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|
/* $OpenBSD: btree.c,v 1.30 2010/09/01 12:13:21 martinh Exp $ */
/*
* Copyright (c) 2009, 2010 Martin Hedenfalk <martin@bzero.se>
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include <sys/types.h>
#include <sys/tree.h>
#include <sys/stat.h>
#include <sys/queue.h>
#include <sys/param.h>
#include <sys/uio.h>
#include <assert.h>
#include <err.h>
#include <errno.h>
#include <fcntl.h>
#include <stddef.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <unistd.h>
#include "btree.h"
/* #define DEBUG */
#ifdef DEBUG
# define DPRINTF(...) do { fprintf(stderr, "%s:%d: ", __func__, __LINE__); \
fprintf(stderr, __VA_ARGS__); \
fprintf(stderr, "\n"); } while(0)
#else
# define DPRINTF(...)
#endif
#define PAGESIZE 4096
#define BT_MINKEYS 4
#define BT_MAGIC 0xB3DBB3DB
#define BT_VERSION 4
#define MAXKEYSIZE 255
#define P_INVALID 0xFFFFFFFF
#define F_ISSET(w, f) (((w) & (f)) == (f))
typedef uint32_t pgno_t;
typedef uint16_t indx_t;
/* There are four page types: meta, index, leaf and overflow.
* They all share the same page header.
*/
struct page { /* represents an on-disk page */
pgno_t pgno; /* page number */
#define P_BRANCH 0x01 /* branch page */
#define P_LEAF 0x02 /* leaf page */
#define P_OVERFLOW 0x04 /* overflow page */
#define P_META 0x08 /* meta page */
#define P_HEAD 0x10 /* header page */
uint32_t flags;
#define lower b.fb.fb_lower
#define upper b.fb.fb_upper
#define p_next_pgno b.pb_next_pgno
union page_bounds {
struct {
indx_t fb_lower; /* lower bound of free space */
indx_t fb_upper; /* upper bound of free space */
} fb;
pgno_t pb_next_pgno; /* overflow page linked list */
} b;
indx_t ptrs[1]; /* dynamic size */
} __packed;
#define PAGEHDRSZ offsetof(struct page, ptrs)
#define NUMKEYSP(p) (((p)->lower - PAGEHDRSZ) >> 1)
#define NUMKEYS(mp) (((mp)->page->lower - PAGEHDRSZ) >> 1)
#define SIZELEFT(mp) (indx_t)((mp)->page->upper - (mp)->page->lower)
#define PAGEFILL(bt, mp) (1000 * ((bt)->head.psize - PAGEHDRSZ - SIZELEFT(mp)) / \
((bt)->head.psize - PAGEHDRSZ))
#define IS_LEAF(mp) F_ISSET((mp)->page->flags, P_LEAF)
#define IS_BRANCH(mp) F_ISSET((mp)->page->flags, P_BRANCH)
#define IS_OVERFLOW(mp) F_ISSET((mp)->page->flags, P_OVERFLOW)
struct bt_head { /* header page content */
uint32_t magic;
uint32_t version;
uint32_t flags;
uint32_t psize; /* page size */
} __packed;
struct bt_meta { /* meta (footer) page content */
#define BT_TOMBSTONE 0x01 /* file is replaced */
uint32_t flags;
pgno_t root; /* page number of root page */
pgno_t prev_meta; /* previous meta page number */
time_t created_at;
uint32_t branch_pages;
uint32_t leaf_pages;
uint32_t overflow_pages;
uint32_t revisions;
uint32_t depth;
uint64_t entries;
unsigned char hash[SHA_DIGEST_LENGTH];
} __packed;
struct btkey {
size_t len;
char str[MAXKEYSIZE];
};
struct mpage { /* an in-memory cached page */
RB_ENTRY(mpage) entry; /* page cache entry */
SIMPLEQ_ENTRY(mpage) next; /* queue of dirty pages */
TAILQ_ENTRY(mpage) lru_next; /* LRU queue */
struct mpage *parent; /* NULL if root */
unsigned int parent_index; /* keep track of node index */
struct btkey prefix;
struct page *page;
pgno_t pgno; /* copy of page->pgno */
short ref; /* increased by cursors */
short dirty; /* 1 if on dirty queue */
};
RB_HEAD(page_cache, mpage);
SIMPLEQ_HEAD(dirty_queue, mpage);
TAILQ_HEAD(lru_queue, mpage);
static int mpage_cmp(struct mpage *a, struct mpage *b);
static struct mpage *mpage_lookup(struct btree *bt, pgno_t pgno);
static void mpage_add(struct btree *bt, struct mpage *mp);
static void mpage_free(struct mpage *mp);
static void mpage_del(struct btree *bt, struct mpage *mp);
static void mpage_flush(struct btree *bt);
static struct mpage *mpage_copy(struct btree *bt, struct mpage *mp);
static void mpage_prune(struct btree *bt);
static void mpage_dirty(struct btree *bt, struct mpage *mp);
static struct mpage *mpage_touch(struct btree *bt, struct mpage *mp);
RB_PROTOTYPE(page_cache, mpage, entry, mpage_cmp);
RB_GENERATE(page_cache, mpage, entry, mpage_cmp);
struct ppage { /* ordered list of pages */
SLIST_ENTRY(ppage) entry;
struct mpage *mpage;
unsigned int ki; /* cursor index on page */
};
SLIST_HEAD(page_stack, ppage);
#define CURSOR_EMPTY(c) SLIST_EMPTY(&(c)->stack)
#define CURSOR_TOP(c) SLIST_FIRST(&(c)->stack)
#define CURSOR_POP(c) SLIST_REMOVE_HEAD(&(c)->stack, entry)
#define CURSOR_PUSH(c,p) SLIST_INSERT_HEAD(&(c)->stack, p, entry)
struct cursor {
struct btree *bt;
struct btree_txn *txn;
struct page_stack stack; /* stack of parent pages */
short initialized; /* 1 if initialized */
short eof; /* 1 if end is reached */
};
#define METAHASHLEN offsetof(struct bt_meta, hash)
#define METADATA(p) ((void *)((char *)p + PAGEHDRSZ))
struct node {
#define n_pgno p.np_pgno
#define n_dsize p.np_dsize
union {
pgno_t np_pgno; /* child page number */
uint32_t np_dsize; /* leaf data size */
} p;
uint16_t ksize; /* key size */
#define F_BIGDATA 0x01 /* data put on overflow page */
uint8_t flags;
char data[1];
} __packed;
struct btree_txn {
pgno_t root; /* current / new root page */
pgno_t next_pgno; /* next unallocated page */
struct btree *bt; /* btree is ref'd */
struct dirty_queue *dirty_queue; /* modified pages */
#define BT_TXN_RDONLY 0x01 /* read-only transaction */
#define BT_TXN_ERROR 0x02 /* an error has occurred */
unsigned int flags;
};
struct btree {
int fd;
char *path;
#define BT_FIXPADDING 0x01 /* internal */
unsigned int flags;
bt_cmp_func cmp; /* user compare function */
struct bt_head head;
struct bt_meta meta;
struct page_cache *page_cache;
struct lru_queue *lru_queue;
struct btree_txn *txn; /* current write transaction */
int ref; /* increased by cursors & txn */
struct btree_stat stat;
off_t size; /* current file size */
};
#define NODESIZE offsetof(struct node, data)
#define INDXSIZE(k) (NODESIZE + ((k) == NULL ? 0 : (k)->size))
#define LEAFSIZE(k, d) (NODESIZE + (k)->size + (d)->size)
#define NODEPTRP(p, i) ((struct node *)((char *)(p) + (p)->ptrs[i]))
#define NODEPTR(mp, i) NODEPTRP((mp)->page, i)
#define NODEKEY(node) (void *)((node)->data)
#define NODEDATA(node) (void *)((char *)(node)->data + (node)->ksize)
#define NODEPGNO(node) ((node)->p.np_pgno)
#define NODEDSZ(node) ((node)->p.np_dsize)
#define BT_COMMIT_PAGES 64 /* max number of pages to write in one commit */
#define BT_MAXCACHE_DEF 1024 /* max number of pages to keep in cache */
static int btree_read_page(struct btree *bt, pgno_t pgno,
struct page *page);
static struct mpage *btree_get_mpage(struct btree *bt, pgno_t pgno);
static int btree_search_page_root(struct btree *bt,
struct mpage *root, struct btval *key,
struct cursor *cursor, int modify,
struct mpage **mpp);
static int btree_search_page(struct btree *bt,
struct btree_txn *txn, struct btval *key,
struct cursor *cursor, int modify,
struct mpage **mpp);
static int btree_write_header(struct btree *bt, int fd);
static int btree_read_header(struct btree *bt);
static int btree_is_meta_page(struct page *p);
static int btree_read_meta(struct btree *bt, pgno_t *p_next);
static int btree_write_meta(struct btree *bt, pgno_t root,
unsigned int flags);
static void btree_ref(struct btree *bt);
static struct node *btree_search_node(struct btree *bt, struct mpage *mp,
struct btval *key, int *exactp, unsigned int *kip);
static int btree_add_node(struct btree *bt, struct mpage *mp,
indx_t indx, struct btval *key, struct btval *data,
pgno_t pgno, uint8_t flags);
static void btree_del_node(struct btree *bt, struct mpage *mp,
indx_t indx);
static int btree_read_data(struct btree *bt, struct mpage *mp,
struct node *leaf, struct btval *data);
static int btree_rebalance(struct btree *bt, struct mpage *mp);
static int btree_update_key(struct btree *bt, struct mpage *mp,
indx_t indx, struct btval *key);
static int btree_adjust_prefix(struct btree *bt,
struct mpage *src, int delta);
static int btree_move_node(struct btree *bt, struct mpage *src,
indx_t srcindx, struct mpage *dst, indx_t dstindx);
static int btree_merge(struct btree *bt, struct mpage *src,
struct mpage *dst);
static int btree_split(struct btree *bt, struct mpage **mpp,
unsigned int *newindxp, struct btval *newkey,
struct btval *newdata, pgno_t newpgno);
static struct mpage *btree_new_page(struct btree *bt, uint32_t flags);
static int btree_write_overflow_data(struct btree *bt,
struct page *p, struct btval *data);
static void cursor_pop_page(struct cursor *cursor);
static struct ppage *cursor_push_page(struct cursor *cursor,
struct mpage *mp);
static int bt_set_key(struct btree *bt, struct mpage *mp,
struct node *node, struct btval *key);
static int btree_sibling(struct cursor *cursor, int move_right);
static int btree_cursor_next(struct cursor *cursor,
struct btval *key, struct btval *data);
static int btree_cursor_set(struct cursor *cursor,
struct btval *key, struct btval *data, int *exactp);
static int btree_cursor_first(struct cursor *cursor,
struct btval *key, struct btval *data);
static void bt_reduce_separator(struct btree *bt, struct node *min,
struct btval *sep);
static void remove_prefix(struct btree *bt, struct btval *key,
size_t pfxlen);
static void expand_prefix(struct btree *bt, struct mpage *mp,
indx_t indx, struct btkey *expkey);
static void concat_prefix(struct btree *bt, char *s1, size_t n1,
char *s2, size_t n2, char *cs, size_t *cn);
static void common_prefix(struct btree *bt, struct btkey *min,
struct btkey *max, struct btkey *pfx);
static void find_common_prefix(struct btree *bt, struct mpage *mp);
static size_t bt_leaf_size(struct btree *bt, struct btval *key,
struct btval *data);
static size_t bt_branch_size(struct btree *bt, struct btval *key);
static pgno_t btree_compact_tree(struct btree *bt, pgno_t pgno,
struct btree *btc);
static int memncmp(const void *s1, size_t n1,
const void *s2, size_t n2);
static int memnrcmp(const void *s1, size_t n1,
const void *s2, size_t n2);
static int
memncmp(const void *s1, size_t n1, const void *s2, size_t n2)
{
if (n1 < n2) {
if (memcmp(s1, s2, n1) == 0)
return -1;
}
else if (n1 > n2) {
if (memcmp(s1, s2, n2) == 0)
return 1;
}
return memcmp(s1, s2, n1);
}
static int
memnrcmp(const void *s1, size_t n1, const void *s2, size_t n2)
{
const unsigned char *p1;
const unsigned char *p2;
if (n1 == 0)
return n2 == 0 ? 0 : -1;
if (n2 == 0)
return n1 == 0 ? 0 : 1;
p1 = (const unsigned char *)s1 + n1 - 1;
p2 = (const unsigned char *)s2 + n2 - 1;
while (*p1 == *p2) {
if (p1 == s1)
return (p2 == s2) ? 0 : -1;
if (p2 == s2)
return (p1 == p2) ? 0 : 1;
p1--;
p2--;
}
return *p1 - *p2;
}
int
btree_cmp(struct btree *bt, const struct btval *a, const struct btval *b)
{
return bt->cmp(a, b);
}
static void
common_prefix(struct btree *bt, struct btkey *min, struct btkey *max,
struct btkey *pfx)
{
size_t n = 0;
char *p1;
char *p2;
if (min->len == 0 || max->len == 0) {
pfx->len = 0;
return;
}
if (F_ISSET(bt->flags, BT_REVERSEKEY)) {
p1 = min->str + min->len - 1;
p2 = max->str + max->len - 1;
while (*p1 == *p2) {
if (p1 < min->str || p2 < max->str)
break;
p1--;
p2--;
n++;
}
assert(n <= (int)sizeof(pfx->str));
pfx->len = n;
bcopy(p2 + 1, pfx->str, n);
} else {
p1 = min->str;
p2 = max->str;
while (*p1 == *p2) {
if (n == min->len || n == max->len)
break;
p1++;
p2++;
n++;
}
assert(n <= (int)sizeof(pfx->str));
pfx->len = n;
bcopy(max->str, pfx->str, n);
}
}
static void
remove_prefix(struct btree *bt, struct btval *key, size_t pfxlen)
{
if (pfxlen == 0 || bt->cmp != NULL)
return;
DPRINTF("removing %zu bytes of prefix from key [%.*s]", pfxlen,
(int)key->size, (char *)key->data);
assert(pfxlen <= key->size);
key->size -= pfxlen;
if (!F_ISSET(bt->flags, BT_REVERSEKEY))
key->data = (char *)key->data + pfxlen;
}
static void
expand_prefix(struct btree *bt, struct mpage *mp, indx_t indx,
struct btkey *expkey)
{
struct node *node;
node = NODEPTR(mp, indx);
expkey->len = sizeof(expkey->str);
concat_prefix(bt, mp->prefix.str, mp->prefix.len,
NODEKEY(node), node->ksize, expkey->str, &expkey->len);
}
static int
bt_cmp(struct btree *bt, const struct btval *key1, const struct btval *key2,
struct btkey *pfx)
{
if (F_ISSET(bt->flags, BT_REVERSEKEY))
return memnrcmp(key1->data, key1->size - pfx->len,
key2->data, key2->size);
else
return memncmp((char *)key1->data + pfx->len, key1->size - pfx->len,
key2->data, key2->size);
}
void
btval_reset(struct btval *btv)
{
if (btv) {
if (btv->mp)
btv->mp->ref--;
if (btv->free_data)
free(btv->data);
bzero(btv, sizeof(*btv));
}
}
static int
mpage_cmp(struct mpage *a, struct mpage *b)
{
if (a->pgno > b->pgno)
return 1;
if (a->pgno < b->pgno)
return -1;
return 0;
}
static struct mpage *
mpage_lookup(struct btree *bt, pgno_t pgno)
{
struct mpage find, *mp;
find.pgno = pgno;
mp = RB_FIND(page_cache, bt->page_cache, &find);
if (mp) {
bt->stat.hits++;
/* Update LRU queue. Move page to the end. */
TAILQ_REMOVE(bt->lru_queue, mp, lru_next);
TAILQ_INSERT_TAIL(bt->lru_queue, mp, lru_next);
}
return mp;
}
static void
mpage_add(struct btree *bt, struct mpage *mp)
{
assert(RB_INSERT(page_cache, bt->page_cache, mp) == NULL);
bt->stat.cache_size++;
TAILQ_INSERT_TAIL(bt->lru_queue, mp, lru_next);
}
static void
mpage_free(struct mpage *mp)
{
if (mp != NULL) {
free(mp->page);
free(mp);
}
}
static void
mpage_del(struct btree *bt, struct mpage *mp)
{
assert(RB_REMOVE(page_cache, bt->page_cache, mp) == mp);
assert(bt->stat.cache_size > 0);
bt->stat.cache_size--;
TAILQ_REMOVE(bt->lru_queue, mp, lru_next);
}
static void
mpage_flush(struct btree *bt)
{
struct mpage *mp;
while ((mp = RB_MIN(page_cache, bt->page_cache)) != NULL) {
mpage_del(bt, mp);
mpage_free(mp);
}
}
static struct mpage *
mpage_copy(struct btree *bt, struct mpage *mp)
{
struct mpage *copy;
if ((copy = calloc(1, sizeof(*copy))) == NULL)
return NULL;
if ((copy->page = malloc(bt->head.psize)) == NULL) {
free(copy);
return NULL;
}
bcopy(mp->page, copy->page, bt->head.psize);
bcopy(&mp->prefix, ©->prefix, sizeof(mp->prefix));
copy->parent = mp->parent;
copy->parent_index = mp->parent_index;
copy->pgno = mp->pgno;
return copy;
}
/* Remove the least recently used memory pages until the cache size is
* within the configured bounds. Pages referenced by cursors or returned
* key/data are not pruned.
*/
static void
mpage_prune(struct btree *bt)
{
struct mpage *mp, *next;
for (mp = TAILQ_FIRST(bt->lru_queue); mp; mp = next) {
if (bt->stat.cache_size <= bt->stat.max_cache)
break;
next = TAILQ_NEXT(mp, lru_next);
if (!mp->dirty && mp->ref <= 0) {
mpage_del(bt, mp);
mpage_free(mp);
}
}
}
/* Mark a page as dirty and push it on the dirty queue.
*/
static void
mpage_dirty(struct btree *bt, struct mpage *mp)
{
assert(bt != NULL);
assert(bt->txn != NULL);
if (!mp->dirty) {
mp->dirty = 1;
SIMPLEQ_INSERT_TAIL(bt->txn->dirty_queue, mp, next);
}
}
/* Touch a page: make it dirty and re-insert into tree with updated pgno.
*/
static struct mpage *
mpage_touch(struct btree *bt, struct mpage *mp)
{
assert(bt != NULL);
assert(bt->txn != NULL);
assert(mp != NULL);
if (!mp->dirty) {
DPRINTF("touching page %u -> %u", mp->pgno, bt->txn->next_pgno);
if (mp->ref == 0)
mpage_del(bt, mp);
else {
if ((mp = mpage_copy(bt, mp)) == NULL)
return NULL;
}
mp->pgno = mp->page->pgno = bt->txn->next_pgno++;
mpage_dirty(bt, mp);
mpage_add(bt, mp);
/* Update the page number to new touched page. */
if (mp->parent != NULL)
NODEPGNO(NODEPTR(mp->parent,
mp->parent_index)) = mp->pgno;
}
return mp;
}
static int
btree_read_page(struct btree *bt, pgno_t pgno, struct page *page)
{
ssize_t rc;
DPRINTF("reading page %u", pgno);
bt->stat.reads++;
if ((rc = pread(bt->fd, page, bt->head.psize, (off_t)pgno*bt->head.psize)) == 0) {
DPRINTF("page %u doesn't exist", pgno);
errno = ENOENT;
return BT_FAIL;
} else if (rc != (ssize_t)bt->head.psize) {
if (rc > 0)
errno = EINVAL;
DPRINTF("read: %s", strerror(errno));
return BT_FAIL;
}
if (page->pgno != pgno) {
DPRINTF("page numbers don't match: %u != %u", pgno, page->pgno);
errno = EINVAL;
return BT_FAIL;
}
DPRINTF("page %u has flags 0x%X", pgno, page->flags);
return BT_SUCCESS;
}
int
btree_sync(struct btree *bt)
{
if (!F_ISSET(bt->flags, BT_NOSYNC))
return fsync(bt->fd);
return 0;
}
struct btree_txn *
btree_txn_begin(struct btree *bt, int rdonly)
{
struct btree_txn *txn;
if (!rdonly && bt->txn != NULL) {
DPRINTF("write transaction already begun");
errno = EBUSY;
return NULL;
}
if ((txn = calloc(1, sizeof(*txn))) == NULL) {
DPRINTF("calloc: %s", strerror(errno));
return NULL;
}
if (rdonly) {
txn->flags |= BT_TXN_RDONLY;
} else {
txn->dirty_queue = calloc(1, sizeof(*txn->dirty_queue));
if (txn->dirty_queue == NULL) {
free(txn);
return NULL;
}
SIMPLEQ_INIT(txn->dirty_queue);
DPRINTF("taking write lock on txn %p", txn);
if (flock(bt->fd, LOCK_EX | LOCK_NB) != 0) {
DPRINTF("flock: %s", strerror(errno));
errno = EBUSY;
free(txn->dirty_queue);
free(txn);
return NULL;
}
bt->txn = txn;
}
txn->bt = bt;
btree_ref(bt);
if (btree_read_meta(bt, &txn->next_pgno) != BT_SUCCESS) {
btree_txn_abort(txn);
return NULL;
}
txn->root = bt->meta.root;
DPRINTF("begin transaction on btree %p, root page %u", bt, txn->root);
return txn;
}
void
btree_txn_abort(struct btree_txn *txn)
{
struct mpage *mp;
struct btree *bt;
if (txn == NULL)
return;
bt = txn->bt;
DPRINTF("abort transaction on btree %p, root page %u", bt, txn->root);
if (!F_ISSET(txn->flags, BT_TXN_RDONLY)) {
/* Discard all dirty pages.
*/
while (!SIMPLEQ_EMPTY(txn->dirty_queue)) {
mp = SIMPLEQ_FIRST(txn->dirty_queue);
assert(mp->ref == 0); /* cursors should be closed */
mpage_del(bt, mp);
SIMPLEQ_REMOVE_HEAD(txn->dirty_queue, next);
mpage_free(mp);
}
DPRINTF("releasing write lock on txn %p", txn);
txn->bt->txn = NULL;
if (flock(txn->bt->fd, LOCK_UN) != 0) {
DPRINTF("failed to unlock fd %d: %s",
txn->bt->fd, strerror(errno));
}
free(txn->dirty_queue);
}
btree_close(txn->bt);
free(txn);
}
int
btree_txn_commit(struct btree_txn *txn)
{
int n, done;
ssize_t rc;
off_t size;
struct mpage *mp;
struct btree *bt;
struct iovec iov[BT_COMMIT_PAGES];
assert(txn != NULL);
assert(txn->bt != NULL);
bt = txn->bt;
if (F_ISSET(txn->flags, BT_TXN_RDONLY)) {
DPRINTF("attempt to commit read-only transaction");
btree_txn_abort(txn);
errno = EPERM;
return BT_FAIL;
}
if (txn != bt->txn) {
DPRINTF("attempt to commit unknown transaction");
btree_txn_abort(txn);
errno = EINVAL;
return BT_FAIL;
}
if (F_ISSET(txn->flags, BT_TXN_ERROR)) {
DPRINTF("error flag is set, can't commit");
btree_txn_abort(txn);
errno = EINVAL;
return BT_FAIL;
}
if (SIMPLEQ_EMPTY(txn->dirty_queue))
goto done;
if (F_ISSET(bt->flags, BT_FIXPADDING)) {
size = lseek(bt->fd, 0, SEEK_END);
size += bt->head.psize - (size % bt->head.psize);
DPRINTF("extending to multiple of page size: %llu", size);
if (ftruncate(bt->fd, size) != 0) {
DPRINTF("ftruncate: %s", strerror(errno));
btree_txn_abort(txn);
return BT_FAIL;
}
bt->flags &= ~BT_FIXPADDING;
}
DPRINTF("committing transaction on btree %p, root page %u",
bt, txn->root);
/* Commit up to BT_COMMIT_PAGES dirty pages to disk until done.
*/
do {
n = 0;
done = 1;
SIMPLEQ_FOREACH(mp, txn->dirty_queue, next) {
DPRINTF("commiting page %u", mp->pgno);
iov[n].iov_len = bt->head.psize;
iov[n].iov_base = mp->page;
if (++n >= BT_COMMIT_PAGES) {
done = 0;
break;
}
}
if (n == 0)
break;
DPRINTF("commiting %u dirty pages", n);
rc = writev(bt->fd, iov, n);
if (rc != (ssize_t)bt->head.psize*n) {
if (rc > 0)
DPRINTF("short write, filesystem full?");
else
DPRINTF("writev: %s", strerror(errno));
btree_txn_abort(txn);
return BT_FAIL;
}
/* Remove the dirty flag from the written pages.
*/
while (!SIMPLEQ_EMPTY(txn->dirty_queue)) {
mp = SIMPLEQ_FIRST(txn->dirty_queue);
mp->dirty = 0;
SIMPLEQ_REMOVE_HEAD(txn->dirty_queue, next);
if (--n == 0)
break;
}
} while (!done);
if (btree_sync(bt) != 0 ||
btree_write_meta(bt, txn->root, 0) != BT_SUCCESS ||
btree_sync(bt) != 0) {
btree_txn_abort(txn);
return BT_FAIL;
}
done:
mpage_prune(bt);
btree_txn_abort(txn);
return BT_SUCCESS;
}
static int
btree_write_header(struct btree *bt, int fd)
{
struct stat sb;
struct bt_head *h;
struct page *p;
ssize_t rc;
unsigned int psize;
DPRINTF("writing header page");
assert(bt != NULL);
/* Ask stat for 'optimal blocksize for I/O'.
*/
if (fstat(fd, &sb) == 0)
psize = sb.st_blksize;
else
psize = PAGESIZE;
if ((p = calloc(1, psize)) == NULL)
return -1;
p->flags = P_HEAD;
h = METADATA(p);
h->magic = BT_MAGIC;
h->version = BT_VERSION;
h->psize = psize;
bcopy(h, &bt->head, sizeof(*h));
rc = write(fd, p, bt->head.psize);
free(p);
if (rc != (ssize_t)bt->head.psize) {
if (rc > 0)
DPRINTF("short write, filesystem full?");
return BT_FAIL;
}
return BT_SUCCESS;
}
static int
btree_read_header(struct btree *bt)
{
char page[PAGESIZE];
struct page *p;
struct bt_head *h;
int rc;
assert(bt != NULL);
/* We don't know the page size yet, so use a minimum value.
*/
if ((rc = pread(bt->fd, page, PAGESIZE, 0)) == 0) {
errno = ENOENT;
return -1;
} else if (rc != PAGESIZE) {
if (rc > 0)
errno = EINVAL;
DPRINTF("read: %s", strerror(errno));
return -1;
}
p = (struct page *)page;
if (!F_ISSET(p->flags, P_HEAD)) {
DPRINTF("page %d not a header page", p->pgno);
errno = EINVAL;
return -1;
}
h = METADATA(p);
if (h->magic != BT_MAGIC) {
DPRINTF("header has invalid magic");
errno = EINVAL;
return -1;
}
if (h->version != BT_VERSION) {
DPRINTF("database is version %u, expected version %u",
bt->head.version, BT_VERSION);
errno = EINVAL;
return -1;
}
bcopy(h, &bt->head, sizeof(*h));
return 0;
}
static int
btree_write_meta(struct btree *bt, pgno_t root, unsigned int flags)
{
struct mpage *mp;
struct bt_meta *meta;
ssize_t rc;
DPRINTF("writing meta page for root page %u", root);
assert(bt != NULL);
assert(bt->txn != NULL);
if ((mp = btree_new_page(bt, P_META)) == NULL)
return -1;
bt->meta.prev_meta = bt->meta.root;
bt->meta.root = root;
bt->meta.flags = flags;
bt->meta.created_at = time(0);
bt->meta.revisions++;
SHA1((unsigned char *)&bt->meta, METAHASHLEN, bt->meta.hash);
/* Copy the meta data changes to the new meta page. */
meta = METADATA(mp->page);
bcopy(&bt->meta, meta, sizeof(*meta));
rc = write(bt->fd, mp->page, bt->head.psize);
mp->dirty = 0;
SIMPLEQ_REMOVE_HEAD(bt->txn->dirty_queue, next);
if (rc != (ssize_t)bt->head.psize) {
if (rc > 0)
DPRINTF("short write, filesystem full?");
return BT_FAIL;
}
if ((bt->size = lseek(bt->fd, 0, SEEK_END)) == -1) {
DPRINTF("failed to update file size: %s", strerror(errno));
bt->size = 0;
}
return BT_SUCCESS;
}
/* Returns true if page p is a valid meta page, false otherwise.
*/
static int
btree_is_meta_page(struct page *p)
{
struct bt_meta *m;
unsigned char hash[SHA_DIGEST_LENGTH];
m = METADATA(p);
if (!F_ISSET(p->flags, P_META)) {
DPRINTF("page %d not a meta page", p->pgno);
errno = EINVAL;
return 0;
}
if (m->root >= p->pgno && m->root != P_INVALID) {
DPRINTF("page %d points to an invalid root page", p->pgno);
errno = EINVAL;
return 0;
}
SHA1((unsigned char *)m, METAHASHLEN, hash);
if (bcmp(hash, m->hash, SHA_DIGEST_LENGTH) != 0) {
DPRINTF("page %d has an invalid digest", p->pgno);
errno = EINVAL;
return 0;
}
return 1;
}
static int
btree_read_meta(struct btree *bt, pgno_t *p_next)
{
struct mpage *mp;
struct bt_meta *meta;
pgno_t meta_pgno, next_pgno;
off_t size;
assert(bt != NULL);
if ((size = lseek(bt->fd, 0, SEEK_END)) == -1)
goto fail;
DPRINTF("btree_read_meta: size = %llu", size);
if (size < bt->size) {
DPRINTF("file has shrunk!");
errno = EIO;
goto fail;
}
if (size == bt->head.psize) { /* there is only the header */
if (p_next != NULL)
*p_next = 1;
return BT_SUCCESS; /* new file */
}
next_pgno = size / bt->head.psize;
if (next_pgno == 0) {
DPRINTF("corrupt file");
errno = EIO;
goto fail;
}
meta_pgno = next_pgno - 1;
if (size % bt->head.psize != 0) {
DPRINTF("filesize not a multiple of the page size!");
bt->flags |= BT_FIXPADDING;
next_pgno++;
}
if (p_next != NULL)
*p_next = next_pgno;
if (size == bt->size) {
DPRINTF("size unchanged, keeping current meta page");
if (F_ISSET(bt->meta.flags, BT_TOMBSTONE)) {
DPRINTF("file is dead");
errno = ESTALE;
return BT_FAIL;
} else
return BT_SUCCESS;
}
bt->size = size;
while (meta_pgno > 0) {
if ((mp = btree_get_mpage(bt, meta_pgno)) == NULL)
break;
if (btree_is_meta_page(mp->page)) {
meta = METADATA(mp->page);
DPRINTF("flags = 0x%x", meta->flags);
if (F_ISSET(meta->flags, BT_TOMBSTONE)) {
DPRINTF("file is dead");
errno = ESTALE;
return BT_FAIL;
} else {
/* Make copy of last meta page. */
bcopy(meta, &bt->meta, sizeof(bt->meta));
return BT_SUCCESS;
}
}
--meta_pgno; /* scan backwards to first valid meta page */
}
errno = EIO;
fail:
if (p_next != NULL)
*p_next = P_INVALID;
return BT_FAIL;
}
struct btree *
btree_open_fd(int fd, unsigned int flags)
{
struct btree *bt;
int fl;
fl = fcntl(fd, F_GETFL, 0);
if (fcntl(fd, F_SETFL, fl | O_APPEND) == -1)
return NULL;
if ((bt = calloc(1, sizeof(*bt))) == NULL)
return NULL;
bt->fd = fd;
bt->flags = flags;
bt->flags &= ~BT_FIXPADDING;
bt->ref = 1;
bt->meta.root = P_INVALID;
if ((bt->page_cache = calloc(1, sizeof(*bt->page_cache))) == NULL)
goto fail;
bt->stat.max_cache = BT_MAXCACHE_DEF;
RB_INIT(bt->page_cache);
if ((bt->lru_queue = calloc(1, sizeof(*bt->lru_queue))) == NULL)
goto fail;
TAILQ_INIT(bt->lru_queue);
if (btree_read_header(bt) != 0) {
if (errno != ENOENT)
goto fail;
DPRINTF("new database");
btree_write_header(bt, bt->fd);
}
if (btree_read_meta(bt, NULL) != 0)
goto fail;
DPRINTF("opened database version %u, pagesize %u",
bt->head.version, bt->head.psize);
DPRINTF("timestamp: %s", ctime(&bt->meta.created_at));
DPRINTF("depth: %u", bt->meta.depth);
DPRINTF("entries: %llu", bt->meta.entries);
DPRINTF("revisions: %u", bt->meta.revisions);
DPRINTF("branch pages: %u", bt->meta.branch_pages);
DPRINTF("leaf pages: %u", bt->meta.leaf_pages);
DPRINTF("overflow pages: %u", bt->meta.overflow_pages);
DPRINTF("root: %u", bt->meta.root);
DPRINTF("previous meta page: %u", bt->meta.prev_meta);
return bt;
fail:
free(bt->lru_queue);
free(bt->page_cache);
free(bt);
return NULL;
}
struct btree *
btree_open(const char *path, unsigned int flags, mode_t mode)
{
int fd, oflags;
struct btree *bt;
if (F_ISSET(flags, BT_RDONLY))
oflags = O_RDONLY;
else
oflags = O_RDWR | O_CREAT | O_APPEND;
if ((fd = open(path, oflags, mode)) == -1)
return NULL;
if ((bt = btree_open_fd(fd, flags)) == NULL)
close(fd);
else {
bt->path = strdup(path);
DPRINTF("opened btree %p", bt);
}
return bt;
}
static void
btree_ref(struct btree *bt)
{
bt->ref++;
DPRINTF("ref is now %d on btree %p", bt->ref, bt);
}
void
btree_close(struct btree *bt)
{
if (bt == NULL)
return;
if (--bt->ref == 0) {
DPRINTF("ref is zero, closing btree %p", bt);
close(bt->fd);
mpage_flush(bt);
free(bt->page_cache);
free(bt);
} else
DPRINTF("ref is now %d on btree %p", bt->ref, bt);
}
/* Search for key within a leaf page, using binary search.
* Returns the smallest entry larger or equal to the key.
* If exactp is non-null, stores whether the found entry was an exact match
* in *exactp (1 or 0).
* If kip is non-null, stores the index of the found entry in *kip.
* If no entry larger of equal to the key is found, returns NULL.
*/
static struct node *
btree_search_node(struct btree *bt, struct mpage *mp, struct btval *key,
int *exactp, unsigned int *kip)
{
unsigned int i = 0;
int low, high;
int rc = 0;
struct node *node;
struct btval nodekey;
DPRINTF("searching %lu keys in %s page %u with prefix [%.*s]",
NUMKEYS(mp),
IS_LEAF(mp) ? "leaf" : "branch",
mp->pgno, (int)mp->prefix.len, (char *)mp->prefix.str);
assert(NUMKEYS(mp) > 0);
bzero(&nodekey, sizeof(nodekey));
low = IS_LEAF(mp) ? 0 : 1;
high = NUMKEYS(mp) - 1;
while (low <= high) {
i = (low + high) >> 1;
node = NODEPTR(mp, i);
nodekey.size = node->ksize;
nodekey.data = NODEKEY(node);
if (bt->cmp)
rc = bt->cmp(key, &nodekey);
else
rc = bt_cmp(bt, key, &nodekey, &mp->prefix);
if (IS_LEAF(mp))
DPRINTF("found leaf index %u [%.*s], rc = %i",
i, (int)nodekey.size, (char *)nodekey.data, rc);
else
DPRINTF("found branch index %u [%.*s -> %u], rc = %i",
i, (int)node->ksize, (char *)NODEKEY(node),
node->n_pgno, rc);
if (rc == 0)
break;
if (rc > 0)
low = i + 1;
else
high = i - 1;
}
if (rc > 0) { /* Found entry is less than the key. */
i++; /* Skip to get the smallest entry larger than key. */
if (i >= NUMKEYS(mp))
/* There is no entry larger or equal to the key. */
return NULL;
}
if (exactp)
*exactp = (rc == 0);
if (kip) /* Store the key index if requested. */
*kip = i;
return NODEPTR(mp, i);
}
static void
cursor_pop_page(struct cursor *cursor)
{
struct ppage *top;
top = CURSOR_TOP(cursor);
CURSOR_POP(cursor);
top->mpage->ref--;
DPRINTF("popped page %u off cursor %p", top->mpage->pgno, cursor);
free(top);
}
static struct ppage *
cursor_push_page(struct cursor *cursor, struct mpage *mp)
{
struct ppage *ppage;
DPRINTF("pushing page %u on cursor %p", mp->pgno, cursor);
if ((ppage = calloc(1, sizeof(*ppage))) == NULL)
return NULL;
ppage->mpage = mp;
mp->ref++;
CURSOR_PUSH(cursor, ppage);
return ppage;
}
static struct mpage *
btree_get_mpage(struct btree *bt, pgno_t pgno)
{
struct mpage *mp;
mp = mpage_lookup(bt, pgno);
if (mp == NULL) {
if ((mp = calloc(1, sizeof(*mp))) == NULL)
return NULL;
if ((mp->page = malloc(bt->head.psize)) == NULL) {
free(mp);
return NULL;
}
if (btree_read_page(bt, pgno, mp->page) != BT_SUCCESS) {
mpage_free(mp);
return NULL;
}
mp->pgno = pgno;
mpage_add(bt, mp);
} else
DPRINTF("returning page %u from cache", pgno);
return mp;
}
static void
concat_prefix(struct btree *bt, char *s1, size_t n1, char *s2, size_t n2,
char *cs, size_t *cn)
{
assert(*cn >= n1 + n2);
if (F_ISSET(bt->flags, BT_REVERSEKEY)) {
bcopy(s2, cs, n2);
bcopy(s1, cs + n2, n1);
} else {
bcopy(s1, cs, n1);
bcopy(s2, cs + n1, n2);
}
*cn = n1 + n2;
}
static void
find_common_prefix(struct btree *bt, struct mpage *mp)
{
indx_t lbound = 0, ubound = 0;
struct mpage *lp, *up;
struct btkey lprefix, uprefix;
mp->prefix.len = 0;
if (bt->cmp != NULL)
return;
lp = mp;
while (lp->parent != NULL) {
if (lp->parent_index > 0) {
lbound = lp->parent_index;
break;
}
lp = lp->parent;
}
up = mp;
while (up->parent != NULL) {
if (up->parent_index + 1 < (indx_t)NUMKEYS(up->parent)) {
ubound = up->parent_index + 1;
break;
}
up = up->parent;
}
if (lp->parent != NULL && up->parent != NULL) {
expand_prefix(bt, lp->parent, lbound, &lprefix);
expand_prefix(bt, up->parent, ubound, &uprefix);
common_prefix(bt, &lprefix, &uprefix, &mp->prefix);
}
else if (mp->parent)
bcopy(&mp->parent->prefix, &mp->prefix, sizeof(mp->prefix));
DPRINTF("found common prefix [%.*s] (len %zu) for page %u",
(int)mp->prefix.len, mp->prefix.str, mp->prefix.len, mp->pgno);
}
static int
btree_search_page_root(struct btree *bt, struct mpage *root, struct btval *key,
struct cursor *cursor, int modify, struct mpage **mpp)
{
struct mpage *mp, *parent;
if (cursor && cursor_push_page(cursor, root) == NULL)
return BT_FAIL;
mp = root;
while (IS_BRANCH(mp)) {
unsigned int i = 0;
struct node *node;
DPRINTF("branch page %u has %lu keys", mp->pgno, NUMKEYS(mp));
assert(NUMKEYS(mp) > 1);
DPRINTF("found index 0 to page %u", NODEPGNO(NODEPTR(mp, 0)));
if (key == NULL) /* Initialize cursor to first page. */
i = 0;
else {
int exact;
node = btree_search_node(bt, mp, key, &exact, &i);
if (node == NULL)
i = NUMKEYS(mp) - 1;
else if (!exact) {
assert(i > 0);
i--;
}
}
if (key)
DPRINTF("following index %u for key %.*s",
i, (int)key->size, (char *)key->data);
assert(i >= 0 && i < NUMKEYS(mp));
node = NODEPTR(mp, i);
if (cursor)
CURSOR_TOP(cursor)->ki = i;
parent = mp;
if ((mp = btree_get_mpage(bt, NODEPGNO(node))) == NULL)
return BT_FAIL;
mp->parent = parent;
mp->parent_index = i;
find_common_prefix(bt, mp);
if (cursor && cursor_push_page(cursor, mp) == NULL)
return BT_FAIL;
if (modify && (mp = mpage_touch(bt, mp)) == NULL)
return BT_FAIL;
}
if (!IS_LEAF(mp)) {
DPRINTF("internal error, index points to a %02X page!?",
mp->page->flags);
return BT_FAIL;
}
DPRINTF("found leaf page %u for key %.*s", mp->pgno,
key ? (int)key->size : 0, key ? (char *)key->data : NULL);
*mpp = mp;
return BT_SUCCESS;
}
/* Search for the page a given key should be in.
* Stores a pointer to the found page in *mpp.
* If key is NULL, search for the lowest page (used by btree_cursor_first).
* If cursor is non-null, pushes parent pages on the cursor stack.
* If modify is true, visited pages are updated with new page numbers.
*/
static int
btree_search_page(struct btree *bt, struct btree_txn *txn, struct btval *key,
struct cursor *cursor, int modify, struct mpage **mpp)
{
int rc;
pgno_t root;
struct mpage *mp;
/* Can't modify pages outside a transaction. */
if (txn == NULL && modify) {
errno = EINVAL;
return BT_FAIL;
}
/* Choose which root page to start with. If a transaction is given
* use the root page from the transaction, otherwise read the last
* committed root page.
*/
if (txn == NULL) {
if ((rc = btree_read_meta(bt, NULL)) != BT_SUCCESS)
return rc;
root = bt->meta.root;
} else if (F_ISSET(txn->flags, BT_TXN_ERROR)) {
DPRINTF("transaction has failed, must abort");
errno = EINVAL;
return BT_FAIL;
} else
root = txn->root;
if (root == P_INVALID) { /* Tree is empty. */
DPRINTF("tree is empty");
errno = ENOENT;
return BT_FAIL;
}
if ((mp = btree_get_mpage(bt, root)) == NULL)
return BT_FAIL;
DPRINTF("root page has flags 0x%X", mp->page->flags);
assert(mp->parent == NULL);
assert(mp->prefix.len == 0);
if (modify && !mp->dirty) {
if ((mp = mpage_touch(bt, mp)) == NULL)
return BT_FAIL;
txn->root = mp->pgno;
}
return btree_search_page_root(bt, mp, key, cursor, modify, mpp);
}
static int
btree_read_data(struct btree *bt, struct mpage *mp, struct node *leaf,
struct btval *data)
{
struct mpage *omp; /* overflow mpage */
size_t psz;
size_t max;
size_t sz = 0;
pgno_t pgno;
bzero(data, sizeof(*data));
max = bt->head.psize - PAGEHDRSZ;
if (!F_ISSET(leaf->flags, F_BIGDATA)) {
data->size = leaf->n_dsize;
if (data->size > 0) {
if (mp == NULL) {
if ((data->data = malloc(data->size)) == NULL)
return BT_FAIL;
bcopy(NODEDATA(leaf), data->data, data->size);
data->free_data = 1;
data->mp = NULL;
} else {
data->data = NODEDATA(leaf);
data->free_data = 0;
data->mp = mp;
mp->ref++;
}
}
return BT_SUCCESS;
}
/* Read overflow data.
*/
DPRINTF("allocating %u byte for overflow data", leaf->n_dsize);
if ((data->data = malloc(leaf->n_dsize)) == NULL)
return BT_FAIL;
data->size = leaf->n_dsize;
data->free_data = 1;
data->mp = NULL;
bcopy(NODEDATA(leaf), &pgno, sizeof(pgno));
for (sz = 0; sz < data->size; ) {
if ((omp = btree_get_mpage(bt, pgno)) == NULL ||
!F_ISSET(omp->page->flags, P_OVERFLOW)) {
DPRINTF("read overflow page %u failed", pgno);
free(data->data);
mpage_free(omp);
return BT_FAIL;
}
psz = data->size - sz;
if (psz > max)
psz = max;
bcopy(omp->page->ptrs, (char *)data->data + sz, psz);
sz += psz;
pgno = omp->page->p_next_pgno;
}
return BT_SUCCESS;
}
int
btree_txn_get(struct btree *bt, struct btree_txn *txn,
struct btval *key, struct btval *data)
{
int rc, exact;
struct node *leaf;
struct mpage *mp;
assert(key);
assert(data);
DPRINTF("===> get key [%.*s]", (int)key->size, (char *)key->data);
if (bt != NULL && txn != NULL && bt != txn->bt) {
errno = EINVAL;
return BT_FAIL;
}
if (bt == NULL) {
if (txn == NULL) {
errno = EINVAL;
return BT_FAIL;
}
bt = txn->bt;
}
if (key->size == 0 || key->size > MAXKEYSIZE) {
errno = EINVAL;
return BT_FAIL;
}
if ((rc = btree_search_page(bt, txn, key, NULL, 0, &mp)) != BT_SUCCESS)
return rc;
leaf = btree_search_node(bt, mp, key, &exact, NULL);
if (leaf && exact)
rc = btree_read_data(bt, mp, leaf, data);
else {
errno = ENOENT;
rc = BT_FAIL;
}
mpage_prune(bt);
return rc;
}
static int
btree_sibling(struct cursor *cursor, int move_right)
{
int rc;
struct node *indx;
struct ppage *parent, *top;
struct mpage *mp;
top = CURSOR_TOP(cursor);
if ((parent = SLIST_NEXT(top, entry)) == NULL) {
errno = ENOENT;
return BT_FAIL; /* root has no siblings */
}
DPRINTF("parent page is page %u, index %u",
parent->mpage->pgno, parent->ki);
cursor_pop_page(cursor);
if (move_right ? (parent->ki + 1 >= NUMKEYS(parent->mpage))
: (parent->ki == 0)) {
DPRINTF("no more keys left, moving to %s sibling",
move_right ? "right" : "left");
if ((rc = btree_sibling(cursor, move_right)) != BT_SUCCESS)
return rc;
parent = CURSOR_TOP(cursor);
} else {
if (move_right)
parent->ki++;
else
parent->ki--;
DPRINTF("just moving to %s index key %u",
move_right ? "right" : "left", parent->ki);
}
assert(IS_BRANCH(parent->mpage));
indx = NODEPTR(parent->mpage, parent->ki);
if ((mp = btree_get_mpage(cursor->bt, indx->n_pgno)) == NULL)
return BT_FAIL;
mp->parent = parent->mpage;
mp->parent_index = parent->ki;
cursor_push_page(cursor, mp);
find_common_prefix(cursor->bt, mp);
return BT_SUCCESS;
}
static int
bt_set_key(struct btree *bt, struct mpage *mp, struct node *node,
struct btval *key)
{
if (key == NULL)
return 0;
if (mp->prefix.len > 0) {
key->size = node->ksize + mp->prefix.len;
key->data = malloc(key->size);
if (key->data == NULL)
return -1;
concat_prefix(bt,
mp->prefix.str, mp->prefix.len,
NODEKEY(node), node->ksize,
key->data, &key->size);
key->free_data = 1;
} else {
key->size = node->ksize;
key->data = NODEKEY(node);
key->free_data = 0;
key->mp = mp;
mp->ref++;
}
return 0;
}
static int
btree_cursor_next(struct cursor *cursor, struct btval *key, struct btval *data)
{
struct ppage *top;
struct mpage *mp;
struct node *leaf;
if (cursor->eof) {
errno = ENOENT;
return BT_FAIL;
}
assert(cursor->initialized);
top = CURSOR_TOP(cursor);
mp = top->mpage;
DPRINTF("cursor_next: top page is %u in cursor %p", mp->pgno, cursor);
if (top->ki + 1 >= NUMKEYS(mp)) {
DPRINTF("=====> move to next sibling page");
if (btree_sibling(cursor, 1) != BT_SUCCESS) {
cursor->eof = 1;
return BT_FAIL;
}
top = CURSOR_TOP(cursor);
mp = top->mpage;
DPRINTF("next page is %u, key index %u", mp->pgno, top->ki);
} else
top->ki++;
DPRINTF("==> cursor points to page %u with %lu keys, key index %u",
mp->pgno, NUMKEYS(mp), top->ki);
assert(IS_LEAF(mp));
leaf = NODEPTR(mp, top->ki);
if (data && btree_read_data(cursor->bt, mp, leaf, data) != BT_SUCCESS)
return BT_FAIL;
if (bt_set_key(cursor->bt, mp, leaf, key) != 0)
return BT_FAIL;
return BT_SUCCESS;
}
static int
btree_cursor_set(struct cursor *cursor, struct btval *key, struct btval *data,
int *exactp)
{
int rc;
struct node *leaf;
struct mpage *mp;
struct ppage *top;
assert(cursor);
assert(key);
assert(key->size > 0);
rc = btree_search_page(cursor->bt, cursor->txn, key, cursor, 0, &mp);
if (rc != BT_SUCCESS)
return rc;
assert(IS_LEAF(mp));
top = CURSOR_TOP(cursor);
leaf = btree_search_node(cursor->bt, mp, key, exactp, &top->ki);
if (exactp != NULL && !*exactp) {
/* BT_CURSOR_EXACT specified and not an exact match. */
errno = ENOENT;
return BT_FAIL;
}
if (leaf == NULL) {
DPRINTF("===> inexact leaf not found, goto sibling");
if (btree_sibling(cursor, 1) != BT_SUCCESS)
return BT_FAIL; /* no entries matched */
top = CURSOR_TOP(cursor);
top->ki = 0;
mp = top->mpage;
assert(IS_LEAF(mp));
leaf = NODEPTR(mp, 0);
}
cursor->initialized = 1;
cursor->eof = 0;
if (data && btree_read_data(cursor->bt, mp, leaf, data) != BT_SUCCESS)
return BT_FAIL;
if (bt_set_key(cursor->bt, mp, leaf, key) != 0)
return BT_FAIL;
DPRINTF("==> cursor placed on key %.*s",
(int)key->size, (char *)key->data);
return BT_SUCCESS;
}
static int
btree_cursor_first(struct cursor *cursor, struct btval *key, struct btval *data)
{
int rc;
struct mpage *mp;
struct node *leaf;
rc = btree_search_page(cursor->bt, cursor->txn, NULL, cursor, 0, &mp);
if (rc != BT_SUCCESS)
return rc;
assert(IS_LEAF(mp));
leaf = NODEPTR(mp, 0);
cursor->initialized = 1;
cursor->eof = 0;
if (data && btree_read_data(cursor->bt, mp, leaf, data) != BT_SUCCESS)
return BT_FAIL;
if (bt_set_key(cursor->bt, mp, leaf, key) != 0)
return BT_FAIL;
return BT_SUCCESS;
}
int
btree_cursor_get(struct cursor *cursor, struct btval *key, struct btval *data,
enum cursor_op op)
{
int rc;
int exact = 0;
assert(cursor);
switch (op) {
case BT_CURSOR:
case BT_CURSOR_EXACT:
while (CURSOR_TOP(cursor) != NULL)
cursor_pop_page(cursor);
if (key == NULL || key->size == 0 || key->size > MAXKEYSIZE) {
errno = EINVAL;
rc = BT_FAIL;
} else if (op == BT_CURSOR_EXACT)
rc = btree_cursor_set(cursor, key, data, &exact);
else
rc = btree_cursor_set(cursor, key, data, NULL);
break;
case BT_NEXT:
if (!cursor->initialized)
rc = btree_cursor_first(cursor, key, data);
else
rc = btree_cursor_next(cursor, key, data);
break;
case BT_FIRST:
while (CURSOR_TOP(cursor) != NULL)
cursor_pop_page(cursor);
rc = btree_cursor_first(cursor, key, data);
break;
default:
DPRINTF("unhandled/unimplemented cursor operation %u", op);
rc = BT_FAIL;
break;
}
mpage_prune(cursor->bt);
return rc;
}
static struct mpage *
btree_new_page(struct btree *bt, uint32_t flags)
{
struct mpage *mp;
assert(bt != NULL);
assert(bt->txn != NULL);
DPRINTF("allocating new mpage %u, page size %u",
bt->txn->next_pgno, bt->head.psize);
if ((mp = calloc(1, sizeof(*mp))) == NULL)
return NULL;
if ((mp->page = malloc(bt->head.psize)) == NULL) {
free(mp);
return NULL;
}
mp->pgno = mp->page->pgno = bt->txn->next_pgno++;
mp->page->flags = flags;
mp->page->lower = PAGEHDRSZ;
mp->page->upper = bt->head.psize;
if (IS_BRANCH(mp))
bt->meta.branch_pages++;
else if (IS_LEAF(mp))
bt->meta.leaf_pages++;
else if (IS_OVERFLOW(mp))
bt->meta.overflow_pages++;
mpage_add(bt, mp);
mpage_dirty(bt, mp);
return mp;
}
static size_t
bt_leaf_size(struct btree *bt, struct btval *key, struct btval *data)
{
size_t sz;
sz = LEAFSIZE(key, data);
if (data->size >= bt->head.psize / BT_MINKEYS) {
/* put on overflow page */
sz -= data->size - sizeof(pgno_t);
}
return sz + sizeof(indx_t);
}
static size_t
bt_branch_size(struct btree *bt, struct btval *key)
{
size_t sz;
sz = INDXSIZE(key);
if (sz >= bt->head.psize / BT_MINKEYS) {
/* put on overflow page */
/* not implemented */
/* sz -= key->size - sizeof(pgno_t); */
}
return sz + sizeof(indx_t);
}
static int
btree_write_overflow_data(struct btree *bt, struct page *p, struct btval *data)
{
size_t done = 0;
size_t sz;
size_t max;
pgno_t *linkp; /* linked page stored here */
struct mpage *next = NULL;
max = bt->head.psize - PAGEHDRSZ;
while (done < data->size) {
if (next != NULL)
p = next->page;
linkp = &p->p_next_pgno;
if (data->size - done > max) {
/* need another overflow page */
if ((next = btree_new_page(bt, P_OVERFLOW)) == NULL)
return BT_FAIL;
*linkp = next->pgno;
DPRINTF("linking overflow page %u", next->pgno);
} else
*linkp = 0; /* indicates end of list */
sz = data->size - done;
if (sz > max)
sz = max;
DPRINTF("copying %zu bytes to overflow page %u", sz, p->pgno);
bcopy((char *)data->data + done, p->ptrs, sz);
done += sz;
}
return BT_SUCCESS;
}
/* Key prefix should already be stripped.
*/
static int
btree_add_node(struct btree *bt, struct mpage *mp, indx_t indx,
struct btval *key, struct btval *data, pgno_t pgno, uint8_t flags)
{
unsigned int i;
size_t node_size = NODESIZE;
indx_t ofs;
struct node *node;
struct page *p;
struct mpage *ofp = NULL; /* overflow page */
p = mp->page;
assert(p->upper >= p->lower);
DPRINTF("add node [%.*s] to %s page %u at index %i, key size %zu",
key ? (int)key->size : 0, key ? (char *)key->data : NULL,
IS_LEAF(mp) ? "leaf" : "branch",
mp->pgno, indx, key ? key->size : 0);
if (key != NULL)
node_size += key->size;
if (IS_LEAF(mp)) {
assert(data);
node_size += data->size;
if (F_ISSET(flags, F_BIGDATA)) {
/* Data already on overflow page. */
node_size -= data->size - sizeof(pgno_t);
} else if (data->size >= bt->head.psize / BT_MINKEYS) {
/* Put data on overflow page. */
DPRINTF("data size is %zu, put on overflow page",
data->size);
node_size -= data->size - sizeof(pgno_t);
if ((ofp = btree_new_page(bt, P_OVERFLOW)) == NULL)
return BT_FAIL;
DPRINTF("allocated overflow page %u", ofp->pgno);
flags |= F_BIGDATA;
}
}
if (node_size + sizeof(indx_t) > SIZELEFT(mp)) {
DPRINTF("not enough room in page %u, got %lu ptrs",
mp->pgno, NUMKEYS(mp));
DPRINTF("upper - lower = %u - %u = %u", p->upper, p->lower,
p->upper - p->lower);
DPRINTF("node size = %zu", node_size);
return BT_FAIL;
}
/* Move higher pointers up one slot. */
for (i = NUMKEYS(mp); i > indx; i--)
p->ptrs[i] = p->ptrs[i - 1];
/* Adjust free space offsets. */
ofs = p->upper - node_size;
assert(ofs >= p->lower + sizeof(indx_t));
p->ptrs[indx] = ofs;
p->upper = ofs;
p->lower += sizeof(indx_t);
/* Write the node data. */
node = NODEPTR(mp, indx);
node->ksize = (key == NULL) ? 0 : key->size;
node->flags = flags;
if (IS_LEAF(mp))
node->n_dsize = data->size;
else
node->n_pgno = pgno;
if (key)
bcopy(key->data, NODEKEY(node), key->size);
if (IS_LEAF(mp)) {
assert(key);
if (ofp == NULL) {
if (F_ISSET(flags, F_BIGDATA))
bcopy(data->data, node->data + key->size,
sizeof(pgno_t));
else
bcopy(data->data, node->data + key->size,
data->size);
} else {
bcopy(&ofp->pgno, node->data + key->size,
sizeof(pgno_t));
if (btree_write_overflow_data(bt, ofp->page,
data) == BT_FAIL)
return BT_FAIL;
}
}
return BT_SUCCESS;
}
static void
btree_del_node(struct btree *bt, struct mpage *mp, indx_t indx)
{
unsigned int sz;
indx_t i, j, numkeys, ptr;
struct node *node;
char *base;
DPRINTF("delete node %u on %s page %u", indx,
IS_LEAF(mp) ? "leaf" : "branch", mp->pgno);
assert(indx < NUMKEYS(mp));
node = NODEPTR(mp, indx);
sz = NODESIZE + node->ksize;
if (IS_LEAF(mp)) {
if (F_ISSET(node->flags, F_BIGDATA))
sz += sizeof(pgno_t);
else
sz += NODEDSZ(node);
}
ptr = mp->page->ptrs[indx];
numkeys = NUMKEYS(mp);
for (i = j = 0; i < numkeys; i++) {
if (i != indx) {
mp->page->ptrs[j] = mp->page->ptrs[i];
if (mp->page->ptrs[i] < ptr)
mp->page->ptrs[j] += sz;
j++;
}
}
base = (char *)mp->page + mp->page->upper;
bcopy(base, base + sz, ptr - mp->page->upper);
mp->page->lower -= sizeof(indx_t);
mp->page->upper += sz;
}
struct cursor *
btree_txn_cursor_open(struct btree *bt, struct btree_txn *txn)
{
struct cursor *cursor;
if (bt != NULL && txn != NULL && bt != txn->bt) {
errno = EINVAL;
return NULL;
}
if (bt == NULL) {
if (txn == NULL) {
errno = EINVAL;
return NULL;
}
bt = txn->bt;
}
if ((cursor = calloc(1, sizeof(*cursor))) != NULL) {
SLIST_INIT(&cursor->stack);
cursor->bt = bt;
cursor->txn = txn;
btree_ref(bt);
}
return cursor;
}
void
btree_cursor_close(struct cursor *cursor)
{
if (cursor != NULL) {
while (!CURSOR_EMPTY(cursor))
cursor_pop_page(cursor);
btree_close(cursor->bt);
free(cursor);
}
}
static int
btree_update_key(struct btree *bt, struct mpage *mp, indx_t indx,
struct btval *key)
{
indx_t ptr, i, numkeys;
int delta;
size_t len;
struct node *node;
char *base;
node = NODEPTR(mp, indx);
ptr = mp->page->ptrs[indx];
DPRINTF("update key %u (ofs %u) [%.*s] to [%.*s] on page %u",
indx, ptr,
(int)node->ksize, (char *)NODEKEY(node),
(int)key->size, (char *)key->data,
mp->pgno);
if (key->size != node->ksize) {
delta = key->size - node->ksize;
if (delta > 0 && SIZELEFT(mp) < delta) {
DPRINTF("OUCH! Not enough room, delta = %d", delta);
return BT_FAIL;
}
numkeys = NUMKEYS(mp);
for (i = 0; i < numkeys; i++) {
if (mp->page->ptrs[i] <= ptr)
mp->page->ptrs[i] -= delta;
}
base = (char *)mp->page + mp->page->upper;
len = ptr - mp->page->upper + NODESIZE;
bcopy(base, base - delta, len);
mp->page->upper -= delta;
node = NODEPTR(mp, indx);
node->ksize = key->size;
}
bcopy(key->data, NODEKEY(node), key->size);
return BT_SUCCESS;
}
static int
btree_adjust_prefix(struct btree *bt, struct mpage *src, int delta)
{
indx_t i;
struct node *node;
struct btkey tmpkey;
struct btval key;
DPRINTF("adjusting prefix lengths on page %u with delta %d",
src->pgno, delta);
assert(delta != 0);
for (i = 0; i < NUMKEYS(src); i++) {
node = NODEPTR(src, i);
tmpkey.len = node->ksize - delta;
if (delta > 0) {
if (F_ISSET(bt->flags, BT_REVERSEKEY))
bcopy(NODEKEY(node), tmpkey.str, tmpkey.len);
else
bcopy((char *)NODEKEY(node) + delta, tmpkey.str,
tmpkey.len);
} else {
if (F_ISSET(bt->flags, BT_REVERSEKEY)) {
bcopy(NODEKEY(node), tmpkey.str, node->ksize);
bcopy(src->prefix.str, tmpkey.str + node->ksize,
-delta);
} else {
bcopy(src->prefix.str + src->prefix.len + delta,
tmpkey.str, -delta);
bcopy(NODEKEY(node), tmpkey.str - delta,
node->ksize);
}
}
key.size = tmpkey.len;
key.data = tmpkey.str;
if (btree_update_key(bt, src, i, &key) != BT_SUCCESS)
return BT_FAIL;
}
return BT_SUCCESS;
}
/* Move a node from src to dst.
*/
static int
btree_move_node(struct btree *bt, struct mpage *src, indx_t srcindx,
struct mpage *dst, indx_t dstindx)
{
int rc;
unsigned int pfxlen, mp_pfxlen = 0;
struct node *srcnode;
struct mpage *mp = NULL;
struct btkey tmpkey, srckey;
struct btval key, data;
assert(src->parent);
assert(dst->parent);
srcnode = NODEPTR(src, srcindx);
DPRINTF("moving %s node %u [%.*s] on page %u to node %u on page %u",
IS_LEAF(src) ? "leaf" : "branch",
srcindx,
(int)srcnode->ksize, (char *)NODEKEY(srcnode),
src->pgno,
dstindx, dst->pgno);
find_common_prefix(bt, src);
if (IS_BRANCH(src)) {
/* Need to check if the page the moved node points to
* changes prefix.
*/
if ((mp = btree_get_mpage(bt, NODEPGNO(srcnode))) == NULL)
return BT_FAIL;
mp->parent = src;
mp->parent_index = srcindx;
find_common_prefix(bt, mp);
mp_pfxlen = mp->prefix.len;
}
/* Mark src and dst as dirty. */
if ((src = mpage_touch(bt, src)) == NULL ||
(dst = mpage_touch(bt, dst)) == NULL)
return BT_FAIL;
find_common_prefix(bt, dst);
/* Check if src node has destination page prefix. Otherwise the
* destination page must expand its prefix on all its nodes.
*/
srckey.len = srcnode->ksize;
bcopy(NODEKEY(srcnode), srckey.str, srckey.len);
common_prefix(bt, &srckey, &dst->prefix, &tmpkey);
if (tmpkey.len != dst->prefix.len) {
if (btree_adjust_prefix(bt, dst,
tmpkey.len - dst->prefix.len) != BT_SUCCESS)
return BT_FAIL;
bcopy(&tmpkey, &dst->prefix, sizeof(tmpkey));
}
if (srcindx == 0 && IS_BRANCH(src)) {
struct mpage *low;
/* must find the lowest key below src
*/
assert(btree_search_page_root(bt, src, NULL, NULL, 0,
&low) == BT_SUCCESS);
expand_prefix(bt, low, 0, &srckey);
DPRINTF("found lowest key [%.*s] on leaf page %u",
(int)srckey.len, srckey.str, low->pgno);
} else {
srckey.len = srcnode->ksize;
bcopy(NODEKEY(srcnode), srckey.str, srcnode->ksize);
}
find_common_prefix(bt, src);
/* expand the prefix */
tmpkey.len = sizeof(tmpkey.str);
concat_prefix(bt, src->prefix.str, src->prefix.len,
srckey.str, srckey.len, tmpkey.str, &tmpkey.len);
/* Add the node to the destination page. Adjust prefix for
* destination page.
*/
key.size = tmpkey.len;
key.data = tmpkey.str;
remove_prefix(bt, &key, dst->prefix.len);
data.size = NODEDSZ(srcnode);
data.data = NODEDATA(srcnode);
rc = btree_add_node(bt, dst, dstindx, &key, &data, NODEPGNO(srcnode),
srcnode->flags);
if (rc != BT_SUCCESS)
return rc;
/* Delete the node from the source page.
*/
btree_del_node(bt, src, srcindx);
/* Update the parent separators.
*/
if (srcindx == 0 && src->parent_index != 0) {
expand_prefix(bt, src, 0, &tmpkey);
key.size = tmpkey.len;
key.data = tmpkey.str;
remove_prefix(bt, &key, src->parent->prefix.len);
DPRINTF("update separator for source page %u to [%.*s]",
src->pgno, (int)key.size, (char *)key.data);
if (btree_update_key(bt, src->parent, src->parent_index,
&key) != BT_SUCCESS)
return BT_FAIL;
}
if (srcindx == 0 && IS_BRANCH(src)) {
struct btval nullkey;
nullkey.size = 0;
assert(btree_update_key(bt, src, 0, &nullkey) == BT_SUCCESS);
}
if (dstindx == 0 && dst->parent_index != 0) {
expand_prefix(bt, dst, 0, &tmpkey);
key.size = tmpkey.len;
key.data = tmpkey.str;
remove_prefix(bt, &key, dst->parent->prefix.len);
DPRINTF("update separator for destination page %u to [%.*s]",
dst->pgno, (int)key.size, (char *)key.data);
if (btree_update_key(bt, dst->parent, dst->parent_index,
&key) != BT_SUCCESS)
return BT_FAIL;
}
if (dstindx == 0 && IS_BRANCH(dst)) {
struct btval nullkey;
nullkey.size = 0;
assert(btree_update_key(bt, dst, 0, &nullkey) == BT_SUCCESS);
}
/* We can get a new page prefix here!
* Must update keys in all nodes of this page!
*/
pfxlen = src->prefix.len;
find_common_prefix(bt, src);
if (src->prefix.len != pfxlen) {
if (btree_adjust_prefix(bt, src,
src->prefix.len - pfxlen) != BT_SUCCESS)
return BT_FAIL;
}
pfxlen = dst->prefix.len;
find_common_prefix(bt, dst);
if (dst->prefix.len != pfxlen) {
if (btree_adjust_prefix(bt, dst,
dst->prefix.len - pfxlen) != BT_SUCCESS)
return BT_FAIL;
}
if (IS_BRANCH(dst)) {
assert(mp);
mp->parent = dst;
mp->parent_index = dstindx;
find_common_prefix(bt, mp);
if (mp->prefix.len != mp_pfxlen) {
DPRINTF("moved branch node has changed prefix");
if ((mp = mpage_touch(bt, mp)) == NULL)
return BT_FAIL;
if (btree_adjust_prefix(bt, mp,
mp->prefix.len - mp_pfxlen) != BT_SUCCESS)
return BT_FAIL;
}
}
return BT_SUCCESS;
}
static int
btree_merge(struct btree *bt, struct mpage *src, struct mpage *dst)
{
int rc;
indx_t i;
unsigned int pfxlen;
struct node *srcnode;
struct btkey tmpkey, dstpfx;
struct btval key, data;
DPRINTF("merging page %u and %u", src->pgno, dst->pgno);
assert(src->parent); /* can't merge root page */
assert(dst->parent);
assert(bt->txn != NULL);
/* Mark src and dst as dirty. */
if ((src = mpage_touch(bt, src)) == NULL ||
(dst = mpage_touch(bt, dst)) == NULL)
return BT_FAIL;
find_common_prefix(bt, src);
find_common_prefix(bt, dst);
/* Check if source nodes has destination page prefix. Otherwise
* the destination page must expand its prefix on all its nodes.
*/
common_prefix(bt, &src->prefix, &dst->prefix, &dstpfx);
if (dstpfx.len != dst->prefix.len) {
if (btree_adjust_prefix(bt, dst,
dstpfx.len - dst->prefix.len) != BT_SUCCESS)
return BT_FAIL;
bcopy(&dstpfx, &dst->prefix, sizeof(dstpfx));
}
/* Move all nodes from src to dst.
*/
for (i = 0; i < NUMKEYS(src); i++) {
srcnode = NODEPTR(src, i);
/* If branch node 0 (implicit key), find the real key.
*/
if (i == 0 && IS_BRANCH(src)) {
struct mpage *low;
/* must find the lowest key below src
*/
assert(btree_search_page_root(bt, src, NULL, NULL, 0,
&low) == BT_SUCCESS);
expand_prefix(bt, low, 0, &tmpkey);
DPRINTF("found lowest key [%.*s] on leaf page %u",
(int)tmpkey.len, tmpkey.str, low->pgno);
} else {
expand_prefix(bt, src, i, &tmpkey);
}
key.size = tmpkey.len;
key.data = tmpkey.str;
remove_prefix(bt, &key, dst->prefix.len);
data.size = NODEDSZ(srcnode);
data.data = NODEDATA(srcnode);
rc = btree_add_node(bt, dst, NUMKEYS(dst), &key,
&data, NODEPGNO(srcnode), srcnode->flags);
if (rc != BT_SUCCESS)
return rc;
}
DPRINTF("dst page %u now has %lu keys (%.1f%% filled)",
dst->pgno, NUMKEYS(dst), (float)PAGEFILL(bt, dst) / 10);
/* Unlink the src page from parent.
*/
btree_del_node(bt, src->parent, src->parent_index);
if (src->parent_index == 0) {
key.size = 0;
if (btree_update_key(bt, src->parent, 0, &key) != BT_SUCCESS)
return BT_FAIL;
pfxlen = src->prefix.len;
find_common_prefix(bt, src);
assert (src->prefix.len == pfxlen);
}
if (IS_LEAF(src))
bt->meta.leaf_pages--;
else
bt->meta.branch_pages--;
return btree_rebalance(bt, src->parent);
}
#define FILL_THRESHOLD 250
static int
btree_rebalance(struct btree *bt, struct mpage *mp)
{
struct node *node;
struct mpage *parent;
struct mpage *root;
struct mpage *neighbor = NULL;
indx_t si = 0, di = 0;
assert(bt != NULL);
assert(bt->txn != NULL);
assert(mp != NULL);
DPRINTF("rebalancing %s page %u (has %lu keys, %.1f%% full)",
IS_LEAF(mp) ? "leaf" : "branch",
mp->pgno, NUMKEYS(mp), (float)PAGEFILL(bt, mp) / 10);
if (PAGEFILL(bt, mp) >= FILL_THRESHOLD) {
DPRINTF("no need to rebalance page %u, above fill threshold",
mp->pgno);
return BT_SUCCESS;
}
parent = mp->parent;
if (parent == NULL) {
if (NUMKEYS(mp) == 0) {
DPRINTF("tree is completely empty");
bt->txn->root = P_INVALID;
bt->meta.depth--;
bt->meta.leaf_pages--;
} else if (IS_BRANCH(mp) && NUMKEYS(mp) == 1) {
DPRINTF("collapsing root page!");
bt->txn->root = NODEPGNO(NODEPTR(mp, 0));
if ((root = btree_get_mpage(bt, bt->txn->root)) == NULL)
return BT_FAIL;
root->parent = NULL;
bt->meta.depth--;
bt->meta.branch_pages--;
} else
DPRINTF("root page doesn't need rebalancing");
return BT_SUCCESS;
}
/* The parent (branch page) must have at least 2 pointers,
* otherwise the tree is invalid.
*/
assert(NUMKEYS(parent) > 1);
/* Leaf page fill factor is below the threshold.
* Try to move keys from left or right neighbor, or
* merge with a neighbor page.
*/
/* Find neighbors.
*/
if (mp->parent_index == 0) {
/* We're the leftmost leaf in our parent.
*/
DPRINTF("reading right neighbor");
node = NODEPTR(parent, mp->parent_index + 1);
if ((neighbor = btree_get_mpage(bt, NODEPGNO(node))) == NULL)
return BT_FAIL;
neighbor->parent_index = mp->parent_index + 1;
si = 0;
di = NUMKEYS(mp);
} else {
/* There is at least one neighbor to the left.
*/
DPRINTF("reading left neighbor");
node = NODEPTR(parent, mp->parent_index - 1);
if ((neighbor = btree_get_mpage(bt, NODEPGNO(node))) == NULL)
return BT_FAIL;
neighbor->parent_index = mp->parent_index - 1;
si = NUMKEYS(neighbor) - 1;
di = 0;
}
neighbor->parent = parent;
DPRINTF("found neighbor page %u (%lu keys, %.1f%% full)",
neighbor->pgno, NUMKEYS(neighbor), (float)PAGEFILL(bt, neighbor) / 10);
/* If the neighbor page is above threshold and has at least two
* keys, move one key from it.
*
* Otherwise we should try to merge them, but that might not be
* possible, even if both are below threshold, as prefix expansion
* might make keys larger. FIXME: detect this
*/
if (PAGEFILL(bt, neighbor) >= FILL_THRESHOLD && NUMKEYS(neighbor) >= 2)
return btree_move_node(bt, neighbor, si, mp, di);
else { /* FIXME: if (has_enough_room()) */
if (mp->parent_index == 0)
return btree_merge(bt, neighbor, mp);
else
return btree_merge(bt, mp, neighbor);
}
}
int
btree_txn_del(struct btree *bt, struct btree_txn *txn,
struct btval *key, struct btval *data)
{
int rc, exact, close_txn = 0;
unsigned int ki;
struct node *leaf;
struct mpage *mp;
DPRINTF("========> delete key %.*s", (int)key->size, (char *)key->data);
assert(key != NULL);
if (bt != NULL && txn != NULL && bt != txn->bt) {
errno = EINVAL;
return BT_FAIL;
}
if (txn != NULL && F_ISSET(txn->flags, BT_TXN_RDONLY)) {
errno = EINVAL;
return BT_FAIL;
}
if (bt == NULL) {
if (txn == NULL) {
errno = EINVAL;
return BT_FAIL;
}
bt = txn->bt;
}
if (key->size == 0 || key->size > MAXKEYSIZE) {
errno = EINVAL;
return BT_FAIL;
}
if (txn == NULL) {
close_txn = 1;
if ((txn = btree_txn_begin(bt, 0)) == NULL)
return BT_FAIL;
}
if ((rc = btree_search_page(bt, txn, key, NULL, 1, &mp)) != BT_SUCCESS)
goto done;
leaf = btree_search_node(bt, mp, key, &exact, &ki);
if (leaf == NULL || !exact) {
errno = ENOENT;
rc = BT_FAIL;
goto done;
}
if (data && (rc = btree_read_data(bt, NULL, leaf, data)) != BT_SUCCESS)
goto done;
btree_del_node(bt, mp, ki);
bt->meta.entries--;
rc = btree_rebalance(bt, mp);
if (rc != BT_SUCCESS)
txn->flags |= BT_TXN_ERROR;
done:
if (close_txn) {
if (rc == BT_SUCCESS)
rc = btree_txn_commit(txn);
else
btree_txn_abort(txn);
}
mpage_prune(bt);
return rc;
}
/* Reduce the length of the prefix separator <sep> to the minimum length that
* still makes it uniquely distinguishable from <min>.
*
* <min> is guaranteed to be sorted less than <sep>
*
* On return, <sep> is modified to the minimum length.
*/
static void
bt_reduce_separator(struct btree *bt, struct node *min, struct btval *sep)
{
size_t n = 0;
char *p1;
char *p2;
if (F_ISSET(bt->flags, BT_REVERSEKEY)) {
assert(sep->size > 0);
p1 = (char *)NODEKEY(min) + min->ksize - 1;
p2 = (char *)sep->data + sep->size - 1;
while (p1 >= (char *)NODEKEY(min) && *p1 == *p2) {
assert(p2 > (char *)sep->data);
p1--;
p2--;
n++;
}
sep->data = p2;
sep->size = n + 1;
} else {
assert(min->ksize > 0);
assert(sep->size > 0);
p1 = (char *)NODEKEY(min);
p2 = (char *)sep->data;
while (*p1 == *p2) {
p1++;
p2++;
n++;
if (n == min->ksize || n == sep->size)
break;
}
sep->size = n + 1;
}
DPRINTF("reduced separator to [%.*s] > [%.*s]",
(int)sep->size, (char *)sep->data,
(int)min->ksize, (char *)NODEKEY(min));
}
/* Split page <*mpp>, and insert <key,(data|newpgno)> in either left or
* right sibling, at index <*newindxp> (as if unsplit). Updates *mpp and
* *newindxp with the actual values after split, ie if *mpp and *newindxp
* refer to a node in the new right sibling page.
*/
static int
btree_split(struct btree *bt, struct mpage **mpp, unsigned int *newindxp,
struct btval *newkey, struct btval *newdata, pgno_t newpgno)
{
uint8_t flags;
int rc = BT_SUCCESS, ins_new = 0;
indx_t newindx;
pgno_t pgno = 0;
size_t orig_pfx_len, left_pfx_diff, right_pfx_diff, pfx_diff;
unsigned int i, j, split_indx;
struct node *node;
struct mpage *pright, *p, *mp;
struct btval sepkey, rkey, rdata;
struct btkey tmpkey;
struct page *copy;
assert(bt != NULL);
assert(bt->txn != NULL);
mp = *mpp;
newindx = *newindxp;
DPRINTF("-----> splitting %s page %u and adding [%.*s] at index %i",
IS_LEAF(mp) ? "leaf" : "branch", mp->pgno,
(int)newkey->size, (char *)newkey->data, *newindxp);
DPRINTF("page %u has prefix [%.*s]", mp->pgno,
(int)mp->prefix.len, (char *)mp->prefix.str);
orig_pfx_len = mp->prefix.len;
if (mp->parent == NULL) {
if ((mp->parent = btree_new_page(bt, P_BRANCH)) == NULL)
return BT_FAIL;
mp->parent_index = 0;
bt->txn->root = mp->parent->pgno;
DPRINTF("root split! new root = %u", mp->parent->pgno);
bt->meta.depth++;
/* Add left (implicit) pointer. */
if (btree_add_node(bt, mp->parent, 0, NULL, NULL,
mp->pgno, 0) != BT_SUCCESS)
return BT_FAIL;
} else {
DPRINTF("parent branch page is %u", mp->parent->pgno);
}
/* Create a right sibling. */
if ((pright = btree_new_page(bt, mp->page->flags)) == NULL)
return BT_FAIL;
pright->parent = mp->parent;
pright->parent_index = mp->parent_index + 1;
DPRINTF("new right sibling: page %u", pright->pgno);
/* Move half of the keys to the right sibling. */
if ((copy = malloc(bt->head.psize)) == NULL)
return BT_FAIL;
bcopy(mp->page, copy, bt->head.psize);
assert(mp->ref == 0); /* XXX */
bzero(&mp->page->ptrs, bt->head.psize - PAGEHDRSZ);
mp->page->lower = PAGEHDRSZ;
mp->page->upper = bt->head.psize;
split_indx = NUMKEYSP(copy) / 2 + 1;
/* First find the separating key between the split pages.
*/
bzero(&sepkey, sizeof(sepkey));
if (newindx == split_indx) {
sepkey.size = newkey->size;
sepkey.data = newkey->data;
remove_prefix(bt, &sepkey, mp->prefix.len);
} else {
node = NODEPTRP(copy, split_indx);
sepkey.size = node->ksize;
sepkey.data = NODEKEY(node);
}
if (IS_LEAF(mp) && bt->cmp == NULL) {
/* Find the smallest separator. */
/* Ref: Prefix B-trees, R. Bayer, K. Unterauer, 1977 */
node = NODEPTRP(copy, split_indx - 1);
bt_reduce_separator(bt, node, &sepkey);
}
/* Fix separator wrt parent prefix. */
if (bt->cmp == NULL) {
tmpkey.len = sizeof(tmpkey.str);
concat_prefix(bt, mp->prefix.str, mp->prefix.len,
sepkey.data, sepkey.size, tmpkey.str, &tmpkey.len);
sepkey.data = tmpkey.str;
sepkey.size = tmpkey.len;
}
DPRINTF("separator is [%.*s]", (int)sepkey.size, (char *)sepkey.data);
/* Copy separator key to the parent.
*/
if (SIZELEFT(pright->parent) < bt_branch_size(bt, &sepkey)) {
rc = btree_split(bt, &pright->parent, &pright->parent_index,
&sepkey, NULL, pright->pgno);
/* Right page might now have changed parent.
* Check if left page also changed parent.
*/
if (pright->parent != mp->parent &&
mp->parent_index >= NUMKEYS(mp->parent)) {
mp->parent = pright->parent;
mp->parent_index = pright->parent_index - 1;
}
} else {
remove_prefix(bt, &sepkey, pright->parent->prefix.len);
rc = btree_add_node(bt, pright->parent, pright->parent_index,
&sepkey, NULL, pright->pgno, 0);
}
if (rc != BT_SUCCESS) {
free(copy);
return BT_FAIL;
}
/* Update prefix for right and left page, if the parent was split.
*/
find_common_prefix(bt, pright);
assert(orig_pfx_len <= pright->prefix.len);
right_pfx_diff = pright->prefix.len - orig_pfx_len;
find_common_prefix(bt, mp);
assert(orig_pfx_len <= mp->prefix.len);
left_pfx_diff = mp->prefix.len - orig_pfx_len;
for (i = j = 0; i <= NUMKEYSP(copy); j++) {
if (i < split_indx) {
/* Re-insert in left sibling. */
p = mp;
pfx_diff = left_pfx_diff;
} else {
/* Insert in right sibling. */
if (i == split_indx)
/* Reset insert index for right sibling. */
j = (i == newindx && ins_new);
p = pright;
pfx_diff = right_pfx_diff;
}
if (i == newindx && !ins_new) {
/* Insert the original entry that caused the split. */
rkey.data = newkey->data;
rkey.size = newkey->size;
if (IS_LEAF(mp)) {
rdata.data = newdata->data;
rdata.size = newdata->size;
} else
pgno = newpgno;
flags = 0;
pfx_diff = p->prefix.len;
ins_new = 1;
/* Update page and index for the new key. */
*newindxp = j;
*mpp = p;
} else if (i == NUMKEYSP(copy)) {
break;
} else {
node = NODEPTRP(copy, i);
rkey.data = NODEKEY(node);
rkey.size = node->ksize;
if (IS_LEAF(mp)) {
rdata.data = NODEDATA(node);
rdata.size = node->n_dsize;
} else
pgno = node->n_pgno;
flags = node->flags;
i++;
}
if (!IS_LEAF(mp) && j == 0) {
/* First branch index doesn't need key data. */
rkey.size = 0;
} else
remove_prefix(bt, &rkey, pfx_diff);
rc = btree_add_node(bt, p, j, &rkey, &rdata, pgno,flags);
}
free(copy);
return rc;
}
int
btree_txn_put(struct btree *bt, struct btree_txn *txn,
struct btval *key, struct btval *data, unsigned int flags)
{
int rc = BT_SUCCESS, exact, close_txn = 0;
unsigned int ki;
struct node *leaf;
struct mpage *mp;
struct btval xkey;
assert(key != NULL);
assert(data != NULL);
if (bt != NULL && txn != NULL && bt != txn->bt) {
errno = EINVAL;
return BT_FAIL;
}
if (txn != NULL && F_ISSET(txn->flags, BT_TXN_RDONLY)) {
errno = EINVAL;
return BT_FAIL;
}
if (bt == NULL) {
if (txn == NULL) {
errno = EINVAL;
return BT_FAIL;
}
bt = txn->bt;
}
if (key->size == 0 || key->size > MAXKEYSIZE) {
errno = EINVAL;
return BT_FAIL;
}
DPRINTF("==> put key %.*s, size %zu, data size %zu",
(int)key->size, (char *)key->data, key->size, data->size);
if (txn == NULL) {
close_txn = 1;
if ((txn = btree_txn_begin(bt, 0)) == NULL)
return BT_FAIL;
}
rc = btree_search_page(bt, txn, key, NULL, 1, &mp);
if (rc == BT_SUCCESS) {
leaf = btree_search_node(bt, mp, key, &exact, &ki);
if (leaf && exact) {
if (F_ISSET(flags, BT_NOOVERWRITE)) {
DPRINTF("duplicate key %.*s",
(int)key->size, (char *)key->data);
errno = EEXIST;
rc = BT_FAIL;
goto done;
}
btree_del_node(bt, mp, ki);
}
if (leaf == NULL) { /* append if not found */
ki = NUMKEYS(mp);
DPRINTF("appending key at index %i", ki);
}
} else if (errno == ENOENT) {
/* new file, just write a root leaf page */
DPRINTF("allocating new root leaf page");
if ((mp = btree_new_page(bt, P_LEAF)) == NULL) {
rc = BT_FAIL;
goto done;
}
txn->root = mp->pgno;
bt->meta.depth++;
ki = 0;
}
else
goto done;
assert(IS_LEAF(mp));
DPRINTF("there are %lu keys, should insert new key at index %i",
NUMKEYS(mp), ki);
/* Copy the key pointer as it is modified by the prefix code. The
* caller might have malloc'ed the data.
*/
xkey.data = key->data;
xkey.size = key->size;
if (SIZELEFT(mp) < bt_leaf_size(bt, key, data)) {
rc = btree_split(bt, &mp, &ki, &xkey, data, P_INVALID);
} else {
/* There is room already in this leaf page. */
remove_prefix(bt, &xkey, mp->prefix.len);
rc = btree_add_node(bt, mp, ki, &xkey, data, 0, 0);
}
if (rc != BT_SUCCESS)
txn->flags |= BT_TXN_ERROR;
else
bt->meta.entries++;
done:
if (close_txn) {
if (rc == BT_SUCCESS)
rc = btree_txn_commit(txn);
else
btree_txn_abort(txn);
}
mpage_prune(bt);
return rc;
}
static pgno_t
btree_compact_tree(struct btree *bt, pgno_t pgno, struct btree *btc)
{
ssize_t rc;
indx_t i;
pgno_t *pnext, next;
struct node *node;
struct page *p;
struct mpage *mp;
/* Get the page and make a copy of it.
*/
if ((mp = btree_get_mpage(bt, pgno)) == NULL)
return P_INVALID;
if ((p = malloc(bt->head.psize)) == NULL)
return P_INVALID;
bcopy(mp->page, p, bt->head.psize);
/* Go through all nodes in the (copied) page and update the
* page pointers.
*/
if (F_ISSET(p->flags, P_BRANCH)) {
for (i = 0; i < NUMKEYSP(p); i++) {
node = NODEPTRP(p, i);
node->n_pgno = btree_compact_tree(bt, node->n_pgno, btc);
if (node->n_pgno == P_INVALID) {
free(p);
return P_INVALID;
}
}
} else if (F_ISSET(p->flags, P_LEAF)) {
for (i = 0; i < NUMKEYSP(p); i++) {
node = NODEPTRP(p, i);
if (F_ISSET(node->flags, F_BIGDATA)) {
bcopy(NODEDATA(node), &next, sizeof(next));
next = btree_compact_tree(bt, next, btc);
if (next == P_INVALID) {
free(p);
return P_INVALID;
}
bcopy(&next, NODEDATA(node), sizeof(next));
}
}
} else if (F_ISSET(p->flags, P_OVERFLOW)) {
pnext = &p->p_next_pgno;
if (*pnext > 0) {
*pnext = btree_compact_tree(bt, *pnext, btc);
if (*pnext == P_INVALID) {
free(p);
return P_INVALID;
}
}
} else
assert(0);
pgno = p->pgno = btc->txn->next_pgno++;
rc = write(btc->fd, p, bt->head.psize);
free(p);
if (rc != (ssize_t)bt->head.psize)
return P_INVALID;
mpage_prune(bt);
return pgno;
}
int
btree_compact(struct btree *bt)
{
char *compact_path = NULL;
struct btree *btc;
struct btree_txn *txn, *txnc = NULL;
int fd;
pgno_t root;
assert(bt != NULL);
DPRINTF("compacting btree %p with path %s", bt, bt->path);
if (bt->path == NULL) {
errno = EINVAL;
return BT_FAIL;
}
if ((txn = btree_txn_begin(bt, 0)) == NULL)
return BT_FAIL;
asprintf(&compact_path, "%s.compact.XXXXXX", bt->path);
fd = mkstemp(compact_path);
if (fd == -1) {
free(compact_path);
btree_txn_abort(txn);
return BT_FAIL;
}
if ((btc = btree_open_fd(fd, 0)) == NULL)
goto failed;
bcopy(&bt->meta, &btc->meta, sizeof(bt->meta));
btc->meta.revisions = 0;
if ((txnc = btree_txn_begin(btc, 0)) == NULL)
goto failed;
if (bt->meta.root != P_INVALID) {
root = btree_compact_tree(bt, bt->meta.root, btc);
if (root == P_INVALID)
goto failed;
if (btree_write_meta(btc, root, 0) != BT_SUCCESS)
goto failed;
}
fsync(fd);
DPRINTF("renaming %s to %s", compact_path, bt->path);
if (rename(compact_path, bt->path) != 0)
goto failed;
/* Write a "tombstone" meta page so other processes can pick up
* the change and re-open the file.
*/
if (btree_write_meta(bt, P_INVALID, BT_TOMBSTONE) != BT_SUCCESS)
goto failed;
btree_txn_abort(txn);
btree_txn_abort(txnc);
free(compact_path);
btree_close(btc);
mpage_prune(bt);
return 0;
failed:
btree_txn_abort(txn);
btree_txn_abort(txnc);
unlink(compact_path);
free(compact_path);
btree_close(btc);
mpage_prune(bt);
return BT_FAIL;
}
/* Reverts the last change. Truncates the file at the last root page.
*/
int
btree_revert(struct btree *bt)
{
if (btree_read_meta(bt, NULL) != 0)
return -1;
DPRINTF("truncating file at page %u", bt->meta.root);
return ftruncate(bt->fd, bt->head.psize * bt->meta.root);
}
void
btree_set_cache_size(struct btree *bt, unsigned int cache_size)
{
bt->stat.max_cache = cache_size;
}
unsigned int
btree_get_flags(struct btree *bt)
{
return (bt->flags & ~BT_FIXPADDING);
}
const char *
btree_get_path(struct btree *bt)
{
return bt->path;
}
const struct btree_stat *
btree_stat(struct btree *bt)
{
if (bt == NULL)
return NULL;
bt->stat.branch_pages = bt->meta.branch_pages;
bt->stat.leaf_pages = bt->meta.leaf_pages;
bt->stat.overflow_pages = bt->meta.overflow_pages;
bt->stat.revisions = bt->meta.revisions;
bt->stat.depth = bt->meta.depth;
bt->stat.entries = bt->meta.entries;
bt->stat.psize = bt->head.psize;
bt->stat.created_at = bt->meta.created_at;
return &bt->stat;
}
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