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|
/*
Trivial Database 2: free list/block handling
Copyright (C) Rusty Russell 2010
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 3 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, see <http://www.gnu.org/licenses/>.
*/
#include "private.h"
#include <ccan/likely/likely.h>
#include <ccan/ilog/ilog.h>
#include <time.h>
#include <limits.h>
static unsigned fls64(uint64_t val)
{
return ilog64(val);
}
/* In which bucket would we find a particular record size? (ignoring header) */
unsigned int size_to_bucket(ntdb_len_t data_len)
{
unsigned int bucket;
/* We can't have records smaller than this. */
assert(data_len >= NTDB_MIN_DATA_LEN);
/* Ignoring the header... */
if (data_len - NTDB_MIN_DATA_LEN <= 64) {
/* 0 in bucket 0, 8 in bucket 1... 64 in bucket 8. */
bucket = (data_len - NTDB_MIN_DATA_LEN) / 8;
} else {
/* After that we go power of 2. */
bucket = fls64(data_len - NTDB_MIN_DATA_LEN) + 2;
}
if (unlikely(bucket >= NTDB_FREE_BUCKETS))
bucket = NTDB_FREE_BUCKETS - 1;
return bucket;
}
ntdb_off_t first_ftable(struct ntdb_context *ntdb)
{
return ntdb_read_off(ntdb, offsetof(struct ntdb_header, free_table));
}
ntdb_off_t next_ftable(struct ntdb_context *ntdb, ntdb_off_t ftable)
{
return ntdb_read_off(ntdb, ftable + offsetof(struct ntdb_freetable,next));
}
enum NTDB_ERROR ntdb_ftable_init(struct ntdb_context *ntdb)
{
/* Use reservoir sampling algorithm to select a free list at random. */
unsigned int rnd, max = 0, count = 0;
ntdb_off_t off;
ntdb->ftable_off = off = first_ftable(ntdb);
ntdb->ftable = 0;
while (off) {
if (NTDB_OFF_IS_ERR(off)) {
return NTDB_OFF_TO_ERR(off);
}
rnd = random();
if (rnd >= max) {
ntdb->ftable_off = off;
ntdb->ftable = count;
max = rnd;
}
off = next_ftable(ntdb, off);
count++;
}
return NTDB_SUCCESS;
}
/* Offset of a given bucket. */
ntdb_off_t bucket_off(ntdb_off_t ftable_off, unsigned bucket)
{
return ftable_off + offsetof(struct ntdb_freetable, buckets)
+ bucket * sizeof(ntdb_off_t);
}
/* Returns free_buckets + 1, or list number to search, or -ve error. */
static ntdb_off_t find_free_head(struct ntdb_context *ntdb,
ntdb_off_t ftable_off,
ntdb_off_t bucket)
{
/* Speculatively search for a non-zero bucket. */
return ntdb_find_nonzero_off(ntdb, bucket_off(ftable_off, 0),
bucket, NTDB_FREE_BUCKETS);
}
static void check_list(struct ntdb_context *ntdb, ntdb_off_t b_off)
{
#ifdef CCAN_NTDB_DEBUG
ntdb_off_t off, prev = 0, first;
struct ntdb_free_record r;
first = off = (ntdb_read_off(ntdb, b_off) & NTDB_OFF_MASK);
while (off != 0) {
ntdb_read_convert(ntdb, off, &r, sizeof(r));
if (frec_magic(&r) != NTDB_FREE_MAGIC)
abort();
if (prev && frec_prev(&r) != prev)
abort();
prev = off;
off = r.next;
}
if (first) {
ntdb_read_convert(ntdb, first, &r, sizeof(r));
if (frec_prev(&r) != prev)
abort();
}
#endif
}
/* Remove from free bucket. */
static enum NTDB_ERROR remove_from_list(struct ntdb_context *ntdb,
ntdb_off_t b_off, ntdb_off_t r_off,
const struct ntdb_free_record *r)
{
ntdb_off_t off, prev_next, head;
enum NTDB_ERROR ecode;
/* Is this only element in list? Zero out bucket, and we're done. */
if (frec_prev(r) == r_off)
return ntdb_write_off(ntdb, b_off, 0);
/* off = &r->prev->next */
off = frec_prev(r) + offsetof(struct ntdb_free_record, next);
/* Get prev->next */
prev_next = ntdb_read_off(ntdb, off);
if (NTDB_OFF_IS_ERR(prev_next))
return NTDB_OFF_TO_ERR(prev_next);
/* If prev->next == 0, we were head: update bucket to point to next. */
if (prev_next == 0) {
/* We must preserve upper bits. */
head = ntdb_read_off(ntdb, b_off);
if (NTDB_OFF_IS_ERR(head))
return NTDB_OFF_TO_ERR(head);
if ((head & NTDB_OFF_MASK) != r_off) {
return ntdb_logerr(ntdb, NTDB_ERR_CORRUPT, NTDB_LOG_ERROR,
"remove_from_list:"
" %llu head %llu on list %llu",
(long long)r_off,
(long long)head,
(long long)b_off);
}
head = ((head & ~NTDB_OFF_MASK) | r->next);
ecode = ntdb_write_off(ntdb, b_off, head);
if (ecode != NTDB_SUCCESS)
return ecode;
} else {
/* r->prev->next = r->next */
ecode = ntdb_write_off(ntdb, off, r->next);
if (ecode != NTDB_SUCCESS)
return ecode;
}
/* If we were the tail, off = &head->prev. */
if (r->next == 0) {
head = ntdb_read_off(ntdb, b_off);
if (NTDB_OFF_IS_ERR(head))
return NTDB_OFF_TO_ERR(head);
head &= NTDB_OFF_MASK;
off = head + offsetof(struct ntdb_free_record, magic_and_prev);
} else {
/* off = &r->next->prev */
off = r->next + offsetof(struct ntdb_free_record,
magic_and_prev);
}
#ifdef CCAN_NTDB_DEBUG
/* *off == r */
if ((ntdb_read_off(ntdb, off) & NTDB_OFF_MASK) != r_off) {
return ntdb_logerr(ntdb, NTDB_ERR_CORRUPT, NTDB_LOG_ERROR,
"remove_from_list:"
" %llu bad prev in list %llu",
(long long)r_off, (long long)b_off);
}
#endif
/* r->next->prev = r->prev */
return ntdb_write_off(ntdb, off, r->magic_and_prev);
}
/* Enqueue in this free bucket: sets coalesce if we've added 128
* entries to it. */
static enum NTDB_ERROR enqueue_in_free(struct ntdb_context *ntdb,
ntdb_off_t b_off,
ntdb_off_t off,
ntdb_len_t len,
bool *coalesce)
{
struct ntdb_free_record new;
enum NTDB_ERROR ecode;
ntdb_off_t prev, head;
uint64_t magic = (NTDB_FREE_MAGIC << (64 - NTDB_OFF_UPPER_STEAL));
head = ntdb_read_off(ntdb, b_off);
if (NTDB_OFF_IS_ERR(head))
return NTDB_OFF_TO_ERR(head);
/* We only need to set ftable_and_len; rest is set in enqueue_in_free */
new.ftable_and_len = ((uint64_t)ntdb->ftable
<< (64 - NTDB_OFF_UPPER_STEAL))
| len;
/* new->next = head. */
new.next = (head & NTDB_OFF_MASK);
/* First element? Prev points to ourselves. */
if (!new.next) {
new.magic_and_prev = (magic | off);
} else {
/* new->prev = next->prev */
prev = ntdb_read_off(ntdb,
new.next + offsetof(struct ntdb_free_record,
magic_and_prev));
new.magic_and_prev = prev;
if (frec_magic(&new) != NTDB_FREE_MAGIC) {
return ntdb_logerr(ntdb, NTDB_ERR_CORRUPT, NTDB_LOG_ERROR,
"enqueue_in_free: %llu bad head"
" prev %llu",
(long long)new.next,
(long long)prev);
}
/* next->prev = new. */
ecode = ntdb_write_off(ntdb, new.next
+ offsetof(struct ntdb_free_record,
magic_and_prev),
off | magic);
if (ecode != NTDB_SUCCESS) {
return ecode;
}
#ifdef CCAN_NTDB_DEBUG
prev = ntdb_read_off(ntdb, frec_prev(&new)
+ offsetof(struct ntdb_free_record, next));
if (prev != 0) {
return ntdb_logerr(ntdb, NTDB_ERR_CORRUPT, NTDB_LOG_ERROR,
"enqueue_in_free:"
" %llu bad tail next ptr %llu",
(long long)frec_prev(&new)
+ offsetof(struct ntdb_free_record,
next),
(long long)prev);
}
#endif
}
/* Update enqueue count, but don't set high bit: see NTDB_OFF_IS_ERR */
if (*coalesce)
head += (1ULL << (64 - NTDB_OFF_UPPER_STEAL));
head &= ~(NTDB_OFF_MASK | (1ULL << 63));
head |= off;
ecode = ntdb_write_off(ntdb, b_off, head);
if (ecode != NTDB_SUCCESS) {
return ecode;
}
/* It's time to coalesce if counter wrapped. */
if (*coalesce)
*coalesce = ((head & ~NTDB_OFF_MASK) == 0);
return ntdb_write_convert(ntdb, off, &new, sizeof(new));
}
static ntdb_off_t ftable_offset(struct ntdb_context *ntdb, unsigned int ftable)
{
ntdb_off_t off;
unsigned int i;
if (likely(ntdb->ftable == ftable))
return ntdb->ftable_off;
off = first_ftable(ntdb);
for (i = 0; i < ftable; i++) {
if (NTDB_OFF_IS_ERR(off)) {
break;
}
off = next_ftable(ntdb, off);
}
return off;
}
/* Note: we unlock the current bucket if fail (-ve), or coalesce (+ve) and
* need to blatt the *protect record (which is set to an error). */
static ntdb_len_t coalesce(struct ntdb_context *ntdb,
ntdb_off_t off, ntdb_off_t b_off,
ntdb_len_t data_len,
ntdb_off_t *protect)
{
ntdb_off_t end;
struct ntdb_free_record rec;
enum NTDB_ERROR ecode;
ntdb->stats.alloc_coalesce_tried++;
end = off + sizeof(struct ntdb_used_record) + data_len;
while (end < ntdb->file->map_size) {
const struct ntdb_free_record *r;
ntdb_off_t nb_off;
unsigned ftable, bucket;
r = ntdb_access_read(ntdb, end, sizeof(*r), true);
if (NTDB_PTR_IS_ERR(r)) {
ecode = NTDB_PTR_ERR(r);
goto err;
}
if (frec_magic(r) != NTDB_FREE_MAGIC
|| frec_ftable(r) == NTDB_FTABLE_NONE) {
ntdb_access_release(ntdb, r);
break;
}
ftable = frec_ftable(r);
bucket = size_to_bucket(frec_len(r));
nb_off = ftable_offset(ntdb, ftable);
if (NTDB_OFF_IS_ERR(nb_off)) {
ntdb_access_release(ntdb, r);
ecode = NTDB_OFF_TO_ERR(nb_off);
goto err;
}
nb_off = bucket_off(nb_off, bucket);
ntdb_access_release(ntdb, r);
/* We may be violating lock order here, so best effort. */
if (ntdb_lock_free_bucket(ntdb, nb_off, NTDB_LOCK_NOWAIT)
!= NTDB_SUCCESS) {
ntdb->stats.alloc_coalesce_lockfail++;
break;
}
/* Now we have lock, re-check. */
ecode = ntdb_read_convert(ntdb, end, &rec, sizeof(rec));
if (ecode != NTDB_SUCCESS) {
ntdb_unlock_free_bucket(ntdb, nb_off);
goto err;
}
if (unlikely(frec_magic(&rec) != NTDB_FREE_MAGIC)) {
ntdb->stats.alloc_coalesce_race++;
ntdb_unlock_free_bucket(ntdb, nb_off);
break;
}
if (unlikely(frec_ftable(&rec) != ftable)
|| unlikely(size_to_bucket(frec_len(&rec)) != bucket)) {
ntdb->stats.alloc_coalesce_race++;
ntdb_unlock_free_bucket(ntdb, nb_off);
break;
}
/* Did we just mess up a record you were hoping to use? */
if (end == *protect) {
ntdb->stats.alloc_coalesce_iterate_clash++;
*protect = NTDB_ERR_TO_OFF(NTDB_ERR_NOEXIST);
}
ecode = remove_from_list(ntdb, nb_off, end, &rec);
check_list(ntdb, nb_off);
if (ecode != NTDB_SUCCESS) {
ntdb_unlock_free_bucket(ntdb, nb_off);
goto err;
}
end += sizeof(struct ntdb_used_record) + frec_len(&rec);
ntdb_unlock_free_bucket(ntdb, nb_off);
ntdb->stats.alloc_coalesce_num_merged++;
}
/* Didn't find any adjacent free? */
if (end == off + sizeof(struct ntdb_used_record) + data_len)
return 0;
/* Before we expand, check this isn't one you wanted protected? */
if (off == *protect) {
*protect = NTDB_ERR_TO_OFF(NTDB_ERR_EXISTS);
ntdb->stats.alloc_coalesce_iterate_clash++;
}
/* OK, expand initial record */
ecode = ntdb_read_convert(ntdb, off, &rec, sizeof(rec));
if (ecode != NTDB_SUCCESS) {
goto err;
}
if (frec_len(&rec) != data_len) {
ecode = ntdb_logerr(ntdb, NTDB_ERR_CORRUPT, NTDB_LOG_ERROR,
"coalesce: expected data len %zu not %zu",
(size_t)data_len, (size_t)frec_len(&rec));
goto err;
}
ecode = remove_from_list(ntdb, b_off, off, &rec);
check_list(ntdb, b_off);
if (ecode != NTDB_SUCCESS) {
goto err;
}
/* Try locking violation first. We don't allow coalesce recursion! */
ecode = add_free_record(ntdb, off, end - off, NTDB_LOCK_NOWAIT, false);
if (ecode != NTDB_SUCCESS) {
/* Need to drop lock. Can't rely on anything stable. */
ntdb->stats.alloc_coalesce_lockfail++;
*protect = NTDB_ERR_TO_OFF(NTDB_ERR_CORRUPT);
/* We have to drop this to avoid deadlocks, so make sure record
* doesn't get coalesced by someone else! */
rec.ftable_and_len = (NTDB_FTABLE_NONE
<< (64 - NTDB_OFF_UPPER_STEAL))
| (end - off - sizeof(struct ntdb_used_record));
ecode = ntdb_write_off(ntdb,
off + offsetof(struct ntdb_free_record,
ftable_and_len),
rec.ftable_and_len);
if (ecode != NTDB_SUCCESS) {
goto err;
}
ntdb_unlock_free_bucket(ntdb, b_off);
ecode = add_free_record(ntdb, off, end - off, NTDB_LOCK_WAIT,
false);
if (ecode != NTDB_SUCCESS) {
return NTDB_ERR_TO_OFF(ecode);
}
} else if (NTDB_OFF_IS_ERR(*protect)) {
/* For simplicity, we always drop lock if they can't continue */
ntdb_unlock_free_bucket(ntdb, b_off);
}
ntdb->stats.alloc_coalesce_succeeded++;
/* Return usable length. */
return end - off - sizeof(struct ntdb_used_record);
err:
/* To unify error paths, we *always* unlock bucket on error. */
ntdb_unlock_free_bucket(ntdb, b_off);
return NTDB_ERR_TO_OFF(ecode);
}
/* List is locked: we unlock it. */
static enum NTDB_ERROR coalesce_list(struct ntdb_context *ntdb,
ntdb_off_t ftable_off,
ntdb_off_t b_off,
unsigned int limit)
{
enum NTDB_ERROR ecode;
ntdb_off_t off;
off = ntdb_read_off(ntdb, b_off);
if (NTDB_OFF_IS_ERR(off)) {
ecode = NTDB_OFF_TO_ERR(off);
goto unlock_err;
}
/* A little bit of paranoia: counter should be 0. */
off &= NTDB_OFF_MASK;
while (off && limit--) {
struct ntdb_free_record rec;
ntdb_len_t coal;
ntdb_off_t next;
ecode = ntdb_read_convert(ntdb, off, &rec, sizeof(rec));
if (ecode != NTDB_SUCCESS)
goto unlock_err;
next = rec.next;
coal = coalesce(ntdb, off, b_off, frec_len(&rec), &next);
if (NTDB_OFF_IS_ERR(coal)) {
/* This has already unlocked on error. */
return NTDB_OFF_TO_ERR(coal);
}
if (NTDB_OFF_IS_ERR(next)) {
/* Coalescing had to unlock, so stop. */
return NTDB_SUCCESS;
}
/* Keep going if we're doing well... */
limit += size_to_bucket(coal / 16 + NTDB_MIN_DATA_LEN);
off = next;
}
/* Now, move those elements to the tail of the list so we get something
* else next time. */
if (off) {
struct ntdb_free_record oldhrec, newhrec, oldtrec, newtrec;
ntdb_off_t oldhoff, oldtoff, newtoff;
/* The record we were up to is the new head. */
ecode = ntdb_read_convert(ntdb, off, &newhrec, sizeof(newhrec));
if (ecode != NTDB_SUCCESS)
goto unlock_err;
/* Get the new tail. */
newtoff = frec_prev(&newhrec);
ecode = ntdb_read_convert(ntdb, newtoff, &newtrec,
sizeof(newtrec));
if (ecode != NTDB_SUCCESS)
goto unlock_err;
/* Get the old head. */
oldhoff = ntdb_read_off(ntdb, b_off);
if (NTDB_OFF_IS_ERR(oldhoff)) {
ecode = NTDB_OFF_TO_ERR(oldhoff);
goto unlock_err;
}
/* This could happen if they all coalesced away. */
if (oldhoff == off)
goto out;
ecode = ntdb_read_convert(ntdb, oldhoff, &oldhrec,
sizeof(oldhrec));
if (ecode != NTDB_SUCCESS)
goto unlock_err;
/* Get the old tail. */
oldtoff = frec_prev(&oldhrec);
ecode = ntdb_read_convert(ntdb, oldtoff, &oldtrec,
sizeof(oldtrec));
if (ecode != NTDB_SUCCESS)
goto unlock_err;
/* Old tail's next points to old head. */
oldtrec.next = oldhoff;
/* Old head's prev points to old tail. */
oldhrec.magic_and_prev
= (NTDB_FREE_MAGIC << (64 - NTDB_OFF_UPPER_STEAL))
| oldtoff;
/* New tail's next is 0. */
newtrec.next = 0;
/* Write out the modified versions. */
ecode = ntdb_write_convert(ntdb, oldtoff, &oldtrec,
sizeof(oldtrec));
if (ecode != NTDB_SUCCESS)
goto unlock_err;
ecode = ntdb_write_convert(ntdb, oldhoff, &oldhrec,
sizeof(oldhrec));
if (ecode != NTDB_SUCCESS)
goto unlock_err;
ecode = ntdb_write_convert(ntdb, newtoff, &newtrec,
sizeof(newtrec));
if (ecode != NTDB_SUCCESS)
goto unlock_err;
/* And finally link in new head. */
ecode = ntdb_write_off(ntdb, b_off, off);
if (ecode != NTDB_SUCCESS)
goto unlock_err;
}
out:
ntdb_unlock_free_bucket(ntdb, b_off);
return NTDB_SUCCESS;
unlock_err:
ntdb_unlock_free_bucket(ntdb, b_off);
return ecode;
}
/* List must not be locked if coalesce_ok is set. */
enum NTDB_ERROR add_free_record(struct ntdb_context *ntdb,
ntdb_off_t off, ntdb_len_t len_with_header,
enum ntdb_lock_flags waitflag,
bool coalesce_ok)
{
ntdb_off_t b_off;
ntdb_len_t len;
enum NTDB_ERROR ecode;
assert(len_with_header >= sizeof(struct ntdb_free_record));
len = len_with_header - sizeof(struct ntdb_used_record);
b_off = bucket_off(ntdb->ftable_off, size_to_bucket(len));
ecode = ntdb_lock_free_bucket(ntdb, b_off, waitflag);
if (ecode != NTDB_SUCCESS) {
return ecode;
}
ecode = enqueue_in_free(ntdb, b_off, off, len, &coalesce_ok);
check_list(ntdb, b_off);
/* Coalescing unlocks free list. */
if (!ecode && coalesce_ok)
ecode = coalesce_list(ntdb, ntdb->ftable_off, b_off, 2);
else
ntdb_unlock_free_bucket(ntdb, b_off);
return ecode;
}
static size_t adjust_size(size_t keylen, size_t datalen)
{
size_t size = keylen + datalen;
if (size < NTDB_MIN_DATA_LEN)
size = NTDB_MIN_DATA_LEN;
/* Round to next uint64_t boundary. */
return (size + (sizeof(uint64_t) - 1ULL)) & ~(sizeof(uint64_t) - 1ULL);
}
/* If we have enough left over to be useful, split that off. */
static size_t record_leftover(size_t keylen, size_t datalen,
bool want_extra, size_t total_len)
{
ssize_t leftover;
if (want_extra)
datalen += datalen / 2;
leftover = total_len - adjust_size(keylen, datalen);
if (leftover < (ssize_t)sizeof(struct ntdb_free_record))
return 0;
return leftover;
}
/* We need size bytes to put our key and data in. */
static ntdb_off_t lock_and_alloc(struct ntdb_context *ntdb,
ntdb_off_t ftable_off,
ntdb_off_t bucket,
size_t keylen, size_t datalen,
bool want_extra,
unsigned magic)
{
ntdb_off_t off, b_off,best_off;
struct ntdb_free_record best = { 0 };
double multiplier;
size_t size = adjust_size(keylen, datalen);
enum NTDB_ERROR ecode;
ntdb->stats.allocs++;
b_off = bucket_off(ftable_off, bucket);
/* FIXME: Try non-blocking wait first, to measure contention. */
/* Lock this bucket. */
ecode = ntdb_lock_free_bucket(ntdb, b_off, NTDB_LOCK_WAIT);
if (ecode != NTDB_SUCCESS) {
return NTDB_ERR_TO_OFF(ecode);
}
best.ftable_and_len = -1ULL;
best_off = 0;
/* Get slack if we're after extra. */
if (want_extra)
multiplier = 1.5;
else
multiplier = 1.0;
/* Walk the list to see if any are large enough, getting less fussy
* as we go. */
off = ntdb_read_off(ntdb, b_off);
if (NTDB_OFF_IS_ERR(off)) {
ecode = NTDB_OFF_TO_ERR(off);
goto unlock_err;
}
off &= NTDB_OFF_MASK;
while (off) {
const struct ntdb_free_record *r;
ntdb_off_t next;
r = ntdb_access_read(ntdb, off, sizeof(*r), true);
if (NTDB_PTR_IS_ERR(r)) {
ecode = NTDB_PTR_ERR(r);
goto unlock_err;
}
if (frec_magic(r) != NTDB_FREE_MAGIC) {
ecode = ntdb_logerr(ntdb, NTDB_ERR_CORRUPT, NTDB_LOG_ERROR,
"lock_and_alloc:"
" %llu non-free 0x%llx",
(long long)off,
(long long)r->magic_and_prev);
ntdb_access_release(ntdb, r);
goto unlock_err;
}
if (frec_len(r) >= size && frec_len(r) < frec_len(&best)) {
best_off = off;
best = *r;
}
if (frec_len(&best) <= size * multiplier && best_off) {
ntdb_access_release(ntdb, r);
break;
}
multiplier *= 1.01;
next = r->next;
ntdb_access_release(ntdb, r);
off = next;
}
/* If we found anything at all, use it. */
if (best_off) {
struct ntdb_used_record rec;
size_t leftover;
/* We're happy with this size: take it. */
ecode = remove_from_list(ntdb, b_off, best_off, &best);
check_list(ntdb, b_off);
if (ecode != NTDB_SUCCESS) {
goto unlock_err;
}
leftover = record_leftover(keylen, datalen, want_extra,
frec_len(&best));
assert(keylen + datalen + leftover <= frec_len(&best));
/* We need to mark non-free before we drop lock, otherwise
* coalesce() could try to merge it! */
ecode = set_header(ntdb, &rec, magic, keylen, datalen,
frec_len(&best) - leftover);
if (ecode != NTDB_SUCCESS) {
goto unlock_err;
}
ecode = ntdb_write_convert(ntdb, best_off, &rec, sizeof(rec));
if (ecode != NTDB_SUCCESS) {
goto unlock_err;
}
/* For futureproofing, we put a 0 in any unused space. */
if (rec_extra_padding(&rec)) {
ecode = ntdb->io->twrite(ntdb, best_off + sizeof(rec)
+ keylen + datalen, "", 1);
if (ecode != NTDB_SUCCESS) {
goto unlock_err;
}
}
/* Bucket of leftover will be <= current bucket, so nested
* locking is allowed. */
if (leftover) {
ntdb->stats.alloc_leftover++;
ecode = add_free_record(ntdb,
best_off + sizeof(rec)
+ frec_len(&best) - leftover,
leftover, NTDB_LOCK_WAIT, false);
if (ecode != NTDB_SUCCESS) {
best_off = NTDB_ERR_TO_OFF(ecode);
}
}
ntdb_unlock_free_bucket(ntdb, b_off);
return best_off;
}
ntdb_unlock_free_bucket(ntdb, b_off);
return 0;
unlock_err:
ntdb_unlock_free_bucket(ntdb, b_off);
return NTDB_ERR_TO_OFF(ecode);
}
/* Get a free block from current free list, or 0 if none, -ve on error. */
static ntdb_off_t get_free(struct ntdb_context *ntdb,
size_t keylen, size_t datalen, bool want_extra,
unsigned magic)
{
ntdb_off_t off, ftable_off;
ntdb_off_t start_b, b, ftable;
bool wrapped = false;
/* If they are growing, add 50% to get to higher bucket. */
if (want_extra)
start_b = size_to_bucket(adjust_size(keylen,
datalen + datalen / 2));
else
start_b = size_to_bucket(adjust_size(keylen, datalen));
ftable_off = ntdb->ftable_off;
ftable = ntdb->ftable;
while (!wrapped || ftable_off != ntdb->ftable_off) {
/* Start at exact size bucket, and search up... */
for (b = find_free_head(ntdb, ftable_off, start_b);
b < NTDB_FREE_BUCKETS;
b = find_free_head(ntdb, ftable_off, b + 1)) {
/* Try getting one from list. */
off = lock_and_alloc(ntdb, ftable_off,
b, keylen, datalen, want_extra,
magic);
if (NTDB_OFF_IS_ERR(off))
return off;
if (off != 0) {
if (b == start_b)
ntdb->stats.alloc_bucket_exact++;
if (b == NTDB_FREE_BUCKETS - 1)
ntdb->stats.alloc_bucket_max++;
/* Worked? Stay using this list. */
ntdb->ftable_off = ftable_off;
ntdb->ftable = ftable;
return off;
}
/* Didn't work. Try next bucket. */
}
if (NTDB_OFF_IS_ERR(b)) {
return b;
}
/* Hmm, try next table. */
ftable_off = next_ftable(ntdb, ftable_off);
if (NTDB_OFF_IS_ERR(ftable_off)) {
return ftable_off;
}
ftable++;
if (ftable_off == 0) {
wrapped = true;
ftable_off = first_ftable(ntdb);
if (NTDB_OFF_IS_ERR(ftable_off)) {
return ftable_off;
}
ftable = 0;
}
}
return 0;
}
enum NTDB_ERROR set_header(struct ntdb_context *ntdb,
struct ntdb_used_record *rec,
unsigned magic, uint64_t keylen, uint64_t datalen,
uint64_t actuallen)
{
uint64_t keybits = (fls64(keylen) + 1) / 2;
rec->magic_and_meta = ((actuallen - (keylen + datalen)) << 11)
| (keybits << 43)
| ((uint64_t)magic << 48);
rec->key_and_data_len = (keylen | (datalen << (keybits*2)));
/* Encoding can fail on big values. */
if (rec_key_length(rec) != keylen
|| rec_data_length(rec) != datalen
|| rec_extra_padding(rec) != actuallen - (keylen + datalen)) {
return ntdb_logerr(ntdb, NTDB_ERR_IO, NTDB_LOG_ERROR,
"Could not encode k=%llu,d=%llu,a=%llu",
(long long)keylen, (long long)datalen,
(long long)actuallen);
}
return NTDB_SUCCESS;
}
/* You need 'size', this tells you how much you should expand by. */
ntdb_off_t ntdb_expand_adjust(ntdb_off_t map_size, ntdb_off_t size)
{
ntdb_off_t new_size, top_size;
/* limit size in order to avoid using up huge amounts of memory for
* in memory tdbs if an oddball huge record creeps in */
if (size > 100 * 1024) {
top_size = map_size + size * 2;
} else {
top_size = map_size + size * 100;
}
/* always make room for at least top_size more records, and at
least 25% more space. if the DB is smaller than 100MiB,
otherwise grow it by 10% only. */
if (map_size > 100 * 1024 * 1024) {
new_size = map_size * 1.10;
} else {
new_size = map_size * 1.25;
}
if (new_size < top_size)
new_size = top_size;
/* We always make the file a multiple of transaction page
* size. This guarantees that the transaction recovery area
* is always aligned, otherwise the transaction code can overwrite
* itself. */
new_size = (new_size + NTDB_PGSIZE-1) & ~(NTDB_PGSIZE-1);
return new_size - map_size;
}
/* Expand the database. */
static enum NTDB_ERROR ntdb_expand(struct ntdb_context *ntdb, ntdb_len_t size)
{
uint64_t old_size;
ntdb_len_t wanted;
enum NTDB_ERROR ecode;
/* Need to hold a hash lock to expand DB: transactions rely on it. */
if (!(ntdb->flags & NTDB_NOLOCK)
&& !ntdb->file->allrecord_lock.count && !ntdb_has_hash_locks(ntdb)) {
return ntdb_logerr(ntdb, NTDB_ERR_LOCK, NTDB_LOG_ERROR,
"ntdb_expand: must hold lock during expand");
}
/* Only one person can expand file at a time. */
ecode = ntdb_lock_expand(ntdb, F_WRLCK);
if (ecode != NTDB_SUCCESS) {
return ecode;
}
/* Someone else may have expanded the file, so retry. */
old_size = ntdb->file->map_size;
ntdb_oob(ntdb, ntdb->file->map_size, 1, true);
if (ntdb->file->map_size != old_size) {
ntdb_unlock_expand(ntdb, F_WRLCK);
return NTDB_SUCCESS;
}
/* We need room for the record header too. */
size = adjust_size(0, sizeof(struct ntdb_used_record) + size);
/* Overallocate. */
wanted = ntdb_expand_adjust(old_size, size);
ecode = ntdb->io->expand_file(ntdb, wanted);
if (ecode != NTDB_SUCCESS) {
ntdb_unlock_expand(ntdb, F_WRLCK);
return ecode;
}
/* We need to drop this lock before adding free record. */
ntdb_unlock_expand(ntdb, F_WRLCK);
ntdb->stats.expands++;
return add_free_record(ntdb, old_size, wanted, NTDB_LOCK_WAIT, true);
}
/* This won't fail: it will expand the database if it has to. */
ntdb_off_t alloc(struct ntdb_context *ntdb, size_t keylen, size_t datalen,
unsigned magic, bool growing)
{
ntdb_off_t off;
for (;;) {
enum NTDB_ERROR ecode;
off = get_free(ntdb, keylen, datalen, growing, magic);
if (likely(off != 0))
break;
ecode = ntdb_expand(ntdb, adjust_size(keylen, datalen));
if (ecode != NTDB_SUCCESS) {
return NTDB_ERR_TO_OFF(ecode);
}
}
return off;
}
|