/* * Harbour Project source code: * The FileSys API (Harbour level) * * Copyright 1999-2009 Viktor Szakats (vszakats.net/harbour) * Copyright 2008 Przemyslaw Czerpak * Copyright 2000 David G. Holm * Copyright 1999 Manuel Ruiz * www - http://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.txt. 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 "hbapifs.h" #include "hbapierr.h" #include "hbapiitm.h" #include "hbdate.h" HB_FUNC( FOPEN ) { const char * szFile = hb_parc( 1 ); if( szFile ) { hb_retnint( ( HB_NHANDLE ) hb_fsOpen( szFile, ( HB_USHORT ) hb_parnidef( 2, FO_READ | FO_COMPAT ) ) ); hb_fsSetFError( hb_fsError() ); } else { hb_fsSetFError( 0 ); /* NOTE: Undocumented but existing Clipper Run-time error */ hb_errRT_BASE( EG_ARG, 2021, NULL, HB_ERR_FUNCNAME, HB_ERR_ARGS_BASEPARAMS ); } } HB_FUNC( FCREATE ) { const char * szFile = hb_parc( 1 ); if( szFile ) { hb_retnint( ( HB_NHANDLE ) hb_fsCreate( szFile, hb_parnidef( 2, FC_NORMAL ) ) ); hb_fsSetFError( hb_fsError() ); } else { hb_retni( F_ERROR ); hb_fsSetFError( 0 ); } } HB_FUNC( HB_FCREATE ) { const char * szFile = hb_parc( 1 ); if( szFile ) { hb_retnint( ( HB_NHANDLE ) hb_fsCreateEx( szFile, hb_parnidef( 2, FC_NORMAL ), ( HB_USHORT ) hb_parnidef( 3, FO_COMPAT ) ) ); hb_fsSetFError( hb_fsError() ); } else { hb_retni( F_ERROR ); hb_fsSetFError( 0 ); } } HB_FUNC( FREAD ) { PHB_ITEM pBuffer = hb_param( 2, HB_IT_STRING ); HB_ERRCODE uiError = 0; HB_SIZE nRead = 0; if( HB_ISNUM( 1 ) && pBuffer && HB_ISBYREF( 2 ) && HB_ISNUM( 3 ) ) { char * buffer; HB_SIZE nSize; nRead = hb_parns( 3 ); /* NOTE: CA-Cl*pper determines the maximum size by calling _parcsiz() instead of _parclen(), this means that the maximum read length will be one more than the length of the passed buffer, because the terminating zero could be used if needed. [vszakats] */ if( nRead <= hb_parcsiz( 2 ) && hb_itemGetWriteCL( pBuffer, &buffer, &nSize ) ) { nRead = hb_fsReadLarge( hb_numToHandle( hb_parnint( 1 ) ), buffer, nRead ); uiError = hb_fsError(); } else nRead = 0; } hb_retns( nRead ); hb_fsSetFError( uiError ); } HB_FUNC( FWRITE ) { HB_ERRCODE uiError = 0; if( HB_ISNUM( 1 ) && HB_ISCHAR( 2 ) ) { HB_SIZE nLen = hb_parclen( 2 ); if( HB_ISNUM( 3 ) ) { HB_SIZE nWrite = hb_parns( 3 ); if( nWrite < nLen ) nLen = nWrite; } hb_retns( hb_fsWriteLarge( hb_numToHandle( hb_parnint( 1 ) ), hb_parc( 2 ), nLen ) ); uiError = hb_fsError(); } else hb_retns( 0 ); hb_fsSetFError( uiError ); } HB_FUNC( FERROR ) { hb_retni( hb_fsGetFError() ); } HB_FUNC( FCLOSE ) { HB_ERRCODE uiError = 0; if( HB_ISNUM( 1 ) ) { hb_fsClose( hb_numToHandle( hb_parnint( 1 ) ) ); uiError = hb_fsError(); hb_retl( uiError == 0 ); } else hb_retl( HB_FALSE ); hb_fsSetFError( uiError ); } HB_FUNC( FERASE ) { HB_ERRCODE uiError = 3; const char * szFile = hb_parc( 1 ); if( szFile ) { hb_retni( hb_fsDelete( szFile ) ? 0 : F_ERROR ); uiError = hb_fsError(); } else hb_retni( F_ERROR ); hb_fsSetFError( uiError ); } HB_FUNC( FRENAME ) { HB_ERRCODE uiError = 2; const char * szFileOld = hb_parc( 1 ), * szFileNew = hb_parc( 2 ); if( szFileOld && szFileNew ) { hb_retni( hb_fsRename( szFileOld, szFileNew ) ? 0 : F_ERROR ); uiError = hb_fsError(); } else hb_retni( F_ERROR ); hb_fsSetFError( uiError ); } HB_FUNC( FSEEK ) { HB_ERRCODE uiError = 0; if( HB_ISNUM( 1 ) && HB_ISNUM( 2 ) ) { hb_retnint( hb_fsSeekLarge( hb_numToHandle( hb_parnint( 1 ) ), hb_parnint( 2 ), ( HB_USHORT ) hb_parnidef( 3, FS_SET ) ) ); uiError = hb_fsError(); } else hb_retni( 0 ); hb_fsSetFError( uiError ); } HB_FUNC( FREADSTR ) { HB_ERRCODE uiError = 0; if( HB_ISNUM( 1 ) && HB_ISNUM( 2 ) ) { HB_SIZE nToRead = hb_parns( 2 ); if( nToRead > 0 ) { HB_FHANDLE fhnd = hb_numToHandle( hb_parnint( 1 ) ); char * buffer = ( char * ) hb_xgrab( nToRead + 1 ); HB_SIZE nRead; nRead = hb_fsReadLarge( fhnd, buffer, nToRead ); uiError = hb_fsError(); buffer[ nRead ] = '\0'; /* NOTE: Clipper will not return zero chars from this functions. */ hb_retc_buffer( buffer ); } else hb_retc_null(); } else hb_retc_null(); hb_fsSetFError( uiError ); } HB_FUNC( HB_FREADLEN ) { HB_ERRCODE uiError = 0; HB_SIZE nToRead = hb_parns( 2 ); if( nToRead > 0 && HB_ISNUM( 1 ) ) { HB_FHANDLE fhnd = hb_numToHandle( hb_parnint( 1 ) ); char * buffer = ( char * ) hb_xgrab( nToRead + 1 ); HB_SIZE nRead; nRead = hb_fsReadLarge( fhnd, buffer, nToRead ); uiError = hb_fsError(); hb_retclen_buffer( buffer, nRead ); } else hb_retc_null(); hb_fsSetFError( uiError ); } /* NOTE: This function should not return the leading and trailing */ /* (back)slashes. [vszakats] */ /* TODO: Xbase++ is able to change to the specified directory. */ HB_FUNC( CURDIR ) { char szBuffer[ HB_PATH_MAX ]; int iDrive = 0; const char * szDrive; szDrive = hb_parc( 1 ); if( szDrive ) { if( *szDrive >= 'A' && *szDrive <= 'Z' ) iDrive = *szDrive - ( 'A' - 1 ); else if( *szDrive >= 'a' && *szDrive <= 'z' ) iDrive = *szDrive - ( 'a' - 1 ); } hb_fsCurDirBuff( iDrive, szBuffer, sizeof( szBuffer ) ); hb_retc( szBuffer ); } HB_FUNC( HB_CURDRIVE ) { #if defined( HB_OS_HAS_DRIVE_LETTER ) char szCurDrive[ 1 ]; const char * szDrive; szCurDrive[ 0 ] = ( ( char ) hb_fsCurDrv() ) + 'A'; hb_retclen( szCurDrive, 1 ); szDrive = hb_parc( 1 ); if( szDrive ) { int iDrive = -1; if( *szDrive >= 'A' && *szDrive <= 'Z' ) iDrive = *szDrive - 'A'; else if( *szDrive >= 'a' && *szDrive <= 'z' ) iDrive = *szDrive - 'a'; if( iDrive >= 0 ) { while( hb_fsChDrv( iDrive ) != 0 ) { HB_USHORT uiAction = hb_errRT_BASE_Ext1( EG_OPEN, 6001, NULL, HB_ERR_FUNCNAME, 0, EF_CANDEFAULT | EF_CANRETRY, HB_ERR_ARGS_BASEPARAMS ); if( uiAction != E_RETRY ) break; } } } #else hb_retc_null(); #endif } HB_FUNC( HB_CWD ) { char szBuffer[ HB_PATH_MAX ]; const char * szNewWD; if( hb_fsGetCWD( szBuffer, sizeof( szBuffer ) ) ) hb_retc( szBuffer ); else hb_retc_null(); szNewWD = hb_parc( 1 ); if( szNewWD ) hb_fsSetCWD( szNewWD ); hb_fsSetFError( hb_fsError() ); } HB_FUNC( HB_PROGNAME ) { char * pszBaseName = hb_cmdargProgName(); if( pszBaseName ) hb_retc_buffer( pszBaseName ); else hb_retc_null(); } HB_FUNC( HB_DIRBASE ) { char szBuffer[ HB_PATH_MAX ]; hb_fsBaseDirBuff( szBuffer ); hb_retc( szBuffer ); } HB_FUNC( HB_FCOMMIT ) { HB_ERRCODE uiError = 6; if( HB_ISNUM( 1 ) ) { hb_fsCommit( hb_numToHandle( hb_parnint( 1 ) ) ); uiError = hb_fsError(); } hb_fsSetFError( uiError ); } HB_FUNC( HB_FLOCK ) { HB_ERRCODE uiError = 0; HB_BOOL fResult = HB_FALSE; if( HB_ISNUM( 1 ) && HB_ISNUM( 2 ) && HB_ISNUM( 3 ) ) { fResult = hb_fsLockLarge( hb_numToHandle( hb_parnint( 1 ) ), ( HB_FOFFSET ) hb_parnint( 2 ), ( HB_FOFFSET ) hb_parnint( 3 ), FL_LOCK | ( ( HB_USHORT ) hb_parni( 4 ) & ~FL_MASK ) ); uiError = hb_fsError(); } hb_fsSetFError( uiError ); hb_retl( fResult ); } HB_FUNC( HB_FUNLOCK ) { HB_ERRCODE uiError = 0; HB_BOOL fResult = HB_FALSE; if( HB_ISNUM( 1 ) && HB_ISNUM( 2 ) && HB_ISNUM( 3 ) ) { fResult = hb_fsLockLarge( hb_numToHandle( hb_parnint( 1 ) ), ( HB_FOFFSET ) hb_parnint( 2 ), ( HB_FOFFSET ) hb_parnint( 3 ), FL_UNLOCK ); uiError = hb_fsError(); } hb_fsSetFError( uiError ); hb_retl( fResult ); } HB_FUNC( HB_FGETATTR ) { HB_FATTR nAttr; hb_retl( hb_fsGetAttr( hb_parcx( 1 ), &nAttr ) ); hb_fsSetFError( hb_fsError() ); hb_stornl( nAttr, 2 ); } HB_FUNC( HB_FSETATTR ) { hb_retl( hb_fsSetAttr( hb_parcx( 1 ), hb_parnl( 2 ) ) ); hb_fsSetFError( hb_fsError() ); } HB_FUNC( HB_FSETDATETIME ) { long lDate = -1, lTime = -1; if( HB_ISTIMESTAMP( 2 ) ) hb_partdt( &lDate, &lTime, 2 ); else { if( HB_ISDATE( 2 ) ) lDate = hb_pardl( 2 ); if( HB_ISCHAR( 3 ) ) { int iHour, iMinutes, iSeconds, iMSec; if( hb_timeStrGet( hb_parc( 3 ), &iHour, &iMinutes, &iSeconds, &iMSec ) ) lTime = hb_timeEncode( iHour, iMinutes, iSeconds, iMSec ); } } hb_retl( hb_fsSetFileTime( hb_parcx( 1 ), lDate, lTime ) ); hb_fsSetFError( hb_fsError() ); } HB_FUNC( HB_FGETDATETIME ) { long lJulian, lMillisec; HB_BOOL fOK; fOK = hb_fsGetFileTime( hb_parcx( 1 ), &lJulian, &lMillisec ); hb_fsSetFError( hb_fsError() ); if( fOK ) { if( HB_ISBYREF( 3 ) ) { char buf[ 13 ]; hb_timeStr( buf, lMillisec ); if( lMillisec % 1000 == 0 ) buf[ 8 ] = '\0'; hb_storc( buf, 3 ); hb_stordl( lJulian, 2 ); } else hb_stortdt( lJulian, lMillisec, 2 ); hb_retl( HB_TRUE ); } else { if( HB_ISBYREF( 3 ) ) { hb_storc( NULL, 3 ); hb_stordl( 0, 2 ); } else hb_stortdt( 0, 0, 2 ); hb_retl( HB_FALSE ); } } HB_FUNC( HB_FSETDEVMODE ) { int iRet = -1; if( HB_ISNUM( 1 ) ) { iRet = hb_fsSetDevMode( hb_numToHandle( hb_parnint( 1 ) ), hb_parni( 2 ) ); hb_fsSetFError( hb_fsError() ); } else hb_fsSetFError( 6 ); /* ERROR_INVALID_HANDLE */ hb_retni( iRet ); } HB_FUNC( HB_FISDEVICE ) { hb_retl( hb_fsIsDevice( hb_numToHandle( hb_parnint( 1 ) ) ) ); hb_fsSetFError( hb_fsError() ); } /* hb_PRead( , <@cBuffer>, [], [] ) -> */ HB_FUNC( HB_PREAD ) { HB_FHANDLE hPipe = hb_numToHandle( hb_parnintdef( 1, FS_ERROR ) ); PHB_ITEM pBuffer = hb_param( 2, HB_IT_STRING ); char * buffer; HB_SIZE nSize; if( hPipe != FS_ERROR && pBuffer && HB_ISBYREF( 2 ) && hb_itemGetWriteCL( pBuffer, &buffer, &nSize ) ) { HB_ERRCODE uiError = 0; if( HB_ISNUM( 3 ) ) { HB_ISIZ nToRead = hb_parns( 3 ); if( nToRead >= 0 && ( HB_SIZE ) nToRead < nSize ) nSize = nToRead; } if( nSize > 0 ) { nSize = hb_fsPipeRead( hPipe, buffer, nSize, hb_parnint( 4 ) ); uiError = hb_fsError(); } if( nSize == ( HB_SIZE ) FS_ERROR ) hb_retni( FS_ERROR ); else hb_retns( nSize ); hb_fsSetFError( uiError ); } else hb_errRT_BASE_SubstR( EG_ARG, 4001, NULL, HB_ERR_FUNCNAME, HB_ERR_ARGS_BASEPARAMS ); } /* hb_PWrite( , , [], [] ) -> */ HB_FUNC( HB_PWRITE ) { HB_FHANDLE hPipe = hb_numToHandle( hb_parnintdef( 1, FS_ERROR ) ); const char * data = hb_parc( 2 ); if( hPipe != FS_ERROR && data != NULL ) { HB_SIZE nLen = hb_parclen( 2 ); if( HB_ISNUM( 3 ) ) { HB_SIZE nWrite = hb_parns( 3 ); if( nWrite < nLen ) nLen = nWrite; } nLen = hb_fsPipeWrite( hPipe, data, nLen, hb_parnint( 4 ) ); hb_fsSetFError( hb_fsError() ); if( nLen == ( HB_SIZE ) FS_ERROR ) hb_retni( FS_ERROR ); else hb_retns( nLen ); } else hb_errRT_BASE_SubstR( EG_ARG, 4001, NULL, HB_ERR_FUNCNAME, HB_ERR_ARGS_BASEPARAMS ); } HB_FUNC( HB_OSERROR ) { hb_retni( hb_fsOsError() ); } HB_FUNC( HB_PS ) { hb_retc_const( HB_OS_PATH_DELIM_CHR_STRING ); } #if defined( HB_LEGACY_LEVEL4 ) /* Deprecated */ HB_FUNC( HB_OSPATHSEPARATOR ) { hb_retc_const( HB_OS_PATH_DELIM_CHR_STRING ); } #endif HB_FUNC( HB_OSPATHLISTSEPARATOR ) { static const char s_ret[ 2 ] = { HB_OS_PATH_LIST_SEP_CHR, '\0' }; hb_retc_const( s_ret ); } HB_FUNC( HB_OSPATHDELIMITERS ) { hb_retc_const( HB_OS_PATH_DELIM_CHR_LIST ); } HB_FUNC( HB_OSDRIVESEPARATOR ) { #ifdef HB_OS_HAS_DRIVE_LETTER static const char s_ret[ 2 ] = { HB_OS_DRIVE_DELIM_CHR, '\0' }; hb_retc_const( s_ret ); #else hb_retc_null(); #endif } HB_FUNC( HB_OSFILEMASK ) { hb_retc_const( HB_OS_ALLFILE_MASK ); }