/************************************************************************* * * OpenOffice.org - a multi-platform office productivity suite * * $RCSfile: xsecverify.cxx,v $ * * $Revision: 1.8 $ * * last change: $Author: obo $ $Date: 2006-09-16 14:41:33 $ * * The Contents of this file are made available subject to * the terms of GNU Lesser General Public License Version 2.1. * * * GNU Lesser General Public License Version 2.1 * ============================================= * Copyright 2005 by Sun Microsystems, Inc. * 901 San Antonio Road, Palo Alto, CA 94303, USA * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License version 2.1, as published by the Free Software Foundation. * * This library 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 for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, * MA 02111-1307 USA * ************************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_xmlsecurity.hxx" #include #include "xsecparser.hxx" #ifndef _TOOLS_DEBUG_HXX //autogen wg. DBG_ASSERT #include #endif #include #include #include #include #include #include namespace cssu = com::sun::star::uno; namespace cssl = com::sun::star::lang; namespace cssxc = com::sun::star::xml::crypto; namespace cssxs = com::sun::star::xml::sax; /* xml security framework components */ #define SIGNATUREVERIFIER_COMPONENT "com.sun.star.xml.crypto.sax.SignatureVerifier" /* protected: for signature verify */ cssu::Reference< cssxc::sax::XReferenceResolvedListener > XSecController::prepareSignatureToRead( sal_Int32 nSecurityId) { if ( m_nStatusOfSecurityComponents != INITIALIZED ) { return NULL; } sal_Int32 nIdOfSignatureElementCollector; cssu::Reference< cssxc::sax::XReferenceResolvedListener > xReferenceResolvedListener; nIdOfSignatureElementCollector = m_xSAXEventKeeper->addSecurityElementCollector( cssxc::sax::ElementMarkPriority_BEFOREMODIFY, sal_False); m_xSAXEventKeeper->setSecurityId(nIdOfSignatureElementCollector, nSecurityId); /* * create a SignatureVerifier */ xReferenceResolvedListener = cssu::Reference< cssxc::sax::XReferenceResolvedListener >( mxMSF->createInstance( rtl::OUString::createFromAscii( SIGNATUREVERIFIER_COMPONENT )), cssu::UNO_QUERY); cssu::Reference xInitialization(xReferenceResolvedListener, cssu::UNO_QUERY); cssu::Sequence args(5); args[0] = cssu::makeAny(rtl::OUString::valueOf(nSecurityId)); args[1] = cssu::makeAny(m_xSAXEventKeeper); args[2] = cssu::makeAny(rtl::OUString::valueOf(nIdOfSignatureElementCollector)); args[3] = cssu::makeAny(m_xSecurityContext); args[4] = cssu::makeAny(m_xXMLSignature); xInitialization->initialize(args); cssu::Reference< cssxc::sax::XSignatureVerifyResultBroadcaster > signatureVerifyResultBroadcaster(xReferenceResolvedListener, cssu::UNO_QUERY); signatureVerifyResultBroadcaster->addSignatureVerifyResultListener( this ); cssu::Reference xReferenceResolvedBroadcaster (m_xSAXEventKeeper, cssu::UNO_QUERY); xReferenceResolvedBroadcaster->addReferenceResolvedListener( nIdOfSignatureElementCollector, xReferenceResolvedListener); cssu::Reference keyCollector (xReferenceResolvedListener, cssu::UNO_QUERY); keyCollector->setKeyId(0); return xReferenceResolvedListener; } void XSecController::addSignature() { cssu::Reference< cssxc::sax::XReferenceResolvedListener > xReferenceResolvedListener = NULL; sal_Int32 nSignatureId = 0; if (m_bVerifyCurrentSignature) { chainOn(true); xReferenceResolvedListener = prepareSignatureToRead( m_nReservedSignatureId ); m_bVerifyCurrentSignature = false; nSignatureId = m_nReservedSignatureId; } InternalSignatureInformation isi( nSignatureId, xReferenceResolvedListener ); m_vInternalSignatureInformations.push_back( isi ); } void XSecController::addReference( const rtl::OUString& ouUri) { InternalSignatureInformation &isi = m_vInternalSignatureInformations[m_vInternalSignatureInformations.size()-1]; isi.addReference(TYPE_SAMEDOCUMENT_REFERENCE,ouUri, -1 ); } void XSecController::addStreamReference( const rtl::OUString& ouUri, bool isBinary ) { sal_Int32 type = (isBinary?TYPE_BINARYSTREAM_REFERENCE:TYPE_XMLSTREAM_REFERENCE); InternalSignatureInformation &isi = m_vInternalSignatureInformations[m_vInternalSignatureInformations.size()-1]; if ( isi.xReferenceResolvedListener.is() ) { /* * get the input stream */ cssu::Reference< com::sun::star::io::XInputStream > xObjectInputStream = getObjectInputStream( ouUri ); if ( xObjectInputStream.is() ) { cssu::Reference xUriBinding (isi.xReferenceResolvedListener, cssu::UNO_QUERY); xUriBinding->setUriBinding(ouUri, xObjectInputStream); } } isi.addReference(type, ouUri, -1); } void XSecController::setReferenceCount() const { const InternalSignatureInformation &isi = m_vInternalSignatureInformations[m_vInternalSignatureInformations.size()-1]; if ( isi.xReferenceResolvedListener.is() ) { const SignatureReferenceInformations &refInfors = isi.signatureInfor.vSignatureReferenceInfors; int refNum = refInfors.size(); sal_Int32 referenceCount = 0; for(int i=0 ; i xReferenceCollector (isi.xReferenceResolvedListener, cssu::UNO_QUERY); xReferenceCollector->setReferenceCount( referenceCount ); } } void XSecController::setX509IssuerName( rtl::OUString& ouX509IssuerName ) { InternalSignatureInformation &isi = m_vInternalSignatureInformations[m_vInternalSignatureInformations.size()-1]; isi.signatureInfor.ouX509IssuerName = ouX509IssuerName; } void XSecController::setX509SerialNumber( rtl::OUString& ouX509SerialNumber ) { InternalSignatureInformation &isi = m_vInternalSignatureInformations[m_vInternalSignatureInformations.size()-1]; isi.signatureInfor.ouX509SerialNumber = ouX509SerialNumber; } void XSecController::setX509Certificate( rtl::OUString& ouX509Certificate ) { InternalSignatureInformation &isi = m_vInternalSignatureInformations[m_vInternalSignatureInformations.size()-1]; isi.signatureInfor.ouX509Certificate = ouX509Certificate; } void XSecController::setSignatureValue( rtl::OUString& ouSignatureValue ) { InternalSignatureInformation &isi = m_vInternalSignatureInformations[m_vInternalSignatureInformations.size()-1]; isi.signatureInfor.ouSignatureValue = ouSignatureValue; } void XSecController::setDigestValue( rtl::OUString& ouDigestValue ) { SignatureInformation &si = m_vInternalSignatureInformations[m_vInternalSignatureInformations.size()-1].signatureInfor; SignatureReferenceInformation &reference = si.vSignatureReferenceInfors[si.vSignatureReferenceInfors.size()-1]; reference.ouDigestValue = ouDigestValue; } void XSecController::setDate( rtl::OUString& ouDate ) { InternalSignatureInformation &isi = m_vInternalSignatureInformations[m_vInternalSignatureInformations.size()-1]; convertDateTime( isi.signatureInfor.stDateTime, ouDate ); isi.signatureInfor.ouDateTime = ouDate; } /* void XSecController::setTime( rtl::OUString& ouTime ) { InternalSignatureInformation &isi = m_vInternalSignatureInformations[m_vInternalSignatureInformations.size()-1]; isi.signatureInfor.ouTime = ouTime; } */ void XSecController::setId( rtl::OUString& ouId ) { InternalSignatureInformation &isi = m_vInternalSignatureInformations[m_vInternalSignatureInformations.size()-1]; isi.signatureInfor.ouSignatureId = ouId; } void XSecController::setPropertyId( rtl::OUString& ouPropertyId ) { InternalSignatureInformation &isi = m_vInternalSignatureInformations[m_vInternalSignatureInformations.size()-1]; isi.signatureInfor.ouPropertyId = ouPropertyId; } /* public: for signature verify */ void XSecController::collectToVerify( const rtl::OUString& referenceId ) { /* DBG_ASSERT( m_xSAXEventKeeper.is(), "the SAXEventKeeper is NULL" ); */ if ( m_nStatusOfSecurityComponents == INITIALIZED ) /* * if all security components are ready, verify the signature. */ { bool bJustChainingOn = false; cssu::Reference< cssxs::XDocumentHandler > xHandler = NULL; int i,j; int sigNum = m_vInternalSignatureInformations.size(); for (i=0; isetNextHandler(NULL); } sal_Int32 nKeeperId = m_xSAXEventKeeper->addSecurityElementCollector( cssxc::sax::ElementMarkPriority_BEFOREMODIFY, sal_False ); cssu::Reference xReferenceResolvedBroadcaster (m_xSAXEventKeeper, cssu::UNO_QUERY ); cssu::Reference xReferenceCollector ( isi.xReferenceResolvedListener, cssu::UNO_QUERY ); m_xSAXEventKeeper->setSecurityId(nKeeperId, isi.signatureInfor.nSecurityId); xReferenceResolvedBroadcaster->addReferenceResolvedListener( nKeeperId, isi.xReferenceResolvedListener); xReferenceCollector->setReferenceId( nKeeperId ); isi.vKeeperIds[j] = nKeeperId; break; } } } if ( bJustChainingOn ) { cssu::Reference< cssxs::XDocumentHandler > xSEKHandler(m_xSAXEventKeeper, cssu::UNO_QUERY); if (m_xElementStackKeeper.is()) { m_xElementStackKeeper->retrieve(xSEKHandler, sal_True); } m_xSAXEventKeeper->setNextHandler(xHandler); } } } void XSecController::addSignature( sal_Int32 nSignatureId ) { DBG_ASSERT( m_pXSecParser != NULL, "No XSecParser initialized" ); m_nReservedSignatureId = nSignatureId; m_bVerifyCurrentSignature = true; } cssu::Reference< cssxs::XDocumentHandler > XSecController::createSignatureReader() { m_pXSecParser = new XSecParser( this, NULL ); cssu::Reference< cssl::XInitialization > xInitialization = m_pXSecParser; setSAXChainConnector(xInitialization, NULL, NULL); return m_pXSecParser; } void XSecController::releaseSignatureReader() { clearSAXChainConnector( ); m_pXSecParser = NULL; }