Message ID | 20190822140210.24749-1-aisaila@bitdefender.com (mailing list archive) |
---|---|
State | New, archived |
Headers | show |
Series | [v2] x86/mm: Add mem access rights to NPT | expand |
On 22.08.2019 16:02, Alexandru Stefan ISAILA wrote: > This patch adds access control for NPT mode. > > The access rights are stored in the NPT p2m table 56:53. Why starting from bit 53? I can't seem to find any use of bit 52. > The bits are free after clearing the IOMMU flags [1]. > > Modify p2m_type_to_flags() to accept and interpret an access value, > parallel to the ept code. > > Add a set_default_access() method to the p2m-pt and p2m-ept versions > of the p2m rather than setting it directly, to deal with different > default permitted access values. I think this would better be a separate change. > --- a/xen/arch/x86/mm/p2m-pt.c > +++ b/xen/arch/x86/mm/p2m-pt.c > @@ -63,10 +63,13 @@ > #define needs_recalc(level, ent) _needs_recalc(level##e_get_flags(ent)) > #define valid_recalc(level, ent) (!(level##e_get_flags(ent) & _PAGE_ACCESSED)) > > +#define _PAGE_ACCESS_BITS (0x1e00) /* mem_access rights 16:13 */ I guess this is too disconnected from the two page.h headers where the correlation between bit positions gets explained, so I guess you want to extend the comment and either refer there, or replicate some of it to make understandable why 16:13 matches 56:53. I'm also concerned how easy it'll be for someone to find this definition when wanting to use other of the available bits. > @@ -104,8 +112,32 @@ static unsigned long p2m_type_to_flags(const struct p2m_domain *p2m, > flags |= _PAGE_PWT; > ASSERT(!level); > } > - return flags | P2M_BASE_FLAGS | _PAGE_PCD; > + flags |= P2M_BASE_FLAGS | _PAGE_PCD; > + break; > } > + > + switch ( access ) > + { > + case p2m_access_r: > + flags |= _PAGE_NX_BIT; > + flags &= ~_PAGE_RW; > + break; > + case p2m_access_rw: > + flags |= _PAGE_NX_BIT; > + break; > + case p2m_access_rx: > + case p2m_access_rx2rw: > + flags &= ~(_PAGE_NX_BIT | _PAGE_RW); > + break; > + case p2m_access_x: > + flags &= ~_PAGE_RW; > + break; I can't seem to be able to follow you here. In fact I don't see how you would be able to express execute-only with NPT. If this is really needed for some reason, then a justifying comment should be added. > @@ -152,6 +184,17 @@ p2m_free_entry(struct p2m_domain *p2m, l1_pgentry_t *p2m_entry, int page_order) > p2m_free_ptp(p2m, l1e_get_page(*p2m_entry)); > } > > +static void p2m_set_access(intpte_t *entry, p2m_access_t access) > +{ > + *entry |= put_pte_flags((get_pte_flags(*entry) & ~_PAGE_ACCESS_BITS) | > + (MASK_INSR(access, _PAGE_ACCESS_BITS))); > +} > + > +static p2m_access_t p2m_get_access(intpte_t entry) > +{ > + return (p2m_access_t)(MASK_EXTR(get_pte_flags(entry), _PAGE_ACCESS_BITS)); Is the cast really needed here? > @@ -226,6 +269,7 @@ p2m_next_level(struct p2m_domain *p2m, void **table, > { > new_entry = l1e_from_pfn(pfn | (i << ((level - 1) * PAGETABLE_ORDER)), > flags); > + p2m_set_access(&new_entry.l1, p2m->default_access); > rc = p2m->write_p2m_entry(p2m, gfn, l1_entry + i, new_entry, level); > if ( rc ) > { > @@ -237,6 +281,7 @@ p2m_next_level(struct p2m_domain *p2m, void **table, > unmap_domain_page(l1_entry); > > new_entry = l1e_from_mfn(mfn, P2M_BASE_FLAGS | _PAGE_RW); > + p2m_set_access(&new_entry.l1, p2m->default_access); > rc = p2m->write_p2m_entry(p2m, gfn, p2m_entry, new_entry, > level + 1); > if ( rc ) Is it really intended to insert the access bits also into non-leaf entries (which may be what is being processed here)? (May also apply further down.) > @@ -474,6 +520,32 @@ int p2m_pt_handle_deferred_changes(uint64_t gpa) > return rc; > } > > +static int p2m_pt_check_access(p2m_access_t p2ma) > +{ > + switch ( p2ma ) > + { > + case p2m_access_n: > + case p2m_access_w: > + case p2m_access_wx: > + case p2m_access_n2rwx: > + return -EINVAL; I'm not convinced EINVAL is appropriate here - the argument isn't invalid, it's just that there's no way to represent it. Jan
On 29.08.2019 18:04, Jan Beulich wrote: > On 22.08.2019 16:02, Alexandru Stefan ISAILA wrote: >> This patch adds access control for NPT mode. >> >> The access rights are stored in the NPT p2m table 56:53. > > Why starting from bit 53? I can't seem to find any use of bit 52. There is a comment in page.h that warns that bit 12(52) is taken. "/* * Bit 12 of a 24-bit flag mask. This corresponds to bit 52 of a pte. * This is needed to distinguish between user and kernel PTEs since _PAGE_USER * is asserted for both. */ #define _PAGE_GUEST_KERNEL (1U<<12) " > >> The bits are free after clearing the IOMMU flags [1]. >> >> Modify p2m_type_to_flags() to accept and interpret an access value, >> parallel to the ept code. >> >> Add a set_default_access() method to the p2m-pt and p2m-ept versions >> of the p2m rather than setting it directly, to deal with different >> default permitted access values. > > I think this would better be a separate change. Ok I will brake the patch in two parts. I was following George's v1 patch. > >> --- a/xen/arch/x86/mm/p2m-pt.c >> +++ b/xen/arch/x86/mm/p2m-pt.c >> @@ -63,10 +63,13 @@ >> #define needs_recalc(level, ent) _needs_recalc(level##e_get_flags(ent)) >> #define valid_recalc(level, ent) (!(level##e_get_flags(ent) & _PAGE_ACCESSED)) >> >> +#define _PAGE_ACCESS_BITS (0x1e00) /* mem_access rights 16:13 */ > > I guess this is too disconnected from the two page.h headers where > the correlation between bit positions gets explained, so I guess > you want to extend the comment and either refer there, or replicate > some of it to make understandable why 16:13 matches 56:53. > I will extend the comment so as the bit shifting will be clear. > I'm also concerned how easy it'll be for someone to find this > definition when wanting to use other of the available bits. Yes you are right, I will add a comment in page.h that bits 56:53 are used for memory access rights on SVM. > >> @@ -104,8 +112,32 @@ static unsigned long p2m_type_to_flags(const struct p2m_domain *p2m, >> flags |= _PAGE_PWT; >> ASSERT(!level); >> } >> - return flags | P2M_BASE_FLAGS | _PAGE_PCD; >> + flags |= P2M_BASE_FLAGS | _PAGE_PCD; >> + break; >> } >> + >> + switch ( access ) >> + { >> + case p2m_access_r: >> + flags |= _PAGE_NX_BIT; >> + flags &= ~_PAGE_RW; >> + break; >> + case p2m_access_rw: >> + flags |= _PAGE_NX_BIT; >> + break; >> + case p2m_access_rx: >> + case p2m_access_rx2rw: >> + flags &= ~(_PAGE_NX_BIT | _PAGE_RW); >> + break; >> + case p2m_access_x: >> + flags &= ~_PAGE_RW; >> + break; > > I can't seem to be able to follow you here. In fact I don't see > how you would be able to express execute-only with NPT. If this > is really needed for some reason, then a justifying comment > should be added. Execute-only should be expressed as not PAGE_RW and PAGE_NX_BIT not set. > >> @@ -152,6 +184,17 @@ p2m_free_entry(struct p2m_domain *p2m, l1_pgentry_t *p2m_entry, int page_order) >> p2m_free_ptp(p2m, l1e_get_page(*p2m_entry)); >> } >> >> +static void p2m_set_access(intpte_t *entry, p2m_access_t access) >> +{ >> + *entry |= put_pte_flags((get_pte_flags(*entry) & ~_PAGE_ACCESS_BITS) | >> + (MASK_INSR(access, _PAGE_ACCESS_BITS))); >> +} >> + >> +static p2m_access_t p2m_get_access(intpte_t entry) >> +{ >> + return (p2m_access_t)(MASK_EXTR(get_pte_flags(entry), _PAGE_ACCESS_BITS)); > > Is the cast really needed here? Not really, I can remove it in the next version. > >> @@ -226,6 +269,7 @@ p2m_next_level(struct p2m_domain *p2m, void **table, >> { >> new_entry = l1e_from_pfn(pfn | (i << ((level - 1) * PAGETABLE_ORDER)), >> flags); >> + p2m_set_access(&new_entry.l1, p2m->default_access); >> rc = p2m->write_p2m_entry(p2m, gfn, l1_entry + i, new_entry, level); >> if ( rc ) >> { >> @@ -237,6 +281,7 @@ p2m_next_level(struct p2m_domain *p2m, void **table, >> unmap_domain_page(l1_entry); >> >> new_entry = l1e_from_mfn(mfn, P2M_BASE_FLAGS | _PAGE_RW); >> + p2m_set_access(&new_entry.l1, p2m->default_access); >> rc = p2m->write_p2m_entry(p2m, gfn, p2m_entry, new_entry, >> level + 1); >> if ( rc ) > > Is it really intended to insert the access bits also into non-leaf > entries (which may be what is being processed here)? (May also > apply further down.) > >> @@ -474,6 +520,32 @@ int p2m_pt_handle_deferred_changes(uint64_t gpa) >> return rc; >> } >> >> +static int p2m_pt_check_access(p2m_access_t p2ma) >> +{ >> + switch ( p2ma ) >> + { >> + case p2m_access_n: >> + case p2m_access_w: >> + case p2m_access_wx: >> + case p2m_access_n2rwx: >> + return -EINVAL; > > I'm not convinced EINVAL is appropriate here - the argument isn't > invalid, it's just that there's no way to represent it. Would EPERM be a better return here? Regards, Alex
On 02.09.2019 13:23, Alexandru Stefan ISAILA wrote: > On 29.08.2019 18:04, Jan Beulich wrote: >> On 22.08.2019 16:02, Alexandru Stefan ISAILA wrote: >>> This patch adds access control for NPT mode. >>> >>> The access rights are stored in the NPT p2m table 56:53. >> >> Why starting from bit 53? I can't seem to find any use of bit 52. > > There is a comment in page.h that warns that bit 12(52) is taken. > "/* > * Bit 12 of a 24-bit flag mask. This corresponds to bit 52 of a pte. > * This is needed to distinguish between user and kernel PTEs since > _PAGE_USER > * is asserted for both. > */ > #define _PAGE_GUEST_KERNEL (1U<<12) > " But that's a PV-only thing. With sufficient care it should be possible to have overlapping uses. And given that the available bit are a pretty limited resource, I'd very much appreciate if you at least tried to make this work. >>> @@ -104,8 +112,32 @@ static unsigned long p2m_type_to_flags(const struct p2m_domain *p2m, >>> flags |= _PAGE_PWT; >>> ASSERT(!level); >>> } >>> - return flags | P2M_BASE_FLAGS | _PAGE_PCD; >>> + flags |= P2M_BASE_FLAGS | _PAGE_PCD; >>> + break; >>> } >>> + >>> + switch ( access ) >>> + { >>> + case p2m_access_r: >>> + flags |= _PAGE_NX_BIT; >>> + flags &= ~_PAGE_RW; >>> + break; >>> + case p2m_access_rw: >>> + flags |= _PAGE_NX_BIT; >>> + break; >>> + case p2m_access_rx: >>> + case p2m_access_rx2rw: >>> + flags &= ~(_PAGE_NX_BIT | _PAGE_RW); >>> + break; >>> + case p2m_access_x: >>> + flags &= ~_PAGE_RW; >>> + break; >> >> I can't seem to be able to follow you here. In fact I don't see >> how you would be able to express execute-only with NPT. If this >> is really needed for some reason, then a justifying comment >> should be added. > > Execute-only should be expressed as not PAGE_RW and PAGE_NX_BIT not set. But that still doesn't yield exec-only. Where is this "should be expressed" stated? I.e. on what basis is it tolerable to also allow read access despite a request to the contrary? >>> @@ -474,6 +520,32 @@ int p2m_pt_handle_deferred_changes(uint64_t gpa) >>> return rc; >>> } >>> >>> +static int p2m_pt_check_access(p2m_access_t p2ma) >>> +{ >>> + switch ( p2ma ) >>> + { >>> + case p2m_access_n: >>> + case p2m_access_w: >>> + case p2m_access_wx: >>> + case p2m_access_n2rwx: >>> + return -EINVAL; >> >> I'm not convinced EINVAL is appropriate here - the argument isn't >> invalid, it's just that there's no way to represent it. > > Would EPERM be a better return here? Quite a bit better, yes. But still not optimal, but I confess that I also can't find an optimal one. EDOM would look to be suitable too, if one was to ignore the "math" aspect of it. Jan
diff --git a/xen/arch/x86/mm/mem_access.c b/xen/arch/x86/mm/mem_access.c index 0144f92b98..d8cc7a50de 100644 --- a/xen/arch/x86/mm/mem_access.c +++ b/xen/arch/x86/mm/mem_access.c @@ -374,10 +374,7 @@ long p2m_set_mem_access(struct domain *d, gfn_t gfn, uint32_t nr, /* If request to set default access. */ if ( gfn_eq(gfn, INVALID_GFN) ) - { - p2m->default_access = a; - return 0; - } + return p2m->set_default_access(p2m, a); p2m_lock(p2m); if ( ap2m ) @@ -520,7 +517,7 @@ void arch_p2m_set_access_required(struct domain *d, bool access_required) bool p2m_mem_access_sanity_check(const struct domain *d) { - return is_hvm_domain(d) && cpu_has_vmx && hap_enabled(d); + return is_hvm_domain(d) && hap_enabled(d); } /* diff --git a/xen/arch/x86/mm/p2m-ept.c b/xen/arch/x86/mm/p2m-ept.c index 6b8468c793..a6f2347bc1 100644 --- a/xen/arch/x86/mm/p2m-ept.c +++ b/xen/arch/x86/mm/p2m-ept.c @@ -624,6 +624,14 @@ bool_t ept_handle_misconfig(uint64_t gpa) return spurious ? (rc >= 0) : (rc > 0); } +int ept_set_default_access(struct p2m_domain *p2m, p2m_access_t p2ma) +{ + /* All access is permitted */ + p2m->default_access = p2ma; + + return 0; +} + /* * ept_set_entry() computes 'need_modify_vtd_table' for itself, * by observing whether any gfn->mfn translations are modified. @@ -1222,6 +1230,7 @@ int ept_p2m_init(struct p2m_domain *p2m) p2m->change_entry_type_global = ept_change_entry_type_global; p2m->change_entry_type_range = ept_change_entry_type_range; p2m->memory_type_changed = ept_memory_type_changed; + p2m->set_default_access = ept_set_default_access; p2m->audit_p2m = NULL; p2m->tlb_flush = ept_tlb_flush; diff --git a/xen/arch/x86/mm/p2m-pt.c b/xen/arch/x86/mm/p2m-pt.c index 3a0a500d66..7f79eac979 100644 --- a/xen/arch/x86/mm/p2m-pt.c +++ b/xen/arch/x86/mm/p2m-pt.c @@ -63,10 +63,13 @@ #define needs_recalc(level, ent) _needs_recalc(level##e_get_flags(ent)) #define valid_recalc(level, ent) (!(level##e_get_flags(ent) & _PAGE_ACCESSED)) +#define _PAGE_ACCESS_BITS (0x1e00) /* mem_access rights 16:13 */ + static unsigned long p2m_type_to_flags(const struct p2m_domain *p2m, p2m_type_t t, mfn_t mfn, - unsigned int level) + unsigned int level, + p2m_access_t access) { unsigned long flags = (unsigned long)(t & 0x7f) << 12; @@ -79,23 +82,28 @@ static unsigned long p2m_type_to_flags(const struct p2m_domain *p2m, case p2m_ram_paged: case p2m_ram_paging_in: default: - return flags | _PAGE_NX_BIT; + flags |= _PAGE_NX_BIT; + break; case p2m_grant_map_ro: - return flags | P2M_BASE_FLAGS | _PAGE_NX_BIT; + flags |= P2M_BASE_FLAGS | _PAGE_NX_BIT; + break; case p2m_ioreq_server: flags |= P2M_BASE_FLAGS | _PAGE_RW | _PAGE_NX_BIT; if ( p2m->ioreq.flags & XEN_DMOP_IOREQ_MEM_ACCESS_WRITE ) - return flags & ~_PAGE_RW; - return flags; + flags &= ~_PAGE_RW; + break; case p2m_ram_ro: case p2m_ram_logdirty: case p2m_ram_shared: - return flags | P2M_BASE_FLAGS; + flags |= P2M_BASE_FLAGS; + break; case p2m_ram_rw: - return flags | P2M_BASE_FLAGS | _PAGE_RW; + flags |= P2M_BASE_FLAGS | _PAGE_RW; + break; case p2m_grant_map_rw: case p2m_map_foreign: - return flags | P2M_BASE_FLAGS | _PAGE_RW | _PAGE_NX_BIT; + flags |= P2M_BASE_FLAGS | _PAGE_RW | _PAGE_NX_BIT; + break; case p2m_mmio_direct: if ( !rangeset_contains_singleton(mmio_ro_ranges, mfn_x(mfn)) ) flags |= _PAGE_RW; @@ -104,8 +112,32 @@ static unsigned long p2m_type_to_flags(const struct p2m_domain *p2m, flags |= _PAGE_PWT; ASSERT(!level); } - return flags | P2M_BASE_FLAGS | _PAGE_PCD; + flags |= P2M_BASE_FLAGS | _PAGE_PCD; + break; } + + switch ( access ) + { + case p2m_access_r: + flags |= _PAGE_NX_BIT; + flags &= ~_PAGE_RW; + break; + case p2m_access_rw: + flags |= _PAGE_NX_BIT; + break; + case p2m_access_rx: + case p2m_access_rx2rw: + flags &= ~(_PAGE_NX_BIT | _PAGE_RW); + break; + case p2m_access_x: + flags &= ~_PAGE_RW; + break; + case p2m_access_rwx: + default: + break; + } + + return flags; } @@ -152,6 +184,17 @@ p2m_free_entry(struct p2m_domain *p2m, l1_pgentry_t *p2m_entry, int page_order) p2m_free_ptp(p2m, l1e_get_page(*p2m_entry)); } +static void p2m_set_access(intpte_t *entry, p2m_access_t access) +{ + *entry |= put_pte_flags((get_pte_flags(*entry) & ~_PAGE_ACCESS_BITS) | + (MASK_INSR(access, _PAGE_ACCESS_BITS))); +} + +static p2m_access_t p2m_get_access(intpte_t entry) +{ + return (p2m_access_t)(MASK_EXTR(get_pte_flags(entry), _PAGE_ACCESS_BITS)); +} + // Walk one level of the P2M table, allocating a new table if required. // Returns 0 on error. // @@ -226,6 +269,7 @@ p2m_next_level(struct p2m_domain *p2m, void **table, { new_entry = l1e_from_pfn(pfn | (i << ((level - 1) * PAGETABLE_ORDER)), flags); + p2m_set_access(&new_entry.l1, p2m->default_access); rc = p2m->write_p2m_entry(p2m, gfn, l1_entry + i, new_entry, level); if ( rc ) { @@ -237,6 +281,7 @@ p2m_next_level(struct p2m_domain *p2m, void **table, unmap_domain_page(l1_entry); new_entry = l1e_from_mfn(mfn, P2M_BASE_FLAGS | _PAGE_RW); + p2m_set_access(&new_entry.l1, p2m->default_access); rc = p2m->write_p2m_entry(p2m, gfn, p2m_entry, new_entry, level + 1); if ( rc ) @@ -425,8 +470,9 @@ static int do_recalc(struct p2m_domain *p2m, unsigned long gfn) if ( nt != ot ) { unsigned long mfn = l1e_get_pfn(e); + p2m_access_t a = p2m_get_access(e.l1); unsigned long flags = p2m_type_to_flags(p2m, nt, - _mfn(mfn), level); + _mfn(mfn), level, a); if ( level ) { @@ -474,6 +520,32 @@ int p2m_pt_handle_deferred_changes(uint64_t gpa) return rc; } +static int p2m_pt_check_access(p2m_access_t p2ma) +{ + switch ( p2ma ) + { + case p2m_access_n: + case p2m_access_w: + case p2m_access_wx: + case p2m_access_n2rwx: + return -EINVAL; + default: + break; + } + return 0; +} + +static int p2m_pt_set_default_access(struct p2m_domain *p2m, + p2m_access_t p2ma) +{ + int rc = p2m_pt_check_access(p2ma); + + if ( !rc ) + p2m->default_access = p2ma; + + return rc; +} + /* Checks only applicable to entries with order > PAGE_ORDER_4K */ static void check_entry(mfn_t mfn, p2m_type_t new, p2m_type_t old, unsigned int order) @@ -514,6 +586,9 @@ p2m_pt_set_entry(struct p2m_domain *p2m, gfn_t gfn_, mfn_t mfn, if ( !sve ) return -EOPNOTSUPP; + if ( (rc = p2m_pt_check_access(p2ma)) ) + return rc; + if ( tb_init_done ) { struct { @@ -564,10 +639,11 @@ p2m_pt_set_entry(struct p2m_domain *p2m, gfn_t gfn_, mfn_t mfn, check_entry(mfn, p2mt, p2m_flags_to_type(flags), page_order); l3e_content = mfn_valid(mfn) || p2m_allows_invalid_mfn(p2mt) ? p2m_l3e_from_pfn(mfn_x(mfn), - p2m_type_to_flags(p2m, p2mt, mfn, 2)) + p2m_type_to_flags(p2m, p2mt, mfn, 2, p2ma)) : l3e_empty(); entry_content.l1 = l3e_content.l3; + p2m_set_access(&entry_content.l1, p2ma); rc = p2m->write_p2m_entry(p2m, gfn, p2m_entry, entry_content, 3); /* NB: paging_write_p2m_entry() handles tlb flushes properly */ if ( rc ) @@ -597,10 +673,11 @@ p2m_pt_set_entry(struct p2m_domain *p2m, gfn_t gfn_, mfn_t mfn, if ( mfn_valid(mfn) || p2m_allows_invalid_mfn(p2mt) ) entry_content = p2m_l1e_from_pfn(mfn_x(mfn), - p2m_type_to_flags(p2m, p2mt, mfn, 0)); + p2m_type_to_flags(p2m, p2mt, mfn, 0, p2ma)); else entry_content = l1e_empty(); + p2m_set_access(&entry_content.l1, p2ma); /* level 1 entry */ rc = p2m->write_p2m_entry(p2m, gfn, p2m_entry, entry_content, 1); /* NB: paging_write_p2m_entry() handles tlb flushes properly */ @@ -625,10 +702,11 @@ p2m_pt_set_entry(struct p2m_domain *p2m, gfn_t gfn_, mfn_t mfn, check_entry(mfn, p2mt, p2m_flags_to_type(flags), page_order); l2e_content = mfn_valid(mfn) || p2m_allows_invalid_mfn(p2mt) ? p2m_l2e_from_pfn(mfn_x(mfn), - p2m_type_to_flags(p2m, p2mt, mfn, 1)) + p2m_type_to_flags(p2m, p2mt, mfn, 1, p2ma)) : l2e_empty(); entry_content.l1 = l2e_content.l2; + p2m_set_access(&entry_content.l1, p2ma); rc = p2m->write_p2m_entry(p2m, gfn, p2m_entry, entry_content, 2); /* NB: paging_write_p2m_entry() handles tlb flushes properly */ if ( rc ) @@ -676,8 +754,7 @@ p2m_pt_get_entry(struct p2m_domain *p2m, gfn_t gfn_, * XXX Once we start explicitly registering MMIO regions in the p2m * XXX we will return p2m_invalid for unmapped gfns */ *t = p2m_mmio_dm; - /* Not implemented except with EPT */ - *a = p2m_access_rwx; + *a = p2m_access_n; if ( gfn > p2m->max_mapped_pfn ) { @@ -740,6 +817,7 @@ pod_retry_l3: l1_table_offset(addr)); *t = p2m_recalc_type(recalc || _needs_recalc(flags), p2m_flags_to_type(flags), p2m, gfn); + *a = p2m_get_access(l3e->l3); unmap_domain_page(l3e); ASSERT(mfn_valid(mfn) || !p2m_is_ram(*t)); @@ -779,6 +857,7 @@ pod_retry_l2: mfn = _mfn(l2e_get_pfn(*l2e) + l1_table_offset(addr)); *t = p2m_recalc_type(recalc || _needs_recalc(flags), p2m_flags_to_type(flags), p2m, gfn); + *a = p2m_get_access(l2e->l2); unmap_domain_page(l2e); ASSERT(mfn_valid(mfn) || !p2m_is_ram(*t)); @@ -815,6 +894,7 @@ pod_retry_l1: } mfn = l1e_get_mfn(*l1e); *t = p2m_recalc_type(recalc || _needs_recalc(flags), l1t, p2m, gfn); + *a = p2m_get_access(l1e->l1); unmap_domain_page(l1e); ASSERT(mfn_valid(mfn) || !p2m_is_any_ram(*t) || p2m_is_paging(*t)); @@ -1063,6 +1143,7 @@ void p2m_pt_init(struct p2m_domain *p2m) p2m->change_entry_type_global = p2m_pt_change_entry_type_global; p2m->change_entry_type_range = p2m_pt_change_entry_type_range; p2m->write_p2m_entry = paging_write_p2m_entry; + p2m->set_default_access = p2m_pt_set_default_access; #if P2M_AUDIT p2m->audit_p2m = p2m_pt_audit_p2m; #else diff --git a/xen/include/asm-x86/p2m.h b/xen/include/asm-x86/p2m.h index 94285db1b4..32e71067b7 100644 --- a/xen/include/asm-x86/p2m.h +++ b/xen/include/asm-x86/p2m.h @@ -269,6 +269,8 @@ struct p2m_domain { unsigned long gfn, l1_pgentry_t *p, l1_pgentry_t new, unsigned int level); long (*audit_p2m)(struct p2m_domain *p2m); + int (*set_default_access)(struct p2m_domain *p2m, + p2m_access_t p2ma); /* * P2M updates may require TLBs to be flushed (invalidated).