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|
/*
Unix SMB/Netbios implementation.
Version 3.0
Samba database functions
Copyright (C) Andrew Tridgell 1999
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#if STANDALONE
#include <stdlib.h>
#include <stdio.h>
#include <fcntl.h>
#include <unistd.h>
#include <string.h>
#include <fcntl.h>
#include <errno.h>
#include <sys/mman.h>
#include <sys/stat.h>
#include "tdb.h"
#else
#include "includes.h"
#endif
#define TDB_VERSION (0x26011967 + 1)
#define TDB_MAGIC (0x26011999U)
#define TDB_FREE_MAGIC (~TDB_MAGIC)
#define TDB_ALIGN 4
#define MIN_REC_SIZE (2*sizeof(struct list_struct) + TDB_ALIGN)
#define DEFAULT_HASH_SIZE 128
#define TDB_PAGE_SIZE 0x2000
#define TDB_LEN_MULTIPLIER 10
#define FREELIST_TOP (sizeof(struct tdb_header))
#define LOCK_SET 1
#define LOCK_CLEAR 0
/* lock offsets */
#define GLOBAL_LOCK 0
#define ACTIVE_LOCK 4
#define LIST_LOCK_BASE 1024
#define BUCKET(hash) ((hash) % tdb->header.hash_size)
/* the body of the database is made of one list_struct for the free space
plus a separate data list for each hash value */
struct list_struct {
tdb_len rec_len; /* total byte length of record */
tdb_off next; /* offset of the next record in the list */
tdb_len key_len; /* byte length of key */
tdb_len data_len; /* byte length of data */
unsigned full_hash; /* the full 32 bit hash of the key */
unsigned magic; /* try to catch errors */
/*
the following union is implied
union {
char record[rec_len];
struct {
char key[key_len];
char data[data_len];
}
}
*/
};
/* a null data record - useful for error returns */
static TDB_DATA null_data;
/* a byte range locking function - return 0 on success
this functions locks/unlocks 1 byte at the specified offset */
static int tdb_brlock(TDB_CONTEXT *tdb, tdb_off offset,
int set, int rw_type, int lck_type)
{
#if NOLOCK
return 0;
#else
struct flock fl;
if (tdb->read_only) return -1;
fl.l_type = set==LOCK_SET?rw_type:F_UNLCK;
fl.l_whence = SEEK_SET;
fl.l_start = offset;
fl.l_len = 1;
fl.l_pid = 0;
if (fcntl(tdb->fd, lck_type, &fl) != 0) {
#if TDB_DEBUG
if (lck_type == F_SETLKW) {
printf("lock %d failed at %d (%s)\n",
set, offset, strerror(errno));
}
#endif
tdb->ecode = TDB_ERR_LOCK;
return -1;
}
return 0;
#endif
}
/* lock a list in the database. list -1 is the alloc list */
static int tdb_lock(TDB_CONTEXT *tdb, int list)
{
if (list < -1 || list >= (int)tdb->header.hash_size) {
#if TDB_DEBUG
printf("bad list %d\n", list);
#endif
return -1;
}
if (tdb->locked[list+1] == 0) {
if (tdb_brlock(tdb, LIST_LOCK_BASE + 4*list, LOCK_SET,
F_WRLCK, F_SETLKW) != 0) {
return -1;
}
}
tdb->locked[list+1]++;
return 0;
}
/* unlock the database. */
static int tdb_unlock(TDB_CONTEXT *tdb, int list)
{
if (list < -1 || list >= (int)tdb->header.hash_size) {
#if TDB_DEBUG
printf("bad unlock list %d\n", list);
#endif
return -1;
}
if (tdb->locked[list+1] == 0) {
#if TDB_DEBUG
printf("not locked %d\n", list);
#endif
tdb->ecode = TDB_ERR_LOCK;
return -1;
}
if (tdb->locked[list+1] == 1) {
if (tdb_brlock(tdb, LIST_LOCK_BASE + 4*list, LOCK_CLEAR,
F_WRLCK, F_SETLKW) != 0) {
return -1;
}
}
tdb->locked[list+1]--;
return 0;
}
/* the hash algorithm - turn a key into an integer
This is based on the hash agorithm from gdbm */
static unsigned tdb_hash(TDB_DATA *key)
{
unsigned value; /* Used to compute the hash value. */
unsigned i; /* Used to cycle through random values. */
/* Set the initial value from the key size. */
value = 0x238F13AF * key->dsize;
for (i=0; i < key->dsize; i++) {
value = (value + (key->dptr[i] << (i*5 % 24)));
}
value = (1103515243 * value + 12345);
return value;
}
/* find the top of the hash chain for an open database */
static tdb_off tdb_hash_top(TDB_CONTEXT *tdb, unsigned hash)
{
tdb_off ret;
hash = BUCKET(hash);
ret = FREELIST_TOP + (hash+1)*sizeof(tdb_off);
return ret;
}
/* check for an out of bounds access - if it is out of bounds then
see if the database has been expanded by someone else and expand
if necessary */
static int tdb_oob(TDB_CONTEXT *tdb, tdb_off offset)
{
struct stat st;
if (offset <= tdb->map_size) return 0;
fstat(tdb->fd, &st);
if (st.st_size <= (ssize_t)offset) {
tdb->ecode = TDB_ERR_IO;
return -1;
}
#if HAVE_MMAP
if (tdb->map_ptr) {
munmap(tdb->map_ptr, tdb->map_size);
tdb->map_ptr = NULL;
}
#endif
tdb->map_size = st.st_size;
#if HAVE_MMAP
tdb->map_ptr = (void *)mmap(NULL, tdb->map_size,
tdb->read_only?PROT_READ:PROT_READ|PROT_WRITE,
MAP_SHARED | MAP_FILE, tdb->fd, 0);
#endif
return 0;
}
/* write a lump of data at a specified offset */
static int tdb_write(TDB_CONTEXT *tdb, tdb_off offset, char *buf, tdb_len len)
{
if (tdb_oob(tdb, offset + len) != 0) {
/* oops - trying to write beyond the end of the database! */
return -1;
}
if (tdb->map_ptr) {
memcpy(offset + (char *)tdb->map_ptr, buf, len);
} else {
if (lseek(tdb->fd, offset, SEEK_SET) != offset ||
write(tdb->fd, buf, len) != (ssize_t)len) {
tdb->ecode = TDB_ERR_IO;
return -1;
}
}
return 0;
}
/* read a lump of data at a specified offset */
static int tdb_read(TDB_CONTEXT *tdb, tdb_off offset, char *buf, tdb_len len)
{
if (tdb_oob(tdb, offset + len) != 0) {
/* oops - trying to read beyond the end of the database! */
return -1;
}
if (tdb->map_ptr) {
memcpy(buf, offset + (char *)tdb->map_ptr, len);
} else {
if (lseek(tdb->fd, offset, SEEK_SET) != offset ||
read(tdb->fd, buf, len) != (ssize_t)len) {
tdb->ecode = TDB_ERR_IO;
return -1;
}
}
return 0;
}
/* read a lump of data, allocating the space for it */
static char *tdb_alloc_read(TDB_CONTEXT *tdb, tdb_off offset, tdb_len len)
{
char *buf;
buf = (char *)malloc(len);
if (!buf) {
tdb->ecode = TDB_ERR_OOM;
return NULL;
}
if (tdb_read(tdb, offset, buf, len) == -1) {
free(buf);
return NULL;
}
return buf;
}
/* convenience routine for writing a record */
static int rec_write(TDB_CONTEXT *tdb, tdb_off offset, struct list_struct *rec)
{
return tdb_write(tdb, offset, (char *)rec, sizeof(*rec));
}
/* convenience routine for writing a tdb_off */
static int ofs_write(TDB_CONTEXT *tdb, tdb_off offset, tdb_off *d)
{
return tdb_write(tdb, offset, (char *)d, sizeof(*d));
}
/* read a tdb_off from the store */
static int ofs_read(TDB_CONTEXT *tdb, tdb_off offset, tdb_off *d)
{
return tdb_read(tdb, offset, (char *)d, sizeof(*d));
}
/* read a record and check for simple errors */
static int rec_read(TDB_CONTEXT *tdb, tdb_off offset, struct list_struct *rec)
{
if (tdb_read(tdb, offset, (char *)rec, sizeof(*rec)) == -1) return -1;
if (rec->magic != TDB_MAGIC) {
#if TDB_DEBUG
printf("bad magic 0x%08x at offset %d\n",
rec->magic, offset);
#endif
tdb->ecode = TDB_ERR_CORRUPT;
return -1;
}
if (tdb_oob(tdb, rec->next) != 0) {
return -1;
}
return 0;
}
/* expand the database at least length bytes by expanding the
underlying file and doing the mmap again if necessary */
static int tdb_expand(TDB_CONTEXT *tdb, tdb_off length)
{
struct list_struct rec;
tdb_off offset, ptr;
char b = 0;
tdb_lock(tdb,-1);
/* make sure we know about any previous expansions by another
process */
tdb_oob(tdb,tdb->map_size + 1);
/* always make room for at least 10 more records */
length *= TDB_LEN_MULTIPLIER;
/* and round the database up to a multiple of TDB_PAGE_SIZE */
length = ((tdb->map_size + length + TDB_PAGE_SIZE) & ~(TDB_PAGE_SIZE - 1)) - tdb->map_size;
/* expand the file itself */
lseek(tdb->fd, tdb->map_size + length - 1, SEEK_SET);
if (write(tdb->fd, &b, 1) != 1) goto fail;
/* form a new freelist record */
offset = FREELIST_TOP;
rec.rec_len = length - sizeof(rec);
rec.magic = TDB_FREE_MAGIC;
if (ofs_read(tdb, offset, &rec.next) == -1) {
goto fail;
}
#if HAVE_MMAP
if (tdb->map_ptr) {
munmap(tdb->map_ptr, tdb->map_size);
tdb->map_ptr = NULL;
}
#endif
tdb->map_size += length;
/* write it out */
if (rec_write(tdb, tdb->map_size - length, &rec) == -1) {
goto fail;
}
/* link it into the free list */
ptr = tdb->map_size - length;
if (ofs_write(tdb, offset, &ptr) == -1) goto fail;
#if HAVE_MMAP
tdb->map_ptr = (void *)mmap(NULL, tdb->map_size,
PROT_READ|PROT_WRITE,
MAP_SHARED | MAP_FILE, tdb->fd, 0);
#endif
tdb_unlock(tdb, -1);
return 0;
fail:
tdb_unlock(tdb,-1);
return -1;
}
/* allocate some space from the free list. The offset returned points
to a unconnected list_struct within the database with room for at
least length bytes of total data
0 is returned if the space could not be allocated
*/
static tdb_off tdb_allocate(TDB_CONTEXT *tdb, tdb_len length)
{
tdb_off offset, rec_ptr, last_ptr;
struct list_struct rec, lastrec, newrec;
tdb_lock(tdb, -1);
again:
last_ptr = 0;
offset = FREELIST_TOP;
/* read in the freelist top */
if (ofs_read(tdb, offset, &rec_ptr) == -1) {
goto fail;
}
/* keep looking until we find a freelist record that is big
enough */
while (rec_ptr) {
if (tdb_read(tdb, rec_ptr, (char *)&rec, sizeof(rec)) == -1) {
goto fail;
}
if (rec.magic != TDB_FREE_MAGIC) {
#if TDB_DEBUG
printf("bad magic 0x%08x in free list\n", rec.magic);
#endif
goto fail;
}
if (rec.rec_len >= length) {
/* found it - now possibly split it up */
if (rec.rec_len > length + MIN_REC_SIZE) {
length = (length + TDB_ALIGN) & ~(TDB_ALIGN-1);
newrec.rec_len = rec.rec_len - (sizeof(rec) + length);
newrec.next = rec.next;
newrec.magic = TDB_FREE_MAGIC;
rec.rec_len = length;
rec.next = rec_ptr + sizeof(rec) + rec.rec_len;
if (rec_write(tdb, rec.next, &newrec) == -1) {
goto fail;
}
if (rec_write(tdb, rec_ptr, &rec) == -1) {
goto fail;
}
}
/* remove it from the list */
if (last_ptr == 0) {
offset = FREELIST_TOP;
if (ofs_write(tdb, offset, &rec.next) == -1) {
goto fail;
}
} else {
lastrec.next = rec.next;
if (rec_write(tdb, last_ptr, &lastrec) == -1) {
goto fail;
}
}
/* all done - return the new record offset */
tdb_unlock(tdb, -1);
return rec_ptr;
}
/* move to the next record */
lastrec = rec;
last_ptr = rec_ptr;
rec_ptr = rec.next;
}
/* we didn't find enough space. See if we can expand the
database and if we can then try again */
if (tdb_expand(tdb, length + sizeof(rec)) == 0) goto again;
fail:
#if TDB_DEBUG
printf("tdb_allocate failed for size %u\n", length);
#endif
tdb_unlock(tdb, -1);
return 0;
}
/* initialise a new database with a specified hash size */
static int tdb_new_database(TDB_CONTEXT *tdb, int hash_size)
{
struct tdb_header header;
tdb_off offset;
int i;
tdb_off buf[16];
/* create the header */
memset(&header, 0, sizeof(header));
memcpy(header.magic_food, TDB_MAGIC_FOOD, strlen(TDB_MAGIC_FOOD)+1);
header.version = TDB_VERSION;
header.hash_size = hash_size;
lseek(tdb->fd, 0, SEEK_SET);
ftruncate(tdb->fd, 0);
if (write(tdb->fd, &header, sizeof(header)) != sizeof(header)) {
tdb->ecode = TDB_ERR_IO;
return -1;
}
/* the freelist and hash pointers */
offset = 0;
memset(buf, 0, sizeof(buf));
for (i=0;(hash_size+1)-i >= 16; i += 16) {
if (write(tdb->fd, buf, sizeof(buf)) != sizeof(buf)) {
tdb->ecode = TDB_ERR_IO;
return -1;
}
}
for (;i<hash_size+1; i++) {
if (write(tdb->fd, buf, sizeof(tdb_off)) != sizeof(tdb_off)) {
tdb->ecode = TDB_ERR_IO;
return -1;
}
}
#if TDB_DEBUG
printf("initialised database of hash_size %u\n",
hash_size);
#endif
return 0;
}
/* Returns 0 on fail. On success, return offset of record, and fills
in rec */
static tdb_off tdb_find(TDB_CONTEXT *tdb, TDB_DATA key, unsigned int hash,
struct list_struct *rec)
{
tdb_off offset, rec_ptr;
/* find the top of the hash chain */
offset = tdb_hash_top(tdb, hash);
/* read in the hash top */
if (ofs_read(tdb, offset, &rec_ptr) == -1)
return 0;
/* keep looking until we find the right record */
while (rec_ptr) {
if (rec_read(tdb, rec_ptr, rec) == -1)
return 0;
if (hash == rec->full_hash && key.dsize == rec->key_len) {
char *k;
/* a very likely hit - read the key */
k = tdb_alloc_read(tdb, rec_ptr + sizeof(*rec),
rec->key_len);
if (!k)
return 0;
if (memcmp(key.dptr, k, key.dsize) == 0) {
free(k);
return rec_ptr;
}
free(k);
}
/* move to the next record */
rec_ptr = rec->next;
}
return 0;
}
/*
return an error string for the last tdb error
*/
char *tdb_error(TDB_CONTEXT *tdb)
{
int i;
static struct {
enum TDB_ERROR ecode;
char *estring;
} emap[] = {
{TDB_SUCCESS, "Success"},
{TDB_ERR_CORRUPT, "Corrupt database"},
{TDB_ERR_IO, "IO Error"},
{TDB_ERR_LOCK, "Locking error"},
{TDB_ERR_OOM, "Out of memory"},
{TDB_ERR_EXISTS, "Record exists"},
{-1, NULL}};
for (i=0;emap[i].estring;i++) {
if (tdb->ecode == emap[i].ecode) return emap[i].estring;
}
return "Invalid error code";
}
/* update an entry in place - this only works if the new data size
is <= the old data size and the key exists.
on failure return -1
*/
int tdb_update(TDB_CONTEXT *tdb, TDB_DATA key, TDB_DATA dbuf)
{
unsigned hash;
struct list_struct rec;
tdb_off rec_ptr;
int ret = -1;
/* find which hash bucket it is in */
hash = tdb_hash(&key);
tdb_lock(tdb, BUCKET(hash));
rec_ptr = tdb_find(tdb, key, hash, &rec);
if (!rec_ptr)
goto out;
/* must be long enough */
if (rec.rec_len < key.dsize + dbuf.dsize)
goto out;
if (tdb_write(tdb, rec_ptr + sizeof(rec) + rec.key_len,
dbuf.dptr, dbuf.dsize) == -1)
goto out;
if (dbuf.dsize != rec.data_len) {
/* update size */
rec.data_len = dbuf.dsize;
ret = rec_write(tdb, rec_ptr, &rec);
} else
ret = 0;
out:
tdb_unlock(tdb, BUCKET(hash));
return ret;
}
/* find an entry in the database given a key */
TDB_DATA tdb_fetch(TDB_CONTEXT *tdb, TDB_DATA key)
{
unsigned hash;
tdb_off rec_ptr;
struct list_struct rec;
TDB_DATA ret = null_data;
/* find which hash bucket it is in */
hash = tdb_hash(&key);
tdb_lock(tdb, BUCKET(hash));
rec_ptr = tdb_find(tdb, key, hash, &rec);
if (rec_ptr) {
ret.dptr = tdb_alloc_read(tdb,
rec_ptr + sizeof(rec) + rec.key_len,
rec.data_len);
ret.dsize = rec.data_len;
}
tdb_unlock(tdb, BUCKET(hash));
return ret;
}
/* check if an entry in the database exists
note that 1 is returned if the key is found and 0 is returned if not found
this doesn't match the conventions in the rest of this module, but is
compatible with gdbm
*/
int tdb_exists(TDB_CONTEXT *tdb, TDB_DATA key)
{
unsigned hash;
tdb_off rec_ptr;
struct list_struct rec;
/* find which hash bucket it is in */
hash = tdb_hash(&key);
tdb_lock(tdb, BUCKET(hash));
rec_ptr = tdb_find(tdb, key, hash, &rec);
tdb_unlock(tdb, BUCKET(hash));
return rec_ptr != 0;
}
/* traverse the entire database - calling fn(tdb, key, data) on each element.
return -1 on error or the record count traversed
if fn is NULL then it is not called
a non-zero return value from fn() indicates that the traversal should stop
*/
int tdb_traverse(TDB_CONTEXT *tdb, int (*fn)(TDB_CONTEXT *tdb, TDB_DATA key, TDB_DATA dbuf))
{
int count = 0;
unsigned h;
tdb_off offset, rec_ptr;
struct list_struct rec;
char *data;
TDB_DATA key, dbuf;
/* loop over all hash chains */
for (h = 0; h < tdb->header.hash_size; h++) {
tdb_lock(tdb, BUCKET(h));
/* read in the hash top */
offset = tdb_hash_top(tdb, h);
if (ofs_read(tdb, offset, &rec_ptr) == -1) {
goto fail;
}
/* traverse all records for this hash */
while (rec_ptr) {
if (rec_read(tdb, rec_ptr, &rec) == -1) {
goto fail;
}
/* now read the full record */
data = tdb_alloc_read(tdb, rec_ptr + sizeof(rec),
rec.key_len + rec.data_len);
if (!data) {
goto fail;
}
key.dptr = data;
key.dsize = rec.key_len;
dbuf.dptr = data + rec.key_len;
dbuf.dsize = rec.data_len;
count++;
if (fn && fn(tdb, key, dbuf) != 0) {
/* they want us to stop traversing */
free(data);
tdb_unlock(tdb, BUCKET(h));
return count;
}
/* a miss - drat */
free(data);
/* move to the next record */
rec_ptr = rec.next;
}
tdb_unlock(tdb, BUCKET(h));
}
/* return the number traversed */
return count;
fail:
tdb_unlock(tdb, BUCKET(h));
return -1;
}
/* find the first entry in the database and return its key */
TDB_DATA tdb_firstkey(TDB_CONTEXT *tdb)
{
tdb_off offset, rec_ptr;
struct list_struct rec;
unsigned hash;
TDB_DATA ret;
/* look for a non-empty hash chain */
for (hash = 0, rec_ptr = 0;
hash < tdb->header.hash_size;
hash++) {
/* find the top of the hash chain */
offset = tdb_hash_top(tdb, hash);
tdb_lock(tdb, BUCKET(hash));
/* read in the hash top */
if (ofs_read(tdb, offset, &rec_ptr) == -1) {
goto fail;
}
if (rec_ptr) break;
tdb_unlock(tdb, BUCKET(hash));
}
if (rec_ptr == 0) return null_data;
/* we've found a non-empty chain, now read the record */
if (rec_read(tdb, rec_ptr, &rec) == -1) {
goto fail;
}
/* allocate and read the key space */
ret.dptr = tdb_alloc_read(tdb, rec_ptr + sizeof(rec), rec.key_len);
ret.dsize = rec.key_len;
tdb_unlock(tdb, BUCKET(hash));
return ret;
fail:
tdb_unlock(tdb, BUCKET(hash));
return null_data;
}
/* find the next entry in the database, returning its key */
TDB_DATA tdb_nextkey(TDB_CONTEXT *tdb, TDB_DATA key)
{
unsigned hash, hbucket;
tdb_off rec_ptr, offset;
struct list_struct rec;
TDB_DATA ret;
/* find which hash bucket it is in */
hash = tdb_hash(&key);
hbucket = BUCKET(hash);
tdb_lock(tdb, hbucket);
rec_ptr = tdb_find(tdb, key, hash, &rec);
if (rec_ptr) {
/* we want the next record after this one */
rec_ptr = rec.next;
}
/* not found or last in hash: look for next non-empty hash chain */
while (rec_ptr == 0) {
tdb_unlock(tdb, hbucket);
if (++hbucket >= tdb->header.hash_size - 1)
return null_data;
offset = tdb_hash_top(tdb, hbucket);
tdb_lock(tdb, hbucket);
/* read in the hash top */
if (ofs_read(tdb, offset, &rec_ptr) == -1) {
tdb_unlock(tdb, hbucket);
return null_data;
}
}
/* Read the record. */
if (rec_read(tdb, rec_ptr, &rec) == 0) {
tdb_unlock(tdb, hbucket);
return null_data;
}
/* allocate and read the key */
ret.dptr = tdb_alloc_read(tdb, rec_ptr + sizeof(rec), rec.key_len);
ret.dsize = rec.key_len;
tdb_unlock(tdb, hbucket);
return ret;
}
/* delete an entry in the database given a key */
int tdb_delete(TDB_CONTEXT *tdb, TDB_DATA key)
{
unsigned hash;
tdb_off offset, rec_ptr, last_ptr;
struct list_struct rec, lastrec;
char *data = NULL;
/* find which hash bucket it is in */
hash = tdb_hash(&key);
tdb_lock(tdb, BUCKET(hash));
/* find the top of the hash chain */
offset = tdb_hash_top(tdb, hash);
/* read in the hash top */
if (ofs_read(tdb, offset, &rec_ptr) == -1) {
goto fail;
}
last_ptr = 0;
/* keep looking until we find the right record */
while (rec_ptr) {
if (rec_read(tdb, rec_ptr, &rec) == -1) {
goto fail;
}
if (hash == rec.full_hash && key.dsize == rec.key_len) {
/* a very likely hit - read the record and full key */
data = tdb_alloc_read(tdb, rec_ptr + sizeof(rec),
rec.key_len);
if (!data) {
goto fail;
}
if (memcmp(key.dptr, data, key.dsize) == 0) {
/* a definite match - delete it */
if (last_ptr == 0) {
offset = tdb_hash_top(tdb, hash);
if (ofs_write(tdb, offset, &rec.next) == -1) {
goto fail;
}
} else {
lastrec.next = rec.next;
if (rec_write(tdb, last_ptr, &lastrec) == -1) {
goto fail;
}
}
tdb_unlock(tdb, BUCKET(hash));
tdb_lock(tdb, -1);
/* and recover the space */
offset = FREELIST_TOP;
if (ofs_read(tdb, offset, &rec.next) == -1) {
goto fail2;
}
rec.magic = TDB_FREE_MAGIC;
if (rec_write(tdb, rec_ptr, &rec) == -1) {
goto fail2;
}
if (ofs_write(tdb, offset, &rec_ptr) == -1) {
goto fail2;
}
/* yipee - all done */
free(data);
tdb_unlock(tdb, -1);
return 0;
}
/* a miss - drat */
free(data);
data = NULL;
}
/* move to the next record */
last_ptr = rec_ptr;
lastrec = rec;
rec_ptr = rec.next;
}
fail:
if (data) free(data);
tdb_unlock(tdb, BUCKET(hash));
return -1;
fail2:
if (data) free(data);
tdb_unlock(tdb, -1);
return -1;
}
/* store an element in the database, replacing any existing element
with the same key
return 0 on success, -1 on failure
*/
int tdb_store(TDB_CONTEXT *tdb, TDB_DATA key, TDB_DATA dbuf, int flag)
{
struct list_struct rec;
unsigned hash;
tdb_off rec_ptr, offset;
char *p = NULL;
/* find which hash bucket it is in */
hash = tdb_hash(&key);
/* check for it existing */
if (flag == TDB_INSERT && tdb_exists(tdb, key)) {
tdb->ecode = TDB_ERR_EXISTS;
return -1;
}
/* first try in-place update */
if (flag != TDB_INSERT && tdb_update(tdb, key, dbuf) == 0) {
return 0;
}
rec_ptr = tdb_allocate(tdb, key.dsize + dbuf.dsize);
if (rec_ptr == 0) {
return -1;
}
tdb_lock(tdb, BUCKET(hash));
/* delete any existing record - if it doesn't exist we don't care */
if (flag != TDB_INSERT) {
tdb_delete(tdb, key);
}
/* read the newly created record */
if (tdb_read(tdb, rec_ptr, (char *)&rec, sizeof(rec)) == -1) {
goto fail;
}
if (rec.magic != TDB_FREE_MAGIC) goto fail;
/* find the top of the hash chain */
offset = tdb_hash_top(tdb, hash);
/* read in the hash top diretcly into our next pointer */
if (ofs_read(tdb, offset, &rec.next) == -1) {
goto fail;
}
rec.key_len = key.dsize;
rec.data_len = dbuf.dsize;
rec.full_hash = hash;
rec.magic = TDB_MAGIC;
p = (char *)malloc(sizeof(rec) + key.dsize + dbuf.dsize);
if (!p) {
tdb->ecode = TDB_ERR_OOM;
goto fail;
}
memcpy(p, &rec, sizeof(rec));
memcpy(p+sizeof(rec), key.dptr, key.dsize);
memcpy(p+sizeof(rec)+key.dsize, dbuf.dptr, dbuf.dsize);
if (tdb_write(tdb, rec_ptr, p, sizeof(rec)+key.dsize+dbuf.dsize) == -1)
goto fail;
free(p);
p = NULL;
/* and point the top of the hash chain at it */
if (ofs_write(tdb, offset, &rec_ptr) == -1) goto fail;
tdb_unlock(tdb, BUCKET(hash));
return 0;
fail:
#if TDB_DEBUG
printf("store failed for hash 0x%08x in bucket %u\n", hash, BUCKET(hash));
#endif
if (p) free(p);
tdb_unlock(tdb, BUCKET(hash));
return -1;
}
/* open the database, creating it if necessary
The open_flags and mode are passed straight to the open call on the database
file. A flags value of O_WRONLY is invalid
The hash size is advisory, use zero for a default value.
return is NULL on error
*/
TDB_CONTEXT *tdb_open(char *name, int hash_size, int tdb_flags,
int open_flags, mode_t mode)
{
TDB_CONTEXT tdb, *ret;
struct stat st;
tdb.fd = -1;
tdb.name = NULL;
tdb.map_ptr = NULL;
if ((open_flags & O_ACCMODE) == O_WRONLY) {
goto fail;
}
if (hash_size == 0) hash_size = DEFAULT_HASH_SIZE;
memset(&tdb, 0, sizeof(tdb));
tdb.read_only = ((open_flags & O_ACCMODE) == O_RDONLY);
tdb.fd = open(name, open_flags, mode);
if (tdb.fd == -1) {
goto fail;
}
/* ensure there is only one process initialising at once */
tdb_brlock(&tdb, GLOBAL_LOCK, LOCK_SET, F_WRLCK, F_SETLKW);
if (tdb_flags & TDB_CLEAR_IF_FIRST) {
/* we need to zero the database if we are the only
one with it open */
if (tdb_brlock(&tdb, ACTIVE_LOCK, LOCK_SET, F_WRLCK, F_SETLK) == 0) {
ftruncate(tdb.fd, 0);
tdb_brlock(&tdb, ACTIVE_LOCK, LOCK_CLEAR, F_WRLCK, F_SETLK);
}
}
/* leave this lock in place */
tdb_brlock(&tdb, ACTIVE_LOCK, LOCK_SET, F_RDLCK, F_SETLKW);
if (read(tdb.fd, &tdb.header, sizeof(tdb.header)) != sizeof(tdb.header) ||
strcmp(tdb.header.magic_food, TDB_MAGIC_FOOD) != 0 ||
tdb.header.version != TDB_VERSION) {
/* its not a valid database - possibly initialise it */
if (!(open_flags & O_CREAT)) {
goto fail;
}
if (tdb_new_database(&tdb, hash_size) == -1) goto fail;
lseek(tdb.fd, 0, SEEK_SET);
if (read(tdb.fd, &tdb.header, sizeof(tdb.header)) != sizeof(tdb.header)) goto fail;
}
fstat(tdb.fd, &st);
/* map the database and fill in the return structure */
tdb.name = (char *)strdup(name);
tdb.locked = (int *)calloc(tdb.header.hash_size+1,
sizeof(tdb.locked[0]));
if (!tdb.locked) {
goto fail;
}
tdb.map_size = st.st_size;
#if HAVE_MMAP
tdb.map_ptr = (void *)mmap(NULL, st.st_size,
tdb.read_only? PROT_READ : PROT_READ|PROT_WRITE,
MAP_SHARED | MAP_FILE, tdb.fd, 0);
#endif
ret = (TDB_CONTEXT *)malloc(sizeof(tdb));
if (!ret) goto fail;
*ret = tdb;
#if TDB_DEBUG
printf("mapped database of hash_size %u map_size=%u\n",
hash_size, tdb.map_size);
#endif
tdb_brlock(&tdb, GLOBAL_LOCK, LOCK_CLEAR, F_WRLCK, F_SETLKW);
return ret;
fail:
if (tdb.name) free(tdb.name);
if (tdb.fd != -1) close(tdb.fd);
if (tdb.map_ptr) munmap(tdb.map_ptr, tdb.map_size);
return NULL;
}
/* close a database */
int tdb_close(TDB_CONTEXT *tdb)
{
if (!tdb) return -1;
if (tdb->name) free(tdb->name);
if (tdb->fd != -1) close(tdb->fd);
if (tdb->map_ptr) munmap(tdb->map_ptr, tdb->map_size);
if (tdb->locked) free(tdb->locked);
memset(tdb, 0, sizeof(*tdb));
free(tdb);
return 0;
}
/* lock the database. If we already have it locked then don't do anything */
int tdb_writelock(TDB_CONTEXT *tdb)
{
return tdb_lock(tdb, -1);
}
/* unlock the database. */
int tdb_writeunlock(TDB_CONTEXT *tdb)
{
return tdb_unlock(tdb, -1);
}
/* lock one hash chain. This is meant to be used to reduce locking
contention - it cannot guarantee how many records will be locked */
int tdb_lockchain(TDB_CONTEXT *tdb, TDB_DATA key)
{
return tdb_lock(tdb, BUCKET(tdb_hash(&key)));
}
/* unlock one hash chain */
int tdb_unlockchain(TDB_CONTEXT *tdb, TDB_DATA key)
{
return tdb_unlock(tdb, BUCKET(tdb_hash(&key)));
}
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