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zsmalloc: consolidate zs_pool's migrate_lock and size_class's locks
Currently, zsmalloc has a hierarchy of locks, which includes a pool-level migrate_lock, and a lock for each size class. We have to obtain both locks in the hotpath in most cases anyway, except for zs_malloc. This exception will no longer exist when we introduce a LRU into the zs_pool for the new writeback functionality - we will need to obtain a pool-level lock to synchronize LRU handling even in zs_malloc. In preparation for zsmalloc writeback, consolidate these locks into a single pool-level lock, which drastically reduces the complexity of synchronization in zsmalloc. We have also benchmarked the lock consolidation to see the performance effect of this change on zram. First, we ran a synthetic FS workload on a server machine with 36 cores (same machine for all runs), using fs_mark -d ../zram1mnt -s 100000 -n 2500 -t 32 -k before and after for btrfs and ext4 on zram (FS usage is 80%). Here is the result (unit is file/second): With lock consolidation (btrfs): Average: 13520.2, Median: 13531.0, Stddev: 137.5961482019028 Without lock consolidation (btrfs): Average: 13487.2, Median: 13575.0, Stddev: 309.08283679298665 With lock consolidation (ext4): Average: 16824.4, Median: 16839.0, Stddev: 89.97388510006668 Without lock consolidation (ext4) Average: 16958.0, Median: 16986.0, Stddev: 194.7370021336469 As you can see, we observe a 0.3% regression for btrfs, and a 0.9% regression for ext4. This is a small, barely measurable difference in my opinion. For a more realistic scenario, we also tries building the kernel on zram. Here is the time it takes (in seconds): With lock consolidation (btrfs): real Average: 319.6, Median: 320.0, Stddev: 0.8944271909999159 user Average: 6894.2, Median: 6895.0, Stddev: 25.528415540334656 sys Average: 521.4, Median: 522.0, Stddev: 1.51657508881031 Without lock consolidation (btrfs): real Average: 319.8, Median: 320.0, Stddev: 0.8366600265340756 user Average: 6896.6, Median: 6899.0, Stddev: 16.04057355583023 sys Average: 520.6, Median: 521.0, Stddev: 1.140175425099138 With lock consolidation (ext4): real Average: 320.0, Median: 319.0, Stddev: 1.4142135623730951 user Average: 6896.8, Median: 6878.0, Stddev: 28.621670111997307 sys Average: 521.2, Median: 521.0, Stddev: 1.7888543819998317 Without lock consolidation (ext4) real Average: 319.6, Median: 319.0, Stddev: 0.8944271909999159 user Average: 6886.2, Median: 6887.0, Stddev: 16.93221781102523 sys Average: 520.4, Median: 520.0, Stddev: 1.140175425099138 The difference is entirely within the noise of a typical run on zram. This hardly justifies the complexity of maintaining both the pool lock and the class lock. In fact, for writeback, we would need to introduce yet another lock to prevent data races on the pool's LRU, further complicating the lock handling logic. IMHO, it is just better to collapse all of these into a single pool-level lock. Link: https://lkml.kernel.org/r/20221128191616.1261026-4-nphamcs@gmail.com Signed-off-by: Nhat Pham <nphamcs@gmail.com> Suggested-by: Johannes Weiner <hannes@cmpxchg.org> Acked-by: Minchan Kim <minchan@kernel.org> Acked-by: Johannes Weiner <hannes@cmpxchg.org> Reviewed-by: Sergey Senozhatsky <senozhatsky@chromium.org> Cc: Dan Streetman <ddstreet@ieee.org> Cc: Nitin Gupta <ngupta@vflare.org> Cc: Seth Jennings <sjenning@redhat.com> Cc: Vitaly Wool <vitaly.wool@konsulko.com> Signed-off-by: Andrew Morton <akpm@linux-foundation.org>
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@ -33,8 +33,7 @@
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/*
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* lock ordering:
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* page_lock
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* pool->migrate_lock
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* class->lock
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* pool->lock
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* zspage->lock
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*/
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@ -192,7 +191,6 @@ static const int fullness_threshold_frac = 4;
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static size_t huge_class_size;
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struct size_class {
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spinlock_t lock;
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struct list_head fullness_list[NR_ZS_FULLNESS];
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/*
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* Size of objects stored in this class. Must be multiple
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@ -247,8 +245,7 @@ struct zs_pool {
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#ifdef CONFIG_COMPACTION
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struct work_struct free_work;
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#endif
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/* protect page/zspage migration */
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rwlock_t migrate_lock;
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spinlock_t lock;
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};
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struct zspage {
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@ -355,7 +352,7 @@ static void cache_free_zspage(struct zs_pool *pool, struct zspage *zspage)
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kmem_cache_free(pool->zspage_cachep, zspage);
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}
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/* class->lock(which owns the handle) synchronizes races */
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/* pool->lock(which owns the handle) synchronizes races */
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static void record_obj(unsigned long handle, unsigned long obj)
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{
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*(unsigned long *)handle = obj;
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@ -452,7 +449,7 @@ static __maybe_unused int is_first_page(struct page *page)
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return PagePrivate(page);
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}
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/* Protected by class->lock */
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/* Protected by pool->lock */
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static inline int get_zspage_inuse(struct zspage *zspage)
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{
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return zspage->inuse;
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@ -597,13 +594,13 @@ static int zs_stats_size_show(struct seq_file *s, void *v)
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if (class->index != i)
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continue;
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spin_lock(&class->lock);
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spin_lock(&pool->lock);
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class_almost_full = zs_stat_get(class, CLASS_ALMOST_FULL);
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class_almost_empty = zs_stat_get(class, CLASS_ALMOST_EMPTY);
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obj_allocated = zs_stat_get(class, OBJ_ALLOCATED);
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obj_used = zs_stat_get(class, OBJ_USED);
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freeable = zs_can_compact(class);
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spin_unlock(&class->lock);
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spin_unlock(&pool->lock);
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objs_per_zspage = class->objs_per_zspage;
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pages_used = obj_allocated / objs_per_zspage *
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@ -916,7 +913,7 @@ static void __free_zspage(struct zs_pool *pool, struct size_class *class,
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get_zspage_mapping(zspage, &class_idx, &fg);
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assert_spin_locked(&class->lock);
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assert_spin_locked(&pool->lock);
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VM_BUG_ON(get_zspage_inuse(zspage));
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VM_BUG_ON(fg != ZS_EMPTY);
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@ -1268,19 +1265,19 @@ void *zs_map_object(struct zs_pool *pool, unsigned long handle,
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BUG_ON(in_interrupt());
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/* It guarantees it can get zspage from handle safely */
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read_lock(&pool->migrate_lock);
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spin_lock(&pool->lock);
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obj = handle_to_obj(handle);
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obj_to_location(obj, &page, &obj_idx);
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zspage = get_zspage(page);
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/*
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* migration cannot move any zpages in this zspage. Here, class->lock
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* migration cannot move any zpages in this zspage. Here, pool->lock
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* is too heavy since callers would take some time until they calls
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* zs_unmap_object API so delegate the locking from class to zspage
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* which is smaller granularity.
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*/
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migrate_read_lock(zspage);
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read_unlock(&pool->migrate_lock);
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spin_unlock(&pool->lock);
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class = zspage_class(pool, zspage);
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off = (class->size * obj_idx) & ~PAGE_MASK;
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@ -1433,8 +1430,8 @@ unsigned long zs_malloc(struct zs_pool *pool, size_t size, gfp_t gfp)
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size += ZS_HANDLE_SIZE;
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class = pool->size_class[get_size_class_index(size)];
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/* class->lock effectively protects the zpage migration */
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spin_lock(&class->lock);
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/* pool->lock effectively protects the zpage migration */
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spin_lock(&pool->lock);
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zspage = find_get_zspage(class);
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if (likely(zspage)) {
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obj = obj_malloc(pool, zspage, handle);
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@ -1442,12 +1439,12 @@ unsigned long zs_malloc(struct zs_pool *pool, size_t size, gfp_t gfp)
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fix_fullness_group(class, zspage);
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record_obj(handle, obj);
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class_stat_inc(class, OBJ_USED, 1);
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spin_unlock(&class->lock);
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spin_unlock(&pool->lock);
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return handle;
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}
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spin_unlock(&class->lock);
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spin_unlock(&pool->lock);
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zspage = alloc_zspage(pool, class, gfp);
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if (!zspage) {
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@ -1455,7 +1452,7 @@ unsigned long zs_malloc(struct zs_pool *pool, size_t size, gfp_t gfp)
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return (unsigned long)ERR_PTR(-ENOMEM);
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}
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spin_lock(&class->lock);
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spin_lock(&pool->lock);
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obj = obj_malloc(pool, zspage, handle);
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newfg = get_fullness_group(class, zspage);
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insert_zspage(class, zspage, newfg);
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@ -1468,7 +1465,7 @@ unsigned long zs_malloc(struct zs_pool *pool, size_t size, gfp_t gfp)
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/* We completely set up zspage so mark them as movable */
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SetZsPageMovable(pool, zspage);
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spin_unlock(&class->lock);
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spin_unlock(&pool->lock);
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return handle;
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}
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@ -1512,16 +1509,14 @@ void zs_free(struct zs_pool *pool, unsigned long handle)
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return;
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/*
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* The pool->migrate_lock protects the race with zpage's migration
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* The pool->lock protects the race with zpage's migration
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* so it's safe to get the page from handle.
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*/
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read_lock(&pool->migrate_lock);
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spin_lock(&pool->lock);
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obj = handle_to_obj(handle);
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obj_to_page(obj, &f_page);
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zspage = get_zspage(f_page);
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class = zspage_class(pool, zspage);
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spin_lock(&class->lock);
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read_unlock(&pool->migrate_lock);
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obj_free(class->size, obj);
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class_stat_dec(class, OBJ_USED, 1);
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@ -1531,7 +1526,7 @@ void zs_free(struct zs_pool *pool, unsigned long handle)
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free_zspage(pool, class, zspage);
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out:
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spin_unlock(&class->lock);
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spin_unlock(&pool->lock);
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cache_free_handle(pool, handle);
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}
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EXPORT_SYMBOL_GPL(zs_free);
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@ -1888,16 +1883,12 @@ static int zs_page_migrate(struct page *newpage, struct page *page,
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pool = zspage->pool;
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/*
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* The pool migrate_lock protects the race between zpage migration
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* The pool's lock protects the race between zpage migration
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* and zs_free.
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*/
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write_lock(&pool->migrate_lock);
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spin_lock(&pool->lock);
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class = zspage_class(pool, zspage);
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/*
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* the class lock protects zpage alloc/free in the zspage.
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*/
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spin_lock(&class->lock);
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/* the migrate_write_lock protects zpage access via zs_map_object */
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migrate_write_lock(zspage);
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@ -1927,10 +1918,9 @@ static int zs_page_migrate(struct page *newpage, struct page *page,
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replace_sub_page(class, zspage, newpage, page);
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/*
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* Since we complete the data copy and set up new zspage structure,
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* it's okay to release migration_lock.
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* it's okay to release the pool's lock.
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*/
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write_unlock(&pool->migrate_lock);
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spin_unlock(&class->lock);
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spin_unlock(&pool->lock);
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dec_zspage_isolation(zspage);
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migrate_write_unlock(zspage);
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@ -1985,9 +1975,9 @@ static void async_free_zspage(struct work_struct *work)
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if (class->index != i)
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continue;
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spin_lock(&class->lock);
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spin_lock(&pool->lock);
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list_splice_init(&class->fullness_list[ZS_EMPTY], &free_pages);
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spin_unlock(&class->lock);
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spin_unlock(&pool->lock);
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}
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list_for_each_entry_safe(zspage, tmp, &free_pages, list) {
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@ -1997,9 +1987,9 @@ static void async_free_zspage(struct work_struct *work)
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get_zspage_mapping(zspage, &class_idx, &fullness);
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VM_BUG_ON(fullness != ZS_EMPTY);
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class = pool->size_class[class_idx];
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spin_lock(&class->lock);
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spin_lock(&pool->lock);
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__free_zspage(pool, class, zspage);
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spin_unlock(&class->lock);
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spin_unlock(&pool->lock);
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}
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};
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@ -2060,10 +2050,11 @@ static unsigned long __zs_compact(struct zs_pool *pool,
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struct zspage *dst_zspage = NULL;
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unsigned long pages_freed = 0;
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/* protect the race between zpage migration and zs_free */
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write_lock(&pool->migrate_lock);
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/* protect zpage allocation/free */
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spin_lock(&class->lock);
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/*
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* protect the race between zpage migration and zs_free
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* as well as zpage allocation/free
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*/
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spin_lock(&pool->lock);
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while ((src_zspage = isolate_zspage(class, true))) {
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/* protect someone accessing the zspage(i.e., zs_map_object) */
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migrate_write_lock(src_zspage);
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@ -2088,7 +2079,7 @@ static unsigned long __zs_compact(struct zs_pool *pool,
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putback_zspage(class, dst_zspage);
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migrate_write_unlock(dst_zspage);
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dst_zspage = NULL;
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if (rwlock_is_contended(&pool->migrate_lock))
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if (spin_is_contended(&pool->lock))
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break;
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}
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@ -2105,11 +2096,9 @@ static unsigned long __zs_compact(struct zs_pool *pool,
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pages_freed += class->pages_per_zspage;
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} else
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migrate_write_unlock(src_zspage);
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spin_unlock(&class->lock);
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write_unlock(&pool->migrate_lock);
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spin_unlock(&pool->lock);
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cond_resched();
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write_lock(&pool->migrate_lock);
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spin_lock(&class->lock);
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spin_lock(&pool->lock);
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}
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if (src_zspage) {
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@ -2117,8 +2106,7 @@ static unsigned long __zs_compact(struct zs_pool *pool,
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migrate_write_unlock(src_zspage);
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}
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spin_unlock(&class->lock);
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write_unlock(&pool->migrate_lock);
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spin_unlock(&pool->lock);
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return pages_freed;
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}
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@ -2221,7 +2209,7 @@ struct zs_pool *zs_create_pool(const char *name)
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return NULL;
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init_deferred_free(pool);
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rwlock_init(&pool->migrate_lock);
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spin_lock_init(&pool->lock);
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pool->name = kstrdup(name, GFP_KERNEL);
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if (!pool->name)
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@ -2292,7 +2280,6 @@ struct zs_pool *zs_create_pool(const char *name)
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class->index = i;
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class->pages_per_zspage = pages_per_zspage;
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class->objs_per_zspage = objs_per_zspage;
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spin_lock_init(&class->lock);
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pool->size_class[i] = class;
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for (fullness = ZS_EMPTY; fullness < NR_ZS_FULLNESS;
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fullness++)
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