/* * $Id$ */ /* * xHarbour Project source code: * DBFDBT RDD * * Copyright 2003 Przemyslaw Czerpak * www - http://www.xharbour.org * Most of code taken from dbf1.c * Copyright 1999 Bruno Cantero * www - http://www.harbour-project.org * * 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 software; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 59 Temple Place, Suite 330, * Boston, MA 02111-1307 USA (or visit the web site http://www.gnu.org/). * * 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 "hbapi.h" #include "hbapiitm.h" #include "hbinit.h" #include "hbapierr.h" #include "hbapilng.h" #include "hbset.h" #include "hbvm.h" #include "hbdate.h" #include "hbrdddbt.h" #include "rddsys.ch" #ifndef HB_CDP_SUPPORT_OFF # include "hbapicdp.h" #endif static RDDFUNCS dbtSuper; static RDDFUNCS dbtTable = { /* Movement and positioning methods */ ( DBENTRYP_BP ) hb_dbtBof, ( DBENTRYP_BP ) hb_dbtEof, ( DBENTRYP_BP ) hb_dbtFound, ( DBENTRYP_V ) hb_dbtGoBottom, ( DBENTRYP_UL ) hb_dbtGoTo, ( DBENTRYP_I ) hb_dbtGoToId, ( DBENTRYP_V ) hb_dbtGoTop, ( DBENTRYP_BIB ) hb_dbtSeek, ( DBENTRYP_L ) hb_dbtSkip, ( DBENTRYP_L ) hb_dbtSkipFilter, ( DBENTRYP_L ) hb_dbtSkipRaw, /* Data management */ ( DBENTRYP_VF ) hb_dbtAddField, ( DBENTRYP_B ) hb_dbtAppend, ( DBENTRYP_I ) hb_dbtCreateFields, ( DBENTRYP_V ) hb_dbtDeleteRec, ( DBENTRYP_BP ) hb_dbtDeleted, ( DBENTRYP_SP ) hb_dbtFieldCount, ( DBENTRYP_VF ) hb_dbtFieldDisplay, ( DBENTRYP_SSI ) hb_dbtFieldInfo, ( DBENTRYP_SVP ) hb_dbtFieldName, ( DBENTRYP_V ) hb_dbtFlush, ( DBENTRYP_PP ) hb_dbtGetRec, ( DBENTRYP_SI ) hb_dbtGetValue, ( DBENTRYP_SVL ) hb_dbtGetVarLen, ( DBENTRYP_V ) hb_dbtGoCold, ( DBENTRYP_V ) hb_dbtGoHot, ( DBENTRYP_P ) hb_dbtPutRec, ( DBENTRYP_SI ) hb_dbtPutValue, ( DBENTRYP_V ) hb_dbtRecall, ( DBENTRYP_ULP ) hb_dbtRecCount, ( DBENTRYP_ISI ) hb_dbtRecInfo, ( DBENTRYP_ULP ) hb_dbtRecNo, ( DBENTRYP_I ) hb_dbtRecId, ( DBENTRYP_S ) hb_dbtSetFieldExtent, /* WorkArea/Database management */ ( DBENTRYP_P ) hb_dbtAlias, ( DBENTRYP_V ) hb_dbtClose, ( DBENTRYP_VP ) hb_dbtCreate, ( DBENTRYP_SI ) hb_dbtInfo, ( DBENTRYP_V ) hb_dbtNewArea, ( DBENTRYP_VP ) hb_dbtOpen, ( DBENTRYP_V ) hb_dbtRelease, ( DBENTRYP_SP ) hb_dbtStructSize, ( DBENTRYP_P ) hb_dbtSysName, ( DBENTRYP_VEI ) hb_dbtEval, ( DBENTRYP_V ) hb_dbtPack, ( DBENTRYP_LSP ) hb_dbtPackRec, ( DBENTRYP_VS ) hb_dbtSort, ( DBENTRYP_VT ) hb_dbtTrans, ( DBENTRYP_VT ) hb_dbtTransRec, ( DBENTRYP_V ) hb_dbtZap, /* Relational Methods */ ( DBENTRYP_VR ) hb_dbtChildEnd, ( DBENTRYP_VR ) hb_dbtChildStart, ( DBENTRYP_VR ) hb_dbtChildSync, ( DBENTRYP_V ) hb_dbtSyncChildren, ( DBENTRYP_V ) hb_dbtClearRel, ( DBENTRYP_V ) hb_dbtForceRel, ( DBENTRYP_SVP ) hb_dbtRelArea, ( DBENTRYP_VR ) hb_dbtRelEval, ( DBENTRYP_SVP ) hb_dbtRelText, ( DBENTRYP_VR ) hb_dbtSetRel, /* Order Management */ ( DBENTRYP_OI ) hb_dbtOrderListAdd, ( DBENTRYP_V ) hb_dbtOrderListClear, ( DBENTRYP_OI ) hb_dbtOrderListDelete, ( DBENTRYP_OI ) hb_dbtOrderListFocus, ( DBENTRYP_V ) hb_dbtOrderListRebuild, ( DBENTRYP_VOI ) hb_dbtOrderCondition, ( DBENTRYP_VOC ) hb_dbtOrderCreate, ( DBENTRYP_OI ) hb_dbtOrderDestroy, ( DBENTRYP_OII ) hb_dbtOrderInfo, /* Filters and Scope Settings */ ( DBENTRYP_V ) hb_dbtClearFilter, ( DBENTRYP_V ) hb_dbtClearLocate, ( DBENTRYP_V ) hb_dbtClearScope, ( DBENTRYP_VPLP ) hb_dbtCountScope, ( DBENTRYP_I ) hb_dbtFilterText, ( DBENTRYP_SI ) hb_dbtScopeInfo, ( DBENTRYP_VFI ) hb_dbtSetFilter, ( DBENTRYP_VLO ) hb_dbtSetLocate, ( DBENTRYP_VOS ) hb_dbtSetScope, ( DBENTRYP_VPL ) hb_dbtSkipScope, ( DBENTRYP_B ) hb_dbtLocate, /* Miscellaneous */ ( DBENTRYP_P ) hb_dbtCompile, ( DBENTRYP_I ) hb_dbtError, ( DBENTRYP_I ) hb_dbtEvalBlock, /* Network operations */ ( DBENTRYP_VSP ) hb_dbtRawLock, ( DBENTRYP_VL ) hb_dbtLock, ( DBENTRYP_I ) hb_dbtUnLock, /* Memofile functions */ ( DBENTRYP_V ) hb_dbtCloseMemFile, ( DBENTRYP_VP ) hb_dbtCreateMemFile, ( DBENTRYP_SVPB ) hb_dbtGetValueFile, ( DBENTRYP_VP ) hb_dbtOpenMemFile, ( DBENTRYP_SVPB ) hb_dbtPutValueFile, /* Database file header handling */ ( DBENTRYP_V ) hb_dbtReadDBHeader, ( DBENTRYP_V ) hb_dbtWriteDBHeader, /* non WorkArea functions */ ( DBENTRYP_R ) hb_dbtInit, ( DBENTRYP_R ) hb_dbtExit, ( DBENTRYP_RVV ) hb_dbtDrop, ( DBENTRYP_RVV ) hb_dbtExists, ( DBENTRYP_RSLV ) hb_dbtRddInfo, /* Special and reserved methods */ ( DBENTRYP_SVP ) hb_dbtWhoCares }; /* * Exclusive lock memo file. */ static BOOL hb_dbtFileLockEx( DBTAREAP pArea ) { BOOL fRet; if ( !pArea->fShared ) { fRet = TRUE; } else { do { fRet = hb_fsLock( pArea->hMemoFile, DBT_LOCKPOS, DBT_LOCKSIZE, FL_LOCK | FLX_EXCLUSIVE | FLX_WAIT ); } while ( !fRet ); } return fRet; } /* * Shared lock memo file. */ static BOOL hb_dbtFileLockSh( DBTAREAP pArea ) { BOOL fRet; if ( !pArea->fShared ) { fRet = TRUE; } else { do { fRet = hb_fsLock( pArea->hMemoFile, DBT_LOCKPOS, DBT_LOCKSIZE, FL_LOCK | FLX_SHARED | FLX_WAIT ); } while ( !fRet ); } return fRet; } /* * Unlock memo file. */ static BOOL hb_dbtFileUnLock( DBTAREAP pArea ) { return !pArea->fShared || hb_fsLock( pArea->hMemoFile, DBT_LOCKPOS, DBT_LOCKSIZE, FL_UNLOCK ); } /* * Return the size of memo. */ static ULONG hb_dbtGetMemoLen( DBTAREAP pArea, USHORT uiIndex ) { ULONG ulBlock; BYTE pBlock[ DBT_BLOCKSIZE ]; USHORT uiLen; HB_TRACE(HB_TR_DEBUG, ("hb_dbtGetMemoLen(%p, %hu)", pArea, uiIndex)); ulBlock = hb_dbfGetMemoBlock( ( DBFAREAP ) pArea, uiIndex ); if( ulBlock == 0 ) return 0; hb_fsSeekLarge( pArea->hMemoFile, ( HB_FOFFSET ) ulBlock * DBT_BLOCKSIZE, FS_SET ); ulBlock = 0; do { uiIndex = 0; uiLen = hb_fsRead( pArea->hMemoFile, pBlock, DBT_BLOCKSIZE ); if ( uiLen == ( USHORT ) FS_ERROR ) break; while( uiIndex < uiLen && pBlock[ uiIndex ] != 0x1A ) uiIndex++; ulBlock += uiIndex; } while( uiIndex == DBT_BLOCKSIZE ); return ulBlock; } /* * Read memo data. */ static void hb_dbtGetMemo( DBTAREAP pArea, USHORT uiIndex, PHB_ITEM pItem ) { ULONG ulSize, ulBlock; BYTE * pBuffer; HB_TRACE(HB_TR_DEBUG, ("hb_dbtGetMemo(%p, %hu, %p)", pArea, uiIndex, pItem)); ulSize = hb_dbtGetMemoLen( pArea, uiIndex ); pBuffer = ( BYTE * ) hb_xgrab( ulSize + 1 ); if( ulSize > 0 ) { ulBlock = hb_dbfGetMemoBlock( ( DBFAREAP ) pArea, uiIndex ); hb_fsSeekLarge( pArea->hMemoFile, ( HB_FOFFSET ) ulBlock * DBT_BLOCKSIZE, FS_SET ); hb_fsReadLarge( pArea->hMemoFile, pBuffer, ulSize ); #ifndef HB_CDP_SUPPORT_OFF hb_cdpnTranslate( ( char * ) pBuffer, pArea->cdPage, hb_cdp_page, ulSize ); #endif } else *pBuffer = '\0'; hb_itemPutCPtr( pItem, ( char * ) pBuffer, ulSize ); hb_itemSetCMemo( pItem ); } /* * Write memo data. */ static void hb_dbtWriteMemo( DBTAREAP pArea, ULONG ulBlock, PHB_ITEM pItem, ULONG ulLen, ULONG * ulStoredBlock ) { BYTE pAddr[4]; BOOL bNewBlock; HB_TRACE(HB_TR_DEBUG, ("hb_dbtWriteMemo(%p, %lu, %p, %lu, %p)", pArea, ulBlock, pItem, ulLen, ulStoredBlock)); bNewBlock = !( ulBlock && ulLen < DBT_BLOCKSIZE - 1 ); if( bNewBlock ) { /* Get next block from header */ hb_fsSeek( pArea->hMemoFile, 0, FS_SET ); hb_fsRead( pArea->hMemoFile, pAddr, 4 ); ulBlock = HB_GET_LE_UINT32( pAddr ); } * ulStoredBlock = ulBlock; hb_fsSeekLarge( pArea->hMemoFile, ( HB_FOFFSET ) ulBlock * DBT_BLOCKSIZE, FS_SET ); #ifndef HB_CDP_SUPPORT_OFF if( hb_cdp_page != pArea->cdPage ) { BYTE * pBuff = ( BYTE * ) hb_xalloc( ulLen + 1 ); if( pBuff ) { memcpy( pBuff, pItem->item.asString.value, ulLen ); pBuff[ ulLen ] = 0x1A; hb_cdpnTranslate( ( char * ) pBuff, hb_cdp_page, pArea->cdPage, ulLen ); hb_fsWriteLarge( pArea->hMemoFile, pBuff, ulLen + 1 ); hb_xfree( pBuff ); } else { BYTE pBlock[ DBT_BLOCKSIZE ], *pSrc = ( BYTE * ) pItem->item.asString.value; ULONG ulWritten = 0, ulRest; do { ulRest = HB_MIN( ulLen - ulWritten, DBT_BLOCKSIZE ); memcpy( pBlock, pSrc + ulWritten, ulRest ); memset( pBlock + ulRest, 0x1A, DBT_BLOCKSIZE - ulRest ); hb_cdpnTranslate( ( char * ) pBlock, hb_cdp_page, pArea->cdPage, ulRest ); hb_fsWrite( pArea->hMemoFile, pBlock, DBT_BLOCKSIZE ); ulWritten += DBT_BLOCKSIZE; } while ( ulWritten <= ulLen ); } } else #endif { BYTE pBlock[ DBT_BLOCKSIZE ]; memset( pBlock, 0x1A, DBT_BLOCKSIZE ); hb_fsWriteLarge( pArea->hMemoFile, ( BYTE * ) pItem->item.asString.value, ulLen ); hb_fsWrite( pArea->hMemoFile, pBlock, ( DBT_BLOCKSIZE - ( USHORT ) ( ulLen % DBT_BLOCKSIZE ) ) ); } pArea->fMemoFlush = TRUE; if( bNewBlock ) { ulBlock += ( ulLen / DBT_BLOCKSIZE ) + 1; HB_PUT_LE_UINT32( pAddr, ulBlock ); hb_fsSeek( pArea->hMemoFile, 0, FS_SET ); hb_fsWrite( pArea->hMemoFile, pAddr, 4 ); pArea->fMemoFlush = TRUE; } } /* * Assign a value to the specified memo field. */ static BOOL hb_dbtPutMemo( DBTAREAP pArea, USHORT uiIndex, PHB_ITEM pItem ) { ULONG ulLen, ulBlock; HB_TRACE(HB_TR_DEBUG, ("hb_dbtPutMemo(%p, %hu, %p)", pArea, uiIndex, pItem)); ulLen = pItem->item.asString.length; if( ulLen > 0 ) { ulBlock = hb_dbfGetMemoBlock( ( DBFAREAP ) pArea, uiIndex ); hb_dbtWriteMemo( pArea, ulBlock, pItem, ulLen, &ulBlock ); } else ulBlock = 0; hb_dbfPutMemoBlock( ( DBFAREAP ) pArea, uiIndex, ulBlock ); return TRUE; } /* DBT METHODS */ /* * Obtain the length of a field value. * ( DBENTRYP_SVL ) hb_dbtGetVarLen */ static ERRCODE hb_dbtGetVarLen( DBTAREAP pArea, USHORT uiIndex, ULONG * pLength ) { BOOL bDeleted; HB_TRACE(HB_TR_DEBUG, ("hb_dbtGetVarLen(%p, %hu, %p)", pArea, uiIndex, pLength)); if( pArea->fHasMemo && pArea->hMemoFile != FS_ERROR ) { /* Force read record */ if( SELF_DELETED( ( AREAP ) pArea, &bDeleted ) == FAILURE ) return FAILURE; if( pArea->lpFields[ uiIndex - 1 ].uiType == HB_IT_MEMO ) { if( hb_dbtFileLockSh( pArea ) ) { * pLength = hb_dbtGetMemoLen( pArea, uiIndex - 1 ); hb_dbtFileUnLock( pArea ); } else { * pLength = 0; } return SUCCESS; } } return SUPER_GETVARLEN( ( AREAP ) pArea, uiIndex, pLength ); } /* * Retrieve information about the current driver. * ( DBENTRYP_SI ) hb_dbtInfo */ static ERRCODE hb_dbtInfo( DBTAREAP pArea, USHORT uiIndex, PHB_ITEM pItem ) { HB_TRACE(HB_TR_DEBUG, ("hb_dbtInfo(%p, %hu, %p)", pArea, uiIndex, pItem)); switch( uiIndex ) { case DBI_MEMOEXT: if( pArea->fHasMemo && pArea->hMemoFile != FS_ERROR ) { PHB_FNAME pFileName; pFileName = hb_fsFNameSplit( ( char * ) pArea->szMemoFileName ); hb_itemPutC( pItem, pFileName->szExtension ); hb_xfree( pFileName ); } else { hb_itemClear( pItem ); return SELF_RDDINFO( SELF_RDDNODE( pArea ), RDDI_MEMOEXT, 0, pItem ); } break; case DBI_MEMOBLOCKSIZE: if( pArea->fHasMemo && pArea->hMemoFile != FS_ERROR ) hb_itemPutNI( pItem, pArea->uiMemoBlockSize ); else hb_itemPutNI( pItem, DBT_BLOCKSIZE ); break; case DBI_MEMOTYPE: if( pArea->fHasMemo && pArea->hMemoFile != FS_ERROR ) hb_itemPutNI( pItem, pArea->bMemoType ); else hb_itemPutNI( pItem, DB_MEMO_DBT ); break; /* case DBI_RDD_VERSION */ default: return SUPER_INFO( ( AREAP ) pArea, uiIndex, pItem ); } return SUCCESS; } /* * Retrieve the size of the WorkArea structure. * ( DBENTRYP_SP ) hb_dbtStructSize */ static ERRCODE hb_dbtStructSize( DBTAREAP pArea, USHORT * uiSize ) { HB_TRACE(HB_TR_DEBUG, ("hb_dbtStrucSize(%p, %p)", pArea, uiSize)); HB_SYMBOL_UNUSED( pArea ); * uiSize = sizeof( DBTAREA ); return SUCCESS; } /* * Obtain the name of replaceable database driver (RDD) subsystem. * ( DBENTRYP_P ) hb_dbtSysName */ static ERRCODE hb_dbtSysName( DBTAREAP pArea, BYTE * pBuffer ) { HB_TRACE(HB_TR_DEBUG, ("hb_dbtSysName(%p, %p)", pArea, pBuffer)); HB_SYMBOL_UNUSED( pArea ); strncpy( ( char * ) pBuffer, "DBFDBT", 7 /* HARBOUR_MAX_RDD_DRIVERNAME_LENGTH */ ); return SUCCESS; } /* * Obtain the current value of a field. * ( DBENTRYP_SI ) hb_dbtGetValue */ static ERRCODE hb_dbtGetValue( DBTAREAP pArea, USHORT uiIndex, PHB_ITEM pItem ) { BOOL bDeleted; HB_TRACE(HB_TR_DEBUG, ("hb_dbtGetValue(%p, %hu, %p)", pArea, uiIndex, pItem)); if( pArea->fHasMemo && pArea->hMemoFile != FS_ERROR && pArea->lpFields[ uiIndex - 1 ].uiType == HB_IT_MEMO ) { /* Force read record */ if( SELF_DELETED( ( AREAP ) pArea, &bDeleted ) == FAILURE ) return FAILURE; if( hb_dbtFileLockSh( pArea ) ) { hb_dbtGetMemo( pArea, uiIndex - 1, pItem ); hb_dbtFileUnLock( pArea ); } else { PHB_ITEM pError = hb_errNew(); hb_errPutGenCode( pError, EG_LOCK ); hb_errPutDescription( pError, hb_langDGetErrorDesc( EG_LOCK ) ); hb_errPutSubCode( pError, EDBF_LOCK ); hb_errPutFlags( pError, EF_CANDEFAULT ); SELF_ERROR( ( AREAP ) pArea, pError ); hb_itemRelease( pError ); return FAILURE; } return SUCCESS; } else return SUPER_GETVALUE( ( AREAP ) pArea, uiIndex, pItem ); } /* * Assign a value to a field. * ( DBENTRYP_SI ) hb_dbtPutValue */ static ERRCODE hb_dbtPutValue( DBTAREAP pArea, USHORT uiIndex, PHB_ITEM pItem ) { BOOL bDeleted; PHB_ITEM pError; ERRCODE uiError, uiErrorG; HB_TRACE(HB_TR_DEBUG, ("hb_dbtPutValue(%p, %hu, %p)", pArea, uiIndex, pItem)); if( pArea->fHasMemo && pArea->hMemoFile != FS_ERROR && pArea->lpFields[ uiIndex - 1 ].uiType == HB_IT_MEMO ) { if( HB_IS_MEMO( pItem ) || HB_IS_STRING( pItem ) ) { /* Force read record */ if( SELF_DELETED( ( AREAP ) pArea, &bDeleted ) == FAILURE ) return FAILURE; if( !pArea->fPositioned ) return SUCCESS; /* Buffer is hot? */ if( !pArea->fRecordChanged && SELF_GOHOT( ( AREAP ) pArea ) == FAILURE ) return FAILURE; if( hb_dbtFileLockEx( pArea ) ) { uiError = hb_dbtPutMemo( pArea, uiIndex -1, pItem ) ? SUCCESS : EDBF_DATAWIDTH; hb_dbtFileUnLock( pArea ); } else { uiError = EDBF_LOCK; } /* Update deleted flag */ pArea->pRecord[ 0 ] = (BYTE) (pArea->fDeleted ? '*' : ' '); } else uiError = EDBF_DATATYPE; if( uiError != SUCCESS ) { uiErrorG = uiError == EDBF_DATAWIDTH ? EG_DATAWIDTH : ( uiError == EDBF_LOCK ? EG_LOCK : EG_DATATYPE ); pError = hb_errNew(); hb_errPutGenCode( pError, uiErrorG ); hb_errPutDescription( pError, hb_langDGetErrorDesc( uiErrorG ) ); hb_errPutSubCode( pError, uiError ); hb_errPutFlags( pError, EF_CANDEFAULT ); SELF_ERROR( ( AREAP ) pArea, pError ); hb_itemRelease( pError ); return FAILURE; } return SUCCESS; } return SUPER_PUTVALUE( ( AREAP ) pArea, uiIndex, pItem); } /* ( DBENTRYP_V ) hb_dbtCloseMemFile : NULL */ /* * Create a memo file in the WorkArea. * ( DBENTRYP_VP ) hb_dbtCreateMemFile */ static ERRCODE hb_dbtCreateMemFile( DBTAREAP pArea, LPDBOPENINFO pCreateInfo ) { BYTE pBlock[ DBT_BLOCKSIZE ]; BOOL bRetry; PHB_ITEM pError; HB_TRACE(HB_TR_DEBUG, ("hb_dbtCreateMemFile(%p, %p)", pArea, pCreateInfo)); pArea->uiMemoBlockSize = DBT_BLOCKSIZE; if( pCreateInfo ) { pError = NULL; /* Try create */ do { pArea->hMemoFile = hb_fsExtOpen( pCreateInfo->abName, NULL, FO_READWRITE | FO_EXCLUSIVE | FXO_TRUNCATE | FXO_DEFAULTS | FXO_SHARELOCK, NULL, pError ); if( pArea->hMemoFile == FS_ERROR ) { if( !pError ) { pError = hb_errNew(); hb_errPutGenCode( pError, EG_CREATE ); hb_errPutSubCode( pError, EDBF_CREATE_DBF ); hb_errPutDescription( pError, hb_langDGetErrorDesc( EG_CREATE ) ); hb_errPutFileName( pError, ( char * ) pCreateInfo->abName ); hb_errPutFlags( pError, EF_CANRETRY ); } bRetry = ( SELF_ERROR( ( AREAP ) pArea, pError ) == E_RETRY ); } else bRetry = FALSE; } while( bRetry ); if( pError ) hb_itemRelease( pError ); if( pArea->hMemoFile == FS_ERROR ) return FAILURE; } else /* For zap file */ hb_fsSeek( pArea->hMemoFile, 0, FS_SET ); memset( pBlock, 0, DBT_BLOCKSIZE ); * ( ( LONG * ) pBlock ) = 1; if( hb_fsWrite( pArea->hMemoFile, pBlock, DBT_BLOCKSIZE ) != DBT_BLOCKSIZE ) return FAILURE; hb_fsWrite( pArea->hMemoFile, NULL, 0 ); pArea->fMemoFlush = TRUE; return SUCCESS; } /* ( DBENTRYP_SVPB ) hb_dbtGetValueFile : NULL */ /* * Open a memo file in the specified WorkArea. * ( DBENTRYP_VP ) hb_dbtOpenMemFile */ static ERRCODE hb_dbtOpenMemFile( DBTAREAP pArea, LPDBOPENINFO pOpenInfo ) { USHORT uiFlags; BOOL bRetry; PHB_ITEM pError = NULL; HB_TRACE(HB_TR_DEBUG, ("hb_dbtOpenMemFile(%p, %p)", pArea, pOpenInfo)); uiFlags = (pOpenInfo->fReadonly ? FO_READ : FO_READWRITE) | (pOpenInfo->fShared ? FO_DENYNONE : FO_EXCLUSIVE); /* Try open */ do { pArea->hMemoFile = hb_fsExtOpen( pOpenInfo->abName, NULL, uiFlags | FXO_DEFAULTS | FXO_SHARELOCK, NULL, pError ); if( pArea->hMemoFile == FS_ERROR ) { if( !pError ) { pError = hb_errNew(); hb_errPutGenCode( pError, EG_OPEN ); hb_errPutSubCode( pError, EDBF_OPEN_DBF ); hb_errPutDescription( pError, hb_langDGetErrorDesc( EG_OPEN ) ); hb_errPutFileName( pError, ( char * ) pOpenInfo->abName ); hb_errPutFlags( pError, EF_CANRETRY | EF_CANDEFAULT ); } bRetry = ( SELF_ERROR( ( AREAP ) pArea, pError ) == E_RETRY ); } else bRetry = FALSE; } while( bRetry ); if( pError ) { hb_itemRelease( pError ); } pArea->uiMemoBlockSize = DBT_BLOCKSIZE; return ( pArea->hMemoFile == FS_ERROR ? FAILURE : SUCCESS ); } /* ( DBENTRYP_SVPB ) hb_dbtPutValueFile : NULL */ /* * Retrieve (set) information about RDD * ( DBENTRYP_RSLV ) hb_dbtFieldInfo */ static ERRCODE hb_dbtRddInfo( LPRDDNODE pRDD, USHORT uiIndex, ULONG ulConnect, PHB_ITEM pItem ) { HB_TRACE(HB_TR_DEBUG, ("hb_dbtRddInfo(%p, %hu, %lu, %p)", pRDD, uiIndex, ulConnect, pItem)); switch( uiIndex ) { case RDDI_MEMOEXT: { LPDBFDATA pData = ( LPDBFDATA ) pRDD->lpvCargo; char *szNew = hb_itemGetCPtr( pItem ); if( szNew[0] == '.' && szNew[1] ) szNew = hb_strdup( szNew ); else szNew = NULL; hb_itemPutC( pItem, pData->szMemoExt[ 0 ] ? pData->szMemoExt : DBT_MEMOEXT ); if( szNew ) { hb_strncpy( pData->szMemoExt, szNew, HB_MAX_FILE_EXT ); hb_xfree( szNew ); } break; } case RDDI_MEMOBLOCKSIZE: hb_itemPutNI( pItem, DBT_BLOCKSIZE ); break; case RDDI_MEMOTYPE: hb_itemPutNI( pItem, DB_MEMO_DBT ); break; case RDDI_MEMOGCTYPE: hb_itemPutNI( pItem, 0 ); break; case RDDI_MEMOREADLOCK: case RDDI_MEMOREUSE: hb_itemPutL( pItem, FALSE ); break; default: return SUPER_RDDINFO( pRDD, uiIndex, ulConnect, pItem ); } return SUCCESS; } HB_FUNC( DBFDBT ) {;} HB_FUNC( DBFDBT_GETFUNCTABLE ) { RDDFUNCS * pTable; USHORT * uiCount; uiCount = ( USHORT * ) hb_itemGetPtr( hb_param( 1, HB_IT_POINTER ) ); pTable = ( RDDFUNCS * ) hb_itemGetPtr( hb_param( 2, HB_IT_POINTER ) ); HB_TRACE(HB_TR_DEBUG, ("DBFDBT_GETFUNCTABLE(%i, %p)", uiCount, pTable)); if( pTable ) { if ( uiCount ) * uiCount = RDDFUNCSCOUNT; hb_retni( hb_rddInherit( pTable, &dbtTable, &dbtSuper, ( BYTE * ) "DBF" ) ); } else hb_retni( FAILURE ); } #define __PRG_SOURCE__ __FILE__ #ifdef HB_PCODE_VER # undef HB_PRG_PCODE_VER # define HB_PRG_PCODE_VER HB_PCODE_VER #endif HB_FUNC_EXTERN( _DBF ); static void hb_dbfdbtRddInit( void * cargo ) { HB_SYMBOL_UNUSED( cargo ); if( hb_rddRegister( "DBF", RDT_FULL ) > 1 || hb_rddRegister( "DBFDBT", RDT_FULL ) > 1 ) { hb_errInternal( HB_EI_RDDINVALID, NULL, NULL, NULL ); /* not executed, only to force DBF RDD linking */ HB_FUNC_EXEC( _DBF ); } } HB_INIT_SYMBOLS_BEGIN( dbfdbt1__InitSymbols ) { "DBFDBT", {HB_FS_PUBLIC}, {HB_FUNCNAME( DBFDBT )}, NULL }, { "DBFDBT_GETFUNCTABLE", {HB_FS_PUBLIC}, {HB_FUNCNAME( DBFDBT_GETFUNCTABLE )}, NULL } HB_INIT_SYMBOLS_END( dbfdbt1__InitSymbols ) HB_CALL_ON_STARTUP_BEGIN( _hb_dbfdbt_rdd_init_ ) hb_vmAtInit( hb_dbfdbtRddInit, NULL ); HB_CALL_ON_STARTUP_END( _hb_dbfdbt_rdd_init_ ) #if defined(HB_PRAGMA_STARTUP) # pragma startup dbfdbt1__InitSymbols # pragma startup _hb_dbfdbt_rdd_init_ #elif defined(HB_MSC_STARTUP) # if _MSC_VER >= 1010 # pragma data_seg( ".CRT$XIY" ) # pragma comment( linker, "/Merge:.CRT=.data" ) # else # pragma data_seg( "XIY" ) # endif static HB_$INITSYM hb_vm_auto_dbfdbt1__InitSymbols = dbfdbt1__InitSymbols; static HB_$INITSYM hb_vm_auto_dbfdbt_rdd_init = _hb_dbfdbt_rdd_init_; # pragma data_seg() #endif