SLUB: Define functions for cpu slab handling instead of using PageActive
Use inline functions to access the per cpu bit. Intoduce the notion of "freezing" a slab to make things more understandable. Signed-off-by: Christoph Lameter <clameter@sgi.com> Signed-off-by: Andrew Morton <akpm@linux-foundation.org> Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>hifive-unleashed-5.1
Christoph Lameter
Linus Torvalds
parent
3ca12ee549
commit
4b6f075045
57
mm/slub.c
57
mm/slub.c
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@ -78,10 +78,18 @@
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*
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* Overloading of page flags that are otherwise used for LRU management.
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*
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* PageActive The slab is used as a cpu cache. Allocations
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* may be performed from the slab. The slab is not
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* on any slab list and cannot be moved onto one.
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* The cpu slab may be equipped with an additioanl
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* PageActive The slab is frozen and exempt from list processing.
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* This means that the slab is dedicated to a purpose
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* such as satisfying allocations for a specific
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* processor. Objects may be freed in the slab while
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* it is frozen but slab_free will then skip the usual
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* list operations. It is up to the processor holding
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* the slab to integrate the slab into the slab lists
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* when the slab is no longer needed.
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*
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* One use of this flag is to mark slabs that are
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* used for allocations. Then such a slab becomes a cpu
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* slab. The cpu slab may be equipped with an additional
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* lockless_freelist that allows lockless access to
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* free objects in addition to the regular freelist
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* that requires the slab lock.
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@ -91,6 +99,21 @@
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* the fast path and disables lockless freelists.
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*/
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static inline int SlabFrozen(struct page *page)
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{
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return PageActive(page);
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}
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static inline void SetSlabFrozen(struct page *page)
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{
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SetPageActive(page);
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}
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static inline void ClearSlabFrozen(struct page *page)
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{
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ClearPageActive(page);
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}
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static inline int SlabDebug(struct page *page)
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{
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#ifdef CONFIG_SLUB_DEBUG
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@ -1135,11 +1158,12 @@ static void remove_partial(struct kmem_cache *s,
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*
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* Must hold list_lock.
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*/
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static int lock_and_del_slab(struct kmem_cache_node *n, struct page *page)
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static inline int lock_and_freeze_slab(struct kmem_cache_node *n, struct page *page)
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{
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if (slab_trylock(page)) {
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list_del(&page->lru);
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n->nr_partial--;
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SetSlabFrozen(page);
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return 1;
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}
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return 0;
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@ -1163,7 +1187,7 @@ static struct page *get_partial_node(struct kmem_cache_node *n)
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spin_lock(&n->list_lock);
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list_for_each_entry(page, &n->partial, lru)
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if (lock_and_del_slab(n, page))
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if (lock_and_freeze_slab(n, page))
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goto out;
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page = NULL;
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out:
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@ -1242,10 +1266,11 @@ static struct page *get_partial(struct kmem_cache *s, gfp_t flags, int node)
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*
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* On exit the slab lock will have been dropped.
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*/
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static void putback_slab(struct kmem_cache *s, struct page *page)
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static void unfreeze_slab(struct kmem_cache *s, struct page *page)
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{
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struct kmem_cache_node *n = get_node(s, page_to_nid(page));
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ClearSlabFrozen(page);
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if (page->inuse) {
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if (page->freelist)
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@ -1296,9 +1321,7 @@ static void deactivate_slab(struct kmem_cache *s, struct page *page, int cpu)
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page->inuse--;
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}
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s->cpu_slab[cpu] = NULL;
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ClearPageActive(page);
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putback_slab(s, page);
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unfreeze_slab(s, page);
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}
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static void flush_slab(struct kmem_cache *s, struct page *page, int cpu)
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@ -1389,9 +1412,7 @@ another_slab:
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new_slab:
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page = get_partial(s, gfpflags, node);
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if (page) {
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have_slab:
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s->cpu_slab[cpu] = page;
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SetPageActive(page);
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goto load_freelist;
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}
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@ -1421,7 +1442,9 @@ have_slab:
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flush_slab(s, s->cpu_slab[cpu], cpu);
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}
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slab_lock(page);
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goto have_slab;
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SetSlabFrozen(page);
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s->cpu_slab[cpu] = page;
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goto load_freelist;
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}
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return NULL;
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debug:
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@ -1508,11 +1531,7 @@ checks_ok:
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page->freelist = object;
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page->inuse--;
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if (unlikely(PageActive(page)))
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/*
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* Cpu slabs are never on partial lists and are
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* never freed.
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*/
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if (unlikely(SlabFrozen(page)))
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goto out_unlock;
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if (unlikely(!page->inuse))
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@ -1544,7 +1563,7 @@ slab_empty:
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debug:
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if (!free_object_checks(s, page, x))
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goto out_unlock;
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if (!PageActive(page) && !page->freelist)
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if (!SlabFrozen(page) && !page->freelist)
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remove_full(s, page);
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if (s->flags & SLAB_STORE_USER)
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set_track(s, x, TRACK_FREE, addr);
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