1b2441318SGreg Kroah-Hartman /* SPDX-License-Identifier: GPL-2.0 */
2cafe5635SKent Overstreet #ifndef _BCACHE_BSET_H
3cafe5635SKent Overstreet #define _BCACHE_BSET_H
4cafe5635SKent Overstreet
589ebb4a2SKent Overstreet #include <linux/kernel.h>
689ebb4a2SKent Overstreet #include <linux/types.h>
7c37511b8SKent Overstreet
8cf2197caSColy Li #include "bcache_ondisk.h"
967539e85SKent Overstreet #include "util.h" /* for time_stats */
1067539e85SKent Overstreet
11cafe5635SKent Overstreet /*
12cafe5635SKent Overstreet * BKEYS:
13cafe5635SKent Overstreet *
14cafe5635SKent Overstreet * A bkey contains a key, a size field, a variable number of pointers, and some
15cafe5635SKent Overstreet * ancillary flag bits.
16cafe5635SKent Overstreet *
17cafe5635SKent Overstreet * We use two different functions for validating bkeys, bch_ptr_invalid and
18cafe5635SKent Overstreet * bch_ptr_bad().
19cafe5635SKent Overstreet *
20cafe5635SKent Overstreet * bch_ptr_invalid() primarily filters out keys and pointers that would be
21cafe5635SKent Overstreet * invalid due to some sort of bug, whereas bch_ptr_bad() filters out keys and
22cafe5635SKent Overstreet * pointer that occur in normal practice but don't point to real data.
23cafe5635SKent Overstreet *
24cafe5635SKent Overstreet * The one exception to the rule that ptr_invalid() filters out invalid keys is
25cafe5635SKent Overstreet * that it also filters out keys of size 0 - these are keys that have been
26cafe5635SKent Overstreet * completely overwritten. It'd be safe to delete these in memory while leaving
27cafe5635SKent Overstreet * them on disk, just unnecessary work - so we filter them out when resorting
28cafe5635SKent Overstreet * instead.
29cafe5635SKent Overstreet *
30cafe5635SKent Overstreet * We can't filter out stale keys when we're resorting, because garbage
31cafe5635SKent Overstreet * collection needs to find them to ensure bucket gens don't wrap around -
32cafe5635SKent Overstreet * unless we're rewriting the btree node those stale keys still exist on disk.
33cafe5635SKent Overstreet *
34cafe5635SKent Overstreet * We also implement functions here for removing some number of sectors from the
35cafe5635SKent Overstreet * front or the back of a bkey - this is mainly used for fixing overlapping
36cafe5635SKent Overstreet * extents, by removing the overlapping sectors from the older key.
37cafe5635SKent Overstreet *
38cafe5635SKent Overstreet * BSETS:
39cafe5635SKent Overstreet *
40cafe5635SKent Overstreet * A bset is an array of bkeys laid out contiguously in memory in sorted order,
41cafe5635SKent Overstreet * along with a header. A btree node is made up of a number of these, written at
42cafe5635SKent Overstreet * different times.
43cafe5635SKent Overstreet *
44cafe5635SKent Overstreet * There could be many of them on disk, but we never allow there to be more than
45cafe5635SKent Overstreet * 4 in memory - we lazily resort as needed.
46cafe5635SKent Overstreet *
47cafe5635SKent Overstreet * We implement code here for creating and maintaining auxiliary search trees
48cafe5635SKent Overstreet * (described below) for searching an individial bset, and on top of that we
49cafe5635SKent Overstreet * implement a btree iterator.
50cafe5635SKent Overstreet *
51cafe5635SKent Overstreet * BTREE ITERATOR:
52cafe5635SKent Overstreet *
53cafe5635SKent Overstreet * Most of the code in bcache doesn't care about an individual bset - it needs
54cafe5635SKent Overstreet * to search entire btree nodes and iterate over them in sorted order.
55cafe5635SKent Overstreet *
56cafe5635SKent Overstreet * The btree iterator code serves both functions; it iterates through the keys
57cafe5635SKent Overstreet * in a btree node in sorted order, starting from either keys after a specific
58cafe5635SKent Overstreet * point (if you pass it a search key) or the start of the btree node.
59cafe5635SKent Overstreet *
60cafe5635SKent Overstreet * AUXILIARY SEARCH TREES:
61cafe5635SKent Overstreet *
62cafe5635SKent Overstreet * Since keys are variable length, we can't use a binary search on a bset - we
63cafe5635SKent Overstreet * wouldn't be able to find the start of the next key. But binary searches are
64cafe5635SKent Overstreet * slow anyways, due to terrible cache behaviour; bcache originally used binary
65cafe5635SKent Overstreet * searches and that code topped out at under 50k lookups/second.
66cafe5635SKent Overstreet *
67cafe5635SKent Overstreet * So we need to construct some sort of lookup table. Since we only insert keys
68cafe5635SKent Overstreet * into the last (unwritten) set, most of the keys within a given btree node are
69cafe5635SKent Overstreet * usually in sets that are mostly constant. We use two different types of
70cafe5635SKent Overstreet * lookup tables to take advantage of this.
71cafe5635SKent Overstreet *
72cafe5635SKent Overstreet * Both lookup tables share in common that they don't index every key in the
73cafe5635SKent Overstreet * set; they index one key every BSET_CACHELINE bytes, and then a linear search
74cafe5635SKent Overstreet * is used for the rest.
75cafe5635SKent Overstreet *
76cafe5635SKent Overstreet * For sets that have been written to disk and are no longer being inserted
77cafe5635SKent Overstreet * into, we construct a binary search tree in an array - traversing a binary
78cafe5635SKent Overstreet * search tree in an array gives excellent locality of reference and is very
79cafe5635SKent Overstreet * fast, since both children of any node are adjacent to each other in memory
80cafe5635SKent Overstreet * (and their grandchildren, and great grandchildren...) - this means
81cafe5635SKent Overstreet * prefetching can be used to great effect.
82cafe5635SKent Overstreet *
83cafe5635SKent Overstreet * It's quite useful performance wise to keep these nodes small - not just
84cafe5635SKent Overstreet * because they're more likely to be in L2, but also because we can prefetch
85cafe5635SKent Overstreet * more nodes on a single cacheline and thus prefetch more iterations in advance
86cafe5635SKent Overstreet * when traversing this tree.
87cafe5635SKent Overstreet *
88cafe5635SKent Overstreet * Nodes in the auxiliary search tree must contain both a key to compare against
89cafe5635SKent Overstreet * (we don't want to fetch the key from the set, that would defeat the purpose),
90cafe5635SKent Overstreet * and a pointer to the key. We use a few tricks to compress both of these.
91cafe5635SKent Overstreet *
92cafe5635SKent Overstreet * To compress the pointer, we take advantage of the fact that one node in the
93cafe5635SKent Overstreet * search tree corresponds to precisely BSET_CACHELINE bytes in the set. We have
94cafe5635SKent Overstreet * a function (to_inorder()) that takes the index of a node in a binary tree and
95cafe5635SKent Overstreet * returns what its index would be in an inorder traversal, so we only have to
96cafe5635SKent Overstreet * store the low bits of the offset.
97cafe5635SKent Overstreet *
98cafe5635SKent Overstreet * The key is 84 bits (KEY_DEV + key->key, the offset on the device). To
99cafe5635SKent Overstreet * compress that, we take advantage of the fact that when we're traversing the
100cafe5635SKent Overstreet * search tree at every iteration we know that both our search key and the key
101cafe5635SKent Overstreet * we're looking for lie within some range - bounded by our previous
102cafe5635SKent Overstreet * comparisons. (We special case the start of a search so that this is true even
103cafe5635SKent Overstreet * at the root of the tree).
104cafe5635SKent Overstreet *
105cafe5635SKent Overstreet * So we know the key we're looking for is between a and b, and a and b don't
106cafe5635SKent Overstreet * differ higher than bit 50, we don't need to check anything higher than bit
107cafe5635SKent Overstreet * 50.
108cafe5635SKent Overstreet *
109cafe5635SKent Overstreet * We don't usually need the rest of the bits, either; we only need enough bits
110cafe5635SKent Overstreet * to partition the key range we're currently checking. Consider key n - the
111cafe5635SKent Overstreet * key our auxiliary search tree node corresponds to, and key p, the key
112cafe5635SKent Overstreet * immediately preceding n. The lowest bit we need to store in the auxiliary
113cafe5635SKent Overstreet * search tree is the highest bit that differs between n and p.
114cafe5635SKent Overstreet *
115cafe5635SKent Overstreet * Note that this could be bit 0 - we might sometimes need all 80 bits to do the
116cafe5635SKent Overstreet * comparison. But we'd really like our nodes in the auxiliary search tree to be
117cafe5635SKent Overstreet * of fixed size.
118cafe5635SKent Overstreet *
119cafe5635SKent Overstreet * The solution is to make them fixed size, and when we're constructing a node
120cafe5635SKent Overstreet * check if p and n differed in the bits we needed them to. If they don't we
121cafe5635SKent Overstreet * flag that node, and when doing lookups we fallback to comparing against the
122cafe5635SKent Overstreet * real key. As long as this doesn't happen to often (and it seems to reliably
123cafe5635SKent Overstreet * happen a bit less than 1% of the time), we win - even on failures, that key
124cafe5635SKent Overstreet * is then more likely to be in cache than if we were doing binary searches all
125cafe5635SKent Overstreet * the way, since we're touching so much less memory.
126cafe5635SKent Overstreet *
127cafe5635SKent Overstreet * The keys in the auxiliary search tree are stored in (software) floating
128cafe5635SKent Overstreet * point, with an exponent and a mantissa. The exponent needs to be big enough
129cafe5635SKent Overstreet * to address all the bits in the original key, but the number of bits in the
130cafe5635SKent Overstreet * mantissa is somewhat arbitrary; more bits just gets us fewer failures.
131cafe5635SKent Overstreet *
132cafe5635SKent Overstreet * We need 7 bits for the exponent and 3 bits for the key's offset (since keys
133cafe5635SKent Overstreet * are 8 byte aligned); using 22 bits for the mantissa means a node is 4 bytes.
134cafe5635SKent Overstreet * We need one node per 128 bytes in the btree node, which means the auxiliary
135cafe5635SKent Overstreet * search trees take up 3% as much memory as the btree itself.
136cafe5635SKent Overstreet *
137cafe5635SKent Overstreet * Constructing these auxiliary search trees is moderately expensive, and we
138cafe5635SKent Overstreet * don't want to be constantly rebuilding the search tree for the last set
139cafe5635SKent Overstreet * whenever we insert another key into it. For the unwritten set, we use a much
140cafe5635SKent Overstreet * simpler lookup table - it's just a flat array, so index i in the lookup table
141cafe5635SKent Overstreet * corresponds to the i range of BSET_CACHELINE bytes in the set. Indexing
142cafe5635SKent Overstreet * within each byte range works the same as with the auxiliary search trees.
143cafe5635SKent Overstreet *
144cafe5635SKent Overstreet * These are much easier to keep up to date when we insert a key - we do it
145cafe5635SKent Overstreet * somewhat lazily; when we shift a key up we usually just increment the pointer
146cafe5635SKent Overstreet * to it, only when it would overflow do we go to the trouble of finding the
147cafe5635SKent Overstreet * first key in that range of bytes again.
148cafe5635SKent Overstreet */
149cafe5635SKent Overstreet
150a85e968eSKent Overstreet struct btree_keys;
151a85e968eSKent Overstreet struct btree_iter;
152a85e968eSKent Overstreet struct btree_iter_set;
153ee811287SKent Overstreet struct bkey_float;
154cafe5635SKent Overstreet
155c37511b8SKent Overstreet #define MAX_BSETS 4U
156c37511b8SKent Overstreet
157cafe5635SKent Overstreet struct bset_tree {
158cafe5635SKent Overstreet /*
159cafe5635SKent Overstreet * We construct a binary tree in an array as if the array
160cafe5635SKent Overstreet * started at 1, so that things line up on the same cachelines
161cafe5635SKent Overstreet * better: see comments in bset.c at cacheline_to_bkey() for
162cafe5635SKent Overstreet * details
163cafe5635SKent Overstreet */
164cafe5635SKent Overstreet
165cafe5635SKent Overstreet /* size of the binary tree and prev array */
1666f10f7d1SColy Li unsigned int size;
167cafe5635SKent Overstreet
168cafe5635SKent Overstreet /* function of size - precalculated for to_inorder() */
1696f10f7d1SColy Li unsigned int extra;
170cafe5635SKent Overstreet
171cafe5635SKent Overstreet /* copy of the last key in the set */
172cafe5635SKent Overstreet struct bkey end;
173cafe5635SKent Overstreet struct bkey_float *tree;
174cafe5635SKent Overstreet
175cafe5635SKent Overstreet /*
176cafe5635SKent Overstreet * The nodes in the bset tree point to specific keys - this
177cafe5635SKent Overstreet * array holds the sizes of the previous key.
178cafe5635SKent Overstreet *
179cafe5635SKent Overstreet * Conceptually it's a member of struct bkey_float, but we want
180cafe5635SKent Overstreet * to keep bkey_float to 4 bytes and prev isn't used in the fast
181cafe5635SKent Overstreet * path.
182cafe5635SKent Overstreet */
183cafe5635SKent Overstreet uint8_t *prev;
184cafe5635SKent Overstreet
185cafe5635SKent Overstreet /* The actual btree node, with pointers to each sorted set */
186cafe5635SKent Overstreet struct bset *data;
187cafe5635SKent Overstreet };
188cafe5635SKent Overstreet
189a85e968eSKent Overstreet struct btree_keys_ops {
190fc2d5988SColy Li bool (*sort_cmp)(struct btree_iter_set l,
191fc2d5988SColy Li struct btree_iter_set r);
192fc2d5988SColy Li struct bkey *(*sort_fixup)(struct btree_iter *iter,
193fc2d5988SColy Li struct bkey *tmp);
194fc2d5988SColy Li bool (*insert_fixup)(struct btree_keys *b,
195fc2d5988SColy Li struct bkey *insert,
196fc2d5988SColy Li struct btree_iter *iter,
197fc2d5988SColy Li struct bkey *replace_key);
198fc2d5988SColy Li bool (*key_invalid)(struct btree_keys *bk,
199fc2d5988SColy Li const struct bkey *k);
200fc2d5988SColy Li bool (*key_bad)(struct btree_keys *bk,
201fc2d5988SColy Li const struct bkey *k);
202fc2d5988SColy Li bool (*key_merge)(struct btree_keys *bk,
203fc2d5988SColy Li struct bkey *l, struct bkey *r);
204fc2d5988SColy Li void (*key_to_text)(char *buf,
205fc2d5988SColy Li size_t size,
206fc2d5988SColy Li const struct bkey *k);
207fc2d5988SColy Li void (*key_dump)(struct btree_keys *keys,
208fc2d5988SColy Li const struct bkey *k);
209a85e968eSKent Overstreet
210a85e968eSKent Overstreet /*
211a85e968eSKent Overstreet * Only used for deciding whether to use START_KEY(k) or just the key
212a85e968eSKent Overstreet * itself in a couple places
213a85e968eSKent Overstreet */
214a85e968eSKent Overstreet bool is_extents;
215a85e968eSKent Overstreet };
216a85e968eSKent Overstreet
217a85e968eSKent Overstreet struct btree_keys {
218a85e968eSKent Overstreet const struct btree_keys_ops *ops;
219a85e968eSKent Overstreet uint8_t page_order;
220a85e968eSKent Overstreet uint8_t nsets;
2216f10f7d1SColy Li unsigned int last_set_unwritten:1;
222a85e968eSKent Overstreet bool *expensive_debug_checks;
223a85e968eSKent Overstreet
224a85e968eSKent Overstreet /*
225a85e968eSKent Overstreet * Sets of sorted keys - the real btree node - plus a binary search tree
226a85e968eSKent Overstreet *
227a85e968eSKent Overstreet * set[0] is special; set[0]->tree, set[0]->prev and set[0]->data point
228a85e968eSKent Overstreet * to the memory we have allocated for this btree node. Additionally,
229a85e968eSKent Overstreet * set[0]->data points to the entire btree node as it exists on disk.
230a85e968eSKent Overstreet */
231a85e968eSKent Overstreet struct bset_tree set[MAX_BSETS];
232a85e968eSKent Overstreet };
233a85e968eSKent Overstreet
bset_tree_last(struct btree_keys * b)234a85e968eSKent Overstreet static inline struct bset_tree *bset_tree_last(struct btree_keys *b)
235a85e968eSKent Overstreet {
236a85e968eSKent Overstreet return b->set + b->nsets;
237a85e968eSKent Overstreet }
238a85e968eSKent Overstreet
bset_written(struct btree_keys * b,struct bset_tree * t)239a85e968eSKent Overstreet static inline bool bset_written(struct btree_keys *b, struct bset_tree *t)
240a85e968eSKent Overstreet {
241a85e968eSKent Overstreet return t <= b->set + b->nsets - b->last_set_unwritten;
242a85e968eSKent Overstreet }
243a85e968eSKent Overstreet
bkey_written(struct btree_keys * b,struct bkey * k)244a85e968eSKent Overstreet static inline bool bkey_written(struct btree_keys *b, struct bkey *k)
245a85e968eSKent Overstreet {
246a85e968eSKent Overstreet return !b->last_set_unwritten || k < b->set[b->nsets].data->start;
247a85e968eSKent Overstreet }
248a85e968eSKent Overstreet
bset_byte_offset(struct btree_keys * b,struct bset * i)249b0d30981SColy Li static inline unsigned int bset_byte_offset(struct btree_keys *b,
250b0d30981SColy Li struct bset *i)
251a85e968eSKent Overstreet {
252a85e968eSKent Overstreet return ((size_t) i) - ((size_t) b->set->data);
253a85e968eSKent Overstreet }
254a85e968eSKent Overstreet
bset_sector_offset(struct btree_keys * b,struct bset * i)255b0d30981SColy Li static inline unsigned int bset_sector_offset(struct btree_keys *b,
256b0d30981SColy Li struct bset *i)
257a85e968eSKent Overstreet {
258a85e968eSKent Overstreet return bset_byte_offset(b, i) >> 9;
259a85e968eSKent Overstreet }
260a85e968eSKent Overstreet
261ee811287SKent Overstreet #define __set_bytes(i, k) (sizeof(*(i)) + (k) * sizeof(uint64_t))
262ee811287SKent Overstreet #define set_bytes(i) __set_bytes(i, i->keys)
263ee811287SKent Overstreet
264ee811287SKent Overstreet #define __set_blocks(i, k, block_bytes) \
265ee811287SKent Overstreet DIV_ROUND_UP(__set_bytes(i, k), block_bytes)
266ee811287SKent Overstreet #define set_blocks(i, block_bytes) \
267ee811287SKent Overstreet __set_blocks(i, (i)->keys, block_bytes)
268ee811287SKent Overstreet
bch_btree_keys_u64s_remaining(struct btree_keys * b)26959158fdeSKent Overstreet static inline size_t bch_btree_keys_u64s_remaining(struct btree_keys *b)
27059158fdeSKent Overstreet {
27159158fdeSKent Overstreet struct bset_tree *t = bset_tree_last(b);
27259158fdeSKent Overstreet
27359158fdeSKent Overstreet BUG_ON((PAGE_SIZE << b->page_order) <
27459158fdeSKent Overstreet (bset_byte_offset(b, t->data) + set_bytes(t->data)));
27559158fdeSKent Overstreet
27659158fdeSKent Overstreet if (!b->last_set_unwritten)
27759158fdeSKent Overstreet return 0;
27859158fdeSKent Overstreet
27959158fdeSKent Overstreet return ((PAGE_SIZE << b->page_order) -
28059158fdeSKent Overstreet (bset_byte_offset(b, t->data) + set_bytes(t->data))) /
28159158fdeSKent Overstreet sizeof(u64);
28259158fdeSKent Overstreet }
28359158fdeSKent Overstreet
bset_next_set(struct btree_keys * b,unsigned int block_bytes)284a85e968eSKent Overstreet static inline struct bset *bset_next_set(struct btree_keys *b,
2856f10f7d1SColy Li unsigned int block_bytes)
286a85e968eSKent Overstreet {
287a85e968eSKent Overstreet struct bset *i = bset_tree_last(b)->data;
288ee811287SKent Overstreet
289a85e968eSKent Overstreet return ((void *) i) + roundup(set_bytes(i), block_bytes);
290a85e968eSKent Overstreet }
291a85e968eSKent Overstreet
292fc2d5988SColy Li void bch_btree_keys_free(struct btree_keys *b);
293fc2d5988SColy Li int bch_btree_keys_alloc(struct btree_keys *b, unsigned int page_order,
294fc2d5988SColy Li gfp_t gfp);
295fc2d5988SColy Li void bch_btree_keys_init(struct btree_keys *b, const struct btree_keys_ops *ops,
296fc2d5988SColy Li bool *expensive_debug_checks);
297a85e968eSKent Overstreet
298fc2d5988SColy Li void bch_bset_init_next(struct btree_keys *b, struct bset *i, uint64_t magic);
299fc2d5988SColy Li void bch_bset_build_written_tree(struct btree_keys *b);
300fc2d5988SColy Li void bch_bset_fix_invalidated_key(struct btree_keys *b, struct bkey *k);
301fc2d5988SColy Li bool bch_bkey_try_merge(struct btree_keys *b, struct bkey *l, struct bkey *r);
302fc2d5988SColy Li void bch_bset_insert(struct btree_keys *b, struct bkey *where,
303fc2d5988SColy Li struct bkey *insert);
304fc2d5988SColy Li unsigned int bch_btree_insert_key(struct btree_keys *b, struct bkey *k,
305fc2d5988SColy Li struct bkey *replace_key);
306829a60b9SKent Overstreet
307829a60b9SKent Overstreet enum {
308829a60b9SKent Overstreet BTREE_INSERT_STATUS_NO_INSERT = 0,
309829a60b9SKent Overstreet BTREE_INSERT_STATUS_INSERT,
310829a60b9SKent Overstreet BTREE_INSERT_STATUS_BACK_MERGE,
311829a60b9SKent Overstreet BTREE_INSERT_STATUS_OVERWROTE,
312829a60b9SKent Overstreet BTREE_INSERT_STATUS_FRONT_MERGE,
313829a60b9SKent Overstreet };
314a85e968eSKent Overstreet
315ee811287SKent Overstreet /* Btree key iteration */
316ee811287SKent Overstreet
317ee811287SKent Overstreet struct btree_iter {
318ee811287SKent Overstreet size_t size, used;
319ee811287SKent Overstreet #ifdef CONFIG_BCACHE_DEBUG
320c052dd9aSKent Overstreet struct btree_keys *b;
321ee811287SKent Overstreet #endif
322ee811287SKent Overstreet struct btree_iter_set {
323ee811287SKent Overstreet struct bkey *k, *end;
324*6479b9f4SMatthew Mirvish } data[];
325*6479b9f4SMatthew Mirvish };
326*6479b9f4SMatthew Mirvish
327*6479b9f4SMatthew Mirvish /* Fixed-size btree_iter that can be allocated on the stack */
328*6479b9f4SMatthew Mirvish
329*6479b9f4SMatthew Mirvish struct btree_iter_stack {
330*6479b9f4SMatthew Mirvish struct btree_iter iter;
331*6479b9f4SMatthew Mirvish struct btree_iter_set stack_data[MAX_BSETS];
332ee811287SKent Overstreet };
333ee811287SKent Overstreet
334fc2d5988SColy Li typedef bool (*ptr_filter_fn)(struct btree_keys *b, const struct bkey *k);
335ee811287SKent Overstreet
336fc2d5988SColy Li struct bkey *bch_btree_iter_next(struct btree_iter *iter);
337fc2d5988SColy Li struct bkey *bch_btree_iter_next_filter(struct btree_iter *iter,
338fc2d5988SColy Li struct btree_keys *b,
339fc2d5988SColy Li ptr_filter_fn fn);
340ee811287SKent Overstreet
341fc2d5988SColy Li void bch_btree_iter_push(struct btree_iter *iter, struct bkey *k,
342fc2d5988SColy Li struct bkey *end);
343*6479b9f4SMatthew Mirvish struct bkey *bch_btree_iter_stack_init(struct btree_keys *b,
344*6479b9f4SMatthew Mirvish struct btree_iter_stack *iter,
345fc2d5988SColy Li struct bkey *search);
346ee811287SKent Overstreet
347fc2d5988SColy Li struct bkey *__bch_bset_search(struct btree_keys *b, struct bset_tree *t,
348fc2d5988SColy Li const struct bkey *search);
349ee811287SKent Overstreet
350ee811287SKent Overstreet /*
351ee811287SKent Overstreet * Returns the first key that is strictly greater than search
352ee811287SKent Overstreet */
bch_bset_search(struct btree_keys * b,struct bset_tree * t,const struct bkey * search)353c052dd9aSKent Overstreet static inline struct bkey *bch_bset_search(struct btree_keys *b,
354c052dd9aSKent Overstreet struct bset_tree *t,
355ee811287SKent Overstreet const struct bkey *search)
356ee811287SKent Overstreet {
357ee811287SKent Overstreet return search ? __bch_bset_search(b, t, search) : t->data->start;
358ee811287SKent Overstreet }
359ee811287SKent Overstreet
360*6479b9f4SMatthew Mirvish #define for_each_key_filter(b, k, stack_iter, filter) \
361*6479b9f4SMatthew Mirvish for (bch_btree_iter_stack_init((b), (stack_iter), NULL); \
362*6479b9f4SMatthew Mirvish ((k) = bch_btree_iter_next_filter(&((stack_iter)->iter), (b), \
363*6479b9f4SMatthew Mirvish filter));)
364c052dd9aSKent Overstreet
365*6479b9f4SMatthew Mirvish #define for_each_key(b, k, stack_iter) \
366*6479b9f4SMatthew Mirvish for (bch_btree_iter_stack_init((b), (stack_iter), NULL); \
367*6479b9f4SMatthew Mirvish ((k) = bch_btree_iter_next(&((stack_iter)->iter)));)
368c052dd9aSKent Overstreet
36967539e85SKent Overstreet /* Sorting */
37067539e85SKent Overstreet
37167539e85SKent Overstreet struct bset_sort_state {
372d19936a2SKent Overstreet mempool_t pool;
37367539e85SKent Overstreet
3746f10f7d1SColy Li unsigned int page_order;
3756f10f7d1SColy Li unsigned int crit_factor;
37667539e85SKent Overstreet
37767539e85SKent Overstreet struct time_stats time;
37867539e85SKent Overstreet };
37967539e85SKent Overstreet
380fc2d5988SColy Li void bch_bset_sort_state_free(struct bset_sort_state *state);
381fc2d5988SColy Li int bch_bset_sort_state_init(struct bset_sort_state *state,
382fc2d5988SColy Li unsigned int page_order);
383fc2d5988SColy Li void bch_btree_sort_lazy(struct btree_keys *b, struct bset_sort_state *state);
384fc2d5988SColy Li void bch_btree_sort_into(struct btree_keys *b, struct btree_keys *new,
385fc2d5988SColy Li struct bset_sort_state *state);
386fc2d5988SColy Li void bch_btree_sort_and_fix_extents(struct btree_keys *b,
387fc2d5988SColy Li struct btree_iter *iter,
388fc2d5988SColy Li struct bset_sort_state *state);
389fc2d5988SColy Li void bch_btree_sort_partial(struct btree_keys *b, unsigned int start,
390fc2d5988SColy Li struct bset_sort_state *state);
39167539e85SKent Overstreet
bch_btree_sort(struct btree_keys * b,struct bset_sort_state * state)39289ebb4a2SKent Overstreet static inline void bch_btree_sort(struct btree_keys *b,
39367539e85SKent Overstreet struct bset_sort_state *state)
39467539e85SKent Overstreet {
39567539e85SKent Overstreet bch_btree_sort_partial(b, 0, state);
39667539e85SKent Overstreet }
39767539e85SKent Overstreet
398f67342ddSKent Overstreet struct bset_stats {
399f67342ddSKent Overstreet size_t sets_written, sets_unwritten;
400f67342ddSKent Overstreet size_t bytes_written, bytes_unwritten;
401f67342ddSKent Overstreet size_t floats, failed;
402f67342ddSKent Overstreet };
403f67342ddSKent Overstreet
404fc2d5988SColy Li void bch_btree_keys_stats(struct btree_keys *b, struct bset_stats *state);
405f67342ddSKent Overstreet
406ee811287SKent Overstreet /* Bkey utility code */
407ee811287SKent Overstreet
4087c02b005SColy Li #define bset_bkey_last(i) bkey_idx((struct bkey *) (i)->d, \
4097c02b005SColy Li (unsigned int)(i)->keys)
410ee811287SKent Overstreet
bset_bkey_idx(struct bset * i,unsigned int idx)4116f10f7d1SColy Li static inline struct bkey *bset_bkey_idx(struct bset *i, unsigned int idx)
412ee811287SKent Overstreet {
413ee811287SKent Overstreet return bkey_idx(i->start, idx);
414ee811287SKent Overstreet }
415ee811287SKent Overstreet
bkey_init(struct bkey * k)416ee811287SKent Overstreet static inline void bkey_init(struct bkey *k)
417ee811287SKent Overstreet {
418ee811287SKent Overstreet *k = ZERO_KEY;
419ee811287SKent Overstreet }
420ee811287SKent Overstreet
bkey_cmp(const struct bkey * l,const struct bkey * r)421ee811287SKent Overstreet static __always_inline int64_t bkey_cmp(const struct bkey *l,
422ee811287SKent Overstreet const struct bkey *r)
423ee811287SKent Overstreet {
424ee811287SKent Overstreet return unlikely(KEY_INODE(l) != KEY_INODE(r))
425ee811287SKent Overstreet ? (int64_t) KEY_INODE(l) - (int64_t) KEY_INODE(r)
426ee811287SKent Overstreet : (int64_t) KEY_OFFSET(l) - (int64_t) KEY_OFFSET(r);
427ee811287SKent Overstreet }
428ee811287SKent Overstreet
429fc2d5988SColy Li void bch_bkey_copy_single_ptr(struct bkey *dest, const struct bkey *src,
430fc2d5988SColy Li unsigned int i);
431fc2d5988SColy Li bool __bch_cut_front(const struct bkey *where, struct bkey *k);
432fc2d5988SColy Li bool __bch_cut_back(const struct bkey *where, struct bkey *k);
433ee811287SKent Overstreet
bch_cut_front(const struct bkey * where,struct bkey * k)434ee811287SKent Overstreet static inline bool bch_cut_front(const struct bkey *where, struct bkey *k)
435ee811287SKent Overstreet {
436ee811287SKent Overstreet BUG_ON(bkey_cmp(where, k) > 0);
437ee811287SKent Overstreet return __bch_cut_front(where, k);
438ee811287SKent Overstreet }
439ee811287SKent Overstreet
bch_cut_back(const struct bkey * where,struct bkey * k)440ee811287SKent Overstreet static inline bool bch_cut_back(const struct bkey *where, struct bkey *k)
441ee811287SKent Overstreet {
442ee811287SKent Overstreet BUG_ON(bkey_cmp(where, &START_KEY(k)) < 0);
443ee811287SKent Overstreet return __bch_cut_back(where, k);
444ee811287SKent Overstreet }
445ee811287SKent Overstreet
44631b90956SColy Li /*
44731b90956SColy Li * Pointer '*preceding_key_p' points to a memory object to store preceding
44831b90956SColy Li * key of k. If the preceding key does not exist, set '*preceding_key_p' to
44931b90956SColy Li * NULL. So the caller of preceding_key() needs to take care of memory
45031b90956SColy Li * which '*preceding_key_p' pointed to before calling preceding_key().
45131b90956SColy Li * Currently the only caller of preceding_key() is bch_btree_insert_key(),
45231b90956SColy Li * and it points to an on-stack variable, so the memory release is handled
45331b90956SColy Li * by stackframe itself.
45431b90956SColy Li */
preceding_key(struct bkey * k,struct bkey ** preceding_key_p)45531b90956SColy Li static inline void preceding_key(struct bkey *k, struct bkey **preceding_key_p)
45631b90956SColy Li {
45731b90956SColy Li if (KEY_INODE(k) || KEY_OFFSET(k)) {
45831b90956SColy Li (**preceding_key_p) = KEY(KEY_INODE(k), KEY_OFFSET(k), 0);
45931b90956SColy Li if (!(*preceding_key_p)->low)
46031b90956SColy Li (*preceding_key_p)->high--;
46131b90956SColy Li (*preceding_key_p)->low--;
46231b90956SColy Li } else {
46331b90956SColy Li (*preceding_key_p) = NULL;
46431b90956SColy Li }
46531b90956SColy Li }
466ee811287SKent Overstreet
bch_ptr_invalid(struct btree_keys * b,const struct bkey * k)467a85e968eSKent Overstreet static inline bool bch_ptr_invalid(struct btree_keys *b, const struct bkey *k)
468a85e968eSKent Overstreet {
469a85e968eSKent Overstreet return b->ops->key_invalid(b, k);
470a85e968eSKent Overstreet }
471a85e968eSKent Overstreet
bch_ptr_bad(struct btree_keys * b,const struct bkey * k)472a85e968eSKent Overstreet static inline bool bch_ptr_bad(struct btree_keys *b, const struct bkey *k)
473a85e968eSKent Overstreet {
474a85e968eSKent Overstreet return b->ops->key_bad(b, k);
475a85e968eSKent Overstreet }
476a85e968eSKent Overstreet
bch_bkey_to_text(struct btree_keys * b,char * buf,size_t size,const struct bkey * k)477dc9d98d6SKent Overstreet static inline void bch_bkey_to_text(struct btree_keys *b, char *buf,
478dc9d98d6SKent Overstreet size_t size, const struct bkey *k)
479dc9d98d6SKent Overstreet {
480dc9d98d6SKent Overstreet return b->ops->key_to_text(buf, size, k);
481dc9d98d6SKent Overstreet }
482dc9d98d6SKent Overstreet
bch_bkey_equal_header(const struct bkey * l,const struct bkey * r)4833bdad1e4SNicholas Swenson static inline bool bch_bkey_equal_header(const struct bkey *l,
4843bdad1e4SNicholas Swenson const struct bkey *r)
4853bdad1e4SNicholas Swenson {
4863bdad1e4SNicholas Swenson return (KEY_DIRTY(l) == KEY_DIRTY(r) &&
4873bdad1e4SNicholas Swenson KEY_PTRS(l) == KEY_PTRS(r) &&
4888e094808SSlava Pestov KEY_CSUM(l) == KEY_CSUM(r));
4893bdad1e4SNicholas Swenson }
4903bdad1e4SNicholas Swenson
491cafe5635SKent Overstreet /* Keylists */
492cafe5635SKent Overstreet
493cafe5635SKent Overstreet struct keylist {
494cafe5635SKent Overstreet union {
495c2f95ae2SKent Overstreet struct bkey *keys;
496c2f95ae2SKent Overstreet uint64_t *keys_p;
497c2f95ae2SKent Overstreet };
498c2f95ae2SKent Overstreet union {
499c2f95ae2SKent Overstreet struct bkey *top;
500c2f95ae2SKent Overstreet uint64_t *top_p;
501cafe5635SKent Overstreet };
502cafe5635SKent Overstreet
503cafe5635SKent Overstreet /* Enough room for btree_split's keys without realloc */
504cafe5635SKent Overstreet #define KEYLIST_INLINE 16
505c2f95ae2SKent Overstreet uint64_t inline_keys[KEYLIST_INLINE];
506cafe5635SKent Overstreet };
507cafe5635SKent Overstreet
bch_keylist_init(struct keylist * l)508cafe5635SKent Overstreet static inline void bch_keylist_init(struct keylist *l)
509cafe5635SKent Overstreet {
510c2f95ae2SKent Overstreet l->top_p = l->keys_p = l->inline_keys;
511cafe5635SKent Overstreet }
512cafe5635SKent Overstreet
bch_keylist_init_single(struct keylist * l,struct bkey * k)513c13f3af9SKent Overstreet static inline void bch_keylist_init_single(struct keylist *l, struct bkey *k)
514c13f3af9SKent Overstreet {
515c13f3af9SKent Overstreet l->keys = k;
516c13f3af9SKent Overstreet l->top = bkey_next(k);
517c13f3af9SKent Overstreet }
518c13f3af9SKent Overstreet
bch_keylist_push(struct keylist * l)519cafe5635SKent Overstreet static inline void bch_keylist_push(struct keylist *l)
520cafe5635SKent Overstreet {
521cafe5635SKent Overstreet l->top = bkey_next(l->top);
522cafe5635SKent Overstreet }
523cafe5635SKent Overstreet
bch_keylist_add(struct keylist * l,struct bkey * k)524cafe5635SKent Overstreet static inline void bch_keylist_add(struct keylist *l, struct bkey *k)
525cafe5635SKent Overstreet {
526cafe5635SKent Overstreet bkey_copy(l->top, k);
527cafe5635SKent Overstreet bch_keylist_push(l);
528cafe5635SKent Overstreet }
529cafe5635SKent Overstreet
bch_keylist_empty(struct keylist * l)530cafe5635SKent Overstreet static inline bool bch_keylist_empty(struct keylist *l)
531cafe5635SKent Overstreet {
532c2f95ae2SKent Overstreet return l->top == l->keys;
533c2f95ae2SKent Overstreet }
534c2f95ae2SKent Overstreet
bch_keylist_reset(struct keylist * l)535c2f95ae2SKent Overstreet static inline void bch_keylist_reset(struct keylist *l)
536c2f95ae2SKent Overstreet {
537c2f95ae2SKent Overstreet l->top = l->keys;
538cafe5635SKent Overstreet }
539cafe5635SKent Overstreet
bch_keylist_free(struct keylist * l)540cafe5635SKent Overstreet static inline void bch_keylist_free(struct keylist *l)
541cafe5635SKent Overstreet {
542c2f95ae2SKent Overstreet if (l->keys_p != l->inline_keys)
543c2f95ae2SKent Overstreet kfree(l->keys_p);
544cafe5635SKent Overstreet }
545cafe5635SKent Overstreet
bch_keylist_nkeys(struct keylist * l)546c2f95ae2SKent Overstreet static inline size_t bch_keylist_nkeys(struct keylist *l)
547c2f95ae2SKent Overstreet {
548c2f95ae2SKent Overstreet return l->top_p - l->keys_p;
549c2f95ae2SKent Overstreet }
550c2f95ae2SKent Overstreet
bch_keylist_bytes(struct keylist * l)551c2f95ae2SKent Overstreet static inline size_t bch_keylist_bytes(struct keylist *l)
552c2f95ae2SKent Overstreet {
553c2f95ae2SKent Overstreet return bch_keylist_nkeys(l) * sizeof(uint64_t);
554c2f95ae2SKent Overstreet }
555c2f95ae2SKent Overstreet
556fc2d5988SColy Li struct bkey *bch_keylist_pop(struct keylist *l);
557fc2d5988SColy Li void bch_keylist_pop_front(struct keylist *l);
558fc2d5988SColy Li int __bch_keylist_realloc(struct keylist *l, unsigned int u64s);
559cafe5635SKent Overstreet
560dc9d98d6SKent Overstreet /* Debug stuff */
561dc9d98d6SKent Overstreet
562dc9d98d6SKent Overstreet #ifdef CONFIG_BCACHE_DEBUG
563dc9d98d6SKent Overstreet
564fc2d5988SColy Li int __bch_count_data(struct btree_keys *b);
565fc2d5988SColy Li void __printf(2, 3) __bch_check_keys(struct btree_keys *b,
566fc2d5988SColy Li const char *fmt,
567fc2d5988SColy Li ...);
568fc2d5988SColy Li void bch_dump_bset(struct btree_keys *b, struct bset *i, unsigned int set);
569fc2d5988SColy Li void bch_dump_bucket(struct btree_keys *b);
570dc9d98d6SKent Overstreet
571dc9d98d6SKent Overstreet #else
572dc9d98d6SKent Overstreet
__bch_count_data(struct btree_keys * b)573dc9d98d6SKent Overstreet static inline int __bch_count_data(struct btree_keys *b) { return -1; }
5744a4e4438SBart Van Assche static inline void __printf(2, 3)
__bch_check_keys(struct btree_keys * b,const char * fmt,...)5754a4e4438SBart Van Assche __bch_check_keys(struct btree_keys *b, const char *fmt, ...) {}
bch_dump_bucket(struct btree_keys * b)576dc9d98d6SKent Overstreet static inline void bch_dump_bucket(struct btree_keys *b) {}
577fc2d5988SColy Li void bch_dump_bset(struct btree_keys *b, struct bset *i, unsigned int set);
578dc9d98d6SKent Overstreet
579dc9d98d6SKent Overstreet #endif
580dc9d98d6SKent Overstreet
btree_keys_expensive_checks(struct btree_keys * b)581dc9d98d6SKent Overstreet static inline bool btree_keys_expensive_checks(struct btree_keys *b)
582dc9d98d6SKent Overstreet {
583dc9d98d6SKent Overstreet #ifdef CONFIG_BCACHE_DEBUG
584dc9d98d6SKent Overstreet return *b->expensive_debug_checks;
585dc9d98d6SKent Overstreet #else
586dc9d98d6SKent Overstreet return false;
587dc9d98d6SKent Overstreet #endif
588dc9d98d6SKent Overstreet }
589dc9d98d6SKent Overstreet
bch_count_data(struct btree_keys * b)590dc9d98d6SKent Overstreet static inline int bch_count_data(struct btree_keys *b)
591dc9d98d6SKent Overstreet {
592dc9d98d6SKent Overstreet return btree_keys_expensive_checks(b) ? __bch_count_data(b) : -1;
593dc9d98d6SKent Overstreet }
594dc9d98d6SKent Overstreet
595dc9d98d6SKent Overstreet #define bch_check_keys(b, ...) \
596dc9d98d6SKent Overstreet do { \
597dc9d98d6SKent Overstreet if (btree_keys_expensive_checks(b)) \
598dc9d98d6SKent Overstreet __bch_check_keys(b, __VA_ARGS__); \
599dc9d98d6SKent Overstreet } while (0)
600cafe5635SKent Overstreet
601cafe5635SKent Overstreet #endif
602