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- /*
- * Code for working with individual keys, and sorted sets of keys with in a
- * btree node
- *
- * Copyright 2012 Google, Inc.
- */
- #define pr_fmt(fmt) "bcache: %s() " fmt "\n", __func__
- #include "util.h"
- #include "bset.h"
- #include <linux/console.h>
- #include <linux/random.h>
- #include <linux/prefetch.h>
- #ifdef CONFIG_BCACHE_DEBUG
- void bch_dump_bset(struct btree_keys *b, struct bset *i, unsigned set)
- {
- struct bkey *k, *next;
- for (k = i->start; k < bset_bkey_last(i); k = next) {
- next = bkey_next(k);
- printk(KERN_ERR "block %u key %u/%u: ", set,
- (unsigned) ((u64 *) k - i->d), i->keys);
- if (b->ops->key_dump)
- b->ops->key_dump(b, k);
- else
- printk("%llu:%llu\n", KEY_INODE(k), KEY_OFFSET(k));
- if (next < bset_bkey_last(i) &&
- bkey_cmp(k, b->ops->is_extents ?
- &START_KEY(next) : next) > 0)
- printk(KERN_ERR "Key skipped backwards\n");
- }
- }
- void bch_dump_bucket(struct btree_keys *b)
- {
- unsigned i;
- console_lock();
- for (i = 0; i <= b->nsets; i++)
- bch_dump_bset(b, b->set[i].data,
- bset_sector_offset(b, b->set[i].data));
- console_unlock();
- }
- int __bch_count_data(struct btree_keys *b)
- {
- unsigned ret = 0;
- struct btree_iter iter;
- struct bkey *k;
- if (b->ops->is_extents)
- for_each_key(b, k, &iter)
- ret += KEY_SIZE(k);
- return ret;
- }
- void __bch_check_keys(struct btree_keys *b, const char *fmt, ...)
- {
- va_list args;
- struct bkey *k, *p = NULL;
- struct btree_iter iter;
- const char *err;
- for_each_key(b, k, &iter) {
- if (b->ops->is_extents) {
- err = "Keys out of order";
- if (p && bkey_cmp(&START_KEY(p), &START_KEY(k)) > 0)
- goto bug;
- if (bch_ptr_invalid(b, k))
- continue;
- err = "Overlapping keys";
- if (p && bkey_cmp(p, &START_KEY(k)) > 0)
- goto bug;
- } else {
- if (bch_ptr_bad(b, k))
- continue;
- err = "Duplicate keys";
- if (p && !bkey_cmp(p, k))
- goto bug;
- }
- p = k;
- }
- #if 0
- err = "Key larger than btree node key";
- if (p && bkey_cmp(p, &b->key) > 0)
- goto bug;
- #endif
- return;
- bug:
- bch_dump_bucket(b);
- va_start(args, fmt);
- vprintk(fmt, args);
- va_end(args);
- panic("bch_check_keys error: %s:\n", err);
- }
- static void bch_btree_iter_next_check(struct btree_iter *iter)
- {
- struct bkey *k = iter->data->k, *next = bkey_next(k);
- if (next < iter->data->end &&
- bkey_cmp(k, iter->b->ops->is_extents ?
- &START_KEY(next) : next) > 0) {
- bch_dump_bucket(iter->b);
- panic("Key skipped backwards\n");
- }
- }
- #else
- static inline void bch_btree_iter_next_check(struct btree_iter *iter) {}
- #endif
- /* Keylists */
- int __bch_keylist_realloc(struct keylist *l, unsigned u64s)
- {
- size_t oldsize = bch_keylist_nkeys(l);
- size_t newsize = oldsize + u64s;
- uint64_t *old_keys = l->keys_p == l->inline_keys ? NULL : l->keys_p;
- uint64_t *new_keys;
- newsize = roundup_pow_of_two(newsize);
- if (newsize <= KEYLIST_INLINE ||
- roundup_pow_of_two(oldsize) == newsize)
- return 0;
- new_keys = krealloc(old_keys, sizeof(uint64_t) * newsize, GFP_NOIO);
- if (!new_keys)
- return -ENOMEM;
- if (!old_keys)
- memcpy(new_keys, l->inline_keys, sizeof(uint64_t) * oldsize);
- l->keys_p = new_keys;
- l->top_p = new_keys + oldsize;
- return 0;
- }
- struct bkey *bch_keylist_pop(struct keylist *l)
- {
- struct bkey *k = l->keys;
- if (k == l->top)
- return NULL;
- while (bkey_next(k) != l->top)
- k = bkey_next(k);
- return l->top = k;
- }
- void bch_keylist_pop_front(struct keylist *l)
- {
- l->top_p -= bkey_u64s(l->keys);
- memmove(l->keys,
- bkey_next(l->keys),
- bch_keylist_bytes(l));
- }
- /* Key/pointer manipulation */
- void bch_bkey_copy_single_ptr(struct bkey *dest, const struct bkey *src,
- unsigned i)
- {
- BUG_ON(i > KEY_PTRS(src));
- /* Only copy the header, key, and one pointer. */
- memcpy(dest, src, 2 * sizeof(uint64_t));
- dest->ptr[0] = src->ptr[i];
- SET_KEY_PTRS(dest, 1);
- /* We didn't copy the checksum so clear that bit. */
- SET_KEY_CSUM(dest, 0);
- }
- bool __bch_cut_front(const struct bkey *where, struct bkey *k)
- {
- unsigned i, len = 0;
- if (bkey_cmp(where, &START_KEY(k)) <= 0)
- return false;
- if (bkey_cmp(where, k) < 0)
- len = KEY_OFFSET(k) - KEY_OFFSET(where);
- else
- bkey_copy_key(k, where);
- for (i = 0; i < KEY_PTRS(k); i++)
- SET_PTR_OFFSET(k, i, PTR_OFFSET(k, i) + KEY_SIZE(k) - len);
- BUG_ON(len > KEY_SIZE(k));
- SET_KEY_SIZE(k, len);
- return true;
- }
- bool __bch_cut_back(const struct bkey *where, struct bkey *k)
- {
- unsigned len = 0;
- if (bkey_cmp(where, k) >= 0)
- return false;
- BUG_ON(KEY_INODE(where) != KEY_INODE(k));
- if (bkey_cmp(where, &START_KEY(k)) > 0)
- len = KEY_OFFSET(where) - KEY_START(k);
- bkey_copy_key(k, where);
- BUG_ON(len > KEY_SIZE(k));
- SET_KEY_SIZE(k, len);
- return true;
- }
- /* Auxiliary search trees */
- /* 32 bits total: */
- #define BKEY_MID_BITS 3
- #define BKEY_EXPONENT_BITS 7
- #define BKEY_MANTISSA_BITS (32 - BKEY_MID_BITS - BKEY_EXPONENT_BITS)
- #define BKEY_MANTISSA_MASK ((1 << BKEY_MANTISSA_BITS) - 1)
- struct bkey_float {
- unsigned exponent:BKEY_EXPONENT_BITS;
- unsigned m:BKEY_MID_BITS;
- unsigned mantissa:BKEY_MANTISSA_BITS;
- } __packed;
- /*
- * BSET_CACHELINE was originally intended to match the hardware cacheline size -
- * it used to be 64, but I realized the lookup code would touch slightly less
- * memory if it was 128.
- *
- * It definites the number of bytes (in struct bset) per struct bkey_float in
- * the auxiliar search tree - when we're done searching the bset_float tree we
- * have this many bytes left that we do a linear search over.
- *
- * Since (after level 5) every level of the bset_tree is on a new cacheline,
- * we're touching one fewer cacheline in the bset tree in exchange for one more
- * cacheline in the linear search - but the linear search might stop before it
- * gets to the second cacheline.
- */
- #define BSET_CACHELINE 128
- /* Space required for the btree node keys */
- static inline size_t btree_keys_bytes(struct btree_keys *b)
- {
- return PAGE_SIZE << b->page_order;
- }
- static inline size_t btree_keys_cachelines(struct btree_keys *b)
- {
- return btree_keys_bytes(b) / BSET_CACHELINE;
- }
- /* Space required for the auxiliary search trees */
- static inline size_t bset_tree_bytes(struct btree_keys *b)
- {
- return btree_keys_cachelines(b) * sizeof(struct bkey_float);
- }
- /* Space required for the prev pointers */
- static inline size_t bset_prev_bytes(struct btree_keys *b)
- {
- return btree_keys_cachelines(b) * sizeof(uint8_t);
- }
- /* Memory allocation */
- void bch_btree_keys_free(struct btree_keys *b)
- {
- struct bset_tree *t = b->set;
- if (bset_prev_bytes(b) < PAGE_SIZE)
- kfree(t->prev);
- else
- free_pages((unsigned long) t->prev,
- get_order(bset_prev_bytes(b)));
- if (bset_tree_bytes(b) < PAGE_SIZE)
- kfree(t->tree);
- else
- free_pages((unsigned long) t->tree,
- get_order(bset_tree_bytes(b)));
- free_pages((unsigned long) t->data, b->page_order);
- t->prev = NULL;
- t->tree = NULL;
- t->data = NULL;
- }
- EXPORT_SYMBOL(bch_btree_keys_free);
- int bch_btree_keys_alloc(struct btree_keys *b, unsigned page_order, gfp_t gfp)
- {
- struct bset_tree *t = b->set;
- BUG_ON(t->data);
- b->page_order = page_order;
- t->data = (void *) __get_free_pages(gfp, b->page_order);
- if (!t->data)
- goto err;
- t->tree = bset_tree_bytes(b) < PAGE_SIZE
- ? kmalloc(bset_tree_bytes(b), gfp)
- : (void *) __get_free_pages(gfp, get_order(bset_tree_bytes(b)));
- if (!t->tree)
- goto err;
- t->prev = bset_prev_bytes(b) < PAGE_SIZE
- ? kmalloc(bset_prev_bytes(b), gfp)
- : (void *) __get_free_pages(gfp, get_order(bset_prev_bytes(b)));
- if (!t->prev)
- goto err;
- return 0;
- err:
- bch_btree_keys_free(b);
- return -ENOMEM;
- }
- EXPORT_SYMBOL(bch_btree_keys_alloc);
- void bch_btree_keys_init(struct btree_keys *b, const struct btree_keys_ops *ops,
- bool *expensive_debug_checks)
- {
- unsigned i;
- b->ops = ops;
- b->expensive_debug_checks = expensive_debug_checks;
- b->nsets = 0;
- b->last_set_unwritten = 0;
- /* XXX: shouldn't be needed */
- for (i = 0; i < MAX_BSETS; i++)
- b->set[i].size = 0;
- /*
- * Second loop starts at 1 because b->keys[0]->data is the memory we
- * allocated
- */
- for (i = 1; i < MAX_BSETS; i++)
- b->set[i].data = NULL;
- }
- EXPORT_SYMBOL(bch_btree_keys_init);
- /* Binary tree stuff for auxiliary search trees */
- static unsigned inorder_next(unsigned j, unsigned size)
- {
- if (j * 2 + 1 < size) {
- j = j * 2 + 1;
- while (j * 2 < size)
- j *= 2;
- } else
- j >>= ffz(j) + 1;
- return j;
- }
- static unsigned inorder_prev(unsigned j, unsigned size)
- {
- if (j * 2 < size) {
- j = j * 2;
- while (j * 2 + 1 < size)
- j = j * 2 + 1;
- } else
- j >>= ffs(j);
- return j;
- }
- /* I have no idea why this code works... and I'm the one who wrote it
- *
- * However, I do know what it does:
- * Given a binary tree constructed in an array (i.e. how you normally implement
- * a heap), it converts a node in the tree - referenced by array index - to the
- * index it would have if you did an inorder traversal.
- *
- * Also tested for every j, size up to size somewhere around 6 million.
- *
- * The binary tree starts at array index 1, not 0
- * extra is a function of size:
- * extra = (size - rounddown_pow_of_two(size - 1)) << 1;
- */
- static unsigned __to_inorder(unsigned j, unsigned size, unsigned extra)
- {
- unsigned b = fls(j);
- unsigned shift = fls(size - 1) - b;
- j ^= 1U << (b - 1);
- j <<= 1;
- j |= 1;
- j <<= shift;
- if (j > extra)
- j -= (j - extra) >> 1;
- return j;
- }
- static unsigned to_inorder(unsigned j, struct bset_tree *t)
- {
- return __to_inorder(j, t->size, t->extra);
- }
- static unsigned __inorder_to_tree(unsigned j, unsigned size, unsigned extra)
- {
- unsigned shift;
- if (j > extra)
- j += j - extra;
- shift = ffs(j);
- j >>= shift;
- j |= roundup_pow_of_two(size) >> shift;
- return j;
- }
- static unsigned inorder_to_tree(unsigned j, struct bset_tree *t)
- {
- return __inorder_to_tree(j, t->size, t->extra);
- }
- #if 0
- void inorder_test(void)
- {
- unsigned long done = 0;
- ktime_t start = ktime_get();
- for (unsigned size = 2;
- size < 65536000;
- size++) {
- unsigned extra = (size - rounddown_pow_of_two(size - 1)) << 1;
- unsigned i = 1, j = rounddown_pow_of_two(size - 1);
- if (!(size % 4096))
- printk(KERN_NOTICE "loop %u, %llu per us\n", size,
- done / ktime_us_delta(ktime_get(), start));
- while (1) {
- if (__inorder_to_tree(i, size, extra) != j)
- panic("size %10u j %10u i %10u", size, j, i);
- if (__to_inorder(j, size, extra) != i)
- panic("size %10u j %10u i %10u", size, j, i);
- if (j == rounddown_pow_of_two(size) - 1)
- break;
- BUG_ON(inorder_prev(inorder_next(j, size), size) != j);
- j = inorder_next(j, size);
- i++;
- }
- done += size - 1;
- }
- }
- #endif
- /*
- * Cacheline/offset <-> bkey pointer arithmetic:
- *
- * t->tree is a binary search tree in an array; each node corresponds to a key
- * in one cacheline in t->set (BSET_CACHELINE bytes).
- *
- * This means we don't have to store the full index of the key that a node in
- * the binary tree points to; to_inorder() gives us the cacheline, and then
- * bkey_float->m gives us the offset within that cacheline, in units of 8 bytes.
- *
- * cacheline_to_bkey() and friends abstract out all the pointer arithmetic to
- * make this work.
- *
- * To construct the bfloat for an arbitrary key we need to know what the key
- * immediately preceding it is: we have to check if the two keys differ in the
- * bits we're going to store in bkey_float->mantissa. t->prev[j] stores the size
- * of the previous key so we can walk backwards to it from t->tree[j]'s key.
- */
- static struct bkey *cacheline_to_bkey(struct bset_tree *t, unsigned cacheline,
- unsigned offset)
- {
- return ((void *) t->data) + cacheline * BSET_CACHELINE + offset * 8;
- }
- static unsigned bkey_to_cacheline(struct bset_tree *t, struct bkey *k)
- {
- return ((void *) k - (void *) t->data) / BSET_CACHELINE;
- }
- static unsigned bkey_to_cacheline_offset(struct bset_tree *t,
- unsigned cacheline,
- struct bkey *k)
- {
- return (u64 *) k - (u64 *) cacheline_to_bkey(t, cacheline, 0);
- }
- static struct bkey *tree_to_bkey(struct bset_tree *t, unsigned j)
- {
- return cacheline_to_bkey(t, to_inorder(j, t), t->tree[j].m);
- }
- static struct bkey *tree_to_prev_bkey(struct bset_tree *t, unsigned j)
- {
- return (void *) (((uint64_t *) tree_to_bkey(t, j)) - t->prev[j]);
- }
- /*
- * For the write set - the one we're currently inserting keys into - we don't
- * maintain a full search tree, we just keep a simple lookup table in t->prev.
- */
- static struct bkey *table_to_bkey(struct bset_tree *t, unsigned cacheline)
- {
- return cacheline_to_bkey(t, cacheline, t->prev[cacheline]);
- }
- static inline uint64_t shrd128(uint64_t high, uint64_t low, uint8_t shift)
- {
- low >>= shift;
- low |= (high << 1) << (63U - shift);
- return low;
- }
- static inline unsigned bfloat_mantissa(const struct bkey *k,
- struct bkey_float *f)
- {
- const uint64_t *p = &k->low - (f->exponent >> 6);
- return shrd128(p[-1], p[0], f->exponent & 63) & BKEY_MANTISSA_MASK;
- }
- static void make_bfloat(struct bset_tree *t, unsigned j)
- {
- struct bkey_float *f = &t->tree[j];
- struct bkey *m = tree_to_bkey(t, j);
- struct bkey *p = tree_to_prev_bkey(t, j);
- struct bkey *l = is_power_of_2(j)
- ? t->data->start
- : tree_to_prev_bkey(t, j >> ffs(j));
- struct bkey *r = is_power_of_2(j + 1)
- ? bset_bkey_idx(t->data, t->data->keys - bkey_u64s(&t->end))
- : tree_to_bkey(t, j >> (ffz(j) + 1));
- BUG_ON(m < l || m > r);
- BUG_ON(bkey_next(p) != m);
- if (KEY_INODE(l) != KEY_INODE(r))
- f->exponent = fls64(KEY_INODE(r) ^ KEY_INODE(l)) + 64;
- else
- f->exponent = fls64(r->low ^ l->low);
- f->exponent = max_t(int, f->exponent - BKEY_MANTISSA_BITS, 0);
- /*
- * Setting f->exponent = 127 flags this node as failed, and causes the
- * lookup code to fall back to comparing against the original key.
- */
- if (bfloat_mantissa(m, f) != bfloat_mantissa(p, f))
- f->mantissa = bfloat_mantissa(m, f) - 1;
- else
- f->exponent = 127;
- }
- static void bset_alloc_tree(struct btree_keys *b, struct bset_tree *t)
- {
- if (t != b->set) {
- unsigned j = roundup(t[-1].size,
- 64 / sizeof(struct bkey_float));
- t->tree = t[-1].tree + j;
- t->prev = t[-1].prev + j;
- }
- while (t < b->set + MAX_BSETS)
- t++->size = 0;
- }
- static void bch_bset_build_unwritten_tree(struct btree_keys *b)
- {
- struct bset_tree *t = bset_tree_last(b);
- BUG_ON(b->last_set_unwritten);
- b->last_set_unwritten = 1;
- bset_alloc_tree(b, t);
- if (t->tree != b->set->tree + btree_keys_cachelines(b)) {
- t->prev[0] = bkey_to_cacheline_offset(t, 0, t->data->start);
- t->size = 1;
- }
- }
- void bch_bset_init_next(struct btree_keys *b, struct bset *i, uint64_t magic)
- {
- if (i != b->set->data) {
- b->set[++b->nsets].data = i;
- i->seq = b->set->data->seq;
- } else
- get_random_bytes(&i->seq, sizeof(uint64_t));
- i->magic = magic;
- i->version = 0;
- i->keys = 0;
- bch_bset_build_unwritten_tree(b);
- }
- EXPORT_SYMBOL(bch_bset_init_next);
- void bch_bset_build_written_tree(struct btree_keys *b)
- {
- struct bset_tree *t = bset_tree_last(b);
- struct bkey *prev = NULL, *k = t->data->start;
- unsigned j, cacheline = 1;
- b->last_set_unwritten = 0;
- bset_alloc_tree(b, t);
- t->size = min_t(unsigned,
- bkey_to_cacheline(t, bset_bkey_last(t->data)),
- b->set->tree + btree_keys_cachelines(b) - t->tree);
- if (t->size < 2) {
- t->size = 0;
- return;
- }
- t->extra = (t->size - rounddown_pow_of_two(t->size - 1)) << 1;
- /* First we figure out where the first key in each cacheline is */
- for (j = inorder_next(0, t->size);
- j;
- j = inorder_next(j, t->size)) {
- while (bkey_to_cacheline(t, k) < cacheline)
- prev = k, k = bkey_next(k);
- t->prev[j] = bkey_u64s(prev);
- t->tree[j].m = bkey_to_cacheline_offset(t, cacheline++, k);
- }
- while (bkey_next(k) != bset_bkey_last(t->data))
- k = bkey_next(k);
- t->end = *k;
- /* Then we build the tree */
- for (j = inorder_next(0, t->size);
- j;
- j = inorder_next(j, t->size))
- make_bfloat(t, j);
- }
- EXPORT_SYMBOL(bch_bset_build_written_tree);
- /* Insert */
- void bch_bset_fix_invalidated_key(struct btree_keys *b, struct bkey *k)
- {
- struct bset_tree *t;
- unsigned inorder, j = 1;
- for (t = b->set; t <= bset_tree_last(b); t++)
- if (k < bset_bkey_last(t->data))
- goto found_set;
- BUG();
- found_set:
- if (!t->size || !bset_written(b, t))
- return;
- inorder = bkey_to_cacheline(t, k);
- if (k == t->data->start)
- goto fix_left;
- if (bkey_next(k) == bset_bkey_last(t->data)) {
- t->end = *k;
- goto fix_right;
- }
- j = inorder_to_tree(inorder, t);
- if (j &&
- j < t->size &&
- k == tree_to_bkey(t, j))
- fix_left: do {
- make_bfloat(t, j);
- j = j * 2;
- } while (j < t->size);
- j = inorder_to_tree(inorder + 1, t);
- if (j &&
- j < t->size &&
- k == tree_to_prev_bkey(t, j))
- fix_right: do {
- make_bfloat(t, j);
- j = j * 2 + 1;
- } while (j < t->size);
- }
- EXPORT_SYMBOL(bch_bset_fix_invalidated_key);
- static void bch_bset_fix_lookup_table(struct btree_keys *b,
- struct bset_tree *t,
- struct bkey *k)
- {
- unsigned shift = bkey_u64s(k);
- unsigned j = bkey_to_cacheline(t, k);
- /* We're getting called from btree_split() or btree_gc, just bail out */
- if (!t->size)
- return;
- /* k is the key we just inserted; we need to find the entry in the
- * lookup table for the first key that is strictly greater than k:
- * it's either k's cacheline or the next one
- */
- while (j < t->size &&
- table_to_bkey(t, j) <= k)
- j++;
- /* Adjust all the lookup table entries, and find a new key for any that
- * have gotten too big
- */
- for (; j < t->size; j++) {
- t->prev[j] += shift;
- if (t->prev[j] > 7) {
- k = table_to_bkey(t, j - 1);
- while (k < cacheline_to_bkey(t, j, 0))
- k = bkey_next(k);
- t->prev[j] = bkey_to_cacheline_offset(t, j, k);
- }
- }
- if (t->size == b->set->tree + btree_keys_cachelines(b) - t->tree)
- return;
- /* Possibly add a new entry to the end of the lookup table */
- for (k = table_to_bkey(t, t->size - 1);
- k != bset_bkey_last(t->data);
- k = bkey_next(k))
- if (t->size == bkey_to_cacheline(t, k)) {
- t->prev[t->size] = bkey_to_cacheline_offset(t, t->size, k);
- t->size++;
- }
- }
- /*
- * Tries to merge l and r: l should be lower than r
- * Returns true if we were able to merge. If we did merge, l will be the merged
- * key, r will be untouched.
- */
- bool bch_bkey_try_merge(struct btree_keys *b, struct bkey *l, struct bkey *r)
- {
- if (!b->ops->key_merge)
- return false;
- /*
- * Generic header checks
- * Assumes left and right are in order
- * Left and right must be exactly aligned
- */
- if (!bch_bkey_equal_header(l, r) ||
- bkey_cmp(l, &START_KEY(r)))
- return false;
- return b->ops->key_merge(b, l, r);
- }
- EXPORT_SYMBOL(bch_bkey_try_merge);
- void bch_bset_insert(struct btree_keys *b, struct bkey *where,
- struct bkey *insert)
- {
- struct bset_tree *t = bset_tree_last(b);
- BUG_ON(!b->last_set_unwritten);
- BUG_ON(bset_byte_offset(b, t->data) +
- __set_bytes(t->data, t->data->keys + bkey_u64s(insert)) >
- PAGE_SIZE << b->page_order);
- memmove((uint64_t *) where + bkey_u64s(insert),
- where,
- (void *) bset_bkey_last(t->data) - (void *) where);
- t->data->keys += bkey_u64s(insert);
- bkey_copy(where, insert);
- bch_bset_fix_lookup_table(b, t, where);
- }
- EXPORT_SYMBOL(bch_bset_insert);
- unsigned bch_btree_insert_key(struct btree_keys *b, struct bkey *k,
- struct bkey *replace_key)
- {
- unsigned status = BTREE_INSERT_STATUS_NO_INSERT;
- struct bset *i = bset_tree_last(b)->data;
- struct bkey *m, *prev = NULL;
- struct btree_iter iter;
- BUG_ON(b->ops->is_extents && !KEY_SIZE(k));
- m = bch_btree_iter_init(b, &iter, b->ops->is_extents
- ? PRECEDING_KEY(&START_KEY(k))
- : PRECEDING_KEY(k));
- if (b->ops->insert_fixup(b, k, &iter, replace_key))
- return status;
- status = BTREE_INSERT_STATUS_INSERT;
- while (m != bset_bkey_last(i) &&
- bkey_cmp(k, b->ops->is_extents ? &START_KEY(m) : m) > 0)
- prev = m, m = bkey_next(m);
- /* prev is in the tree, if we merge we're done */
- status = BTREE_INSERT_STATUS_BACK_MERGE;
- if (prev &&
- bch_bkey_try_merge(b, prev, k))
- goto merged;
- #if 0
- status = BTREE_INSERT_STATUS_OVERWROTE;
- if (m != bset_bkey_last(i) &&
- KEY_PTRS(m) == KEY_PTRS(k) && !KEY_SIZE(m))
- goto copy;
- #endif
- status = BTREE_INSERT_STATUS_FRONT_MERGE;
- if (m != bset_bkey_last(i) &&
- bch_bkey_try_merge(b, k, m))
- goto copy;
- bch_bset_insert(b, m, k);
- copy: bkey_copy(m, k);
- merged:
- return status;
- }
- EXPORT_SYMBOL(bch_btree_insert_key);
- /* Lookup */
- struct bset_search_iter {
- struct bkey *l, *r;
- };
- static struct bset_search_iter bset_search_write_set(struct bset_tree *t,
- const struct bkey *search)
- {
- unsigned li = 0, ri = t->size;
- while (li + 1 != ri) {
- unsigned m = (li + ri) >> 1;
- if (bkey_cmp(table_to_bkey(t, m), search) > 0)
- ri = m;
- else
- li = m;
- }
- return (struct bset_search_iter) {
- table_to_bkey(t, li),
- ri < t->size ? table_to_bkey(t, ri) : bset_bkey_last(t->data)
- };
- }
- static struct bset_search_iter bset_search_tree(struct bset_tree *t,
- const struct bkey *search)
- {
- struct bkey *l, *r;
- struct bkey_float *f;
- unsigned inorder, j, n = 1;
- do {
- unsigned p = n << 4;
- p &= ((int) (p - t->size)) >> 31;
- prefetch(&t->tree[p]);
- j = n;
- f = &t->tree[j];
- /*
- * n = (f->mantissa > bfloat_mantissa())
- * ? j * 2
- * : j * 2 + 1;
- *
- * We need to subtract 1 from f->mantissa for the sign bit trick
- * to work - that's done in make_bfloat()
- */
- if (likely(f->exponent != 127))
- n = j * 2 + (((unsigned)
- (f->mantissa -
- bfloat_mantissa(search, f))) >> 31);
- else
- n = (bkey_cmp(tree_to_bkey(t, j), search) > 0)
- ? j * 2
- : j * 2 + 1;
- } while (n < t->size);
- inorder = to_inorder(j, t);
- /*
- * n would have been the node we recursed to - the low bit tells us if
- * we recursed left or recursed right.
- */
- if (n & 1) {
- l = cacheline_to_bkey(t, inorder, f->m);
- if (++inorder != t->size) {
- f = &t->tree[inorder_next(j, t->size)];
- r = cacheline_to_bkey(t, inorder, f->m);
- } else
- r = bset_bkey_last(t->data);
- } else {
- r = cacheline_to_bkey(t, inorder, f->m);
- if (--inorder) {
- f = &t->tree[inorder_prev(j, t->size)];
- l = cacheline_to_bkey(t, inorder, f->m);
- } else
- l = t->data->start;
- }
- return (struct bset_search_iter) {l, r};
- }
- struct bkey *__bch_bset_search(struct btree_keys *b, struct bset_tree *t,
- const struct bkey *search)
- {
- struct bset_search_iter i;
- /*
- * First, we search for a cacheline, then lastly we do a linear search
- * within that cacheline.
- *
- * To search for the cacheline, there's three different possibilities:
- * * The set is too small to have a search tree, so we just do a linear
- * search over the whole set.
- * * The set is the one we're currently inserting into; keeping a full
- * auxiliary search tree up to date would be too expensive, so we
- * use a much simpler lookup table to do a binary search -
- * bset_search_write_set().
- * * Or we use the auxiliary search tree we constructed earlier -
- * bset_search_tree()
- */
- if (unlikely(!t->size)) {
- i.l = t->data->start;
- i.r = bset_bkey_last(t->data);
- } else if (bset_written(b, t)) {
- /*
- * Each node in the auxiliary search tree covers a certain range
- * of bits, and keys above and below the set it covers might
- * differ outside those bits - so we have to special case the
- * start and end - handle that here:
- */
- if (unlikely(bkey_cmp(search, &t->end) >= 0))
- return bset_bkey_last(t->data);
- if (unlikely(bkey_cmp(search, t->data->start) < 0))
- return t->data->start;
- i = bset_search_tree(t, search);
- } else {
- BUG_ON(!b->nsets &&
- t->size < bkey_to_cacheline(t, bset_bkey_last(t->data)));
- i = bset_search_write_set(t, search);
- }
- if (btree_keys_expensive_checks(b)) {
- BUG_ON(bset_written(b, t) &&
- i.l != t->data->start &&
- bkey_cmp(tree_to_prev_bkey(t,
- inorder_to_tree(bkey_to_cacheline(t, i.l), t)),
- search) > 0);
- BUG_ON(i.r != bset_bkey_last(t->data) &&
- bkey_cmp(i.r, search) <= 0);
- }
- while (likely(i.l != i.r) &&
- bkey_cmp(i.l, search) <= 0)
- i.l = bkey_next(i.l);
- return i.l;
- }
- EXPORT_SYMBOL(__bch_bset_search);
- /* Btree iterator */
- typedef bool (btree_iter_cmp_fn)(struct btree_iter_set,
- struct btree_iter_set);
- static inline bool btree_iter_cmp(struct btree_iter_set l,
- struct btree_iter_set r)
- {
- return bkey_cmp(l.k, r.k) > 0;
- }
- static inline bool btree_iter_end(struct btree_iter *iter)
- {
- return !iter->used;
- }
- void bch_btree_iter_push(struct btree_iter *iter, struct bkey *k,
- struct bkey *end)
- {
- if (k != end)
- BUG_ON(!heap_add(iter,
- ((struct btree_iter_set) { k, end }),
- btree_iter_cmp));
- }
- static struct bkey *__bch_btree_iter_init(struct btree_keys *b,
- struct btree_iter *iter,
- struct bkey *search,
- struct bset_tree *start)
- {
- struct bkey *ret = NULL;
- iter->size = ARRAY_SIZE(iter->data);
- iter->used = 0;
- #ifdef CONFIG_BCACHE_DEBUG
- iter->b = b;
- #endif
- for (; start <= bset_tree_last(b); start++) {
- ret = bch_bset_search(b, start, search);
- bch_btree_iter_push(iter, ret, bset_bkey_last(start->data));
- }
- return ret;
- }
- struct bkey *bch_btree_iter_init(struct btree_keys *b,
- struct btree_iter *iter,
- struct bkey *search)
- {
- return __bch_btree_iter_init(b, iter, search, b->set);
- }
- EXPORT_SYMBOL(bch_btree_iter_init);
- static inline struct bkey *__bch_btree_iter_next(struct btree_iter *iter,
- btree_iter_cmp_fn *cmp)
- {
- struct btree_iter_set unused;
- struct bkey *ret = NULL;
- if (!btree_iter_end(iter)) {
- bch_btree_iter_next_check(iter);
- ret = iter->data->k;
- iter->data->k = bkey_next(iter->data->k);
- if (iter->data->k > iter->data->end) {
- WARN_ONCE(1, "bset was corrupt!\n");
- iter->data->k = iter->data->end;
- }
- if (iter->data->k == iter->data->end)
- heap_pop(iter, unused, cmp);
- else
- heap_sift(iter, 0, cmp);
- }
- return ret;
- }
- struct bkey *bch_btree_iter_next(struct btree_iter *iter)
- {
- return __bch_btree_iter_next(iter, btree_iter_cmp);
- }
- EXPORT_SYMBOL(bch_btree_iter_next);
- struct bkey *bch_btree_iter_next_filter(struct btree_iter *iter,
- struct btree_keys *b, ptr_filter_fn fn)
- {
- struct bkey *ret;
- do {
- ret = bch_btree_iter_next(iter);
- } while (ret && fn(b, ret));
- return ret;
- }
- /* Mergesort */
- void bch_bset_sort_state_free(struct bset_sort_state *state)
- {
- if (state->pool)
- mempool_destroy(state->pool);
- }
- int bch_bset_sort_state_init(struct bset_sort_state *state, unsigned page_order)
- {
- spin_lock_init(&state->time.lock);
- state->page_order = page_order;
- state->crit_factor = int_sqrt(1 << page_order);
- state->pool = mempool_create_page_pool(1, page_order);
- if (!state->pool)
- return -ENOMEM;
- return 0;
- }
- EXPORT_SYMBOL(bch_bset_sort_state_init);
- static void btree_mergesort(struct btree_keys *b, struct bset *out,
- struct btree_iter *iter,
- bool fixup, bool remove_stale)
- {
- int i;
- struct bkey *k, *last = NULL;
- BKEY_PADDED(k) tmp;
- bool (*bad)(struct btree_keys *, const struct bkey *) = remove_stale
- ? bch_ptr_bad
- : bch_ptr_invalid;
- /* Heapify the iterator, using our comparison function */
- for (i = iter->used / 2 - 1; i >= 0; --i)
- heap_sift(iter, i, b->ops->sort_cmp);
- while (!btree_iter_end(iter)) {
- if (b->ops->sort_fixup && fixup)
- k = b->ops->sort_fixup(iter, &tmp.k);
- else
- k = NULL;
- if (!k)
- k = __bch_btree_iter_next(iter, b->ops->sort_cmp);
- if (bad(b, k))
- continue;
- if (!last) {
- last = out->start;
- bkey_copy(last, k);
- } else if (!bch_bkey_try_merge(b, last, k)) {
- last = bkey_next(last);
- bkey_copy(last, k);
- }
- }
- out->keys = last ? (uint64_t *) bkey_next(last) - out->d : 0;
- pr_debug("sorted %i keys", out->keys);
- }
- static void __btree_sort(struct btree_keys *b, struct btree_iter *iter,
- unsigned start, unsigned order, bool fixup,
- struct bset_sort_state *state)
- {
- uint64_t start_time;
- bool used_mempool = false;
- struct bset *out = (void *) __get_free_pages(__GFP_NOWARN|GFP_NOWAIT,
- order);
- if (!out) {
- struct page *outp;
- BUG_ON(order > state->page_order);
- outp = mempool_alloc(state->pool, GFP_NOIO);
- out = page_address(outp);
- used_mempool = true;
- order = state->page_order;
- }
- start_time = local_clock();
- btree_mergesort(b, out, iter, fixup, false);
- b->nsets = start;
- if (!start && order == b->page_order) {
- /*
- * Our temporary buffer is the same size as the btree node's
- * buffer, we can just swap buffers instead of doing a big
- * memcpy()
- */
- out->magic = b->set->data->magic;
- out->seq = b->set->data->seq;
- out->version = b->set->data->version;
- swap(out, b->set->data);
- } else {
- b->set[start].data->keys = out->keys;
- memcpy(b->set[start].data->start, out->start,
- (void *) bset_bkey_last(out) - (void *) out->start);
- }
- if (used_mempool)
- mempool_free(virt_to_page(out), state->pool);
- else
- free_pages((unsigned long) out, order);
- bch_bset_build_written_tree(b);
- if (!start)
- bch_time_stats_update(&state->time, start_time);
- }
- void bch_btree_sort_partial(struct btree_keys *b, unsigned start,
- struct bset_sort_state *state)
- {
- size_t order = b->page_order, keys = 0;
- struct btree_iter iter;
- int oldsize = bch_count_data(b);
- __bch_btree_iter_init(b, &iter, NULL, &b->set[start]);
- if (start) {
- unsigned i;
- for (i = start; i <= b->nsets; i++)
- keys += b->set[i].data->keys;
- order = get_order(__set_bytes(b->set->data, keys));
- }
- __btree_sort(b, &iter, start, order, false, state);
- EBUG_ON(oldsize >= 0 && bch_count_data(b) != oldsize);
- }
- EXPORT_SYMBOL(bch_btree_sort_partial);
- void bch_btree_sort_and_fix_extents(struct btree_keys *b,
- struct btree_iter *iter,
- struct bset_sort_state *state)
- {
- __btree_sort(b, iter, 0, b->page_order, true, state);
- }
- void bch_btree_sort_into(struct btree_keys *b, struct btree_keys *new,
- struct bset_sort_state *state)
- {
- uint64_t start_time = local_clock();
- struct btree_iter iter;
- bch_btree_iter_init(b, &iter, NULL);
- btree_mergesort(b, new->set->data, &iter, false, true);
- bch_time_stats_update(&state->time, start_time);
- new->set->size = 0; // XXX: why?
- }
- #define SORT_CRIT (4096 / sizeof(uint64_t))
- void bch_btree_sort_lazy(struct btree_keys *b, struct bset_sort_state *state)
- {
- unsigned crit = SORT_CRIT;
- int i;
- /* Don't sort if nothing to do */
- if (!b->nsets)
- goto out;
- for (i = b->nsets - 1; i >= 0; --i) {
- crit *= state->crit_factor;
- if (b->set[i].data->keys < crit) {
- bch_btree_sort_partial(b, i, state);
- return;
- }
- }
- /* Sort if we'd overflow */
- if (b->nsets + 1 == MAX_BSETS) {
- bch_btree_sort(b, state);
- return;
- }
- out:
- bch_bset_build_written_tree(b);
- }
- EXPORT_SYMBOL(bch_btree_sort_lazy);
- void bch_btree_keys_stats(struct btree_keys *b, struct bset_stats *stats)
- {
- unsigned i;
- for (i = 0; i <= b->nsets; i++) {
- struct bset_tree *t = &b->set[i];
- size_t bytes = t->data->keys * sizeof(uint64_t);
- size_t j;
- if (bset_written(b, t)) {
- stats->sets_written++;
- stats->bytes_written += bytes;
- stats->floats += t->size - 1;
- for (j = 1; j < t->size; j++)
- if (t->tree[j].exponent == 127)
- stats->failed++;
- } else {
- stats->sets_unwritten++;
- stats->bytes_unwritten += bytes;
- }
- }
- }
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