/**************************************************************************** ** ** Implementation of TQComLibrary class ** ** Copyright (C) 2001-2008 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 "qcomlibrary_p.h" #ifndef QT_NO_COMPONENT #include #include #include #include #include #ifndef NO_ERRNO_H #include #endif // NO_ERROR_H #ifdef QT_THREAD_SUPPORT # include "qmutexpool_p.h" #endif // QT_THREAD_SUPPORT #ifndef QT_DEBUG_COMPONENT # if defined(QT_DEBUG) # define QT_DEBUG_COMPONENT 1 # endif #endif TQComLibrary::TQComLibrary( const TQString &filename ) : TQLibrary( filename ), entry( 0 ), libiface( 0 ), qt_version( 0 ) { } TQComLibrary::~TQComLibrary() { if ( autoUnload() ) unload(); if ( libiface ) libiface->release(); if ( entry ) entry->release(); } bool TQComLibrary::unload() { int refs = entry ? entry->release() : 0; entry = 0; if (refs || !libiface) return FALSE; libiface->cleanup(); if ( !libiface->canUnload() ) return FALSE; libiface->release(); libiface = 0; return TQLibrary::unload(); } static bool qt_verify( const TQString& library, uint version, uint flags, const TQCString &key, bool warn ) { uint our_flags = 1; #if defined(QT_THREAD_SUPPORT) our_flags |= 2; #endif if ( (flags & 1) == 0 ) { if ( warn ) qWarning( "Conflict in %s:\n" " Plugin cannot be queried successfully!", (const char*) TQFile::encodeName(library) ); } else if ( ( version > QT_VERSION ) || ( ( QT_VERSION & 0xff0000 ) > ( version & 0xff0000 ) ) ) { if ( warn ) qWarning( "Conflict in %s:\n" " Plugin uses incompatible TQt library (%d.%d.%d)!", (const char*) TQFile::encodeName(library), (version&0xff0000) >> 16, (version&0xff00) >> 8, version&0xff ); } else if ( (flags & 2) != (our_flags & 2) ) { if ( warn ) qWarning( "Conflict in %s:\n" " Plugin uses %s TQt library!", (const char*) TQFile::encodeName(library), (flags & 2) ? "multi threaded" : "single threaded" ); } else if ( key != QT_BUILD_KEY ) { if ( warn ) qWarning( "Conflict in %s:\n" " Plugin uses incompatible TQt library!\n" " expected build key \"%s\", got \"%s\".", (const char*) TQFile::encodeName(library), QT_BUILD_KEY, key.isEmpty() ? "" : (const char *) key ); } else { return TRUE; } return FALSE; } struct qt_token_info { qt_token_info( const char *f, const ulong fc ) : fields( f ), field_count( fc ), results( fc ), lengths( fc ) { results.fill( 0 ); lengths.fill( 0 ); } const char *fields; const ulong field_count; TQMemArray results; TQMemArray lengths; }; /* return values: 1 parse ok 0 eos -1 parse error */ static int qt_tokenize( const char *s, ulong s_len, ulong *advance, const qt_token_info &token_info ) { ulong pos = 0, field = 0, fieldlen = 0; char current; int ret = -1; *advance = 0; for (;;) { current = s[ pos ]; // next char ++pos; ++fieldlen; ++*advance; if ( ! current || pos == s_len + 1 ) { // save result token_info.results[ (int)field ] = s; token_info.lengths[ (int)field ] = fieldlen - 1; // end of string ret = 0; break; } if ( current == token_info.fields[ field ] ) { // save result token_info.results[ (int)field ] = s; token_info.lengths[ (int)field ] = fieldlen - 1; // end of field fieldlen = 0; ++field; if ( field == token_info.field_count - 1 ) { // parse ok ret = 1; } if ( field == token_info.field_count ) { // done parsing break; } // reset string and its length s = s + pos; s_len -= pos; pos = 0; } } return ret; } /* returns TRUE if the string s was correctly parsed, FALSE otherwise. */ static bool qt_parse_pattern( const char *s, uint *version, uint *flags, TQCString *key ) { bool ret = TRUE; qt_token_info pinfo("=\n", 2); int parse; ulong at = 0, advance, parselen = qstrlen( s ); do { parse = qt_tokenize( s + at, parselen, &advance, pinfo ); if ( parse == -1 ) { ret = FALSE; break; } at += advance; parselen -= advance; if ( qstrncmp( "version", pinfo.results[ 0 ], pinfo.lengths[ 0 ] ) == 0 ) { // parse version string qt_token_info pinfo2("..-", 3); if ( qt_tokenize( pinfo.results[ 1 ], pinfo.lengths[ 1 ], &advance, pinfo2 ) != -1 ) { TQCString m( pinfo2.results[ 0 ], pinfo2.lengths[ 0 ] + 1 ); TQCString n( pinfo2.results[ 1 ], pinfo2.lengths[ 1 ] + 1 ); TQCString p( pinfo2.results[ 2 ], pinfo2.lengths[ 2 ] + 1 ); *version = (m.toUInt() << 16) | (n.toUInt() << 8) | p.toUInt(); } else { ret = FALSE; break; } } else if ( qstrncmp( "flags", pinfo.results[ 0 ], pinfo.lengths[ 0 ] ) == 0 ) { // parse flags string char ch; *flags = 0; ulong p = 0, c = 0, bit = 0; while ( p < pinfo.lengths[ 1 ] ) { ch = pinfo.results[ 1 ][ p ]; bit = pinfo.lengths[ 1 ] - p - 1; c = 1 << bit; if ( ch == '1' ) { *flags |= c; } else if ( ch != '0' ) { ret = FALSE; break; } ++p; } } else if ( qstrncmp( "buildkey", pinfo.results[ 0 ], pinfo.lengths[ 0 ] ) == 0 ){ // save buildkey *key = TQCString( pinfo.results[ 1 ], pinfo.lengths[ 1 ] + 1 ); } } while ( parse == 1 && parselen > 0 ); return ret; } #if defined(Q_OS_UNIX) #if defined(Q_OS_FREEBSD) || defined(Q_OS_LINUX) # define USE_MMAP # include # include #endif // Q_OS_FREEBSD || Q_OS_LINUX static long qt_find_pattern( const char *s, ulong s_len, const char *pattern, ulong p_len ) { /* this uses the same algorithm as TQString::findRev... we search from the end of the file because on the supported systems, the read-only data/text segments are placed at the end of the file. HOWEVER, when building with debugging enabled, all the debug symbols are placed AFTER the data/text segments. what does this mean? when building in release mode, the search is fast because the data we are looking for is at the end of the file... when building in debug mode, the search is slower because we have to skip over all the debugging symbols first */ if ( ! s || ! pattern || p_len > s_len ) return -1; ulong i, hs = 0, hp = 0, delta = s_len - p_len; for (i = 0; i < p_len; ++i ) { hs += s[delta + i]; hp += pattern[i]; } i = delta; for (;;) { if ( hs == hp && qstrncmp( s + i, pattern, p_len ) == 0 ) return i; if ( i == 0 ) break; --i; hs -= s[i + p_len]; hs += s[i]; } return -1; } /* This opens the specified library, mmaps it into memory, and searches for the QT_UCM_VERIFICATION_DATA. The advantage of this approach is that we can get the verification data without have to actually load the library. This lets us detect mismatches more safely. Returns FALSE if version/flags/key information is not present, or if the information could not be read. Returns TRUE if version/flags/key information is present and succesfully read. */ static bool qt_unix_query( const TQString &library, uint *version, uint *flags, TQCString *key ) { TQFile file( library ); if (! file.open( IO_ReadOnly ) ) { qWarning( "%s: %s", (const char*) TQFile::encodeName(library), strerror( errno ) ); return FALSE; } TQByteArray data; char *filedata = 0; ulong fdlen = 0; #ifdef USE_MMAP char *mapaddr = 0; size_t maplen = file.size(); mapaddr = (char *) mmap( mapaddr, maplen, PROT_READ, MAP_PRIVATE, file.handle(), 0 ); if ( mapaddr != MAP_FAILED ) { // mmap succeeded filedata = mapaddr; fdlen = maplen; } else { // mmap failed qWarning( "mmap: %s", strerror( errno ) ); #endif // USE_MMAP // try reading the data into memory instead data = file.readAll(); filedata = data.data(); fdlen = data.size(); #ifdef USE_MMAP } #endif // USE_MMAP // verify that the pattern is present in the plugin const char *pattern = "pattern=QT_UCM_VERIFICATION_DATA"; const ulong plen = qstrlen( pattern ); long pos = qt_find_pattern( filedata, fdlen, pattern, plen ); bool ret = FALSE; if ( pos >= 0 ) { ret = qt_parse_pattern( filedata + pos, version, flags, key ); } #ifdef USE_MMAP if ( mapaddr != MAP_FAILED && munmap(mapaddr, maplen) != 0 ) { qWarning( "munmap: %s", strerror( errno ) ); } #endif // USE_MMAP file.close(); return ret; } #endif // Q_OS_UNIX static TQSettings *cache = 0; static TQSingleCleanupHandler cleanup_cache; void TQComLibrary::createInstanceInternal() { if ( library().isEmpty() ) return; TQFileInfo fileinfo( library() ); TQString lastModified = fileinfo.lastModified().toString(TQt::ISODate); TQString regkey = TQString("/TQt Plugins %1.%2/%3") .arg( ( QT_VERSION & 0xff0000 ) >> 16 ) .arg( ( QT_VERSION & 0xff00 ) >> 8 ) .arg( library() ); TQStringList reg; uint flags = 0; TQCString key; bool query_done = FALSE; bool warn_mismatch = TRUE; #ifdef QT_THREAD_SUPPORT TQMutexLocker locker( qt_global_mutexpool ? qt_global_mutexpool->get( &cache ) : 0 ); #endif // QT_THREAD_SUPPORT if ( ! cache ) { cache = new TQSettings; cache->insertSearchPath( TQSettings::Windows, "/Trolltech" ); cleanup_cache.set( &cache ); } reg = cache->readListEntry( regkey ); if ( reg.count() == 4 ) { // check timestamp if ( lastModified == reg[3] ) { qt_version = reg[0].toUInt(0, 16); flags = reg[1].toUInt(0, 16); key = reg[2].latin1(); query_done = TRUE; warn_mismatch = FALSE; } } #if defined(Q_OS_UNIX) if ( ! query_done ) { // get the query information directly from the plugin without loading if ( qt_unix_query( library(), &qt_version, &flags, &key ) ) { // info read succesfully from library query_done = TRUE; } } #else // !Q_OS_UNIX if ( ! query_done ) { // get the query information by loading the plugin if ( !isLoaded() ) { Q_ASSERT( entry == 0 ); if ( !load() ) return; } # ifdef Q_CC_BOR typedef const char * __stdcall (*UCMQueryVerificationDataProc)(); # else typedef const char * (*UCMQueryVerificationDataProc)(); # endif UCMQueryVerificationDataProc ucmQueryVerificationdataProc; ucmQueryVerificationdataProc = (UCMQueryVerificationDataProc) resolve( "qt_ucm_query_verification_data" ); if ( !ucmQueryVerificationdataProc || !qt_parse_pattern( ucmQueryVerificationdataProc(), &qt_version, &flags, &key ) ) { qt_version = flags = 0; key = "unknown"; } else { query_done = TRUE; } } #endif // Q_OS_UNIX TQStringList queried; queried << TQString::number( qt_version,16 ) << TQString::number( flags, 16 ) << key << lastModified; if ( queried != reg ) { cache->writeEntry( regkey, queried ); // delete the cache, which forces the settings to be written delete cache; cache = 0; } if ( ! query_done ) { if ( warn_mismatch ) { qWarning( "Conflict in %s:\n Plugin cannot be queried successfully!", (const char*) TQFile::encodeName( library() ) ); } unload(); return; } if ( ! qt_verify( library(), qt_version, flags, key, warn_mismatch ) ) { unload(); return; } else if ( !isLoaded() ) { Q_ASSERT( entry == 0 ); if ( !load() ) return; } #ifdef Q_CC_BOR typedef TQUnknownInterface* __stdcall (*UCMInstanceProc)(); #else typedef TQUnknownInterface* (*UCMInstanceProc)(); #endif UCMInstanceProc ucmInstanceProc; ucmInstanceProc = (UCMInstanceProc) resolve( "ucm_instantiate" ); #if defined(QT_DEBUG_COMPONENT) if ( !ucmInstanceProc ) qWarning( "%s: Not a UCOM library.", (const char*) TQFile::encodeName(library()) ); #endif entry = ucmInstanceProc ? ucmInstanceProc() : 0; if ( entry ) { if ( entry->queryInterface( IID_QLibrary, (TQUnknownInterface**)&libiface ) == TQS_OK ) { if ( libiface && !libiface->init() ) { libiface->release(); libiface = 0; unload(); return; } } } else { #if defined(QT_DEBUG_COMPONENT) qWarning( "%s: No exported component provided.", (const char*) TQFile::encodeName(library()) ); #endif unload(); } } TQRESULT TQComLibrary::queryInterface( const TQUuid& request, TQUnknownInterface** iface ) { if ( !entry ) createInstanceInternal(); return entry ? entry->queryInterface( request, iface ) : TQE_NOCOMPONENT; } uint TQComLibrary::qtVersion() { if ( !entry ) createInstanceInternal(); return entry ? qt_version : 0; } #endif // QT_NO_COMPONENT