/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include "sal/main.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace std; using namespace osl; using namespace cppu; using namespace com::sun::star::uno; using namespace com::sun::star::lang; using namespace com::sun::star::loader; using namespace com::sun::star::registry; using namespace com::sun::star::connection; using namespace com::sun::star::bridge; using namespace com::sun::star::container; namespace unoexe { static sal_Bool s_quiet = false; static inline void out( const sal_Char * pText ) { if (! s_quiet) fprintf( stderr, "%s", pText ); } static inline void out( const OUString & rText ) { if (! s_quiet) { OString aText( OUStringToOString( rText, RTL_TEXTENCODING_ASCII_US ) ); fprintf( stderr, "%s", aText.getStr() ); } } static const char arUsingText[] = "\nusing:\n\n" "uno [-c ComponentImplementationName -l LocationUrl | -s ServiceName]\n" " [-u uno:(socket[,host=HostName][,port=nnn]|pipe[,name=PipeName]);;Name\n" " [--singleaccept] [--singleinstance]]\n" " [--quiet]\n" " [-- Argument1 Argument2 ...]\n"; static sal_Bool readOption( OUString * pValue, const sal_Char * pOpt, sal_uInt32 * pnIndex, const OUString & aArg) throw (RuntimeException) { const OUString dash("-"); if(aArg.indexOf(dash) != 0) return sal_False; OUString aOpt = OUString::createFromAscii( pOpt ); if (aArg.getLength() < aOpt.getLength()) return sal_False; if (aOpt.equalsIgnoreAsciiCase( aArg.copy(1) )) { // take next argument ++(*pnIndex); rtl_getAppCommandArg(*pnIndex, &pValue->pData); if (*pnIndex >= rtl_getAppCommandArgCount() || pValue->copy(1).equals(dash)) { throw RuntimeException( "incomplete option \"-" + aOpt + "\" given!", Reference< XInterface >() ); } else { #if OSL_DEBUG_LEVEL > 1 out( "\n> identified option -" ); out( pOpt ); out( " = " ); OString tmp = OUStringToOString(aArg, RTL_TEXTENCODING_ASCII_US); out( tmp.getStr() ); #endif ++(*pnIndex); return sal_True; } } else if (aArg.indexOf(aOpt) == 1) { *pValue = aArg.copy(1 + aOpt.getLength()); #if OSL_DEBUG_LEVEL > 1 out( "\n> identified option -" ); out( pOpt ); out( " = " ); OString tmp = OUStringToOString(aArg.copy(aOpt.getLength()), RTL_TEXTENCODING_ASCII_US); out( tmp.getStr() ); #endif ++(*pnIndex); return sal_True; } return sal_False; } static sal_Bool readOption( sal_Bool * pbOpt, const sal_Char * pOpt, sal_uInt32 * pnIndex, const OUString & aArg) { const OUString dashdash("--"); OUString aOpt = OUString::createFromAscii(pOpt); if(aArg.indexOf(dashdash) == 0 && aOpt.equals(aArg.copy(2))) { ++(*pnIndex); *pbOpt = sal_True; #if OSL_DEBUG_LEVEL > 1 out( "\n> identified option --" ); out( pOpt ); #endif return sal_True; } return sal_False; } template< class T > void createInstance( Reference< T > & rxOut, const Reference< XComponentContext > & xContext, const OUString & rServiceName ) throw (Exception) { Reference< XMultiComponentFactory > xMgr( xContext->getServiceManager() ); Reference< XInterface > x( xMgr->createInstanceWithContext( rServiceName, xContext ) ); if (! x.is()) { throw RuntimeException( "cannot get service instance \"" + rServiceName + "\"!", Reference< XInterface >() ); } rxOut = Reference< T >::query( x ); if (! rxOut.is()) { const Type & rType = ::getCppuType( (const Reference< T > *)0 ); throw RuntimeException( "service instance \"" + rServiceName + "\" does not support demanded interface \"" + rType.getTypeName() + "\"!", Reference< XInterface >() ); } } static Reference< XInterface > loadComponent( const Reference< XComponentContext > & xContext, const OUString & rImplName, const OUString & rLocation ) throw (Exception) { // determine loader to be used sal_Int32 nDot = rLocation.lastIndexOf( '.' ); if (nDot > 0 && nDot < rLocation.getLength()) { Reference< XImplementationLoader > xLoader; OUString aExt( rLocation.copy( nDot +1 ) ); if (aExt.compareToAscii( "dll" ) == 0 || aExt.compareToAscii( "exe" ) == 0 || aExt.compareToAscii( "dylib" ) == 0 || aExt.compareToAscii( "so" ) == 0) { createInstance( xLoader, xContext, OUString("com.sun.star.loader.SharedLibrary") ); } else if (aExt.compareToAscii( "jar" ) == 0 || aExt.compareToAscii( "class" ) == 0) { createInstance( xLoader, xContext, OUString("com.sun.star.loader.Java") ); } else { throw RuntimeException( "unknown extension of \"" + rLocation + "\"! No loader available!", Reference< XInterface >() ); } Reference< XInterface > xInstance; // activate Reference< XInterface > xFactory( xLoader->activate( rImplName, OUString(), rLocation, Reference< XRegistryKey >() ) ); if (xFactory.is()) { Reference< XSingleComponentFactory > xCFac( xFactory, UNO_QUERY ); if (xCFac.is()) { xInstance = xCFac->createInstanceWithContext( xContext ); } else { Reference< XSingleServiceFactory > xSFac( xFactory, UNO_QUERY ); if (xSFac.is()) { out( "\n> warning: ignroing context for implementation \"" ); out( rImplName ); out( "\"!" ); xInstance = xSFac->createInstance(); } } } if (! xInstance.is()) { throw RuntimeException( "activating component \"" + rImplName + "\" from location \"" + rLocation + "\" failed!", Reference< XInterface >() ); } return xInstance; } else { throw RuntimeException( "location \"" + rLocation + "\" has no extension! Cannot determine loader to be used!", Reference< XInterface >() ); } } class OInstanceProvider : public WeakImplHelper1< XInstanceProvider > { Reference< XComponentContext > _xContext; Mutex _aSingleInstanceMutex; Reference< XInterface > _xSingleInstance; sal_Bool _bSingleInstance; OUString _aImplName; OUString _aLocation; OUString _aServiceName; Sequence< Any > _aInitParams; OUString _aInstanceName; inline Reference< XInterface > createInstance() throw (Exception); public: OInstanceProvider( const Reference< XComponentContext > & xContext, const OUString & rImplName, const OUString & rLocation, const OUString & rServiceName, const Sequence< Any > & rInitParams, sal_Bool bSingleInstance, const OUString & rInstanceName ) : _xContext( xContext ) , _bSingleInstance( bSingleInstance ) , _aImplName( rImplName ) , _aLocation( rLocation ) , _aServiceName( rServiceName ) , _aInitParams( rInitParams ) , _aInstanceName( rInstanceName ) {} // XInstanceProvider virtual Reference< XInterface > SAL_CALL getInstance( const OUString & rName ) throw (NoSuchElementException, RuntimeException); }; inline Reference< XInterface > OInstanceProvider::createInstance() throw (Exception) { Reference< XInterface > xRet; if (!_aImplName.isEmpty()) // manually via loader xRet = loadComponent( _xContext, _aImplName, _aLocation ); else // via service manager unoexe::createInstance( xRet, _xContext, _aServiceName ); // opt XInit Reference< XInitialization > xInit( xRet, UNO_QUERY ); if (xInit.is()) xInit->initialize( _aInitParams ); return xRet; } Reference< XInterface > OInstanceProvider::getInstance( const OUString & rName ) throw (NoSuchElementException, RuntimeException) { try { if (_aInstanceName == rName) { Reference< XInterface > xRet; if (_aImplName.isEmpty() && _aServiceName.isEmpty()) { OSL_ASSERT( rName == "uno.ComponentContext" ); xRet = _xContext; } else if (_bSingleInstance) { if (! _xSingleInstance.is()) { MutexGuard aGuard( _aSingleInstanceMutex ); if (! _xSingleInstance.is()) { _xSingleInstance = createInstance(); } } xRet = _xSingleInstance; } else { xRet = createInstance(); } return xRet; } } catch (Exception & rExc) { out( "\n> error: " ); out( rExc.Message ); } throw NoSuchElementException( "no such element \"" + rName + "\"!", Reference< XInterface >() ); } struct ODisposingListener : public WeakImplHelper1< XEventListener > { Condition cDisposed; // XEventListener virtual void SAL_CALL disposing( const EventObject & rEvt ) throw (RuntimeException); static void waitFor( const Reference< XComponent > & xComp ); }; void ODisposingListener::disposing( const EventObject & ) throw (RuntimeException) { cDisposed.set(); } void ODisposingListener::waitFor( const Reference< XComponent > & xComp ) { ODisposingListener * pListener = new ODisposingListener(); Reference< XEventListener > xListener( pListener ); xComp->addEventListener( xListener ); pListener->cDisposed.wait(); } } // namespace unoexe using namespace unoexe; SAL_IMPLEMENT_MAIN() { sal_uInt32 nCount = rtl_getAppCommandArgCount(); if (nCount == 0) { out( arUsingText ); return 0; } sal_Int32 nRet = 0; Reference< XComponentContext > xContext; try { OUString aImplName, aLocation, aServiceName, aUnoUrl; Sequence< OUString > aParams; sal_Bool bSingleAccept = sal_False; sal_Bool bSingleInstance = sal_False; // read command line arguments sal_uInt32 nPos = 0; // read up to arguments while (nPos < nCount) { OUString arg; rtl_getAppCommandArg(nPos, &arg.pData); const OUString dashdash("--"); if (dashdash == arg) { ++nPos; break; } if (!(readOption( &aImplName, "c", &nPos, arg) || readOption( &aLocation, "l", &nPos, arg) || readOption( &aServiceName, "s", &nPos, arg) || readOption( &aUnoUrl, "u", &nPos, arg) || readOption( &s_quiet, "quiet", &nPos, arg) || readOption( &bSingleAccept, "singleaccept", &nPos, arg) || readOption( &bSingleInstance, "singleinstance", &nPos, arg))) { throw RuntimeException( "unexpected argument \"" + arg + "\"", Reference< XInterface >() ); } } if (!(aImplName.isEmpty() || aServiceName.isEmpty())) throw RuntimeException("give component exOR service name!", Reference< XInterface >() ); if (aImplName.isEmpty() && aServiceName.isEmpty()) { if (! aUnoUrl.endsWithIgnoreAsciiCase( ";uno.ComponentContext" )) throw RuntimeException( OUString("expected UNO-URL with instance name uno.ComponentContext!" ), Reference() ); if (bSingleInstance) throw RuntimeException( OUString("unexpected option --singleinstance!"), Reference() ); } if (!aImplName.isEmpty() && aLocation.isEmpty()) throw RuntimeException("give component location!", Reference< XInterface >() ); if (!aServiceName.isEmpty() && !aLocation.isEmpty()) out( "\n> warning: service name given, will ignore location!" ); // read component params aParams.realloc( nCount - nPos ); OUString * pParams = aParams.getArray(); sal_uInt32 nOffset = nPos; for ( ; nPos < nCount; ++nPos ) { rtl_getAppCommandArg( nPos, &pParams[nPos -nOffset].pData ); } xContext = defaultBootstrap_InitialComponentContext(); // accept, instanciate, etc. if (!aUnoUrl.isEmpty()) // accepting connections { sal_Int32 nIndex = 0, nTokens = 0; do { aUnoUrl.getToken( 0, ';', nIndex ); nTokens++; } while( nIndex != -1 ); if (nTokens != 3 || aUnoUrl.getLength() < 10 || !aUnoUrl.copy( 0, 4 ).equalsIgnoreAsciiCase( OUString("uno:") )) { throw RuntimeException("illegal uno url given!", Reference< XInterface >() ); } nIndex = 0; OUString aConnectDescr( aUnoUrl.getToken( 0, ';', nIndex ).copy( 4 ) ); // uno:CONNECTDESCR;iiop;InstanceName OUString aInstanceName( aUnoUrl.getToken( 1, ';', nIndex ) ); Reference< XAcceptor > xAcceptor = Acceptor::create(xContext); // init params Sequence< Any > aInitParams( aParams.getLength() ); const OUString * p = aParams.getConstArray(); Any * pInitParams = aInitParams.getArray(); for ( sal_Int32 i = aParams.getLength(); i--; ) { pInitParams[i] = makeAny( p[i] ); } // instance provider Reference< XInstanceProvider > xInstanceProvider( new OInstanceProvider( xContext, aImplName, aLocation, aServiceName, aInitParams, bSingleInstance, aInstanceName ) ); nIndex = 0; OUString aUnoUrlToken( aUnoUrl.getToken( 1, ';', nIndex ) ); for (;;) { // accepting out( "\n> accepting " ); out( aConnectDescr ); out( "..." ); Reference< XConnection > xConnection( xAcceptor->accept( aConnectDescr ) ); out( "connection established." ); Reference< XBridgeFactory > xBridgeFactory; createInstance( xBridgeFactory, xContext, OUString("com.sun.star.bridge.BridgeFactory") ); // bridge Reference< XBridge > xBridge( xBridgeFactory->createBridge( OUString(), aUnoUrlToken, xConnection, xInstanceProvider ) ); if (bSingleAccept) { Reference< XComponent > xComp( xBridge, UNO_QUERY ); if (! xComp.is()) throw RuntimeException( OUString( "bridge factory does not export interface \"com.sun.star.lang.XComponent\"!" ), Reference< XInterface >() ); ODisposingListener::waitFor( xComp ); xComp->dispose(); // explicitly dispose the remote bridge so that it joins // on all spawned threads before process exit (see // binaryurp/source/bridge.cxx for details) break; } } } else // no uno url { Reference< XInterface > xInstance; if (!aImplName.isEmpty()) // manually via loader xInstance = loadComponent( xContext, aImplName, aLocation ); else // via service manager createInstance( xInstance, xContext, aServiceName ); // execution Reference< XMain > xMain( xInstance, UNO_QUERY ); if (xMain.is()) { nRet = xMain->run( aParams ); } else { Reference< XComponent > xComp( xInstance, UNO_QUERY ); if (xComp.is()) xComp->dispose(); throw RuntimeException( OUString( "component does not export interface interface \"com.sun.star.lang.XMain\"!" ), Reference< XInterface >() ); } } } catch (Exception & rExc) { out( "\n> error: " ); out( rExc.Message ); out( "\n> dying..." ); nRet = 1; } // cleanup Reference< XComponent > xComp( xContext, UNO_QUERY ); if (xComp.is()) xComp->dispose(); #if OSL_DEBUG_LEVEL > 1 out( "\n" ); #endif return nRet; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */