mirror of https://gitee.com/openkylin/linux.git
KVM: PPC: Book3S HV: Add a per vcpu cache for recently page faulted MMIO entries
This keeps a per vcpu cache for recently page faulted MMIO entries. On a page fault, if the entry exists in the cache, we can avoid some time-consuming paths, for example, looking up HPT, locking HPTE twice and searching mmio gfn from memslots, then directly call kvmppc_hv_emulate_mmio(). In current implenment, we limit the size of cache to four. We think it's enough to cover the high-frequency MMIO HPTEs in most case. For example, considering the case of using virtio device, for virtio legacy devices, one HPTE could handle notifications from up to 1024 (64K page / 64 byte Port IO register) devices, so one cache entry is enough; for virtio modern devices, we always need one HPTE to handle notification for each device because modern device would use a 8M MMIO register to notify host instead of Port IO register, typically the system's configuration should not exceed four virtio devices per vcpu, four cache entry is also enough in this case. Of course, if needed, we could also modify the macro to a module parameter in the future. Signed-off-by: Yongji Xie <xyjxie@linux.vnet.ibm.com> Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
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@ -246,6 +246,7 @@ struct kvm_arch {
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#ifdef CONFIG_KVM_BOOK3S_HV_POSSIBLE
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unsigned long hpt_virt;
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struct revmap_entry *revmap;
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atomic64_t mmio_update;
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unsigned int host_lpid;
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unsigned long host_lpcr;
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unsigned long sdr1;
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@ -408,6 +409,24 @@ struct kvmppc_passthru_irqmap {
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#define KVMPPC_IRQ_MPIC 1
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#define KVMPPC_IRQ_XICS 2
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#define MMIO_HPTE_CACHE_SIZE 4
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struct mmio_hpte_cache_entry {
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unsigned long hpte_v;
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unsigned long hpte_r;
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unsigned long rpte;
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unsigned long pte_index;
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unsigned long eaddr;
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unsigned long slb_v;
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long mmio_update;
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unsigned int slb_base_pshift;
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};
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struct mmio_hpte_cache {
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struct mmio_hpte_cache_entry entry[MMIO_HPTE_CACHE_SIZE];
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unsigned int index;
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};
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struct openpic;
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struct kvm_vcpu_arch {
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@ -655,9 +674,11 @@ struct kvm_vcpu_arch {
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#ifdef CONFIG_KVM_BOOK3S_HV_POSSIBLE
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struct kvm_vcpu_arch_shared shregs;
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struct mmio_hpte_cache mmio_cache;
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unsigned long pgfault_addr;
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long pgfault_index;
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unsigned long pgfault_hpte[2];
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struct mmio_hpte_cache_entry *pgfault_cache;
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struct task_struct *run_task;
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struct kvm_run *kvm_run;
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@ -88,6 +88,8 @@ long kvmppc_alloc_hpt(struct kvm *kvm, u32 *htab_orderp)
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/* 128 (2**7) bytes in each HPTEG */
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kvm->arch.hpt_mask = (1ul << (order - 7)) - 1;
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atomic64_set(&kvm->arch.mmio_update, 0);
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/* Allocate reverse map array */
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rev = vmalloc(sizeof(struct revmap_entry) * kvm->arch.hpt_npte);
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if (!rev) {
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@ -451,6 +453,7 @@ int kvmppc_book3s_hv_page_fault(struct kvm_run *run, struct kvm_vcpu *vcpu,
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unsigned int writing, write_ok;
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struct vm_area_struct *vma;
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unsigned long rcbits;
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long mmio_update;
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/*
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* Real-mode code has already searched the HPT and found the
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@ -460,6 +463,19 @@ int kvmppc_book3s_hv_page_fault(struct kvm_run *run, struct kvm_vcpu *vcpu,
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*/
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if (ea != vcpu->arch.pgfault_addr)
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return RESUME_GUEST;
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if (vcpu->arch.pgfault_cache) {
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mmio_update = atomic64_read(&kvm->arch.mmio_update);
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if (mmio_update == vcpu->arch.pgfault_cache->mmio_update) {
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r = vcpu->arch.pgfault_cache->rpte;
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psize = hpte_page_size(vcpu->arch.pgfault_hpte[0], r);
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gpa_base = r & HPTE_R_RPN & ~(psize - 1);
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gfn_base = gpa_base >> PAGE_SHIFT;
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gpa = gpa_base | (ea & (psize - 1));
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return kvmppc_hv_emulate_mmio(run, vcpu, gpa, ea,
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dsisr & DSISR_ISSTORE);
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}
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}
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index = vcpu->arch.pgfault_index;
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hptep = (__be64 *)(kvm->arch.hpt_virt + (index << 4));
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rev = &kvm->arch.revmap[index];
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@ -2970,6 +2970,15 @@ static void kvmppc_core_commit_memory_region_hv(struct kvm *kvm,
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struct kvm_memslots *slots;
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struct kvm_memory_slot *memslot;
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/*
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* If we are making a new memslot, it might make
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* some address that was previously cached as emulated
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* MMIO be no longer emulated MMIO, so invalidate
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* all the caches of emulated MMIO translations.
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*/
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if (npages)
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atomic64_inc(&kvm->arch.mmio_update);
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if (npages && old->npages) {
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/*
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* If modifying a memslot, reset all the rmap dirty bits.
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@ -390,6 +390,13 @@ long kvmppc_h_enter(struct kvm_vcpu *vcpu, unsigned long flags,
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#define LOCK_TOKEN (*(u32 *)(&get_paca()->paca_index))
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#endif
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static inline int is_mmio_hpte(unsigned long v, unsigned long r)
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{
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return ((v & HPTE_V_ABSENT) &&
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(r & (HPTE_R_KEY_HI | HPTE_R_KEY_LO)) ==
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(HPTE_R_KEY_HI | HPTE_R_KEY_LO));
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}
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static inline int try_lock_tlbie(unsigned int *lock)
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{
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unsigned int tmp, old;
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@ -456,6 +463,7 @@ long kvmppc_do_h_remove(struct kvm *kvm, unsigned long flags,
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rev = real_vmalloc_addr(&kvm->arch.revmap[pte_index]);
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v = pte & ~HPTE_V_HVLOCK;
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pte = be64_to_cpu(hpte[1]);
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if (v & HPTE_V_VALID) {
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hpte[0] &= ~cpu_to_be64(HPTE_V_VALID);
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rb = compute_tlbie_rb(v, be64_to_cpu(hpte[1]), pte_index);
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@ -476,6 +484,9 @@ long kvmppc_do_h_remove(struct kvm *kvm, unsigned long flags,
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note_hpte_modification(kvm, rev);
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unlock_hpte(hpte, 0);
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if (is_mmio_hpte(v, pte))
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atomic64_inc(&kvm->arch.mmio_update);
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if (v & HPTE_V_ABSENT)
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v = (v & ~HPTE_V_ABSENT) | HPTE_V_VALID;
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hpret[0] = v;
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@ -502,7 +513,7 @@ long kvmppc_h_bulk_remove(struct kvm_vcpu *vcpu)
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int global;
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long int ret = H_SUCCESS;
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struct revmap_entry *rev, *revs[4];
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u64 hp0;
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u64 hp0, hp1;
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global = global_invalidates(kvm, 0);
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for (i = 0; i < 4 && ret == H_SUCCESS; ) {
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@ -535,6 +546,7 @@ long kvmppc_h_bulk_remove(struct kvm_vcpu *vcpu)
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}
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found = 0;
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hp0 = be64_to_cpu(hp[0]);
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hp1 = be64_to_cpu(hp[1]);
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if (hp0 & (HPTE_V_ABSENT | HPTE_V_VALID)) {
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switch (flags & 3) {
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case 0: /* absolute */
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@ -565,6 +577,8 @@ long kvmppc_h_bulk_remove(struct kvm_vcpu *vcpu)
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rcbits = rev->guest_rpte & (HPTE_R_R|HPTE_R_C);
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args[j] |= rcbits << (56 - 5);
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hp[0] = 0;
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if (is_mmio_hpte(hp0, hp1))
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atomic64_inc(&kvm->arch.mmio_update);
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continue;
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}
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@ -625,6 +639,7 @@ long kvmppc_h_protect(struct kvm_vcpu *vcpu, unsigned long flags,
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}
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v = pte;
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pte = be64_to_cpu(hpte[1]);
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bits = (flags << 55) & HPTE_R_PP0;
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bits |= (flags << 48) & HPTE_R_KEY_HI;
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bits |= flags & (HPTE_R_PP | HPTE_R_N | HPTE_R_KEY_LO);
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@ -646,7 +661,6 @@ long kvmppc_h_protect(struct kvm_vcpu *vcpu, unsigned long flags,
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* readonly to writable. If it should be writable, we'll
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* take a trap and let the page fault code sort it out.
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*/
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pte = be64_to_cpu(hpte[1]);
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r = (pte & ~mask) | bits;
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if (hpte_is_writable(r) && !hpte_is_writable(pte))
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r = hpte_make_readonly(r);
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@ -662,6 +676,9 @@ long kvmppc_h_protect(struct kvm_vcpu *vcpu, unsigned long flags,
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}
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unlock_hpte(hpte, v & ~HPTE_V_HVLOCK);
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asm volatile("ptesync" : : : "memory");
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if (is_mmio_hpte(v, pte))
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atomic64_inc(&kvm->arch.mmio_update);
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return H_SUCCESS;
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}
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@ -832,6 +849,37 @@ static int slb_base_page_shift[4] = {
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20, /* 1M, unsupported */
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};
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static struct mmio_hpte_cache_entry *mmio_cache_search(struct kvm_vcpu *vcpu,
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unsigned long eaddr, unsigned long slb_v, long mmio_update)
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{
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struct mmio_hpte_cache_entry *entry = NULL;
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unsigned int pshift;
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unsigned int i;
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for (i = 0; i < MMIO_HPTE_CACHE_SIZE; i++) {
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entry = &vcpu->arch.mmio_cache.entry[i];
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if (entry->mmio_update == mmio_update) {
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pshift = entry->slb_base_pshift;
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if ((entry->eaddr >> pshift) == (eaddr >> pshift) &&
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entry->slb_v == slb_v)
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return entry;
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}
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}
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return NULL;
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}
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static struct mmio_hpte_cache_entry *
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next_mmio_cache_entry(struct kvm_vcpu *vcpu)
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{
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unsigned int index = vcpu->arch.mmio_cache.index;
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vcpu->arch.mmio_cache.index++;
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if (vcpu->arch.mmio_cache.index == MMIO_HPTE_CACHE_SIZE)
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vcpu->arch.mmio_cache.index = 0;
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return &vcpu->arch.mmio_cache.entry[index];
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}
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/* When called from virtmode, this func should be protected by
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* preempt_disable(), otherwise, the holding of HPTE_V_HVLOCK
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* can trigger deadlock issue.
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unsigned long valid;
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struct revmap_entry *rev;
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unsigned long pp, key;
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struct mmio_hpte_cache_entry *cache_entry = NULL;
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long mmio_update = 0;
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/* For protection fault, expect to find a valid HPTE */
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valid = HPTE_V_VALID;
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if (status & DSISR_NOHPTE)
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if (status & DSISR_NOHPTE) {
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valid |= HPTE_V_ABSENT;
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index = kvmppc_hv_find_lock_hpte(kvm, addr, slb_v, valid);
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if (index < 0) {
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if (status & DSISR_NOHPTE)
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return status; /* there really was no HPTE */
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return 0; /* for prot fault, HPTE disappeared */
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mmio_update = atomic64_read(&kvm->arch.mmio_update);
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cache_entry = mmio_cache_search(vcpu, addr, slb_v, mmio_update);
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}
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hpte = (__be64 *)(kvm->arch.hpt_virt + (index << 4));
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v = be64_to_cpu(hpte[0]) & ~HPTE_V_HVLOCK;
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r = be64_to_cpu(hpte[1]);
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rev = real_vmalloc_addr(&kvm->arch.revmap[index]);
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gr = rev->guest_rpte;
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if (cache_entry) {
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index = cache_entry->pte_index;
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v = cache_entry->hpte_v;
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r = cache_entry->hpte_r;
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gr = cache_entry->rpte;
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} else {
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index = kvmppc_hv_find_lock_hpte(kvm, addr, slb_v, valid);
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if (index < 0) {
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if (status & DSISR_NOHPTE)
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return status; /* there really was no HPTE */
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return 0; /* for prot fault, HPTE disappeared */
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}
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hpte = (__be64 *)(kvm->arch.hpt_virt + (index << 4));
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v = be64_to_cpu(hpte[0]) & ~HPTE_V_HVLOCK;
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r = be64_to_cpu(hpte[1]);
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rev = real_vmalloc_addr(&kvm->arch.revmap[index]);
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gr = rev->guest_rpte;
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unlock_hpte(hpte, v);
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unlock_hpte(hpte, v);
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}
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/* For not found, if the HPTE is valid by now, retry the instruction */
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if ((status & DSISR_NOHPTE) && (v & HPTE_V_VALID))
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vcpu->arch.pgfault_index = index;
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vcpu->arch.pgfault_hpte[0] = v;
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vcpu->arch.pgfault_hpte[1] = r;
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vcpu->arch.pgfault_cache = cache_entry;
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/* Check the storage key to see if it is possibly emulated MMIO */
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if (data && (vcpu->arch.shregs.msr & MSR_IR) &&
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(r & (HPTE_R_KEY_HI | HPTE_R_KEY_LO)) ==
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(HPTE_R_KEY_HI | HPTE_R_KEY_LO))
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return -2; /* MMIO emulation - load instr word */
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if ((r & (HPTE_R_KEY_HI | HPTE_R_KEY_LO)) ==
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(HPTE_R_KEY_HI | HPTE_R_KEY_LO)) {
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if (!cache_entry) {
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unsigned int pshift = 12;
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unsigned int pshift_index;
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if (slb_v & SLB_VSID_L) {
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pshift_index = ((slb_v & SLB_VSID_LP) >> 4);
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pshift = slb_base_page_shift[pshift_index];
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}
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cache_entry = next_mmio_cache_entry(vcpu);
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cache_entry->eaddr = addr;
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cache_entry->slb_base_pshift = pshift;
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cache_entry->pte_index = index;
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cache_entry->hpte_v = v;
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cache_entry->hpte_r = r;
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cache_entry->rpte = gr;
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cache_entry->slb_v = slb_v;
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cache_entry->mmio_update = mmio_update;
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}
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if (data && (vcpu->arch.shregs.msr & MSR_IR))
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return -2; /* MMIO emulation - load instr word */
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}
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return -1; /* send fault up to host kernel mode */
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}
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