Sweden-Number/dlls/wldap32/wldap32.h

1017 lines
24 KiB
C

/*
* WLDAP32 - LDAP support for Wine
*
* Copyright 2005 Hans Leidekker
*
* 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 2.1 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, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
*/
#include <assert.h>
#include "wine/heap.h"
#include "wine/unicode.h"
extern HINSTANCE hwldap32 DECLSPEC_HIDDEN;
ULONG map_error( int ) DECLSPEC_HIDDEN;
/* A set of helper functions to convert LDAP data structures
* to and from ansi (A), wide character (W) and utf8 (U) encodings.
*/
static inline char *strdupU( const char *src )
{
char *dst;
if (!src) return NULL;
if ((dst = heap_alloc( (strlen( src ) + 1) * sizeof(char) ))) strcpy( dst, src );
return dst;
}
static inline WCHAR *strdupW( const WCHAR *src )
{
WCHAR *dst;
if (!src) return NULL;
if ((dst = heap_alloc( (strlenW( src ) + 1) * sizeof(WCHAR) ))) strcpyW( dst, src );
return dst;
}
static inline LPWSTR strAtoW( LPCSTR str )
{
LPWSTR ret = NULL;
if (str)
{
DWORD len = MultiByteToWideChar( CP_ACP, 0, str, -1, NULL, 0 );
if ((ret = heap_alloc( len * sizeof(WCHAR) )))
MultiByteToWideChar( CP_ACP, 0, str, -1, ret, len );
}
return ret;
}
static inline LPSTR strWtoA( LPCWSTR str )
{
LPSTR ret = NULL;
if (str)
{
DWORD len = WideCharToMultiByte( CP_ACP, 0, str, -1, NULL, 0, NULL, NULL );
if ((ret = heap_alloc( len )))
WideCharToMultiByte( CP_ACP, 0, str, -1, ret, len, NULL, NULL );
}
return ret;
}
static inline char *strWtoU( LPCWSTR str )
{
LPSTR ret = NULL;
if (str)
{
DWORD len = WideCharToMultiByte( CP_UTF8, 0, str, -1, NULL, 0, NULL, NULL );
if ((ret = heap_alloc( len )))
WideCharToMultiByte( CP_UTF8, 0, str, -1, ret, len, NULL, NULL );
}
return ret;
}
static inline LPWSTR strUtoW( char *str )
{
LPWSTR ret = NULL;
if (str)
{
DWORD len = MultiByteToWideChar( CP_UTF8, 0, str, -1, NULL, 0 );
if ((ret = heap_alloc( len * sizeof(WCHAR) )))
MultiByteToWideChar( CP_UTF8, 0, str, -1, ret, len );
}
return ret;
}
static inline LPWSTR strnAtoW( LPCSTR str, DWORD inlen, DWORD *outlen )
{
LPWSTR ret = NULL;
*outlen = 0;
if (str)
{
DWORD len = MultiByteToWideChar( CP_ACP, 0, str, inlen, NULL, 0 );
if ((ret = heap_alloc( (len+1) * sizeof(WCHAR) )))
{
MultiByteToWideChar( CP_ACP, 0, str, inlen, ret, len );
ret[len] = 0;
*outlen = len;
}
}
return ret;
}
static inline char *strnWtoU( LPCWSTR str, DWORD inlen, DWORD *outlen )
{
LPSTR ret = NULL;
*outlen = 0;
if (str)
{
DWORD len = WideCharToMultiByte( CP_UTF8, 0, str, inlen, NULL, 0, NULL, NULL );
if ((ret = heap_alloc( len + 1 )))
{
WideCharToMultiByte( CP_UTF8, 0, str, inlen, ret, len, NULL, NULL );
ret[len] = 0;
*outlen = len;
}
}
return ret;
}
static inline void strfreeA( LPSTR str )
{
heap_free( str );
}
static inline void strfreeW( LPWSTR str )
{
heap_free( str );
}
static inline void strfreeU( char *str )
{
heap_free( str );
}
static inline DWORD strarraylenA( LPSTR *strarray )
{
LPSTR *p = strarray;
while (*p) p++;
return p - strarray;
}
static inline DWORD strarraylenW( LPWSTR *strarray )
{
LPWSTR *p = strarray;
while (*p) p++;
return p - strarray;
}
static inline DWORD strarraylenU( char **strarray )
{
char **p = strarray;
while (*p) p++;
return p - strarray;
}
static inline LPWSTR *strarrayAtoW( LPSTR *strarray )
{
LPWSTR *strarrayW = NULL;
DWORD size;
if (strarray)
{
size = sizeof(WCHAR*) * (strarraylenA( strarray ) + 1);
if ((strarrayW = heap_alloc( size )))
{
LPSTR *p = strarray;
LPWSTR *q = strarrayW;
while (*p) *q++ = strAtoW( *p++ );
*q = NULL;
}
}
return strarrayW;
}
static inline LPSTR *strarrayWtoA( LPWSTR *strarray )
{
LPSTR *strarrayA = NULL;
DWORD size;
if (strarray)
{
size = sizeof(LPSTR) * (strarraylenW( strarray ) + 1);
if ((strarrayA = heap_alloc( size )))
{
LPWSTR *p = strarray;
LPSTR *q = strarrayA;
while (*p) *q++ = strWtoA( *p++ );
*q = NULL;
}
}
return strarrayA;
}
static inline char **strarrayWtoU( LPWSTR *strarray )
{
char **strarrayU = NULL;
DWORD size;
if (strarray)
{
size = sizeof(char*) * (strarraylenW( strarray ) + 1);
if ((strarrayU = heap_alloc( size )))
{
LPWSTR *p = strarray;
char **q = strarrayU;
while (*p) *q++ = strWtoU( *p++ );
*q = NULL;
}
}
return strarrayU;
}
static inline LPWSTR *strarrayUtoW( char **strarray )
{
LPWSTR *strarrayW = NULL;
DWORD size;
if (strarray)
{
size = sizeof(WCHAR*) * (strarraylenU( strarray ) + 1);
if ((strarrayW = heap_alloc( size )))
{
char **p = strarray;
LPWSTR *q = strarrayW;
while (*p) *q++ = strUtoW( *p++ );
*q = NULL;
}
}
return strarrayW;
}
static inline LPWSTR *strarraydupW( LPWSTR *strarray )
{
LPWSTR *strarrayW = NULL;
DWORD size;
if (strarray)
{
size = sizeof(WCHAR*) * (strarraylenW( strarray ) + 1);
if ((strarrayW = heap_alloc( size )))
{
LPWSTR *p = strarray;
LPWSTR *q = strarrayW;
while (*p) *q++ = strdupW( *p++ );
*q = NULL;
}
}
return strarrayW;
}
static inline void strarrayfreeA( LPSTR *strarray )
{
if (strarray)
{
LPSTR *p = strarray;
while (*p) strfreeA( *p++ );
heap_free( strarray );
}
}
static inline void strarrayfreeW( LPWSTR *strarray )
{
if (strarray)
{
LPWSTR *p = strarray;
while (*p) strfreeW( *p++ );
heap_free( strarray );
}
}
static inline void strarrayfreeU( char **strarray )
{
if (strarray)
{
char **p = strarray;
while (*p) strfreeU( *p++ );
heap_free( strarray );
}
}
static inline struct WLDAP32_berval *bervalWtoW( struct WLDAP32_berval *bv )
{
struct WLDAP32_berval *berval;
DWORD size = sizeof(*berval) + bv->bv_len;
if ((berval = heap_alloc( size )))
{
char *val = (char *)(berval + 1);
berval->bv_len = bv->bv_len;
berval->bv_val = val;
memcpy( val, bv->bv_val, bv->bv_len );
}
return berval;
}
static inline void bvarrayfreeW( struct WLDAP32_berval **bv )
{
struct WLDAP32_berval **p = bv;
while (*p) heap_free( *p++ );
heap_free( bv );
}
#ifdef HAVE_LDAP
static inline struct berval *bervalWtoU( struct WLDAP32_berval *bv )
{
struct berval *berval;
DWORD size = sizeof(*berval) + bv->bv_len;
if ((berval = heap_alloc( size )))
{
char *val = (char *)(berval + 1);
berval->bv_len = bv->bv_len;
berval->bv_val = val;
memcpy( val, bv->bv_val, bv->bv_len );
}
return berval;
}
static inline struct WLDAP32_berval *bervalUtoW( struct berval *bv )
{
struct WLDAP32_berval *berval;
DWORD size = sizeof(*berval) + bv->bv_len;
assert( bv->bv_len <= ~0u );
if ((berval = heap_alloc( size )))
{
char *val = (char *)(berval + 1);
berval->bv_len = bv->bv_len;
berval->bv_val = val;
memcpy( val, bv->bv_val, bv->bv_len );
}
return berval;
}
static inline DWORD bvarraylenU( struct berval **bv )
{
struct berval **p = bv;
while (*p) p++;
return p - bv;
}
static inline DWORD bvarraylenW( struct WLDAP32_berval **bv )
{
struct WLDAP32_berval **p = bv;
while (*p) p++;
return p - bv;
}
static inline struct WLDAP32_berval **bvarrayWtoW( struct WLDAP32_berval **bv )
{
struct WLDAP32_berval **berval = NULL;
DWORD size;
if (bv)
{
size = sizeof(*berval) * (bvarraylenW( bv ) + 1);
if ((berval = heap_alloc( size )))
{
struct WLDAP32_berval **p = bv;
struct WLDAP32_berval **q = berval;
while (*p) *q++ = bervalWtoW( *p++ );
*q = NULL;
}
}
return berval;
}
static inline struct berval **bvarrayWtoU( struct WLDAP32_berval **bv )
{
struct berval **berval = NULL;
DWORD size;
if (bv)
{
size = sizeof(*berval) * (bvarraylenW( bv ) + 1);
if ((berval = heap_alloc( size )))
{
struct WLDAP32_berval **p = bv;
struct berval **q = berval;
while (*p) *q++ = bervalWtoU( *p++ );
*q = NULL;
}
}
return berval;
}
static inline struct WLDAP32_berval **bvarrayUtoW( struct berval **bv )
{
struct WLDAP32_berval **berval = NULL;
DWORD size;
if (bv)
{
size = sizeof(*berval) * (bvarraylenU( bv ) + 1);
if ((berval = heap_alloc( size )))
{
struct berval **p = bv;
struct WLDAP32_berval **q = berval;
while (*p) *q++ = bervalUtoW( *p++ );
*q = NULL;
}
}
return berval;
}
static inline void bvarrayfreeU( struct berval **bv )
{
struct berval **p = bv;
while (*p) heap_free( *p++ );
heap_free( bv );
}
static inline LDAPModW *modAtoW( LDAPModA *mod )
{
LDAPModW *modW;
if ((modW = heap_alloc( sizeof(LDAPModW) )))
{
modW->mod_op = mod->mod_op;
modW->mod_type = strAtoW( mod->mod_type );
if (mod->mod_op & LDAP_MOD_BVALUES)
modW->mod_vals.modv_bvals = bvarrayWtoW( mod->mod_vals.modv_bvals );
else
modW->mod_vals.modv_strvals = strarrayAtoW( mod->mod_vals.modv_strvals );
}
return modW;
}
static inline LDAPMod *modWtoU( LDAPModW *mod )
{
LDAPMod *modU;
if ((modU = heap_alloc( sizeof(LDAPMod) )))
{
modU->mod_op = mod->mod_op;
modU->mod_type = strWtoU( mod->mod_type );
if (mod->mod_op & LDAP_MOD_BVALUES)
modU->mod_vals.modv_bvals = bvarrayWtoU( mod->mod_vals.modv_bvals );
else
modU->mod_vals.modv_strvals = strarrayWtoU( mod->mod_vals.modv_strvals );
}
return modU;
}
static inline void modfreeW( LDAPModW *mod )
{
if (mod->mod_op & LDAP_MOD_BVALUES)
bvarrayfreeW( mod->mod_vals.modv_bvals );
else
strarrayfreeW( mod->mod_vals.modv_strvals );
heap_free( mod );
}
static inline void modfreeU( LDAPMod *mod )
{
if (mod->mod_op & LDAP_MOD_BVALUES)
bvarrayfreeU( mod->mod_vals.modv_bvals );
else
strarrayfreeU( mod->mod_vals.modv_strvals );
heap_free( mod );
}
static inline DWORD modarraylenA( LDAPModA **modarray )
{
LDAPModA **p = modarray;
while (*p) p++;
return p - modarray;
}
static inline DWORD modarraylenW( LDAPModW **modarray )
{
LDAPModW **p = modarray;
while (*p) p++;
return p - modarray;
}
static inline LDAPModW **modarrayAtoW( LDAPModA **modarray )
{
LDAPModW **modarrayW = NULL;
DWORD size;
if (modarray)
{
size = sizeof(LDAPModW*) * (modarraylenA( modarray ) + 1);
if ((modarrayW = heap_alloc( size )))
{
LDAPModA **p = modarray;
LDAPModW **q = modarrayW;
while (*p) *q++ = modAtoW( *p++ );
*q = NULL;
}
}
return modarrayW;
}
static inline LDAPMod **modarrayWtoU( LDAPModW **modarray )
{
LDAPMod **modarrayU = NULL;
DWORD size;
if (modarray)
{
size = sizeof(LDAPMod*) * (modarraylenW( modarray ) + 1);
if ((modarrayU = heap_alloc( size )))
{
LDAPModW **p = modarray;
LDAPMod **q = modarrayU;
while (*p) *q++ = modWtoU( *p++ );
*q = NULL;
}
}
return modarrayU;
}
static inline void modarrayfreeW( LDAPModW **modarray )
{
if (modarray)
{
LDAPModW **p = modarray;
while (*p) modfreeW( *p++ );
heap_free( modarray );
}
}
static inline void modarrayfreeU( LDAPMod **modarray )
{
if (modarray)
{
LDAPMod **p = modarray;
while (*p) modfreeU( *p++ );
heap_free( modarray );
}
}
static inline LDAPControlW *controlAtoW( LDAPControlA *control )
{
LDAPControlW *controlW;
DWORD len = control->ldctl_value.bv_len;
char *val = NULL;
if (control->ldctl_value.bv_val)
{
if (!(val = heap_alloc( len ))) return NULL;
memcpy( val, control->ldctl_value.bv_val, len );
}
if (!(controlW = heap_alloc( sizeof(LDAPControlW) )))
{
heap_free( val );
return NULL;
}
controlW->ldctl_oid = strAtoW( control->ldctl_oid );
controlW->ldctl_value.bv_len = len;
controlW->ldctl_value.bv_val = val;
controlW->ldctl_iscritical = control->ldctl_iscritical;
return controlW;
}
static inline LDAPControlA *controlWtoA( LDAPControlW *control )
{
LDAPControlA *controlA;
DWORD len = control->ldctl_value.bv_len;
char *val = NULL;
if (control->ldctl_value.bv_val)
{
if (!(val = heap_alloc( len ))) return NULL;
memcpy( val, control->ldctl_value.bv_val, len );
}
if (!(controlA = heap_alloc( sizeof(LDAPControlA) )))
{
heap_free( val );
return NULL;
}
controlA->ldctl_oid = strWtoA( control->ldctl_oid );
controlA->ldctl_value.bv_len = len;
controlA->ldctl_value.bv_val = val;
controlA->ldctl_iscritical = control->ldctl_iscritical;
return controlA;
}
static inline LDAPControl *controlWtoU( LDAPControlW *control )
{
LDAPControl *controlU;
DWORD len = control->ldctl_value.bv_len;
char *val = NULL;
if (control->ldctl_value.bv_val)
{
if (!(val = heap_alloc( len ))) return NULL;
memcpy( val, control->ldctl_value.bv_val, len );
}
if (!(controlU = heap_alloc( sizeof(LDAPControl) )))
{
heap_free( val );
return NULL;
}
controlU->ldctl_oid = strWtoU( control->ldctl_oid );
controlU->ldctl_value.bv_len = len;
controlU->ldctl_value.bv_val = val;
controlU->ldctl_iscritical = control->ldctl_iscritical;
return controlU;
}
static inline LDAPControlW *controlUtoW( LDAPControl *control )
{
LDAPControlW *controlW;
DWORD len = control->ldctl_value.bv_len;
char *val = NULL;
if (control->ldctl_value.bv_val)
{
if (!(val = heap_alloc( len ))) return NULL;
memcpy( val, control->ldctl_value.bv_val, len );
}
if (!(controlW = heap_alloc( sizeof(LDAPControlW) )))
{
heap_free( val );
return NULL;
}
controlW->ldctl_oid = strUtoW( control->ldctl_oid );
controlW->ldctl_value.bv_len = len;
controlW->ldctl_value.bv_val = val;
controlW->ldctl_iscritical = control->ldctl_iscritical;
return controlW;
}
static inline LDAPControlW *controldupW( LDAPControlW *control )
{
LDAPControlW *controlW;
DWORD len = control->ldctl_value.bv_len;
char *val = NULL;
if (control->ldctl_value.bv_val)
{
if (!(val = heap_alloc( len ))) return NULL;
memcpy( val, control->ldctl_value.bv_val, len );
}
if (!(controlW = heap_alloc( sizeof(LDAPControlW) )))
{
heap_free( val );
return NULL;
}
controlW->ldctl_oid = strdupW( control->ldctl_oid );
controlW->ldctl_value.bv_len = len;
controlW->ldctl_value.bv_val = val;
controlW->ldctl_iscritical = control->ldctl_iscritical;
return controlW;
}
static inline void controlfreeA( LDAPControlA *control )
{
if (control)
{
strfreeA( control->ldctl_oid );
heap_free( control->ldctl_value.bv_val );
heap_free( control );
}
}
static inline void controlfreeW( LDAPControlW *control )
{
if (control)
{
strfreeW( control->ldctl_oid );
heap_free( control->ldctl_value.bv_val );
heap_free( control );
}
}
static inline void controlfreeU( LDAPControl *control )
{
if (control)
{
strfreeU( control->ldctl_oid );
heap_free( control->ldctl_value.bv_val );
heap_free( control );
}
}
static inline DWORD controlarraylenA( LDAPControlA **controlarray )
{
LDAPControlA **p = controlarray;
while (*p) p++;
return p - controlarray;
}
static inline DWORD controlarraylenW( LDAPControlW **controlarray )
{
LDAPControlW **p = controlarray;
while (*p) p++;
return p - controlarray;
}
static inline DWORD controlarraylenU( LDAPControl **controlarray )
{
LDAPControl **p = controlarray;
while (*p) p++;
return p - controlarray;
}
static inline LDAPControlW **controlarrayAtoW( LDAPControlA **controlarray )
{
LDAPControlW **controlarrayW = NULL;
DWORD size;
if (controlarray)
{
size = sizeof(LDAPControlW*) * (controlarraylenA( controlarray ) + 1);
if ((controlarrayW = heap_alloc( size )))
{
LDAPControlA **p = controlarray;
LDAPControlW **q = controlarrayW;
while (*p) *q++ = controlAtoW( *p++ );
*q = NULL;
}
}
return controlarrayW;
}
static inline LDAPControlA **controlarrayWtoA( LDAPControlW **controlarray )
{
LDAPControlA **controlarrayA = NULL;
DWORD size;
if (controlarray)
{
size = sizeof(LDAPControl*) * (controlarraylenW( controlarray ) + 1);
if ((controlarrayA = heap_alloc( size )))
{
LDAPControlW **p = controlarray;
LDAPControlA **q = controlarrayA;
while (*p) *q++ = controlWtoA( *p++ );
*q = NULL;
}
}
return controlarrayA;
}
static inline LDAPControl **controlarrayWtoU( LDAPControlW **controlarray )
{
LDAPControl **controlarrayU = NULL;
DWORD size;
if (controlarray)
{
size = sizeof(LDAPControl*) * (controlarraylenW( controlarray ) + 1);
if ((controlarrayU = heap_alloc( size )))
{
LDAPControlW **p = controlarray;
LDAPControl **q = controlarrayU;
while (*p) *q++ = controlWtoU( *p++ );
*q = NULL;
}
}
return controlarrayU;
}
static inline LDAPControlW **controlarrayUtoW( LDAPControl **controlarray )
{
LDAPControlW **controlarrayW = NULL;
DWORD size;
if (controlarray)
{
size = sizeof(LDAPControlW*) * (controlarraylenU( controlarray ) + 1);
if ((controlarrayW = heap_alloc( size )))
{
LDAPControl **p = controlarray;
LDAPControlW **q = controlarrayW;
while (*p) *q++ = controlUtoW( *p++ );
*q = NULL;
}
}
return controlarrayW;
}
static inline LDAPControlW **controlarraydupW( LDAPControlW **controlarray )
{
LDAPControlW **controlarrayW = NULL;
DWORD size;
if (controlarray)
{
size = sizeof(LDAPControlW*) * (controlarraylenW( controlarray ) + 1);
if ((controlarrayW = heap_alloc( size )))
{
LDAPControlW **p = controlarray;
LDAPControlW **q = controlarrayW;
while (*p) *q++ = controldupW( *p++ );
*q = NULL;
}
}
return controlarrayW;
}
static inline void controlarrayfreeA( LDAPControlA **controlarray )
{
if (controlarray)
{
LDAPControlA **p = controlarray;
while (*p) controlfreeA( *p++ );
heap_free( controlarray );
}
}
static inline void controlarrayfreeW( LDAPControlW **controlarray )
{
if (controlarray)
{
LDAPControlW **p = controlarray;
while (*p) controlfreeW( *p++ );
heap_free( controlarray );
}
}
static inline void controlarrayfreeU( LDAPControl **controlarray )
{
if (controlarray)
{
LDAPControl **p = controlarray;
while (*p) controlfreeU( *p++ );
heap_free( controlarray );
}
}
static inline LDAPSortKeyW *sortkeyAtoW( LDAPSortKeyA *sortkey )
{
LDAPSortKeyW *sortkeyW;
if ((sortkeyW = heap_alloc( sizeof(LDAPSortKeyW) )))
{
sortkeyW->sk_attrtype = strAtoW( sortkey->sk_attrtype );
sortkeyW->sk_matchruleoid = strAtoW( sortkey->sk_matchruleoid );
sortkeyW->sk_reverseorder = sortkey->sk_reverseorder;
}
return sortkeyW;
}
static inline LDAPSortKeyA *sortkeyWtoA( LDAPSortKeyW *sortkey )
{
LDAPSortKeyA *sortkeyA;
if ((sortkeyA = heap_alloc( sizeof(LDAPSortKeyA) )))
{
sortkeyA->sk_attrtype = strWtoA( sortkey->sk_attrtype );
sortkeyA->sk_matchruleoid = strWtoA( sortkey->sk_matchruleoid );
sortkeyA->sk_reverseorder = sortkey->sk_reverseorder;
}
return sortkeyA;
}
static inline LDAPSortKey *sortkeyWtoU( LDAPSortKeyW *sortkey )
{
LDAPSortKey *sortkeyU;
if ((sortkeyU = heap_alloc( sizeof(LDAPSortKey) )))
{
sortkeyU->attributeType = strWtoU( sortkey->sk_attrtype );
sortkeyU->orderingRule = strWtoU( sortkey->sk_matchruleoid );
sortkeyU->reverseOrder = sortkey->sk_reverseorder;
}
return sortkeyU;
}
static inline void sortkeyfreeA( LDAPSortKeyA *sortkey )
{
if (sortkey)
{
strfreeA( sortkey->sk_attrtype );
strfreeA( sortkey->sk_matchruleoid );
heap_free( sortkey );
}
}
static inline void sortkeyfreeW( LDAPSortKeyW *sortkey )
{
if (sortkey)
{
strfreeW( sortkey->sk_attrtype );
strfreeW( sortkey->sk_matchruleoid );
heap_free( sortkey );
}
}
static inline void sortkeyfreeU( LDAPSortKey *sortkey )
{
if (sortkey)
{
strfreeU( sortkey->attributeType );
strfreeU( sortkey->orderingRule );
heap_free( sortkey );
}
}
static inline DWORD sortkeyarraylenA( LDAPSortKeyA **sortkeyarray )
{
LDAPSortKeyA **p = sortkeyarray;
while (*p) p++;
return p - sortkeyarray;
}
static inline DWORD sortkeyarraylenW( LDAPSortKeyW **sortkeyarray )
{
LDAPSortKeyW **p = sortkeyarray;
while (*p) p++;
return p - sortkeyarray;
}
static inline LDAPSortKeyW **sortkeyarrayAtoW( LDAPSortKeyA **sortkeyarray )
{
LDAPSortKeyW **sortkeyarrayW = NULL;
DWORD size;
if (sortkeyarray)
{
size = sizeof(LDAPSortKeyW*) * (sortkeyarraylenA( sortkeyarray ) + 1);
if ((sortkeyarrayW = heap_alloc( size )))
{
LDAPSortKeyA **p = sortkeyarray;
LDAPSortKeyW **q = sortkeyarrayW;
while (*p) *q++ = sortkeyAtoW( *p++ );
*q = NULL;
}
}
return sortkeyarrayW;
}
static inline LDAPSortKey **sortkeyarrayWtoU( LDAPSortKeyW **sortkeyarray )
{
LDAPSortKey **sortkeyarrayU = NULL;
DWORD size;
if (sortkeyarray)
{
size = sizeof(LDAPSortKey*) * (sortkeyarraylenW( sortkeyarray ) + 1);
if ((sortkeyarrayU = heap_alloc( size )))
{
LDAPSortKeyW **p = sortkeyarray;
LDAPSortKey **q = sortkeyarrayU;
while (*p) *q++ = sortkeyWtoU( *p++ );
*q = NULL;
}
}
return sortkeyarrayU;
}
static inline void sortkeyarrayfreeW( LDAPSortKeyW **sortkeyarray )
{
if (sortkeyarray)
{
LDAPSortKeyW **p = sortkeyarray;
while (*p) sortkeyfreeW( *p++ );
heap_free( sortkeyarray );
}
}
static inline void sortkeyarrayfreeU( LDAPSortKey **sortkeyarray )
{
if (sortkeyarray)
{
LDAPSortKey **p = sortkeyarray;
while (*p) sortkeyfreeU( *p++ );
heap_free( sortkeyarray );
}
}
#endif /* HAVE_LDAP */