/* SPDX-License-Identifier: GPL-2.0 */ #ifndef _MM_SWAP_TABLE_H #define _MM_SWAP_TABLE_H #include #include #include "swap.h" /* A typical flat array in each cluster as swap table */ struct swap_table { atomic_long_t entries[SWAPFILE_CLUSTER]; }; /* For storing memcg private id */ struct swap_memcg_table { unsigned short id[SWAPFILE_CLUSTER]; }; #define SWP_TABLE_USE_PAGE (sizeof(struct swap_table) == PAGE_SIZE) /* * A swap table entry represents the status of a swap slot on a swap * (physical or virtual) device. The swap table in each cluster is a * 1:1 map of the swap slots in this cluster. * * Swap table entry type and bits layouts: * * NULL: |---------------- 0 ---------------| - Free slot * Shadow: |SWAP_COUNT|Z|---- SHADOW_VAL ---|1| - Swapped out slot * PFN: |SWAP_COUNT|Z|------ PFN -------|10| - Cached slot * Pointer: |----------- Pointer ----------|100| - (Unused) * Bad: |------------- 1 -------------|1000| - Bad slot * * COUNT is `SWP_TB_COUNT_BITS` long, Z is the `SWP_TB_ZERO_FLAG` bit, * and together they form the `SWP_TB_FLAGS_BITS` wide flags field. * Each entry is an atomic long. * * Usages: * * - NULL: Swap slot is unused, could be allocated. * * - Shadow: Swap slot is used and not cached (usually swapped out). It reuses * the XA_VALUE format to be compatible with working set shadows. SHADOW_VAL * part might be all 0 if the working shadow info is absent. In such a case, * we still want to keep the shadow format as a placeholder. * * Memcg ID is embedded in SHADOW_VAL. * * - PFN: Swap slot is in use, and cached. Memcg info is recorded on the page * struct. * * - Pointer: Unused yet. `0b100` is reserved for potential pointer usage * because only the lower three bits can be used as a marker for 8 bytes * aligned pointers. * * - Bad: Swap slot is reserved, protects swap header or holes on swap devices. */ /* NULL Entry, all 0 */ #define SWP_TB_NULL 0UL /* Swapped out: shadow */ #define SWP_TB_SHADOW_MARK 0b1UL /* Cached: PFN */ #define SWP_TB_PFN_BITS (SWAP_CACHE_PFN_BITS + SWAP_CACHE_PFN_MARK_BITS) #define SWP_TB_PFN_MARK 0b10UL #define SWP_TB_PFN_MARK_MASK (BIT(SWAP_CACHE_PFN_MARK_BITS) - 1) /* Flags: For PFN or shadow, contains SWAP_COUNT, width changes */ #define SWP_TB_FLAGS_BITS min(5, BITS_PER_LONG - SWP_TB_PFN_BITS) #define SWP_TB_COUNT_BITS (SWP_TB_FLAGS_BITS - SWAP_TABLE_HAS_ZEROFLAG) #define SWP_TB_FLAGS_MASK (~((~0UL) >> SWP_TB_FLAGS_BITS)) #define SWP_TB_COUNT_MASK (~((~0UL) >> SWP_TB_COUNT_BITS)) #define SWP_TB_FLAGS_SHIFT (BITS_PER_LONG - SWP_TB_FLAGS_BITS) #define SWP_TB_COUNT_SHIFT (BITS_PER_LONG - SWP_TB_COUNT_BITS) #define SWP_TB_COUNT_MAX ((1 << SWP_TB_COUNT_BITS) - 1) /* The first flag is zero bit (SWAP_TABLE_HAS_ZEROFLAG) */ #define SWP_TB_ZERO_FLAG BIT(BITS_PER_LONG - SWP_TB_FLAGS_BITS) /* Bad slot: ends with 0b1000 and rests of bits are all 1 */ #define SWP_TB_BAD ((~0UL) << 3) /* Macro for shadow offset calculation */ #define SWAP_COUNT_SHIFT SWP_TB_FLAGS_BITS /* * Helpers for casting one type of info into a swap table entry. */ static inline unsigned long null_to_swp_tb(void) { BUILD_BUG_ON(sizeof(unsigned long) != sizeof(atomic_long_t)); return 0; } static inline unsigned long __count_to_swp_tb(unsigned char count) { /* * At least three values are needed to distinguish free (0), * used (count > 0 && count < SWP_TB_COUNT_MAX), and * overflow (count == SWP_TB_COUNT_MAX). */ BUILD_BUG_ON(SWP_TB_COUNT_BITS < SWAP_COUNT_MIN_BITS); VM_WARN_ON(count > SWP_TB_COUNT_MAX); return ((unsigned long)count) << SWP_TB_COUNT_SHIFT; } static inline unsigned long __flags_to_swp_tb(unsigned char flags) { BUILD_BUG_ON(SWP_TB_FLAGS_BITS > BITS_PER_BYTE); VM_WARN_ON(flags >> SWP_TB_FLAGS_BITS); return ((unsigned long)flags) << SWP_TB_FLAGS_SHIFT; } static inline unsigned long pfn_to_swp_tb(unsigned long pfn, unsigned char flags) { unsigned long swp_tb; BUILD_BUG_ON(sizeof(unsigned long) != sizeof(void *)); BUILD_BUG_ON(SWAP_CACHE_PFN_BITS > (BITS_PER_LONG - SWAP_CACHE_PFN_MARK_BITS - SWP_TB_FLAGS_BITS)); swp_tb = (pfn << SWAP_CACHE_PFN_MARK_BITS) | SWP_TB_PFN_MARK; VM_WARN_ON_ONCE(swp_tb & SWP_TB_FLAGS_MASK); return swp_tb | __flags_to_swp_tb(flags); } static inline unsigned long folio_to_swp_tb(struct folio *folio, unsigned char flags) { return pfn_to_swp_tb(folio_pfn(folio), flags); } static inline unsigned long shadow_to_swp_tb(void *shadow, unsigned char flags) { BUILD_BUG_ON((BITS_PER_XA_VALUE + 1) != BITS_PER_BYTE * sizeof(unsigned long)); BUILD_BUG_ON((unsigned long)xa_mk_value(0) != SWP_TB_SHADOW_MARK); VM_WARN_ON_ONCE(shadow && !xa_is_value(shadow)); VM_WARN_ON_ONCE(shadow && ((unsigned long)shadow & SWP_TB_FLAGS_MASK)); return (unsigned long)shadow | SWP_TB_SHADOW_MARK | __flags_to_swp_tb(flags); } /* * Helpers for swap table entry type checking. */ static inline bool swp_tb_is_null(unsigned long swp_tb) { return !swp_tb; } static inline bool swp_tb_is_folio(unsigned long swp_tb) { return ((swp_tb & SWP_TB_PFN_MARK_MASK) == SWP_TB_PFN_MARK); } static inline bool swp_tb_is_shadow(unsigned long swp_tb) { return xa_is_value((void *)swp_tb); } static inline bool swp_tb_is_bad(unsigned long swp_tb) { return swp_tb == SWP_TB_BAD; } static inline bool swp_tb_is_countable(unsigned long swp_tb) { return (swp_tb_is_shadow(swp_tb) || swp_tb_is_folio(swp_tb) || swp_tb_is_null(swp_tb)); } /* * Helpers for retrieving info from swap table. */ static inline struct folio *swp_tb_to_folio(unsigned long swp_tb) { VM_WARN_ON(!swp_tb_is_folio(swp_tb)); return pfn_folio((swp_tb & ~SWP_TB_FLAGS_MASK) >> SWAP_CACHE_PFN_MARK_BITS); } static inline void *swp_tb_to_shadow(unsigned long swp_tb) { VM_WARN_ON(!swp_tb_is_shadow(swp_tb)); /* No shift needed, xa_value is stored as it is in the lower bits. */ return (void *)(swp_tb & ~SWP_TB_FLAGS_MASK); } static inline unsigned char __swp_tb_get_count(unsigned long swp_tb) { VM_WARN_ON(!swp_tb_is_countable(swp_tb)); return ((swp_tb & SWP_TB_COUNT_MASK) >> SWP_TB_COUNT_SHIFT); } static inline unsigned char __swp_tb_get_flags(unsigned long swp_tb) { VM_WARN_ON(!swp_tb_is_countable(swp_tb)); return ((swp_tb & SWP_TB_FLAGS_MASK) >> SWP_TB_FLAGS_SHIFT); } static inline int swp_tb_get_count(unsigned long swp_tb) { if (swp_tb_is_countable(swp_tb)) return __swp_tb_get_count(swp_tb); return -EINVAL; } static inline unsigned long __swp_tb_mk_count(unsigned long swp_tb, int count) { return ((swp_tb & ~SWP_TB_COUNT_MASK) | __count_to_swp_tb(count)); } /* * Helpers for accessing or modifying the swap table of a cluster, * the swap cluster must be locked. */ static inline void __swap_table_set(struct swap_cluster_info *ci, unsigned int off, unsigned long swp_tb) { atomic_long_t *table = rcu_dereference_protected(ci->table, true); lockdep_assert_held(&ci->lock); VM_WARN_ON_ONCE(off >= SWAPFILE_CLUSTER); atomic_long_set(&table[off], swp_tb); } static inline unsigned long __swap_table_xchg(struct swap_cluster_info *ci, unsigned int off, unsigned long swp_tb) { atomic_long_t *table = rcu_dereference_protected(ci->table, true); lockdep_assert_held(&ci->lock); VM_WARN_ON_ONCE(off >= SWAPFILE_CLUSTER); /* Ordering is guaranteed by cluster lock, relax */ return atomic_long_xchg_relaxed(&table[off], swp_tb); } static inline unsigned long __swap_table_get(struct swap_cluster_info *ci, unsigned int off) { atomic_long_t *table; VM_WARN_ON_ONCE(off >= SWAPFILE_CLUSTER); table = rcu_dereference_check(ci->table, lockdep_is_held(&ci->lock)); return atomic_long_read(&table[off]); } static inline unsigned long swap_table_get(struct swap_cluster_info *ci, unsigned int off) { atomic_long_t *table; unsigned long swp_tb; VM_WARN_ON_ONCE(off >= SWAPFILE_CLUSTER); rcu_read_lock(); table = rcu_dereference(ci->table); swp_tb = table ? atomic_long_read(&table[off]) : null_to_swp_tb(); rcu_read_unlock(); return swp_tb; } static inline void __swap_table_set_zero(struct swap_cluster_info *ci, unsigned int ci_off) { #if SWAP_TABLE_HAS_ZEROFLAG unsigned long swp_tb = __swap_table_get(ci, ci_off); BUILD_BUG_ON(SWP_TB_ZERO_FLAG & ~SWP_TB_FLAGS_MASK); VM_WARN_ON(!swp_tb_is_countable(swp_tb)); swp_tb |= SWP_TB_ZERO_FLAG; __swap_table_set(ci, ci_off, swp_tb); #else lockdep_assert_held(&ci->lock); __set_bit(ci_off, ci->zero_bitmap); #endif } static inline bool __swap_table_test_zero(struct swap_cluster_info *ci, unsigned int ci_off) { #if SWAP_TABLE_HAS_ZEROFLAG unsigned long swp_tb = __swap_table_get(ci, ci_off); VM_WARN_ON(!swp_tb_is_countable(swp_tb)); return !!(swp_tb & SWP_TB_ZERO_FLAG); #else return test_bit(ci_off, ci->zero_bitmap); #endif } static inline void __swap_table_clear_zero(struct swap_cluster_info *ci, unsigned int ci_off) { #if SWAP_TABLE_HAS_ZEROFLAG unsigned long swp_tb = __swap_table_get(ci, ci_off); VM_WARN_ON(!swp_tb_is_countable(swp_tb)); swp_tb &= ~SWP_TB_ZERO_FLAG; __swap_table_set(ci, ci_off, swp_tb); #else lockdep_assert_held(&ci->lock); __clear_bit(ci_off, ci->zero_bitmap); #endif } #ifdef CONFIG_MEMCG static inline void __swap_cgroup_set(struct swap_cluster_info *ci, unsigned int ci_off, unsigned long nr, unsigned short id) { lockdep_assert_held(&ci->lock); VM_WARN_ON_ONCE(ci_off >= SWAPFILE_CLUSTER); if (WARN_ON_ONCE(!ci->memcg_table)) return; do { ci->memcg_table->id[ci_off++] = id; } while (--nr); } static inline unsigned short __swap_cgroup_get(struct swap_cluster_info *ci, unsigned int ci_off) { lockdep_assert_held(&ci->lock); VM_WARN_ON_ONCE(ci_off >= SWAPFILE_CLUSTER); if (unlikely(!ci->memcg_table)) return 0; return ci->memcg_table->id[ci_off]; } static inline unsigned short __swap_cgroup_clear(struct swap_cluster_info *ci, unsigned int ci_off, unsigned long nr) { unsigned short old = __swap_cgroup_get(ci, ci_off); if (!old) return 0; do { VM_WARN_ON_ONCE(ci->memcg_table->id[ci_off] != old); ci->memcg_table->id[ci_off++] = 0; } while (--nr); return old; } #else static inline void __swap_cgroup_set(struct swap_cluster_info *ci, unsigned int ci_off, unsigned long nr, unsigned short id) { } static inline unsigned short __swap_cgroup_get(struct swap_cluster_info *ci, unsigned int ci_off) { return 0; } static inline unsigned short __swap_cgroup_clear(struct swap_cluster_info *ci, unsigned int ci_off, unsigned long nr) { return 0; } #endif #endif