1fe5db27dSBen Gardon // SPDX-License-Identifier: GPL-2.0 2fe5db27dSBen Gardon 302c00b3aSBen Gardon #include "mmu.h" 402c00b3aSBen Gardon #include "mmu_internal.h" 5bb18842eSBen Gardon #include "mmutrace.h" 62f2fad08SBen Gardon #include "tdp_iter.h" 7fe5db27dSBen Gardon #include "tdp_mmu.h" 802c00b3aSBen Gardon #include "spte.h" 9fe5db27dSBen Gardon 109a77daacSBen Gardon #include <asm/cmpxchg.h> 1133dd3574SBen Gardon #include <trace/events/kvm.h> 1233dd3574SBen Gardon 13fe5db27dSBen Gardon static bool __read_mostly tdp_mmu_enabled = false; 1495fb5b02SBen Gardon module_param_named(tdp_mmu, tdp_mmu_enabled, bool, 0644); 15fe5db27dSBen Gardon 16fe5db27dSBen Gardon /* Initializes the TDP MMU for the VM, if enabled. */ 17fe5db27dSBen Gardon void kvm_mmu_init_tdp_mmu(struct kvm *kvm) 18fe5db27dSBen Gardon { 19897218ffSPaolo Bonzini if (!tdp_enabled || !READ_ONCE(tdp_mmu_enabled)) 20fe5db27dSBen Gardon return; 21fe5db27dSBen Gardon 22fe5db27dSBen Gardon /* This should not be changed for the lifetime of the VM. */ 23fe5db27dSBen Gardon kvm->arch.tdp_mmu_enabled = true; 2402c00b3aSBen Gardon 2502c00b3aSBen Gardon INIT_LIST_HEAD(&kvm->arch.tdp_mmu_roots); 269a77daacSBen Gardon spin_lock_init(&kvm->arch.tdp_mmu_pages_lock); 2789c0fd49SBen Gardon INIT_LIST_HEAD(&kvm->arch.tdp_mmu_pages); 28fe5db27dSBen Gardon } 29fe5db27dSBen Gardon 30fe5db27dSBen Gardon void kvm_mmu_uninit_tdp_mmu(struct kvm *kvm) 31fe5db27dSBen Gardon { 32fe5db27dSBen Gardon if (!kvm->arch.tdp_mmu_enabled) 33fe5db27dSBen Gardon return; 3402c00b3aSBen Gardon 3502c00b3aSBen Gardon WARN_ON(!list_empty(&kvm->arch.tdp_mmu_roots)); 367cca2d0bSBen Gardon 377cca2d0bSBen Gardon /* 387cca2d0bSBen Gardon * Ensure that all the outstanding RCU callbacks to free shadow pages 397cca2d0bSBen Gardon * can run before the VM is torn down. 407cca2d0bSBen Gardon */ 417cca2d0bSBen Gardon rcu_barrier(); 4202c00b3aSBen Gardon } 4302c00b3aSBen Gardon 44a889ea54SBen Gardon static void tdp_mmu_put_root(struct kvm *kvm, struct kvm_mmu_page *root) 45a889ea54SBen Gardon { 46a889ea54SBen Gardon if (kvm_mmu_put_root(kvm, root)) 47a889ea54SBen Gardon kvm_tdp_mmu_free_root(kvm, root); 48a889ea54SBen Gardon } 49a889ea54SBen Gardon 50a889ea54SBen Gardon static inline bool tdp_mmu_next_root_valid(struct kvm *kvm, 51a889ea54SBen Gardon struct kvm_mmu_page *root) 52a889ea54SBen Gardon { 53531810caSBen Gardon lockdep_assert_held_write(&kvm->mmu_lock); 54a889ea54SBen Gardon 55a889ea54SBen Gardon if (list_entry_is_head(root, &kvm->arch.tdp_mmu_roots, link)) 56a889ea54SBen Gardon return false; 57a889ea54SBen Gardon 58a889ea54SBen Gardon kvm_mmu_get_root(kvm, root); 59a889ea54SBen Gardon return true; 60a889ea54SBen Gardon 61a889ea54SBen Gardon } 62a889ea54SBen Gardon 63a889ea54SBen Gardon static inline struct kvm_mmu_page *tdp_mmu_next_root(struct kvm *kvm, 64a889ea54SBen Gardon struct kvm_mmu_page *root) 65a889ea54SBen Gardon { 66a889ea54SBen Gardon struct kvm_mmu_page *next_root; 67a889ea54SBen Gardon 68a889ea54SBen Gardon next_root = list_next_entry(root, link); 69a889ea54SBen Gardon tdp_mmu_put_root(kvm, root); 70a889ea54SBen Gardon return next_root; 71a889ea54SBen Gardon } 72a889ea54SBen Gardon 73a889ea54SBen Gardon /* 74a889ea54SBen Gardon * Note: this iterator gets and puts references to the roots it iterates over. 75a889ea54SBen Gardon * This makes it safe to release the MMU lock and yield within the loop, but 76a889ea54SBen Gardon * if exiting the loop early, the caller must drop the reference to the most 77a889ea54SBen Gardon * recent root. (Unless keeping a live reference is desirable.) 78a889ea54SBen Gardon */ 79a889ea54SBen Gardon #define for_each_tdp_mmu_root_yield_safe(_kvm, _root) \ 80a889ea54SBen Gardon for (_root = list_first_entry(&_kvm->arch.tdp_mmu_roots, \ 81a889ea54SBen Gardon typeof(*_root), link); \ 82a889ea54SBen Gardon tdp_mmu_next_root_valid(_kvm, _root); \ 83a889ea54SBen Gardon _root = tdp_mmu_next_root(_kvm, _root)) 84a889ea54SBen Gardon 8502c00b3aSBen Gardon #define for_each_tdp_mmu_root(_kvm, _root) \ 8602c00b3aSBen Gardon list_for_each_entry(_root, &_kvm->arch.tdp_mmu_roots, link) 8702c00b3aSBen Gardon 88faaf05b0SBen Gardon static bool zap_gfn_range(struct kvm *kvm, struct kvm_mmu_page *root, 89063afacdSBen Gardon gfn_t start, gfn_t end, bool can_yield); 90faaf05b0SBen Gardon 9102c00b3aSBen Gardon void kvm_tdp_mmu_free_root(struct kvm *kvm, struct kvm_mmu_page *root) 9202c00b3aSBen Gardon { 93339f5a7fSRick Edgecombe gfn_t max_gfn = 1ULL << (shadow_phys_bits - PAGE_SHIFT); 94faaf05b0SBen Gardon 95531810caSBen Gardon lockdep_assert_held_write(&kvm->mmu_lock); 9602c00b3aSBen Gardon 9702c00b3aSBen Gardon WARN_ON(root->root_count); 9802c00b3aSBen Gardon WARN_ON(!root->tdp_mmu_page); 9902c00b3aSBen Gardon 10002c00b3aSBen Gardon list_del(&root->link); 10102c00b3aSBen Gardon 102063afacdSBen Gardon zap_gfn_range(kvm, root, 0, max_gfn, false); 103faaf05b0SBen Gardon 10402c00b3aSBen Gardon free_page((unsigned long)root->spt); 10502c00b3aSBen Gardon kmem_cache_free(mmu_page_header_cache, root); 10602c00b3aSBen Gardon } 10702c00b3aSBen Gardon 10802c00b3aSBen Gardon static union kvm_mmu_page_role page_role_for_level(struct kvm_vcpu *vcpu, 10902c00b3aSBen Gardon int level) 11002c00b3aSBen Gardon { 11102c00b3aSBen Gardon union kvm_mmu_page_role role; 11202c00b3aSBen Gardon 11302c00b3aSBen Gardon role = vcpu->arch.mmu->mmu_role.base; 11402c00b3aSBen Gardon role.level = level; 11502c00b3aSBen Gardon role.direct = true; 11602c00b3aSBen Gardon role.gpte_is_8_bytes = true; 11702c00b3aSBen Gardon role.access = ACC_ALL; 11802c00b3aSBen Gardon 11902c00b3aSBen Gardon return role; 12002c00b3aSBen Gardon } 12102c00b3aSBen Gardon 12202c00b3aSBen Gardon static struct kvm_mmu_page *alloc_tdp_mmu_page(struct kvm_vcpu *vcpu, gfn_t gfn, 12302c00b3aSBen Gardon int level) 12402c00b3aSBen Gardon { 12502c00b3aSBen Gardon struct kvm_mmu_page *sp; 12602c00b3aSBen Gardon 12702c00b3aSBen Gardon sp = kvm_mmu_memory_cache_alloc(&vcpu->arch.mmu_page_header_cache); 12802c00b3aSBen Gardon sp->spt = kvm_mmu_memory_cache_alloc(&vcpu->arch.mmu_shadow_page_cache); 12902c00b3aSBen Gardon set_page_private(virt_to_page(sp->spt), (unsigned long)sp); 13002c00b3aSBen Gardon 13102c00b3aSBen Gardon sp->role.word = page_role_for_level(vcpu, level).word; 13202c00b3aSBen Gardon sp->gfn = gfn; 13302c00b3aSBen Gardon sp->tdp_mmu_page = true; 13402c00b3aSBen Gardon 13533dd3574SBen Gardon trace_kvm_mmu_get_page(sp, true); 13633dd3574SBen Gardon 13702c00b3aSBen Gardon return sp; 13802c00b3aSBen Gardon } 13902c00b3aSBen Gardon 14002c00b3aSBen Gardon static struct kvm_mmu_page *get_tdp_mmu_vcpu_root(struct kvm_vcpu *vcpu) 14102c00b3aSBen Gardon { 14202c00b3aSBen Gardon union kvm_mmu_page_role role; 14302c00b3aSBen Gardon struct kvm *kvm = vcpu->kvm; 14402c00b3aSBen Gardon struct kvm_mmu_page *root; 14502c00b3aSBen Gardon 14602c00b3aSBen Gardon role = page_role_for_level(vcpu, vcpu->arch.mmu->shadow_root_level); 14702c00b3aSBen Gardon 148531810caSBen Gardon write_lock(&kvm->mmu_lock); 14902c00b3aSBen Gardon 15002c00b3aSBen Gardon /* Check for an existing root before allocating a new one. */ 15102c00b3aSBen Gardon for_each_tdp_mmu_root(kvm, root) { 15202c00b3aSBen Gardon if (root->role.word == role.word) { 15302c00b3aSBen Gardon kvm_mmu_get_root(kvm, root); 154531810caSBen Gardon write_unlock(&kvm->mmu_lock); 15502c00b3aSBen Gardon return root; 15602c00b3aSBen Gardon } 15702c00b3aSBen Gardon } 15802c00b3aSBen Gardon 15902c00b3aSBen Gardon root = alloc_tdp_mmu_page(vcpu, 0, vcpu->arch.mmu->shadow_root_level); 16002c00b3aSBen Gardon root->root_count = 1; 16102c00b3aSBen Gardon 16202c00b3aSBen Gardon list_add(&root->link, &kvm->arch.tdp_mmu_roots); 16302c00b3aSBen Gardon 164531810caSBen Gardon write_unlock(&kvm->mmu_lock); 16502c00b3aSBen Gardon 16602c00b3aSBen Gardon return root; 16702c00b3aSBen Gardon } 16802c00b3aSBen Gardon 16902c00b3aSBen Gardon hpa_t kvm_tdp_mmu_get_vcpu_root_hpa(struct kvm_vcpu *vcpu) 17002c00b3aSBen Gardon { 17102c00b3aSBen Gardon struct kvm_mmu_page *root; 17202c00b3aSBen Gardon 17302c00b3aSBen Gardon root = get_tdp_mmu_vcpu_root(vcpu); 17402c00b3aSBen Gardon if (!root) 17502c00b3aSBen Gardon return INVALID_PAGE; 17602c00b3aSBen Gardon 17702c00b3aSBen Gardon return __pa(root->spt); 178fe5db27dSBen Gardon } 1792f2fad08SBen Gardon 1807cca2d0bSBen Gardon static void tdp_mmu_free_sp(struct kvm_mmu_page *sp) 1817cca2d0bSBen Gardon { 1827cca2d0bSBen Gardon free_page((unsigned long)sp->spt); 1837cca2d0bSBen Gardon kmem_cache_free(mmu_page_header_cache, sp); 1847cca2d0bSBen Gardon } 1857cca2d0bSBen Gardon 1867cca2d0bSBen Gardon /* 1877cca2d0bSBen Gardon * This is called through call_rcu in order to free TDP page table memory 1887cca2d0bSBen Gardon * safely with respect to other kernel threads that may be operating on 1897cca2d0bSBen Gardon * the memory. 1907cca2d0bSBen Gardon * By only accessing TDP MMU page table memory in an RCU read critical 1917cca2d0bSBen Gardon * section, and freeing it after a grace period, lockless access to that 1927cca2d0bSBen Gardon * memory won't use it after it is freed. 1937cca2d0bSBen Gardon */ 1947cca2d0bSBen Gardon static void tdp_mmu_free_sp_rcu_callback(struct rcu_head *head) 1957cca2d0bSBen Gardon { 1967cca2d0bSBen Gardon struct kvm_mmu_page *sp = container_of(head, struct kvm_mmu_page, 1977cca2d0bSBen Gardon rcu_head); 1987cca2d0bSBen Gardon 1997cca2d0bSBen Gardon tdp_mmu_free_sp(sp); 2007cca2d0bSBen Gardon } 2017cca2d0bSBen Gardon 2022f2fad08SBen Gardon static void handle_changed_spte(struct kvm *kvm, int as_id, gfn_t gfn, 2039a77daacSBen Gardon u64 old_spte, u64 new_spte, int level, 2049a77daacSBen Gardon bool shared); 2052f2fad08SBen Gardon 206faaf05b0SBen Gardon static int kvm_mmu_page_as_id(struct kvm_mmu_page *sp) 207faaf05b0SBen Gardon { 208faaf05b0SBen Gardon return sp->role.smm ? 1 : 0; 209faaf05b0SBen Gardon } 210faaf05b0SBen Gardon 211f8e14497SBen Gardon static void handle_changed_spte_acc_track(u64 old_spte, u64 new_spte, int level) 212f8e14497SBen Gardon { 213f8e14497SBen Gardon bool pfn_changed = spte_to_pfn(old_spte) != spte_to_pfn(new_spte); 214f8e14497SBen Gardon 215f8e14497SBen Gardon if (!is_shadow_present_pte(old_spte) || !is_last_spte(old_spte, level)) 216f8e14497SBen Gardon return; 217f8e14497SBen Gardon 218f8e14497SBen Gardon if (is_accessed_spte(old_spte) && 219f8e14497SBen Gardon (!is_accessed_spte(new_spte) || pfn_changed)) 220f8e14497SBen Gardon kvm_set_pfn_accessed(spte_to_pfn(old_spte)); 221f8e14497SBen Gardon } 222f8e14497SBen Gardon 223a6a0b05dSBen Gardon static void handle_changed_spte_dirty_log(struct kvm *kvm, int as_id, gfn_t gfn, 224a6a0b05dSBen Gardon u64 old_spte, u64 new_spte, int level) 225a6a0b05dSBen Gardon { 226a6a0b05dSBen Gardon bool pfn_changed; 227a6a0b05dSBen Gardon struct kvm_memory_slot *slot; 228a6a0b05dSBen Gardon 229a6a0b05dSBen Gardon if (level > PG_LEVEL_4K) 230a6a0b05dSBen Gardon return; 231a6a0b05dSBen Gardon 232a6a0b05dSBen Gardon pfn_changed = spte_to_pfn(old_spte) != spte_to_pfn(new_spte); 233a6a0b05dSBen Gardon 234a6a0b05dSBen Gardon if ((!is_writable_pte(old_spte) || pfn_changed) && 235a6a0b05dSBen Gardon is_writable_pte(new_spte)) { 236a6a0b05dSBen Gardon slot = __gfn_to_memslot(__kvm_memslots(kvm, as_id), gfn); 237fb04a1edSPeter Xu mark_page_dirty_in_slot(kvm, slot, gfn); 238a6a0b05dSBen Gardon } 239a6a0b05dSBen Gardon } 240a6a0b05dSBen Gardon 2412f2fad08SBen Gardon /** 242a9442f59SBen Gardon * tdp_mmu_link_page - Add a new page to the list of pages used by the TDP MMU 243a9442f59SBen Gardon * 244a9442f59SBen Gardon * @kvm: kvm instance 245a9442f59SBen Gardon * @sp: the new page 2469a77daacSBen Gardon * @shared: This operation may not be running under the exclusive use of 2479a77daacSBen Gardon * the MMU lock and the operation must synchronize with other 2489a77daacSBen Gardon * threads that might be adding or removing pages. 249a9442f59SBen Gardon * @account_nx: This page replaces a NX large page and should be marked for 250a9442f59SBen Gardon * eventual reclaim. 251a9442f59SBen Gardon */ 252a9442f59SBen Gardon static void tdp_mmu_link_page(struct kvm *kvm, struct kvm_mmu_page *sp, 2539a77daacSBen Gardon bool shared, bool account_nx) 254a9442f59SBen Gardon { 2559a77daacSBen Gardon if (shared) 2569a77daacSBen Gardon spin_lock(&kvm->arch.tdp_mmu_pages_lock); 2579a77daacSBen Gardon else 258a9442f59SBen Gardon lockdep_assert_held_write(&kvm->mmu_lock); 259a9442f59SBen Gardon 260a9442f59SBen Gardon list_add(&sp->link, &kvm->arch.tdp_mmu_pages); 261a9442f59SBen Gardon if (account_nx) 262a9442f59SBen Gardon account_huge_nx_page(kvm, sp); 2639a77daacSBen Gardon 2649a77daacSBen Gardon if (shared) 2659a77daacSBen Gardon spin_unlock(&kvm->arch.tdp_mmu_pages_lock); 266a9442f59SBen Gardon } 267a9442f59SBen Gardon 268a9442f59SBen Gardon /** 269a9442f59SBen Gardon * tdp_mmu_unlink_page - Remove page from the list of pages used by the TDP MMU 270a9442f59SBen Gardon * 271a9442f59SBen Gardon * @kvm: kvm instance 272a9442f59SBen Gardon * @sp: the page to be removed 2739a77daacSBen Gardon * @shared: This operation may not be running under the exclusive use of 2749a77daacSBen Gardon * the MMU lock and the operation must synchronize with other 2759a77daacSBen Gardon * threads that might be adding or removing pages. 276a9442f59SBen Gardon */ 2779a77daacSBen Gardon static void tdp_mmu_unlink_page(struct kvm *kvm, struct kvm_mmu_page *sp, 2789a77daacSBen Gardon bool shared) 279a9442f59SBen Gardon { 2809a77daacSBen Gardon if (shared) 2819a77daacSBen Gardon spin_lock(&kvm->arch.tdp_mmu_pages_lock); 2829a77daacSBen Gardon else 283a9442f59SBen Gardon lockdep_assert_held_write(&kvm->mmu_lock); 284a9442f59SBen Gardon 285a9442f59SBen Gardon list_del(&sp->link); 286a9442f59SBen Gardon if (sp->lpage_disallowed) 287a9442f59SBen Gardon unaccount_huge_nx_page(kvm, sp); 2889a77daacSBen Gardon 2899a77daacSBen Gardon if (shared) 2909a77daacSBen Gardon spin_unlock(&kvm->arch.tdp_mmu_pages_lock); 291a9442f59SBen Gardon } 292a9442f59SBen Gardon 293a9442f59SBen Gardon /** 294a066e61fSBen Gardon * handle_removed_tdp_mmu_page - handle a pt removed from the TDP structure 295a066e61fSBen Gardon * 296a066e61fSBen Gardon * @kvm: kvm instance 297a066e61fSBen Gardon * @pt: the page removed from the paging structure 2989a77daacSBen Gardon * @shared: This operation may not be running under the exclusive use 2999a77daacSBen Gardon * of the MMU lock and the operation must synchronize with other 3009a77daacSBen Gardon * threads that might be modifying SPTEs. 301a066e61fSBen Gardon * 302a066e61fSBen Gardon * Given a page table that has been removed from the TDP paging structure, 303a066e61fSBen Gardon * iterates through the page table to clear SPTEs and free child page tables. 304*70fb3e41SBen Gardon * 305*70fb3e41SBen Gardon * Note that pt is passed in as a tdp_ptep_t, but it does not need RCU 306*70fb3e41SBen Gardon * protection. Since this thread removed it from the paging structure, 307*70fb3e41SBen Gardon * this thread will be responsible for ensuring the page is freed. Hence the 308*70fb3e41SBen Gardon * early rcu_dereferences in the function. 309a066e61fSBen Gardon */ 310*70fb3e41SBen Gardon static void handle_removed_tdp_mmu_page(struct kvm *kvm, tdp_ptep_t pt, 3119a77daacSBen Gardon bool shared) 312a066e61fSBen Gardon { 313*70fb3e41SBen Gardon struct kvm_mmu_page *sp = sptep_to_sp(rcu_dereference(pt)); 314a066e61fSBen Gardon int level = sp->role.level; 315e25f0e0cSBen Gardon gfn_t base_gfn = sp->gfn; 316a066e61fSBen Gardon u64 old_child_spte; 3179a77daacSBen Gardon u64 *sptep; 318e25f0e0cSBen Gardon gfn_t gfn; 319a066e61fSBen Gardon int i; 320a066e61fSBen Gardon 321a066e61fSBen Gardon trace_kvm_mmu_prepare_zap_page(sp); 322a066e61fSBen Gardon 3239a77daacSBen Gardon tdp_mmu_unlink_page(kvm, sp, shared); 324a066e61fSBen Gardon 325a066e61fSBen Gardon for (i = 0; i < PT64_ENT_PER_PAGE; i++) { 326*70fb3e41SBen Gardon sptep = rcu_dereference(pt) + i; 327e25f0e0cSBen Gardon gfn = base_gfn + (i * KVM_PAGES_PER_HPAGE(level - 1)); 3289a77daacSBen Gardon 3299a77daacSBen Gardon if (shared) { 330e25f0e0cSBen Gardon /* 331e25f0e0cSBen Gardon * Set the SPTE to a nonpresent value that other 332e25f0e0cSBen Gardon * threads will not overwrite. If the SPTE was 333e25f0e0cSBen Gardon * already marked as removed then another thread 334e25f0e0cSBen Gardon * handling a page fault could overwrite it, so 335e25f0e0cSBen Gardon * set the SPTE until it is set from some other 336e25f0e0cSBen Gardon * value to the removed SPTE value. 337e25f0e0cSBen Gardon */ 338e25f0e0cSBen Gardon for (;;) { 339e25f0e0cSBen Gardon old_child_spte = xchg(sptep, REMOVED_SPTE); 340e25f0e0cSBen Gardon if (!is_removed_spte(old_child_spte)) 341e25f0e0cSBen Gardon break; 342e25f0e0cSBen Gardon cpu_relax(); 343e25f0e0cSBen Gardon } 3449a77daacSBen Gardon } else { 3458df9f1afSSean Christopherson /* 3468df9f1afSSean Christopherson * If the SPTE is not MMU-present, there is no backing 3478df9f1afSSean Christopherson * page associated with the SPTE and so no side effects 3488df9f1afSSean Christopherson * that need to be recorded, and exclusive ownership of 3498df9f1afSSean Christopherson * mmu_lock ensures the SPTE can't be made present. 3508df9f1afSSean Christopherson * Note, zapping MMIO SPTEs is also unnecessary as they 3518df9f1afSSean Christopherson * are guarded by the memslots generation, not by being 3528df9f1afSSean Christopherson * unreachable. 3538df9f1afSSean Christopherson */ 3549a77daacSBen Gardon old_child_spte = READ_ONCE(*sptep); 3558df9f1afSSean Christopherson if (!is_shadow_present_pte(old_child_spte)) 3568df9f1afSSean Christopherson continue; 357e25f0e0cSBen Gardon 358e25f0e0cSBen Gardon /* 359e25f0e0cSBen Gardon * Marking the SPTE as a removed SPTE is not 360e25f0e0cSBen Gardon * strictly necessary here as the MMU lock will 361e25f0e0cSBen Gardon * stop other threads from concurrently modifying 362e25f0e0cSBen Gardon * this SPTE. Using the removed SPTE value keeps 363e25f0e0cSBen Gardon * the two branches consistent and simplifies 364e25f0e0cSBen Gardon * the function. 365e25f0e0cSBen Gardon */ 366e25f0e0cSBen Gardon WRITE_ONCE(*sptep, REMOVED_SPTE); 3679a77daacSBen Gardon } 368e25f0e0cSBen Gardon handle_changed_spte(kvm, kvm_mmu_page_as_id(sp), gfn, 369e25f0e0cSBen Gardon old_child_spte, REMOVED_SPTE, level - 1, 370e25f0e0cSBen Gardon shared); 371a066e61fSBen Gardon } 372a066e61fSBen Gardon 373a066e61fSBen Gardon kvm_flush_remote_tlbs_with_address(kvm, gfn, 374a066e61fSBen Gardon KVM_PAGES_PER_HPAGE(level)); 375a066e61fSBen Gardon 3767cca2d0bSBen Gardon call_rcu(&sp->rcu_head, tdp_mmu_free_sp_rcu_callback); 377a066e61fSBen Gardon } 378a066e61fSBen Gardon 379a066e61fSBen Gardon /** 3802f2fad08SBen Gardon * handle_changed_spte - handle bookkeeping associated with an SPTE change 3812f2fad08SBen Gardon * @kvm: kvm instance 3822f2fad08SBen Gardon * @as_id: the address space of the paging structure the SPTE was a part of 3832f2fad08SBen Gardon * @gfn: the base GFN that was mapped by the SPTE 3842f2fad08SBen Gardon * @old_spte: The value of the SPTE before the change 3852f2fad08SBen Gardon * @new_spte: The value of the SPTE after the change 3862f2fad08SBen Gardon * @level: the level of the PT the SPTE is part of in the paging structure 3879a77daacSBen Gardon * @shared: This operation may not be running under the exclusive use of 3889a77daacSBen Gardon * the MMU lock and the operation must synchronize with other 3899a77daacSBen Gardon * threads that might be modifying SPTEs. 3902f2fad08SBen Gardon * 3912f2fad08SBen Gardon * Handle bookkeeping that might result from the modification of a SPTE. 3922f2fad08SBen Gardon * This function must be called for all TDP SPTE modifications. 3932f2fad08SBen Gardon */ 3942f2fad08SBen Gardon static void __handle_changed_spte(struct kvm *kvm, int as_id, gfn_t gfn, 3959a77daacSBen Gardon u64 old_spte, u64 new_spte, int level, 3969a77daacSBen Gardon bool shared) 3972f2fad08SBen Gardon { 3982f2fad08SBen Gardon bool was_present = is_shadow_present_pte(old_spte); 3992f2fad08SBen Gardon bool is_present = is_shadow_present_pte(new_spte); 4002f2fad08SBen Gardon bool was_leaf = was_present && is_last_spte(old_spte, level); 4012f2fad08SBen Gardon bool is_leaf = is_present && is_last_spte(new_spte, level); 4022f2fad08SBen Gardon bool pfn_changed = spte_to_pfn(old_spte) != spte_to_pfn(new_spte); 4032f2fad08SBen Gardon 4042f2fad08SBen Gardon WARN_ON(level > PT64_ROOT_MAX_LEVEL); 4052f2fad08SBen Gardon WARN_ON(level < PG_LEVEL_4K); 406764388ceSSean Christopherson WARN_ON(gfn & (KVM_PAGES_PER_HPAGE(level) - 1)); 4072f2fad08SBen Gardon 4082f2fad08SBen Gardon /* 4092f2fad08SBen Gardon * If this warning were to trigger it would indicate that there was a 4102f2fad08SBen Gardon * missing MMU notifier or a race with some notifier handler. 4112f2fad08SBen Gardon * A present, leaf SPTE should never be directly replaced with another 4122f2fad08SBen Gardon * present leaf SPTE pointing to a differnt PFN. A notifier handler 4132f2fad08SBen Gardon * should be zapping the SPTE before the main MM's page table is 4142f2fad08SBen Gardon * changed, or the SPTE should be zeroed, and the TLBs flushed by the 4152f2fad08SBen Gardon * thread before replacement. 4162f2fad08SBen Gardon */ 4172f2fad08SBen Gardon if (was_leaf && is_leaf && pfn_changed) { 4182f2fad08SBen Gardon pr_err("Invalid SPTE change: cannot replace a present leaf\n" 4192f2fad08SBen Gardon "SPTE with another present leaf SPTE mapping a\n" 4202f2fad08SBen Gardon "different PFN!\n" 4212f2fad08SBen Gardon "as_id: %d gfn: %llx old_spte: %llx new_spte: %llx level: %d", 4222f2fad08SBen Gardon as_id, gfn, old_spte, new_spte, level); 4232f2fad08SBen Gardon 4242f2fad08SBen Gardon /* 4252f2fad08SBen Gardon * Crash the host to prevent error propagation and guest data 4262f2fad08SBen Gardon * courruption. 4272f2fad08SBen Gardon */ 4282f2fad08SBen Gardon BUG(); 4292f2fad08SBen Gardon } 4302f2fad08SBen Gardon 4312f2fad08SBen Gardon if (old_spte == new_spte) 4322f2fad08SBen Gardon return; 4332f2fad08SBen Gardon 434b9a98c34SBen Gardon trace_kvm_tdp_mmu_spte_changed(as_id, gfn, level, old_spte, new_spte); 435b9a98c34SBen Gardon 4362f2fad08SBen Gardon /* 4372f2fad08SBen Gardon * The only times a SPTE should be changed from a non-present to 4382f2fad08SBen Gardon * non-present state is when an MMIO entry is installed/modified/ 4392f2fad08SBen Gardon * removed. In that case, there is nothing to do here. 4402f2fad08SBen Gardon */ 4412f2fad08SBen Gardon if (!was_present && !is_present) { 4422f2fad08SBen Gardon /* 44308f07c80SBen Gardon * If this change does not involve a MMIO SPTE or removed SPTE, 44408f07c80SBen Gardon * it is unexpected. Log the change, though it should not 44508f07c80SBen Gardon * impact the guest since both the former and current SPTEs 44608f07c80SBen Gardon * are nonpresent. 4472f2fad08SBen Gardon */ 44808f07c80SBen Gardon if (WARN_ON(!is_mmio_spte(old_spte) && 44908f07c80SBen Gardon !is_mmio_spte(new_spte) && 45008f07c80SBen Gardon !is_removed_spte(new_spte))) 4512f2fad08SBen Gardon pr_err("Unexpected SPTE change! Nonpresent SPTEs\n" 4522f2fad08SBen Gardon "should not be replaced with another,\n" 4532f2fad08SBen Gardon "different nonpresent SPTE, unless one or both\n" 45408f07c80SBen Gardon "are MMIO SPTEs, or the new SPTE is\n" 45508f07c80SBen Gardon "a temporary removed SPTE.\n" 4562f2fad08SBen Gardon "as_id: %d gfn: %llx old_spte: %llx new_spte: %llx level: %d", 4572f2fad08SBen Gardon as_id, gfn, old_spte, new_spte, level); 4582f2fad08SBen Gardon return; 4592f2fad08SBen Gardon } 4602f2fad08SBen Gardon 4612f2fad08SBen Gardon 4622f2fad08SBen Gardon if (was_leaf && is_dirty_spte(old_spte) && 4632f2fad08SBen Gardon (!is_dirty_spte(new_spte) || pfn_changed)) 4642f2fad08SBen Gardon kvm_set_pfn_dirty(spte_to_pfn(old_spte)); 4652f2fad08SBen Gardon 4662f2fad08SBen Gardon /* 4672f2fad08SBen Gardon * Recursively handle child PTs if the change removed a subtree from 4682f2fad08SBen Gardon * the paging structure. 4692f2fad08SBen Gardon */ 470a066e61fSBen Gardon if (was_present && !was_leaf && (pfn_changed || !is_present)) 471a066e61fSBen Gardon handle_removed_tdp_mmu_page(kvm, 4729a77daacSBen Gardon spte_to_child_pt(old_spte, level), shared); 4732f2fad08SBen Gardon } 4742f2fad08SBen Gardon 4752f2fad08SBen Gardon static void handle_changed_spte(struct kvm *kvm, int as_id, gfn_t gfn, 4769a77daacSBen Gardon u64 old_spte, u64 new_spte, int level, 4779a77daacSBen Gardon bool shared) 4782f2fad08SBen Gardon { 4799a77daacSBen Gardon __handle_changed_spte(kvm, as_id, gfn, old_spte, new_spte, level, 4809a77daacSBen Gardon shared); 481f8e14497SBen Gardon handle_changed_spte_acc_track(old_spte, new_spte, level); 482a6a0b05dSBen Gardon handle_changed_spte_dirty_log(kvm, as_id, gfn, old_spte, 483a6a0b05dSBen Gardon new_spte, level); 4842f2fad08SBen Gardon } 485faaf05b0SBen Gardon 486fe43fa2fSBen Gardon /* 4879a77daacSBen Gardon * tdp_mmu_set_spte_atomic - Set a TDP MMU SPTE atomically and handle the 4889a77daacSBen Gardon * associated bookkeeping 4899a77daacSBen Gardon * 4909a77daacSBen Gardon * @kvm: kvm instance 4919a77daacSBen Gardon * @iter: a tdp_iter instance currently on the SPTE that should be set 4929a77daacSBen Gardon * @new_spte: The value the SPTE should be set to 4939a77daacSBen Gardon * Returns: true if the SPTE was set, false if it was not. If false is returned, 4949a77daacSBen Gardon * this function will have no side-effects. 4959a77daacSBen Gardon */ 4969a77daacSBen Gardon static inline bool tdp_mmu_set_spte_atomic(struct kvm *kvm, 4979a77daacSBen Gardon struct tdp_iter *iter, 4989a77daacSBen Gardon u64 new_spte) 4999a77daacSBen Gardon { 5009a77daacSBen Gardon u64 *root_pt = tdp_iter_root_pt(iter); 5019a77daacSBen Gardon struct kvm_mmu_page *root = sptep_to_sp(root_pt); 5029a77daacSBen Gardon int as_id = kvm_mmu_page_as_id(root); 5039a77daacSBen Gardon 5049a77daacSBen Gardon lockdep_assert_held_read(&kvm->mmu_lock); 5059a77daacSBen Gardon 50608f07c80SBen Gardon /* 50708f07c80SBen Gardon * Do not change removed SPTEs. Only the thread that froze the SPTE 50808f07c80SBen Gardon * may modify it. 50908f07c80SBen Gardon */ 51008f07c80SBen Gardon if (iter->old_spte == REMOVED_SPTE) 51108f07c80SBen Gardon return false; 51208f07c80SBen Gardon 5139a77daacSBen Gardon if (cmpxchg64(rcu_dereference(iter->sptep), iter->old_spte, 5149a77daacSBen Gardon new_spte) != iter->old_spte) 5159a77daacSBen Gardon return false; 5169a77daacSBen Gardon 5179a77daacSBen Gardon handle_changed_spte(kvm, as_id, iter->gfn, iter->old_spte, new_spte, 5189a77daacSBen Gardon iter->level, true); 5199a77daacSBen Gardon 5209a77daacSBen Gardon return true; 5219a77daacSBen Gardon } 5229a77daacSBen Gardon 52308f07c80SBen Gardon static inline bool tdp_mmu_zap_spte_atomic(struct kvm *kvm, 52408f07c80SBen Gardon struct tdp_iter *iter) 52508f07c80SBen Gardon { 52608f07c80SBen Gardon /* 52708f07c80SBen Gardon * Freeze the SPTE by setting it to a special, 52808f07c80SBen Gardon * non-present value. This will stop other threads from 52908f07c80SBen Gardon * immediately installing a present entry in its place 53008f07c80SBen Gardon * before the TLBs are flushed. 53108f07c80SBen Gardon */ 53208f07c80SBen Gardon if (!tdp_mmu_set_spte_atomic(kvm, iter, REMOVED_SPTE)) 53308f07c80SBen Gardon return false; 53408f07c80SBen Gardon 53508f07c80SBen Gardon kvm_flush_remote_tlbs_with_address(kvm, iter->gfn, 53608f07c80SBen Gardon KVM_PAGES_PER_HPAGE(iter->level)); 53708f07c80SBen Gardon 53808f07c80SBen Gardon /* 53908f07c80SBen Gardon * No other thread can overwrite the removed SPTE as they 54008f07c80SBen Gardon * must either wait on the MMU lock or use 54108f07c80SBen Gardon * tdp_mmu_set_spte_atomic which will not overrite the 54208f07c80SBen Gardon * special removed SPTE value. No bookkeeping is needed 54308f07c80SBen Gardon * here since the SPTE is going from non-present 54408f07c80SBen Gardon * to non-present. 54508f07c80SBen Gardon */ 54608f07c80SBen Gardon WRITE_ONCE(*iter->sptep, 0); 54708f07c80SBen Gardon 54808f07c80SBen Gardon return true; 54908f07c80SBen Gardon } 55008f07c80SBen Gardon 5519a77daacSBen Gardon 5529a77daacSBen Gardon /* 553fe43fa2fSBen Gardon * __tdp_mmu_set_spte - Set a TDP MMU SPTE and handle the associated bookkeeping 554fe43fa2fSBen Gardon * @kvm: kvm instance 555fe43fa2fSBen Gardon * @iter: a tdp_iter instance currently on the SPTE that should be set 556fe43fa2fSBen Gardon * @new_spte: The value the SPTE should be set to 557fe43fa2fSBen Gardon * @record_acc_track: Notify the MM subsystem of changes to the accessed state 558fe43fa2fSBen Gardon * of the page. Should be set unless handling an MMU 559fe43fa2fSBen Gardon * notifier for access tracking. Leaving record_acc_track 560fe43fa2fSBen Gardon * unset in that case prevents page accesses from being 561fe43fa2fSBen Gardon * double counted. 562fe43fa2fSBen Gardon * @record_dirty_log: Record the page as dirty in the dirty bitmap if 563fe43fa2fSBen Gardon * appropriate for the change being made. Should be set 564fe43fa2fSBen Gardon * unless performing certain dirty logging operations. 565fe43fa2fSBen Gardon * Leaving record_dirty_log unset in that case prevents page 566fe43fa2fSBen Gardon * writes from being double counted. 567fe43fa2fSBen Gardon */ 568f8e14497SBen Gardon static inline void __tdp_mmu_set_spte(struct kvm *kvm, struct tdp_iter *iter, 569a6a0b05dSBen Gardon u64 new_spte, bool record_acc_track, 570a6a0b05dSBen Gardon bool record_dirty_log) 571faaf05b0SBen Gardon { 5727cca2d0bSBen Gardon tdp_ptep_t root_pt = tdp_iter_root_pt(iter); 573faaf05b0SBen Gardon struct kvm_mmu_page *root = sptep_to_sp(root_pt); 574faaf05b0SBen Gardon int as_id = kvm_mmu_page_as_id(root); 575faaf05b0SBen Gardon 576531810caSBen Gardon lockdep_assert_held_write(&kvm->mmu_lock); 5773a9a4aa5SBen Gardon 57808f07c80SBen Gardon /* 57908f07c80SBen Gardon * No thread should be using this function to set SPTEs to the 58008f07c80SBen Gardon * temporary removed SPTE value. 58108f07c80SBen Gardon * If operating under the MMU lock in read mode, tdp_mmu_set_spte_atomic 58208f07c80SBen Gardon * should be used. If operating under the MMU lock in write mode, the 58308f07c80SBen Gardon * use of the removed SPTE should not be necessary. 58408f07c80SBen Gardon */ 58508f07c80SBen Gardon WARN_ON(iter->old_spte == REMOVED_SPTE); 58608f07c80SBen Gardon 5877cca2d0bSBen Gardon WRITE_ONCE(*rcu_dereference(iter->sptep), new_spte); 588faaf05b0SBen Gardon 589f8e14497SBen Gardon __handle_changed_spte(kvm, as_id, iter->gfn, iter->old_spte, new_spte, 5909a77daacSBen Gardon iter->level, false); 591f8e14497SBen Gardon if (record_acc_track) 592f8e14497SBen Gardon handle_changed_spte_acc_track(iter->old_spte, new_spte, 593f8e14497SBen Gardon iter->level); 594a6a0b05dSBen Gardon if (record_dirty_log) 595a6a0b05dSBen Gardon handle_changed_spte_dirty_log(kvm, as_id, iter->gfn, 596a6a0b05dSBen Gardon iter->old_spte, new_spte, 597a6a0b05dSBen Gardon iter->level); 598f8e14497SBen Gardon } 599f8e14497SBen Gardon 600f8e14497SBen Gardon static inline void tdp_mmu_set_spte(struct kvm *kvm, struct tdp_iter *iter, 601f8e14497SBen Gardon u64 new_spte) 602f8e14497SBen Gardon { 603a6a0b05dSBen Gardon __tdp_mmu_set_spte(kvm, iter, new_spte, true, true); 604f8e14497SBen Gardon } 605f8e14497SBen Gardon 606f8e14497SBen Gardon static inline void tdp_mmu_set_spte_no_acc_track(struct kvm *kvm, 607f8e14497SBen Gardon struct tdp_iter *iter, 608f8e14497SBen Gardon u64 new_spte) 609f8e14497SBen Gardon { 610a6a0b05dSBen Gardon __tdp_mmu_set_spte(kvm, iter, new_spte, false, true); 611a6a0b05dSBen Gardon } 612a6a0b05dSBen Gardon 613a6a0b05dSBen Gardon static inline void tdp_mmu_set_spte_no_dirty_log(struct kvm *kvm, 614a6a0b05dSBen Gardon struct tdp_iter *iter, 615a6a0b05dSBen Gardon u64 new_spte) 616a6a0b05dSBen Gardon { 617a6a0b05dSBen Gardon __tdp_mmu_set_spte(kvm, iter, new_spte, true, false); 618faaf05b0SBen Gardon } 619faaf05b0SBen Gardon 620faaf05b0SBen Gardon #define tdp_root_for_each_pte(_iter, _root, _start, _end) \ 621faaf05b0SBen Gardon for_each_tdp_pte(_iter, _root->spt, _root->role.level, _start, _end) 622faaf05b0SBen Gardon 623f8e14497SBen Gardon #define tdp_root_for_each_leaf_pte(_iter, _root, _start, _end) \ 624f8e14497SBen Gardon tdp_root_for_each_pte(_iter, _root, _start, _end) \ 625f8e14497SBen Gardon if (!is_shadow_present_pte(_iter.old_spte) || \ 626f8e14497SBen Gardon !is_last_spte(_iter.old_spte, _iter.level)) \ 627f8e14497SBen Gardon continue; \ 628f8e14497SBen Gardon else 629f8e14497SBen Gardon 630bb18842eSBen Gardon #define tdp_mmu_for_each_pte(_iter, _mmu, _start, _end) \ 631bb18842eSBen Gardon for_each_tdp_pte(_iter, __va(_mmu->root_hpa), \ 632bb18842eSBen Gardon _mmu->shadow_root_level, _start, _end) 633bb18842eSBen Gardon 634faaf05b0SBen Gardon /* 635e28a436cSBen Gardon * Yield if the MMU lock is contended or this thread needs to return control 636e28a436cSBen Gardon * to the scheduler. 637e28a436cSBen Gardon * 638e139a34eSBen Gardon * If this function should yield and flush is set, it will perform a remote 639e139a34eSBen Gardon * TLB flush before yielding. 640e139a34eSBen Gardon * 641e28a436cSBen Gardon * If this function yields, it will also reset the tdp_iter's walk over the 642ed5e484bSBen Gardon * paging structure and the calling function should skip to the next 643ed5e484bSBen Gardon * iteration to allow the iterator to continue its traversal from the 644ed5e484bSBen Gardon * paging structure root. 645e28a436cSBen Gardon * 646e28a436cSBen Gardon * Return true if this function yielded and the iterator's traversal was reset. 647e28a436cSBen Gardon * Return false if a yield was not needed. 648e28a436cSBen Gardon */ 649e139a34eSBen Gardon static inline bool tdp_mmu_iter_cond_resched(struct kvm *kvm, 650e139a34eSBen Gardon struct tdp_iter *iter, bool flush) 651a6a0b05dSBen Gardon { 652ed5e484bSBen Gardon /* Ensure forward progress has been made before yielding. */ 653ed5e484bSBen Gardon if (iter->next_last_level_gfn == iter->yielded_gfn) 654ed5e484bSBen Gardon return false; 655ed5e484bSBen Gardon 656531810caSBen Gardon if (need_resched() || rwlock_needbreak(&kvm->mmu_lock)) { 6577cca2d0bSBen Gardon rcu_read_unlock(); 6587cca2d0bSBen Gardon 659e139a34eSBen Gardon if (flush) 660e139a34eSBen Gardon kvm_flush_remote_tlbs(kvm); 661e139a34eSBen Gardon 662531810caSBen Gardon cond_resched_rwlock_write(&kvm->mmu_lock); 6637cca2d0bSBen Gardon rcu_read_lock(); 664ed5e484bSBen Gardon 665ed5e484bSBen Gardon WARN_ON(iter->gfn > iter->next_last_level_gfn); 666ed5e484bSBen Gardon 667ed5e484bSBen Gardon tdp_iter_start(iter, iter->pt_path[iter->root_level - 1], 668ed5e484bSBen Gardon iter->root_level, iter->min_level, 669ed5e484bSBen Gardon iter->next_last_level_gfn); 670ed5e484bSBen Gardon 671e28a436cSBen Gardon return true; 672a6a0b05dSBen Gardon } 673e28a436cSBen Gardon 674e28a436cSBen Gardon return false; 675a6a0b05dSBen Gardon } 676a6a0b05dSBen Gardon 677faaf05b0SBen Gardon /* 678faaf05b0SBen Gardon * Tears down the mappings for the range of gfns, [start, end), and frees the 679faaf05b0SBen Gardon * non-root pages mapping GFNs strictly within that range. Returns true if 680faaf05b0SBen Gardon * SPTEs have been cleared and a TLB flush is needed before releasing the 681faaf05b0SBen Gardon * MMU lock. 682063afacdSBen Gardon * If can_yield is true, will release the MMU lock and reschedule if the 683063afacdSBen Gardon * scheduler needs the CPU or there is contention on the MMU lock. If this 684063afacdSBen Gardon * function cannot yield, it will not release the MMU lock or reschedule and 685063afacdSBen Gardon * the caller must ensure it does not supply too large a GFN range, or the 686063afacdSBen Gardon * operation can cause a soft lockup. 687faaf05b0SBen Gardon */ 688faaf05b0SBen Gardon static bool zap_gfn_range(struct kvm *kvm, struct kvm_mmu_page *root, 689063afacdSBen Gardon gfn_t start, gfn_t end, bool can_yield) 690faaf05b0SBen Gardon { 691faaf05b0SBen Gardon struct tdp_iter iter; 692faaf05b0SBen Gardon bool flush_needed = false; 693faaf05b0SBen Gardon 6947cca2d0bSBen Gardon rcu_read_lock(); 6957cca2d0bSBen Gardon 696faaf05b0SBen Gardon tdp_root_for_each_pte(iter, root, start, end) { 6971af4a960SBen Gardon if (can_yield && 6981af4a960SBen Gardon tdp_mmu_iter_cond_resched(kvm, &iter, flush_needed)) { 6991af4a960SBen Gardon flush_needed = false; 7001af4a960SBen Gardon continue; 7011af4a960SBen Gardon } 7021af4a960SBen Gardon 703faaf05b0SBen Gardon if (!is_shadow_present_pte(iter.old_spte)) 704faaf05b0SBen Gardon continue; 705faaf05b0SBen Gardon 706faaf05b0SBen Gardon /* 707faaf05b0SBen Gardon * If this is a non-last-level SPTE that covers a larger range 708faaf05b0SBen Gardon * than should be zapped, continue, and zap the mappings at a 709faaf05b0SBen Gardon * lower level. 710faaf05b0SBen Gardon */ 711faaf05b0SBen Gardon if ((iter.gfn < start || 712faaf05b0SBen Gardon iter.gfn + KVM_PAGES_PER_HPAGE(iter.level) > end) && 713faaf05b0SBen Gardon !is_last_spte(iter.old_spte, iter.level)) 714faaf05b0SBen Gardon continue; 715faaf05b0SBen Gardon 716faaf05b0SBen Gardon tdp_mmu_set_spte(kvm, &iter, 0); 7171af4a960SBen Gardon flush_needed = true; 718faaf05b0SBen Gardon } 7197cca2d0bSBen Gardon 7207cca2d0bSBen Gardon rcu_read_unlock(); 721faaf05b0SBen Gardon return flush_needed; 722faaf05b0SBen Gardon } 723faaf05b0SBen Gardon 724faaf05b0SBen Gardon /* 725faaf05b0SBen Gardon * Tears down the mappings for the range of gfns, [start, end), and frees the 726faaf05b0SBen Gardon * non-root pages mapping GFNs strictly within that range. Returns true if 727faaf05b0SBen Gardon * SPTEs have been cleared and a TLB flush is needed before releasing the 728faaf05b0SBen Gardon * MMU lock. 729faaf05b0SBen Gardon */ 730faaf05b0SBen Gardon bool kvm_tdp_mmu_zap_gfn_range(struct kvm *kvm, gfn_t start, gfn_t end) 731faaf05b0SBen Gardon { 732faaf05b0SBen Gardon struct kvm_mmu_page *root; 733faaf05b0SBen Gardon bool flush = false; 734faaf05b0SBen Gardon 735a889ea54SBen Gardon for_each_tdp_mmu_root_yield_safe(kvm, root) 736063afacdSBen Gardon flush |= zap_gfn_range(kvm, root, start, end, true); 737faaf05b0SBen Gardon 738faaf05b0SBen Gardon return flush; 739faaf05b0SBen Gardon } 740faaf05b0SBen Gardon 741faaf05b0SBen Gardon void kvm_tdp_mmu_zap_all(struct kvm *kvm) 742faaf05b0SBen Gardon { 743339f5a7fSRick Edgecombe gfn_t max_gfn = 1ULL << (shadow_phys_bits - PAGE_SHIFT); 744faaf05b0SBen Gardon bool flush; 745faaf05b0SBen Gardon 746faaf05b0SBen Gardon flush = kvm_tdp_mmu_zap_gfn_range(kvm, 0, max_gfn); 747faaf05b0SBen Gardon if (flush) 748faaf05b0SBen Gardon kvm_flush_remote_tlbs(kvm); 749faaf05b0SBen Gardon } 750bb18842eSBen Gardon 751bb18842eSBen Gardon /* 752bb18842eSBen Gardon * Installs a last-level SPTE to handle a TDP page fault. 753bb18842eSBen Gardon * (NPT/EPT violation/misconfiguration) 754bb18842eSBen Gardon */ 755bb18842eSBen Gardon static int tdp_mmu_map_handle_target_level(struct kvm_vcpu *vcpu, int write, 756bb18842eSBen Gardon int map_writable, 757bb18842eSBen Gardon struct tdp_iter *iter, 758bb18842eSBen Gardon kvm_pfn_t pfn, bool prefault) 759bb18842eSBen Gardon { 760bb18842eSBen Gardon u64 new_spte; 761bb18842eSBen Gardon int ret = 0; 762bb18842eSBen Gardon int make_spte_ret = 0; 763bb18842eSBen Gardon 7649a77daacSBen Gardon if (unlikely(is_noslot_pfn(pfn))) 765bb18842eSBen Gardon new_spte = make_mmio_spte(vcpu, iter->gfn, ACC_ALL); 7669a77daacSBen Gardon else 767bb18842eSBen Gardon make_spte_ret = make_spte(vcpu, ACC_ALL, iter->level, iter->gfn, 768bb18842eSBen Gardon pfn, iter->old_spte, prefault, true, 769bb18842eSBen Gardon map_writable, !shadow_accessed_mask, 770bb18842eSBen Gardon &new_spte); 771bb18842eSBen Gardon 772bb18842eSBen Gardon if (new_spte == iter->old_spte) 773bb18842eSBen Gardon ret = RET_PF_SPURIOUS; 7749a77daacSBen Gardon else if (!tdp_mmu_set_spte_atomic(vcpu->kvm, iter, new_spte)) 7759a77daacSBen Gardon return RET_PF_RETRY; 776bb18842eSBen Gardon 777bb18842eSBen Gardon /* 778bb18842eSBen Gardon * If the page fault was caused by a write but the page is write 779bb18842eSBen Gardon * protected, emulation is needed. If the emulation was skipped, 780bb18842eSBen Gardon * the vCPU would have the same fault again. 781bb18842eSBen Gardon */ 782bb18842eSBen Gardon if (make_spte_ret & SET_SPTE_WRITE_PROTECTED_PT) { 783bb18842eSBen Gardon if (write) 784bb18842eSBen Gardon ret = RET_PF_EMULATE; 785bb18842eSBen Gardon kvm_make_request(KVM_REQ_TLB_FLUSH_CURRENT, vcpu); 786bb18842eSBen Gardon } 787bb18842eSBen Gardon 788bb18842eSBen Gardon /* If a MMIO SPTE is installed, the MMIO will need to be emulated. */ 7899a77daacSBen Gardon if (unlikely(is_mmio_spte(new_spte))) { 7909a77daacSBen Gardon trace_mark_mmio_spte(rcu_dereference(iter->sptep), iter->gfn, 7919a77daacSBen Gardon new_spte); 792bb18842eSBen Gardon ret = RET_PF_EMULATE; 7939a77daacSBen Gardon } else 7949a77daacSBen Gardon trace_kvm_mmu_set_spte(iter->level, iter->gfn, 7959a77daacSBen Gardon rcu_dereference(iter->sptep)); 796bb18842eSBen Gardon 7977cca2d0bSBen Gardon trace_kvm_mmu_set_spte(iter->level, iter->gfn, 7987cca2d0bSBen Gardon rcu_dereference(iter->sptep)); 799bb18842eSBen Gardon if (!prefault) 800bb18842eSBen Gardon vcpu->stat.pf_fixed++; 801bb18842eSBen Gardon 802bb18842eSBen Gardon return ret; 803bb18842eSBen Gardon } 804bb18842eSBen Gardon 805bb18842eSBen Gardon /* 806bb18842eSBen Gardon * Handle a TDP page fault (NPT/EPT violation/misconfiguration) by installing 807bb18842eSBen Gardon * page tables and SPTEs to translate the faulting guest physical address. 808bb18842eSBen Gardon */ 809bb18842eSBen Gardon int kvm_tdp_mmu_map(struct kvm_vcpu *vcpu, gpa_t gpa, u32 error_code, 810bb18842eSBen Gardon int map_writable, int max_level, kvm_pfn_t pfn, 811bb18842eSBen Gardon bool prefault) 812bb18842eSBen Gardon { 813bb18842eSBen Gardon bool nx_huge_page_workaround_enabled = is_nx_huge_page_enabled(); 814bb18842eSBen Gardon bool write = error_code & PFERR_WRITE_MASK; 815bb18842eSBen Gardon bool exec = error_code & PFERR_FETCH_MASK; 816bb18842eSBen Gardon bool huge_page_disallowed = exec && nx_huge_page_workaround_enabled; 817bb18842eSBen Gardon struct kvm_mmu *mmu = vcpu->arch.mmu; 818bb18842eSBen Gardon struct tdp_iter iter; 81989c0fd49SBen Gardon struct kvm_mmu_page *sp; 820bb18842eSBen Gardon u64 *child_pt; 821bb18842eSBen Gardon u64 new_spte; 822bb18842eSBen Gardon int ret; 823bb18842eSBen Gardon gfn_t gfn = gpa >> PAGE_SHIFT; 824bb18842eSBen Gardon int level; 825bb18842eSBen Gardon int req_level; 826bb18842eSBen Gardon 827bb18842eSBen Gardon if (WARN_ON(!VALID_PAGE(vcpu->arch.mmu->root_hpa))) 828bb18842eSBen Gardon return RET_PF_RETRY; 829bb18842eSBen Gardon if (WARN_ON(!is_tdp_mmu_root(vcpu->kvm, vcpu->arch.mmu->root_hpa))) 830bb18842eSBen Gardon return RET_PF_RETRY; 831bb18842eSBen Gardon 832bb18842eSBen Gardon level = kvm_mmu_hugepage_adjust(vcpu, gfn, max_level, &pfn, 833bb18842eSBen Gardon huge_page_disallowed, &req_level); 834bb18842eSBen Gardon 835bb18842eSBen Gardon trace_kvm_mmu_spte_requested(gpa, level, pfn); 8367cca2d0bSBen Gardon 8377cca2d0bSBen Gardon rcu_read_lock(); 8387cca2d0bSBen Gardon 839bb18842eSBen Gardon tdp_mmu_for_each_pte(iter, mmu, gfn, gfn + 1) { 840bb18842eSBen Gardon if (nx_huge_page_workaround_enabled) 841bb18842eSBen Gardon disallowed_hugepage_adjust(iter.old_spte, gfn, 842bb18842eSBen Gardon iter.level, &pfn, &level); 843bb18842eSBen Gardon 844bb18842eSBen Gardon if (iter.level == level) 845bb18842eSBen Gardon break; 846bb18842eSBen Gardon 847bb18842eSBen Gardon /* 848bb18842eSBen Gardon * If there is an SPTE mapping a large page at a higher level 849bb18842eSBen Gardon * than the target, that SPTE must be cleared and replaced 850bb18842eSBen Gardon * with a non-leaf SPTE. 851bb18842eSBen Gardon */ 852bb18842eSBen Gardon if (is_shadow_present_pte(iter.old_spte) && 853bb18842eSBen Gardon is_large_pte(iter.old_spte)) { 85408f07c80SBen Gardon if (!tdp_mmu_zap_spte_atomic(vcpu->kvm, &iter)) 8559a77daacSBen Gardon break; 856bb18842eSBen Gardon 857bb18842eSBen Gardon /* 858bb18842eSBen Gardon * The iter must explicitly re-read the spte here 859bb18842eSBen Gardon * because the new value informs the !present 860bb18842eSBen Gardon * path below. 861bb18842eSBen Gardon */ 8627cca2d0bSBen Gardon iter.old_spte = READ_ONCE(*rcu_dereference(iter.sptep)); 863bb18842eSBen Gardon } 864bb18842eSBen Gardon 865bb18842eSBen Gardon if (!is_shadow_present_pte(iter.old_spte)) { 86689c0fd49SBen Gardon sp = alloc_tdp_mmu_page(vcpu, iter.gfn, iter.level); 86789c0fd49SBen Gardon child_pt = sp->spt; 868a9442f59SBen Gardon 869bb18842eSBen Gardon new_spte = make_nonleaf_spte(child_pt, 870bb18842eSBen Gardon !shadow_accessed_mask); 871bb18842eSBen Gardon 8729a77daacSBen Gardon if (tdp_mmu_set_spte_atomic(vcpu->kvm, &iter, 8739a77daacSBen Gardon new_spte)) { 8749a77daacSBen Gardon tdp_mmu_link_page(vcpu->kvm, sp, true, 8759a77daacSBen Gardon huge_page_disallowed && 8769a77daacSBen Gardon req_level >= iter.level); 8779a77daacSBen Gardon 878bb18842eSBen Gardon trace_kvm_mmu_get_page(sp, true); 8799a77daacSBen Gardon } else { 8809a77daacSBen Gardon tdp_mmu_free_sp(sp); 8819a77daacSBen Gardon break; 8829a77daacSBen Gardon } 883bb18842eSBen Gardon } 884bb18842eSBen Gardon } 885bb18842eSBen Gardon 8869a77daacSBen Gardon if (iter.level != level) { 8877cca2d0bSBen Gardon rcu_read_unlock(); 888bb18842eSBen Gardon return RET_PF_RETRY; 8897cca2d0bSBen Gardon } 890bb18842eSBen Gardon 891bb18842eSBen Gardon ret = tdp_mmu_map_handle_target_level(vcpu, write, map_writable, &iter, 892bb18842eSBen Gardon pfn, prefault); 8937cca2d0bSBen Gardon rcu_read_unlock(); 894bb18842eSBen Gardon 895bb18842eSBen Gardon return ret; 896bb18842eSBen Gardon } 897063afacdSBen Gardon 8988f5c44f9SMaciej S. Szmigiero static __always_inline int 8998f5c44f9SMaciej S. Szmigiero kvm_tdp_mmu_handle_hva_range(struct kvm *kvm, 9008f5c44f9SMaciej S. Szmigiero unsigned long start, 9018f5c44f9SMaciej S. Szmigiero unsigned long end, 9028f5c44f9SMaciej S. Szmigiero unsigned long data, 9038f5c44f9SMaciej S. Szmigiero int (*handler)(struct kvm *kvm, 9048f5c44f9SMaciej S. Szmigiero struct kvm_memory_slot *slot, 9058f5c44f9SMaciej S. Szmigiero struct kvm_mmu_page *root, 9068f5c44f9SMaciej S. Szmigiero gfn_t start, 9078f5c44f9SMaciej S. Szmigiero gfn_t end, 9088f5c44f9SMaciej S. Szmigiero unsigned long data)) 909063afacdSBen Gardon { 910063afacdSBen Gardon struct kvm_memslots *slots; 911063afacdSBen Gardon struct kvm_memory_slot *memslot; 912063afacdSBen Gardon struct kvm_mmu_page *root; 913063afacdSBen Gardon int ret = 0; 914063afacdSBen Gardon int as_id; 915063afacdSBen Gardon 916a889ea54SBen Gardon for_each_tdp_mmu_root_yield_safe(kvm, root) { 917063afacdSBen Gardon as_id = kvm_mmu_page_as_id(root); 918063afacdSBen Gardon slots = __kvm_memslots(kvm, as_id); 919063afacdSBen Gardon kvm_for_each_memslot(memslot, slots) { 920063afacdSBen Gardon unsigned long hva_start, hva_end; 921063afacdSBen Gardon gfn_t gfn_start, gfn_end; 922063afacdSBen Gardon 923063afacdSBen Gardon hva_start = max(start, memslot->userspace_addr); 924063afacdSBen Gardon hva_end = min(end, memslot->userspace_addr + 925063afacdSBen Gardon (memslot->npages << PAGE_SHIFT)); 926063afacdSBen Gardon if (hva_start >= hva_end) 927063afacdSBen Gardon continue; 928063afacdSBen Gardon /* 929063afacdSBen Gardon * {gfn(page) | page intersects with [hva_start, hva_end)} = 930063afacdSBen Gardon * {gfn_start, gfn_start+1, ..., gfn_end-1}. 931063afacdSBen Gardon */ 932063afacdSBen Gardon gfn_start = hva_to_gfn_memslot(hva_start, memslot); 933063afacdSBen Gardon gfn_end = hva_to_gfn_memslot(hva_end + PAGE_SIZE - 1, memslot); 934063afacdSBen Gardon 935063afacdSBen Gardon ret |= handler(kvm, memslot, root, gfn_start, 936063afacdSBen Gardon gfn_end, data); 937063afacdSBen Gardon } 938063afacdSBen Gardon } 939063afacdSBen Gardon 940063afacdSBen Gardon return ret; 941063afacdSBen Gardon } 942063afacdSBen Gardon 943063afacdSBen Gardon static int zap_gfn_range_hva_wrapper(struct kvm *kvm, 944063afacdSBen Gardon struct kvm_memory_slot *slot, 945063afacdSBen Gardon struct kvm_mmu_page *root, gfn_t start, 946063afacdSBen Gardon gfn_t end, unsigned long unused) 947063afacdSBen Gardon { 948063afacdSBen Gardon return zap_gfn_range(kvm, root, start, end, false); 949063afacdSBen Gardon } 950063afacdSBen Gardon 951063afacdSBen Gardon int kvm_tdp_mmu_zap_hva_range(struct kvm *kvm, unsigned long start, 952063afacdSBen Gardon unsigned long end) 953063afacdSBen Gardon { 954063afacdSBen Gardon return kvm_tdp_mmu_handle_hva_range(kvm, start, end, 0, 955063afacdSBen Gardon zap_gfn_range_hva_wrapper); 956063afacdSBen Gardon } 957f8e14497SBen Gardon 958f8e14497SBen Gardon /* 959f8e14497SBen Gardon * Mark the SPTEs range of GFNs [start, end) unaccessed and return non-zero 960f8e14497SBen Gardon * if any of the GFNs in the range have been accessed. 961f8e14497SBen Gardon */ 962f8e14497SBen Gardon static int age_gfn_range(struct kvm *kvm, struct kvm_memory_slot *slot, 963f8e14497SBen Gardon struct kvm_mmu_page *root, gfn_t start, gfn_t end, 964f8e14497SBen Gardon unsigned long unused) 965f8e14497SBen Gardon { 966f8e14497SBen Gardon struct tdp_iter iter; 967f8e14497SBen Gardon int young = 0; 968f8e14497SBen Gardon u64 new_spte = 0; 969f8e14497SBen Gardon 9707cca2d0bSBen Gardon rcu_read_lock(); 9717cca2d0bSBen Gardon 972f8e14497SBen Gardon tdp_root_for_each_leaf_pte(iter, root, start, end) { 973f8e14497SBen Gardon /* 974f8e14497SBen Gardon * If we have a non-accessed entry we don't need to change the 975f8e14497SBen Gardon * pte. 976f8e14497SBen Gardon */ 977f8e14497SBen Gardon if (!is_accessed_spte(iter.old_spte)) 978f8e14497SBen Gardon continue; 979f8e14497SBen Gardon 980f8e14497SBen Gardon new_spte = iter.old_spte; 981f8e14497SBen Gardon 982f8e14497SBen Gardon if (spte_ad_enabled(new_spte)) { 983f8e14497SBen Gardon clear_bit((ffs(shadow_accessed_mask) - 1), 984f8e14497SBen Gardon (unsigned long *)&new_spte); 985f8e14497SBen Gardon } else { 986f8e14497SBen Gardon /* 987f8e14497SBen Gardon * Capture the dirty status of the page, so that it doesn't get 988f8e14497SBen Gardon * lost when the SPTE is marked for access tracking. 989f8e14497SBen Gardon */ 990f8e14497SBen Gardon if (is_writable_pte(new_spte)) 991f8e14497SBen Gardon kvm_set_pfn_dirty(spte_to_pfn(new_spte)); 992f8e14497SBen Gardon 993f8e14497SBen Gardon new_spte = mark_spte_for_access_track(new_spte); 994f8e14497SBen Gardon } 995a6a0b05dSBen Gardon new_spte &= ~shadow_dirty_mask; 996f8e14497SBen Gardon 997f8e14497SBen Gardon tdp_mmu_set_spte_no_acc_track(kvm, &iter, new_spte); 998f8e14497SBen Gardon young = 1; 99933dd3574SBen Gardon 100033dd3574SBen Gardon trace_kvm_age_page(iter.gfn, iter.level, slot, young); 1001f8e14497SBen Gardon } 1002f8e14497SBen Gardon 10037cca2d0bSBen Gardon rcu_read_unlock(); 10047cca2d0bSBen Gardon 1005f8e14497SBen Gardon return young; 1006f8e14497SBen Gardon } 1007f8e14497SBen Gardon 1008f8e14497SBen Gardon int kvm_tdp_mmu_age_hva_range(struct kvm *kvm, unsigned long start, 1009f8e14497SBen Gardon unsigned long end) 1010f8e14497SBen Gardon { 1011f8e14497SBen Gardon return kvm_tdp_mmu_handle_hva_range(kvm, start, end, 0, 1012f8e14497SBen Gardon age_gfn_range); 1013f8e14497SBen Gardon } 1014f8e14497SBen Gardon 1015f8e14497SBen Gardon static int test_age_gfn(struct kvm *kvm, struct kvm_memory_slot *slot, 1016f8e14497SBen Gardon struct kvm_mmu_page *root, gfn_t gfn, gfn_t unused, 1017f8e14497SBen Gardon unsigned long unused2) 1018f8e14497SBen Gardon { 1019f8e14497SBen Gardon struct tdp_iter iter; 1020f8e14497SBen Gardon 1021f8e14497SBen Gardon tdp_root_for_each_leaf_pte(iter, root, gfn, gfn + 1) 1022f8e14497SBen Gardon if (is_accessed_spte(iter.old_spte)) 1023f8e14497SBen Gardon return 1; 1024f8e14497SBen Gardon 1025f8e14497SBen Gardon return 0; 1026f8e14497SBen Gardon } 1027f8e14497SBen Gardon 1028f8e14497SBen Gardon int kvm_tdp_mmu_test_age_hva(struct kvm *kvm, unsigned long hva) 1029f8e14497SBen Gardon { 1030f8e14497SBen Gardon return kvm_tdp_mmu_handle_hva_range(kvm, hva, hva + 1, 0, 1031f8e14497SBen Gardon test_age_gfn); 1032f8e14497SBen Gardon } 10331d8dd6b3SBen Gardon 10341d8dd6b3SBen Gardon /* 10351d8dd6b3SBen Gardon * Handle the changed_pte MMU notifier for the TDP MMU. 10361d8dd6b3SBen Gardon * data is a pointer to the new pte_t mapping the HVA specified by the MMU 10371d8dd6b3SBen Gardon * notifier. 10381d8dd6b3SBen Gardon * Returns non-zero if a flush is needed before releasing the MMU lock. 10391d8dd6b3SBen Gardon */ 10401d8dd6b3SBen Gardon static int set_tdp_spte(struct kvm *kvm, struct kvm_memory_slot *slot, 10411d8dd6b3SBen Gardon struct kvm_mmu_page *root, gfn_t gfn, gfn_t unused, 10421d8dd6b3SBen Gardon unsigned long data) 10431d8dd6b3SBen Gardon { 10441d8dd6b3SBen Gardon struct tdp_iter iter; 10451d8dd6b3SBen Gardon pte_t *ptep = (pte_t *)data; 10461d8dd6b3SBen Gardon kvm_pfn_t new_pfn; 10471d8dd6b3SBen Gardon u64 new_spte; 10481d8dd6b3SBen Gardon int need_flush = 0; 10491d8dd6b3SBen Gardon 10507cca2d0bSBen Gardon rcu_read_lock(); 10517cca2d0bSBen Gardon 10521d8dd6b3SBen Gardon WARN_ON(pte_huge(*ptep)); 10531d8dd6b3SBen Gardon 10541d8dd6b3SBen Gardon new_pfn = pte_pfn(*ptep); 10551d8dd6b3SBen Gardon 10561d8dd6b3SBen Gardon tdp_root_for_each_pte(iter, root, gfn, gfn + 1) { 10571d8dd6b3SBen Gardon if (iter.level != PG_LEVEL_4K) 10581d8dd6b3SBen Gardon continue; 10591d8dd6b3SBen Gardon 10601d8dd6b3SBen Gardon if (!is_shadow_present_pte(iter.old_spte)) 10611d8dd6b3SBen Gardon break; 10621d8dd6b3SBen Gardon 10631d8dd6b3SBen Gardon tdp_mmu_set_spte(kvm, &iter, 0); 10641d8dd6b3SBen Gardon 10651d8dd6b3SBen Gardon kvm_flush_remote_tlbs_with_address(kvm, iter.gfn, 1); 10661d8dd6b3SBen Gardon 10671d8dd6b3SBen Gardon if (!pte_write(*ptep)) { 10681d8dd6b3SBen Gardon new_spte = kvm_mmu_changed_pte_notifier_make_spte( 10691d8dd6b3SBen Gardon iter.old_spte, new_pfn); 10701d8dd6b3SBen Gardon 10711d8dd6b3SBen Gardon tdp_mmu_set_spte(kvm, &iter, new_spte); 10721d8dd6b3SBen Gardon } 10731d8dd6b3SBen Gardon 10741d8dd6b3SBen Gardon need_flush = 1; 10751d8dd6b3SBen Gardon } 10761d8dd6b3SBen Gardon 10771d8dd6b3SBen Gardon if (need_flush) 10781d8dd6b3SBen Gardon kvm_flush_remote_tlbs_with_address(kvm, gfn, 1); 10791d8dd6b3SBen Gardon 10807cca2d0bSBen Gardon rcu_read_unlock(); 10817cca2d0bSBen Gardon 10821d8dd6b3SBen Gardon return 0; 10831d8dd6b3SBen Gardon } 10841d8dd6b3SBen Gardon 10851d8dd6b3SBen Gardon int kvm_tdp_mmu_set_spte_hva(struct kvm *kvm, unsigned long address, 10861d8dd6b3SBen Gardon pte_t *host_ptep) 10871d8dd6b3SBen Gardon { 10881d8dd6b3SBen Gardon return kvm_tdp_mmu_handle_hva_range(kvm, address, address + 1, 10891d8dd6b3SBen Gardon (unsigned long)host_ptep, 10901d8dd6b3SBen Gardon set_tdp_spte); 10911d8dd6b3SBen Gardon } 10921d8dd6b3SBen Gardon 1093a6a0b05dSBen Gardon /* 1094a6a0b05dSBen Gardon * Remove write access from all the SPTEs mapping GFNs [start, end). If 1095a6a0b05dSBen Gardon * skip_4k is set, SPTEs that map 4k pages, will not be write-protected. 1096a6a0b05dSBen Gardon * Returns true if an SPTE has been changed and the TLBs need to be flushed. 1097a6a0b05dSBen Gardon */ 1098a6a0b05dSBen Gardon static bool wrprot_gfn_range(struct kvm *kvm, struct kvm_mmu_page *root, 1099a6a0b05dSBen Gardon gfn_t start, gfn_t end, int min_level) 1100a6a0b05dSBen Gardon { 1101a6a0b05dSBen Gardon struct tdp_iter iter; 1102a6a0b05dSBen Gardon u64 new_spte; 1103a6a0b05dSBen Gardon bool spte_set = false; 1104a6a0b05dSBen Gardon 11057cca2d0bSBen Gardon rcu_read_lock(); 11067cca2d0bSBen Gardon 1107a6a0b05dSBen Gardon BUG_ON(min_level > KVM_MAX_HUGEPAGE_LEVEL); 1108a6a0b05dSBen Gardon 1109a6a0b05dSBen Gardon for_each_tdp_pte_min_level(iter, root->spt, root->role.level, 1110a6a0b05dSBen Gardon min_level, start, end) { 11111af4a960SBen Gardon if (tdp_mmu_iter_cond_resched(kvm, &iter, false)) 11121af4a960SBen Gardon continue; 11131af4a960SBen Gardon 1114a6a0b05dSBen Gardon if (!is_shadow_present_pte(iter.old_spte) || 11150f99ee2cSBen Gardon !is_last_spte(iter.old_spte, iter.level) || 11160f99ee2cSBen Gardon !(iter.old_spte & PT_WRITABLE_MASK)) 1117a6a0b05dSBen Gardon continue; 1118a6a0b05dSBen Gardon 1119a6a0b05dSBen Gardon new_spte = iter.old_spte & ~PT_WRITABLE_MASK; 1120a6a0b05dSBen Gardon 1121a6a0b05dSBen Gardon tdp_mmu_set_spte_no_dirty_log(kvm, &iter, new_spte); 1122a6a0b05dSBen Gardon spte_set = true; 1123a6a0b05dSBen Gardon } 11247cca2d0bSBen Gardon 11257cca2d0bSBen Gardon rcu_read_unlock(); 1126a6a0b05dSBen Gardon return spte_set; 1127a6a0b05dSBen Gardon } 1128a6a0b05dSBen Gardon 1129a6a0b05dSBen Gardon /* 1130a6a0b05dSBen Gardon * Remove write access from all the SPTEs mapping GFNs in the memslot. Will 1131a6a0b05dSBen Gardon * only affect leaf SPTEs down to min_level. 1132a6a0b05dSBen Gardon * Returns true if an SPTE has been changed and the TLBs need to be flushed. 1133a6a0b05dSBen Gardon */ 1134a6a0b05dSBen Gardon bool kvm_tdp_mmu_wrprot_slot(struct kvm *kvm, struct kvm_memory_slot *slot, 1135a6a0b05dSBen Gardon int min_level) 1136a6a0b05dSBen Gardon { 1137a6a0b05dSBen Gardon struct kvm_mmu_page *root; 1138a6a0b05dSBen Gardon int root_as_id; 1139a6a0b05dSBen Gardon bool spte_set = false; 1140a6a0b05dSBen Gardon 1141a889ea54SBen Gardon for_each_tdp_mmu_root_yield_safe(kvm, root) { 1142a6a0b05dSBen Gardon root_as_id = kvm_mmu_page_as_id(root); 1143a6a0b05dSBen Gardon if (root_as_id != slot->as_id) 1144a6a0b05dSBen Gardon continue; 1145a6a0b05dSBen Gardon 1146a6a0b05dSBen Gardon spte_set |= wrprot_gfn_range(kvm, root, slot->base_gfn, 1147a6a0b05dSBen Gardon slot->base_gfn + slot->npages, min_level); 1148a6a0b05dSBen Gardon } 1149a6a0b05dSBen Gardon 1150a6a0b05dSBen Gardon return spte_set; 1151a6a0b05dSBen Gardon } 1152a6a0b05dSBen Gardon 1153a6a0b05dSBen Gardon /* 1154a6a0b05dSBen Gardon * Clear the dirty status of all the SPTEs mapping GFNs in the memslot. If 1155a6a0b05dSBen Gardon * AD bits are enabled, this will involve clearing the dirty bit on each SPTE. 1156a6a0b05dSBen Gardon * If AD bits are not enabled, this will require clearing the writable bit on 1157a6a0b05dSBen Gardon * each SPTE. Returns true if an SPTE has been changed and the TLBs need to 1158a6a0b05dSBen Gardon * be flushed. 1159a6a0b05dSBen Gardon */ 1160a6a0b05dSBen Gardon static bool clear_dirty_gfn_range(struct kvm *kvm, struct kvm_mmu_page *root, 1161a6a0b05dSBen Gardon gfn_t start, gfn_t end) 1162a6a0b05dSBen Gardon { 1163a6a0b05dSBen Gardon struct tdp_iter iter; 1164a6a0b05dSBen Gardon u64 new_spte; 1165a6a0b05dSBen Gardon bool spte_set = false; 1166a6a0b05dSBen Gardon 11677cca2d0bSBen Gardon rcu_read_lock(); 11687cca2d0bSBen Gardon 1169a6a0b05dSBen Gardon tdp_root_for_each_leaf_pte(iter, root, start, end) { 11701af4a960SBen Gardon if (tdp_mmu_iter_cond_resched(kvm, &iter, false)) 11711af4a960SBen Gardon continue; 11721af4a960SBen Gardon 1173a6a0b05dSBen Gardon if (spte_ad_need_write_protect(iter.old_spte)) { 1174a6a0b05dSBen Gardon if (is_writable_pte(iter.old_spte)) 1175a6a0b05dSBen Gardon new_spte = iter.old_spte & ~PT_WRITABLE_MASK; 1176a6a0b05dSBen Gardon else 1177a6a0b05dSBen Gardon continue; 1178a6a0b05dSBen Gardon } else { 1179a6a0b05dSBen Gardon if (iter.old_spte & shadow_dirty_mask) 1180a6a0b05dSBen Gardon new_spte = iter.old_spte & ~shadow_dirty_mask; 1181a6a0b05dSBen Gardon else 1182a6a0b05dSBen Gardon continue; 1183a6a0b05dSBen Gardon } 1184a6a0b05dSBen Gardon 1185a6a0b05dSBen Gardon tdp_mmu_set_spte_no_dirty_log(kvm, &iter, new_spte); 1186a6a0b05dSBen Gardon spte_set = true; 1187a6a0b05dSBen Gardon } 11887cca2d0bSBen Gardon 11897cca2d0bSBen Gardon rcu_read_unlock(); 1190a6a0b05dSBen Gardon return spte_set; 1191a6a0b05dSBen Gardon } 1192a6a0b05dSBen Gardon 1193a6a0b05dSBen Gardon /* 1194a6a0b05dSBen Gardon * Clear the dirty status of all the SPTEs mapping GFNs in the memslot. If 1195a6a0b05dSBen Gardon * AD bits are enabled, this will involve clearing the dirty bit on each SPTE. 1196a6a0b05dSBen Gardon * If AD bits are not enabled, this will require clearing the writable bit on 1197a6a0b05dSBen Gardon * each SPTE. Returns true if an SPTE has been changed and the TLBs need to 1198a6a0b05dSBen Gardon * be flushed. 1199a6a0b05dSBen Gardon */ 1200a6a0b05dSBen Gardon bool kvm_tdp_mmu_clear_dirty_slot(struct kvm *kvm, struct kvm_memory_slot *slot) 1201a6a0b05dSBen Gardon { 1202a6a0b05dSBen Gardon struct kvm_mmu_page *root; 1203a6a0b05dSBen Gardon int root_as_id; 1204a6a0b05dSBen Gardon bool spte_set = false; 1205a6a0b05dSBen Gardon 1206a889ea54SBen Gardon for_each_tdp_mmu_root_yield_safe(kvm, root) { 1207a6a0b05dSBen Gardon root_as_id = kvm_mmu_page_as_id(root); 1208a6a0b05dSBen Gardon if (root_as_id != slot->as_id) 1209a6a0b05dSBen Gardon continue; 1210a6a0b05dSBen Gardon 1211a6a0b05dSBen Gardon spte_set |= clear_dirty_gfn_range(kvm, root, slot->base_gfn, 1212a6a0b05dSBen Gardon slot->base_gfn + slot->npages); 1213a6a0b05dSBen Gardon } 1214a6a0b05dSBen Gardon 1215a6a0b05dSBen Gardon return spte_set; 1216a6a0b05dSBen Gardon } 1217a6a0b05dSBen Gardon 1218a6a0b05dSBen Gardon /* 1219a6a0b05dSBen Gardon * Clears the dirty status of all the 4k SPTEs mapping GFNs for which a bit is 1220a6a0b05dSBen Gardon * set in mask, starting at gfn. The given memslot is expected to contain all 1221a6a0b05dSBen Gardon * the GFNs represented by set bits in the mask. If AD bits are enabled, 1222a6a0b05dSBen Gardon * clearing the dirty status will involve clearing the dirty bit on each SPTE 1223a6a0b05dSBen Gardon * or, if AD bits are not enabled, clearing the writable bit on each SPTE. 1224a6a0b05dSBen Gardon */ 1225a6a0b05dSBen Gardon static void clear_dirty_pt_masked(struct kvm *kvm, struct kvm_mmu_page *root, 1226a6a0b05dSBen Gardon gfn_t gfn, unsigned long mask, bool wrprot) 1227a6a0b05dSBen Gardon { 1228a6a0b05dSBen Gardon struct tdp_iter iter; 1229a6a0b05dSBen Gardon u64 new_spte; 1230a6a0b05dSBen Gardon 12317cca2d0bSBen Gardon rcu_read_lock(); 12327cca2d0bSBen Gardon 1233a6a0b05dSBen Gardon tdp_root_for_each_leaf_pte(iter, root, gfn + __ffs(mask), 1234a6a0b05dSBen Gardon gfn + BITS_PER_LONG) { 1235a6a0b05dSBen Gardon if (!mask) 1236a6a0b05dSBen Gardon break; 1237a6a0b05dSBen Gardon 1238a6a0b05dSBen Gardon if (iter.level > PG_LEVEL_4K || 1239a6a0b05dSBen Gardon !(mask & (1UL << (iter.gfn - gfn)))) 1240a6a0b05dSBen Gardon continue; 1241a6a0b05dSBen Gardon 1242f1b3b06aSBen Gardon mask &= ~(1UL << (iter.gfn - gfn)); 1243f1b3b06aSBen Gardon 1244a6a0b05dSBen Gardon if (wrprot || spte_ad_need_write_protect(iter.old_spte)) { 1245a6a0b05dSBen Gardon if (is_writable_pte(iter.old_spte)) 1246a6a0b05dSBen Gardon new_spte = iter.old_spte & ~PT_WRITABLE_MASK; 1247a6a0b05dSBen Gardon else 1248a6a0b05dSBen Gardon continue; 1249a6a0b05dSBen Gardon } else { 1250a6a0b05dSBen Gardon if (iter.old_spte & shadow_dirty_mask) 1251a6a0b05dSBen Gardon new_spte = iter.old_spte & ~shadow_dirty_mask; 1252a6a0b05dSBen Gardon else 1253a6a0b05dSBen Gardon continue; 1254a6a0b05dSBen Gardon } 1255a6a0b05dSBen Gardon 1256a6a0b05dSBen Gardon tdp_mmu_set_spte_no_dirty_log(kvm, &iter, new_spte); 1257a6a0b05dSBen Gardon } 12587cca2d0bSBen Gardon 12597cca2d0bSBen Gardon rcu_read_unlock(); 1260a6a0b05dSBen Gardon } 1261a6a0b05dSBen Gardon 1262a6a0b05dSBen Gardon /* 1263a6a0b05dSBen Gardon * Clears the dirty status of all the 4k SPTEs mapping GFNs for which a bit is 1264a6a0b05dSBen Gardon * set in mask, starting at gfn. The given memslot is expected to contain all 1265a6a0b05dSBen Gardon * the GFNs represented by set bits in the mask. If AD bits are enabled, 1266a6a0b05dSBen Gardon * clearing the dirty status will involve clearing the dirty bit on each SPTE 1267a6a0b05dSBen Gardon * or, if AD bits are not enabled, clearing the writable bit on each SPTE. 1268a6a0b05dSBen Gardon */ 1269a6a0b05dSBen Gardon void kvm_tdp_mmu_clear_dirty_pt_masked(struct kvm *kvm, 1270a6a0b05dSBen Gardon struct kvm_memory_slot *slot, 1271a6a0b05dSBen Gardon gfn_t gfn, unsigned long mask, 1272a6a0b05dSBen Gardon bool wrprot) 1273a6a0b05dSBen Gardon { 1274a6a0b05dSBen Gardon struct kvm_mmu_page *root; 1275a6a0b05dSBen Gardon int root_as_id; 1276a6a0b05dSBen Gardon 1277531810caSBen Gardon lockdep_assert_held_write(&kvm->mmu_lock); 1278a6a0b05dSBen Gardon for_each_tdp_mmu_root(kvm, root) { 1279a6a0b05dSBen Gardon root_as_id = kvm_mmu_page_as_id(root); 1280a6a0b05dSBen Gardon if (root_as_id != slot->as_id) 1281a6a0b05dSBen Gardon continue; 1282a6a0b05dSBen Gardon 1283a6a0b05dSBen Gardon clear_dirty_pt_masked(kvm, root, gfn, mask, wrprot); 1284a6a0b05dSBen Gardon } 1285a6a0b05dSBen Gardon } 1286a6a0b05dSBen Gardon 1287a6a0b05dSBen Gardon /* 128887aa9ec9SBen Gardon * Clear leaf entries which could be replaced by large mappings, for 128987aa9ec9SBen Gardon * GFNs within the slot. 129014881998SBen Gardon */ 129114881998SBen Gardon static void zap_collapsible_spte_range(struct kvm *kvm, 129214881998SBen Gardon struct kvm_mmu_page *root, 12939eba50f8SSean Christopherson struct kvm_memory_slot *slot) 129414881998SBen Gardon { 12959eba50f8SSean Christopherson gfn_t start = slot->base_gfn; 12969eba50f8SSean Christopherson gfn_t end = start + slot->npages; 129714881998SBen Gardon struct tdp_iter iter; 129814881998SBen Gardon kvm_pfn_t pfn; 129914881998SBen Gardon bool spte_set = false; 130014881998SBen Gardon 13017cca2d0bSBen Gardon rcu_read_lock(); 13027cca2d0bSBen Gardon 130314881998SBen Gardon tdp_root_for_each_pte(iter, root, start, end) { 13041af4a960SBen Gardon if (tdp_mmu_iter_cond_resched(kvm, &iter, spte_set)) { 13051af4a960SBen Gardon spte_set = false; 13061af4a960SBen Gardon continue; 13071af4a960SBen Gardon } 13081af4a960SBen Gardon 130914881998SBen Gardon if (!is_shadow_present_pte(iter.old_spte) || 131087aa9ec9SBen Gardon !is_last_spte(iter.old_spte, iter.level)) 131114881998SBen Gardon continue; 131214881998SBen Gardon 131314881998SBen Gardon pfn = spte_to_pfn(iter.old_spte); 131414881998SBen Gardon if (kvm_is_reserved_pfn(pfn) || 13159eba50f8SSean Christopherson iter.level >= kvm_mmu_max_mapping_level(kvm, slot, iter.gfn, 13169eba50f8SSean Christopherson pfn, PG_LEVEL_NUM)) 131714881998SBen Gardon continue; 131814881998SBen Gardon 131914881998SBen Gardon tdp_mmu_set_spte(kvm, &iter, 0); 132014881998SBen Gardon 13211af4a960SBen Gardon spte_set = true; 132214881998SBen Gardon } 132314881998SBen Gardon 13247cca2d0bSBen Gardon rcu_read_unlock(); 132514881998SBen Gardon if (spte_set) 132614881998SBen Gardon kvm_flush_remote_tlbs(kvm); 132714881998SBen Gardon } 132814881998SBen Gardon 132914881998SBen Gardon /* 133014881998SBen Gardon * Clear non-leaf entries (and free associated page tables) which could 133114881998SBen Gardon * be replaced by large mappings, for GFNs within the slot. 133214881998SBen Gardon */ 133314881998SBen Gardon void kvm_tdp_mmu_zap_collapsible_sptes(struct kvm *kvm, 13349eba50f8SSean Christopherson struct kvm_memory_slot *slot) 133514881998SBen Gardon { 133614881998SBen Gardon struct kvm_mmu_page *root; 133714881998SBen Gardon int root_as_id; 133814881998SBen Gardon 1339a889ea54SBen Gardon for_each_tdp_mmu_root_yield_safe(kvm, root) { 134014881998SBen Gardon root_as_id = kvm_mmu_page_as_id(root); 134114881998SBen Gardon if (root_as_id != slot->as_id) 134214881998SBen Gardon continue; 134314881998SBen Gardon 13449eba50f8SSean Christopherson zap_collapsible_spte_range(kvm, root, slot); 134514881998SBen Gardon } 134614881998SBen Gardon } 134746044f72SBen Gardon 134846044f72SBen Gardon /* 134946044f72SBen Gardon * Removes write access on the last level SPTE mapping this GFN and unsets the 135046044f72SBen Gardon * SPTE_MMU_WRITABLE bit to ensure future writes continue to be intercepted. 135146044f72SBen Gardon * Returns true if an SPTE was set and a TLB flush is needed. 135246044f72SBen Gardon */ 135346044f72SBen Gardon static bool write_protect_gfn(struct kvm *kvm, struct kvm_mmu_page *root, 135446044f72SBen Gardon gfn_t gfn) 135546044f72SBen Gardon { 135646044f72SBen Gardon struct tdp_iter iter; 135746044f72SBen Gardon u64 new_spte; 135846044f72SBen Gardon bool spte_set = false; 135946044f72SBen Gardon 13607cca2d0bSBen Gardon rcu_read_lock(); 13617cca2d0bSBen Gardon 136246044f72SBen Gardon tdp_root_for_each_leaf_pte(iter, root, gfn, gfn + 1) { 136346044f72SBen Gardon if (!is_writable_pte(iter.old_spte)) 136446044f72SBen Gardon break; 136546044f72SBen Gardon 136646044f72SBen Gardon new_spte = iter.old_spte & 136746044f72SBen Gardon ~(PT_WRITABLE_MASK | SPTE_MMU_WRITEABLE); 136846044f72SBen Gardon 136946044f72SBen Gardon tdp_mmu_set_spte(kvm, &iter, new_spte); 137046044f72SBen Gardon spte_set = true; 137146044f72SBen Gardon } 137246044f72SBen Gardon 13737cca2d0bSBen Gardon rcu_read_unlock(); 13747cca2d0bSBen Gardon 137546044f72SBen Gardon return spte_set; 137646044f72SBen Gardon } 137746044f72SBen Gardon 137846044f72SBen Gardon /* 137946044f72SBen Gardon * Removes write access on the last level SPTE mapping this GFN and unsets the 138046044f72SBen Gardon * SPTE_MMU_WRITABLE bit to ensure future writes continue to be intercepted. 138146044f72SBen Gardon * Returns true if an SPTE was set and a TLB flush is needed. 138246044f72SBen Gardon */ 138346044f72SBen Gardon bool kvm_tdp_mmu_write_protect_gfn(struct kvm *kvm, 138446044f72SBen Gardon struct kvm_memory_slot *slot, gfn_t gfn) 138546044f72SBen Gardon { 138646044f72SBen Gardon struct kvm_mmu_page *root; 138746044f72SBen Gardon int root_as_id; 138846044f72SBen Gardon bool spte_set = false; 138946044f72SBen Gardon 1390531810caSBen Gardon lockdep_assert_held_write(&kvm->mmu_lock); 139146044f72SBen Gardon for_each_tdp_mmu_root(kvm, root) { 139246044f72SBen Gardon root_as_id = kvm_mmu_page_as_id(root); 139346044f72SBen Gardon if (root_as_id != slot->as_id) 139446044f72SBen Gardon continue; 139546044f72SBen Gardon 139646044f72SBen Gardon spte_set |= write_protect_gfn(kvm, root, gfn); 139746044f72SBen Gardon } 139846044f72SBen Gardon return spte_set; 139946044f72SBen Gardon } 140046044f72SBen Gardon 140195fb5b02SBen Gardon /* 140295fb5b02SBen Gardon * Return the level of the lowest level SPTE added to sptes. 140395fb5b02SBen Gardon * That SPTE may be non-present. 140495fb5b02SBen Gardon */ 140539b4d43eSSean Christopherson int kvm_tdp_mmu_get_walk(struct kvm_vcpu *vcpu, u64 addr, u64 *sptes, 140639b4d43eSSean Christopherson int *root_level) 140795fb5b02SBen Gardon { 140895fb5b02SBen Gardon struct tdp_iter iter; 140995fb5b02SBen Gardon struct kvm_mmu *mmu = vcpu->arch.mmu; 141095fb5b02SBen Gardon gfn_t gfn = addr >> PAGE_SHIFT; 14112aa07893SSean Christopherson int leaf = -1; 141295fb5b02SBen Gardon 141339b4d43eSSean Christopherson *root_level = vcpu->arch.mmu->shadow_root_level; 141495fb5b02SBen Gardon 14157cca2d0bSBen Gardon rcu_read_lock(); 14167cca2d0bSBen Gardon 141795fb5b02SBen Gardon tdp_mmu_for_each_pte(iter, mmu, gfn, gfn + 1) { 141895fb5b02SBen Gardon leaf = iter.level; 1419dde81f94SSean Christopherson sptes[leaf] = iter.old_spte; 142095fb5b02SBen Gardon } 142195fb5b02SBen Gardon 14227cca2d0bSBen Gardon rcu_read_unlock(); 14237cca2d0bSBen Gardon 142495fb5b02SBen Gardon return leaf; 142595fb5b02SBen Gardon } 1426