd8yd0 0ZtfjBOMVsCDWQsYXbwGGKdeynzATxc354k6yHBIO863z+M5MtEMKlFNCclrakMO RHfofZHhL+hn3ACESJPcse3ei0VbV28cL2NFdstUEukvZQoacIH9fz7+1GuWqBpv Vb9UJDde029HHsGf+n8LtfQsqV7/8aLV+/4bpiPOHQU+tzAJVxni/H9nJ+7V0lxd NfhWME1lEsQWxpBpcXcVB7D7+ri1Wd9eB4IR9xc/VqgLE1Nj4kIZqtOJF9lbY3wk +H/Ze/MNNg6E9yIErSIv7sWdrvoOPYWZdGCT8Fhm4OILAsDEO96z7WoVF0eWCdJ1 xDIFGXNFuyIpVOqk/JZE/Lv5U1C4xhyFQCmk6gXDgepnTn4d8gx3S79iUfXD32gE GqAjV9Wwmz+o =mXEf -----END PGP SIGNATURE----- Merge tag 'kvm-x86-svm-6.8' of https://github.com/kvm-x86/linux into HEAD KVM SVM changes for 6.8: - Revert a bogus, made-up nested SVM consistency check for TLB_CONTROL. - Advertise flush-by-ASID support for nSVM unconditionally, as KVM always flushes on nested transitions, i.e. always satisfies flush requests. This allows running bleeding edge versions of VMware Workstation on top of KVM. - Sanity check that the CPU supports flush-by-ASID when enabling SEV support. - Fix a benign NMI virtualization bug where KVM would unnecessarily intercept IRET when manually injecting an NMI, e.g. when KVM pends an NMI and injects a second, "simultaneous" NMI.	2024-01-08 08:10:16 -05:00
Paolo Bonzini	8ecb10bcbf	KVM x86 support for virtualizing Linear Address Masking (LAM) Add KVM support for Linear Address Masking (LAM). LAM tweaks the canonicality checks for most virtual address usage in 64-bit mode, such that only the most significant bit of the untranslated address bits must match the polarity of the last translated address bit. This allows software to use ignored, untranslated address bits for metadata, e.g. to efficiently tag pointers for address sanitization. LAM can be enabled separately for user pointers and supervisor pointers, and for userspace LAM can be select between 48-bit and 57-bit masking - 48-bit LAM: metadata bits 62:48, i.e. LAM width of 15. - 57-bit LAM: metadata bits 62:57, i.e. LAM width of 6. For user pointers, LAM enabling utilizes two previously-reserved high bits from CR3 (similar to how PCID_NOFLUSH uses bit 63): LAM_U48 and LAM_U57, bits 62 and 61 respectively. Note, if LAM_57 is set, LAM_U48 is ignored, i.e.: - CR3.LAM_U48=0 && CR3.LAM_U57=0 == LAM disabled for user pointers - CR3.LAM_U48=1 && CR3.LAM_U57=0 == LAM-48 enabled for user pointers - CR3.LAM_U48=x && CR3.LAM_U57=1 == LAM-57 enabled for user pointers For supervisor pointers, LAM is controlled by a single bit, CR4.LAM_SUP, with the 48-bit versus 57-bit LAM behavior following the current paging mode, i.e.: - CR4.LAM_SUP=0 && CR4.LA57=x == LAM disabled for supervisor pointers - CR4.LAM_SUP=1 && CR4.LA57=0 == LAM-48 enabled for supervisor pointers - CR4.LAM_SUP=1 && CR4.LA57=1 == LAM-57 enabled for supervisor pointers The modified LAM canonicality checks: - LAM_S48 : [ 1 ][ metadata ][ 1 ] 63 47 - LAM_U48 : [ 0 ][ metadata ][ 0 ] 63 47 - LAM_S57 : [ 1 ][ metadata ][ 1 ] 63 56 - LAM_U57 + 5-lvl paging : [ 0 ][ metadata ][ 0 ] 63 56 - LAM_U57 + 4-lvl paging : [ 0 ][ metadata ][ 0...0 ] 63 56..47 The bulk of KVM support for LAM is to emulate LAM's modified canonicality checks. The approach taken by KVM is to "fill" the metadata bits using the highest bit of the translated address, e.g. for LAM-48, bit 47 is sign-extended to bits 62:48. The most significant bit, 63, is not modified, i.e. its value from the raw, untagged virtual address is kept for the canonicality check. This untagging allows Aside from emulating LAM's canonical checks behavior, LAM has the usual KVM touchpoints for selectable features: enumeration (CPUID.7.1:EAX.LAM[bit 26], enabling via CR3 and CR4 bits, etc. -----BEGIN PGP SIGNATURE----- iQJGBAABCgAwFiEEMHr+pfEFOIzK+KY1YJEiAU0MEvkFAmWW+k4SHHNlYW5qY0Bn b29nbGUuY29tAAoJEGCRIgFNDBL5KygQAKTSEmfdox6MSYzGVzAVHBD/8oSTZAGf 4l96Np3sZiX0ujWP7aW1GaIdGL27Yf1bQrKIrODR4xepaosVPpoZZbnLFQ4Jm16D OuwEQL06LV91Lv5XuPkNdq3nMVi1X3wjiKLvP451oCGv8JdxsjXSlFr8ZmDoCfmS NCjkPyitdK+/xOMY5WcrkHD/6VMMiM+5A+CrG7DkaTaqBJQSUXG1NvTKhhxey6Rq OZv0GPv7QVMhHv1NX0Y3LyoiGyWXAoFRnbk/N3yVBOnXcpJ+HBwWiNLRpxmZOQj/ CTo0VvUH/ZkN6zGvAb75/9puFHNliA/QCW1hp+ShXnNdn1eNdS7nhhPrzVqtCTy2 QeNWM/z5v9Wa1norPqDxzqWlh2bWW8JU0soX7Q+quN0d7YjVvmmUluL3Lw/V2zmb gFM2ZY43QHlmLVic4sSraK1LEcYFzjexzpTLhee2gNp+l2y0D0c1/hXukCk6YNUM gad9DH8P9d7By7Eyr0ZaPHSJbuBW1PqZhot5gCg9nCn4pnT2/y7wXsLj6VAw8gdr dWNu2MZWDuH0/d4aKfw2veAECbHUK2daok4ufPDj5nYLVVWCs4HU0U7HlYL2CX7/ TdWOCwtpFtKoN1NHz8mpET7xldxLPnFkByL+SxypTZurAZXoSnEG71IbO5pJ2iIf wHQkXgM+XimA =qUZ2 -----END PGP SIGNATURE----- Merge tag 'kvm-x86-lam-6.8' of https://github.com/kvm-x86/linux into HEAD KVM x86 support for virtualizing Linear Address Masking (LAM) Add KVM support for Linear Address Masking (LAM). LAM tweaks the canonicality checks for most virtual address usage in 64-bit mode, such that only the most significant bit of the untranslated address bits must match the polarity of the last translated address bit. This allows software to use ignored, untranslated address bits for metadata, e.g. to efficiently tag pointers for address sanitization. LAM can be enabled separately for user pointers and supervisor pointers, and for userspace LAM can be select between 48-bit and 57-bit masking - 48-bit LAM: metadata bits 62:48, i.e. LAM width of 15. - 57-bit LAM: metadata bits 62:57, i.e. LAM width of 6. For user pointers, LAM enabling utilizes two previously-reserved high bits from CR3 (similar to how PCID_NOFLUSH uses bit 63): LAM_U48 and LAM_U57, bits 62 and 61 respectively. Note, if LAM_57 is set, LAM_U48 is ignored, i.e.: - CR3.LAM_U48=0 && CR3.LAM_U57=0 == LAM disabled for user pointers - CR3.LAM_U48=1 && CR3.LAM_U57=0 == LAM-48 enabled for user pointers - CR3.LAM_U48=x && CR3.LAM_U57=1 == LAM-57 enabled for user pointers For supervisor pointers, LAM is controlled by a single bit, CR4.LAM_SUP, with the 48-bit versus 57-bit LAM behavior following the current paging mode, i.e.: - CR4.LAM_SUP=0 && CR4.LA57=x == LAM disabled for supervisor pointers - CR4.LAM_SUP=1 && CR4.LA57=0 == LAM-48 enabled for supervisor pointers - CR4.LAM_SUP=1 && CR4.LA57=1 == LAM-57 enabled for supervisor pointers The modified LAM canonicality checks: - LAM_S48 : [ 1 ][ metadata ][ 1 ] 63 47 - LAM_U48 : [ 0 ][ metadata ][ 0 ] 63 47 - LAM_S57 : [ 1 ][ metadata ][ 1 ] 63 56 - LAM_U57 + 5-lvl paging : [ 0 ][ metadata ][ 0 ] 63 56 - LAM_U57 + 4-lvl paging : [ 0 ][ metadata ][ 0...0 ] 63 56..47 The bulk of KVM support for LAM is to emulate LAM's modified canonicality checks. The approach taken by KVM is to "fill" the metadata bits using the highest bit of the translated address, e.g. for LAM-48, bit 47 is sign-extended to bits 62:48. The most significant bit, 63, is not modified, i.e. its value from the raw, untagged virtual address is kept for the canonicality check. This untagging allows Aside from emulating LAM's canonical checks behavior, LAM has the usual KVM touchpoints for selectable features: enumeration (CPUID.7.1:EAX.LAM[bit 26], enabling via CR3 and CR4 bits, etc.	2024-01-08 08:10:12 -05:00
Paolo Bonzini	01edb1cfbd	KVM x86 PMU changes for 6.8: - Fix a variety of bugs where KVM fail to stop/reset counters and other state prior to refreshing the vPMU model. - Fix a double-overflow PMU bug by tracking emulated counter events using a dedicated field instead of snapshotting the "previous" counter. If the hardware PMC count triggers overflow that is recognized in the same VM-Exit that KVM manually bumps an event count, KVM would pend PMIs for both the hardware-triggered overflow and for KVM-triggered overflow. -----BEGIN PGP SIGNATURE----- iQJGBAABCgAwFiEEMHr+pfEFOIzK+KY1YJEiAU0MEvkFAmWW/rsSHHNlYW5qY0Bn b29nbGUuY29tAAoJEGCRIgFNDBL5Q8gQAJc4y9NOd09kYXpI+DhkTVe6v07dmYds NzBI2uViqxXFwA5pTs5VTVVYAl1FEmK6NvIVnJdc3epSYRSqyaeN/Z2NoulNxekj /jLA/aA4+dTeJf2lfMFeH65IIuSJhuhyGeZV31RfW3NzEmlglcsb74QkHnJB8rLQ RFJXZcOxSSap72AWxKmxk0alRaI6ONZ9NyqOWFWjZdQuAE7id9Ae5OixKUrlJkmR 6CbY8ra51MFIXQEsomVlcl5b1DNiv0drPPf5YaC9T4CERtt5yZxpvZeTPhq70evm OutoZpzfi69cF1fFCxqN5cWZSt1C/Bu3xp8+ILI1+bZkMCV/ty85DU6hfMZQZzcV JeJkRg/AAgOrG4dtHskwg9LDMs867kgbaqZ8l8K7Dt8rGmcLc5/rZ1ZdjTStFj6V ukmVKMAVgkmh88u62wQ5HjrN1IE1oE6nmDp3zivfPuohEr49A8mAT02A2x9AVxAr HvmwfDMA92xOGSRAN9Gt0mbOA+G0WZe4A36XgPEXloYeskYZgHzgW2hT6VWTd86O ydU9s4L8g+Fy4jcObAiKsT8YwFgAMfVXZKTXvuTME4m/WUNBCrYCwqEOp/NM5qrk qYWVXxOMMjZo71tQfvSPu1TWCtW/4ckvmqMrdQosgwLFy5pSqgXEwTruDvbJ1KWU KhIWVbUfmgFA =+Emh -----END PGP SIGNATURE----- Merge tag 'kvm-x86-pmu-6.8' of https://github.com/kvm-x86/linux into HEAD KVM x86 PMU changes for 6.8: - Fix a variety of bugs where KVM fail to stop/reset counters and other state prior to refreshing the vPMU model. - Fix a double-overflow PMU bug by tracking emulated counter events using a dedicated field instead of snapshotting the "previous" counter. If the hardware PMC count triggers overflow that is recognized in the same VM-Exit that KVM manually bumps an event count, KVM would pend PMIs for both the hardware-triggered overflow and for KVM-triggered overflow.	2024-01-08 08:10:08 -05:00
Paolo Bonzini	33d0403fda	KVM x86 misc changes for 6.8: - Turn off KVM_WERROR by default for all configs so that it's not inadvertantly enabled by non-KVM developers, which can be problematic for subsystems that require no regressions for W=1 builds. - Advertise all of the host-supported CPUID bits that enumerate IA32_SPEC_CTRL "features". - Don't force a masterclock update when a vCPU synchronizes to the current TSC generation, as updating the masterclock can cause kvmclock's time to "jump" unexpectedly, e.g. when userspace hotplugs a pre-created vCPU. - Use RIP-relative address to read kvm_rebooting in the VM-Enter fault paths, partly as a super minor optimization, but mostly to make KVM play nice with position independent executable builds. -----BEGIN PGP SIGNATURE----- iQJGBAABCgAwFiEEMHr+pfEFOIzK+KY1YJEiAU0MEvkFAmWW+7sSHHNlYW5qY0Bn b29nbGUuY29tAAoJEGCRIgFNDBL5/pwQAL8jIapIWP54VWxWlcTZFtCptGSobGlv cBS4L091/bYuMB/jO0pPtD+apzsYt3WmJ+tRsNA7Yctzh9BDE3XxbV7pKVIUpz9P TLCtYU2hPzp3vC6WCryjtU0OHxEnYMGHE1RCB7/bRblz+q6td7+MLZHcEUdwv83l 3pVM5+tNyQBog40frEVf+z7wrXzz2FgnauJn70X1UUs40VuiTzi6FqfLn6QK95xQ 8QPpjGFep7wQ6RgC4cPKiWSaP5PypCCpr4lMSKrKAf4iaKJdO1CYxEPeu0LcyFhR DUM3zb+AZ/FVrisRWUnjke4Epb87ikoMQBlflrI9+o4cNJQaxEHAzTMGO+u4oucy KwnXtNYM3lKGvDEvoUSBDphNayzcchn+0qk8YKB+XvClYSOtGi+NsWUB4x+M6crM 960cidF/CzYZL/IDj9GW2Tb+IiPJarmazdbqDmMpQiAKz0KE3tezGiysB6d6VJs1 V+KWOaSzAT9GsBKvGnPDHQaZ20vK+YsGB/TMWvpg3rFLTyV5QFM17UNdXyJlX0g8 G0v+gf7j3MKm156H2yYW0XhIAfhstc1Xb8fTDQjJ3pZn6us2NAtFgnrIpbL31Z7E yaSgZuxetswbNwVSECUGlH4/zAtQudBfAt837Nu4eSCjMrJE4SPrrwpbTqp0SPXd 1VZbGc70QFf7 =O4hV -----END PGP SIGNATURE----- Merge tag 'kvm-x86-misc-6.8' of https://github.com/kvm-x86/linux into HEAD KVM x86 misc changes for 6.8: - Turn off KVM_WERROR by default for all configs so that it's not inadvertantly enabled by non-KVM developers, which can be problematic for subsystems that require no regressions for W=1 builds. - Advertise all of the host-supported CPUID bits that enumerate IA32_SPEC_CTRL "features". - Don't force a masterclock update when a vCPU synchronizes to the current TSC generation, as updating the masterclock can cause kvmclock's time to "jump" unexpectedly, e.g. when userspace hotplugs a pre-created vCPU. - Use RIP-relative address to read kvm_rebooting in the VM-Enter fault paths, partly as a super minor optimization, but mostly to make KVM play nice with position independent executable builds.	2024-01-08 08:10:04 -05:00
Paolo Bonzini	0afdfd85e3	KVM x86 Hyper-V changes for 6.8: - Guard KVM-on-HyperV's range-based TLB flush hooks with an #ifdef on CONFIG_HYPERV as a minor optimization, and to self-document the code. - Add CONFIG_KVM_HYPERV to allow disabling KVM support for HyperV "emulation" at build time. -----BEGIN PGP SIGNATURE----- iQJGBAABCgAwFiEEMHr+pfEFOIzK+KY1YJEiAU0MEvkFAmWW8gYSHHNlYW5qY0Bn b29nbGUuY29tAAoJEGCRIgFNDBL5sGUP/iadHMz7Up1X29IDGtq58LRORNVXp2Ln 2dqoj8IKZeSr+mPMw2GvZyuiLqVPMs4Et21WJfCO7HgKd/NPMDORwRndhJYweFRY yk+5NJLvXYuo8UR3b2QYy8XUghEqP+j5eYyon6UdCiPACcBGTpgoj4pU7SLM7l4T EOge42ya5YxD/1oWr5vyifNrOJCPNTBYcC0as5//+RdnmQYqYZ26Z73b0B8Pdct4 XMWwgoKlmLTmei0YntXtGaDGimCvTYP8EPM4tOWgiBSWMhQXWbAh/0biDfd3eZVO Hoe4HvstdjUNbpO3h3Zo78Ob7ehk4kx/6r0nlQnz5JxzGnuDjYCDIVUlYn0mw5Yi nu4ztr8M3VRksDbpmAjSO9XFEKIYxlYQfzZ1UuTy8ehdBYTDl/3lPAbh2ApUYE72 Tt2PXmFGz2j1sjG38Gh94s48Za5OxHoVlfq8iGhU4v7UjuxnMNHfExOWd66SwZgx 5tZkr4rj/pWt21wr7jaVqFGzuftIC5G4ZEBhh7JcW89oamFrykgQUu5z4dhBMO75 G7DAVh9eSH2SKkmJH1ClXriveazTK7fqMx8sZzzRnusMz09qH7SIdjSzmp7H5utw pWBfatft0n0FTI1r+hxGueiJt7dFlrIz0Q4hHyBN4saoVH121bZioc0pq1ob6MIk Y2Ou4xJBt14F =bjfs -----END PGP SIGNATURE----- Merge tag 'kvm-x86-hyperv-6.8' of https://github.com/kvm-x86/linux into HEAD KVM x86 Hyper-V changes for 6.8: - Guard KVM-on-HyperV's range-based TLB flush hooks with an #ifdef on CONFIG_HYPERV as a minor optimization, and to self-document the code. - Add CONFIG_KVM_HYPERV to allow disabling KVM support for HyperV "emulation" at build time.	2024-01-08 08:10:01 -05:00
Bjorn Helgaas	54aa699e80	arch/x86: Fix typos Fix typos, most reported by "codespell arch/x86". Only touches comments, no code changes. Signed-off-by: Bjorn Helgaas <bhelgaas@google.com> Signed-off-by: Ingo Molnar <mingo@kernel.org> Reviewed-by: Randy Dunlap <rdunlap@infradead.org> Link: https://lore.kernel.org/r/20240103004011.1758650-1-helgaas@kernel.org	2024-01-03 11:46:22 +01:00
Michael Roth	a26b7cd225	KVM: SEV: Do not intercept accesses to MSR_IA32_XSS for SEV-ES guests When intercepts are enabled for MSR_IA32_XSS, the host will swap in/out the guest-defined values while context-switching to/from guest mode. However, in the case of SEV-ES, vcpu->arch.guest_state_protected is set, so the guest-defined value is effectively ignored when switching to guest mode with the understanding that the VMSA will handle swapping in/out this register state. However, SVM is still configured to intercept these accesses for SEV-ES guests, so the values in the initial MSR_IA32_XSS are effectively read-only, and a guest will experience undefined behavior if it actually tries to write to this MSR. Fortunately, only CET/shadowstack makes use of this register on SEV-ES-capable systems currently, which isn't yet widely used, but this may become more of an issue in the future. Additionally, enabling intercepts of MSR_IA32_XSS results in #VC exceptions in the guest in certain paths that can lead to unexpected #VC nesting levels. One example is SEV-SNP guests when handling #VC exceptions for CPUID instructions involving leaf 0xD, subleaf 0x1, since they will access MSR_IA32_XSS as part of servicing the CPUID #VC, then generate another #VC when accessing MSR_IA32_XSS, which can lead to guest crashes if an NMI occurs at that point in time. Running perf on a guest while it is issuing such a sequence is one example where these can be problematic. Address this by disabling intercepts of MSR_IA32_XSS for SEV-ES guests if the host/guest configuration allows it. If the host/guest configuration doesn't allow for MSR_IA32_XSS, leave it intercepted so that it can be caught by the existing checks in kvm_{set,get}_msr_common() if the guest still attempts to access it. Fixes: `376c6d2850` ("KVM: SVM: Provide support for SEV-ES vCPU creation/loading") Cc: Alexey Kardashevskiy <aik@amd.com> Suggested-by: Tom Lendacky <thomas.lendacky@amd.com> Signed-off-by: Michael Roth <michael.roth@amd.com> Message-Id: <20231016132819.1002933-4-michael.roth@amd.com> Signed-off-by: Paolo Bonzini <pbonzini@redhat.com>	2023-12-13 12:46:07 -05:00
Sean Christopherson	4cdf351d36	KVM: SVM: Update EFER software model on CR0 trap for SEV-ES In general, activating long mode involves setting the EFER_LME bit in the EFER register and then enabling the X86_CR0_PG bit in the CR0 register. At this point, the EFER_LMA bit will be set automatically by hardware. In the case of SVM/SEV guests where writes to CR0 are intercepted, it's necessary for the host to set EFER_LMA on behalf of the guest since hardware does not see the actual CR0 write. In the case of SEV-ES guests where writes to CR0 are trapped instead of intercepted, the hardware does see/record the write to CR0 before exiting and passing the value on to the host, so as part of enabling SEV-ES support commit `f1c6366e30` ("KVM: SVM: Add required changes to support intercepts under SEV-ES") dropped special handling of the EFER_LMA bit with the understanding that it would be set automatically. However, since the guest never explicitly sets the EFER_LMA bit, the host never becomes aware that it has been set. This becomes problematic when userspace tries to get/set the EFER values via KVM_GET_SREGS/KVM_SET_SREGS, since the EFER contents tracked by the host will be missing the EFER_LMA bit, and when userspace attempts to pass the EFER value back via KVM_SET_SREGS it will fail a sanity check that asserts that EFER_LMA should always be set when X86_CR0_PG and EFER_LME are set. Fix this by always inferring the value of EFER_LMA based on X86_CR0_PG and EFER_LME, regardless of whether or not SEV-ES is enabled. Fixes: `f1c6366e30` ("KVM: SVM: Add required changes to support intercepts under SEV-ES") Reported-by: Peter Gonda <pgonda@google.com> Cc: stable@vger.kernel.org Signed-off-by: Sean Christopherson <seanjc@google.com> Message-Id: <20210507165947.2502412-2-seanjc@google.com> [A two year old patch that was revived after we noticed the failure in KVM_SET_SREGS and a similar patch was posted by Michael Roth. This is Sean's patch, but with Michael's more complete commit message. - Paolo] Signed-off-by: Paolo Bonzini <pbonzini@redhat.com>	2023-12-08 13:37:05 -05:00
Vitaly Kuznetsov	017a99a966	KVM: nSVM: Hide more stuff under CONFIG_KVM_HYPERV/CONFIG_HYPERV 'struct hv_vmcb_enlightenments' in VMCB only make sense when either CONFIG_KVM_HYPERV or CONFIG_HYPERV is enabled. No functional change intended. Reviewed-by: Maxim Levitsky <mlevitsk@redhat.com> Tested-by: Jeremi Piotrowski <jpiotrowski@linux.microsoft.com> Signed-off-by: Vitaly Kuznetsov <vkuznets@redhat.com> Link: https://lore.kernel.org/r/20231205103630.1391318-17-vkuznets@redhat.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2023-12-07 09:35:26 -08:00
Vitaly Kuznetsov	b4f69df0f6	KVM: x86: Make Hyper-V emulation optional Hyper-V emulation in KVM is a fairly big chunk and in some cases it may be desirable to not compile it in to reduce module sizes as well as the attack surface. Introduce CONFIG_KVM_HYPERV option to make it possible. Note, there's room for further nVMX/nSVM code optimizations when !CONFIG_KVM_HYPERV, this will be done in follow-up patches. Reorganize Makefile a bit so all CONFIG_HYPERV and CONFIG_KVM_HYPERV files are grouped together. Signed-off-by: Vitaly Kuznetsov <vkuznets@redhat.com> Reviewed-by: Maxim Levitsky <mlevitsk@redhat.com> Tested-by: Jeremi Piotrowski <jpiotrowski@linux.microsoft.com> Link: https://lore.kernel.org/r/20231205103630.1391318-13-vkuznets@redhat.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2023-12-07 09:34:57 -08:00
Vitaly Kuznetsov	af9d544a45	KVM: x86: Introduce helper to handle Hyper-V paravirt TLB flush requests As a preparation to making Hyper-V emulation optional, introduce a helper to handle pending KVM_REQ_HV_TLB_FLUSH requests. No functional change intended. Reviewed-by: Maxim Levitsky <mlevitsk@redhat.com> Tested-by: Jeremi Piotrowski <jpiotrowski@linux.microsoft.com> Signed-off-by: Vitaly Kuznetsov <vkuznets@redhat.com> Link: https://lore.kernel.org/r/20231205103630.1391318-8-vkuznets@redhat.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2023-12-07 09:34:23 -08:00
Vitaly Kuznetsov	cfef5af3cb	KVM: x86: Move Hyper-V partition assist page out of Hyper-V emulation context Hyper-V partition assist page is used when KVM runs on top of Hyper-V and is not used for Windows/Hyper-V guests on KVM, this means that 'hv_pa_pg' placement in 'struct kvm_hv' is unfortunate. As a preparation to making Hyper-V emulation optional, move 'hv_pa_pg' to 'struct kvm_arch' and put it under CONFIG_HYPERV. While on it, introduce hv_get_partition_assist_page() helper to allocate partition assist page. Move the comment explaining why we use a single page for all vCPUs from VMX and expand it a bit. No functional change intended. Reviewed-by: Maxim Levitsky <mlevitsk@redhat.com> Tested-by: Jeremi Piotrowski <jpiotrowski@linux.microsoft.com> Signed-off-by: Vitaly Kuznetsov <vkuznets@redhat.com> Link: https://lore.kernel.org/r/20231205103630.1391318-3-vkuznets@redhat.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2023-12-07 09:34:01 -08:00
Sean Christopherson	89acf1237b	KVM: x86/pmu: Update sample period in pmc_write_counter() Update a PMC's sample period in pmc_write_counter() to deduplicate code across all callers of pmc_write_counter(). Opportunistically move pmc_write_counter() into pmc.c now that it's doing more work. WRMSR isn't such a hot path that an extra CALL+RET pair will be problematic, and the order of function definitions needs to be changed anyways, i.e. now is a convenient time to eat the churn. Reviewed-by: Dapeng Mi <dapeng1.mi@linux.intel.com> Link: https://lore.kernel.org/r/20231103230541.352265-6-seanjc@google.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2023-11-30 12:52:55 -08:00
Sean Christopherson	cbb359d81a	KVM: x86/pmu: Move PMU reset logic to common x86 code Move the common (or at least "ignored") aspects of resetting the vPMU to common x86 code, along with the stop/release helpers that are no used only by the common pmu.c. There is no need to manually handle fixed counters as all_valid_pmc_idx tracks both fixed and general purpose counters, and resetting the vPMU is far from a hot path, i.e. the extra bit of overhead to the PMC from the index is a non-issue. Zero fixed_ctr_ctrl in common code even though it's Intel specific. Ensuring it's zero doesn't harm AMD/SVM in any way, and stopping the fixed counters via all_valid_pmc_idx, but not clearing the associated control bits, would be odd/confusing. Make the .reset() hook optional as SVM no longer needs vendor specific handling. Cc: stable@vger.kernel.org Reviewed-by: Dapeng Mi <dapeng1.mi@linux.intel.com> Link: https://lore.kernel.org/r/20231103230541.352265-2-seanjc@google.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2023-11-30 12:52:54 -08:00
Uros Bizjak	15223c4f97	KVM: SVM,VMX: Use %rip-relative addressing to access kvm_rebooting Instruction with %rip-relative address operand is one byte shorter than its absolute address counterpart and is also compatible with position independent executable (-fpie) build. No functional changes intended. Cc: Sean Christopherson <seanjc@google.com> Cc: Paolo Bonzini <pbonzini@redhat.com> Signed-off-by: Uros Bizjak <ubizjak@gmail.com> Link: https://lore.kernel.org/r/20231031075312.47525-1-ubizjak@gmail.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2023-11-30 12:51:54 -08:00
Sean Christopherson	72046d0a07	KVM: SVM: Don't intercept IRET when injecting NMI and vNMI is enabled When vNMI is enabled, rely entirely on hardware to correctly handle NMI blocking, i.e. don't intercept IRET to detect when NMIs are no longer blocked. KVM already correctly ignores svm->nmi_masked when vNMI is enabled, so the effect of the bug is essentially an unnecessary VM-Exit. KVM intercepts IRET for two reasons: - To track NMI masking to be able to know at any point of time if NMI is masked. - To track NMI windows (to inject another NMI after the guest executes IRET, i.e. unblocks NMIs) When vNMI is enabled, both cases are handled by hardware: - NMI masking state resides in int_ctl.V_NMI_BLOCKING and can be read by KVM at will. - Hardware automatically "injects" pending virtual NMIs when virtual NMIs become unblocked. However, even though pending a virtual NMI for hardware to handle is the most common way to synthesize a guest NMI, KVM may still directly inject an NMI via when KVM is handling two "simultaneous" NMIs (see comments in process_nmi() for details on KVM's simultaneous NMI handling). Per AMD's APM, hardware sets the BLOCKING flag when software directly injects an NMI as well, i.e. KVM doesn't need to manually mark vNMIs as blocked: If Event Injection is used to inject an NMI when NMI Virtualization is enabled, VMRUN sets V_NMI_MASK in the guest state. Note, it's still possible that KVM could trigger a spurious IRET VM-Exit. When running a nested guest, KVM disables vNMI for L2 and thus will enable IRET interception (in both vmcb01 and vmcb02) while running L2 reason. If a nested VM-Exit happens before L2 executes IRET, KVM can end up running L1 with vNMI enable and IRET intercepted. This is also a benign bug, and even less likely to happen, i.e. can be safely punted to a future fix. Fixes: `fa4c027a79` ("KVM: x86: Add support for SVM's Virtual NMI") Link: https://lore.kernel.org/all/ZOdnuDZUd4mevCqe@google.como Cc: Santosh Shukla <santosh.shukla@amd.com> Cc: Maxim Levitsky <mlevitsk@redhat.com> Tested-by: Santosh Shukla <santosh.shukla@amd.com> Link: https://lore.kernel.org/r/20231018192021.1893261-1-seanjc@google.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2023-11-30 12:51:22 -08:00
Sean Christopherson	770d6aa2e4	KVM: SVM: Explicitly require FLUSHBYASID to enable SEV support Add a sanity check that FLUSHBYASID is available if SEV is supported in hardware, as SEV (and beyond) guests are bound to a single ASID, i.e. KVM can't "flush" by assigning a new, fresh ASID to the guest. If FLUSHBYASID isn't supported for some bizarre reason, KVM would completely fail to do TLB flushes for SEV+ guests (see pre_svm_run() and pre_sev_run()). Cc: Tom Lendacky <thomas.lendacky@amd.com> Link: https://lore.kernel.org/r/20231018193617.1895752-1-seanjc@google.com Signed-off-by: Sean Christopherson <seanjc@google.com>	2023-11-30 12:51:14 -08:00

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