1 /* SPDX-License-Identifier: GPL-2.0 */ 1 /* SPDX-License-Identifier: GPL-2.0 */ 2 #ifndef _LINUX_SHRINKER_H 2 #ifndef _LINUX_SHRINKER_H 3 #define _LINUX_SHRINKER_H 3 #define _LINUX_SHRINKER_H 4 4 5 #include <linux/atomic.h> << 6 #include <linux/types.h> << 7 #include <linux/refcount.h> << 8 #include <linux/completion.h> << 9 << 10 #define SHRINKER_UNIT_BITS BITS_PER_LONG << 11 << 12 /* << 13 * Bitmap and deferred work of shrinker::id co << 14 * shrinkers, which have elements charged to t << 15 */ << 16 struct shrinker_info_unit { << 17 atomic_long_t nr_deferred[SHRINKER_UNI << 18 DECLARE_BITMAP(map, SHRINKER_UNIT_BITS << 19 }; << 20 << 21 struct shrinker_info { << 22 struct rcu_head rcu; << 23 int map_nr_max; << 24 struct shrinker_info_unit *unit[]; << 25 }; << 26 << 27 /* 5 /* 28 * This struct is used to pass information fro 6 * This struct is used to pass information from page reclaim to the shrinkers. 29 * We consolidate the values for easier extens 7 * We consolidate the values for easier extension later. 30 * 8 * 31 * The 'gfpmask' refers to the allocation we a 9 * The 'gfpmask' refers to the allocation we are currently trying to 32 * fulfil. 10 * fulfil. 33 */ 11 */ 34 struct shrink_control { 12 struct shrink_control { 35 gfp_t gfp_mask; 13 gfp_t gfp_mask; 36 14 37 /* current node being shrunk (for NUMA 15 /* current node being shrunk (for NUMA aware shrinkers) */ 38 int nid; 16 int nid; 39 17 40 /* 18 /* 41 * How many objects scan_objects shoul 19 * How many objects scan_objects should scan and try to reclaim. 42 * This is reset before every call, so 20 * This is reset before every call, so it is safe for callees 43 * to modify. 21 * to modify. 44 */ 22 */ 45 unsigned long nr_to_scan; 23 unsigned long nr_to_scan; 46 24 47 /* 25 /* 48 * How many objects did scan_objects p 26 * How many objects did scan_objects process? 49 * This defaults to nr_to_scan before 27 * This defaults to nr_to_scan before every call, but the callee 50 * should track its actual progress. 28 * should track its actual progress. 51 */ 29 */ 52 unsigned long nr_scanned; 30 unsigned long nr_scanned; 53 31 54 /* current memcg being shrunk (for mem 32 /* current memcg being shrunk (for memcg aware shrinkers) */ 55 struct mem_cgroup *memcg; 33 struct mem_cgroup *memcg; 56 }; 34 }; 57 35 58 #define SHRINK_STOP (~0UL) 36 #define SHRINK_STOP (~0UL) 59 #define SHRINK_EMPTY (~0UL - 1) 37 #define SHRINK_EMPTY (~0UL - 1) 60 /* 38 /* 61 * A callback you can register to apply pressu 39 * A callback you can register to apply pressure to ageable caches. 62 * 40 * 63 * @count_objects should return the number of 41 * @count_objects should return the number of freeable items in the cache. If 64 * there are no objects to free, it should ret 42 * there are no objects to free, it should return SHRINK_EMPTY, while 0 is 65 * returned in cases of the number of freeable 43 * returned in cases of the number of freeable items cannot be determined 66 * or shrinker should skip this cache for this 44 * or shrinker should skip this cache for this time (e.g., their number 67 * is below shrinkable limit). No deadlock che 45 * is below shrinkable limit). No deadlock checks should be done during the 68 * count callback - the shrinker relies on agg 46 * count callback - the shrinker relies on aggregating scan counts that couldn't 69 * be executed due to potential deadlocks to b 47 * be executed due to potential deadlocks to be run at a later call when the 70 * deadlock condition is no longer pending. 48 * deadlock condition is no longer pending. 71 * 49 * 72 * @scan_objects will only be called if @count 50 * @scan_objects will only be called if @count_objects returned a non-zero 73 * value for the number of freeable objects. T 51 * value for the number of freeable objects. The callout should scan the cache 74 * and attempt to free items from the cache. I 52 * and attempt to free items from the cache. It should then return the number 75 * of objects freed during the scan, or SHRINK 53 * of objects freed during the scan, or SHRINK_STOP if progress cannot be made 76 * due to potential deadlocks. If SHRINK_STOP 54 * due to potential deadlocks. If SHRINK_STOP is returned, then no further 77 * attempts to call the @scan_objects will be 55 * attempts to call the @scan_objects will be made from the current reclaim 78 * context. 56 * context. 79 * 57 * 80 * @flags determine the shrinker abilities, li 58 * @flags determine the shrinker abilities, like numa awareness 81 */ 59 */ 82 struct shrinker { 60 struct shrinker { 83 unsigned long (*count_objects)(struct 61 unsigned long (*count_objects)(struct shrinker *, 84 struct 62 struct shrink_control *sc); 85 unsigned long (*scan_objects)(struct s 63 unsigned long (*scan_objects)(struct shrinker *, 86 struct s 64 struct shrink_control *sc); 87 65 88 long batch; /* reclaim batch size, 66 long batch; /* reclaim batch size, 0 = default */ 89 int seeks; /* seeks to recreate a 67 int seeks; /* seeks to recreate an obj */ 90 unsigned flags; 68 unsigned flags; 91 69 92 /* << 93 * The reference count of this shrinke << 94 * initial refcount of 1, then the loo << 95 * to use it via shrinker_try_get(). L << 96 * the initial refcount will be discar << 97 * asynchronously via RCU after its re << 98 */ << 99 refcount_t refcount; << 100 struct completion done; /* use to wait << 101 struct rcu_head rcu; << 102 << 103 void *private_data; << 104 << 105 /* These are for internal use */ 70 /* These are for internal use */ 106 struct list_head list; 71 struct list_head list; 107 #ifdef CONFIG_MEMCG 72 #ifdef CONFIG_MEMCG 108 /* ID in shrinker_idr */ 73 /* ID in shrinker_idr */ 109 int id; 74 int id; 110 #endif 75 #endif 111 #ifdef CONFIG_SHRINKER_DEBUG << 112 int debugfs_id; << 113 const char *name; << 114 struct dentry *debugfs_entry; << 115 #endif << 116 /* objs pending delete, per node */ 76 /* objs pending delete, per node */ 117 atomic_long_t *nr_deferred; 77 atomic_long_t *nr_deferred; 118 }; 78 }; 119 #define DEFAULT_SEEKS 2 /* A good number if yo 79 #define DEFAULT_SEEKS 2 /* A good number if you don't know better. */ 120 80 121 /* Internal flags */ !! 81 /* Flags */ 122 #define SHRINKER_REGISTERED BIT(0) !! 82 #define SHRINKER_REGISTERED (1 << 0) 123 #define SHRINKER_ALLOCATED BIT(1) !! 83 #define SHRINKER_NUMA_AWARE (1 << 1) 124 !! 84 #define SHRINKER_MEMCG_AWARE (1 << 2) 125 /* Flags for users to use */ << 126 #define SHRINKER_NUMA_AWARE BIT(2) << 127 #define SHRINKER_MEMCG_AWARE BIT(3) << 128 /* 85 /* 129 * It just makes sense when the shrinker is al 86 * It just makes sense when the shrinker is also MEMCG_AWARE for now, 130 * non-MEMCG_AWARE shrinker should not have th 87 * non-MEMCG_AWARE shrinker should not have this flag set. 131 */ 88 */ 132 #define SHRINKER_NONSLAB BIT(4) !! 89 #define SHRINKER_NONSLAB (1 << 3) 133 90 134 __printf(2, 3) !! 91 extern int prealloc_shrinker(struct shrinker *shrinker); 135 struct shrinker *shrinker_alloc(unsigned int f !! 92 extern void register_shrinker_prepared(struct shrinker *shrinker); 136 void shrinker_register(struct shrinker *shrink !! 93 extern int register_shrinker(struct shrinker *shrinker); 137 void shrinker_free(struct shrinker *shrinker); !! 94 extern void unregister_shrinker(struct shrinker *shrinker); 138 !! 95 extern void free_prealloced_shrinker(struct shrinker *shrinker); 139 static inline bool shrinker_try_get(struct shr !! 96 extern void synchronize_shrinkers(void); 140 { !! 97 #endif 141 return refcount_inc_not_zero(&shrinker << 142 } << 143 << 144 static inline void shrinker_put(struct shrinke << 145 { << 146 if (refcount_dec_and_test(&shrinker->r << 147 complete(&shrinker->done); << 148 } << 149 << 150 #ifdef CONFIG_SHRINKER_DEBUG << 151 extern int __printf(2, 3) shrinker_debugfs_ren << 152 << 153 #else /* CONFIG_SHRINKER_DEBUG */ << 154 static inline __printf(2, 3) << 155 int shrinker_debugfs_rename(struct shrinker *s << 156 { << 157 return 0; << 158 } << 159 #endif /* CONFIG_SHRINKER_DEBUG */ << 160 #endif /* _LINUX_SHRINKER_H */ << 161 98
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