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5a3ab58495
Create a new method to load an xfarray element from the xfile, but with a twist. If we've never stored to the array index, zero the caller's buffer. This will facilitate RMWs updates of records in a sparse array without fuss, since the sparse xfarray convention is that uninitialized array elements default to zeroes. This is a separate patch to reduce the size of the upcoming quotacheck patch. Signed-off-by: Darrick J. Wong <djwong@kernel.org> Reviewed-by: Christoph Hellwig <hch@lst.de>
188 lines
5.1 KiB
C
188 lines
5.1 KiB
C
/* SPDX-License-Identifier: GPL-2.0-or-later */
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/*
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* Copyright (C) 2021-2023 Oracle. All Rights Reserved.
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* Author: Darrick J. Wong <djwong@kernel.org>
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*/
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#ifndef __XFS_SCRUB_XFARRAY_H__
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#define __XFS_SCRUB_XFARRAY_H__
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/* xfile array index type, along with cursor initialization */
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typedef uint64_t xfarray_idx_t;
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#define XFARRAY_CURSOR_INIT ((__force xfarray_idx_t)0)
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/* Iterate each index of an xfile array. */
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#define foreach_xfarray_idx(array, idx) \
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for ((idx) = XFARRAY_CURSOR_INIT; \
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(idx) < xfarray_length(array); \
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(idx)++)
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struct xfarray {
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/* Underlying file that backs the array. */
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struct xfile *xfile;
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/* Number of array elements. */
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xfarray_idx_t nr;
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/* Maximum possible array size. */
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xfarray_idx_t max_nr;
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/* Number of unset slots in the array below @nr. */
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uint64_t unset_slots;
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/* Size of an array element. */
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size_t obj_size;
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/* log2 of array element size, if possible. */
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int obj_size_log;
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};
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int xfarray_create(const char *descr, unsigned long long required_capacity,
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size_t obj_size, struct xfarray **arrayp);
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void xfarray_destroy(struct xfarray *array);
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int xfarray_load(struct xfarray *array, xfarray_idx_t idx, void *ptr);
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int xfarray_unset(struct xfarray *array, xfarray_idx_t idx);
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int xfarray_store(struct xfarray *array, xfarray_idx_t idx, const void *ptr);
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int xfarray_store_anywhere(struct xfarray *array, const void *ptr);
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bool xfarray_element_is_null(struct xfarray *array, const void *ptr);
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/*
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* Load an array element, but zero the buffer if there's no data because we
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* haven't stored to that array element yet.
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*/
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static inline int
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xfarray_load_sparse(
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struct xfarray *array,
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uint64_t idx,
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void *rec)
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{
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int error = xfarray_load(array, idx, rec);
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if (error == -ENODATA) {
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memset(rec, 0, array->obj_size);
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return 0;
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}
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return error;
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}
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/* Append an element to the array. */
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static inline int xfarray_append(struct xfarray *array, const void *ptr)
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{
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return xfarray_store(array, array->nr, ptr);
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}
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uint64_t xfarray_length(struct xfarray *array);
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int xfarray_load_next(struct xfarray *array, xfarray_idx_t *idx, void *rec);
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/*
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* Iterate the non-null elements in a sparse xfarray. Callers should
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* initialize *idx to XFARRAY_CURSOR_INIT before the first call; on return, it
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* will be set to one more than the index of the record that was retrieved.
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* Returns 1 if a record was retrieved, 0 if there weren't any more records, or
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* a negative errno.
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*/
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static inline int
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xfarray_iter(
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struct xfarray *array,
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xfarray_idx_t *idx,
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void *rec)
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{
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int ret = xfarray_load_next(array, idx, rec);
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if (ret == -ENODATA)
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return 0;
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if (ret == 0)
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return 1;
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return ret;
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}
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/* Declarations for xfile array sort functionality. */
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typedef cmp_func_t xfarray_cmp_fn;
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/* Perform an in-memory heapsort for small subsets. */
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#define XFARRAY_ISORT_SHIFT (4)
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#define XFARRAY_ISORT_NR (1U << XFARRAY_ISORT_SHIFT)
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/* Evalulate this many points to find the qsort pivot. */
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#define XFARRAY_QSORT_PIVOT_NR (9)
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struct xfarray_sortinfo {
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struct xfarray *array;
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/* Comparison function for the sort. */
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xfarray_cmp_fn cmp_fn;
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/* Maximum height of the partition stack. */
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uint8_t max_stack_depth;
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/* Current height of the partition stack. */
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int8_t stack_depth;
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/* Maximum stack depth ever used. */
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uint8_t max_stack_used;
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/* XFARRAY_SORT_* flags; see below. */
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unsigned int flags;
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/* Cache a folio here for faster scanning for pivots */
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struct folio *folio;
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/* First array index in folio that is completely readable */
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xfarray_idx_t first_folio_idx;
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/* Last array index in folio that is completely readable */
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xfarray_idx_t last_folio_idx;
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#ifdef DEBUG
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/* Performance statistics. */
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uint64_t loads;
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uint64_t stores;
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uint64_t compares;
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uint64_t heapsorts;
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#endif
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/*
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* Extra bytes are allocated beyond the end of the structure to store
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* quicksort information. C does not permit multiple VLAs per struct,
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* so we document all of this in a comment.
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*
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* Pretend that we have a typedef for array records:
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*
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* typedef char[array->obj_size] xfarray_rec_t;
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*
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* First comes the quicksort partition stack:
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*
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* xfarray_idx_t lo[max_stack_depth];
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* xfarray_idx_t hi[max_stack_depth];
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*
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* union {
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*
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* If for a given subset we decide to use an in-memory sort, we use a
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* block of scratchpad records here to compare items:
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*
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* xfarray_rec_t scratch[ISORT_NR];
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*
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* Otherwise, we want to partition the records to partition the array.
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* We store the chosen pivot record at the start of the scratchpad area
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* and use the rest to sample some records to estimate the median.
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* The format of the qsort_pivot array enables us to use the kernel
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* heapsort function to place the median value in the middle.
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*
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* struct {
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* xfarray_rec_t pivot;
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* struct {
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* xfarray_rec_t rec; (rounded up to 8 bytes)
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* xfarray_idx_t idx;
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* } qsort_pivot[QSORT_PIVOT_NR];
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* };
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* }
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*/
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};
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/* Sort can be interrupted by a fatal signal. */
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#define XFARRAY_SORT_KILLABLE (1U << 0)
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int xfarray_sort(struct xfarray *array, xfarray_cmp_fn cmp_fn,
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unsigned int flags);
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#endif /* __XFS_SCRUB_XFARRAY_H__ */
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