2011-12-02 20:40:33 +04:00
/*
r22775: For the cluster code I've developed a wrapper around tdb to put different
database backends in place dynamically.
The main abstractions are db_context and db_record, it should be mainly
self-describing, see include/dbwrap.h. You open the db just as you would open
a tdb, this time with db_open(). If you want to fetch a record, just do the
db->fetch() call, if you want to do operations on it, you need to get it with
fetch_locked().
I added dbwrap_file.c (not heavily tested lately) as an example for what can
be done with that abstraction, uses a file per key. So if anybody is willing
to shape that up, we might have a chance on reiserfs again.... :-)
This abstraction works fine for brlock.tdb, locking.tdb, connections.tdb and
sessionid.tdb. It should work fine for the others as well, I just did not yet
get around to convert them.
If nobody loudly screams NO, then I will import the code that uses this soon.
Volker
(This used to be commit e9d7484ca246cfca4a1fd23be35edc2783136ebe)
2007-05-10 14:42:13 +04:00
Unix SMB / CIFS implementation .
Database interface wrapper
Copyright ( C ) Jim McDonough < jmcd @ us . ibm . com > 2006
Major code contributions from Aleksey Fedoseev ( fedoseev @ ru . ibm . com )
2011-12-02 20:40:33 +04:00
r22775: For the cluster code I've developed a wrapper around tdb to put different
database backends in place dynamically.
The main abstractions are db_context and db_record, it should be mainly
self-describing, see include/dbwrap.h. You open the db just as you would open
a tdb, this time with db_open(). If you want to fetch a record, just do the
db->fetch() call, if you want to do operations on it, you need to get it with
fetch_locked().
I added dbwrap_file.c (not heavily tested lately) as an example for what can
be done with that abstraction, uses a file per key. So if anybody is willing
to shape that up, we might have a chance on reiserfs again.... :-)
This abstraction works fine for brlock.tdb, locking.tdb, connections.tdb and
sessionid.tdb. It should work fine for the others as well, I just did not yet
get around to convert them.
If nobody loudly screams NO, then I will import the code that uses this soon.
Volker
(This used to be commit e9d7484ca246cfca4a1fd23be35edc2783136ebe)
2007-05-10 14:42:13 +04:00
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
2007-07-09 23:25:36 +04:00
the Free Software Foundation ; either version 3 of the License , or
r22775: For the cluster code I've developed a wrapper around tdb to put different
database backends in place dynamically.
The main abstractions are db_context and db_record, it should be mainly
self-describing, see include/dbwrap.h. You open the db just as you would open
a tdb, this time with db_open(). If you want to fetch a record, just do the
db->fetch() call, if you want to do operations on it, you need to get it with
fetch_locked().
I added dbwrap_file.c (not heavily tested lately) as an example for what can
be done with that abstraction, uses a file per key. So if anybody is willing
to shape that up, we might have a chance on reiserfs again.... :-)
This abstraction works fine for brlock.tdb, locking.tdb, connections.tdb and
sessionid.tdb. It should work fine for the others as well, I just did not yet
get around to convert them.
If nobody loudly screams NO, then I will import the code that uses this soon.
Volker
(This used to be commit e9d7484ca246cfca4a1fd23be35edc2783136ebe)
2007-05-10 14:42:13 +04:00
( at your option ) any later version .
2011-12-02 20:40:33 +04:00
r22775: For the cluster code I've developed a wrapper around tdb to put different
database backends in place dynamically.
The main abstractions are db_context and db_record, it should be mainly
self-describing, see include/dbwrap.h. You open the db just as you would open
a tdb, this time with db_open(). If you want to fetch a record, just do the
db->fetch() call, if you want to do operations on it, you need to get it with
fetch_locked().
I added dbwrap_file.c (not heavily tested lately) as an example for what can
be done with that abstraction, uses a file per key. So if anybody is willing
to shape that up, we might have a chance on reiserfs again.... :-)
This abstraction works fine for brlock.tdb, locking.tdb, connections.tdb and
sessionid.tdb. It should work fine for the others as well, I just did not yet
get around to convert them.
If nobody loudly screams NO, then I will import the code that uses this soon.
Volker
(This used to be commit e9d7484ca246cfca4a1fd23be35edc2783136ebe)
2007-05-10 14:42:13 +04:00
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 .
2011-12-02 20:40:33 +04:00
r22775: For the cluster code I've developed a wrapper around tdb to put different
database backends in place dynamically.
The main abstractions are db_context and db_record, it should be mainly
self-describing, see include/dbwrap.h. You open the db just as you would open
a tdb, this time with db_open(). If you want to fetch a record, just do the
db->fetch() call, if you want to do operations on it, you need to get it with
fetch_locked().
I added dbwrap_file.c (not heavily tested lately) as an example for what can
be done with that abstraction, uses a file per key. So if anybody is willing
to shape that up, we might have a chance on reiserfs again.... :-)
This abstraction works fine for brlock.tdb, locking.tdb, connections.tdb and
sessionid.tdb. It should work fine for the others as well, I just did not yet
get around to convert them.
If nobody loudly screams NO, then I will import the code that uses this soon.
Volker
(This used to be commit e9d7484ca246cfca4a1fd23be35edc2783136ebe)
2007-05-10 14:42:13 +04:00
You should have received a copy of the GNU General Public License
2007-07-10 04:52:41 +04:00
along with this program . If not , see < http : //www.gnu.org/licenses/>.
r22775: For the cluster code I've developed a wrapper around tdb to put different
database backends in place dynamically.
The main abstractions are db_context and db_record, it should be mainly
self-describing, see include/dbwrap.h. You open the db just as you would open
a tdb, this time with db_open(). If you want to fetch a record, just do the
db->fetch() call, if you want to do operations on it, you need to get it with
fetch_locked().
I added dbwrap_file.c (not heavily tested lately) as an example for what can
be done with that abstraction, uses a file per key. So if anybody is willing
to shape that up, we might have a chance on reiserfs again.... :-)
This abstraction works fine for brlock.tdb, locking.tdb, connections.tdb and
sessionid.tdb. It should work fine for the others as well, I just did not yet
get around to convert them.
If nobody loudly screams NO, then I will import the code that uses this soon.
Volker
(This used to be commit e9d7484ca246cfca4a1fd23be35edc2783136ebe)
2007-05-10 14:42:13 +04:00
*/
# include "includes.h"
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# include "dbwrap/dbwrap.h"
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# include "dbwrap/dbwrap_private.h"
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# include "lib/util/util_tdb.h"
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/*
* Fall back using fetch if no genuine exists operation is provided
*/
static int dbwrap_fallback_exists ( struct db_context * db , TDB_DATA key )
{
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NTSTATUS status = dbwrap_parse_record ( db , key , NULL , NULL ) ;
return NT_STATUS_IS_OK ( status ) ? 1 : 0 ;
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}
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static int delete_record ( struct db_record * rec , void * data )
{
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NTSTATUS status = dbwrap_record_delete ( rec ) ;
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return NT_STATUS_IS_OK ( status ) ? 0 : - 1 ;
}
/*
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* Fallback wipe implementation using traverse and delete if no genuine
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* wipe operation is provided
*/
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static int dbwrap_fallback_wipe ( struct db_context * db )
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{
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NTSTATUS status = dbwrap_trans_traverse ( db , delete_record , NULL ) ;
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return NT_STATUS_IS_OK ( status ) ? 0 : - 1 ;
}
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static int do_nothing ( struct db_record * rec , void * unused )
{
return 0 ;
}
/*
* Fallback check operation : just traverse .
*/
static int dbwrap_fallback_check ( struct db_context * db )
{
NTSTATUS status = dbwrap_traverse_read ( db , do_nothing , NULL , NULL ) ;
return NT_STATUS_IS_OK ( status ) ? 0 : - 1 ;
}
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/*
* Wrapper functions for the backend methods
*/
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TDB_DATA dbwrap_record_get_key ( const struct db_record * rec )
{
return rec - > key ;
}
TDB_DATA dbwrap_record_get_value ( const struct db_record * rec )
{
return rec - > value ;
}
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NTSTATUS dbwrap_record_store ( struct db_record * rec , TDB_DATA data , int flags )
{
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NTSTATUS status ;
struct db_context * db ;
status = rec - > store ( rec , data , flags ) ;
if ( ! NT_STATUS_IS_OK ( status ) ) {
return status ;
}
db = rec - > db ;
if ( db - > stored_callback ! = NULL ) {
db - > stored_callback ( db , rec ,
db - > stored_callback_private_data ) ;
}
return NT_STATUS_OK ;
}
void dbwrap_set_stored_callback (
struct db_context * db ,
void ( * cb ) ( struct db_context * db , struct db_record * rec ,
void * private_data ) ,
void * private_data )
{
db - > stored_callback = cb ;
db - > stored_callback_private_data = private_data ;
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}
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NTSTATUS dbwrap_record_delete ( struct db_record * rec )
{
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NTSTATUS status ;
struct db_context * db ;
status = rec - > delete_rec ( rec ) ;
if ( ! NT_STATUS_IS_OK ( status ) ) {
return status ;
}
db = rec - > db ;
if ( db - > stored_callback ! = NULL ) {
db - > stored_callback ( db , rec ,
db - > stored_callback_private_data ) ;
}
return NT_STATUS_OK ;
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}
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struct dbwrap_lock_order_state {
uint8_t * plock_order_mask ;
uint8_t bitmask ;
} ;
static int dbwrap_lock_order_state_destructor (
struct dbwrap_lock_order_state * s )
{
* s - > plock_order_mask & = ~ s - > bitmask ;
return 0 ;
}
static struct dbwrap_lock_order_state * dbwrap_check_lock_order (
struct db_context * db , TALLOC_CTX * mem_ctx )
{
/*
* Store the lock_order of currently locked records as bits in
* " lock_order_mask " . We only use levels 1 , 2 , 3 right now , so a
* single uint8_t is enough .
*/
static uint8_t lock_order_mask ;
struct dbwrap_lock_order_state * state ;
uint8_t idx ;
int used ;
if ( db - > lock_order = = 0 ) {
/*
* lock order 0 is for example for dbwrap_rbt without
* real locking . Return state nevertheless to avoid
* special cases .
*/
return talloc ( mem_ctx , struct dbwrap_lock_order_state ) ;
}
/*
* We fill bits from the high bits , to be able to use
* " ffs(lock_order_mask) "
*/
idx = sizeof ( lock_order_mask ) * 8 - db - > lock_order ;
used = ffs ( lock_order_mask ) ;
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DEBUG ( 5 , ( " used=%d, lock_order=%d, idx=%d \n " , used ,
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( int ) db - > lock_order , ( int ) idx ) ) ;
if ( ( used ! = 0 ) & & ( used - 1 < = idx ) ) {
DEBUG ( 0 , ( " Lock order violation: Trying %d, order_mask=%x \n " ,
( int ) db - > lock_order , ( int ) lock_order_mask ) ) ;
return NULL ;
}
state = talloc ( mem_ctx , struct dbwrap_lock_order_state ) ;
if ( state = = NULL ) {
DEBUG ( 1 , ( " talloc failed \n " ) ) ;
return NULL ;
}
state - > bitmask = 1 < < idx ;
state - > plock_order_mask = & lock_order_mask ;
talloc_set_destructor ( state , dbwrap_lock_order_state_destructor ) ;
lock_order_mask | = state - > bitmask ;
return state ;
}
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static struct db_record * dbwrap_fetch_locked_internal (
struct db_context * db , TALLOC_CTX * mem_ctx , TDB_DATA key ,
struct db_record * ( * db_fn ) ( struct db_context * db , TALLOC_CTX * mem_ctx ,
TDB_DATA key ) )
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{
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struct db_record * rec ;
struct dbwrap_lock_order_state * lock_order ;
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TALLOC_CTX * frame = talloc_stackframe ( ) ;
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lock_order = dbwrap_check_lock_order ( db , frame ) ;
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if ( lock_order = = NULL ) {
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TALLOC_FREE ( frame ) ;
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return NULL ;
}
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rec = db_fn ( db , mem_ctx , key ) ;
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if ( rec = = NULL ) {
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TALLOC_FREE ( frame ) ;
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return NULL ;
}
( void ) talloc_steal ( rec , lock_order ) ;
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rec - > db = db ;
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TALLOC_FREE ( frame ) ;
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return rec ;
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}
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struct db_record * dbwrap_fetch_locked ( struct db_context * db ,
TALLOC_CTX * mem_ctx ,
TDB_DATA key )
{
return dbwrap_fetch_locked_internal ( db , mem_ctx , key ,
db - > fetch_locked ) ;
}
struct db_record * dbwrap_try_fetch_locked ( struct db_context * db ,
TALLOC_CTX * mem_ctx ,
TDB_DATA key )
{
return dbwrap_fetch_locked_internal (
db , mem_ctx , key ,
db - > try_fetch_locked
? db - > try_fetch_locked : db - > fetch_locked ) ;
}
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struct db_record * dbwrap_fetch_locked_timeout ( struct db_context * db ,
TALLOC_CTX * mem_ctx ,
TDB_DATA key ,
unsigned int timeout )
{
struct db_record * rec ;
struct dbwrap_lock_order_state * lock_order ;
TALLOC_CTX * frame = talloc_stackframe ( ) ;
lock_order = dbwrap_check_lock_order ( db , frame ) ;
if ( lock_order = = NULL ) {
TALLOC_FREE ( frame ) ;
return NULL ;
}
rec = db - > fetch_locked_timeout
? db - > fetch_locked_timeout ( db , mem_ctx , key , timeout )
: db - > fetch_locked ( db , mem_ctx , key ) ;
if ( rec = = NULL ) {
TALLOC_FREE ( frame ) ;
return NULL ;
}
( void ) talloc_steal ( rec , lock_order ) ;
rec - > db = db ;
TALLOC_FREE ( frame ) ;
return rec ;
}
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struct db_context * dbwrap_record_get_db ( struct db_record * rec )
{
return rec - > db ;
}
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struct dbwrap_fetch_state {
TALLOC_CTX * mem_ctx ;
TDB_DATA data ;
} ;
static void dbwrap_fetch_parser ( TDB_DATA key , TDB_DATA data ,
void * private_data )
{
struct dbwrap_fetch_state * state =
( struct dbwrap_fetch_state * ) private_data ;
state - > data . dsize = data . dsize ;
state - > data . dptr = ( uint8_t * ) talloc_memdup ( state - > mem_ctx , data . dptr ,
data . dsize ) ;
}
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NTSTATUS dbwrap_fetch ( struct db_context * db , TALLOC_CTX * mem_ctx ,
TDB_DATA key , TDB_DATA * value )
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{
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struct dbwrap_fetch_state state ;
NTSTATUS status ;
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if ( value = = NULL ) {
return NT_STATUS_INVALID_PARAMETER ;
}
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state . mem_ctx = mem_ctx ;
status = dbwrap_parse_record ( db , key , dbwrap_fetch_parser , & state ) ;
if ( ! NT_STATUS_IS_OK ( status ) ) {
return status ;
}
if ( ( state . data . dsize ! = 0 ) & & ( state . data . dptr = = NULL ) ) {
return NT_STATUS_NO_MEMORY ;
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}
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* value = state . data ;
return NT_STATUS_OK ;
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}
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bool dbwrap_exists ( struct db_context * db , TDB_DATA key )
{
int result ;
if ( db - > exists ! = NULL ) {
result = db - > exists ( db , key ) ;
} else {
result = dbwrap_fallback_exists ( db , key ) ;
}
return ( result = = 1 ) ;
}
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NTSTATUS dbwrap_store ( struct db_context * db , TDB_DATA key ,
TDB_DATA data , int flags )
{
struct db_record * rec ;
NTSTATUS status ;
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TALLOC_CTX * frame = talloc_stackframe ( ) ;
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rec = dbwrap_fetch_locked ( db , frame , key ) ;
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if ( rec = = NULL ) {
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TALLOC_FREE ( frame ) ;
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return NT_STATUS_NO_MEMORY ;
}
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status = dbwrap_record_store ( rec , data , flags ) ;
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TALLOC_FREE ( frame ) ;
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return status ;
}
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NTSTATUS dbwrap_delete ( struct db_context * db , TDB_DATA key )
{
struct db_record * rec ;
NTSTATUS status ;
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TALLOC_CTX * frame = talloc_stackframe ( ) ;
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rec = dbwrap_fetch_locked ( db , frame , key ) ;
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if ( rec = = NULL ) {
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TALLOC_FREE ( frame ) ;
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return NT_STATUS_NO_MEMORY ;
}
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status = dbwrap_record_delete ( rec ) ;
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TALLOC_FREE ( frame ) ;
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return status ;
}
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NTSTATUS dbwrap_traverse ( struct db_context * db ,
int ( * f ) ( struct db_record * , void * ) ,
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void * private_data ,
int * count )
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{
int ret = db - > traverse ( db , f , private_data ) ;
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if ( ret < 0 ) {
return NT_STATUS_INTERNAL_DB_CORRUPTION ;
}
if ( count ! = NULL ) {
* count = ret ;
}
return NT_STATUS_OK ;
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}
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NTSTATUS dbwrap_traverse_read ( struct db_context * db ,
int ( * f ) ( struct db_record * , void * ) ,
void * private_data ,
int * count )
{
int ret = db - > traverse_read ( db , f , private_data ) ;
if ( ret < 0 ) {
return NT_STATUS_INTERNAL_DB_CORRUPTION ;
}
if ( count ! = NULL ) {
* count = ret ;
}
return NT_STATUS_OK ;
}
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static void dbwrap_null_parser ( TDB_DATA key , TDB_DATA val , void * data )
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{
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return ;
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}
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NTSTATUS dbwrap_parse_record ( struct db_context * db , TDB_DATA key ,
void ( * parser ) ( TDB_DATA key , TDB_DATA data ,
void * private_data ) ,
void * private_data )
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{
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if ( parser = = NULL ) {
parser = dbwrap_null_parser ;
}
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return db - > parse_record ( db , key , parser , private_data ) ;
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}
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int dbwrap_wipe ( struct db_context * db )
{
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if ( db - > wipe = = NULL ) {
return dbwrap_fallback_wipe ( db ) ;
}
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return db - > wipe ( db ) ;
}
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int dbwrap_hash_size ( struct db_context * db )
{
return db - > hash_size ;
}
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int dbwrap_check ( struct db_context * db )
{
if ( db - > check = = NULL ) {
return dbwrap_fallback_check ( db ) ;
}
return db - > check ( db ) ;
}
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int dbwrap_get_seqnum ( struct db_context * db )
{
return db - > get_seqnum ( db ) ;
}
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int dbwrap_transaction_start ( struct db_context * db )
{
return db - > transaction_start ( db ) ;
}
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NTSTATUS dbwrap_transaction_start_nonblock ( struct db_context * db )
{
if ( db - > transaction_start_nonblock ) {
return db - > transaction_start_nonblock ( db ) ;
} else {
return dbwrap_transaction_start ( db ) = = 0 ? NT_STATUS_OK
: NT_STATUS_UNSUCCESSFUL ;
}
}
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int dbwrap_transaction_commit ( struct db_context * db )
{
return db - > transaction_commit ( db ) ;
}
int dbwrap_transaction_cancel ( struct db_context * db )
{
return db - > transaction_cancel ( db ) ;
}
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void dbwrap_db_id ( struct db_context * db , const uint8_t * * id , size_t * idlen )
{
db - > id ( db , id , idlen ) ;
}
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const char * dbwrap_name ( struct db_context * db )
{
return db - > name ;
}