KVM: arm64: Correctly handle page aging notifiers for unaligned memslot
Userspace is allowed to select any PAGE_SIZE aligned hva to back guest
memory. This is even the case with hugepages, although it is a rather
suboptimal configuration as PTE level mappings are used at stage-2.
The arm64 page aging handlers have an assumption that the specified
range is exactly one page/block of memory, which in the aforementioned
case is not necessarily true. All together this leads to the WARN() in
kvm_age_gfn() firing.
However, the WARN is only part of the issue as the table walkers visit
at most a single leaf PTE. For hugepage-backed memory in a memslot that
isn't hugepage-aligned, page aging entirely misses accesses to the
hugepage beyond the first page in the memslot.
Add a new walker dedicated to handling page aging MMU notifiers capable
of walking a range of PTEs. Convert kvm(_test)_age_gfn() over to the new
walker and drop the WARN that caught the issue in the first place. The
implementation of this walker was inspired by the test_clear_young()
implementation by Yu Zhao [*], but repurposed to address a bug in the
existing aging implementation.
Cc: stable@vger.kernel.org # v5.15
Fixes: 056aad67f8 ("kvm: arm/arm64: Rework gpa callback handlers")
Link: https://lore.kernel.org/kvmarm/20230526234435.662652-6-yuzhao@google.com/
Co-developed-by: Yu Zhao <yuzhao@google.com>
Signed-off-by: Yu Zhao <yuzhao@google.com>
Reported-by: Reiji Watanabe <reijiw@google.com>
Reviewed-by: Marc Zyngier <maz@kernel.org>
Reviewed-by: Shaoqin Huang <shahuang@redhat.com>
Link: https://lore.kernel.org/r/20230627235405.4069823-1-oliver.upton@linux.dev
Signed-off-by: Oliver Upton <oliver.upton@linux.dev>
This commit is contained in:
Oliver Upton
parent
970dee09b2
commit
df6556adf2
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@ -608,22 +608,26 @@ int kvm_pgtable_stage2_wrprotect(struct kvm_pgtable *pgt, u64 addr, u64 size);
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kvm_pte_t kvm_pgtable_stage2_mkyoung(struct kvm_pgtable *pgt, u64 addr);
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/**
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* kvm_pgtable_stage2_mkold() - Clear the access flag in a page-table entry.
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* kvm_pgtable_stage2_test_clear_young() - Test and optionally clear the access
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* flag in a page-table entry.
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* @pgt: Page-table structure initialised by kvm_pgtable_stage2_init*().
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* @addr: Intermediate physical address to identify the page-table entry.
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* @size: Size of the address range to visit.
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* @mkold: True if the access flag should be cleared.
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*
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* The offset of @addr within a page is ignored.
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*
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* If there is a valid, leaf page-table entry used to translate @addr, then
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* clear the access flag in that entry.
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* Tests and conditionally clears the access flag for every valid, leaf
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* page-table entry used to translate the range [@addr, @addr + @size).
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*
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* Note that it is the caller's responsibility to invalidate the TLB after
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* calling this function to ensure that the updated permissions are visible
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* to the CPUs.
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*
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* Return: The old page-table entry prior to clearing the flag, 0 on failure.
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* Return: True if any of the visited PTEs had the access flag set.
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*/
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kvm_pte_t kvm_pgtable_stage2_mkold(struct kvm_pgtable *pgt, u64 addr);
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bool kvm_pgtable_stage2_test_clear_young(struct kvm_pgtable *pgt, u64 addr,
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u64 size, bool mkold);
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/**
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* kvm_pgtable_stage2_relax_perms() - Relax the permissions enforced by a
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@ -645,18 +649,6 @@ kvm_pte_t kvm_pgtable_stage2_mkold(struct kvm_pgtable *pgt, u64 addr);
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int kvm_pgtable_stage2_relax_perms(struct kvm_pgtable *pgt, u64 addr,
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enum kvm_pgtable_prot prot);
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/**
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* kvm_pgtable_stage2_is_young() - Test whether a page-table entry has the
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* access flag set.
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* @pgt: Page-table structure initialised by kvm_pgtable_stage2_init*().
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* @addr: Intermediate physical address to identify the page-table entry.
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*
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* The offset of @addr within a page is ignored.
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*
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* Return: True if the page-table entry has the access flag set, false otherwise.
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*/
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bool kvm_pgtable_stage2_is_young(struct kvm_pgtable *pgt, u64 addr);
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/**
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* kvm_pgtable_stage2_flush_range() - Clean and invalidate data cache to Point
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* of Coherency for guest stage-2 address
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@ -1195,25 +1195,54 @@ kvm_pte_t kvm_pgtable_stage2_mkyoung(struct kvm_pgtable *pgt, u64 addr)
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return pte;
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}
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kvm_pte_t kvm_pgtable_stage2_mkold(struct kvm_pgtable *pgt, u64 addr)
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struct stage2_age_data {
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bool mkold;
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bool young;
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};
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static int stage2_age_walker(const struct kvm_pgtable_visit_ctx *ctx,
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enum kvm_pgtable_walk_flags visit)
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{
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kvm_pte_t pte = 0;
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stage2_update_leaf_attrs(pgt, addr, 1, 0, KVM_PTE_LEAF_ATTR_LO_S2_AF,
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&pte, NULL, 0);
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kvm_pte_t new = ctx->old & ~KVM_PTE_LEAF_ATTR_LO_S2_AF;
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struct stage2_age_data *data = ctx->arg;
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if (!kvm_pte_valid(ctx->old) || new == ctx->old)
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return 0;
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data->young = true;
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/*
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* stage2_age_walker() is always called while holding the MMU lock for
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* write, so this will always succeed. Nonetheless, this deliberately
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* follows the race detection pattern of the other stage-2 walkers in
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* case the locking mechanics of the MMU notifiers is ever changed.
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*/
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if (data->mkold && !stage2_try_set_pte(ctx, new))
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return -EAGAIN;
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/*
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* "But where's the TLBI?!", you scream.
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* "Over in the core code", I sigh.
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*
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* See the '->clear_flush_young()' callback on the KVM mmu notifier.
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*/
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return pte;
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return 0;
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}
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bool kvm_pgtable_stage2_is_young(struct kvm_pgtable *pgt, u64 addr)
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bool kvm_pgtable_stage2_test_clear_young(struct kvm_pgtable *pgt, u64 addr,
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u64 size, bool mkold)
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{
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kvm_pte_t pte = 0;
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stage2_update_leaf_attrs(pgt, addr, 1, 0, 0, &pte, NULL, 0);
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return pte & KVM_PTE_LEAF_ATTR_LO_S2_AF;
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struct stage2_age_data data = {
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.mkold = mkold,
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};
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struct kvm_pgtable_walker walker = {
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.cb = stage2_age_walker,
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.arg = &data,
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.flags = KVM_PGTABLE_WALK_LEAF,
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};
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WARN_ON(kvm_pgtable_walk(pgt, addr, size, &walker));
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return data.young;
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}
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int kvm_pgtable_stage2_relax_perms(struct kvm_pgtable *pgt, u64 addr,
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@ -1756,27 +1756,25 @@ bool kvm_set_spte_gfn(struct kvm *kvm, struct kvm_gfn_range *range)
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bool kvm_age_gfn(struct kvm *kvm, struct kvm_gfn_range *range)
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{
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u64 size = (range->end - range->start) << PAGE_SHIFT;
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kvm_pte_t kpte;
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pte_t pte;
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if (!kvm->arch.mmu.pgt)
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return false;
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WARN_ON(size != PAGE_SIZE && size != PMD_SIZE && size != PUD_SIZE);
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kpte = kvm_pgtable_stage2_mkold(kvm->arch.mmu.pgt,
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range->start << PAGE_SHIFT);
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pte = __pte(kpte);
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return pte_valid(pte) && pte_young(pte);
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return kvm_pgtable_stage2_test_clear_young(kvm->arch.mmu.pgt,
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range->start << PAGE_SHIFT,
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size, true);
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}
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bool kvm_test_age_gfn(struct kvm *kvm, struct kvm_gfn_range *range)
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{
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u64 size = (range->end - range->start) << PAGE_SHIFT;
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if (!kvm->arch.mmu.pgt)
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return false;
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return kvm_pgtable_stage2_is_young(kvm->arch.mmu.pgt,
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range->start << PAGE_SHIFT);
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return kvm_pgtable_stage2_test_clear_young(kvm->arch.mmu.pgt,
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range->start << PAGE_SHIFT,
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size, false);
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}
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phys_addr_t kvm_mmu_get_httbr(void)
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