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|
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4; fill-column: 100 -*- */
/*
* 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 <config_gpgme.h>
#include <xsecctl.hxx>
#include <documentsignaturehelper.hxx>
#include <framework/saxeventkeeperimpl.hxx>
#include <xmlsec/xmldocumentwrapper_xmlsecimpl.hxx>
#if HAVE_FEATURE_GPGME
# include <gpg/xmlsignature_gpgimpl.hxx>
#endif
#include <com/sun/star/xml/crypto/sax/ElementMarkPriority.hpp>
#include <com/sun/star/xml/crypto/sax/XReferenceResolvedBroadcaster.hpp>
#include <com/sun/star/xml/crypto/sax/XMissionTaker.hpp>
#include <com/sun/star/xml/crypto/sax/XReferenceCollector.hpp>
#include <com/sun/star/xml/crypto/sax/XSAXEventKeeperStatusChangeBroadcaster.hpp>
#include <com/sun/star/xml/crypto/SecurityOperationStatus.hpp>
#include <com/sun/star/embed/XHierarchicalStorageAccess.hpp>
#include <com/sun/star/embed/ElementModes.hpp>
#include <com/sun/star/beans/StringPair.hpp>
#include <xmloff/attrlist.hxx>
#include <rtl/math.hxx>
#include <rtl/ref.hxx>
#include <unotools/datetime.hxx>
#include <comphelper/ofopxmlhelper.hxx>
#include <sax/tools/converter.hxx>
#include "ooxmlsecexporter.hxx"
#include <xmlsignaturehelper2.hxx>
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;
using namespace com::sun::star;
namespace
{
OUString getDigestURI(sal_Int32 nID)
{
switch( nID )
{
case cssxc::DigestID::SHA1:
return OUString(ALGO_XMLDSIGSHA1);
case cssxc::DigestID::SHA256:
return OUString(ALGO_XMLDSIGSHA256);
case cssxc::DigestID::SHA512:
return OUString(ALGO_XMLDSIGSHA512);
default:
return OUString(ALGO_XMLDSIGSHA1);
}
}
OUString getSignatureURI(svl::crypto::SignatureMethodAlgorithm eAlgorithm, sal_Int32 nDigestID)
{
OUString aRet;
if (eAlgorithm == svl::crypto::SignatureMethodAlgorithm::ECDSA)
{
switch (nDigestID)
{
case cssxc::DigestID::SHA1:
aRet = ALGO_ECDSASHA1;
break;
case cssxc::DigestID::SHA256:
aRet = ALGO_ECDSASHA256;
break;
case cssxc::DigestID::SHA512:
aRet = ALGO_ECDSASHA512;
break;
default:
aRet = ALGO_ECDSASHA1;
break;
}
}
if (!aRet.isEmpty())
return aRet;
switch (nDigestID)
{
case cssxc::DigestID::SHA1:
return OUString(ALGO_RSASHA1);
case cssxc::DigestID::SHA256:
return OUString(ALGO_RSASHA256);
case cssxc::DigestID::SHA512:
return OUString(ALGO_RSASHA512);
default:
return OUString(ALGO_RSASHA1);
}
}
}
XSecController::XSecController( const cssu::Reference<cssu::XComponentContext>& rxCtx )
: mxCtx(rxCtx)
, m_nNextSecurityId(1)
, m_bIsPreviousNodeInitializable(false)
, m_bIsSAXEventKeeperConnected(false)
, m_bIsCollectingElement(false)
, m_bIsBlocking(false)
, m_eStatusOfSecurityComponents(InitializationState::UNINITIALIZED)
, m_bIsSAXEventKeeperSticky(false)
, m_nReservedSignatureId(0)
, m_bVerifyCurrentSignature(false)
{
}
XSecController::~XSecController()
{
}
/*
* private methods
*/
int XSecController::findSignatureInfor( sal_Int32 nSecurityId) const
/****** XSecController/findSignatureInfor *************************************
*
* NAME
* findSignatureInfor -- find SignatureInformation struct for a particular
* signature
*
* SYNOPSIS
* index = findSignatureInfor( nSecurityId );
*
* INPUTS
* nSecurityId - the signature's id
*
* RESULT
* index - the index of the signature, or -1 when no such signature
* existing
******************************************************************************/
{
int i;
int size = m_vInternalSignatureInformations.size();
for (i=0; i<size; ++i)
{
if (m_vInternalSignatureInformations[i].signatureInfor.nSecurityId == nSecurityId)
{
return i;
}
}
return -1;
}
void XSecController::createXSecComponent( )
/****** XSecController/createXSecComponent ************************************
*
* NAME
* bResult = createXSecComponent -- creates xml security components
*
* FUNCTION
* Creates xml security components, including:
* 1. an xml signature bridge component
* 2. an XMLDocumentWrapper component
* 3. a SAXEventKeeper component
******************************************************************************/
{
/*
* marks all security components are not available.
*/
m_eStatusOfSecurityComponents = InitializationState::FAILTOINITIALIZED;
m_xXMLSignature = nullptr;
m_xXMLDocumentWrapper = nullptr;
m_xSAXEventKeeper = nullptr;
cssu::Reference< cssl::XMultiComponentFactory > xMCF( mxCtx->getServiceManager() );
#if HAVE_FEATURE_GPGME
uno::Reference< lang::XServiceInfo > xServiceInfo( m_xSecurityContext, cssu::UNO_QUERY );
if (xServiceInfo->getImplementationName() == "com.sun.star.xml.security.gpg.XMLSecurityContext_GpgImpl")
m_xXMLSignature.set(new XMLSignature_GpgImpl());
else // xmlsec or mscrypt
#endif
m_xXMLSignature.set(xMCF->createInstanceWithContext("com.sun.star.xml.crypto.XMLSignature", mxCtx), cssu::UNO_QUERY);
bool bSuccess = m_xXMLSignature.is();
if ( bSuccess )
/*
* XMLSignature created successfully.
*/
m_xXMLDocumentWrapper = new XMLDocumentWrapper_XmlSecImpl();
bSuccess &= m_xXMLDocumentWrapper.is();
if ( bSuccess )
m_xSAXEventKeeper = new SAXEventKeeperImpl();
bSuccess &= m_xSAXEventKeeper.is();
if (bSuccess)
/*
* SAXEventKeeper created successfully.
*/
{
cssu::Sequence <cssu::Any> arg(1);
arg[0] <<= uno::Reference<xml::wrapper::XXMLDocumentWrapper>(m_xXMLDocumentWrapper.get());
m_xSAXEventKeeper->initialize(arg);
cssu::Reference< cssxc::sax::XSAXEventKeeperStatusChangeListener >
xStatusChangeListener = this;
m_xSAXEventKeeper->addSAXEventKeeperStatusChangeListener( xStatusChangeListener );
m_eStatusOfSecurityComponents = InitializationState::INITIALIZED;
}
}
bool XSecController::chainOn()
/****** XSecController/chainOn ************************************************
*
* NAME
* chainOn -- tries to connect the SAXEventKeeper with the SAX chain.
*
* SYNOPSIS
* bJustChainingOn = chainOn();
*
* FUNCTION
* First, checks whether the SAXEventKeeper is on the SAX chain. If not,
* creates xml security components, and chains the SAXEventKeeper into
* the SAX chain.
* Before being chained in, the SAXEventKeeper needs to receive all
* missed key SAX events, which can promise the DOM tree bufferred by the
* SAXEventKeeper has the same structure with the original document.
*
* RESULT
* bJustChainingOn - whether the SAXEventKeeper is just chained into the
* SAX chain.
*
* NOTES
* Sometimes, the last key SAX event can't be transferred to the
* SAXEventKeeper together.
* For instance, at the time an referenced element is detected, the
* startElement event has already been reserved by the ElementStackKeeper.
* Meanwhile, an ElementCollector needs to be created before the
* SAXEventKeeper receives that startElement event.
* So for the SAXEventKeeper, it needs to receive all missed key SAX
* events except that startElement event, then adds a new
* ElementCollector, then receives that startElement event.
******************************************************************************/
{
bool rc = false;
if (!m_bIsSAXEventKeeperSticky && !m_bIsSAXEventKeeperConnected)
{
if ( m_eStatusOfSecurityComponents == InitializationState::UNINITIALIZED )
{
createXSecComponent();
}
if ( m_eStatusOfSecurityComponents == InitializationState::INITIALIZED )
/*
* if all security components are ready, chains on the SAXEventKeeper
*/
{
/*
* disconnect the SAXEventKeeper with its current output handler,
* to make sure no SAX event is forwarded during the connecting
* phase.
*/
m_xSAXEventKeeper->setNextHandler( nullptr );
cssu::Reference< cssxs::XDocumentHandler > xSEKHandler(static_cast<cppu::OWeakObject*>(m_xSAXEventKeeper.get()), cssu::UNO_QUERY);
/*
* connects the previous document handler on the SAX chain
*/
if ( m_xPreviousNodeOnSAXChain.is() )
{
if ( m_bIsPreviousNodeInitializable )
{
cssu::Reference< cssl::XInitialization > xInitialization
(m_xPreviousNodeOnSAXChain, cssu::UNO_QUERY);
cssu::Sequence<cssu::Any> aArgs( 1 );
aArgs[0] <<= xSEKHandler;
xInitialization->initialize(aArgs);
}
else
{
cssu::Reference< cssxs::XParser > xParser
(m_xPreviousNodeOnSAXChain, cssu::UNO_QUERY);
xParser->setDocumentHandler( xSEKHandler );
}
}
/*
* connects the next document handler on the SAX chain
*/
m_xSAXEventKeeper->setNextHandler(uno::Reference<xml::sax::XDocumentHandler>());
m_bIsSAXEventKeeperConnected = true;
rc = true;
}
}
return rc;
}
void XSecController::chainOff()
/****** XSecController/chainOff ***********************************************
*
* NAME
* chainOff -- disconnects the SAXEventKeeper from the SAX chain.
******************************************************************************/
{
if (!m_bIsSAXEventKeeperSticky )
{
if (m_bIsSAXEventKeeperConnected)
{
m_xSAXEventKeeper->setNextHandler( nullptr );
if ( m_xPreviousNodeOnSAXChain.is() )
{
if ( m_bIsPreviousNodeInitializable )
{
cssu::Reference< cssl::XInitialization > xInitialization
(m_xPreviousNodeOnSAXChain, cssu::UNO_QUERY);
cssu::Sequence<cssu::Any> aArgs( 1 );
aArgs[0] <<= uno::Reference<xml::sax::XDocumentHandler>();
xInitialization->initialize(aArgs);
}
else
{
cssu::Reference< cssxs::XParser > xParser(m_xPreviousNodeOnSAXChain, cssu::UNO_QUERY);
xParser->setDocumentHandler(uno::Reference<xml::sax::XDocumentHandler>());
}
}
m_bIsSAXEventKeeperConnected = false;
}
}
}
void XSecController::checkChainingStatus()
/****** XSecController/checkChainingStatus ************************************
*
* NAME
* checkChainingStatus -- connects or disconnects the SAXEventKeeper
* according to the current situation.
*
* SYNOPSIS
* checkChainingStatus( );
*
* FUNCTION
* The SAXEventKeeper is chained into the SAX chain, when:
* 1. some element is being collected, or
* 2. the SAX event stream is blocking.
* Otherwise, chain off the SAXEventKeeper.
******************************************************************************/
{
if ( m_bIsCollectingElement || m_bIsBlocking )
{
chainOn();
}
else
{
chainOff();
}
}
void XSecController::initializeSAXChain()
/****** XSecController/initializeSAXChain *************************************
*
* NAME
* initializeSAXChain -- initializes the SAX chain according to the
* current setting.
*
* FUNCTION
* Initializes the SAX chain, if the SAXEventKeeper is asked to be always
* on the SAX chain, chains it on. Otherwise, starts the
* ElementStackKeeper to reserve key SAX events.
******************************************************************************/
{
m_bIsSAXEventKeeperConnected = false;
m_bIsCollectingElement = false;
m_bIsBlocking = false;
chainOff();
}
cssu::Reference< css::io::XInputStream >
XSecController::getObjectInputStream( const OUString& objectURL )
/****** XSecController/getObjectInputStream ************************************
*
* NAME
* getObjectInputStream -- get a XInputStream interface from a SotStorage
*
* SYNOPSIS
* xInputStream = getObjectInputStream( objectURL );
*
* INPUTS
* objectURL - the object uri
*
* RESULT
* xInputStream - the XInputStream interface
******************************************************************************/
{
cssu::Reference< css::io::XInputStream > xObjectInputStream;
SAL_WARN_IF( !m_xUriBinding.is(), "xmlsecurity.helper", "Need XUriBinding!" );
xObjectInputStream = m_xUriBinding->getUriBinding(objectURL);
return xObjectInputStream;
}
/*
* public methods
*/
sal_Int32 XSecController::getNewSecurityId( )
{
sal_Int32 nId = m_nNextSecurityId;
m_nNextSecurityId++;
return nId;
}
void XSecController::startMission(const rtl::Reference<UriBindingHelper>& xUriBinding, const cssu::Reference< cssxc::XXMLSecurityContext >& xSecurityContext )
/****** XSecController/startMission *******************************************
*
* NAME
* startMission -- starts a new security mission.
*
* FUNCTION
* get ready for a new mission.
*
* INPUTS
* xUriBinding - the Uri binding that provide maps between uris and
* XInputStreams
* xSecurityContext - the security context component which can provide
* cryptoken
******************************************************************************/
{
m_xUriBinding = xUriBinding;
m_eStatusOfSecurityComponents = InitializationState::UNINITIALIZED;
m_xSecurityContext = xSecurityContext;
m_vInternalSignatureInformations.clear();
m_bVerifyCurrentSignature = false;
}
void XSecController::setSAXChainConnector(const cssu::Reference< cssl::XInitialization >& xInitialization)
/****** XSecController/setSAXChainConnector ***********************************
*
* NAME
* setSAXChainConnector -- configures the components which will
* collaborate with the SAXEventKeeper on the SAX chain.
*
* SYNOPSIS
* setSAXChainConnector(xInitialization);
*
* INPUTS
* xInitialization - the previous node on the SAX chain
******************************************************************************/
{
m_bIsPreviousNodeInitializable = true;
m_xPreviousNodeOnSAXChain = xInitialization;
initializeSAXChain( );
}
void XSecController::clearSAXChainConnector()
/****** XSecController/clearSAXChainConnector *********************************
*
* NAME
* clearSAXChainConnector -- resets the collaborating components.
******************************************************************************/
{
chainOff();
m_xPreviousNodeOnSAXChain = nullptr;
}
void XSecController::endMission()
/****** XSecController/endMission *********************************************
*
* NAME
* endMission -- forces to end all missions
*
* FUNCTION
* Deletes all signature information and forces all missions to an end.
******************************************************************************/
{
sal_Int32 size = m_vInternalSignatureInformations.size();
for (int i=0; i<size; ++i)
{
if ( m_eStatusOfSecurityComponents == InitializationState::INITIALIZED )
/*
* ResolvedListener only exist when the security components are created.
*/
{
cssu::Reference< cssxc::sax::XMissionTaker > xMissionTaker
( m_vInternalSignatureInformations[i].xReferenceResolvedListener, cssu::UNO_QUERY );
/*
* asks the SignatureCreator/SignatureVerifier to release
* all resources it uses.
*/
xMissionTaker->endMission();
}
}
m_xUriBinding = nullptr;
m_xSecurityContext = nullptr;
/*
* free the status change listener reference to this object
*/
if (m_xSAXEventKeeper.is())
m_xSAXEventKeeper->addSAXEventKeeperStatusChangeListener( nullptr );
}
namespace
{
void writeUnsignedProperties(
const css::uno::Reference<css::xml::sax::XDocumentHandler>& xDocumentHandler,
const SignatureInformation& signatureInfo)
{
{
rtl::Reference<SvXMLAttributeList> pAttributeList(new SvXMLAttributeList());
pAttributeList->AddAttribute("Id", "idUnsignedProperties");
xDocumentHandler->startElement("xd:UnsignedProperties", uno::Reference<xml::sax::XAttributeList>(pAttributeList.get()));
}
{
xDocumentHandler->startElement("xd:UnsignedSignatureProperties", uno::Reference<xml::sax::XAttributeList>(new SvXMLAttributeList()));
{
xDocumentHandler->startElement("xd:CertificateValues", uno::Reference<xml::sax::XAttributeList>(new SvXMLAttributeList()));
{
for (const auto& i: signatureInfo.maEncapsulatedX509Certificates)
{
xDocumentHandler->startElement("xd:EncapsulatedX509Certificate", uno::Reference<xml::sax::XAttributeList>(new SvXMLAttributeList()));
xDocumentHandler->characters(i);
xDocumentHandler->endElement("xd:EncapsulatedX509Certificate");
}
}
xDocumentHandler->endElement("xd:CertificateValues");
}
xDocumentHandler->endElement("xd:UnsignedSignatureProperties");
}
xDocumentHandler->endElement("xd:UnsignedProperties");
}
}
void XSecController::exportSignature(
const cssu::Reference<cssxs::XDocumentHandler>& xDocumentHandler,
const SignatureInformation& signatureInfo,
bool bXAdESCompliantIfODF )
/****** XSecController/exportSignature ****************************************
*
* NAME
* exportSignature -- export a signature structure to an XDocumentHandler
*
* SYNOPSIS
* exportSignature( xDocumentHandler, signatureInfo);
*
* INPUTS
* xDocumentHandler - the document handler to receive the signature
* signatureInfo - signature to be exported
******************************************************************************/
{
const SignatureReferenceInformations& vReferenceInfors = signatureInfo.vSignatureReferenceInfors;
SvXMLAttributeList *pAttributeList;
/*
* Write Signature element
*/
pAttributeList = new SvXMLAttributeList();
pAttributeList->AddAttribute(
"xmlns",
NS_XMLDSIG);
if (!signatureInfo.ouSignatureId.isEmpty())
{
pAttributeList->AddAttribute(
"Id",
signatureInfo.ouSignatureId);
}
xDocumentHandler->startElement( "Signature", cssu::Reference< cssxs::XAttributeList > (pAttributeList));
{
/* Write SignedInfo element */
xDocumentHandler->startElement(
"SignedInfo",
cssu::Reference< cssxs::XAttributeList > (new SvXMLAttributeList()));
{
/* Write CanonicalizationMethod element */
pAttributeList = new SvXMLAttributeList();
pAttributeList->AddAttribute(
"Algorithm",
ALGO_C14N);
xDocumentHandler->startElement( "CanonicalizationMethod", cssu::Reference< cssxs::XAttributeList > (pAttributeList) );
xDocumentHandler->endElement( "CanonicalizationMethod" );
/* Write SignatureMethod element */
pAttributeList = new SvXMLAttributeList();
// TODO: actually roundtrip this value from parsing documentsignatures.xml - entirely
// broken to assume this would in any way relate to the 1st reference's digest algo
// Assume that all Reference elements use the same DigestMethod:Algorithm, and that the
// SignatureMethod:Algorithm should be the corresponding one.
pAttributeList->AddAttribute(
"Algorithm",
getSignatureURI(signatureInfo.eAlgorithmID, vReferenceInfors[0].nDigestID));
xDocumentHandler->startElement( "SignatureMethod", cssu::Reference< cssxs::XAttributeList > (pAttributeList) );
xDocumentHandler->endElement( "SignatureMethod" );
/* Write Reference element */
int j;
int refNum = vReferenceInfors.size();
for(j=0; j<refNum; ++j)
{
const SignatureReferenceInformation& refInfor = vReferenceInfors[j];
pAttributeList = new SvXMLAttributeList();
if ( refInfor.nType != SignatureReferenceType::SAMEDOCUMENT )
/*
* stream reference
*/
{
pAttributeList->AddAttribute(
"URI",
refInfor.ouURI);
}
else
/*
* same-document reference
*/
{
pAttributeList->AddAttribute(
"URI",
"#" + refInfor.ouURI);
}
xDocumentHandler->startElement( "Reference", cssu::Reference< cssxs::XAttributeList > (pAttributeList) );
{
/* Write Transforms element */
if (refInfor.nType == SignatureReferenceType::XMLSTREAM)
/*
* xml stream, so c14n transform is needed
*/
{
xDocumentHandler->startElement(
"Transforms",
cssu::Reference< cssxs::XAttributeList > (new SvXMLAttributeList()));
{
pAttributeList = new SvXMLAttributeList();
pAttributeList->AddAttribute(
"Algorithm",
ALGO_C14N);
xDocumentHandler->startElement(
"Transform",
cssu::Reference< cssxs::XAttributeList > (pAttributeList) );
xDocumentHandler->endElement( "Transform" );
}
xDocumentHandler->endElement( "Transforms" );
}
/* Write DigestMethod element */
pAttributeList = new SvXMLAttributeList();
pAttributeList->AddAttribute(
"Algorithm",
getDigestURI(refInfor.nDigestID));
xDocumentHandler->startElement(
"DigestMethod",
cssu::Reference< cssxs::XAttributeList > (pAttributeList) );
xDocumentHandler->endElement( "DigestMethod" );
/* Write DigestValue element */
xDocumentHandler->startElement(
"DigestValue",
cssu::Reference< cssxs::XAttributeList > (new SvXMLAttributeList()));
xDocumentHandler->characters( refInfor.ouDigestValue );
xDocumentHandler->endElement( "DigestValue" );
}
xDocumentHandler->endElement( "Reference" );
}
}
xDocumentHandler->endElement( "SignedInfo" );
/* Write SignatureValue element */
xDocumentHandler->startElement(
"SignatureValue",
cssu::Reference< cssxs::XAttributeList > (new SvXMLAttributeList()));
xDocumentHandler->characters( signatureInfo.ouSignatureValue );
xDocumentHandler->endElement( "SignatureValue" );
/* Write KeyInfo element */
xDocumentHandler->startElement(
"KeyInfo",
cssu::Reference< cssxs::XAttributeList > (new SvXMLAttributeList()));
{
// GPG or X509 key?
if (!signatureInfo.ouGpgCertificate.isEmpty())
{
pAttributeList = new SvXMLAttributeList();
pAttributeList->AddAttribute("xmlns:loext", NS_LOEXT);
/* Write PGPData element */
xDocumentHandler->startElement(
"PGPData",
cssu::Reference< cssxs::XAttributeList > (pAttributeList));
{
/* Write keyid element */
xDocumentHandler->startElement(
"PGPKeyID",
cssu::Reference< cssxs::XAttributeList > (new SvXMLAttributeList()));
xDocumentHandler->characters( signatureInfo.ouCertDigest );
xDocumentHandler->endElement( "PGPKeyID" );
/* Write PGPKeyPacket element */
if (!signatureInfo.ouGpgCertificate.isEmpty())
{
xDocumentHandler->startElement(
"PGPKeyPacket",
cssu::Reference< cssxs::XAttributeList > (new SvXMLAttributeList()));
xDocumentHandler->characters( signatureInfo.ouGpgCertificate );
xDocumentHandler->endElement( "PGPKeyPacket" );
}
/* Write PGPOwner element */
xDocumentHandler->startElement(
"loext:PGPOwner",
cssu::Reference< cssxs::XAttributeList >(new SvXMLAttributeList()));
xDocumentHandler->characters( signatureInfo.ouGpgOwner );
xDocumentHandler->endElement( "loext:PGPOwner" );
}
xDocumentHandler->endElement( "PGPData" );
}
else
{
/* Write X509Data element */
xDocumentHandler->startElement(
"X509Data",
cssu::Reference< cssxs::XAttributeList > (new SvXMLAttributeList()));
{
/* Write X509IssuerSerial element */
xDocumentHandler->startElement(
"X509IssuerSerial",
cssu::Reference< cssxs::XAttributeList > (new SvXMLAttributeList()));
{
/* Write X509IssuerName element */
xDocumentHandler->startElement(
"X509IssuerName",
cssu::Reference< cssxs::XAttributeList > (new SvXMLAttributeList()));
xDocumentHandler->characters( signatureInfo.ouX509IssuerName );
xDocumentHandler->endElement( "X509IssuerName" );
/* Write X509SerialNumber element */
xDocumentHandler->startElement(
"X509SerialNumber",
cssu::Reference< cssxs::XAttributeList > (new SvXMLAttributeList()));
xDocumentHandler->characters( signatureInfo.ouX509SerialNumber );
xDocumentHandler->endElement( "X509SerialNumber" );
}
xDocumentHandler->endElement( "X509IssuerSerial" );
/* Write X509Certificate element */
if (!signatureInfo.ouX509Certificate.isEmpty())
{
xDocumentHandler->startElement(
"X509Certificate",
cssu::Reference< cssxs::XAttributeList > (new SvXMLAttributeList()));
xDocumentHandler->characters( signatureInfo.ouX509Certificate );
xDocumentHandler->endElement( "X509Certificate" );
}
}
xDocumentHandler->endElement( "X509Data" );
}
}
xDocumentHandler->endElement( "KeyInfo" );
OUString sDate;
/* Write Object element */
xDocumentHandler->startElement(
"Object",
cssu::Reference< cssxs::XAttributeList > (new SvXMLAttributeList()));
{
/* Write SignatureProperties element */
xDocumentHandler->startElement(
"SignatureProperties",
cssu::Reference< cssxs::XAttributeList > (new SvXMLAttributeList()));
{
/* Write SignatureProperty element */
pAttributeList = new SvXMLAttributeList();
pAttributeList->AddAttribute(
"Id",
signatureInfo.ouPropertyId);
pAttributeList->AddAttribute(
"Target",
"#" + signatureInfo.ouSignatureId);
xDocumentHandler->startElement(
"SignatureProperty",
cssu::Reference< cssxs::XAttributeList > (pAttributeList));
{
/* Write timestamp element */
pAttributeList = new SvXMLAttributeList();
pAttributeList->AddAttribute(
"xmlns:dc",
NS_DC);
xDocumentHandler->startElement(
"dc:date",
cssu::Reference< cssxs::XAttributeList > (pAttributeList));
OUStringBuffer buffer;
//If the xml signature was already contained in the document,
//then we use the original date and time string, rather then the
//converted one. This avoids writing a different string due to
//e.g. rounding issues and thus breaking the signature.
if (!signatureInfo.ouDateTime.isEmpty())
buffer = signatureInfo.ouDateTime;
else
{
buffer = utl::toISO8601(signatureInfo.stDateTime);
// xsd:dateTime must use period as separator for fractional seconds, while
// utl::toISO8601 uses comma (as allowed, and even recommended, by ISO8601).
buffer.replace(',', '.');
}
sDate = buffer.makeStringAndClear();
xDocumentHandler->characters( sDate );
xDocumentHandler->endElement(
"dc:date");
}
xDocumentHandler->endElement( "SignatureProperty" );
}
// Write signature description.
if (!signatureInfo.ouDescription.isEmpty())
{
// SignatureProperty element.
pAttributeList = new SvXMLAttributeList();
pAttributeList->AddAttribute("Id", signatureInfo.ouDescriptionPropertyId);
pAttributeList->AddAttribute("Target", "#" + signatureInfo.ouSignatureId);
xDocumentHandler->startElement("SignatureProperty", uno::Reference<xml::sax::XAttributeList>(pAttributeList));
{
// Description element.
pAttributeList = new SvXMLAttributeList();
pAttributeList->AddAttribute("xmlns:dc", NS_DC);
xDocumentHandler->startElement("dc:description", uno::Reference<xml::sax::XAttributeList>(pAttributeList));
xDocumentHandler->characters(signatureInfo.ouDescription);
xDocumentHandler->endElement("dc:description");
}
xDocumentHandler->endElement("SignatureProperty");
}
xDocumentHandler->endElement( "SignatureProperties" );
}
xDocumentHandler->endElement( "Object" );
// In XAdES, write another Object element for the QualifyingProperties
if (bXAdESCompliantIfODF)
{
pAttributeList = new SvXMLAttributeList();
pAttributeList->AddAttribute("xmlns:xd", NS_XD);
xDocumentHandler->startElement(
"Object",
cssu::Reference< cssxs::XAttributeList > (pAttributeList));
{
pAttributeList = new SvXMLAttributeList();
pAttributeList->AddAttribute("Target", "#" + signatureInfo.ouSignatureId);
xDocumentHandler->startElement(
"xd:QualifyingProperties",
cssu::Reference< cssxs::XAttributeList > (pAttributeList));
DocumentSignatureHelper::writeSignedProperties(xDocumentHandler, signatureInfo, sDate);
writeUnsignedProperties(xDocumentHandler, signatureInfo);
xDocumentHandler->endElement( "xd:QualifyingProperties" );
}
xDocumentHandler->endElement( "Object" );
}
}
xDocumentHandler->endElement( "Signature" );
}
void XSecController::exportOOXMLSignature(const uno::Reference<embed::XStorage>& xRootStorage, const uno::Reference<xml::sax::XDocumentHandler>& xDocumentHandler, const SignatureInformation& rInformation)
{
OOXMLSecExporter aExporter(mxCtx, xRootStorage, xDocumentHandler, rInformation);
aExporter.writeSignature();
}
SignatureInformation XSecController::getSignatureInformation( sal_Int32 nSecurityId ) const
{
SignatureInformation aInf( 0 );
int nIndex = findSignatureInfor(nSecurityId);
SAL_WARN_IF( nIndex == -1, "xmlsecurity.helper", "getSignatureInformation - SecurityId is invalid!" );
if ( nIndex != -1)
{
aInf = m_vInternalSignatureInformations[nIndex].signatureInfor;
}
return aInf;
}
SignatureInformations XSecController::getSignatureInformations() const
{
SignatureInformations vInfors;
int sigNum = m_vInternalSignatureInformations.size();
for (int i=0; i<sigNum; ++i)
{
SignatureInformation si = m_vInternalSignatureInformations[i].signatureInfor;
vInfors.push_back(si);
}
return vInfors;
}
/*
* XSAXEventKeeperStatusChangeListener
*/
void SAL_CALL XSecController::blockingStatusChanged( sal_Bool isBlocking )
{
m_bIsBlocking = isBlocking;
checkChainingStatus();
}
void SAL_CALL XSecController::collectionStatusChanged(
sal_Bool isInsideCollectedElement )
{
m_bIsCollectingElement = isInsideCollectedElement;
checkChainingStatus();
}
void SAL_CALL XSecController::bufferStatusChanged( sal_Bool /*isBufferEmpty*/)
{
}
/*
* XSignatureCreationResultListener
*/
void SAL_CALL XSecController::signatureCreated( sal_Int32 securityId, css::xml::crypto::SecurityOperationStatus nResult )
{
int index = findSignatureInfor(securityId);
assert(index != -1 && "Signature Not Found!");
SignatureInformation& signatureInfor = m_vInternalSignatureInformations.at(index).signatureInfor;
signatureInfor.nStatus = nResult;
}
/*
* XSignatureVerifyResultListener
*/
void SAL_CALL XSecController::signatureVerified( sal_Int32 securityId, css::xml::crypto::SecurityOperationStatus nResult )
{
int index = findSignatureInfor(securityId);
assert(index != -1 && "Signature Not Found!");
SignatureInformation& signatureInfor = m_vInternalSignatureInformations.at(index).signatureInfor;
signatureInfor.nStatus = nResult;
}
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