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SUSE:SLE-15-SP7:GA
xen.21119
xsa380-2.patch
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File xsa380-2.patch of Package xen.21119
gnttab: replace mapkind() mapkind() doesn't scale very well with larger maptrack entry counts, using a brute force linear search through all entries, with the only option of an early loop exit if a matching writable entry was found. Introduce a radix tree alongside the main maptrack table, thus allowing much faster MFN-based lookup. To avoid the need to actually allocate space for the individual nodes, encode the two counters in the node pointers themselves, thus limiting the number of permitted simultaneous r/o and r/w mappings of the same MFN to 2³¹-1 (64-bit) / 2¹⁵-1 (32-bit) each. To avoid enforcing an unnecessarily low bound on the number of simultaneous mappings of a single MFN, introduce radix_tree_{ulong_to_ptr,ptr_to_ulong} paralleling radix_tree_{int_to_ptr,ptr_to_int}. As a consequence locking changes are also applicable: With there no longer being any inspection of the remote domain's active entries, there's also no need anymore to hold the remote domain's grant table lock. And since we're no longer iterating over the local domain's map track table, the lock in map_grant_ref() can also be dropped before the new maptrack entry actually gets populated. As a nice side effect this also reduces the number of IOMMU operations in unmap_common(): Previously we would have "established" a readable mapping whenever we didn't find a writable entry anymore (yet, of course, at least one readable one). But we only need to do this if we actually dropped the last writable entry, not if there were none already before. This is part of XSA-380. Signed-off-by: Jan Beulich <jbeulich@suse.com> # Commit b6da9d0414d69c2682214ee3ecf9816fcac500d0 # Date 2021-08-27 10:54:46 +0200 # Author Jan Beulich <jbeulich@suse.com> # Committer Jan Beulich <jbeulich@suse.com> gnttab: avoid triggering assertion in radix_tree_ulong_to_ptr() Relevant quotes from the C11 standard: "Except where explicitly stated otherwise, for the purposes of this subclause unnamed members of objects of structure and union type do not participate in initialization. Unnamed members of structure objects have indeterminate value even after initialization." "If there are fewer initializers in a brace-enclosed list than there are elements or members of an aggregate, [...], the remainder of the aggregate shall be initialized implicitly the same as objects that have static storage duration." "If an object that has static or thread storage duration is not initialized explicitly, then: [...] — if it is an aggregate, every member is initialized (recursively) according to these rules, and any padding is initialized to zero bits; [...]" "A bit-field declaration with no declarator, but only a colon and a width, indicates an unnamed bit-field." Footnote: "An unnamed bit-field structure member is useful for padding to conform to externally imposed layouts." "There may be unnamed padding within a structure object, but not at its beginning." Which makes me conclude: - Whether an unnamed bit-field member is an unnamed member or padding is unclear, and hence also whether the last quote above would render the big endian case of the structure declaration invalid. - Whether the number of members of an aggregate includes unnamed ones is also not really clear. - The initializer in map_grant_ref() initializes all fields of the "cnt" sub-structure of the union, so assuming the second quote above applies here (indirectly), the compiler isn't required to implicitly initialize the rest (i.e. in particular any padding) like would happen for static storage duration objects. Gcc 7.4.1 can be observed (apparently in debug builds only) to translate aforementioned initializer to a read-modify-write operation of a stack variable, leaving unchanged the top two bits of whatever was previously in that stack slot. Clearly if either of the two bits were set, radix_tree_ulong_to_ptr()'s assertion would trigger. Therefore, to be on the safe side, add an explicit padding field for the non-big-endian-bitfields case and give a dummy name to both padding fields. Fixes: 9781b51efde2 ("gnttab: replace mapkind()") Signed-off-by: Jan Beulich <jbeulich@suse.com> Acked-by: Andrew Cooper <andrew.cooper3@citrix.com> --- a/xen/common/grant_table.c +++ b/xen/common/grant_table.c @@ -36,6 +36,7 @@ #include <xen/iommu.h> #include <xen/paging.h> #include <xen/keyhandler.h> +#include <xen/radix-tree.h> #include <xen/vmap.h> #include <xsm/xsm.h> #include <asm/flushtlb.h> @@ -80,8 +81,13 @@ struct grant_table { grant_status_t **status; /* Active grant table. */ struct active_grant_entry **active; - /* Mapping tracking table per vcpu. */ + /* Handle-indexed tracking table of mappings. */ struct grant_mapping **maptrack; + /* + * MFN-indexed tracking tree of mappings, if needed. Note that this is + * protected by @lock, not @maptrack_lock. + */ + struct radix_tree_root maptrack_tree; /* Domain to which this struct grant_table belongs. */ const struct domain *domain; @@ -421,34 +427,6 @@ static int get_paged_frame(unsigned long return rc; } -static inline void -double_gt_lock(struct grant_table *lgt, struct grant_table *rgt) -{ - /* - * See mapkind() for why the write lock is also required for the - * remote domain. - */ - if ( lgt < rgt ) - { - grant_write_lock(lgt); - grant_write_lock(rgt); - } - else - { - if ( lgt != rgt ) - grant_write_lock(rgt); - grant_write_lock(lgt); - } -} - -static inline void -double_gt_unlock(struct grant_table *lgt, struct grant_table *rgt) -{ - grant_write_unlock(lgt); - if ( lgt != rgt ) - grant_write_unlock(rgt); -} - #define INVALID_MAPTRACK_HANDLE UINT_MAX static inline grant_handle_t @@ -870,41 +848,20 @@ static struct active_grant_entry *grant_ return ERR_PTR(-EINVAL); } -#define MAPKIND_READ 1 -#define MAPKIND_WRITE 2 -static unsigned int mapkind( - struct grant_table *lgt, const struct domain *rd, unsigned long mfn) -{ - struct grant_mapping *map; - grant_handle_t handle, limit = lgt->maptrack_limit; - unsigned int kind = 0; - - /* - * Must have the local domain's grant table write lock when - * iterating over its maptrack entries. - */ - ASSERT(percpu_rw_is_write_locked(&lgt->lock)); - /* - * Must have the remote domain's grant table write lock while - * counting its active entries. - */ - ASSERT(percpu_rw_is_write_locked(&rd->grant_table->lock)); - - smp_rmb(); - - for ( handle = 0; !(kind & MAPKIND_WRITE) && handle < limit; handle++ ) - { - map = &maptrack_entry(lgt, handle); - if ( !(map->flags & (GNTMAP_device_map|GNTMAP_host_map)) || - map->domid != rd->domain_id ) - continue; - if ( _active_entry(rd->grant_table, map->ref).frame == mfn ) - kind |= map->flags & GNTMAP_readonly ? - MAPKIND_READ : MAPKIND_WRITE; - } - - return kind; -} +union maptrack_node { + struct { + /* Radix tree slot pointers use two of the bits. */ +#ifdef __BIG_ENDIAN_BITFIELD + unsigned long _0 : 2; +#endif + unsigned long rd : BITS_PER_LONG / 2 - 1; + unsigned long wr : BITS_PER_LONG / 2 - 1; +#ifndef __BIG_ENDIAN_BITFIELD + unsigned long _0 : 2; +#endif + } cnt; + unsigned long raw; +}; /* * Returns 0 if TLB flush / invalidate required by caller. @@ -930,7 +887,6 @@ map_grant_ref( struct grant_mapping *mt; grant_entry_header_t *shah; uint16_t *status; - bool_t need_iommu; led = current; ld = led->domain; @@ -1138,31 +1094,75 @@ map_grant_ref( goto undo_out; } - need_iommu = gnttab_need_iommu_mapping(ld); - if ( need_iommu ) + if ( gnttab_need_iommu_mapping(ld) ) { + union maptrack_node node = { + .cnt.rd = !!(op->flags & GNTMAP_readonly), + .cnt.wr = !(op->flags & GNTMAP_readonly), + }; + int err; + void **slot = NULL; unsigned int kind; - double_gt_lock(lgt, rgt); + grant_write_lock(lgt); + + err = radix_tree_insert(&lgt->maptrack_tree, frame, + radix_tree_ulong_to_ptr(node.raw)); + if ( err == -EEXIST ) + { + slot = radix_tree_lookup_slot(&lgt->maptrack_tree, frame); + if ( likely(slot) ) + { + node.raw = radix_tree_ptr_to_ulong(*slot); + err = -EBUSY; + + /* Update node only when refcount doesn't overflow. */ + if ( op->flags & GNTMAP_readonly ? ++node.cnt.rd + : ++node.cnt.wr ) + { + radix_tree_replace_slot(slot, + radix_tree_ulong_to_ptr(node.raw)); + err = 0; + } + } + else + ASSERT_UNREACHABLE(); + } /* * We're not translated, so we know that dfns and mfns are * the same things, so the IOMMU entry is always 1-to-1. */ - kind = mapkind(lgt, rd, frame); - if ( !(op->flags & GNTMAP_readonly) && - !(kind & MAPKIND_WRITE) ) + if ( !(op->flags & GNTMAP_readonly) && node.cnt.wr == 1 ) kind = IOMMUF_readable | IOMMUF_writable; - else if ( !kind ) + else if ( (op->flags & GNTMAP_readonly) && + node.cnt.rd == 1 && !node.cnt.wr ) kind = IOMMUF_readable; else kind = 0; - if ( kind && iommu_map_page(ld, frame, frame, kind) ) + if ( err || + (kind && iommu_map_page(ld, frame, frame, kind)) ) { - double_gt_unlock(lgt, rgt); + if ( !err ) + { + if ( slot ) + { + op->flags & GNTMAP_readonly ? node.cnt.rd-- + : node.cnt.wr--; + radix_tree_replace_slot(slot, + radix_tree_ulong_to_ptr(node.raw)); + } + else + radix_tree_delete(&lgt->maptrack_tree, frame); + } + rc = GNTST_general_error; - goto undo_out; } + + grant_write_unlock(lgt); + + if ( rc != GNTST_okay ) + goto undo_out; } TRACE_1D(TRC_MEM_PAGE_GRANT_MAP, op->dom); @@ -1170,10 +1170,6 @@ map_grant_ref( /* * All maptrack entry users check mt->flags first before using the * other fields so just ensure the flags field is stored last. - * - * However, if gnttab_need_iommu_mapping() then this would race - * with a concurrent mapkind() call (on an unmap, for example) - * and a lock is required. */ mt = &maptrack_entry(lgt, handle); mt->domid = op->dom; @@ -1181,9 +1177,6 @@ map_grant_ref( smp_wmb(); write_atomic(&mt->flags, op->flags); - if ( need_iommu ) - double_gt_unlock(lgt, rgt); - op->dev_bus_addr = (u64)frame << PAGE_SHIFT; op->handle = handle; op->status = GNTST_okay; @@ -1410,18 +1403,33 @@ unmap_common( if ( rc == GNTST_okay && gnttab_need_iommu_mapping(ld) ) { - unsigned int kind; + void **slot; + union maptrack_node node; int err = 0; - double_gt_lock(lgt, rgt); + grant_write_lock(lgt); + slot = radix_tree_lookup_slot(&lgt->maptrack_tree, op->frame); + node.raw = likely(slot) ? radix_tree_ptr_to_ulong(*slot) : 0; + + /* Refcount must not underflow. */ + if ( !(flags & GNTMAP_readonly ? node.cnt.rd-- + : node.cnt.wr--) ) + BUG(); - kind = mapkind(lgt, rd, op->frame); - if ( !kind ) + if ( !node.raw ) err = iommu_unmap_page(ld, op->frame); - else if ( !(kind & MAPKIND_WRITE) ) + else if ( !(flags & GNTMAP_readonly) && !node.cnt.wr ) err = iommu_map_page(ld, op->frame, op->frame, IOMMUF_readable); - double_gt_unlock(lgt, rgt); + if ( err ) + ; + else if ( !node.raw ) + radix_tree_delete(&lgt->maptrack_tree, op->frame); + else + radix_tree_replace_slot(slot, + radix_tree_ulong_to_ptr(node.raw)); + + grant_write_unlock(lgt); if ( err ) rc = GNTST_general_error; @@ -1852,6 +1860,8 @@ grant_table_init(struct domain *d, struc gt->maptrack = vzalloc(gt->max_maptrack_frames * sizeof(*gt->maptrack)); if ( gt->maptrack == NULL ) goto out; + + radix_tree_init(>->maptrack_tree); } /* Shared grant table. */ @@ -3639,6 +3649,8 @@ int gnttab_release_mappings(struct domai for ( handle = gt->maptrack_limit; handle; ) { + unsigned long mfn; + /* * Deal with full pages such that their freeing (in the body of the * if()) remains simple. @@ -3740,17 +3752,31 @@ int gnttab_release_mappings(struct domai if ( act->pin == 0 ) gnttab_clear_flag(rd, _GTF_reading, status); + mfn = act->frame; + active_entry_release(act); grant_read_unlock(rgt); rcu_unlock_domain(rd); map->flags = 0; + + /* + * This is excessive in that a single such call would suffice per + * mapped MFN (or none at all, if no entry was ever inserted). But it + * should be the common case for an MFN to be mapped just once, and + * this way we don't need to further maintain the counters. We also + * don't want to leave cleaning up of the tree as a whole to the end + * of the function, as this could take quite some time. + */ + radix_tree_delete(>->maptrack_tree, mfn); } gt->maptrack_limit = 0; FREE_XENHEAP_PAGE(gt->maptrack[0]); + radix_tree_destroy(>->maptrack_tree, NULL); + return 0; } --- a/xen/include/xen/radix-tree.h +++ b/xen/include/xen/radix-tree.h @@ -190,6 +190,25 @@ static inline int radix_tree_ptr_to_int( return (int)((long)ptr >> 2); } +/** + * radix_tree_{ulong_to_ptr,ptr_to_ulong}: + * + * Same for unsigned long values. Beware though that only BITS_PER_LONG-2 + * bits are actually usable for the value. + */ +static inline void *radix_tree_ulong_to_ptr(unsigned long val) +{ + unsigned long ptr = (val << 2) | 0x2; + ASSERT((ptr >> 2) == val); + return (void *)ptr; +} + +static inline unsigned long radix_tree_ptr_to_ulong(void *ptr) +{ + ASSERT(((unsigned long)ptr & 0x3) == 0x2); + return (unsigned long)ptr >> 2; +} + int radix_tree_insert(struct radix_tree_root *, unsigned long, void *); void *radix_tree_lookup(struct radix_tree_root *, unsigned long); void **radix_tree_lookup_slot(struct radix_tree_root *, unsigned long);
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