/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /************************************************************************* * * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * Copyright 2000, 2010 Oracle and/or its affiliates. * * OpenOffice.org - a multi-platform office productivity suite * * This file is part of OpenOffice.org. * * OpenOffice.org is free software: you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License version 3 * only, as published by the Free Software Foundation. * * OpenOffice.org 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 Lesser General Public License version 3 for more details * (a copy is included in the LICENSE file that accompanied this code). * * You should have received a copy of the GNU Lesser General Public License * version 3 along with OpenOffice.org. If not, see * * for a copy of the LGPLv3 License. * ************************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_xmlsecurity.hxx" #include #include #include "xmlencryption_mscryptimpl.hxx" #include "xmldocumentwrapper_xmlsecimpl.hxx" #include "xmlelementwrapper_xmlsecimpl.hxx" #include "securityenvironment_mscryptimpl.hxx" #include "errorcallback.hxx" #include "xmlsec/xmlsec.h" #include "xmlsec/xmltree.h" #include "xmlsec/xmlenc.h" #include "xmlsec/crypto.h" #ifdef UNX #define stricmp strcasecmp #endif using namespace ::com::sun::star::uno ; using namespace ::com::sun::star::lang ; using ::com::sun::star::lang::XMultiServiceFactory ; using ::com::sun::star::lang::XSingleServiceFactory ; using ::rtl::OUString ; using ::com::sun::star::xml::wrapper::XXMLElementWrapper ; using ::com::sun::star::xml::wrapper::XXMLDocumentWrapper ; using ::com::sun::star::xml::crypto::XSecurityEnvironment ; using ::com::sun::star::xml::crypto::XXMLEncryption ; using ::com::sun::star::xml::crypto::XXMLEncryptionTemplate ; using ::com::sun::star::xml::crypto::XXMLSecurityContext ; using ::com::sun::star::xml::crypto::XMLEncryptionException ; XMLEncryption_MSCryptImpl :: XMLEncryption_MSCryptImpl( const Reference< XMultiServiceFactory >& aFactory ) : m_xServiceManager( aFactory ) { } XMLEncryption_MSCryptImpl :: ~XMLEncryption_MSCryptImpl() { } /* XXMLEncryption */ Reference< XXMLEncryptionTemplate > SAL_CALL XMLEncryption_MSCryptImpl :: encrypt( const Reference< XXMLEncryptionTemplate >& aTemplate , const Reference< XSecurityEnvironment >& aEnvironment ) throw( com::sun::star::xml::crypto::XMLEncryptionException, com::sun::star::uno::SecurityException ) { xmlSecKeysMngrPtr pMngr = NULL ; xmlSecEncCtxPtr pEncCtx = NULL ; xmlNodePtr pEncryptedData = NULL ; xmlNodePtr pContent = NULL ; if( !aTemplate.is() ) throw RuntimeException() ; if( !aEnvironment.is() ) throw RuntimeException() ; //Get Keys Manager Reference< XUnoTunnel > xSecTunnel( aEnvironment , UNO_QUERY ) ; if( !xSecTunnel.is() ) { throw RuntimeException() ; } SecurityEnvironment_MSCryptImpl* pSecEnv = ( SecurityEnvironment_MSCryptImpl* )xSecTunnel->getSomething( SecurityEnvironment_MSCryptImpl::getUnoTunnelId() ) ; if( pSecEnv == NULL ) throw RuntimeException() ; //Get the encryption template Reference< XXMLElementWrapper > xTemplate = aTemplate->getTemplate() ; if( !xTemplate.is() ) { throw RuntimeException() ; } Reference< XUnoTunnel > xTplTunnel( xTemplate , UNO_QUERY ) ; if( !xTplTunnel.is() ) { throw RuntimeException() ; } XMLElementWrapper_XmlSecImpl* pTemplate = ( XMLElementWrapper_XmlSecImpl* )xTplTunnel->getSomething( XMLElementWrapper_XmlSecImpl::getUnoTunnelImplementationId() ) ; if( pTemplate == NULL ) { throw RuntimeException() ; } pEncryptedData = pTemplate->getNativeElement() ; //Find the element to be encrypted. //This element is wrapped in the CipherValue sub-element. xmlNodePtr pCipherData = pEncryptedData->children; while (pCipherData != NULL && stricmp((const char *)(pCipherData->name), "CipherData")) { pCipherData = pCipherData->next; } if( pCipherData == NULL ) { throw XMLEncryptionException() ; } xmlNodePtr pCipherValue = pCipherData->children; while (pCipherValue != NULL && stricmp((const char *)(pCipherValue->name), "CipherValue")) { pCipherValue = pCipherValue->next; } if( pCipherValue == NULL ) { throw XMLEncryptionException() ; } pContent = pCipherValue->children; if( pContent == NULL ) { throw XMLEncryptionException() ; } xmlUnlinkNode(pContent); xmlAddNextSibling(pEncryptedData, pContent); //remember the position of the element to be signed sal_Bool isParentRef = sal_True; xmlNodePtr pParent = pEncryptedData->parent; xmlNodePtr referenceNode; if (pEncryptedData == pParent->children) { referenceNode = pParent; } else { referenceNode = pEncryptedData->prev; isParentRef = sal_False; } setErrorRecorder( ); pMngr = pSecEnv->createKeysManager() ; //i39448 if( !pMngr ) { throw RuntimeException() ; } //Create Encryption context pEncCtx = xmlSecEncCtxCreate( pMngr ) ; if( pEncCtx == NULL ) { pSecEnv->destroyKeysManager( pMngr ) ; //i39448 //throw XMLEncryptionException() ; clearErrorRecorder(); return aTemplate; } //Encrypt the template if( xmlSecEncCtxXmlEncrypt( pEncCtx , pEncryptedData , pContent ) < 0 ) { aTemplate->setStatus(::com::sun::star::xml::crypto::SecurityOperationStatus_UNKNOWN); xmlSecEncCtxDestroy( pEncCtx ) ; pSecEnv->destroyKeysManager( pMngr ) ; //i39448 clearErrorRecorder(); return aTemplate; } aTemplate->setStatus(::com::sun::star::xml::crypto::SecurityOperationStatus_OPERATION_SUCCEEDED); xmlSecEncCtxDestroy( pEncCtx ) ; pSecEnv->destroyKeysManager( pMngr ) ; //i39448 //get the new EncryptedData element if (isParentRef) { pTemplate->setNativeElement(referenceNode->children) ; } else { pTemplate->setNativeElement(referenceNode->next); } clearErrorRecorder(); return aTemplate ; } /* XXMLEncryption */ Reference< XXMLEncryptionTemplate > SAL_CALL XMLEncryption_MSCryptImpl :: decrypt( const Reference< XXMLEncryptionTemplate >& aTemplate , const Reference< XXMLSecurityContext >& aSecurityCtx ) throw( com::sun::star::xml::crypto::XMLEncryptionException , com::sun::star::uno::SecurityException) { xmlSecKeysMngrPtr pMngr = NULL ; xmlSecEncCtxPtr pEncCtx = NULL ; xmlNodePtr pEncryptedData = NULL ; if( !aTemplate.is() ) throw RuntimeException() ; if( !aSecurityCtx.is() ) throw RuntimeException() ; //Get Keys Manager Reference< XSecurityEnvironment > xSecEnv = aSecurityCtx->getSecurityEnvironmentByIndex( aSecurityCtx->getDefaultSecurityEnvironmentIndex()); Reference< XUnoTunnel > xSecTunnel( xSecEnv , UNO_QUERY ) ; if( !xSecTunnel.is() ) { throw RuntimeException() ; } SecurityEnvironment_MSCryptImpl* pSecEnv = ( SecurityEnvironment_MSCryptImpl* )xSecTunnel->getSomething( SecurityEnvironment_MSCryptImpl::getUnoTunnelId() ) ; if( pSecEnv == NULL ) throw RuntimeException() ; //Get the encryption template Reference< XXMLElementWrapper > xTemplate = aTemplate->getTemplate() ; if( !xTemplate.is() ) { throw RuntimeException() ; } Reference< XUnoTunnel > xTplTunnel( xTemplate , UNO_QUERY ) ; if( !xTplTunnel.is() ) { throw RuntimeException() ; } XMLElementWrapper_XmlSecImpl* pTemplate = ( XMLElementWrapper_XmlSecImpl* )xTplTunnel->getSomething( XMLElementWrapper_XmlSecImpl::getUnoTunnelImplementationId() ) ; if( pTemplate == NULL ) { throw RuntimeException() ; } pEncryptedData = pTemplate->getNativeElement() ; //remember the position of the element to be signed sal_Bool isParentRef = sal_True; xmlNodePtr pParent = pEncryptedData->parent; xmlNodePtr referenceNode; if (pEncryptedData == pParent->children) { referenceNode = pParent; } else { referenceNode = pEncryptedData->prev; isParentRef = sal_False; } setErrorRecorder( ); pMngr = pSecEnv->createKeysManager() ; //i39448 if( !pMngr ) { throw RuntimeException() ; } //Create Encryption context pEncCtx = xmlSecEncCtxCreate( pMngr ) ; if( pEncCtx == NULL ) { pSecEnv->destroyKeysManager( pMngr ) ; //i39448 //throw XMLEncryptionException() ; clearErrorRecorder(); return aTemplate; } //Decrypt the template if( xmlSecEncCtxDecrypt( pEncCtx , pEncryptedData ) < 0 || pEncCtx->result == NULL ) { aTemplate->setStatus(::com::sun::star::xml::crypto::SecurityOperationStatus_UNKNOWN); xmlSecEncCtxDestroy( pEncCtx ) ; pSecEnv->destroyKeysManager( pMngr ) ; //i39448 //throw XMLEncryptionException() ; clearErrorRecorder(); return aTemplate; } aTemplate->setStatus(::com::sun::star::xml::crypto::SecurityOperationStatus_OPERATION_SUCCEEDED); /*---------------------------------------- if( pEncCtx->resultReplaced != 0 ) { pContent = pEncryptedData ; Reference< XUnoTunnel > xTunnel( ret , UNO_QUERY ) ; if( !xTunnel.is() ) { xmlSecEncCtxDestroy( pEncCtx ) ; throw RuntimeException() ; } XMLElementWrapper_XmlSecImpl* pNode = ( XMLElementWrapper_XmlSecImpl* )xTunnel->getSomething( XMLElementWrapper_XmlSecImpl::getUnoTunnelImplementationId() ) ; if( pNode == NULL ) { xmlSecEncCtxDestroy( pEncCtx ) ; throw RuntimeException() ; } pNode->setNativeElement( pContent ) ; } else { xmlSecEncCtxDestroy( pEncCtx ) ; throw RuntimeException() ; } ----------------------------------------*/ //Destroy the encryption context xmlSecEncCtxDestroy( pEncCtx ) ; pSecEnv->destroyKeysManager( pMngr ) ; //i39448 //get the decrypted element XMLElementWrapper_XmlSecImpl * ret = new XMLElementWrapper_XmlSecImpl(isParentRef? (referenceNode->children):(referenceNode->next)); //return ret; aTemplate->setTemplate(ret); clearErrorRecorder(); return aTemplate; } /* XInitialization */ void SAL_CALL XMLEncryption_MSCryptImpl :: initialize( const Sequence< Any >& /*aArguments*/ ) throw( Exception, RuntimeException ) { // TBD } ; /* XServiceInfo */ OUString SAL_CALL XMLEncryption_MSCryptImpl :: getImplementationName() throw( RuntimeException ) { return impl_getImplementationName() ; } /* XServiceInfo */ sal_Bool SAL_CALL XMLEncryption_MSCryptImpl :: supportsService( const OUString& serviceName) throw( RuntimeException ) { Sequence< OUString > seqServiceNames = getSupportedServiceNames() ; const OUString* pArray = seqServiceNames.getConstArray() ; for( sal_Int32 i = 0 ; i < seqServiceNames.getLength() ; i ++ ) { if( *( pArray + i ) == serviceName ) return sal_True ; } return sal_False ; } /* XServiceInfo */ Sequence< OUString > SAL_CALL XMLEncryption_MSCryptImpl :: getSupportedServiceNames() throw( RuntimeException ) { return impl_getSupportedServiceNames() ; } //Helper for XServiceInfo Sequence< OUString > XMLEncryption_MSCryptImpl :: impl_getSupportedServiceNames() { ::osl::Guard< ::osl::Mutex > aGuard( ::osl::Mutex::getGlobalMutex() ) ; Sequence< OUString > seqServiceNames( 1 ) ; seqServiceNames.getArray()[0] = OUString(RTL_CONSTASCII_USTRINGPARAM("com.sun.star.xml.crypto.XMLEncryption")) ; return seqServiceNames ; } OUString XMLEncryption_MSCryptImpl :: impl_getImplementationName() throw( RuntimeException ) { return OUString(RTL_CONSTASCII_USTRINGPARAM("com.sun.star.xml.security.bridge.xmlsec.XMLEncryption_MSCryptImpl")) ; } //Helper for registry Reference< XInterface > SAL_CALL XMLEncryption_MSCryptImpl :: impl_createInstance( const Reference< XMultiServiceFactory >& aServiceManager ) throw( RuntimeException ) { return Reference< XInterface >( *new XMLEncryption_MSCryptImpl( aServiceManager ) ) ; } Reference< XSingleServiceFactory > XMLEncryption_MSCryptImpl :: impl_createFactory( const Reference< XMultiServiceFactory >& aServiceManager ) { //Reference< XSingleServiceFactory > xFactory ; //xFactory = ::cppu::createSingleFactory( aServiceManager , impl_getImplementationName , impl_createInstance , impl_getSupportedServiceNames ) ; //return xFactory ; return ::cppu::createSingleFactory( aServiceManager , impl_getImplementationName() , impl_createInstance , impl_getSupportedServiceNames() ) ; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */