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harbour-core/contrib/sddodbc/core.c
Przemysław Czerpak 8230fcc258 2018-09-14 15:36 UTC+0200 Przemyslaw Czerpak (druzus/at/poczta.onet.pl) 
* include/harbour.hbx
  * include/hbchksum.h
  * src/harbour.def
  * src/rtl/hbmd5.c
    + added new C function
         void hb_hmac_md5( const void * key, HB_SIZE nKeyLen,
                           const void * message, HB_SIZE nMsgLen,
                           char * digest );
    + added new PRG function
         HB_HMAC_MD5( <cMessage>, <cKey> ) -> <cMAC>
    ; HMAC MD5 is used in some authentication methods i.e. CRAM-MD5
      authentication in SMTP protocol

  * src/rtl/gttrm/gttrm.c
    + enable extended XTERM colors automatically when xterm-16color,
      xterm-256color, xterm+256color, xterm-88color, rxvt-16color,
      rxvt-256color, rxvt-98color or putty terminal is detected
    + added support for HB_GTI_SCREENDEPTH

  * contrib/gtqtc/gtqtc1.cpp
    + set clipboard data also into selection buffer on platforms which
      support it
    + when main clipboard buffer is empty retrieve clipboard data from
      selection buffer and if it's empty too from find buffer

  * include/harbour.hbx
  * src/harbour.def
  * src/vm/memvars.c
    + added new PRG function
         __mvGetDef( <cMemvar> [, <xDefault> ] ) -> <xValue>
      it works in similar way to __mvGet() but if <cMemvar> does
      not exist then it returns <xDefault> or NIL instead of RTE

  * contrib/hbwin/hbwin.hbx
    + added missing declarations for win_osIs10() and win_osIs81()

  * contrib/hbssl/ssl.c
    ! fixed compilation with OpenSSL < 0.9.8k

  * contrib/sddodbc/core.c
    * pacified warning

  * contrib/xhb/hbxml.c
  * contrib/xhb/hbxml.h
    ! fixed CDATA terminator, it should be "]]>" instead of " ]]>"
    + added support for HBXML_STYLE_NONEWLINE flag

  * src/3rd/pcre/Makefile
    ! typo wince -> wce

  * src/main/Makefile
    * use harbour.rc only in MS-Windows builds - it fixes OS2 OpenWatcom
      builds

  * config/global.mk
    ! in DOS builds check if the 'uname' exists before running it

  * include/hbapigt.h
  * include/hbgtcore.h
  * src/rtl/hbgtcore.c
  * src/rtl/inkey.c
  * src/rtl/inkeyapi.c
  * contrib/xhb/xhbfunc.c
    + added 3-rd parameter to hb_inkeySetText() function. When this parameter
      is true then ';' is not translated to Chr( 13 ) but DOS and UNIX EOLs
      are translated to Chr( 13 )
    + added logical parameter to HB_GTI_CLIPBOARDPASTE which allows to set
      text without ';' translation but with platform independent EOLs

  * src/rtl/memoedit.prg
  * utils/hbmk2/hbmk2.prg
  * contrib/hbnetio/utils/hbnetio/_console.prg
  * extras/dbu/dbu52.patch
  * extras/dbu/dbu53.patch
    * use hb_gtInfo( HB_GTI_CLIPBOARDPASTE, .T. ) instead of
      hb_gtInfo( HB_GTI_CLIPBOARDPASTE ) for pasting data from clipboard
      with platform independent EOLs and ';' characters
2018-09-14 15:36:21 +02:00

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/*
* ODBC Database Driver
*
* Copyright 2009 Mindaugas Kavaliauskas <dbtopas at dbtopas.lt>
*
* 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, 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; see the file LICENSE.txt. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301 USA (or visit https://www.gnu.org/licenses/).
*
* As a special exception, the Harbour Project gives permission for
* additional uses of the text contained in its release of Harbour.
*
* The exception is that, if you link the Harbour libraries with other
* files to produce an executable, this does not by itself cause the
* resulting executable to be covered by the GNU General Public License.
* Your use of that executable is in no way restricted on account of
* linking the Harbour library code into it.
*
* This exception does not however invalidate any other reasons why
* the executable file might be covered by the GNU General Public License.
*
* This exception applies only to the code released by the Harbour
* Project under the name Harbour. If you copy code from other
* Harbour Project or Free Software Foundation releases into a copy of
* Harbour, as the General Public License permits, the exception does
* not apply to the code that you add in this way. To avoid misleading
* anyone as to the status of such modified files, you must delete
* this exception notice from them.
*
* If you write modifications of your own for Harbour, it is your choice
* whether to permit this exception to apply to your modifications.
* If you do not wish that, delete this exception notice.
*
*/
#include "hbrddsql.h"
#include "hbapiitm.h"
#include "hbdate.h"
#include "hbapistr.h"
#include "hbset.h"
#include "hbvm.h"
/* Required by headers on Windows */
#if defined( HB_OS_WIN )
#include <windows.h>
/* Required for WIN32_LEAN_AND_MEAN mode */
#if ! defined( WIN32 )
#define WIN32
#endif
#endif
#include <sql.h>
#include <sqlext.h>
#if ! defined( HB_OS_WIN )
#if ! defined( SQLLEN ) && ! defined( SQLTCHAR ) && \
! defined( UODBCINT64 ) && ! defined( SIZEOF_LONG_INT )
typedef unsigned char SQLTCHAR;
typedef long SQLLEN;
typedef unsigned long SQLULEN;
#ifndef SQL_WCHAR
#define SQL_WCHAR ( -8 )
#endif
#ifndef SQL_WVARCHAR
#define SQL_WVARCHAR ( -9 )
#endif
#ifndef SQL_WLONGVARCHAR
#define SQL_WLONGVARCHAR ( -10 )
#endif
#endif
#endif
#if defined( UNICODE )
#define O_HB_ARRAYGETSTR( arr, n, phstr, plen ) hb_arrayGetStrU16( arr, n, HB_CDP_ENDIAN_NATIVE, phstr, plen )
#define O_HB_ITEMCOPYSTR( itm, str, len ) hb_itemCopyStrU16( itm, HB_CDP_ENDIAN_NATIVE, str, len )
#define O_HB_ITEMGETSTR( itm, phstr, plen ) hb_itemGetStrU16( itm, HB_CDP_ENDIAN_NATIVE, phstr, plen )
#define O_HB_ITEMPUTSTR( itm, str ) hb_itemPutStrU16( itm, HB_CDP_ENDIAN_NATIVE, str )
#define O_HB_ITEMPUTSTRLEN( itm, str, len ) hb_itemPutStrLenU16( itm, HB_CDP_ENDIAN_NATIVE, str, len )
#define O_HB_CHARDUP( str ) hb_osStrU16Encode( str )
#define O_HB_OSSTRDUP( str ) hb_osStrU16Decode( str )
#define O_HB_STRLEN( str ) hb_wstrlen( str )
#define O_HB_CHAR HB_WCHAR
#else
#define O_HB_ARRAYGETSTR( arr, n, phstr, plen ) hb_arrayGetStr( arr, n, hb_setGetOSCP(), phstr, plen )
#define O_HB_ITEMCOPYSTR( itm, str, len ) hb_itemCopyStr( itm, hb_setGetOSCP(), str, len )
#define O_HB_ITEMGETSTR( itm, phstr, plen ) hb_itemGetStr( itm, hb_setGetOSCP(), phstr, plen )
#define O_HB_ITEMPUTSTR( itm, str ) hb_itemPutStr( itm, hb_setGetOSCP(), str )
#define O_HB_ITEMPUTSTRLEN( itm, str, len ) hb_itemPutStrLen( itm, hb_setGetOSCP(), str, len )
#define O_HB_CHARDUP( str ) hb_osStrEncode( str )
#define O_HB_OSSTRDUP( str ) hb_osStrDecode( str )
#define O_HB_STRLEN( str ) strlen( str )
#define O_HB_CHAR char
#endif
typedef struct
{
SQLHENV hEnv;
SQLHDBC hConn;
} SDDCONN;
typedef struct
{
SQLHSTMT hStmt;
} SDDDATA;
static HB_ERRCODE odbcConnect( SQLDDCONNECTION * pConnection, PHB_ITEM pItem );
static HB_ERRCODE odbcDisconnect( SQLDDCONNECTION * pConnection );
static HB_ERRCODE odbcExecute( SQLDDCONNECTION * pConnection, PHB_ITEM pItem );
static HB_ERRCODE odbcOpen( SQLBASEAREAP pArea );
static HB_ERRCODE odbcClose( SQLBASEAREAP pArea );
static HB_ERRCODE odbcGoTo( SQLBASEAREAP pArea, HB_ULONG ulRecNo );
static SDDNODE s_odbcdd =
{
NULL,
"ODBC",
( SDDFUNC_CONNECT ) odbcConnect,
( SDDFUNC_DISCONNECT ) odbcDisconnect,
( SDDFUNC_EXECUTE ) odbcExecute,
( SDDFUNC_OPEN ) odbcOpen,
( SDDFUNC_CLOSE ) odbcClose,
( SDDFUNC_GOTO ) odbcGoTo,
( SDDFUNC_GETVALUE ) NULL,
( SDDFUNC_GETVARLEN ) NULL
};
static void hb_odbcdd_init( void * cargo )
{
HB_SYMBOL_UNUSED( cargo );
if( ! hb_sddRegister( &s_odbcdd ) )
hb_errInternal( HB_EI_RDDINVALID, NULL, NULL, NULL );
}
HB_FUNC( HB_SDDODBC_REGISTER )
{
hb_odbcdd_init( NULL );
}
/* force SQLBASE linking */
HB_FUNC_TRANSLATE( SDDODBC, SQLBASE )
HB_INIT_SYMBOLS_BEGIN( odbcdd__InitSymbols )
{
"SDDODBC", { HB_FS_PUBLIC }, { HB_FUNCNAME( SDDODBC ) }, NULL
},
HB_INIT_SYMBOLS_END( odbcdd__InitSymbols )
HB_CALL_ON_STARTUP_BEGIN( _hb_odbcdd_init_ )
hb_vmAtInit( hb_odbcdd_init, NULL );
HB_CALL_ON_STARTUP_END( _hb_odbcdd_init_ )
#if defined( HB_PRAGMA_STARTUP )
#pragma startup odbcdd__InitSymbols
#pragma startup _hb_odbcdd_init_
#elif defined( HB_DATASEG_STARTUP )
#define HB_DATASEG_BODY \
HB_DATASEG_FUNC( odbcdd__InitSymbols ) \
HB_DATASEG_FUNC( _hb_odbcdd_init_ )
#include "hbiniseg.h"
#endif
/* --- */
static HB_USHORT hb_errRT_ODBCDD( HB_ERRCODE errGenCode, HB_ERRCODE errSubCode, const char * szDescription, const char * szOperation, HB_ERRCODE errOsCode )
{
HB_USHORT uiAction;
PHB_ITEM pError;
pError = hb_errRT_New( ES_ERROR, "SDDODBC", errGenCode, errSubCode, szDescription, szOperation, errOsCode, EF_NONE );
uiAction = hb_errLaunch( pError );
hb_itemRelease( pError );
return uiAction;
}
static char * odbcGetError( SQLHENV hEnv, SQLHDBC hConn, SQLHSTMT hStmt, HB_ERRCODE * pErrCode )
{
SQLTCHAR szError[ 6 + SQL_MAX_MESSAGE_LENGTH ];
SQLINTEGER iNativeErr = 9999;
SQLSMALLINT iLen;
char * szRet;
if( SQL_SUCCEEDED( SQLError( hEnv, hConn, hStmt, szError, &iNativeErr, szError + 6, SQL_MAX_MESSAGE_LENGTH, &iLen ) ) )
{
PHB_ITEM pRet;
szError[ 5 ] = ' ';
pRet = O_HB_ITEMPUTSTR( NULL, ( O_HB_CHAR * ) szError );
szRet = hb_strdup( hb_itemGetCPtr( pRet ) );
hb_itemRelease( pRet );
}
else
szRet = hb_strdup( "HY000 Could not get the error message" );
if( pErrCode )
*pErrCode = ( HB_ERRCODE ) iNativeErr;
return szRet;
}
/* --- SDD METHODS --- */
static HB_ERRCODE odbcConnect( SQLDDCONNECTION * pConnection, PHB_ITEM pItem )
{
SQLHENV hEnv = NULL;
SQLHDBC hConnect = NULL;
char * szError;
HB_ERRCODE errCode;
#if ODBCVER >= 0x0300
if( SQL_SUCCEEDED( SQLAllocHandle( SQL_HANDLE_ENV, SQL_NULL_HANDLE, &hEnv ) ) )
#else
if( SQL_SUCCEEDED( SQLAllocEnv( &hEnv ) ) )
#endif
{
#if ODBCVER >= 0x0300
SQLSetEnvAttr( hEnv, SQL_ATTR_ODBC_VERSION, ( SQLPOINTER ) SQL_OV_ODBC3, SQL_IS_UINTEGER );
#endif
#if ODBCVER >= 0x0300
if( SQL_SUCCEEDED( SQLAllocHandle( SQL_HANDLE_DBC, hEnv, &hConnect ) ) )
#else
if( SQL_SUCCEEDED( SQLAllocConnect( hEnv, &hConnect ) ) )
#endif
{
const O_HB_CHAR * pchConStr;
void * hConnStr;
HB_SIZE nConnLen;
SQLTCHAR cBuffer[ 1024 ];
SQLSMALLINT iLen = HB_SIZEOFARRAY( cBuffer );
cBuffer[ 0 ] = '\0';
pchConStr = O_HB_ARRAYGETSTR( pItem, 2, &hConnStr, &nConnLen );
if( SQL_SUCCEEDED( SQLDriverConnect( hConnect,
NULL,
( SQLTCHAR * ) HB_UNCONST( pchConStr ),
( SQLSMALLINT ) nConnLen,
cBuffer,
HB_SIZEOFARRAY( cBuffer ),
&iLen,
SQL_DRIVER_NOPROMPT ) ) )
{
hb_strfree( hConnStr );
pConnection->pSDDConn = hb_xgrab( sizeof( SDDCONN ) );
( ( SDDCONN * ) pConnection->pSDDConn )->hConn = hConnect;
( ( SDDCONN * ) pConnection->pSDDConn )->hEnv = hEnv;
return HB_SUCCESS;
}
else
{
hb_strfree( hConnStr );
szError = odbcGetError( hEnv, hConnect, SQL_NULL_HSTMT, &errCode );
hb_rddsqlSetError( errCode, szError, NULL, NULL, 0 );
hb_xfree( szError );
}
#if ODBCVER >= 0x0300
SQLFreeHandle( SQL_HANDLE_DBC, hConnect );
#else
SQLFreeConnect( hConnect );
#endif
}
else
{
szError = odbcGetError( hEnv, SQL_NULL_HDBC, SQL_NULL_HSTMT, &errCode );
hb_errRT_ODBCDD( EG_OPEN, ESQLDD_CONNALLOC, szError, hb_arrayGetCPtr( pItem, 2 ), errCode );
hb_xfree( szError );
}
#if ODBCVER >= 0x0300
SQLFreeHandle( SQL_HANDLE_ENV, hEnv );
#else
SQLFreeEnv( hEnv );
#endif
}
else
{
szError = odbcGetError( SQL_NULL_HENV, SQL_NULL_HDBC, SQL_NULL_HSTMT, &errCode );
hb_errRT_ODBCDD( EG_OPEN, ESQLDD_ENVALLOC, szError, hb_arrayGetCPtr( pItem, 2 ), errCode );
hb_xfree( szError );
}
return HB_FAILURE;
}
static HB_ERRCODE odbcDisconnect( SQLDDCONNECTION * pConnection )
{
SDDCONN * pSDDConn = ( SDDCONN * ) pConnection->pSDDConn;
SQLDisconnect( pSDDConn->hConn );
#if ODBCVER >= 0x0300
SQLFreeHandle( SQL_HANDLE_DBC, pSDDConn->hConn );
SQLFreeHandle( SQL_HANDLE_ENV, pSDDConn->hEnv );
#else
SQLFreeConnect( pSDDConn->hConn );
SQLFreeEnv( pSDDConn->hEnv );
#endif
hb_xfree( pSDDConn );
return HB_SUCCESS;
}
static HB_ERRCODE odbcExecute( SQLDDCONNECTION * pConnection, PHB_ITEM pItem )
{
SDDCONN * pSDDConn = ( SDDCONN * ) pConnection->pSDDConn;
const O_HB_CHAR * pchStatement;
void * hStatement;
HB_SIZE nStatementLen;
SQLHSTMT hStmt;
SQLLEN iCount;
char * szError;
HB_ERRCODE errCode;
SQLRETURN result;
#if ODBCVER >= 0x0300
if( ! SQL_SUCCEEDED( SQLAllocHandle( SQL_HANDLE_STMT, pSDDConn->hConn, &hStmt ) ) )
#else
if( ! SQL_SUCCEEDED( SQLAllocStmt( pSDDConn->hConn, &hStmt ) ) )
#endif
{
szError = odbcGetError( pSDDConn->hEnv, pSDDConn->hConn, SQL_NULL_HSTMT, &errCode );
hb_errRT_ODBCDD( EG_OPEN, ESQLDD_STMTALLOC, szError, hb_itemGetCPtr( pItem ), errCode );
hb_xfree( szError );
return HB_FAILURE;
}
pchStatement = O_HB_ITEMGETSTR( pItem, &hStatement, &nStatementLen );
result = SQLExecDirect( hStmt,
( SQLTCHAR * ) HB_UNCONST( pchStatement ),
( SQLINTEGER ) nStatementLen );
hb_strfree( hStatement );
if( SQL_SUCCEEDED( result ) )
{
if( SQL_SUCCEEDED( SQLRowCount( hStmt, &iCount ) ) )
{
/* TODO: new id */
hb_rddsqlSetError( 0, NULL, hb_itemGetCPtr( pItem ), NULL, ( unsigned long ) iCount );
#if ODBCVER >= 0x0300
SQLFreeHandle( SQL_HANDLE_STMT, hStmt );
#else
SQLFreeStmt( hStmt, SQL_DROP );
#endif
return HB_SUCCESS;
}
}
szError = odbcGetError( pSDDConn->hEnv, pSDDConn->hConn, hStmt, &errCode );
hb_rddsqlSetError( errCode, szError, hb_itemGetCPtr( pItem ), NULL, errCode );
hb_xfree( szError );
#if ODBCVER >= 0x0300
SQLFreeHandle( SQL_HANDLE_STMT, hStmt );
#else
SQLFreeStmt( hStmt, SQL_DROP );
#endif
return HB_FAILURE;
}
static HB_ERRCODE odbcOpen( SQLBASEAREAP pArea )
{
SDDCONN * pSDDConn = ( SDDCONN * ) pArea->pConnection->pSDDConn;
SDDDATA * pSDDData;
O_HB_CHAR * pchQuery;
SQLHSTMT hStmt;
SQLSMALLINT iNameLen;
PHB_ITEM pItemEof, pItem;
HB_BOOL bError;
HB_USHORT uiFields, uiIndex;
HB_ERRCODE errCode;
char * szError;
SQLRETURN result;
pArea->pSDDData = memset( hb_xgrab( sizeof( SDDDATA ) ), 0, sizeof( SDDDATA ) );
pSDDData = ( SDDDATA * ) pArea->pSDDData;
#if ODBCVER >= 0x0300
if( ! SQL_SUCCEEDED( SQLAllocHandle( SQL_HANDLE_STMT, pSDDConn->hConn, &hStmt ) ) )
#else
if( ! SQL_SUCCEEDED( SQLAllocStmt( pSDDConn->hConn, &hStmt ) ) )
#endif
{
szError = odbcGetError( pSDDConn->hEnv, pSDDConn->hConn, SQL_NULL_HSTMT, &errCode );
hb_errRT_ODBCDD( EG_OPEN, ESQLDD_STMTALLOC, szError, pArea->szQuery, errCode );
hb_xfree( szError );
return HB_FAILURE;
}
pchQuery = O_HB_CHARDUP( pArea->szQuery );
result = SQLExecDirect( hStmt,
( SQLTCHAR * ) HB_UNCONST( pchQuery ),
( SQLINTEGER ) O_HB_STRLEN( pchQuery ) );
hb_xfree( pchQuery );
if( ! SQL_SUCCEEDED( result ) )
{
szError = odbcGetError( pSDDConn->hEnv, pSDDConn->hConn, hStmt, &errCode );
#if ODBCVER >= 0x0300
SQLFreeHandle( SQL_HANDLE_STMT, hStmt );
#else
SQLFreeStmt( hStmt, SQL_DROP );
#endif
hb_errRT_ODBCDD( EG_OPEN, ESQLDD_INVALIDQUERY, szError, pArea->szQuery, errCode );
hb_xfree( szError );
return HB_FAILURE;
}
if( ! SQL_SUCCEEDED( SQLNumResultCols( hStmt, &iNameLen ) ) )
{
szError = odbcGetError( pSDDConn->hEnv, pSDDConn->hConn, hStmt, &errCode );
#if ODBCVER >= 0x0300
SQLFreeHandle( SQL_HANDLE_STMT, hStmt );
#else
SQLFreeStmt( hStmt, SQL_DROP );
#endif
hb_errRT_ODBCDD( EG_OPEN, ESQLDD_STMTDESCR + 1000, szError, pArea->szQuery, errCode );
hb_xfree( szError );
return HB_FAILURE;
}
uiFields = ( HB_USHORT ) iNameLen;
SELF_SETFIELDEXTENT( &pArea->area, uiFields );
pItemEof = hb_itemArrayNew( uiFields );
pItem = hb_itemNew( NULL );
#if 0
HB_TRACE( HB_TR_ALWAYS, ( "fieldcount=%d", iNameLen ) );
#endif
errCode = 0;
bError = HB_FALSE;
for( uiIndex = 0; uiIndex < uiFields; uiIndex++ )
{
DBFIELDINFO dbFieldInfo;
char * pszName;
SQLTCHAR cName[ 256 ];
SQLULEN uiSize;
SQLSMALLINT iDataType, iDec, iNull;
if( ! SQL_SUCCEEDED( SQLDescribeCol( hStmt, ( SQLSMALLINT ) uiIndex + 1,
cName, HB_SIZEOFARRAY( cName ),
&iNameLen, &iDataType, &uiSize, &iDec, &iNull ) ) )
{
hb_itemRelease( pItemEof );
hb_itemRelease( pItem );
szError = odbcGetError( pSDDConn->hEnv, pSDDConn->hConn, hStmt, NULL );
#if ODBCVER >= 0x0300
SQLFreeHandle( SQL_HANDLE_STMT, hStmt );
#else
SQLFreeStmt( hStmt, SQL_DROP );
#endif
hb_errRT_ODBCDD( EG_OPEN, ESQLDD_STMTDESCR + 1001, szError, pArea->szQuery, 0 );
hb_xfree( szError );
return HB_FAILURE;
}
memset( &dbFieldInfo, 0, sizeof( dbFieldInfo ) );
dbFieldInfo.atomName = pszName = O_HB_OSSTRDUP( ( O_HB_CHAR * ) cName );
/*
We do mapping of many SQL types to one Harbour field type here, so, we need store
real SQL type in uiTypeExtended. SQL types are signed, so, HB_USHORT type casting
is a little hackish. We need to remember use this casting also in expressions like
this:
if( pField->uiTypeExtended == ( HB_USHORT ) SQL_BIGINT )
or introduce our own unsigned SQL types.
[Mindaugas]
*/
dbFieldInfo.uiTypeExtended = ( HB_USHORT ) iDataType;
dbFieldInfo.uiLen = ( HB_USHORT ) uiSize;
dbFieldInfo.uiDec = iDec;
if( iNull == SQL_NULLABLE )
dbFieldInfo.uiFlags |= HB_FF_NULLABLE;
#if 0
HB_TRACE( HB_TR_ALWAYS, ( "field: name=%s type=%d len=%d dec=%d null=%d", dbFieldInfo.atomName, iDataType, uiSize, iDec, iNull ) );
#endif
switch( iDataType )
{
case SQL_CHAR:
case SQL_VARCHAR:
case SQL_LONGVARCHAR:
dbFieldInfo.uiType = HB_FT_STRING;
break;
case SQL_WCHAR:
case SQL_WVARCHAR:
case SQL_WLONGVARCHAR:
dbFieldInfo.uiType = HB_FT_STRING;
dbFieldInfo.uiFlags |= HB_FF_UNICODE;
break;
case SQL_BINARY:
case SQL_VARBINARY:
case SQL_LONGVARBINARY:
dbFieldInfo.uiType = HB_FT_STRING;
dbFieldInfo.uiFlags |= HB_FF_BINARY;
break;
case SQL_TINYINT:
case SQL_SMALLINT:
case SQL_INTEGER:
case SQL_BIGINT:
dbFieldInfo.uiType = HB_FT_INTEGER;
break;
case SQL_DECIMAL:
case SQL_NUMERIC:
dbFieldInfo.uiType = HB_FT_LONG;
break;
case SQL_REAL:
case SQL_FLOAT:
case SQL_DOUBLE:
dbFieldInfo.uiType = HB_FT_DOUBLE;
break;
case SQL_BIT:
dbFieldInfo.uiType = HB_FT_LOGICAL;
break;
case SQL_DATE:
#if ODBCVER >= 0x0300
case SQL_TYPE_DATE:
#endif
dbFieldInfo.uiType = HB_FT_DATE;
break;
case SQL_TIME:
#if ODBCVER >= 0x0300
case SQL_TYPE_TIME:
#endif
dbFieldInfo.uiType = HB_FT_TIME;
break;
/* SQL_DATETIME = SQL_DATE = 9 */
case SQL_TIMESTAMP:
#if ODBCVER >= 0x0300
case SQL_TYPE_TIMESTAMP:
#endif
dbFieldInfo.uiType = HB_FT_TIMESTAMP;
break;
default:
#if 0
HB_TRACE( HB_TR_ALWAYS, ( "new sql type=%d", iDataType ) );
#endif
bError = HB_TRUE;
errCode = ( HB_ERRCODE ) iDataType;
break;
}
if( ! bError )
{
switch( dbFieldInfo.uiType )
{
case HB_FT_STRING:
{
char * pStr;
pStr = ( char * ) hb_xgrab( ( HB_SIZE ) dbFieldInfo.uiLen + 1 );
memset( pStr, ' ', dbFieldInfo.uiLen );
pStr[ dbFieldInfo.uiLen ] = '\0';
hb_itemPutCL( pItem, pStr, dbFieldInfo.uiLen );
hb_xfree( pStr );
break;
}
case HB_FT_MEMO:
hb_itemPutC( pItem, NULL );
break;
case HB_FT_INTEGER:
hb_itemPutNI( pItem, 0 );
break;
case HB_FT_LONG:
if( dbFieldInfo.uiDec == 0 )
hb_itemPutNLLen( pItem, 0, dbFieldInfo.uiLen );
else
hb_itemPutNDLen( pItem, 0.0, dbFieldInfo.uiLen, dbFieldInfo.uiDec );
break;
case HB_FT_DOUBLE:
hb_itemPutNDLen( pItem, 0.0, dbFieldInfo.uiLen, dbFieldInfo.uiDec );
break;
case HB_FT_LOGICAL:
hb_itemPutL( pItem, HB_FALSE );
break;
case HB_FT_DATE:
hb_itemPutDL( pItem, 0 );
break;
case HB_FT_TIME:
hb_itemPutTDT( pItem, 0, 0 );
break;
case HB_FT_TIMESTAMP:
hb_itemPutTDT( pItem, 0, 0 );
break;
default:
hb_itemClear( pItem );
bError = HB_TRUE;
break;
}
hb_arraySetForward( pItemEof, uiIndex + 1, pItem );
if( ! bError )
bError = ( SELF_ADDFIELD( &pArea->area, &dbFieldInfo ) == HB_FAILURE );
hb_xfree( pszName );
}
if( bError )
break;
}
hb_itemRelease( pItem );
if( bError )
{
hb_itemRelease( pItemEof );
#if ODBCVER >= 0x0300
SQLFreeHandle( SQL_HANDLE_STMT, hStmt );
#else
SQLFreeStmt( hStmt, SQL_DROP );
#endif
hb_errRT_ODBCDD( EG_CORRUPTION, ESQLDD_INVALIDFIELD, "Invalid field type", pArea->szQuery, errCode );
return HB_FAILURE;
}
pArea->ulRecCount = 0;
pArea->ulRecMax = SQLDD_ROWSET_INIT;
pArea->pRow = ( void ** ) hb_xgrab( SQLDD_ROWSET_INIT * sizeof( void * ) );
pArea->pRowFlags = ( HB_BYTE * ) hb_xgrab( SQLDD_ROWSET_INIT * sizeof( HB_BYTE ) );
pArea->pRow[ 0 ] = pItemEof;
pArea->pRowFlags[ 0 ] = SQLDD_FLAG_CACHED;
pSDDData->hStmt = hStmt;
return HB_SUCCESS;
}
static HB_ERRCODE odbcClose( SQLBASEAREAP pArea )
{
SDDDATA * pSDDData = ( SDDDATA * ) pArea->pSDDData;
if( pSDDData )
{
if( pSDDData->hStmt )
#if ODBCVER >= 0x0300
SQLFreeHandle( SQL_HANDLE_STMT, pSDDData->hStmt );
#else
SQLFreeStmt( pSDDData->hStmt, SQL_DROP );
#endif
hb_xfree( pSDDData );
pArea->pSDDData = NULL;
}
return HB_SUCCESS;
}
static HB_ERRCODE odbcGoTo( SQLBASEAREAP pArea, HB_ULONG ulRecNo )
{
SQLHSTMT hStmt;
SQLRETURN res;
SQLLEN iLen;
PHB_ITEM pArray, pItem;
LPFIELD pField;
HB_USHORT ui;
/* No pArea->pSDDData for DBCreate() area...
* though pArea->fFetched == HB_TRUE for them
*/
hStmt = pArea->pSDDData ? ( ( SDDDATA * ) pArea->pSDDData )->hStmt : NULL;
while( ulRecNo > pArea->ulRecCount && ! pArea->fFetched )
{
if( ! SQL_SUCCEEDED( SQLFetch( hStmt ) ) )
{
pArea->fFetched = HB_TRUE;
break;
}
pArray = hb_itemArrayNew( pArea->area.uiFieldCount );
pItem = NULL;
for( ui = 1; ui <= pArea->area.uiFieldCount; ui++ )
{
iLen = SQL_NULL_DATA;
res = 0;
pField = pArea->area.lpFields + ui - 1;
switch( pField->uiType )
{
case HB_FT_STRING:
if( pField->uiType & HB_FF_BINARY )
{
char buffer[ 1 ];
iLen = 0;
if( SQL_SUCCEEDED( res = SQLGetData( hStmt, ui, SQL_C_BINARY, buffer, 0, &iLen ) ) )
{
if( iLen >= 0 )
{
char * val = ( char * ) hb_xgrab( iLen + 1 );
if( SQL_SUCCEEDED( res = SQLGetData( hStmt, ui, SQL_C_BINARY, val, iLen + 1, &iLen ) ) )
pItem = hb_itemPutCLPtr( pItem, val, ( HB_SIZE ) iLen );
else
hb_xfree( val );
}
}
}
else
{
O_HB_CHAR buffer[ 1 ];
#if defined( UNICODE )
SQLSMALLINT iTargetType = SQL_C_WCHAR;
#else
SQLSMALLINT iTargetType = SQL_C_CHAR;
#endif
iLen = 0;
if( SQL_SUCCEEDED( res = SQLGetData( hStmt, ui, iTargetType, buffer, 0, &iLen ) ) )
{
if( iLen >= 0 )
{
O_HB_CHAR * val = ( O_HB_CHAR * ) hb_xgrab( iLen + sizeof( O_HB_CHAR ) );
if( SQL_SUCCEEDED( res = SQLGetData( hStmt, ui, iTargetType, val, iLen + sizeof( O_HB_CHAR ), &iLen ) ) )
{
#if defined( UNICODE )
iLen >>= 1;
#endif
pItem = O_HB_ITEMPUTSTRLEN( pItem, val, ( HB_SIZE ) iLen );
}
hb_xfree( val );
}
}
}
break;
case HB_FT_INTEGER:
#if ODBCVER >= 0x0300
if( pField->uiTypeExtended == ( HB_USHORT ) SQL_BIGINT )
{
HB_I64 val = 0;
/* NOTE: SQL_C_SBIGINT not available before ODBC 3.0 */
if( SQL_SUCCEEDED( res = SQLGetData( hStmt, ui, SQL_C_SBIGINT, &val, sizeof( val ), &iLen ) ) )
pItem = hb_itemPutNIntLen( pItem, val, pField->uiLen );
}
else
#endif
{
SQLINTEGER val = 0;
if( SQL_SUCCEEDED( res = SQLGetData( hStmt, ui, SQL_C_LONG, &val, sizeof( val ), &iLen ) ) )
pItem = hb_itemPutNLLen( pItem, val, pField->uiLen );
}
break;
case HB_FT_LONG:
if( pField->uiDec == 0 && pField->uiLen < 10 )
{
SQLINTEGER val = 0;
if( SQL_SUCCEEDED( res = SQLGetData( hStmt, ui, SQL_C_LONG, &val, sizeof( val ), &iLen ) ) )
pItem = hb_itemPutNLLen( pItem, val, pField->uiLen );
}
else
{
double val = 0.0;
if( SQL_SUCCEEDED( res = SQLGetData( hStmt, ui, SQL_C_DOUBLE, &val, sizeof( val ), &iLen ) ) )
pItem = hb_itemPutNDLen( pItem, val, pField->uiLen, pField->uiDec );
}
break;
case HB_FT_DOUBLE:
{
double val = 0.0;
if( SQL_SUCCEEDED( res = SQLGetData( hStmt, ui, SQL_C_DOUBLE, &val, sizeof( val ), &iLen ) ) )
pItem = hb_itemPutNDLen( pItem, val, pField->uiLen, pField->uiDec );
break;
}
case HB_FT_LOGICAL:
{
unsigned char val = 0;
if( SQL_SUCCEEDED( res = SQLGetData( hStmt, ui, SQL_C_BIT, &val, sizeof( val ), &iLen ) ) )
pItem = hb_itemPutL( pItem, val != 0 );
break;
}
case HB_FT_DATE:
{
DATE_STRUCT val = { 0, 0, 0 };
if( SQL_SUCCEEDED( res = SQLGetData( hStmt, ui, SQL_C_DATE, &val, sizeof( val ), &iLen ) ) )
pItem = hb_itemPutD( pItem, val.year, val.month, val.day );
break;
}
case HB_FT_TIME:
{
TIME_STRUCT val = { 0, 0, 0 };
if( SQL_SUCCEEDED( res = SQLGetData( hStmt, ui, SQL_C_TIME, &val, sizeof( val ), &iLen ) ) )
pItem = hb_itemPutTDT( pItem, 0, hb_timeEncode( val.hour, val.minute, val.second, 0 ) );
break;
}
case HB_FT_TIMESTAMP:
{
TIMESTAMP_STRUCT val = { 0, 0, 0, 0, 0, 0, 0 };
if( SQL_SUCCEEDED( res = SQLGetData( hStmt, ui, SQL_C_TIMESTAMP, &val, sizeof( val ), &iLen ) ) )
pItem = hb_itemPutTDT( pItem, hb_dateEncode( val.year, val.month, val.day ),
hb_timeEncode( val.hour, val.minute, val.second, val.fraction / 1000000 ) );
break;
}
}
/* TODO: check SQL_SUCCEEDED( res ) */
/* TODO: check for SQL_NO_TOTAL. What does this mean? */
HB_SYMBOL_UNUSED( res );
if( pItem )
{
/* NULL -> NIL */
if( iLen == SQL_NULL_DATA )
hb_itemClear( pItem );
else
hb_arraySetForward( pArray, ui, pItem );
}
}
if( pItem )
hb_itemRelease( pItem );
if( pArea->ulRecCount + 1 >= pArea->ulRecMax )
{
pArea->pRow = ( void ** ) hb_xrealloc( pArea->pRow, ( pArea->ulRecMax + SQLDD_ROWSET_RESIZE ) * sizeof( void * ) );
pArea->pRowFlags = ( HB_BYTE * ) hb_xrealloc( pArea->pRowFlags, ( pArea->ulRecMax + SQLDD_ROWSET_RESIZE ) * sizeof( HB_BYTE ) );
pArea->ulRecMax += SQLDD_ROWSET_RESIZE;
}
pArea->ulRecCount++;
pArea->pRow[ pArea->ulRecCount ] = pArray;
pArea->pRowFlags[ pArea->ulRecCount ] = SQLDD_FLAG_CACHED;
}
if( ulRecNo == 0 || ulRecNo > pArea->ulRecCount )
{
pArea->pRecord = pArea->pRow[ 0 ];
pArea->bRecordFlags = pArea->pRowFlags[ 0 ];
pArea->fPositioned = HB_FALSE;
}
else
{
pArea->pRecord = pArea->pRow[ ulRecNo ];
pArea->bRecordFlags = pArea->pRowFlags[ ulRecNo ];
pArea->fPositioned = HB_TRUE;
}
return HB_SUCCESS;
}
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