diff -r e61e4075a710 xen/arch/x86/domain.c --- a/xen/arch/x86/domain.c Wed Dec 17 12:59:51 2008 +0000 +++ b/xen/arch/x86/domain.c Fri Dec 19 17:51:53 2008 +0000 @@ -147,6 +147,11 @@ _p(page_to_mfn(page)), page->count_info, page->u.inuse.type_info); } + } + + if ( is_hvm_domain(d) ) + { + p2m_pod_dump_data(d); } list_for_each_entry ( page, &d->xenpage_list, list ) diff -r e61e4075a710 xen/arch/x86/mm/p2m.c --- a/xen/arch/x86/mm/p2m.c Wed Dec 17 12:59:51 2008 +0000 +++ b/xen/arch/x86/mm/p2m.c Fri Dec 19 17:51:53 2008 +0000 @@ -118,9 +118,16 @@ return flags; case p2m_mmio_direct: return flags | P2M_BASE_FLAGS | _PAGE_RW | _PAGE_PCD; + case p2m_populate_on_demand: + return flags; } } +#if P2M_AUDIT +static void audit_p2m(struct domain *d); +#else +# define audit_p2m(_d) do { (void)(_d); } while(0) +#endif /* P2M_AUDIT */ // Find the next level's P2M entry, checking for out-of-range gfn's... // Returns NULL on error. @@ -162,7 +169,8 @@ shift, max)) ) return 0; - if ( !(l1e_get_flags(*p2m_entry) & _PAGE_PRESENT) ) + /* PoD: Not present doesn't imply empty. */ + if ( !l1e_get_flags(*p2m_entry) ) { struct page_info *pg = d->arch.p2m->alloc_page(d); if ( pg == NULL ) @@ -197,7 +205,7 @@ } } - ASSERT(l1e_get_flags(*p2m_entry) & _PAGE_PRESENT); + ASSERT(l1e_get_flags(*p2m_entry) & (_PAGE_PRESENT|_PAGE_PSE)); /* split single large page into 4KB page in P2M table */ if ( type == PGT_l1_page_table && (l1e_get_flags(*p2m_entry) & _PAGE_PSE) ) @@ -240,6 +248,236 @@ *table = next; return 1; +} + +/* + * Populate-on-demand functionality + */ +int +p2m_pod_cache_add(struct domain *d, + struct page_info *page, + unsigned long order) +{ + int i; + struct page_info *p; + struct p2m_domain *p2md = d->arch.p2m; + +#ifndef NDEBUG + mfn_t mfn; + + mfn = page_to_mfn(page); + + /* Check to make sure this is a contiguous region */ + if( mfn_x(mfn) & ((1 << order) - 1) ) + { + printk("%s: mfn %lx not aligned order %lu! (mask %lx)\n", + __func__, mfn_x(mfn), order, ((1UL << order) - 1)); + return -1; + } + + for(i=0; i < 1 << order ; i++) { + struct domain * od; + + p = mfn_to_page(_mfn(mfn_x(mfn) + i)); + od = page_get_owner(p); + if(od != d) + { + printk("%s: mfn %lx expected owner d%d, got owner d%d!\n", + __func__, mfn_x(mfn), d->domain_id, + od?od->domain_id:-1); + return -1; + } + } +#endif + + spin_lock(&d->page_alloc_lock); + + /* First, take all pages off the domain list */ + for(i=0; i < 1 << order ; i++) + { + p = page + i; + list_del(&p->list); + } + + /* Then add the first one to the appropriate populate-on-demand list */ + switch(order) + { + case 9: + list_add_tail(&page->list, &p2md->pod.super); /* lock: page_alloc */ + p2md->pod.count += 1 << order; + break; + case 0: + list_add_tail(&page->list, &p2md->pod.single); /* lock: page_alloc */ + p2md->pod.count += 1 ; + break; + default: + BUG(); + } + + spin_unlock(&d->page_alloc_lock); + + return 0; +} + +void +p2m_pod_empty_cache(struct domain *d) +{ + struct p2m_domain *p2md = d->arch.p2m; + struct list_head *q, *p; + + spin_lock(&d->page_alloc_lock); + + list_for_each_safe(p, q, &p2md->pod.super) /* lock: page_alloc */ + { + int i; + struct page_info *page; + + list_del(p); + + page = list_entry(p, struct page_info, list); + + for ( i = 0 ; i < (1 << 9) ; i++ ) + { + BUG_ON(page_get_owner(page + i) != d); + list_add_tail(&page[i].list, &d->page_list); + } + + p2md->pod.count -= 1<<9; + } + + list_for_each_safe(p, q, &p2md->pod.single) + { + struct page_info *page; + + list_del(p); + + page = list_entry(p, struct page_info, list); + + BUG_ON(page_get_owner(page) != d); + list_add_tail(&page->list, &d->page_list); + + p2md->pod.count -= 1; + } + + BUG_ON(p2md->pod.count != 0); + + spin_unlock(&d->page_alloc_lock); +} + +void +p2m_pod_dump_data(struct domain *d) +{ + struct p2m_domain *p2md = d->arch.p2m; + + printk(" PoD entries=%d cachesize=%d\n", + p2md->pod.entry_count, p2md->pod.count); +} + +static int +p2m_pod_demand_populate(struct domain *d, unsigned long gfn, + mfn_t table_mfn, + l1_pgentry_t *p2m_entry, + unsigned int order, + p2m_query_t q) +{ + struct page_info *p = NULL; /* Compiler warnings */ + unsigned long gfn_aligned; + mfn_t mfn; + l1_pgentry_t entry_content = l1e_empty(); + struct p2m_domain *p2md = d->arch.p2m; + int i; + + /* We need to grab the p2m lock here and re-check the entry to make + * sure that someone else hasn't populated it for us, then hold it + * until we're done. */ + p2m_lock(p2md); + audit_p2m(d); + + /* Check to make sure this is still PoD */ + if ( p2m_flags_to_type(l1e_get_flags(*p2m_entry)) != p2m_populate_on_demand ) + { + p2m_unlock(p2md); + return 0; + } + + spin_lock(&d->page_alloc_lock); + + if ( p2md->pod.count == 0 ) + goto out_of_memory; + + /* FIXME -- use single pages / splinter superpages if need be */ + switch ( order ) + { + case 9: + BUG_ON( list_empty(&p2md->pod.super) ); + p = list_entry(p2md->pod.super.next, struct page_info, list); + p2md->pod.count -= 1 << order; /* Lock: page_alloc */ + break; + case 0: + BUG_ON( list_empty(&p2md->pod.single) ); + p = list_entry(p2md->pod.single.next, struct page_info, list); + p2md->pod.count -= 1; + break; + default: + BUG(); + } + + list_del(&p->list); + + mfn = page_to_mfn(p); + + BUG_ON((mfn_x(mfn) & ((1 << order)-1)) != 0); + + /* Put the pages back on the domain page_list */ + for ( i = 0 ; i < (1 << order) ; i++ ) + { + BUG_ON(page_get_owner(p + i) != d); + list_add_tail(&p[i].list, &d->page_list); + } + + spin_unlock(&d->page_alloc_lock); + + /* Fill in the entry in the p2m */ + switch ( order ) + { + case 9: + { + l2_pgentry_t l2e_content; + + l2e_content = l2e_from_pfn(mfn_x(mfn), + p2m_type_to_flags(p2m_ram_rw) | _PAGE_PSE); + + entry_content.l1 = l2e_content.l2; + } + break; + case 0: + entry_content = l1e_from_pfn(mfn_x(mfn), + p2m_type_to_flags(p2m_ram_rw)); + break; + + } + + gfn_aligned = (gfn >> order) << order; + + paging_write_p2m_entry(d, gfn_aligned, p2m_entry, table_mfn, + entry_content, (order==9)?2:1); + + for( i = 0 ; i < (1UL << order) ; i++ ) + set_gpfn_from_mfn(mfn_x(mfn) + i, gfn_aligned + i); + + p2md->pod.entry_count -= (1 << order); /* Lock: p2m */ + BUG_ON(p2md->pod.entry_count < 0); + audit_p2m(d); + p2m_unlock(p2md); + + return 0; +out_of_memory: + spin_unlock(&d->page_alloc_lock); + audit_p2m(d); + p2m_unlock(p2md); + printk("%s: Out of populate-on-demand memory!\n", __func__); + domain_crash(d); + return -1; } // Returns 0 on error (out of memory) @@ -303,6 +541,7 @@ L2_PAGETABLE_ENTRIES); ASSERT(p2m_entry); + /* FIXME: Deal with 4k replaced by 2meg pages */ if ( (l1e_get_flags(*p2m_entry) & _PAGE_PRESENT) && !(l1e_get_flags(*p2m_entry) & _PAGE_PSE) ) { @@ -311,7 +550,7 @@ goto out; } - if ( mfn_valid(mfn) ) + if ( mfn_valid(mfn) || p2m_is_magic(p2mt) ) l2e_content = l2e_from_pfn(mfn_x(mfn), p2m_type_to_flags(p2mt) | _PAGE_PSE); else @@ -403,8 +642,21 @@ l2e = map_domain_page(mfn_x(mfn)); l2e += l2_table_offset(addr); + +pod_retry_l2: if ( (l2e_get_flags(*l2e) & _PAGE_PRESENT) == 0 ) { + /* PoD: Try to populate a 2-meg chunk */ + if ( p2m_flags_to_type(l2e_get_flags(*l2e)) == p2m_populate_on_demand ) + { + if ( q != p2m_query ) { + if( !p2m_pod_demand_populate(d, gfn, mfn, + (l1_pgentry_t *)l2e, 9, q) ) + goto pod_retry_l2; + } else + *t = p2m_populate_on_demand; + } + unmap_domain_page(l2e); return _mfn(INVALID_MFN); } @@ -423,8 +675,20 @@ l1e = map_domain_page(mfn_x(mfn)); l1e += l1_table_offset(addr); +pod_retry_l1: if ( (l1e_get_flags(*l1e) & _PAGE_PRESENT) == 0 ) { + /* PoD: Try to populate */ + if ( p2m_flags_to_type(l1e_get_flags(*l1e)) == p2m_populate_on_demand ) + { + if ( q != p2m_query ) { + if( !p2m_pod_demand_populate(d, gfn, mfn, + (l1_pgentry_t *)l1e, 0, q) ) + goto pod_retry_l1; + } else + *t = p2m_populate_on_demand; + } + unmap_domain_page(l1e); return _mfn(INVALID_MFN); } @@ -450,48 +714,114 @@ if ( gfn <= current->domain->arch.p2m->max_mapped_pfn ) { - l1_pgentry_t l1e = l1e_empty(); + l1_pgentry_t l1e = l1e_empty(), *p2m_entry; l2_pgentry_t l2e = l2e_empty(); int ret; ASSERT(gfn < (RO_MPT_VIRT_END - RO_MPT_VIRT_START) / sizeof(l1_pgentry_t)); + /* + * Read & process L2 + */ + p2m_entry = &__linear_l1_table[l1_linear_offset(RO_MPT_VIRT_START) + + l2_linear_offset(addr)]; + + pod_retry_l2: ret = __copy_from_user(&l2e, - &__linear_l1_table[l1_linear_offset(RO_MPT_VIRT_START) + l2_linear_offset(addr)], + p2m_entry, sizeof(l2e)); + if ( ret != 0 + || !(l2e_get_flags(l2e) & _PAGE_PRESENT) ) + { + if( (l2e_get_flags(l2e) & _PAGE_PSE) + && ( p2m_flags_to_type(l2e_get_flags(l2e)) + == p2m_populate_on_demand ) ) + { + /* The read has succeeded, so we know that the mapping + * exits at this point. */ + if ( q != p2m_query ) + { + if( !p2m_pod_demand_populate(current->domain, gfn, mfn, + p2m_entry, 9, q) ) + goto pod_retry_l2; + + /* Allocate failed. */ + p2mt = p2m_invalid; + printk("%s: Allocate failed!\n", __func__); + goto out; + } + else + { + p2mt = p2m_populate_on_demand; + goto out; + } + } + + goto pod_retry_l1; + } - if ( (ret == 0) && (l2e_get_flags(l2e) & _PAGE_PRESENT) && - (l2e_get_flags(l2e) & _PAGE_PSE) ) + if (l2e_get_flags(l2e) & _PAGE_PSE) { p2mt = p2m_flags_to_type(l2e_get_flags(l2e)); ASSERT(l2e_get_pfn(l2e) != INVALID_MFN || !p2m_is_ram(p2mt)); + if ( p2m_is_valid(p2mt) ) mfn = _mfn(l2e_get_pfn(l2e) + l1_table_offset(addr)); else p2mt = p2m_mmio_dm; + + goto out; } - else - { - - /* Need to __copy_from_user because the p2m is sparse and this - * part might not exist */ - ret = __copy_from_user(&l1e, - &phys_to_machine_mapping[gfn], - sizeof(l1e)); + + /* + * Read and process L1 + */ + + /* Need to __copy_from_user because the p2m is sparse and this + * part might not exist */ + pod_retry_l1: + p2m_entry = &phys_to_machine_mapping[gfn]; + + ret = __copy_from_user(&l1e, + p2m_entry, + sizeof(l1e)); - if ( ret == 0 ) { - p2mt = p2m_flags_to_type(l1e_get_flags(l1e)); - ASSERT(l1e_get_pfn(l1e) != INVALID_MFN || !p2m_is_ram(p2mt)); - if ( p2m_is_valid(p2mt) ) - mfn = _mfn(l1e_get_pfn(l1e)); - else - /* XXX see above */ - p2mt = p2m_mmio_dm; + if ( ret == 0 ) { + p2mt = p2m_flags_to_type(l1e_get_flags(l1e)); + ASSERT(l1e_get_pfn(l1e) != INVALID_MFN || !p2m_is_ram(p2mt)); + + if ( p2m_flags_to_type(l1e_get_flags(l1e)) + == p2m_populate_on_demand ) + { + /* The read has succeeded, so we know that the mapping + * exits at this point. */ + if ( q != p2m_query ) + { + if( !p2m_pod_demand_populate(current->domain, gfn, mfn, + (l1_pgentry_t *)p2m_entry, 0, + q) ) + goto pod_retry_l1; + + /* Allocate failed. */ + p2mt = p2m_invalid; + goto out; + } + else + { + p2mt = p2m_populate_on_demand; + goto out; + } } + + if ( p2m_is_valid(p2mt) ) + mfn = _mfn(l1e_get_pfn(l1e)); + else + /* XXX see above */ + p2mt = p2m_mmio_dm; } } - +out: *t = p2mt; return mfn; } @@ -510,6 +840,8 @@ memset(p2m, 0, sizeof(*p2m)); p2m_lock_init(p2m); INIT_LIST_HEAD(&p2m->pages); + INIT_LIST_HEAD(&p2m->pod.super); + INIT_LIST_HEAD(&p2m->pod.single); p2m->set_entry = p2m_set_entry; p2m->get_entry = p2m_gfn_to_mfn; @@ -680,6 +1012,7 @@ struct page_info *page; struct domain *od; unsigned long mfn, gfn, m2pfn, lp2mfn = 0; + int entry_count = 0; mfn_t p2mfn; unsigned long orphans_d = 0, orphans_i = 0, mpbad = 0, pmbad = 0; int test_linear; @@ -809,6 +1142,10 @@ { if ( !(l2e_get_flags(l2e[i2]) & _PAGE_PRESENT) ) { + if ( (l2e_get_flags(l2e[i2]) & _PAGE_PSE) + && ( p2m_flags_to_type(l2e_get_flags(l2e[i2])) + == p2m_populate_on_demand ) ) + entry_count+=(1<<9); gfn += 1 << (L2_PAGETABLE_SHIFT - PAGE_SHIFT); continue; } @@ -839,13 +1176,20 @@ for ( i1 = 0; i1 < L1_PAGETABLE_ENTRIES; i1++, gfn++ ) { if ( !(l1e_get_flags(l1e[i1]) & _PAGE_PRESENT) ) + { + if ( p2m_flags_to_type(l1e_get_flags(l1e[i1])) + == p2m_populate_on_demand ) + entry_count++; continue; + } mfn = l1e_get_pfn(l1e[i1]); ASSERT(mfn_valid(_mfn(mfn))); m2pfn = get_gpfn_from_mfn(mfn); if ( m2pfn != gfn ) { pmbad++; + printk("mismatch: gfn %#lx -> mfn %#lx" + " -> gfn %#lx\n", gfn, mfn, m2pfn); P2M_PRINTK("mismatch: gfn %#lx -> mfn %#lx" " -> gfn %#lx\n", gfn, mfn, m2pfn); BUG(); @@ -868,6 +1212,15 @@ } + if ( entry_count != d->arch.p2m->pod.entry_count ) + { + printk("%s: refcounted entry count %d, audit count %d!\n", + __func__, + d->arch.p2m->pod.entry_count, + entry_count); + BUG(); + } + //P2M_PRINTK("p2m audit complete\n"); //if ( orphans_i | orphans_d | mpbad | pmbad ) // P2M_PRINTK("p2m audit found %lu orphans (%lu inval %lu debug)\n", @@ -876,8 +1229,6 @@ P2M_PRINTK("p2m audit found %lu odd p2m, %lu bad m2p entries\n", pmbad, mpbad); } -#else -#define audit_p2m(_d) do { (void)(_d); } while(0) #endif /* P2M_AUDIT */ @@ -915,6 +1266,77 @@ } int +guest_physmap_mark_populate_on_demand(struct domain *d, unsigned long gfn, + unsigned int order) +{ + struct p2m_domain *p2md = d->arch.p2m; + unsigned long i; + p2m_type_t ot; + mfn_t omfn; + int pod_count = 0; + int rc = 0; + + BUG_ON(!paging_mode_translate(d)); + +#if CONFIG_PAGING_LEVELS == 3 + /* + * 32bit PAE nested paging does not support over 4GB guest due to + * hardware translation limit. This limitation is checked by comparing + * gfn with 0xfffffUL. + */ + if ( paging_mode_hap(d) && (gfn > 0xfffffUL) ) + { + if ( !test_and_set_bool(d->arch.hvm_domain.svm.npt_4gb_warning) ) + dprintk(XENLOG_WARNING, "Dom%d failed to populate memory beyond" + " 4GB: specify 'hap=0' domain config option.\n", + d->domain_id); + return -EINVAL; + } +#endif + + p2m_lock(p2md); + audit_p2m(d); + + P2M_DEBUG("adding gfn=%#lx mfn=%#lx\n", gfn, mfn); + + /* Make sure all gpfns are unused */ + for ( i = 0; i < (1UL << order); i++ ) + { + omfn = gfn_to_mfn_query(d, gfn + i, &ot); + if ( p2m_is_ram(ot) ) + { + printk("%s: gfn_to_mfn returned type %d!\n", + __func__, ot); + rc = -EBUSY; + goto out; + } + else if ( ot == p2m_populate_on_demand ) + { + /* Count how man PoD entries we'll be replacing if successful */ + pod_count++; + } + } + + /* Now, actually do the two-way mapping */ + if ( !set_p2m_entry(d, gfn, _mfn(POPULATE_ON_DEMAND_MFN), order, + p2m_populate_on_demand) ) + rc = -EINVAL; + else + { + p2md->pod.entry_count += 1 << order; /* Lock: p2m */ + p2md->pod.entry_count -= pod_count; + BUG_ON(p2md->pod.entry_count < 0); + } + + audit_p2m(d); + p2m_unlock(p2md); + +out: + return rc; + +} + +int guest_physmap_add_entry(struct domain *d, unsigned long gfn, unsigned long mfn, unsigned int page_order, p2m_type_t t) @@ -922,6 +1344,7 @@ unsigned long i, ogfn; p2m_type_t ot; mfn_t omfn; + int pod_count = 0; int rc = 0; if ( !paging_mode_translate(d) ) @@ -969,6 +1392,11 @@ ASSERT(mfn_valid(omfn)); set_gpfn_from_mfn(mfn_x(omfn), INVALID_M2P_ENTRY); } + else if ( ot == p2m_populate_on_demand ) + { + /* Count how man PoD entries we'll be replacing if successful */ + pod_count++; + } } /* Then, look for m->p mappings for this range and deal with them */ @@ -1015,6 +1443,11 @@ if ( !set_p2m_entry(d, gfn, _mfn(INVALID_MFN), page_order, p2m_invalid) ) rc = -EINVAL; + else + { + d->arch.p2m->pod.entry_count -= pod_count; /* Lock: p2m */ + BUG_ON(d->arch.p2m->pod.entry_count < 0); + } } audit_p2m(d); diff -r e61e4075a710 xen/arch/x86/mm/paging.c --- a/xen/arch/x86/mm/paging.c Wed Dec 17 12:59:51 2008 +0000 +++ b/xen/arch/x86/mm/paging.c Fri Dec 19 17:51:53 2008 +0000 @@ -585,6 +585,9 @@ /* clean up log dirty resources. */ paging_log_dirty_teardown(d); + + /* Move populate-on-demand cache back to domain_list for destruction */ + p2m_pod_empty_cache(d); } /* Call once all of the references to the domain have gone away */ diff -r e61e4075a710 xen/arch/x86/mm/shadow/multi.c --- a/xen/arch/x86/mm/shadow/multi.c Wed Dec 17 12:59:51 2008 +0000 +++ b/xen/arch/x86/mm/shadow/multi.c Fri Dec 19 17:51:53 2008 +0000 @@ -2173,7 +2173,7 @@ mfn_t gl3mfn = gfn_to_mfn_query(d, gl3gfn, &p2mt); if ( p2m_is_ram(p2mt) ) sl3mfn = get_shadow_status(v, gl3mfn, SH_type_l3_shadow); - else + else if ( p2mt != p2m_populate_on_demand ) result |= SHADOW_SET_ERROR; #if (SHADOW_OPTIMIZATIONS && SHOPT_OUT_OF_SYNC ) @@ -2230,7 +2230,7 @@ mfn_t gl2mfn = gfn_to_mfn_query(v->domain, gl2gfn, &p2mt); if ( p2m_is_ram(p2mt) ) sl2mfn = get_shadow_status(v, gl2mfn, SH_type_l2_shadow); - else + else if ( p2mt != p2m_populate_on_demand ) result |= SHADOW_SET_ERROR; #if (SHADOW_OPTIMIZATIONS && SHOPT_OUT_OF_SYNC ) @@ -2278,8 +2278,8 @@ { mfn_t gl1mfn = gfn_to_mfn_query(v->domain, gl1gfn, &p2mt); if ( p2m_is_ram(p2mt) ) - sl1mfn = get_shadow_status(v, gl1mfn, SH_type_l1_shadow); - else + sl1mfn = get_shadow_status(v, gl1mfn, SH_type_l1_shadow); + else if ( p2mt != p2m_populate_on_demand ) result |= SHADOW_SET_ERROR; } } diff -r e61e4075a710 xen/include/asm-x86/p2m.h --- a/xen/include/asm-x86/p2m.h Wed Dec 17 12:59:51 2008 +0000 +++ b/xen/include/asm-x86/p2m.h Fri Dec 19 17:51:53 2008 +0000 @@ -64,6 +64,7 @@ p2m_ram_ro = 3, /* Read-only; writes are silently dropped */ p2m_mmio_dm = 4, /* Reads and write go to the device model */ p2m_mmio_direct = 5, /* Read/write mapping of genuine MMIO area */ + p2m_populate_on_demand = 6, /* Place-holder for empty memory */ } p2m_type_t; typedef enum { @@ -88,11 +89,19 @@ #define P2M_RO_TYPES (p2m_to_mask(p2m_ram_logdirty) \ | p2m_to_mask(p2m_ram_ro)) +#define P2M_MAGIC_TYPES (p2m_to_mask(p2m_populate_on_demand)) + /* Useful predicates */ #define p2m_is_ram(_t) (p2m_to_mask(_t) & P2M_RAM_TYPES) #define p2m_is_mmio(_t) (p2m_to_mask(_t) & P2M_MMIO_TYPES) #define p2m_is_readonly(_t) (p2m_to_mask(_t) & P2M_RO_TYPES) +#define p2m_is_magic(_t) (p2m_to_mask(_t) & P2M_MAGIC_TYPES) #define p2m_is_valid(_t) (p2m_to_mask(_t) & (P2M_RAM_TYPES | P2M_MMIO_TYPES)) + +/* Populate-on-demand */ +#define POPULATE_ON_DEMAND_MFN (1<<9) +#define POD_PAGE_ORDER 9 + struct p2m_domain { /* Lock that protects updates to the p2m */ @@ -122,6 +131,28 @@ /* Highest guest frame that's ever been mapped in the p2m */ unsigned long max_mapped_pfn; + + /* Populate-on-demand variables + * NB on locking. {super,single,count} are + * covered by d->page_alloc_lock, since they're almost always used in + * conjunction with that functionality. {entry_count} is covered by + * the domain p2m lock, since it's almost always used in conjunction + * with changing the p2m tables. + * + * At this point, both locks are held in two places. In both, + * the order is [p2m,page_alloc]: + * + p2m_pod_decrease_reservation() calls p2m_pod_cache_add(), + * which grabs page_alloc + * + p2m_pod_demand_populate() grabs both; the p2m lock to avoid + * double-demand-populating of pages, the page_alloc lock to + * protect moving stuff from the PoD cache to the domain page list. + */ + struct { + struct list_head super, /* List of superpages */ + single; /* Non-super lists */ + int count, /* # of pages in cache lists */ + entry_count; /* # of pages in p2m marked pod */ + } pod; }; /* Extract the type from the PTE flags that store it */ @@ -220,10 +251,21 @@ void p2m_teardown(struct domain *d); void p2m_final_teardown(struct domain *d); +/* Dump PoD information about the domain */ +void p2m_pod_dump_data(struct domain *d); + +/* Move all pages from the populate-on-demand cache to the domain page_list + * (usually in preparation for domain destruction) */ +void p2m_pod_empty_cache(struct domain *d); + /* Add a page to a domain's p2m table */ int guest_physmap_add_entry(struct domain *d, unsigned long gfn, unsigned long mfn, unsigned int page_order, p2m_type_t t); + +/* Set a p2m range as populate-on-demand */ +int guest_physmap_mark_populate_on_demand(struct domain *d, unsigned long gfn, + unsigned int order); /* Untyped version for RAM only, for compatibility *