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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-07 18:49:45 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-07 18:49:45 +0000 |
commit | 2c3c1048746a4622d8c89a29670120dc8fab93c4 (patch) | |
tree | 848558de17fb3008cdf4d861b01ac7781903ce39 /arch/x86/kvm/mmu/spte.c | |
parent | Initial commit. (diff) | |
download | linux-2c3c1048746a4622d8c89a29670120dc8fab93c4.tar.xz linux-2c3c1048746a4622d8c89a29670120dc8fab93c4.zip |
Adding upstream version 6.1.76.upstream/6.1.76
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'arch/x86/kvm/mmu/spte.c')
-rw-r--r-- | arch/x86/kvm/mmu/spte.c | 507 |
1 files changed, 507 insertions, 0 deletions
diff --git a/arch/x86/kvm/mmu/spte.c b/arch/x86/kvm/mmu/spte.c new file mode 100644 index 000000000..2e08b2a45 --- /dev/null +++ b/arch/x86/kvm/mmu/spte.c @@ -0,0 +1,507 @@ +// SPDX-License-Identifier: GPL-2.0-only +/* + * Kernel-based Virtual Machine driver for Linux + * + * Macros and functions to access KVM PTEs (also known as SPTEs) + * + * Copyright (C) 2006 Qumranet, Inc. + * Copyright 2020 Red Hat, Inc. and/or its affiliates. + */ + + +#include <linux/kvm_host.h> +#include "mmu.h" +#include "mmu_internal.h" +#include "x86.h" +#include "spte.h" + +#include <asm/e820/api.h> +#include <asm/memtype.h> +#include <asm/vmx.h> + +bool __read_mostly enable_mmio_caching = true; +static bool __ro_after_init allow_mmio_caching; +module_param_named(mmio_caching, enable_mmio_caching, bool, 0444); +EXPORT_SYMBOL_GPL(enable_mmio_caching); + +u64 __read_mostly shadow_host_writable_mask; +u64 __read_mostly shadow_mmu_writable_mask; +u64 __read_mostly shadow_nx_mask; +u64 __read_mostly shadow_x_mask; /* mutual exclusive with nx_mask */ +u64 __read_mostly shadow_user_mask; +u64 __read_mostly shadow_accessed_mask; +u64 __read_mostly shadow_dirty_mask; +u64 __read_mostly shadow_mmio_value; +u64 __read_mostly shadow_mmio_mask; +u64 __read_mostly shadow_mmio_access_mask; +u64 __read_mostly shadow_present_mask; +u64 __read_mostly shadow_memtype_mask; +u64 __read_mostly shadow_me_value; +u64 __read_mostly shadow_me_mask; +u64 __read_mostly shadow_acc_track_mask; + +u64 __read_mostly shadow_nonpresent_or_rsvd_mask; +u64 __read_mostly shadow_nonpresent_or_rsvd_lower_gfn_mask; + +u8 __read_mostly shadow_phys_bits; + +void __init kvm_mmu_spte_module_init(void) +{ + /* + * Snapshot userspace's desire to allow MMIO caching. Whether or not + * KVM can actually enable MMIO caching depends on vendor-specific + * hardware capabilities and other module params that can't be resolved + * until the vendor module is loaded, i.e. enable_mmio_caching can and + * will change when the vendor module is (re)loaded. + */ + allow_mmio_caching = enable_mmio_caching; +} + +static u64 generation_mmio_spte_mask(u64 gen) +{ + u64 mask; + + WARN_ON(gen & ~MMIO_SPTE_GEN_MASK); + + mask = (gen << MMIO_SPTE_GEN_LOW_SHIFT) & MMIO_SPTE_GEN_LOW_MASK; + mask |= (gen << MMIO_SPTE_GEN_HIGH_SHIFT) & MMIO_SPTE_GEN_HIGH_MASK; + return mask; +} + +u64 make_mmio_spte(struct kvm_vcpu *vcpu, u64 gfn, unsigned int access) +{ + u64 gen = kvm_vcpu_memslots(vcpu)->generation & MMIO_SPTE_GEN_MASK; + u64 spte = generation_mmio_spte_mask(gen); + u64 gpa = gfn << PAGE_SHIFT; + + WARN_ON_ONCE(!shadow_mmio_value); + + access &= shadow_mmio_access_mask; + spte |= shadow_mmio_value | access; + spte |= gpa | shadow_nonpresent_or_rsvd_mask; + spte |= (gpa & shadow_nonpresent_or_rsvd_mask) + << SHADOW_NONPRESENT_OR_RSVD_MASK_LEN; + + return spte; +} + +static bool kvm_is_mmio_pfn(kvm_pfn_t pfn) +{ + if (pfn_valid(pfn)) + return !is_zero_pfn(pfn) && PageReserved(pfn_to_page(pfn)) && + /* + * Some reserved pages, such as those from NVDIMM + * DAX devices, are not for MMIO, and can be mapped + * with cached memory type for better performance. + * However, the above check misconceives those pages + * as MMIO, and results in KVM mapping them with UC + * memory type, which would hurt the performance. + * Therefore, we check the host memory type in addition + * and only treat UC/UC-/WC pages as MMIO. + */ + (!pat_enabled() || pat_pfn_immune_to_uc_mtrr(pfn)); + + return !e820__mapped_raw_any(pfn_to_hpa(pfn), + pfn_to_hpa(pfn + 1) - 1, + E820_TYPE_RAM); +} + +/* + * Returns true if the SPTE has bits that may be set without holding mmu_lock. + * The caller is responsible for checking if the SPTE is shadow-present, and + * for determining whether or not the caller cares about non-leaf SPTEs. + */ +bool spte_has_volatile_bits(u64 spte) +{ + /* + * Always atomically update spte if it can be updated + * out of mmu-lock, it can ensure dirty bit is not lost, + * also, it can help us to get a stable is_writable_pte() + * to ensure tlb flush is not missed. + */ + if (!is_writable_pte(spte) && is_mmu_writable_spte(spte)) + return true; + + if (is_access_track_spte(spte)) + return true; + + if (spte_ad_enabled(spte)) { + if (!(spte & shadow_accessed_mask) || + (is_writable_pte(spte) && !(spte & shadow_dirty_mask))) + return true; + } + + return false; +} + +bool make_spte(struct kvm_vcpu *vcpu, struct kvm_mmu_page *sp, + const struct kvm_memory_slot *slot, + unsigned int pte_access, gfn_t gfn, kvm_pfn_t pfn, + u64 old_spte, bool prefetch, bool can_unsync, + bool host_writable, u64 *new_spte) +{ + int level = sp->role.level; + u64 spte = SPTE_MMU_PRESENT_MASK; + bool wrprot = false; + + WARN_ON_ONCE(!pte_access && !shadow_present_mask); + + if (sp->role.ad_disabled) + spte |= SPTE_TDP_AD_DISABLED_MASK; + else if (kvm_mmu_page_ad_need_write_protect(sp)) + spte |= SPTE_TDP_AD_WRPROT_ONLY_MASK; + + /* + * For the EPT case, shadow_present_mask is 0 if hardware + * supports exec-only page table entries. In that case, + * ACC_USER_MASK and shadow_user_mask are used to represent + * read access. See FNAME(gpte_access) in paging_tmpl.h. + */ + spte |= shadow_present_mask; + if (!prefetch) + spte |= spte_shadow_accessed_mask(spte); + + if (level > PG_LEVEL_4K && (pte_access & ACC_EXEC_MASK) && + is_nx_huge_page_enabled(vcpu->kvm)) { + pte_access &= ~ACC_EXEC_MASK; + } + + if (pte_access & ACC_EXEC_MASK) + spte |= shadow_x_mask; + else + spte |= shadow_nx_mask; + + if (pte_access & ACC_USER_MASK) + spte |= shadow_user_mask; + + if (level > PG_LEVEL_4K) + spte |= PT_PAGE_SIZE_MASK; + + if (shadow_memtype_mask) + spte |= static_call(kvm_x86_get_mt_mask)(vcpu, gfn, + kvm_is_mmio_pfn(pfn)); + if (host_writable) + spte |= shadow_host_writable_mask; + else + pte_access &= ~ACC_WRITE_MASK; + + if (shadow_me_value && !kvm_is_mmio_pfn(pfn)) + spte |= shadow_me_value; + + spte |= (u64)pfn << PAGE_SHIFT; + + if (pte_access & ACC_WRITE_MASK) { + spte |= PT_WRITABLE_MASK | shadow_mmu_writable_mask; + + /* + * Optimization: for pte sync, if spte was writable the hash + * lookup is unnecessary (and expensive). Write protection + * is responsibility of kvm_mmu_get_page / kvm_mmu_sync_roots. + * Same reasoning can be applied to dirty page accounting. + */ + if (is_writable_pte(old_spte)) + goto out; + + /* + * Unsync shadow pages that are reachable by the new, writable + * SPTE. Write-protect the SPTE if the page can't be unsync'd, + * e.g. it's write-tracked (upper-level SPs) or has one or more + * shadow pages and unsync'ing pages is not allowed. + */ + if (mmu_try_to_unsync_pages(vcpu->kvm, slot, gfn, can_unsync, prefetch)) { + pgprintk("%s: found shadow page for %llx, marking ro\n", + __func__, gfn); + wrprot = true; + pte_access &= ~ACC_WRITE_MASK; + spte &= ~(PT_WRITABLE_MASK | shadow_mmu_writable_mask); + } + } + + if (pte_access & ACC_WRITE_MASK) + spte |= spte_shadow_dirty_mask(spte); + +out: + if (prefetch) + spte = mark_spte_for_access_track(spte); + + WARN_ONCE(is_rsvd_spte(&vcpu->arch.mmu->shadow_zero_check, spte, level), + "spte = 0x%llx, level = %d, rsvd bits = 0x%llx", spte, level, + get_rsvd_bits(&vcpu->arch.mmu->shadow_zero_check, spte, level)); + + if ((spte & PT_WRITABLE_MASK) && kvm_slot_dirty_track_enabled(slot)) { + /* Enforced by kvm_mmu_hugepage_adjust. */ + WARN_ON(level > PG_LEVEL_4K); + mark_page_dirty_in_slot(vcpu->kvm, slot, gfn); + } + + *new_spte = spte; + return wrprot; +} + +static u64 make_spte_executable(u64 spte) +{ + bool is_access_track = is_access_track_spte(spte); + + if (is_access_track) + spte = restore_acc_track_spte(spte); + + spte &= ~shadow_nx_mask; + spte |= shadow_x_mask; + + if (is_access_track) + spte = mark_spte_for_access_track(spte); + + return spte; +} + +/* + * Construct an SPTE that maps a sub-page of the given huge page SPTE where + * `index` identifies which sub-page. + * + * This is used during huge page splitting to build the SPTEs that make up the + * new page table. + */ +u64 make_huge_page_split_spte(struct kvm *kvm, u64 huge_spte, union kvm_mmu_page_role role, + int index) +{ + u64 child_spte; + + if (WARN_ON_ONCE(!is_shadow_present_pte(huge_spte))) + return 0; + + if (WARN_ON_ONCE(!is_large_pte(huge_spte))) + return 0; + + child_spte = huge_spte; + + /* + * The child_spte already has the base address of the huge page being + * split. So we just have to OR in the offset to the page at the next + * lower level for the given index. + */ + child_spte |= (index * KVM_PAGES_PER_HPAGE(role.level)) << PAGE_SHIFT; + + if (role.level == PG_LEVEL_4K) { + child_spte &= ~PT_PAGE_SIZE_MASK; + + /* + * When splitting to a 4K page where execution is allowed, mark + * the page executable as the NX hugepage mitigation no longer + * applies. + */ + if ((role.access & ACC_EXEC_MASK) && is_nx_huge_page_enabled(kvm)) + child_spte = make_spte_executable(child_spte); + } + + return child_spte; +} + + +u64 make_nonleaf_spte(u64 *child_pt, bool ad_disabled) +{ + u64 spte = SPTE_MMU_PRESENT_MASK; + + spte |= __pa(child_pt) | shadow_present_mask | PT_WRITABLE_MASK | + shadow_user_mask | shadow_x_mask | shadow_me_value; + + if (ad_disabled) + spte |= SPTE_TDP_AD_DISABLED_MASK; + else + spte |= shadow_accessed_mask; + + return spte; +} + +u64 kvm_mmu_changed_pte_notifier_make_spte(u64 old_spte, kvm_pfn_t new_pfn) +{ + u64 new_spte; + + new_spte = old_spte & ~SPTE_BASE_ADDR_MASK; + new_spte |= (u64)new_pfn << PAGE_SHIFT; + + new_spte &= ~PT_WRITABLE_MASK; + new_spte &= ~shadow_host_writable_mask; + new_spte &= ~shadow_mmu_writable_mask; + + new_spte = mark_spte_for_access_track(new_spte); + + return new_spte; +} + +u64 mark_spte_for_access_track(u64 spte) +{ + if (spte_ad_enabled(spte)) + return spte & ~shadow_accessed_mask; + + if (is_access_track_spte(spte)) + return spte; + + check_spte_writable_invariants(spte); + + WARN_ONCE(spte & (SHADOW_ACC_TRACK_SAVED_BITS_MASK << + SHADOW_ACC_TRACK_SAVED_BITS_SHIFT), + "kvm: Access Tracking saved bit locations are not zero\n"); + + spte |= (spte & SHADOW_ACC_TRACK_SAVED_BITS_MASK) << + SHADOW_ACC_TRACK_SAVED_BITS_SHIFT; + spte &= ~shadow_acc_track_mask; + + return spte; +} + +void kvm_mmu_set_mmio_spte_mask(u64 mmio_value, u64 mmio_mask, u64 access_mask) +{ + BUG_ON((u64)(unsigned)access_mask != access_mask); + WARN_ON(mmio_value & shadow_nonpresent_or_rsvd_lower_gfn_mask); + + /* + * Reset to the original module param value to honor userspace's desire + * to (dis)allow MMIO caching. Update the param itself so that + * userspace can see whether or not KVM is actually using MMIO caching. + */ + enable_mmio_caching = allow_mmio_caching; + if (!enable_mmio_caching) + mmio_value = 0; + + /* + * The mask must contain only bits that are carved out specifically for + * the MMIO SPTE mask, e.g. to ensure there's no overlap with the MMIO + * generation. + */ + if (WARN_ON(mmio_mask & ~SPTE_MMIO_ALLOWED_MASK)) + mmio_value = 0; + + /* + * Disable MMIO caching if the MMIO value collides with the bits that + * are used to hold the relocated GFN when the L1TF mitigation is + * enabled. This should never fire as there is no known hardware that + * can trigger this condition, e.g. SME/SEV CPUs that require a custom + * MMIO value are not susceptible to L1TF. + */ + if (WARN_ON(mmio_value & (shadow_nonpresent_or_rsvd_mask << + SHADOW_NONPRESENT_OR_RSVD_MASK_LEN))) + mmio_value = 0; + + /* + * The masked MMIO value must obviously match itself and a removed SPTE + * must not get a false positive. Removed SPTEs and MMIO SPTEs should + * never collide as MMIO must set some RWX bits, and removed SPTEs must + * not set any RWX bits. + */ + if (WARN_ON((mmio_value & mmio_mask) != mmio_value) || + WARN_ON(mmio_value && (REMOVED_SPTE & mmio_mask) == mmio_value)) + mmio_value = 0; + + if (!mmio_value) + enable_mmio_caching = false; + + shadow_mmio_value = mmio_value; + shadow_mmio_mask = mmio_mask; + shadow_mmio_access_mask = access_mask; +} +EXPORT_SYMBOL_GPL(kvm_mmu_set_mmio_spte_mask); + +void kvm_mmu_set_me_spte_mask(u64 me_value, u64 me_mask) +{ + /* shadow_me_value must be a subset of shadow_me_mask */ + if (WARN_ON(me_value & ~me_mask)) + me_value = me_mask = 0; + + shadow_me_value = me_value; + shadow_me_mask = me_mask; +} +EXPORT_SYMBOL_GPL(kvm_mmu_set_me_spte_mask); + +void kvm_mmu_set_ept_masks(bool has_ad_bits, bool has_exec_only) +{ + shadow_user_mask = VMX_EPT_READABLE_MASK; + shadow_accessed_mask = has_ad_bits ? VMX_EPT_ACCESS_BIT : 0ull; + shadow_dirty_mask = has_ad_bits ? VMX_EPT_DIRTY_BIT : 0ull; + shadow_nx_mask = 0ull; + shadow_x_mask = VMX_EPT_EXECUTABLE_MASK; + shadow_present_mask = has_exec_only ? 0ull : VMX_EPT_READABLE_MASK; + /* + * EPT overrides the host MTRRs, and so KVM must program the desired + * memtype directly into the SPTEs. Note, this mask is just the mask + * of all bits that factor into the memtype, the actual memtype must be + * dynamically calculated, e.g. to ensure host MMIO is mapped UC. + */ + shadow_memtype_mask = VMX_EPT_MT_MASK | VMX_EPT_IPAT_BIT; + shadow_acc_track_mask = VMX_EPT_RWX_MASK; + shadow_host_writable_mask = EPT_SPTE_HOST_WRITABLE; + shadow_mmu_writable_mask = EPT_SPTE_MMU_WRITABLE; + + /* + * EPT Misconfigurations are generated if the value of bits 2:0 + * of an EPT paging-structure entry is 110b (write/execute). + */ + kvm_mmu_set_mmio_spte_mask(VMX_EPT_MISCONFIG_WX_VALUE, + VMX_EPT_RWX_MASK, 0); +} +EXPORT_SYMBOL_GPL(kvm_mmu_set_ept_masks); + +void kvm_mmu_reset_all_pte_masks(void) +{ + u8 low_phys_bits; + u64 mask; + + shadow_phys_bits = kvm_get_shadow_phys_bits(); + + /* + * If the CPU has 46 or less physical address bits, then set an + * appropriate mask to guard against L1TF attacks. Otherwise, it is + * assumed that the CPU is not vulnerable to L1TF. + * + * Some Intel CPUs address the L1 cache using more PA bits than are + * reported by CPUID. Use the PA width of the L1 cache when possible + * to achieve more effective mitigation, e.g. if system RAM overlaps + * the most significant bits of legal physical address space. + */ + shadow_nonpresent_or_rsvd_mask = 0; + low_phys_bits = boot_cpu_data.x86_phys_bits; + if (boot_cpu_has_bug(X86_BUG_L1TF) && + !WARN_ON_ONCE(boot_cpu_data.x86_cache_bits >= + 52 - SHADOW_NONPRESENT_OR_RSVD_MASK_LEN)) { + low_phys_bits = boot_cpu_data.x86_cache_bits + - SHADOW_NONPRESENT_OR_RSVD_MASK_LEN; + shadow_nonpresent_or_rsvd_mask = + rsvd_bits(low_phys_bits, boot_cpu_data.x86_cache_bits - 1); + } + + shadow_nonpresent_or_rsvd_lower_gfn_mask = + GENMASK_ULL(low_phys_bits - 1, PAGE_SHIFT); + + shadow_user_mask = PT_USER_MASK; + shadow_accessed_mask = PT_ACCESSED_MASK; + shadow_dirty_mask = PT_DIRTY_MASK; + shadow_nx_mask = PT64_NX_MASK; + shadow_x_mask = 0; + shadow_present_mask = PT_PRESENT_MASK; + + /* + * For shadow paging and NPT, KVM uses PAT entry '0' to encode WB + * memtype in the SPTEs, i.e. relies on host MTRRs to provide the + * correct memtype (WB is the "weakest" memtype). + */ + shadow_memtype_mask = 0; + shadow_acc_track_mask = 0; + shadow_me_mask = 0; + shadow_me_value = 0; + + shadow_host_writable_mask = DEFAULT_SPTE_HOST_WRITABLE; + shadow_mmu_writable_mask = DEFAULT_SPTE_MMU_WRITABLE; + + /* + * Set a reserved PA bit in MMIO SPTEs to generate page faults with + * PFEC.RSVD=1 on MMIO accesses. 64-bit PTEs (PAE, x86-64, and EPT + * paging) support a maximum of 52 bits of PA, i.e. if the CPU supports + * 52-bit physical addresses then there are no reserved PA bits in the + * PTEs and so the reserved PA approach must be disabled. + */ + if (shadow_phys_bits < 52) + mask = BIT_ULL(51) | PT_PRESENT_MASK; + else + mask = 0; + + kvm_mmu_set_mmio_spte_mask(mask, mask, ACC_WRITE_MASK | ACC_USER_MASK); +} |