/**************************************************************************** ** ** Implementation of TQFile class ** ** Created : 950628 ** ** Copyright (C) 1992-2008 Trolltech ASA. All rights reserved. ** ** This file is part of the tools module of the TQt GUI Toolkit. ** ** This file may be used under the terms of the GNU General ** Public License versions 2.0 or 3.0 as published by the Free ** Software Foundation and appearing in the files LICENSE.GPL2 ** and LICENSE.GPL3 included in the packaging of this file. ** Alternatively you may (at your option) use any later version ** of the GNU General Public License if such license has been ** publicly approved by Trolltech ASA (or its successors, if any) ** and the KDE Free TQt Foundation. ** ** Please review the following information to ensure GNU General ** Public Licensing requirements will be met: ** http://trolltech.com/products/qt/licenses/licensing/opensource/. ** If you are unsure which license is appropriate for your use, please ** review the following information: ** http://trolltech.com/products/qt/licenses/licensing/licensingoverview ** or contact the sales department at sales@trolltech.com. ** ** This file may be used under the terms of the Q Public License as ** defined by Trolltech ASA and appearing in the file LICENSE.TQPL ** included in the packaging of this file. Licensees holding valid TQt ** Commercial licenses may use this file in accordance with the TQt ** Commercial License Agreement provided with the Software. ** ** This file is provided "AS IS" with NO WARRANTY OF ANY KIND, ** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR ** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted ** herein. ** **********************************************************************/ #include "qplatformdefs.h" // POSIX Large File Support redefines open -> open64 static inline int qt_open(const char *pathname, int flags, mode_t mode) { return ::open(pathname, flags, mode); } #if defined(open) # undef open #endif // POSIX Large File Support redefines truncate -> truncate64 #if defined(truncate) # undef truncate #endif #include "tqfile.h" #include #include extern const char* qt_fileerr_read; bool qt_file_access( const TQString& fn, int t ) { if ( fn.isEmpty() ) return FALSE; return ::access( TQFile::encodeName(fn), t ) == 0; } /*! \overload Removes the file \a fileName. Returns TRUE if successful, otherwise FALSE. */ bool TQFile::remove( const TQString &fileName ) { if ( fileName.isEmpty() ) { #if defined(QT_CHECK_NULL) tqWarning( "TQFile::remove: Empty or null file name" ); #endif return FALSE; } return unlink( TQFile::encodeName(fileName) ) == 0; } #if defined(O_NONBLOCK) # define HAS_ASYNC_FILEMODE # define OPEN_ASYNC O_NONBLOCK #elif defined(O_NDELAY) # define HAS_ASYNC_FILEMODE # define OPEN_ASYNC O_NDELAY #endif /*! Opens the file specified by the file name currently set, using the mode \a m. Returns TRUE if successful, otherwise FALSE. \keyword IO_Raw \keyword IO_ReadOnly \keyword IO_WriteOnly \keyword IO_ReadWrite \keyword IO_Append \keyword IO_Truncate \keyword IO_Translate The mode parameter \a m must be a combination of the following flags: \table \header \i Flag \i Meaning \row \i IO_Raw \i Raw (non-buffered) file access. \row \i IO_ReadOnly \i Opens the file in read-only mode. \row \i IO_WriteOnly \i Opens the file in write-only mode. If this flag is used with another flag, e.g. \c IO_ReadOnly or \c IO_Raw or \c IO_Append, the file is \e not truncated; but if used on its own (or with \c IO_Truncate), the file is truncated. \row \i IO_ReadWrite \i Opens the file in read/write mode, equivalent to \c (IO_ReadOnly | IO_WriteOnly). \row \i IO_Append \i Opens the file in append mode. (You must actually use \c (IO_WriteOnly | IO_Append) to make the file writable and to go into append mode.) This mode is very useful when you want to write something to a log file. The file index is set to the end of the file. Note that the result is undefined if you position the file index manually using at() in append mode. \row \i IO_Truncate \i Truncates the file. \row \i IO_Translate \i Enables carriage returns and linefeed translation for text files under Windows. \endtable The raw access mode is best when I/O is block-operated using a 4KB block size or greater. Buffered access works better when reading small portions of data at a time. \warning When working with buffered files, data may not be written to the file at once. Call flush() to make sure that the data is really written. \warning If you have a buffered file opened for both reading and writing you must not perform an input operation immediately after an output operation or vice versa. You should always call flush() or a file positioning operation, e.g. at(), between input and output operations, otherwise the buffer may contain garbage. If the file does not exist and \c IO_WriteOnly or \c IO_ReadWrite is specified, it is created. Example: \code TQFile f1( "/tmp/data.bin" ); f1.open( IO_Raw | IO_ReadWrite ); TQFile f2( "readme.txt" ); f2.open( IO_ReadOnly | IO_Translate ); TQFile f3( "audit.log" ); f3.open( IO_WriteOnly | IO_Append ); \endcode \sa name(), close(), isOpen(), flush() */ bool TQFile::open( int m ) { if ( isOpen() ) { // file already open #if defined(QT_CHECK_STATE) tqWarning( "TQFile::open: File (%s) already open", fn.latin1() ); #endif return FALSE; } if ( fn.isEmpty() ) { // no file name defined #if defined(QT_CHECK_NULL) tqWarning( "TQFile::open: No file name specified" ); #endif return FALSE; } init(); // reset params setMode( m ); if ( !(isReadable() || isWritable()) ) { #if defined(QT_CHECK_RANGE) tqWarning( "TQFile::open: File access (%s) not specified", fn.latin1() ); #endif return FALSE; } bool ok = TRUE; struct stat st; if ( isRaw() ) { int oflags = O_RDONLY; if ( isReadable() && isWritable() ) oflags = O_RDWR; else if ( isWritable() ) oflags = O_WRONLY; if ( flags() & IO_Append ) { // append to end of file? if ( flags() & IO_Truncate ) oflags |= (O_CREAT | O_TRUNC); else oflags |= (O_APPEND | O_CREAT); setFlags( flags() | IO_WriteOnly ); // append implies write } else if ( isWritable() ) { // create/trunc if writable if ( flags() & IO_Truncate ) oflags |= (O_CREAT | O_TRUNC); else oflags |= O_CREAT; } #if defined(HAS_TEXT_FILEMODE) if ( isTranslated() ) oflags |= OPEN_TEXT; else oflags |= OPEN_BINARY; #endif #if defined(HAS_ASYNC_FILEMODE) if ( isAsynchronous() ) oflags |= OPEN_ASYNC; #endif fd = qt_open( TQFile::encodeName(fn), oflags, 0666 ); if ( fd != -1 ) { // open successful ::fstat( fd, &st ); // get the stat for later usage } else { ok = FALSE; } } else { // buffered file I/O TQCString perm; char perm2[4]; bool try_create = FALSE; if ( flags() & IO_Append ) { // append to end of file? setFlags( flags() | IO_WriteOnly ); // append implies write perm = isReadable() ? "a+" : "a"; } else { if ( isReadWrite() ) { if ( flags() & IO_Truncate ) { perm = "w+"; } else { perm = "r+"; try_create = TRUE; // try to create if not exists } } else if ( isReadable() ) { perm = "r"; } else if ( isWritable() ) { perm = "w"; } } qstrcpy( perm2, perm ); #if defined(HAS_TEXT_FILEMODE) if ( isTranslated() ) strcat( perm2, "t" ); else strcat( perm2, "b" ); #endif for (;;) { // At most twice fh = fopen( TQFile::encodeName(fn), perm2 ); if ( !fh && try_create ) { perm2[0] = 'w'; // try "w+" instead of "r+" try_create = FALSE; } else { break; } } if ( fh ) { ::fstat( fileno(fh), &st ); // get the stat for later usage } else { ok = FALSE; } } if ( ok ) { setState( IO_Open ); // on successful open the file stat was got; now test what type // of file we have if ( (st.st_mode & S_IFMT) != S_IFREG ) { // non-seekable setType( IO_Sequential ); length = INT_MAX; ioIndex = 0; } else { #if defined(QT_LARGEFILE_SUPPORT) length = st.st_size > UINT_MAX ? UINT_MAX : (Offset)st.st_size; #else length = (Offset)st.st_size; #endif ioIndex = (flags() & IO_Append) == 0 ? 0 : length; if ( !(flags()&IO_Truncate) && length == 0 && isReadable() ) { // try if you can read from it (if you can, it's a sequential // device; e.g. a file in the /proc filesystem) int c = getch(); if ( c != -1 ) { ungetch(c); setType( IO_Sequential ); length = INT_MAX; ioIndex = 0; } resetStatus(); } } } else { init(); if ( errno == EMFILE ) // no more file handles/descrs setStatus( IO_ResourceError ); else setStatus( IO_OpenError ); setErrorStringErrno( errno ); } return ok; } /*! \overload Opens a file in the mode \a m using an existing file handle \a f. Returns TRUE if successful, otherwise FALSE. Example: \code #include void printError( const char* msg ) { TQFile f; f.open( IO_WriteOnly, stderr ); f.writeBlock( msg, tqstrlen(msg) ); // write to stderr f.close(); } \endcode When a TQFile is opened using this function, close() does not actually close the file, only flushes it. \warning If \a f is \c stdin, \c stdout, \c stderr, you may not be able to seek. See TQIODevice::isSequentialAccess() for more information. \sa close() */ bool TQFile::open( int m, FILE *f ) { if ( isOpen() ) { #if defined(QT_CHECK_RANGE) tqWarning( "TQFile::open: File (%s) already open", fn.latin1() ); #endif return FALSE; } init(); setMode( m &~IO_Raw ); setState( IO_Open ); fh = f; ext_f = TRUE; struct stat st; ::fstat( fileno(fh), &st ); #if defined(QT_LARGEFILE_SUPPORT) off_t tmp = ftello( fh ); ioIndex = tmp > UINT_MAX ? UINT_MAX : (Offset)tmp; #else ioIndex = (Offset)ftell( fh ); #endif if ( (st.st_mode & S_IFMT) != S_IFREG || f == stdin ) { //stdin is non seekable // non-seekable setType( IO_Sequential ); length = INT_MAX; ioIndex = 0; } else { #if defined(QT_LARGEFILE_SUPPORT) length = st.st_size > UINT_MAX ? UINT_MAX : (Offset)st.st_size; #else length = (Offset)st.st_size; #endif if ( !(flags()&IO_Truncate) && length == 0 && isReadable() ) { // try if you can read from it (if you can, it's a sequential // device; e.g. a file in the /proc filesystem) int c = getch(); if ( c != -1 ) { ungetch(c); setType( IO_Sequential ); length = INT_MAX; ioIndex = 0; } resetStatus(); } } return TRUE; } /*! \overload Opens a file in the mode \a m using an existing file descriptor \a f. Returns TRUE if successful, otherwise FALSE. When a TQFile is opened using this function, close() does not actually close the file. The TQFile that is opened using this function, is automatically set to be in raw mode; this means that the file input/output functions are slow. If you run into performance issues, you should try to use one of the other open functions. \warning If \a f is one of 0 (stdin), 1 (stdout) or 2 (stderr), you may not be able to seek. size() is set to \c INT_MAX (in limits.h). \sa close() */ bool TQFile::open( int m, int f ) { if ( isOpen() ) { #if defined(QT_CHECK_RANGE) tqWarning( "TQFile::open: File (%s) already open", fn.latin1() ); #endif return FALSE; } init(); setMode( m |IO_Raw ); setState( IO_Open ); fd = f; ext_f = TRUE; struct stat st; ::fstat( fd, &st ); #if defined(QT_LARGEFILE_SUPPORT) off_t tmp = ::lseek(fd, 0, SEEK_CUR); ioIndex = tmp > UINT_MAX ? UINT_MAX : (Offset)tmp; #else ioIndex = (Offset)::lseek(fd, 0, SEEK_CUR); #endif if ( (st.st_mode & S_IFMT) != S_IFREG || f == 0 ) { // stdin is not seekable... // non-seekable setType( IO_Sequential ); length = INT_MAX; ioIndex = 0; } else { #if defined(QT_LARGEFILE_SUPPORT) length = st.st_size > UINT_MAX ? UINT_MAX : (Offset)st.st_size; #else length = (Offset)st.st_size; #endif if ( length == 0 && isReadable() ) { // try if you can read from it (if you can, it's a sequential // device; e.g. a file in the /proc filesystem) int c = getch(); if ( c != -1 ) { ungetch(c); setType( IO_Sequential ); length = INT_MAX; ioIndex = 0; } resetStatus(); } } return TRUE; } /*! Returns the file size. \sa at() */ TQIODevice::Offset TQFile::size() const { struct stat st; int ret = 0; if ( isOpen() ) { ret = ::fstat( fh ? fileno(fh) : fd, &st ); } else { ret = ::stat( TQFile::encodeName(fn), &st ); } if ( ret == -1 ) return 0; #if defined(QT_LARGEFILE_SUPPORT) return (uint)st.st_size > UINT_MAX ? UINT_MAX : (Offset)st.st_size; #else return st.st_size; #endif } /*! \overload Sets the file index to \a pos. Returns TRUE if successful; otherwise returns FALSE. Example: \code TQFile f( "data.bin" ); f.open( IO_ReadOnly ); // index set to 0 f.at( 100 ); // set index to 100 f.at( f.at()+50 ); // set index to 150 f.at( f.size()-80 ); // set index to 80 before EOF f.close(); \endcode Use \c at() without arguments to retrieve the file offset. \warning The result is undefined if the file was open()'ed using the \c IO_Append specifier. \sa size(), open() */ bool TQFile::at( Offset pos ) { if ( !isOpen() ) { #if defined(QT_CHECK_STATE) tqWarning( "TQFile::at: File (%s) is not open", fn.latin1() ); #endif return FALSE; } if ( isSequentialAccess() ) return FALSE; bool ok; if ( isRaw() ) { off_t l = ::lseek( fd, pos, SEEK_SET ); ok = ( l != -1 ); pos = (Offset)l; } else { // buffered file #if defined(QT_LARGEFILE_SUPPORT) ok = ( ::fseeko(fh, pos, SEEK_SET) == 0 ); #else ok = ( ::fseek(fh, pos, SEEK_SET) == 0 ); #endif } if ( ok ) #if defined(QT_LARGEFILE_SUPPORT) ioIndex = pos > UINT_MAX ? UINT_MAX : (Offset)pos; #else ioIndex = (Offset)pos; #endif #if defined(QT_CHECK_RANGE) else tqWarning( "TQFile::at: Cannot set file position %lu", pos ); #endif return ok; } /*! \reimp \warning We have experienced problems with some C libraries when a buffered file is opened for both reading and writing. If a read operation takes place immediately after a write operation, the read buffer contains garbage data. Worse, the same garbage is written to the file. Calling flush() before readBlock() solved this problem. */ TQ_LONG TQFile::readBlock( char *p, TQ_ULONG len ) { if ( !len ) // nothing to do return 0; #if defined(QT_CHECK_NULL) if ( !p ) tqWarning( "TQFile::readBlock: Null pointer error" ); #endif #if defined(QT_CHECK_STATE) if ( !isOpen() ) { tqWarning( "TQFile::readBlock: File (%s) not open", fn.latin1() ); return -1; } if ( !isReadable() ) { tqWarning( "TQFile::readBlock: Read operation not permitted in file %s ", fn.latin1() ); return -1; } #endif TQ_ULONG nread = 0; // number of bytes read if ( !ungetchBuffer.isEmpty() ) { // need to add these to the returned string. uint l = ungetchBuffer.length(); while( nread < l ) { *p = ungetchBuffer.at( l - nread - 1 ); p++; nread++; } ungetchBuffer.truncate( l - nread ); } if ( nread < len ) { if ( isRaw() ) { // raw file nread += ::read( fd, p, len-nread ); if ( len && nread <= 0 ) { nread = 0; setStatus(IO_ReadError); setErrorStringErrno( errno ); } } else { // buffered file nread += fread( p, 1, len-nread, fh ); if ( (uint)nread != len ) { if ( ferror( fh ) || nread==0 ) { setStatus(IO_ReadError); setErrorString( qt_fileerr_read ); } } } } if ( !isSequentialAccess() ) ioIndex += nread; return nread; } /*! \reimp Writes \a len bytes from \a p to the file and returns the number of bytes actually written. Returns -1 if a serious error occurred. \warning When working with buffered files, data may not be written to the file at once. Call flush() to make sure the data is really written. \sa readBlock() */ TQ_LONG TQFile::writeBlock( const char *p, TQ_ULONG len ) { if ( !len ) // nothing to do return 0; #if defined(QT_CHECK_NULL) if ( p == 0 && len != 0 ) tqWarning( "TQFile::writeBlock: Null pointer error" ); #endif #if defined(QT_CHECK_STATE) if ( !isOpen() ) { // file not open tqWarning( "TQFile::writeBlock: File (%s) not open", fn.latin1() ); return -1; } if ( !isWritable() ) { // writing not permitted tqWarning( "TQFile::writeBlock: Write operation not permitted in file %s ", fn.latin1() ); return -1; } #endif TQ_ULONG nwritten; // number of bytes written if ( isRaw() ) // raw file nwritten = ::write( fd, (void *)p, len ); else // buffered file nwritten = fwrite( p, 1, len, fh ); if ( nwritten != len ) { // write error if ( errno == ENOSPC ) // disk is full setStatus( IO_ResourceError ); else setStatus( IO_WriteError ); setErrorStringErrno( errno ); if ( !isSequentialAccess() ) { if ( isRaw() ) { // recalc file position #if defined(QT_LARGEFILE_SUPPORT) off_t tmp = ::lseek( fd, 0, SEEK_CUR ); ioIndex = tmp > UINT_MAX ? UINT_MAX : (Offset)tmp; #else ioIndex = (Offset)::lseek( fd, 0, SEEK_CUR ); #endif } else { #if defined(QT_LARGEFILE_SUPPORT) off_t tmp = (Offset)::fseeko( fh, 0, SEEK_CUR ); ioIndex = tmp > UINT_MAX ? UINT_MAX : (Offset)tmp; #else ioIndex = (Offset)::fseek( fh, 0, SEEK_CUR ); #endif } } } else { if ( !isSequentialAccess() ) ioIndex += nwritten; } if ( ioIndex > length ) // update file length length = ioIndex; return nwritten; } /*! Returns the file handle of the file. This is a small positive integer, suitable for use with C library functions such as fdopen() and fcntl(). On systems that use file descriptors for sockets (ie. Unix systems, but not Windows) the handle can be used with TQSocketNotifier as well. If the file is not open or there is an error, handle() returns -1. \sa TQSocketNotifier */ int TQFile::handle() const { if ( !isOpen() ) return -1; else if ( fh ) return fileno( fh ); else return fd; } /*! Closes an open file. The file is not closed if it was opened with an existing file handle. If the existing file handle is a \c FILE*, the file is flushed. If the existing file handle is an \c int file descriptor, nothing is done to the file. Some "write-behind" filesystems may report an unspecified error on closing the file. These errors only indicate that something may have gone wrong since the previous open(). In such a case status() reports IO_UnspecifiedError after close(), otherwise IO_Ok. \sa open(), flush() */ void TQFile::close() { bool ok = FALSE; if ( isOpen() ) { // file is not open if ( fh ) { // buffered file if ( ext_f ) ok = fflush( fh ) != -1; // flush instead of closing else ok = fclose( fh ) != -1; } else { // raw file if ( ext_f ) ok = TRUE; // cannot close else ok = ::close( fd ) != -1; } init(); // restore internal state } if (!ok) { setStatus( IO_UnspecifiedError ); setErrorStringErrno( errno ); } }