mirror of
https://github.com/AuxXxilium/linux_dsm_epyc7002.git
synced 2024-11-24 05:20:53 +07:00
XArray: Redesign xa_alloc API
It was too easy to forget to initialise the start index. Add an xa_limit data structure which can be used to pass min & max, and define a couple of special values for common cases. Also add some more tests cribbed from the IDR test suite. Change the return value from -ENOSPC to -EBUSY to match xa_insert(). Signed-off-by: Matthew Wilcox <willy@infradead.org>
This commit is contained in:
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@ -200,6 +200,27 @@ static inline int xa_err(void *entry)
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return 0;
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}
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/**
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* struct xa_limit - Represents a range of IDs.
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* @min: The lowest ID to allocate (inclusive).
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* @max: The maximum ID to allocate (inclusive).
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*
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* This structure is used either directly or via the XA_LIMIT() macro
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* to communicate the range of IDs that are valid for allocation.
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* Two common ranges are predefined for you:
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* * xa_limit_32b - [0 - UINT_MAX]
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* * xa_limit_31b - [0 - INT_MAX]
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*/
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struct xa_limit {
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u32 max;
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u32 min;
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};
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#define XA_LIMIT(_min, _max) (struct xa_limit) { .min = _min, .max = _max }
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#define xa_limit_32b XA_LIMIT(0, UINT_MAX)
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#define xa_limit_31b XA_LIMIT(0, INT_MAX)
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typedef unsigned __bitwise xa_mark_t;
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#define XA_MARK_0 ((__force xa_mark_t)0U)
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#define XA_MARK_1 ((__force xa_mark_t)1U)
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@ -476,7 +497,8 @@ void *__xa_store(struct xarray *, unsigned long index, void *entry, gfp_t);
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void *__xa_cmpxchg(struct xarray *, unsigned long index, void *old,
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void *entry, gfp_t);
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int __xa_insert(struct xarray *, unsigned long index, void *entry, gfp_t);
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int __xa_alloc(struct xarray *, u32 *id, u32 max, void *entry, gfp_t);
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int __must_check __xa_alloc(struct xarray *, u32 *id, void *entry,
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struct xa_limit, gfp_t);
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int __xa_reserve(struct xarray *, unsigned long index, gfp_t);
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void __xa_set_mark(struct xarray *, unsigned long index, xa_mark_t);
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void __xa_clear_mark(struct xarray *, unsigned long index, xa_mark_t);
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@ -753,26 +775,26 @@ static inline int xa_insert_irq(struct xarray *xa, unsigned long index,
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* xa_alloc() - Find somewhere to store this entry in the XArray.
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* @xa: XArray.
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* @id: Pointer to ID.
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* @max: Maximum ID to allocate (inclusive).
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* @entry: New entry.
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* @limit: Range of ID to allocate.
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* @gfp: Memory allocation flags.
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*
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* Allocates an unused ID in the range specified by @id and @max.
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* Updates the @id pointer with the index, then stores the entry at that
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* index. A concurrent lookup will not see an uninitialised @id.
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* Finds an empty entry in @xa between @limit.min and @limit.max,
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* stores the index into the @id pointer, then stores the entry at
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* that index. A concurrent lookup will not see an uninitialised @id.
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*
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* Context: Process context. Takes and releases the xa_lock. May sleep if
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* Context: Any context. Takes and releases the xa_lock. May sleep if
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* the @gfp flags permit.
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* Return: 0 on success, -ENOMEM if memory allocation fails or -ENOSPC if
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* there is no more space in the XArray.
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* Return: 0 on success, -ENOMEM if memory could not be allocated or
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* -EBUSY if there are no free entries in @limit.
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*/
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static inline int xa_alloc(struct xarray *xa, u32 *id, u32 max, void *entry,
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gfp_t gfp)
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static inline __must_check int xa_alloc(struct xarray *xa, u32 *id,
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void *entry, struct xa_limit limit, gfp_t gfp)
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{
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int err;
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xa_lock(xa);
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err = __xa_alloc(xa, id, max, entry, gfp);
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err = __xa_alloc(xa, id, entry, limit, gfp);
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xa_unlock(xa);
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return err;
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@ -782,26 +804,26 @@ static inline int xa_alloc(struct xarray *xa, u32 *id, u32 max, void *entry,
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* xa_alloc_bh() - Find somewhere to store this entry in the XArray.
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* @xa: XArray.
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* @id: Pointer to ID.
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* @max: Maximum ID to allocate (inclusive).
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* @entry: New entry.
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* @limit: Range of ID to allocate.
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* @gfp: Memory allocation flags.
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*
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* Allocates an unused ID in the range specified by @id and @max.
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* Updates the @id pointer with the index, then stores the entry at that
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* index. A concurrent lookup will not see an uninitialised @id.
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* Finds an empty entry in @xa between @limit.min and @limit.max,
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* stores the index into the @id pointer, then stores the entry at
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* that index. A concurrent lookup will not see an uninitialised @id.
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*
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* Context: Any context. Takes and releases the xa_lock while
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* disabling softirqs. May sleep if the @gfp flags permit.
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* Return: 0 on success, -ENOMEM if memory allocation fails or -ENOSPC if
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* there is no more space in the XArray.
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* Return: 0 on success, -ENOMEM if memory could not be allocated or
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* -EBUSY if there are no free entries in @limit.
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*/
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static inline int xa_alloc_bh(struct xarray *xa, u32 *id, u32 max, void *entry,
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gfp_t gfp)
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static inline int __must_check xa_alloc_bh(struct xarray *xa, u32 *id,
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void *entry, struct xa_limit limit, gfp_t gfp)
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{
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int err;
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xa_lock_bh(xa);
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err = __xa_alloc(xa, id, max, entry, gfp);
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err = __xa_alloc(xa, id, entry, limit, gfp);
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xa_unlock_bh(xa);
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return err;
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@ -811,26 +833,26 @@ static inline int xa_alloc_bh(struct xarray *xa, u32 *id, u32 max, void *entry,
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* xa_alloc_irq() - Find somewhere to store this entry in the XArray.
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* @xa: XArray.
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* @id: Pointer to ID.
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* @max: Maximum ID to allocate (inclusive).
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* @entry: New entry.
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* @limit: Range of ID to allocate.
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* @gfp: Memory allocation flags.
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*
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* Allocates an unused ID in the range specified by @id and @max.
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* Updates the @id pointer with the index, then stores the entry at that
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* index. A concurrent lookup will not see an uninitialised @id.
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* Finds an empty entry in @xa between @limit.min and @limit.max,
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* stores the index into the @id pointer, then stores the entry at
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* that index. A concurrent lookup will not see an uninitialised @id.
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*
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* Context: Process context. Takes and releases the xa_lock while
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* disabling interrupts. May sleep if the @gfp flags permit.
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* Return: 0 on success, -ENOMEM if memory allocation fails or -ENOSPC if
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* there is no more space in the XArray.
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* Return: 0 on success, -ENOMEM if memory could not be allocated or
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* -EBUSY if there are no free entries in @limit.
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*/
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static inline int xa_alloc_irq(struct xarray *xa, u32 *id, u32 max, void *entry,
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gfp_t gfp)
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static inline int __must_check xa_alloc_irq(struct xarray *xa, u32 *id,
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void *entry, struct xa_limit limit, gfp_t gfp)
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{
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int err;
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xa_lock_irq(xa);
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err = __xa_alloc(xa, id, max, entry, gfp);
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err = __xa_alloc(xa, id, entry, limit, gfp);
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xa_unlock_irq(xa);
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return err;
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@ -40,9 +40,9 @@ static void *xa_store_index(struct xarray *xa, unsigned long index, gfp_t gfp)
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static void xa_alloc_index(struct xarray *xa, unsigned long index, gfp_t gfp)
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{
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u32 id = 0;
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u32 id;
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XA_BUG_ON(xa, xa_alloc(xa, &id, UINT_MAX, xa_mk_index(index),
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XA_BUG_ON(xa, xa_alloc(xa, &id, xa_mk_index(index), xa_limit_32b,
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gfp) != 0);
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XA_BUG_ON(xa, id != index);
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}
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@ -640,28 +640,81 @@ static noinline void check_xa_alloc_1(struct xarray *xa, unsigned int base)
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xa_destroy(xa);
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/* Check that we fail properly at the limit of allocation */
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id = 0xfffffffeU;
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XA_BUG_ON(xa, xa_alloc(xa, &id, UINT_MAX, xa_mk_index(id),
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XA_BUG_ON(xa, xa_alloc(xa, &id, xa_mk_index(UINT_MAX - 1),
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XA_LIMIT(UINT_MAX - 1, UINT_MAX),
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GFP_KERNEL) != 0);
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XA_BUG_ON(xa, id != 0xfffffffeU);
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XA_BUG_ON(xa, xa_alloc(xa, &id, UINT_MAX, xa_mk_index(id),
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XA_BUG_ON(xa, xa_alloc(xa, &id, xa_mk_index(UINT_MAX),
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XA_LIMIT(UINT_MAX - 1, UINT_MAX),
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GFP_KERNEL) != 0);
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XA_BUG_ON(xa, id != 0xffffffffU);
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XA_BUG_ON(xa, xa_alloc(xa, &id, UINT_MAX, xa_mk_index(id),
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GFP_KERNEL) != -ENOSPC);
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XA_BUG_ON(xa, id != 0xffffffffU);
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id = 3;
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XA_BUG_ON(xa, xa_alloc(xa, &id, xa_mk_index(0),
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XA_LIMIT(UINT_MAX - 1, UINT_MAX),
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GFP_KERNEL) != -EBUSY);
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XA_BUG_ON(xa, id != 3);
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xa_destroy(xa);
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id = 10;
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XA_BUG_ON(xa, xa_alloc(xa, &id, 5, xa_mk_index(id),
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GFP_KERNEL) != -ENOSPC);
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XA_BUG_ON(xa, xa_alloc(xa, &id, xa_mk_index(10), XA_LIMIT(10, 5),
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GFP_KERNEL) != -EBUSY);
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XA_BUG_ON(xa, xa_store_index(xa, 3, GFP_KERNEL) != 0);
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XA_BUG_ON(xa, xa_alloc(xa, &id, 5, xa_mk_index(id),
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GFP_KERNEL) != -ENOSPC);
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XA_BUG_ON(xa, xa_alloc(xa, &id, xa_mk_index(10), XA_LIMIT(10, 5),
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GFP_KERNEL) != -EBUSY);
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xa_erase_index(xa, 3);
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XA_BUG_ON(xa, !xa_empty(xa));
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}
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static noinline void check_xa_alloc_2(struct xarray *xa, unsigned int base)
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{
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unsigned int i, id;
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unsigned long index;
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void *entry;
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/* Allocate and free a NULL and check xa_empty() behaves */
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XA_BUG_ON(xa, !xa_empty(xa));
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XA_BUG_ON(xa, xa_alloc(xa, &id, NULL, xa_limit_32b, GFP_KERNEL) != 0);
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XA_BUG_ON(xa, id != base);
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XA_BUG_ON(xa, xa_empty(xa));
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XA_BUG_ON(xa, xa_erase(xa, id) != NULL);
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XA_BUG_ON(xa, !xa_empty(xa));
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/* Ditto, but check destroy instead of erase */
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XA_BUG_ON(xa, !xa_empty(xa));
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XA_BUG_ON(xa, xa_alloc(xa, &id, NULL, xa_limit_32b, GFP_KERNEL) != 0);
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XA_BUG_ON(xa, id != base);
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XA_BUG_ON(xa, xa_empty(xa));
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xa_destroy(xa);
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XA_BUG_ON(xa, !xa_empty(xa));
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for (i = base; i < base + 10; i++) {
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XA_BUG_ON(xa, xa_alloc(xa, &id, NULL, xa_limit_32b,
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GFP_KERNEL) != 0);
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XA_BUG_ON(xa, id != i);
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}
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XA_BUG_ON(xa, xa_store(xa, 3, xa_mk_index(3), GFP_KERNEL) != NULL);
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XA_BUG_ON(xa, xa_store(xa, 4, xa_mk_index(4), GFP_KERNEL) != NULL);
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XA_BUG_ON(xa, xa_store(xa, 4, NULL, GFP_KERNEL) != xa_mk_index(4));
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XA_BUG_ON(xa, xa_erase(xa, 5) != NULL);
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XA_BUG_ON(xa, xa_alloc(xa, &id, NULL, xa_limit_32b, GFP_KERNEL) != 0);
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XA_BUG_ON(xa, id != 5);
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xa_for_each(xa, index, entry) {
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xa_erase_index(xa, index);
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}
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for (i = base; i < base + 9; i++) {
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XA_BUG_ON(xa, xa_erase(xa, i) != NULL);
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XA_BUG_ON(xa, xa_empty(xa));
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}
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XA_BUG_ON(xa, xa_erase(xa, 8) != NULL);
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XA_BUG_ON(xa, xa_empty(xa));
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XA_BUG_ON(xa, xa_erase(xa, base + 9) != NULL);
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XA_BUG_ON(xa, !xa_empty(xa));
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xa_destroy(xa);
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}
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static DEFINE_XARRAY_ALLOC(xa0);
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static DEFINE_XARRAY_ALLOC1(xa1);
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@ -669,6 +722,8 @@ static noinline void check_xa_alloc(void)
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{
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check_xa_alloc_1(&xa0, 0);
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check_xa_alloc_1(&xa1, 1);
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check_xa_alloc_2(&xa0, 0);
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check_xa_alloc_2(&xa1, 1);
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}
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static noinline void __check_store_iter(struct xarray *xa, unsigned long start,
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@ -1219,9 +1274,8 @@ static void check_align_1(struct xarray *xa, char *name)
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void *entry;
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for (i = 0; i < 8; i++) {
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id = 0;
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XA_BUG_ON(xa, xa_alloc(xa, &id, UINT_MAX, name + i, GFP_KERNEL)
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!= 0);
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XA_BUG_ON(xa, xa_alloc(xa, &id, name + i, xa_limit_32b,
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GFP_KERNEL) != 0);
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XA_BUG_ON(xa, id != i);
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}
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xa_for_each(xa, index, entry)
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29
lib/xarray.c
29
lib/xarray.c
@ -1615,23 +1615,23 @@ EXPORT_SYMBOL(xa_store_range);
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* __xa_alloc() - Find somewhere to store this entry in the XArray.
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* @xa: XArray.
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* @id: Pointer to ID.
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* @max: Maximum ID to allocate (inclusive).
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* @limit: Range for allocated ID.
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* @entry: New entry.
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* @gfp: Memory allocation flags.
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*
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* Allocates an unused ID in the range specified by @id and @max.
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* Updates the @id pointer with the index, then stores the entry at that
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* index. A concurrent lookup will not see an uninitialised @id.
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* Finds an empty entry in @xa between @limit.min and @limit.max,
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* stores the index into the @id pointer, then stores the entry at
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* that index. A concurrent lookup will not see an uninitialised @id.
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*
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* Context: Any context. Expects xa_lock to be held on entry. May
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* release and reacquire xa_lock if @gfp flags permit.
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* Return: 0 on success, -ENOMEM if memory allocation fails or -ENOSPC if
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* there is no more space in the XArray.
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* Return: 0 on success, -ENOMEM if memory could not be allocated or
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* -EBUSY if there are no free entries in @limit.
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*/
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int __xa_alloc(struct xarray *xa, u32 *id, u32 max, void *entry, gfp_t gfp)
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int __xa_alloc(struct xarray *xa, u32 *id, void *entry,
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struct xa_limit limit, gfp_t gfp)
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{
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XA_STATE(xas, xa, 0);
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int err;
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if (WARN_ON_ONCE(xa_is_advanced(entry)))
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return -EINVAL;
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@ -1642,18 +1642,17 @@ int __xa_alloc(struct xarray *xa, u32 *id, u32 max, void *entry, gfp_t gfp)
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entry = XA_ZERO_ENTRY;
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do {
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xas.xa_index = *id;
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xas_find_marked(&xas, max, XA_FREE_MARK);
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xas.xa_index = limit.min;
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xas_find_marked(&xas, limit.max, XA_FREE_MARK);
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if (xas.xa_node == XAS_RESTART)
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xas_set_err(&xas, -ENOSPC);
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xas_set_err(&xas, -EBUSY);
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else
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*id = xas.xa_index;
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xas_store(&xas, entry);
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xas_clear_mark(&xas, XA_FREE_MARK);
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} while (__xas_nomem(&xas, gfp));
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err = xas_error(&xas);
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if (!err)
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*id = xas.xa_index;
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return err;
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return xas_error(&xas);
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}
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EXPORT_SYMBOL(__xa_alloc);
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