diff options
author | Darrick J. Wong <djwong@kernel.org> | 2023-12-15 19:03:30 +0100 |
---|---|---|
committer | Darrick J. Wong <djwong@kernel.org> | 2023-12-15 19:03:30 +0100 |
commit | 6ece924b95226235059ed2ffc2c0f44a124c5910 (patch) | |
tree | 7f273980557559ca029a60ca5477e200e21969aa | |
parent | xfs: constrain dirty buffers while formatting a staged btree (diff) | |
download | linux-6ece924b95226235059ed2ffc2c0f44a124c5910.tar.xz linux-6ece924b95226235059ed2ffc2c0f44a124c5910.zip |
xfs: create separate structures and code for u32 bitmaps
Create a version of the xbitmap that handles 32-bit integer intervals
and adapt the xfs_agblock_t bitmap to use it. This reduces the size of
the interval tree nodes from 48 to 36 bytes and enables us to use a more
efficient slab (:0000040 instead of :0000048) which allows us to pack
more nodes into a single slab page (102 vs 85).
As a side effect, the users of these bitmaps no longer have to convert
between u32 and u64 quantities just to use the bitmap; and the hairy
overflow checking code in xagb_bitmap_test goes away.
Later in this patchset we're going to add bitmaps for xfs_agino_t,
xfs_rgblock_t, and xfs_dablk_t, so the increase in code size (5622 vs.
9959 bytes) seems worth it.
Signed-off-by: Darrick J. Wong <djwong@kernel.org>
Reviewed-by: Christoph Hellwig <hch@lst.de>
-rw-r--r-- | fs/xfs/scrub/agheader_repair.c | 9 | ||||
-rw-r--r-- | fs/xfs/scrub/bitmap.c | 518 | ||||
-rw-r--r-- | fs/xfs/scrub/bitmap.h | 92 | ||||
-rw-r--r-- | fs/xfs/scrub/reap.c | 5 |
4 files changed, 458 insertions, 166 deletions
diff --git a/fs/xfs/scrub/agheader_repair.c b/fs/xfs/scrub/agheader_repair.c index 876a2f41b063..4000bdc8b500 100644 --- a/fs/xfs/scrub/agheader_repair.c +++ b/fs/xfs/scrub/agheader_repair.c @@ -494,12 +494,11 @@ xrep_agfl_walk_rmap( /* Strike out the blocks that are cross-linked according to the rmapbt. */ STATIC int xrep_agfl_check_extent( - uint64_t start, - uint64_t len, + uint32_t agbno, + uint32_t len, void *priv) { struct xrep_agfl *ra = priv; - xfs_agblock_t agbno = start; xfs_agblock_t last_agbno = agbno + len - 1; int error; @@ -647,8 +646,8 @@ struct xrep_agfl_fill { /* Fill the AGFL with whatever blocks are in this extent. */ static int xrep_agfl_fill( - uint64_t start, - uint64_t len, + uint32_t start, + uint32_t len, void *priv) { struct xrep_agfl_fill *af = priv; diff --git a/fs/xfs/scrub/bitmap.c b/fs/xfs/scrub/bitmap.c index e0c89a9a0ca0..503b79010002 100644 --- a/fs/xfs/scrub/bitmap.c +++ b/fs/xfs/scrub/bitmap.c @@ -16,7 +16,9 @@ #include <linux/interval_tree_generic.h> -struct xbitmap_node { +/* u64 bitmap */ + +struct xbitmap64_node { struct rb_node bn_rbnode; /* First set bit of this interval and subtree. */ @@ -39,72 +41,72 @@ struct xbitmap_node { * forward-declare them anyway for clarity. */ static inline void -xbitmap_tree_insert(struct xbitmap_node *node, struct rb_root_cached *root); +xbitmap64_tree_insert(struct xbitmap64_node *node, struct rb_root_cached *root); static inline void -xbitmap_tree_remove(struct xbitmap_node *node, struct rb_root_cached *root); +xbitmap64_tree_remove(struct xbitmap64_node *node, struct rb_root_cached *root); -static inline struct xbitmap_node * -xbitmap_tree_iter_first(struct rb_root_cached *root, uint64_t start, +static inline struct xbitmap64_node * +xbitmap64_tree_iter_first(struct rb_root_cached *root, uint64_t start, uint64_t last); -static inline struct xbitmap_node * -xbitmap_tree_iter_next(struct xbitmap_node *node, uint64_t start, +static inline struct xbitmap64_node * +xbitmap64_tree_iter_next(struct xbitmap64_node *node, uint64_t start, uint64_t last); -INTERVAL_TREE_DEFINE(struct xbitmap_node, bn_rbnode, uint64_t, - __bn_subtree_last, START, LAST, static inline, xbitmap_tree) +INTERVAL_TREE_DEFINE(struct xbitmap64_node, bn_rbnode, uint64_t, + __bn_subtree_last, START, LAST, static inline, xbitmap64_tree) /* Iterate each interval of a bitmap. Do not change the bitmap. */ -#define for_each_xbitmap_extent(bn, bitmap) \ +#define for_each_xbitmap64_extent(bn, bitmap) \ for ((bn) = rb_entry_safe(rb_first(&(bitmap)->xb_root.rb_root), \ - struct xbitmap_node, bn_rbnode); \ + struct xbitmap64_node, bn_rbnode); \ (bn) != NULL; \ (bn) = rb_entry_safe(rb_next(&(bn)->bn_rbnode), \ - struct xbitmap_node, bn_rbnode)) + struct xbitmap64_node, bn_rbnode)) /* Clear a range of this bitmap. */ int -xbitmap_clear( - struct xbitmap *bitmap, +xbitmap64_clear( + struct xbitmap64 *bitmap, uint64_t start, uint64_t len) { - struct xbitmap_node *bn; - struct xbitmap_node *new_bn; + struct xbitmap64_node *bn; + struct xbitmap64_node *new_bn; uint64_t last = start + len - 1; - while ((bn = xbitmap_tree_iter_first(&bitmap->xb_root, start, last))) { + while ((bn = xbitmap64_tree_iter_first(&bitmap->xb_root, start, last))) { if (bn->bn_start < start && bn->bn_last > last) { uint64_t old_last = bn->bn_last; /* overlaps with the entire clearing range */ - xbitmap_tree_remove(bn, &bitmap->xb_root); + xbitmap64_tree_remove(bn, &bitmap->xb_root); bn->bn_last = start - 1; - xbitmap_tree_insert(bn, &bitmap->xb_root); + xbitmap64_tree_insert(bn, &bitmap->xb_root); /* add an extent */ - new_bn = kmalloc(sizeof(struct xbitmap_node), + new_bn = kmalloc(sizeof(struct xbitmap64_node), XCHK_GFP_FLAGS); if (!new_bn) return -ENOMEM; new_bn->bn_start = last + 1; new_bn->bn_last = old_last; - xbitmap_tree_insert(new_bn, &bitmap->xb_root); + xbitmap64_tree_insert(new_bn, &bitmap->xb_root); } else if (bn->bn_start < start) { /* overlaps with the left side of the clearing range */ - xbitmap_tree_remove(bn, &bitmap->xb_root); + xbitmap64_tree_remove(bn, &bitmap->xb_root); bn->bn_last = start - 1; - xbitmap_tree_insert(bn, &bitmap->xb_root); + xbitmap64_tree_insert(bn, &bitmap->xb_root); } else if (bn->bn_last > last) { /* overlaps with the right side of the clearing range */ - xbitmap_tree_remove(bn, &bitmap->xb_root); + xbitmap64_tree_remove(bn, &bitmap->xb_root); bn->bn_start = last + 1; - xbitmap_tree_insert(bn, &bitmap->xb_root); + xbitmap64_tree_insert(bn, &bitmap->xb_root); break; } else { /* in the middle of the clearing range */ - xbitmap_tree_remove(bn, &bitmap->xb_root); + xbitmap64_tree_remove(bn, &bitmap->xb_root); kfree(bn); } } @@ -114,59 +116,59 @@ xbitmap_clear( /* Set a range of this bitmap. */ int -xbitmap_set( - struct xbitmap *bitmap, +xbitmap64_set( + struct xbitmap64 *bitmap, uint64_t start, uint64_t len) { - struct xbitmap_node *left; - struct xbitmap_node *right; + struct xbitmap64_node *left; + struct xbitmap64_node *right; uint64_t last = start + len - 1; int error; /* Is this whole range already set? */ - left = xbitmap_tree_iter_first(&bitmap->xb_root, start, last); + left = xbitmap64_tree_iter_first(&bitmap->xb_root, start, last); if (left && left->bn_start <= start && left->bn_last >= last) return 0; /* Clear out everything in the range we want to set. */ - error = xbitmap_clear(bitmap, start, len); + error = xbitmap64_clear(bitmap, start, len); if (error) return error; /* Do we have a left-adjacent extent? */ - left = xbitmap_tree_iter_first(&bitmap->xb_root, start - 1, start - 1); + left = xbitmap64_tree_iter_first(&bitmap->xb_root, start - 1, start - 1); ASSERT(!left || left->bn_last + 1 == start); /* Do we have a right-adjacent extent? */ - right = xbitmap_tree_iter_first(&bitmap->xb_root, last + 1, last + 1); + right = xbitmap64_tree_iter_first(&bitmap->xb_root, last + 1, last + 1); ASSERT(!right || right->bn_start == last + 1); if (left && right) { /* combine left and right adjacent extent */ - xbitmap_tree_remove(left, &bitmap->xb_root); - xbitmap_tree_remove(right, &bitmap->xb_root); + xbitmap64_tree_remove(left, &bitmap->xb_root); + xbitmap64_tree_remove(right, &bitmap->xb_root); left->bn_last = right->bn_last; - xbitmap_tree_insert(left, &bitmap->xb_root); + xbitmap64_tree_insert(left, &bitmap->xb_root); kfree(right); } else if (left) { /* combine with left extent */ - xbitmap_tree_remove(left, &bitmap->xb_root); + xbitmap64_tree_remove(left, &bitmap->xb_root); left->bn_last = last; - xbitmap_tree_insert(left, &bitmap->xb_root); + xbitmap64_tree_insert(left, &bitmap->xb_root); } else if (right) { /* combine with right extent */ - xbitmap_tree_remove(right, &bitmap->xb_root); + xbitmap64_tree_remove(right, &bitmap->xb_root); right->bn_start = start; - xbitmap_tree_insert(right, &bitmap->xb_root); + xbitmap64_tree_insert(right, &bitmap->xb_root); } else { /* add an extent */ - left = kmalloc(sizeof(struct xbitmap_node), XCHK_GFP_FLAGS); + left = kmalloc(sizeof(struct xbitmap64_node), XCHK_GFP_FLAGS); if (!left) return -ENOMEM; left->bn_start = start; left->bn_last = last; - xbitmap_tree_insert(left, &bitmap->xb_root); + xbitmap64_tree_insert(left, &bitmap->xb_root); } return 0; @@ -174,21 +176,21 @@ xbitmap_set( /* Free everything related to this bitmap. */ void -xbitmap_destroy( - struct xbitmap *bitmap) +xbitmap64_destroy( + struct xbitmap64 *bitmap) { - struct xbitmap_node *bn; + struct xbitmap64_node *bn; - while ((bn = xbitmap_tree_iter_first(&bitmap->xb_root, 0, -1ULL))) { - xbitmap_tree_remove(bn, &bitmap->xb_root); + while ((bn = xbitmap64_tree_iter_first(&bitmap->xb_root, 0, -1ULL))) { + xbitmap64_tree_remove(bn, &bitmap->xb_root); kfree(bn); } } /* Set up a per-AG block bitmap. */ void -xbitmap_init( - struct xbitmap *bitmap) +xbitmap64_init( + struct xbitmap64 *bitmap) { bitmap->xb_root = RB_ROOT_CACHED; } @@ -208,18 +210,18 @@ xbitmap_init( * This is the logical equivalent of bitmap &= ~sub. */ int -xbitmap_disunion( - struct xbitmap *bitmap, - struct xbitmap *sub) +xbitmap64_disunion( + struct xbitmap64 *bitmap, + struct xbitmap64 *sub) { - struct xbitmap_node *bn; + struct xbitmap64_node *bn; int error; - if (xbitmap_empty(bitmap) || xbitmap_empty(sub)) + if (xbitmap64_empty(bitmap) || xbitmap64_empty(sub)) return 0; - for_each_xbitmap_extent(bn, sub) { - error = xbitmap_clear(bitmap, bn->bn_start, + for_each_xbitmap64_extent(bn, sub) { + error = xbitmap64_clear(bitmap, bn->bn_start, bn->bn_last - bn->bn_start + 1); if (error) return error; @@ -228,6 +230,345 @@ xbitmap_disunion( return 0; } +/* How many bits are set in this bitmap? */ +uint64_t +xbitmap64_hweight( + struct xbitmap64 *bitmap) +{ + struct xbitmap64_node *bn; + uint64_t ret = 0; + + for_each_xbitmap64_extent(bn, bitmap) + ret += bn->bn_last - bn->bn_start + 1; + + return ret; +} + +/* Call a function for every run of set bits in this bitmap. */ +int +xbitmap64_walk( + struct xbitmap64 *bitmap, + xbitmap64_walk_fn fn, + void *priv) +{ + struct xbitmap64_node *bn; + int error = 0; + + for_each_xbitmap64_extent(bn, bitmap) { + error = fn(bn->bn_start, bn->bn_last - bn->bn_start + 1, priv); + if (error) + break; + } + + return error; +} + +/* Does this bitmap have no bits set at all? */ +bool +xbitmap64_empty( + struct xbitmap64 *bitmap) +{ + return bitmap->xb_root.rb_root.rb_node == NULL; +} + +/* Is the start of the range set or clear? And for how long? */ +bool +xbitmap64_test( + struct xbitmap64 *bitmap, + uint64_t start, + uint64_t *len) +{ + struct xbitmap64_node *bn; + uint64_t last = start + *len - 1; + + bn = xbitmap64_tree_iter_first(&bitmap->xb_root, start, last); + if (!bn) + return false; + if (bn->bn_start <= start) { + if (bn->bn_last < last) + *len = bn->bn_last - start + 1; + return true; + } + *len = bn->bn_start - start; + return false; +} + +/* u32 bitmap */ + +struct xbitmap32_node { + struct rb_node bn_rbnode; + + /* First set bit of this interval and subtree. */ + uint32_t bn_start; + + /* Last set bit of this interval. */ + uint32_t bn_last; + + /* Last set bit of this subtree. Do not touch this. */ + uint32_t __bn_subtree_last; +}; + +/* Define our own interval tree type with uint32_t parameters. */ + +/* + * These functions are defined by the INTERVAL_TREE_DEFINE macro, but we'll + * forward-declare them anyway for clarity. + */ +static inline void +xbitmap32_tree_insert(struct xbitmap32_node *node, struct rb_root_cached *root); + +static inline void +xbitmap32_tree_remove(struct xbitmap32_node *node, struct rb_root_cached *root); + +static inline struct xbitmap32_node * +xbitmap32_tree_iter_first(struct rb_root_cached *root, uint32_t start, + uint32_t last); + +static inline struct xbitmap32_node * +xbitmap32_tree_iter_next(struct xbitmap32_node *node, uint32_t start, + uint32_t last); + +INTERVAL_TREE_DEFINE(struct xbitmap32_node, bn_rbnode, uint32_t, + __bn_subtree_last, START, LAST, static inline, xbitmap32_tree) + +/* Iterate each interval of a bitmap. Do not change the bitmap. */ +#define for_each_xbitmap32_extent(bn, bitmap) \ + for ((bn) = rb_entry_safe(rb_first(&(bitmap)->xb_root.rb_root), \ + struct xbitmap32_node, bn_rbnode); \ + (bn) != NULL; \ + (bn) = rb_entry_safe(rb_next(&(bn)->bn_rbnode), \ + struct xbitmap32_node, bn_rbnode)) + +/* Clear a range of this bitmap. */ +int +xbitmap32_clear( + struct xbitmap32 *bitmap, + uint32_t start, + uint32_t len) +{ + struct xbitmap32_node *bn; + struct xbitmap32_node *new_bn; + uint32_t last = start + len - 1; + + while ((bn = xbitmap32_tree_iter_first(&bitmap->xb_root, start, last))) { + if (bn->bn_start < start && bn->bn_last > last) { + uint32_t old_last = bn->bn_last; + + /* overlaps with the entire clearing range */ + xbitmap32_tree_remove(bn, &bitmap->xb_root); + bn->bn_last = start - 1; + xbitmap32_tree_insert(bn, &bitmap->xb_root); + + /* add an extent */ + new_bn = kmalloc(sizeof(struct xbitmap32_node), + XCHK_GFP_FLAGS); + if (!new_bn) + return -ENOMEM; + new_bn->bn_start = last + 1; + new_bn->bn_last = old_last; + xbitmap32_tree_insert(new_bn, &bitmap->xb_root); + } else if (bn->bn_start < start) { + /* overlaps with the left side of the clearing range */ + xbitmap32_tree_remove(bn, &bitmap->xb_root); + bn->bn_last = start - 1; + xbitmap32_tree_insert(bn, &bitmap->xb_root); + } else if (bn->bn_last > last) { + /* overlaps with the right side of the clearing range */ + xbitmap32_tree_remove(bn, &bitmap->xb_root); + bn->bn_start = last + 1; + xbitmap32_tree_insert(bn, &bitmap->xb_root); + break; + } else { + /* in the middle of the clearing range */ + xbitmap32_tree_remove(bn, &bitmap->xb_root); + kfree(bn); + } + } + + return 0; +} + +/* Set a range of this bitmap. */ +int +xbitmap32_set( + struct xbitmap32 *bitmap, + uint32_t start, + uint32_t len) +{ + struct xbitmap32_node *left; + struct xbitmap32_node *right; + uint32_t last = start + len - 1; + int error; + + /* Is this whole range already set? */ + left = xbitmap32_tree_iter_first(&bitmap->xb_root, start, last); + if (left && left->bn_start <= start && left->bn_last >= last) + return 0; + + /* Clear out everything in the range we want to set. */ + error = xbitmap32_clear(bitmap, start, len); + if (error) + return error; + + /* Do we have a left-adjacent extent? */ + left = xbitmap32_tree_iter_first(&bitmap->xb_root, start - 1, start - 1); + ASSERT(!left || left->bn_last + 1 == start); + + /* Do we have a right-adjacent extent? */ + right = xbitmap32_tree_iter_first(&bitmap->xb_root, last + 1, last + 1); + ASSERT(!right || right->bn_start == last + 1); + + if (left && right) { + /* combine left and right adjacent extent */ + xbitmap32_tree_remove(left, &bitmap->xb_root); + xbitmap32_tree_remove(right, &bitmap->xb_root); + left->bn_last = right->bn_last; + xbitmap32_tree_insert(left, &bitmap->xb_root); + kfree(right); + } else if (left) { + /* combine with left extent */ + xbitmap32_tree_remove(left, &bitmap->xb_root); + left->bn_last = last; + xbitmap32_tree_insert(left, &bitmap->xb_root); + } else if (right) { + /* combine with right extent */ + xbitmap32_tree_remove(right, &bitmap->xb_root); + right->bn_start = start; + xbitmap32_tree_insert(right, &bitmap->xb_root); + } else { + /* add an extent */ + left = kmalloc(sizeof(struct xbitmap32_node), XCHK_GFP_FLAGS); + if (!left) + return -ENOMEM; + left->bn_start = start; + left->bn_last = last; + xbitmap32_tree_insert(left, &bitmap->xb_root); + } + + return 0; +} + +/* Free everything related to this bitmap. */ +void +xbitmap32_destroy( + struct xbitmap32 *bitmap) +{ + struct xbitmap32_node *bn; + + while ((bn = xbitmap32_tree_iter_first(&bitmap->xb_root, 0, -1U))) { + xbitmap32_tree_remove(bn, &bitmap->xb_root); + kfree(bn); + } +} + +/* Set up a per-AG block bitmap. */ +void +xbitmap32_init( + struct xbitmap32 *bitmap) +{ + bitmap->xb_root = RB_ROOT_CACHED; +} + +/* + * Remove all the blocks mentioned in @sub from the extents in @bitmap. + * + * The intent is that callers will iterate the rmapbt for all of its records + * for a given owner to generate @bitmap; and iterate all the blocks of the + * metadata structures that are not being rebuilt and have the same rmapbt + * owner to generate @sub. This routine subtracts all the extents + * mentioned in sub from all the extents linked in @bitmap, which leaves + * @bitmap as the list of blocks that are not accounted for, which we assume + * are the dead blocks of the old metadata structure. The blocks mentioned in + * @bitmap can be reaped. + * + * This is the logical equivalent of bitmap &= ~sub. + */ +int +xbitmap32_disunion( + struct xbitmap32 *bitmap, + struct xbitmap32 *sub) +{ + struct xbitmap32_node *bn; + int error; + + if (xbitmap32_empty(bitmap) || xbitmap32_empty(sub)) + return 0; + + for_each_xbitmap32_extent(bn, sub) { + error = xbitmap32_clear(bitmap, bn->bn_start, + bn->bn_last - bn->bn_start + 1); + if (error) + return error; + } + + return 0; +} + +/* How many bits are set in this bitmap? */ +uint32_t +xbitmap32_hweight( + struct xbitmap32 *bitmap) +{ + struct xbitmap32_node *bn; + uint32_t ret = 0; + + for_each_xbitmap32_extent(bn, bitmap) + ret += bn->bn_last - bn->bn_start + 1; + + return ret; +} + +/* Call a function for every run of set bits in this bitmap. */ +int +xbitmap32_walk( + struct xbitmap32 *bitmap, + xbitmap32_walk_fn fn, + void *priv) +{ + struct xbitmap32_node *bn; + int error = 0; + + for_each_xbitmap32_extent(bn, bitmap) { + error = fn(bn->bn_start, bn->bn_last - bn->bn_start + 1, priv); + if (error) + break; + } + + return error; +} + +/* Does this bitmap have no bits set at all? */ +bool +xbitmap32_empty( + struct xbitmap32 *bitmap) +{ + return bitmap->xb_root.rb_root.rb_node == NULL; +} + +/* Is the start of the range set or clear? And for how long? */ +bool +xbitmap32_test( + struct xbitmap32 *bitmap, + uint32_t start, + uint32_t *len) +{ + struct xbitmap32_node *bn; + uint32_t last = start + *len - 1; + + bn = xbitmap32_tree_iter_first(&bitmap->xb_root, start, last); + if (!bn) + return false; + if (bn->bn_start <= start) { + if (bn->bn_last < last) + *len = bn->bn_last - start + 1; + return true; + } + *len = bn->bn_start - start; + return false; +} + +/* xfs_agblock_t bitmap */ + /* * Record all btree blocks seen while iterating all records of a btree. * @@ -316,66 +657,3 @@ xagb_bitmap_set_btcur_path( return 0; } - -/* How many bits are set in this bitmap? */ -uint64_t -xbitmap_hweight( - struct xbitmap *bitmap) -{ - struct xbitmap_node *bn; - uint64_t ret = 0; - - for_each_xbitmap_extent(bn, bitmap) - ret += bn->bn_last - bn->bn_start + 1; - - return ret; -} - -/* Call a function for every run of set bits in this bitmap. */ -int -xbitmap_walk( - struct xbitmap *bitmap, - xbitmap_walk_fn fn, - void *priv) -{ - struct xbitmap_node *bn; - int error = 0; - - for_each_xbitmap_extent(bn, bitmap) { - error = fn(bn->bn_start, bn->bn_last - bn->bn_start + 1, priv); - if (error) - break; - } - - return error; -} - -/* Does this bitmap have no bits set at all? */ -bool -xbitmap_empty( - struct xbitmap *bitmap) -{ - return bitmap->xb_root.rb_root.rb_node == NULL; -} - -/* Is the start of the range set or clear? And for how long? */ -bool -xbitmap_test( - struct xbitmap *bitmap, - uint64_t start, - uint64_t *len) -{ - struct xbitmap_node *bn; - uint64_t last = start + *len - 1; - - bn = xbitmap_tree_iter_first(&bitmap->xb_root, start, last); - if (!bn) - return false; - if (bn->bn_start <= start) { - if (bn->bn_last < last) - *len = bn->bn_last - start + 1; - return true; - } - *len = bn->bn_start - start; - return false; -} diff --git a/fs/xfs/scrub/bitmap.h b/fs/xfs/scrub/bitmap.h index 4fe58bad6734..231b27c09b4e 100644 --- a/fs/xfs/scrub/bitmap.h +++ b/fs/xfs/scrub/bitmap.h @@ -6,17 +6,47 @@ #ifndef __XFS_SCRUB_BITMAP_H__ #define __XFS_SCRUB_BITMAP_H__ -struct xbitmap { +/* u64 bitmap */ + +struct xbitmap64 { + struct rb_root_cached xb_root; +}; + +void xbitmap64_init(struct xbitmap64 *bitmap); +void xbitmap64_destroy(struct xbitmap64 *bitmap); + +int xbitmap64_clear(struct xbitmap64 *bitmap, uint64_t start, uint64_t len); +int xbitmap64_set(struct xbitmap64 *bitmap, uint64_t start, uint64_t len); +int xbitmap64_disunion(struct xbitmap64 *bitmap, struct xbitmap64 *sub); +uint64_t xbitmap64_hweight(struct xbitmap64 *bitmap); + +/* + * Return codes for the bitmap iterator functions are 0 to continue iterating, + * and non-zero to stop iterating. Any non-zero value will be passed up to the + * iteration caller. The special value -ECANCELED can be used to stop + * iteration, because neither bitmap iterator ever generates that error code on + * its own. Callers must not modify the bitmap while walking it. + */ +typedef int (*xbitmap64_walk_fn)(uint64_t start, uint64_t len, void *priv); +int xbitmap64_walk(struct xbitmap64 *bitmap, xbitmap64_walk_fn fn, + void *priv); + +bool xbitmap64_empty(struct xbitmap64 *bitmap); +bool xbitmap64_test(struct xbitmap64 *bitmap, uint64_t start, uint64_t *len); + +/* u32 bitmap */ + +struct xbitmap32 { struct rb_root_cached xb_root; }; -void xbitmap_init(struct xbitmap *bitmap); -void xbitmap_destroy(struct xbitmap *bitmap); +void xbitmap32_init(struct xbitmap32 *bitmap); +void xbitmap32_destroy(struct xbitmap32 *bitmap); -int xbitmap_clear(struct xbitmap *bitmap, uint64_t start, uint64_t len); -int xbitmap_set(struct xbitmap *bitmap, uint64_t start, uint64_t len); -int xbitmap_disunion(struct xbitmap *bitmap, struct xbitmap *sub); -uint64_t xbitmap_hweight(struct xbitmap *bitmap); +int xbitmap32_clear(struct xbitmap32 *bitmap, uint32_t start, uint32_t len); +int xbitmap32_set(struct xbitmap32 *bitmap, uint32_t start, uint32_t len); +int xbitmap32_disunion(struct xbitmap32 *bitmap, struct xbitmap32 *sub); +uint32_t xbitmap32_hweight(struct xbitmap32 *bitmap); /* * Return codes for the bitmap iterator functions are 0 to continue iterating, @@ -25,79 +55,65 @@ uint64_t xbitmap_hweight(struct xbitmap *bitmap); * iteration, because neither bitmap iterator ever generates that error code on * its own. Callers must not modify the bitmap while walking it. */ -typedef int (*xbitmap_walk_fn)(uint64_t start, uint64_t len, void *priv); -int xbitmap_walk(struct xbitmap *bitmap, xbitmap_walk_fn fn, +typedef int (*xbitmap32_walk_fn)(uint32_t start, uint32_t len, void *priv); +int xbitmap32_walk(struct xbitmap32 *bitmap, xbitmap32_walk_fn fn, void *priv); -bool xbitmap_empty(struct xbitmap *bitmap); -bool xbitmap_test(struct xbitmap *bitmap, uint64_t start, uint64_t *len); +bool xbitmap32_empty(struct xbitmap32 *bitmap); +bool xbitmap32_test(struct xbitmap32 *bitmap, uint32_t start, uint32_t *len); /* Bitmaps, but for type-checked for xfs_agblock_t */ struct xagb_bitmap { - struct xbitmap agbitmap; + struct xbitmap32 agbitmap; }; static inline void xagb_bitmap_init(struct xagb_bitmap *bitmap) { - xbitmap_init(&bitmap->agbitmap); + xbitmap32_init(&bitmap->agbitmap); } static inline void xagb_bitmap_destroy(struct xagb_bitmap *bitmap) { - xbitmap_destroy(&bitmap->agbitmap); + xbitmap32_destroy(&bitmap->agbitmap); } static inline int xagb_bitmap_clear(struct xagb_bitmap *bitmap, xfs_agblock_t start, xfs_extlen_t len) { - return xbitmap_clear(&bitmap->agbitmap, start, len); + return xbitmap32_clear(&bitmap->agbitmap, start, len); } static inline int xagb_bitmap_set(struct xagb_bitmap *bitmap, xfs_agblock_t start, xfs_extlen_t len) { - return xbitmap_set(&bitmap->agbitmap, start, len); + return xbitmap32_set(&bitmap->agbitmap, start, len); } -static inline bool -xagb_bitmap_test( - struct xagb_bitmap *bitmap, - xfs_agblock_t start, - xfs_extlen_t *len) +static inline bool xagb_bitmap_test(struct xagb_bitmap *bitmap, + xfs_agblock_t start, xfs_extlen_t *len) { - uint64_t biglen = *len; - bool ret; - - ret = xbitmap_test(&bitmap->agbitmap, start, &biglen); - - if (start + biglen >= UINT_MAX) { - ASSERT(0); - biglen = UINT_MAX - start; - } - - *len = biglen; - return ret; + return xbitmap32_test(&bitmap->agbitmap, start, len); } static inline int xagb_bitmap_disunion(struct xagb_bitmap *bitmap, struct xagb_bitmap *sub) { - return xbitmap_disunion(&bitmap->agbitmap, &sub->agbitmap); + return xbitmap32_disunion(&bitmap->agbitmap, &sub->agbitmap); } static inline uint32_t xagb_bitmap_hweight(struct xagb_bitmap *bitmap) { - return xbitmap_hweight(&bitmap->agbitmap); + return xbitmap32_hweight(&bitmap->agbitmap); } static inline bool xagb_bitmap_empty(struct xagb_bitmap *bitmap) { - return xbitmap_empty(&bitmap->agbitmap); + return xbitmap32_empty(&bitmap->agbitmap); } static inline int xagb_bitmap_walk(struct xagb_bitmap *bitmap, - xbitmap_walk_fn fn, void *priv) + xbitmap32_walk_fn fn, void *priv) { - return xbitmap_walk(&bitmap->agbitmap, fn, priv); + return xbitmap32_walk(&bitmap->agbitmap, fn, priv); } int xagb_bitmap_set_btblocks(struct xagb_bitmap *bitmap, diff --git a/fs/xfs/scrub/reap.c b/fs/xfs/scrub/reap.c index 300f49e8e14a..b1f112ecc062 100644 --- a/fs/xfs/scrub/reap.c +++ b/fs/xfs/scrub/reap.c @@ -430,13 +430,12 @@ xreap_agextent_iter( */ STATIC int xreap_agmeta_extent( - uint64_t fsbno, - uint64_t len, + uint32_t agbno, + uint32_t len, void *priv) { struct xreap_state *rs = priv; struct xfs_scrub *sc = rs->sc; - xfs_agblock_t agbno = fsbno; xfs_agblock_t agbno_next = agbno + len; int error = 0; |