/* SPDX-License-Identifier: GPL-2.0 */ /* * KVM guest address space mapping code * * Copyright IBM Corp. 2024, 2025 * Author(s): Claudio Imbrenda */ #ifndef __KVM_S390_DAT_H #define __KVM_S390_DAT_H #include #include #include #include #include #include #include /* * Base address and length must be sent at the start of each block, therefore * it's cheaper to send some clean data, as long as it's less than the size of * two longs. */ #define KVM_S390_MAX_BIT_DISTANCE (2 * sizeof(void *)) /* For consistency */ #define KVM_S390_CMMA_SIZE_MAX ((u32)KVM_S390_SKEYS_MAX) #define _ASCE(x) ((union asce) { .val = (x), }) #define NULL_ASCE _ASCE(0) enum { _DAT_TOKEN_NONE = 0, _DAT_TOKEN_PIC, }; #define _CRSTE_TOK(l, t, p) ((union crste) { \ .tok.i = 1, \ .tok.tt = (l), \ .tok.type = (t), \ .tok.par = (p) \ }) #define _CRSTE_PIC(l, p) _CRSTE_TOK(l, _DAT_TOKEN_PIC, p) #define _CRSTE_HOLE(l) _CRSTE_PIC(l, PGM_ADDRESSING) #define _CRSTE_EMPTY(l) _CRSTE_TOK(l, _DAT_TOKEN_NONE, 0) #define _PMD_EMPTY _CRSTE_EMPTY(TABLE_TYPE_SEGMENT) #define _PTE_TOK(t, p) ((union pte) { .tok.i = 1, .tok.type = (t), .tok.par = (p) }) #define _PTE_EMPTY _PTE_TOK(_DAT_TOKEN_NONE, 0) /* This fake table type is used for page table walks (both for normal page tables and vSIE) */ #define TABLE_TYPE_PAGE_TABLE -1 enum dat_walk_flags { DAT_WALK_USES_SKEYS = 0x40, DAT_WALK_CONTINUE = 0x20, DAT_WALK_IGN_HOLES = 0x10, DAT_WALK_SPLIT = 0x08, DAT_WALK_ALLOC = 0x04, DAT_WALK_ANY = 0x02, DAT_WALK_LEAF = 0x01, DAT_WALK_DEFAULT = 0 }; #define DAT_WALK_SPLIT_ALLOC (DAT_WALK_SPLIT | DAT_WALK_ALLOC) #define DAT_WALK_ALLOC_CONTINUE (DAT_WALK_CONTINUE | DAT_WALK_ALLOC) #define DAT_WALK_LEAF_ALLOC (DAT_WALK_LEAF | DAT_WALK_ALLOC) union pte { unsigned long val; union page_table_entry h; struct { unsigned long :56; /* Hardware bits */ unsigned long u : 1; /* Page unused */ unsigned long s : 1; /* Special */ unsigned long w : 1; /* Writable */ unsigned long r : 1; /* Readable */ unsigned long d : 1; /* Dirty */ unsigned long y : 1; /* Young */ unsigned long sd: 1; /* Soft dirty */ unsigned long pr: 1; /* Present */ } s; struct { unsigned char hwbytes[7]; unsigned char swbyte; }; union { struct { unsigned long type :16; /* Token type */ unsigned long par :16; /* Token parameter */ unsigned long :20; unsigned long : 1; /* Must be 0 */ unsigned long i : 1; /* Must be 1 */ unsigned long : 2; unsigned long : 7; unsigned long pr : 1; /* Must be 0 */ }; struct { unsigned long token:32; /* Token and parameter */ unsigned long :32; }; } tok; }; /* Soft dirty, needed as macro for atomic operations on ptes */ #define _PAGE_SD 0x002 /* Needed as macro to perform atomic operations */ #define PGSTE_PCL_BIT 0x0080000000000000UL /* PCL lock, HW bit */ #define PGSTE_CMMA_D_BIT 0x0000000000008000UL /* CMMA dirty soft-bit */ enum pgste_gps_usage { PGSTE_GPS_USAGE_STABLE = 0, PGSTE_GPS_USAGE_UNUSED, PGSTE_GPS_USAGE_POT_VOLATILE, PGSTE_GPS_USAGE_VOLATILE, }; union pgste { unsigned long val; struct { unsigned long acc : 4; unsigned long fp : 1; unsigned long : 3; unsigned long pcl : 1; unsigned long hr : 1; unsigned long hc : 1; unsigned long : 2; unsigned long gr : 1; unsigned long gc : 1; unsigned long : 1; unsigned long :16; /* val16 */ unsigned long zero : 1; unsigned long nodat : 1; unsigned long : 4; unsigned long usage : 2; unsigned long : 8; unsigned long cmma_d : 1; /* Dirty flag for CMMA bits */ unsigned long prefix_notif : 1; /* Guest prefix invalidation notification */ unsigned long vsie_notif : 1; /* Referenced in a shadow table */ unsigned long : 5; unsigned long : 8; }; struct { unsigned short hwbytes0; unsigned short val16; /* Used to store chunked values, see dat_{s,g}et_ptval() */ unsigned short hwbytes4; unsigned char flags; /* Maps to the software bits */ unsigned char hwbyte7; } __packed; }; union pmd { unsigned long val; union segment_table_entry h; struct { struct { unsigned long :44; /* HW */ unsigned long : 3; /* Unused */ unsigned long : 1; /* HW */ unsigned long w : 1; /* Writable soft-bit */ unsigned long r : 1; /* Readable soft-bit */ unsigned long d : 1; /* Dirty */ unsigned long y : 1; /* Young */ unsigned long prefix_notif : 1; /* Guest prefix invalidation notification */ unsigned long : 3; /* HW */ unsigned long vsie_notif : 1; /* Referenced in a shadow table */ unsigned long : 1; /* Unused */ unsigned long : 4; /* HW */ unsigned long sd : 1; /* Soft-Dirty */ unsigned long pr : 1; /* Present */ } fc1; } s; }; union pud { unsigned long val; union region3_table_entry h; struct { struct { unsigned long :33; /* HW */ unsigned long :14; /* Unused */ unsigned long : 1; /* HW */ unsigned long w : 1; /* Writable soft-bit */ unsigned long r : 1; /* Readable soft-bit */ unsigned long d : 1; /* Dirty */ unsigned long y : 1; /* Young */ unsigned long prefix_notif : 1; /* Guest prefix invalidation notification */ unsigned long : 3; /* HW */ unsigned long vsie_notif : 1; /* Referenced in a shadow table */ unsigned long : 1; /* Unused */ unsigned long : 4; /* HW */ unsigned long sd : 1; /* Soft-Dirty */ unsigned long pr : 1; /* Present */ } fc1; } s; }; union p4d { unsigned long val; union region2_table_entry h; }; union pgd { unsigned long val; union region1_table_entry h; }; union crste { unsigned long val; union { struct { unsigned long :52; unsigned long : 1; unsigned long fc: 1; unsigned long p : 1; unsigned long : 1; unsigned long : 2; unsigned long i : 1; unsigned long : 1; unsigned long tt: 2; unsigned long : 2; }; struct { unsigned long to:52; unsigned long : 1; unsigned long fc: 1; unsigned long p : 1; unsigned long : 1; unsigned long tf: 2; unsigned long i : 1; unsigned long : 1; unsigned long tt: 2; unsigned long tl: 2; } fc0; struct { unsigned long :47; unsigned long av : 1; /* ACCF-Validity Control */ unsigned long acc: 4; /* Access-Control Bits */ unsigned long f : 1; /* Fetch-Protection Bit */ unsigned long fc : 1; /* Format-Control */ unsigned long p : 1; /* DAT-Protection Bit */ unsigned long iep: 1; /* Instruction-Execution-Protection */ unsigned long : 2; unsigned long i : 1; /* Segment-Invalid Bit */ unsigned long cs : 1; /* Common-Segment Bit */ unsigned long tt : 2; /* Table-Type Bits */ unsigned long : 2; } fc1; } h; struct { struct { unsigned long :47; unsigned long : 1; /* HW (should be 0) */ unsigned long w : 1; /* Writable */ unsigned long r : 1; /* Readable */ unsigned long d : 1; /* Dirty */ unsigned long y : 1; /* Young */ unsigned long prefix_notif : 1; /* Guest prefix invalidation notification */ unsigned long : 3; /* HW */ unsigned long vsie_notif : 1; /* Referenced in a shadow table */ unsigned long : 1; unsigned long : 4; /* HW */ unsigned long sd : 1; /* Soft-Dirty */ unsigned long pr : 1; /* Present */ } fc1; } s; union { struct { unsigned long type :16; /* Token type */ unsigned long par :16; /* Token parameter */ unsigned long :26; unsigned long i : 1; /* Must be 1 */ unsigned long : 1; unsigned long tt : 2; unsigned long : 1; unsigned long pr : 1; /* Must be 0 */ }; struct { unsigned long token:32; /* Token and parameter */ unsigned long :32; }; } tok; union pmd pmd; union pud pud; union p4d p4d; union pgd pgd; }; union skey { unsigned char skey; struct { unsigned char acc :4; unsigned char fp :1; unsigned char r :1; unsigned char c :1; unsigned char zero:1; }; }; static_assert(sizeof(union pgste) == sizeof(unsigned long)); static_assert(sizeof(union pte) == sizeof(unsigned long)); static_assert(sizeof(union pmd) == sizeof(unsigned long)); static_assert(sizeof(union pud) == sizeof(unsigned long)); static_assert(sizeof(union p4d) == sizeof(unsigned long)); static_assert(sizeof(union pgd) == sizeof(unsigned long)); static_assert(sizeof(union crste) == sizeof(unsigned long)); static_assert(sizeof(union skey) == sizeof(char)); struct segment_table { union pmd pmds[_CRST_ENTRIES]; }; struct region3_table { union pud puds[_CRST_ENTRIES]; }; struct region2_table { union p4d p4ds[_CRST_ENTRIES]; }; struct region1_table { union pgd pgds[_CRST_ENTRIES]; }; struct crst_table { union { union crste crstes[_CRST_ENTRIES]; struct segment_table segment; struct region3_table region3; struct region2_table region2; struct region1_table region1; }; }; struct page_table { union pte ptes[_PAGE_ENTRIES]; union pgste pgstes[_PAGE_ENTRIES]; }; static_assert(sizeof(struct crst_table) == _CRST_TABLE_SIZE); static_assert(sizeof(struct page_table) == PAGE_SIZE); struct dat_walk; typedef long (*dat_walk_op)(union crste *crste, gfn_t gfn, gfn_t next, struct dat_walk *w); struct dat_walk_ops { union { dat_walk_op crste_ops[4]; struct { dat_walk_op pmd_entry; dat_walk_op pud_entry; dat_walk_op p4d_entry; dat_walk_op pgd_entry; }; }; long (*pte_entry)(union pte *pte, gfn_t gfn, gfn_t next, struct dat_walk *w); }; struct dat_walk { const struct dat_walk_ops *ops; union crste *last; union pte *last_pte; union asce asce; gfn_t start; gfn_t end; int flags; void *priv; }; struct ptval_param { unsigned char offset : 6; unsigned char len : 2; }; /** * _pte() - Useful constructor for union pte * @pfn: the pfn this pte should point to. * @writable: whether the pte should be writable. * @dirty: whether the pte should be dirty. * @special: whether the pte should be marked as special * * The pte is also marked as young and present. If the pte is marked as dirty, * it gets marked as soft-dirty too. If the pte is not dirty, the hardware * protect bit is set (independently of the write softbit); this way proper * dirty tracking can be performed. * * Return: a union pte value. */ static inline union pte _pte(kvm_pfn_t pfn, bool writable, bool dirty, bool special) { union pte res = { .val = PFN_PHYS(pfn) }; res.h.p = !dirty; res.s.y = 1; res.s.pr = 1; res.s.w = writable; res.s.d = dirty; res.s.sd = dirty; res.s.s = special; return res; } static inline union crste _crste_fc0(kvm_pfn_t pfn, int tt) { union crste res = { .val = PFN_PHYS(pfn) }; res.h.tt = tt; res.h.fc0.tl = _REGION_ENTRY_LENGTH; res.h.fc0.tf = 0; return res; } /** * _crste() - Useful constructor for union crste with FC=1 * @pfn: the pfn this pte should point to. * @tt: the table type * @writable: whether the pte should be writable. * @dirty: whether the pte should be dirty. * * The crste is also marked as young and present. If the crste is marked as * dirty, it gets marked as soft-dirty too. If the crste is not dirty, the * hardware protect bit is set (independently of the write softbit); this way * proper dirty tracking can be performed. * * Return: a union crste value. */ static inline union crste _crste_fc1(kvm_pfn_t pfn, int tt, bool writable, bool dirty) { union crste res = { .val = PFN_PHYS(pfn) & _SEGMENT_MASK }; res.h.tt = tt; res.h.p = !dirty; res.h.fc = 1; res.s.fc1.y = 1; res.s.fc1.pr = 1; res.s.fc1.w = writable; res.s.fc1.d = dirty; res.s.fc1.sd = dirty; return res; } union essa_state { unsigned char val; struct { unsigned char : 2; unsigned char nodat : 1; unsigned char exception : 1; unsigned char usage : 2; unsigned char content : 2; }; }; /** * struct vsie_rmap - reverse mapping for shadow page table entries * @next: pointer to next rmap in the list * @r_gfn: virtual rmap address in the shadow guest address space */ struct vsie_rmap { struct vsie_rmap *next; union { unsigned long val; struct { long level: 8; unsigned long : 4; unsigned long r_gfn:52; }; }; }; static_assert(sizeof(struct vsie_rmap) == 2 * sizeof(long)); #define KVM_S390_MMU_CACHE_N_CRSTS 6 #define KVM_S390_MMU_CACHE_N_PTS 2 #define KVM_S390_MMU_CACHE_N_RMAPS 16 struct kvm_s390_mmu_cache { void *crsts[KVM_S390_MMU_CACHE_N_CRSTS]; void *pts[KVM_S390_MMU_CACHE_N_PTS]; void *rmaps[KVM_S390_MMU_CACHE_N_RMAPS]; short int n_crsts; short int n_pts; short int n_rmaps; }; struct guest_fault { gfn_t gfn; /* Guest frame */ kvm_pfn_t pfn; /* Host PFN */ struct page *page; /* Host page */ union pte *ptep; /* Used to resolve the fault, or NULL */ union crste *crstep; /* Used to resolve the fault, or NULL */ bool writable; /* Mapping is writable */ bool write_attempt; /* Write access attempted */ bool attempt_pfault; /* Attempt a pfault first */ bool valid; /* This entry contains valid data */ void (*callback)(struct guest_fault *f); void *priv; }; /* * 0 1 2 3 4 5 6 7 * +-------+-------+-------+-------+-------+-------+-------+-------+ * 0 | | PGT_ADDR | * 8 | VMADDR | | * 16 | | * 24 | | */ #define MKPTVAL(o, l) ((struct ptval_param) { .offset = (o), .len = ((l) + 1) / 2 - 1}) #define PTVAL_PGT_ADDR MKPTVAL(4, 8) #define PTVAL_VMADDR MKPTVAL(8, 6) union pgste __must_check __dat_ptep_xchg(union pte *ptep, union pgste pgste, union pte new, gfn_t gfn, union asce asce, bool uses_skeys); bool dat_crstep_xchg_atomic(union crste *crstep, union crste old, union crste new, gfn_t gfn, union asce asce); void dat_crstep_xchg(union crste *crstep, union crste new, gfn_t gfn, union asce asce); long _dat_walk_gfn_range(gfn_t start, gfn_t end, union asce asce, const struct dat_walk_ops *ops, int flags, void *priv); int dat_entry_walk(struct kvm_s390_mmu_cache *mc, gfn_t gfn, union asce asce, int flags, int walk_level, union crste **last, union pte **ptepp); void dat_free_level(struct crst_table *table, bool owns_ptes); struct crst_table *dat_alloc_crst_sleepable(unsigned long init); int dat_set_asce_limit(struct kvm_s390_mmu_cache *mc, union asce *asce, int newtype); int dat_get_storage_key(union asce asce, gfn_t gfn, union skey *skey); int dat_set_storage_key(struct kvm_s390_mmu_cache *mc, union asce asce, gfn_t gfn, union skey skey, bool nq); int dat_cond_set_storage_key(struct kvm_s390_mmu_cache *mmc, union asce asce, gfn_t gfn, union skey skey, union skey *oldkey, bool nq, bool mr, bool mc); int dat_reset_reference_bit(union asce asce, gfn_t gfn); long dat_reset_skeys(union asce asce, gfn_t start); unsigned long dat_get_ptval(struct page_table *table, struct ptval_param param); void dat_set_ptval(struct page_table *table, struct ptval_param param, unsigned long val); int dat_set_slot(struct kvm_s390_mmu_cache *mc, union asce asce, gfn_t start, gfn_t end, u16 type, u16 param); int dat_set_prefix_notif_bit(union asce asce, gfn_t gfn); bool dat_test_age_gfn(union asce asce, gfn_t start, gfn_t end); int dat_link(struct kvm_s390_mmu_cache *mc, union asce asce, int level, bool uses_skeys, struct guest_fault *f); int dat_perform_essa(union asce asce, gfn_t gfn, int orc, union essa_state *state, bool *dirty); long dat_reset_cmma(union asce asce, gfn_t start_gfn); int dat_peek_cmma(gfn_t start, union asce asce, unsigned int *count, u8 *values); int dat_get_cmma(union asce asce, gfn_t *start, unsigned int *count, u8 *values, atomic64_t *rem); int dat_set_cmma_bits(struct kvm_s390_mmu_cache *mc, union asce asce, gfn_t gfn, unsigned long count, unsigned long mask, const uint8_t *bits); int kvm_s390_mmu_cache_topup(struct kvm_s390_mmu_cache *mc); #define GFP_KVM_S390_MMU_CACHE (GFP_ATOMIC | __GFP_ACCOUNT | __GFP_NOWARN) static inline struct page_table *kvm_s390_mmu_cache_alloc_pt(struct kvm_s390_mmu_cache *mc) { if (mc->n_pts) return mc->pts[--mc->n_pts]; return (void *)__get_free_page(GFP_KVM_S390_MMU_CACHE); } static inline struct crst_table *kvm_s390_mmu_cache_alloc_crst(struct kvm_s390_mmu_cache *mc) { if (mc->n_crsts) return mc->crsts[--mc->n_crsts]; return (void *)__get_free_pages(GFP_KVM_S390_MMU_CACHE | __GFP_COMP, CRST_ALLOC_ORDER); } static inline struct vsie_rmap *kvm_s390_mmu_cache_alloc_rmap(struct kvm_s390_mmu_cache *mc) { if (mc->n_rmaps) return mc->rmaps[--mc->n_rmaps]; return kzalloc_obj(struct vsie_rmap, GFP_KVM_S390_MMU_CACHE); } static inline struct crst_table *crste_table_start(union crste *crstep) { return (struct crst_table *)ALIGN_DOWN((unsigned long)crstep, _CRST_TABLE_SIZE); } static inline struct page_table *pte_table_start(union pte *ptep) { return (struct page_table *)ALIGN_DOWN((unsigned long)ptep, _PAGE_TABLE_SIZE); } static inline bool crdte_crste(union crste *crstep, union crste old, union crste new, gfn_t gfn, union asce asce) { unsigned long dtt = 0x10 | new.h.tt << 2; void *table = crste_table_start(crstep); return crdte(old.val, new.val, table, dtt, gfn_to_gpa(gfn), asce.val); } /** * idte_crste() - invalidate a crste entry using idte * @crstep: pointer to the crste to be invalidated * @gfn: a gfn mapped by the crste * @opt: options for the idte instruction * @asce: the asce * @local: whether the operation is cpu-local */ static __always_inline void idte_crste(union crste *crstep, gfn_t gfn, unsigned long opt, union asce asce, int local) { unsigned long table_origin = __pa(crste_table_start(crstep)); unsigned long gaddr = gfn_to_gpa(gfn) & HPAGE_MASK; if (__builtin_constant_p(opt) && opt == 0) { /* flush without guest asce */ asm volatile("idte %[table_origin],0,%[gaddr],%[local]" : "+m" (*crstep) : [table_origin] "a" (table_origin), [gaddr] "a" (gaddr), [local] "i" (local) : "cc"); } else { /* flush with guest asce */ asm volatile("idte %[table_origin],%[asce],%[gaddr_opt],%[local]" : "+m" (*crstep) : [table_origin] "a" (table_origin), [gaddr_opt] "a" (gaddr | opt), [asce] "a" (asce.val), [local] "i" (local) : "cc"); } } static inline void dat_init_pgstes(struct page_table *pt, unsigned long val) { memset64((void *)pt->pgstes, val, PTRS_PER_PTE); } static inline void dat_init_page_table(struct page_table *pt, unsigned long ptes, unsigned long pgstes) { memset64((void *)pt->ptes, ptes, PTRS_PER_PTE); dat_init_pgstes(pt, pgstes); } static inline gfn_t asce_end(union asce asce) { return 1ULL << ((asce.dt + 1) * 11 + _SEGMENT_SHIFT - PAGE_SHIFT); } #define _CRSTE(x) ((union crste) { .val = _Generic((x), \ union pgd : (x).val, \ union p4d : (x).val, \ union pud : (x).val, \ union pmd : (x).val, \ union crste : (x).val)}) #define _CRSTEP(x) ((union crste *)_Generic((*(x)), \ union pgd : (x), \ union p4d : (x), \ union pud : (x), \ union pmd : (x), \ union crste : (x))) #define _CRSTP(x) ((struct crst_table *)_Generic((*(x)), \ struct crst_table : (x), \ struct segment_table : (x), \ struct region3_table : (x), \ struct region2_table : (x), \ struct region1_table : (x))) static inline bool asce_contains_gfn(union asce asce, gfn_t gfn) { return gfn < asce_end(asce); } static inline bool is_pmd(union crste crste) { return crste.h.tt == TABLE_TYPE_SEGMENT; } static inline bool is_pud(union crste crste) { return crste.h.tt == TABLE_TYPE_REGION3; } static inline bool is_p4d(union crste crste) { return crste.h.tt == TABLE_TYPE_REGION2; } static inline bool is_pgd(union crste crste) { return crste.h.tt == TABLE_TYPE_REGION1; } static inline phys_addr_t pmd_origin_large(union pmd pmd) { return pmd.val & _SEGMENT_ENTRY_ORIGIN_LARGE; } static inline phys_addr_t pud_origin_large(union pud pud) { return pud.val & _REGION3_ENTRY_ORIGIN_LARGE; } /** * crste_origin_large() - Return the large frame origin of a large crste * @crste: The crste whose origin is to be returned. Should be either a * region-3 table entry or a segment table entry, in both cases with * FC set to 1 (large pages). * * Return: The origin of the large frame pointed to by @crste, or -1 if the * crste was not large (wrong table type, or FC==0) */ static inline phys_addr_t crste_origin_large(union crste crste) { if (unlikely(!crste.h.fc || crste.h.tt > TABLE_TYPE_REGION3)) return -1; if (is_pmd(crste)) return pmd_origin_large(crste.pmd); return pud_origin_large(crste.pud); } #define crste_origin(x) (_Generic((x), \ union pmd : (x).val & _SEGMENT_ENTRY_ORIGIN, \ union pud : (x).val & _REGION_ENTRY_ORIGIN, \ union p4d : (x).val & _REGION_ENTRY_ORIGIN, \ union pgd : (x).val & _REGION_ENTRY_ORIGIN)) static inline unsigned long pte_origin(union pte pte) { return pte.val & PAGE_MASK; } static inline bool pmd_prefix(union pmd pmd) { return pmd.h.fc && pmd.s.fc1.prefix_notif; } static inline bool pud_prefix(union pud pud) { return pud.h.fc && pud.s.fc1.prefix_notif; } static inline bool crste_leaf(union crste crste) { return (crste.h.tt <= TABLE_TYPE_REGION3) && crste.h.fc; } static inline bool crste_prefix(union crste crste) { return crste_leaf(crste) && crste.s.fc1.prefix_notif; } static inline bool crste_dirty(union crste crste) { return crste_leaf(crste) && crste.s.fc1.d; } static inline union pgste *pgste_of(union pte *pte) { return (union pgste *)(pte + _PAGE_ENTRIES); } static inline bool pte_hole(union pte pte) { return pte.h.i && !pte.tok.pr && pte.tok.type != _DAT_TOKEN_NONE; } static inline bool _crste_hole(union crste crste) { return crste.h.i && !crste.tok.pr && crste.tok.type != _DAT_TOKEN_NONE; } #define crste_hole(x) _crste_hole(_CRSTE(x)) static inline bool _crste_none(union crste crste) { return crste.h.i && !crste.tok.pr && crste.tok.type == _DAT_TOKEN_NONE; } #define crste_none(x) _crste_none(_CRSTE(x)) static inline phys_addr_t large_pud_to_phys(union pud pud, gfn_t gfn) { return pud_origin_large(pud) | (gfn_to_gpa(gfn) & ~_REGION3_MASK); } static inline phys_addr_t large_pmd_to_phys(union pmd pmd, gfn_t gfn) { return pmd_origin_large(pmd) | (gfn_to_gpa(gfn) & ~_SEGMENT_MASK); } static inline phys_addr_t large_crste_to_phys(union crste crste, gfn_t gfn) { if (unlikely(!crste.h.fc || crste.h.tt > TABLE_TYPE_REGION3)) return -1; if (is_pmd(crste)) return large_pmd_to_phys(crste.pmd, gfn); return large_pud_to_phys(crste.pud, gfn); } static inline bool cspg_crste(union crste *crstep, union crste old, union crste new) { return cspg(&crstep->val, old.val, new.val); } static inline struct page_table *dereference_pmd(union pmd pmd) { return phys_to_virt(crste_origin(pmd)); } static inline struct segment_table *dereference_pud(union pud pud) { return phys_to_virt(crste_origin(pud)); } static inline struct region3_table *dereference_p4d(union p4d p4d) { return phys_to_virt(crste_origin(p4d)); } static inline struct region2_table *dereference_pgd(union pgd pgd) { return phys_to_virt(crste_origin(pgd)); } static inline struct crst_table *_dereference_crste(union crste crste) { if (unlikely(is_pmd(crste))) return NULL; return phys_to_virt(crste_origin(crste.pud)); } #define dereference_crste(x) (_Generic((x), \ union pud : _dereference_crste(_CRSTE(x)), \ union p4d : _dereference_crste(_CRSTE(x)), \ union pgd : _dereference_crste(_CRSTE(x)), \ union crste : _dereference_crste(_CRSTE(x)))) static inline struct crst_table *dereference_asce(union asce asce) { return phys_to_virt(asce.val & _ASCE_ORIGIN); } static inline void asce_flush_tlb(union asce asce) { __tlb_flush_idte(asce.val); } static inline bool pgste_get_trylock(union pte *ptep, union pgste *res) { union pgste *pgstep = pgste_of(ptep); union pgste old_pgste; if (READ_ONCE(pgstep->val) & PGSTE_PCL_BIT) return false; old_pgste.val = __atomic64_or_barrier(PGSTE_PCL_BIT, &pgstep->val); if (old_pgste.pcl) return false; old_pgste.pcl = 1; *res = old_pgste; return true; } static inline union pgste pgste_get_lock(union pte *ptep) { union pgste res; while (!pgste_get_trylock(ptep, &res)) cpu_relax(); return res; } static inline void pgste_set_unlock(union pte *ptep, union pgste pgste) { pgste.pcl = 0; barrier(); WRITE_ONCE(*pgste_of(ptep), pgste); } static inline void dat_ptep_xchg(union pte *ptep, union pte new, gfn_t gfn, union asce asce, bool has_skeys) { union pgste pgste; pgste = pgste_get_lock(ptep); pgste = __dat_ptep_xchg(ptep, pgste, new, gfn, asce, has_skeys); pgste_set_unlock(ptep, pgste); } static inline void dat_ptep_clear(union pte *ptep, gfn_t gfn, union asce asce, bool has_skeys) { dat_ptep_xchg(ptep, _PTE_EMPTY, gfn, asce, has_skeys); } static inline void dat_free_pt(struct page_table *pt) { free_page((unsigned long)pt); } static inline void _dat_free_crst(struct crst_table *table) { free_pages((unsigned long)table, CRST_ALLOC_ORDER); } #define dat_free_crst(x) _dat_free_crst(_CRSTP(x)) static inline void kvm_s390_free_mmu_cache(struct kvm_s390_mmu_cache *mc) { if (!mc) return; while (mc->n_pts) dat_free_pt(mc->pts[--mc->n_pts]); while (mc->n_crsts) _dat_free_crst(mc->crsts[--mc->n_crsts]); while (mc->n_rmaps) kfree(mc->rmaps[--mc->n_rmaps]); kfree(mc); } DEFINE_FREE(kvm_s390_mmu_cache, struct kvm_s390_mmu_cache *, if (_T) kvm_s390_free_mmu_cache(_T)) static inline struct kvm_s390_mmu_cache *kvm_s390_new_mmu_cache(void) { struct kvm_s390_mmu_cache *mc __free(kvm_s390_mmu_cache) = NULL; mc = kzalloc_obj(*mc, GFP_KERNEL_ACCOUNT); if (mc && !kvm_s390_mmu_cache_topup(mc)) return_ptr(mc); return NULL; } static inline bool dat_pmdp_xchg_atomic(union pmd *pmdp, union pmd old, union pmd new, gfn_t gfn, union asce asce) { return dat_crstep_xchg_atomic(_CRSTEP(pmdp), _CRSTE(old), _CRSTE(new), gfn, asce); } static inline bool dat_pudp_xchg_atomic(union pud *pudp, union pud old, union pud new, gfn_t gfn, union asce asce) { return dat_crstep_xchg_atomic(_CRSTEP(pudp), _CRSTE(old), _CRSTE(new), gfn, asce); } static inline void dat_crstep_clear(union crste *crstep, gfn_t gfn, union asce asce) { union crste newcrste = _CRSTE_EMPTY(crstep->h.tt); dat_crstep_xchg(crstep, newcrste, gfn, asce); } static inline int get_level(union crste *crstep, union pte *ptep) { return ptep ? TABLE_TYPE_PAGE_TABLE : crstep->h.tt; } static inline int dat_delete_slot(struct kvm_s390_mmu_cache *mc, union asce asce, gfn_t start, unsigned long npages) { return dat_set_slot(mc, asce, start, start + npages, _DAT_TOKEN_PIC, PGM_ADDRESSING); } static inline int dat_create_slot(struct kvm_s390_mmu_cache *mc, union asce asce, gfn_t start, unsigned long npages) { return dat_set_slot(mc, asce, start, start + npages, _DAT_TOKEN_NONE, 0); } static inline bool crste_is_ucas(union crste crste) { return is_pmd(crste) && crste.h.i && crste.h.fc0.tl == 1 && crste.h.fc == 0; } #endif /* __KVM_S390_DAT_H */