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993ceab919
dm_btree_remove_leaves() only unmaps a contiguous region so we need a
loop, in __remove_range(), to handle ranges that contain multiple
regions.
A new btree function, dm_btree_lookup_next(), is introduced which is
more efficiently able to skip over regions of the thin device which
aren't mapped. __remove_range() uses dm_btree_lookup_next() for each
iteration of __remove_range()'s loop.
Also, improve description of dm_btree_remove_leaves().
Fixes: 6550f075
("dm thin metadata: add dm_thin_remove_range()")
Signed-off-by: Joe Thornber <ejt@redhat.com>
Signed-off-by: Mike Snitzer <snitzer@redhat.com>
Cc: stable@vger.kernel.org # 4.1+
180 lines
5.2 KiB
C
180 lines
5.2 KiB
C
/*
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* Copyright (C) 2011 Red Hat, Inc.
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*
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* This file is released under the GPL.
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*/
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#ifndef _LINUX_DM_BTREE_H
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#define _LINUX_DM_BTREE_H
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#include "dm-block-manager.h"
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struct dm_transaction_manager;
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/*----------------------------------------------------------------*/
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/*
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* Annotations used to check on-disk metadata is handled as little-endian.
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*/
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#ifdef __CHECKER__
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# define __dm_written_to_disk(x) __releases(x)
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# define __dm_reads_from_disk(x) __acquires(x)
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# define __dm_bless_for_disk(x) __acquire(x)
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# define __dm_unbless_for_disk(x) __release(x)
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#else
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# define __dm_written_to_disk(x)
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# define __dm_reads_from_disk(x)
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# define __dm_bless_for_disk(x)
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# define __dm_unbless_for_disk(x)
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#endif
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/*----------------------------------------------------------------*/
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/*
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* Manipulates hierarchical B+ trees with 64-bit keys and arbitrary-sized
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* values.
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*/
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/*
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* Information about the values stored within the btree.
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*/
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struct dm_btree_value_type {
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void *context;
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/*
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* The size in bytes of each value.
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*/
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uint32_t size;
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/*
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* Any of these methods can be safely set to NULL if you do not
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* need the corresponding feature.
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*/
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/*
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* The btree is making a duplicate of the value, for instance
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* because previously-shared btree nodes have now diverged.
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* @value argument is the new copy that the copy function may modify.
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* (Probably it just wants to increment a reference count
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* somewhere.) This method is _not_ called for insertion of a new
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* value: It is assumed the ref count is already 1.
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*/
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void (*inc)(void *context, const void *value);
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/*
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* This value is being deleted. The btree takes care of freeing
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* the memory pointed to by @value. Often the del function just
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* needs to decrement a reference count somewhere.
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*/
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void (*dec)(void *context, const void *value);
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/*
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* A test for equality between two values. When a value is
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* overwritten with a new one, the old one has the dec method
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* called _unless_ the new and old value are deemed equal.
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*/
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int (*equal)(void *context, const void *value1, const void *value2);
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};
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/*
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* The shape and contents of a btree.
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*/
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struct dm_btree_info {
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struct dm_transaction_manager *tm;
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/*
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* Number of nested btrees. (Not the depth of a single tree.)
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*/
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unsigned levels;
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struct dm_btree_value_type value_type;
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};
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/*
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* Set up an empty tree. O(1).
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*/
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int dm_btree_empty(struct dm_btree_info *info, dm_block_t *root);
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/*
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* Delete a tree. O(n) - this is the slow one! It can also block, so
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* please don't call it on an IO path.
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*/
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int dm_btree_del(struct dm_btree_info *info, dm_block_t root);
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/*
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* All the lookup functions return -ENODATA if the key cannot be found.
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*/
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/*
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* Tries to find a key that matches exactly. O(ln(n))
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*/
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int dm_btree_lookup(struct dm_btree_info *info, dm_block_t root,
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uint64_t *keys, void *value_le);
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/*
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* Tries to find the first key where the bottom level key is >= to that
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* given. Useful for skipping empty sections of the btree.
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*/
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int dm_btree_lookup_next(struct dm_btree_info *info, dm_block_t root,
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uint64_t *keys, uint64_t *rkey, void *value_le);
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/*
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* Insertion (or overwrite an existing value). O(ln(n))
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*/
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int dm_btree_insert(struct dm_btree_info *info, dm_block_t root,
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uint64_t *keys, void *value, dm_block_t *new_root)
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__dm_written_to_disk(value);
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/*
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* A variant of insert that indicates whether it actually inserted or just
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* overwrote. Useful if you're keeping track of the number of entries in a
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* tree.
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*/
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int dm_btree_insert_notify(struct dm_btree_info *info, dm_block_t root,
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uint64_t *keys, void *value, dm_block_t *new_root,
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int *inserted)
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__dm_written_to_disk(value);
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/*
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* Remove a key if present. This doesn't remove empty sub trees. Normally
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* subtrees represent a separate entity, like a snapshot map, so this is
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* correct behaviour. O(ln(n)).
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*/
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int dm_btree_remove(struct dm_btree_info *info, dm_block_t root,
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uint64_t *keys, dm_block_t *new_root);
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/*
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* Removes a _contiguous_ run of values starting from 'keys' and not
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* reaching keys2 (where keys2 is keys with the final key replaced with
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* 'end_key'). 'end_key' is the one-past-the-end value. 'keys' may be
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* altered.
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*/
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int dm_btree_remove_leaves(struct dm_btree_info *info, dm_block_t root,
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uint64_t *keys, uint64_t end_key,
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dm_block_t *new_root, unsigned *nr_removed);
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/*
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* Returns < 0 on failure. Otherwise the number of key entries that have
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* been filled out. Remember trees can have zero entries, and as such have
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* no lowest key.
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*/
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int dm_btree_find_lowest_key(struct dm_btree_info *info, dm_block_t root,
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uint64_t *result_keys);
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/*
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* Returns < 0 on failure. Otherwise the number of key entries that have
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* been filled out. Remember trees can have zero entries, and as such have
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* no highest key.
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*/
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int dm_btree_find_highest_key(struct dm_btree_info *info, dm_block_t root,
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uint64_t *result_keys);
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/*
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* Iterate through the a btree, calling fn() on each entry.
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* It only works for single level trees and is internally recursive, so
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* monitor stack usage carefully.
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*/
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int dm_btree_walk(struct dm_btree_info *info, dm_block_t root,
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int (*fn)(void *context, uint64_t *keys, void *leaf),
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void *context);
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#endif /* _LINUX_DM_BTREE_H */
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