office-gobmx/xmlsecurity/source/framework/saxeventkeeperimpl.cxx

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/*************************************************************************
*
* $RCSfile: saxeventkeeperimpl.cxx,v $
*
* $Revision: 1.1.1.1 $
*
* last change: $Author: mt $ $Date: 2004-07-12 13:15:22 $
*
* The Contents of this file are made available subject to the terms of
* either of the following licenses
*
* - GNU Lesser General Public License Version 2.1
* - Sun Industry Standards Source License Version 1.1
*
* Sun Microsystems Inc., October, 2000
*
* GNU Lesser General Public License Version 2.1
* =============================================
* Copyright 2000 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
*
*
* Sun Industry Standards Source License Version 1.1
* =================================================
* The contents of this file are subject to the Sun Industry Standards
* Source License Version 1.1 (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.openoffice.org/license.html.
*
* Software provided under this License is provided on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING,
* WITHOUT LIMITATION, WARRANTIES THAT THE SOFTWARE IS FREE OF DEFECTS,
* MERCHANTABLE, FIT FOR A PARTICULAR PURPOSE, OR NON-INFRINGING.
* See the License for the specific provisions governing your rights and
* obligations concerning the Software.
*
* The Initial Developer of the Original Code is: Sun Microsystems, Inc.
*
* Copyright: 2000 by Sun Microsystems, Inc.
*
* All Rights Reserved.
*
* Contributor(s): _______________________________________
*
*
************************************************************************/
#include "saxeventkeeperimpl.hxx"
#ifndef _COM_SUN_STAR_LANG_XMULTISERVICEFACTORY_HPP_
#include <com/sun/star/lang/XMultiServiceFactory.hpp>
#endif
#ifndef _COM_SUN_STAR_XML_SAX_XDOCUMENTHANDLER_HPP_
#include <com/sun/star/xml/sax/XDocumentHandler.hpp>
#endif
#ifndef _COM_SUN_STAR_XML_CRYPTO_SAX_CONSTOFSECURITYID_HPP_
#include <com/sun/star/xml/crypto/sax/ConstOfSecurityId.hpp>
#endif
namespace cssu = com::sun::star::uno;
namespace cssl = com::sun::star::lang;
namespace cssxc = com::sun::star::xml::crypto;
namespace cssxcsax = com::sun::star::xml::csax;
namespace cssxw = com::sun::star::xml::wrapper;
namespace cssxs = com::sun::star::xml::sax;
#define SERVICE_NAME "com.sun.star.xml.crypto.sax.SAXEventKeeper"
#define IMPLEMENTATION_NAME "com.sun.star.xml.security.framework.SAXEventKeeperImpl"
#define _USECOMPRESSEDDOCUMENTHANDLER
SAXEventKeeperImpl::SAXEventKeeperImpl( )
:m_nNextElementMarkId(1),
m_pNewBlocker(NULL),
m_pCurrentBlockingBufferNode(NULL),
m_pRootBufferNode(NULL),
m_pCurrentBufferNode(NULL),
m_bIsForwarding(false),
m_bIsReleasing(false)
{
m_vElementMarkBuffers.reserve(2);
m_vNewElementCollectors.reserve(2);
m_vReleasedElementMarkBuffers.reserve(2);
}
SAXEventKeeperImpl::~SAXEventKeeperImpl()
{
/*
* delete the BufferNode tree
*/
if (m_pRootBufferNode != NULL)
{
m_pRootBufferNode->freeAllChildren();
delete m_pRootBufferNode;
}
m_pRootBufferNode = m_pCurrentBufferNode = m_pCurrentBlockingBufferNode = NULL;
/*
* delete all unfreed ElementMarks
*/
m_vNewElementCollectors.clear();
m_pNewBlocker = NULL;
std::vector< const ElementMark* >::const_iterator ii = m_vElementMarkBuffers.begin();
for( ; ii != m_vElementMarkBuffers.end(); ++ii )
{
delete (*ii);
}
m_vElementMarkBuffers.clear();
}
void SAXEventKeeperImpl::setCurrentBufferNode(BufferNode* pBufferNode)
/****** SAXEventKeeperImpl/setCurrentBufferNode ******************************
*
* NAME
* setCurrentBufferNode -- set a new active BufferNode.
*
* SYNOPSIS
* setCurrentBufferNode( pBufferNode );
*
* FUNCTION
* connects this BufferNode into the BufferNode tree as a child of the
* current active BufferNode. Then makes this BufferNode as the current
* active BufferNode.
* If the previous active BufferNode points to the root
* BufferNode, which means that no buffering operation was proceeding,
* then notifies the status change listener that buffering operation
* will begin at once.
*
* INPUTS
* pBufferNode - a BufferNode which will be the new active BufferNode
*
* RESULT
* empty
*
* HISTORY
* 05.01.2004 - implemented
*
* AUTHOR
* Michael Mi
* Email: michael.mi@sun.com
******************************************************************************/
{
if (pBufferNode != m_pCurrentBufferNode)
{
if ( m_pCurrentBufferNode == m_pRootBufferNode &&
m_xSAXEventKeeperStatusChangeListener.is())
{
m_xSAXEventKeeperStatusChangeListener->collectionStatusChanged(sal_True);
}
if (pBufferNode->getParent() == NULL)
{
m_pCurrentBufferNode->addChild(pBufferNode);
pBufferNode->setParent(m_pCurrentBufferNode);
}
m_pCurrentBufferNode = pBufferNode;
}
}
BufferNode* SAXEventKeeperImpl::addNewElementMarkBuffers()
/****** SAXEventKeeperImpl/addNewElementMarkBuffers **************************
*
* NAME
* addNewElementMarkBuffers -- add new ElementCollectors and new Blocker.
*
* SYNOPSIS
* pBufferNode = addNewElementMarkBuffers( );
*
* FUNCTION
* if there are new ElementCollector or new Blocker to be added, then
* connect all of them with the current BufferNode. In case of the
* current BufferNode doesn't exist, creates one.
* Clears up the new ElementCollector list and the new Blocker pointer.
*
* INPUTS
* empty
*
* RESULT
* pBufferNode - the BufferNode that has been connected with both new
* ElementCollectors and new Blocker.
*
* HISTORY
* 05.01.2004 - implemented
*
* AUTHOR
* Michael Mi
* Email: michael.mi@sun.com
******************************************************************************/
{
BufferNode* pBufferNode = NULL;
if ( (m_vNewElementCollectors.size()>0) ||
(m_pNewBlocker != NULL))
{
/*
* When the current BufferNode is right pointing to the current
* working element in the XMLDocumentWrapper component, then
* no new BufferNode is needed to create.
* This situation can only happen in the "Forwarding" mode.
*/
if ( (m_pCurrentBufferNode != NULL) &&
(m_xXMLDocument->isCurrent(m_pCurrentBufferNode->getXMLElement())))
{
pBufferNode = m_pCurrentBufferNode;
}
else
{
pBufferNode = new BufferNode(m_xXMLDocument->getCurrentElement());
}
if (m_pNewBlocker != NULL)
{
pBufferNode->setBlocker(m_pNewBlocker);
/*
* If no blocking before, then notify the status change listener that
* the SAXEventKeeper has entered "blocking" status, during which, no
* SAX events will be forwarded to the next document handler.
*/
if (m_pCurrentBlockingBufferNode == NULL)
{
m_pCurrentBlockingBufferNode = pBufferNode;
if (m_xSAXEventKeeperStatusChangeListener.is())
{
m_xSAXEventKeeperStatusChangeListener->blockingStatusChanged(sal_True);
}
}
m_pNewBlocker = NULL;
}
if (m_vNewElementCollectors.size()>0)
{
std::vector< const ElementCollector* >::const_iterator ii = m_vNewElementCollectors.begin();
for( ; ii != m_vNewElementCollectors.end(); ++ii )
{
pBufferNode->addElementCollector(*ii);
}
m_vNewElementCollectors.clear();
}
}
return pBufferNode;
}
ElementMark* SAXEventKeeperImpl::findElementMarkBuffer(sal_Int32 nId) const
/****** SAXEventKeeperImpl/findElementMarkBuffer *****************************
*
* NAME
* findElementMarkBuffer -- finds an ElementMark.
*
* SYNOPSIS
* pElementMark = findElementMarkBuffer( nId );
*
* FUNCTION
* searches an ElementMark with the particular Id in the ElementMark
* list.
*
* INPUTS
* nId - the Id of the ElementMark to be searched.
*
* RESULT
* pElementMark - the ElementMark with the particular Id, or NULL when
* no such Id exists.
*
* HISTORY
* 05.01.2004 - implemented
*
* AUTHOR
* Michael Mi
* Email: michael.mi@sun.com
******************************************************************************/
{
ElementMark* pElementMark = NULL;
std::vector< const ElementMark* >::const_iterator ii = m_vElementMarkBuffers.begin();
for( ; ii != m_vElementMarkBuffers.end(); ++ii )
{
if ( nId == (*ii)->getBufferId())
{
pElementMark = (ElementMark*)*ii;
break;
}
}
return pElementMark;
}
void SAXEventKeeperImpl::removeElementMarkBuffer(sal_Int32 nId)
/****** SAXEventKeeperImpl/removeElementMarkBuffer ***************************
*
* NAME
* removeElementMarkBuffer -- removes an ElementMark
*
* SYNOPSIS
* removeElementMarkBuffer( nId );
*
* FUNCTION
* removes an ElementMark with the particular Id in the ElementMark list.
*
* INPUTS
* nId - the Id of the ElementMark to be removed.
*
* RESULT
* empty
*
* HISTORY
* 05.01.2004 - implemented
*
* AUTHOR
* Michael Mi
* Email: michael.mi@sun.com
******************************************************************************/
{
std::vector< const ElementMark* >::iterator ii = m_vElementMarkBuffers.begin();
for( ; ii != m_vElementMarkBuffers.end(); ++ii )
{
if ( nId == (*ii)->getBufferId())
{
/*
* checks whether this ElementMark still in the new ElementCollect array
*/
std::vector< const ElementCollector* >::iterator jj = m_vNewElementCollectors.begin();
for( ; jj != m_vNewElementCollectors.end(); ++jj )
{
if ((*ii) == (*jj))
{
m_vNewElementCollectors.erase(jj);
break;
}
}
/*
* checks whether this ElementMark is the new Blocker
*/
if ((*ii) == m_pNewBlocker)
{
m_pNewBlocker = NULL;
}
/*
* destory the ElementMark
*/
delete (*ii);
m_vElementMarkBuffers.erase( ii );
break;
}
}
}
rtl::OUString SAXEventKeeperImpl::printBufferNode(
BufferNode* pBufferNode, sal_Int32 nIndent) const
/****** SAXEventKeeperImpl/printBufferNode ***********************************
*
* NAME
* printBufferNode -- retrieves the information of a BufferNode and its
* branch.
*
* SYNOPSIS
* info = printBufferNode( pBufferNode, nIndent );
*
* FUNCTION
* all retrieved information includes:
* 1. whether it is the current BufferNode;
* 2. whether it is the current blocking BufferNode;
* 3. the name of the parent element;
* 4. the name of this element;
* 5. all ElementCollectors working on this BufferNode;
* 6. the Blocker working on this BufferNode;
* 7. all child BufferNodes' information.
*
* INPUTS
* pBufferNode - the BufferNode from where information will be retrieved.
* nIndent - how many space characters prefixed before the output
* message.
*
* RESULT
* info - the information string
*
* HISTORY
* 05.01.2004 - implemented
*
* AUTHOR
* Michael Mi
* Email: michael.mi@sun.com
******************************************************************************/
{
rtl::OUString rc;
for ( int i=0; i<nIndent; ++i )
{
rc += rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( " " ));
}
if (pBufferNode == m_pCurrentBufferNode)
{
rc += rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( "[%]" ));
}
if (pBufferNode == m_pCurrentBlockingBufferNode)
{
rc += rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( "[B]" ));
}
rc += rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( " " ));
rc += m_xXMLDocument->getNodeName(pBufferNode->getXMLElement());
BufferNode* pParent = (BufferNode*)pBufferNode->getParent();
if (pParent != NULL)
{
rc += rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( "[" ));
rc += m_xXMLDocument->getNodeName(pParent->getXMLElement());
rc += rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( "]" ));
}
rc += rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( ":EC=" ));
rc += pBufferNode->printChildren();
rc += rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( " BR=" ));
ElementMark * pBlocker = pBufferNode->getBlocker();
if (pBlocker != NULL)
{
rc += rtl::OUString::valueOf( pBlocker->getBufferId() );
rc += rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( "(SecId=" ));
rc += rtl::OUString::valueOf( pBlocker->getSecurityId() );
rc += rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( ")" ));
rc += rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( " " ));
}
rc += rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( "\n" ));
std::vector< const BufferNode* >* vChildren = pBufferNode->getChildren();
std::vector< const BufferNode* >::const_iterator jj = vChildren->begin();
for( ; jj != vChildren->end(); ++jj )
{
rc += printBufferNode((BufferNode *)*jj, nIndent+4);
}
delete vChildren;
return rc;
}
cssu::Sequence< cssu::Reference< cssxw::XXMLElementWrapper > >
SAXEventKeeperImpl::collectChildWorkingElement(BufferNode* pBufferNode) const
/****** SAXEventKeeperImpl/collectChildWorkingElement ************************
*
* NAME
* collectChildWorkingElement -- collects a BufferNode's all child
* Elements.
*
* SYNOPSIS
* list = collectChildWorkingElement( pBufferNode );
*
* FUNCTION
* see NAME.
*
* INPUTS
* pBufferNode - the BufferNode whose child Elements will be collected.
*
* RESULT
* list - the child Elements list.
*
* HISTORY
* 05.01.2004 - implemented
*
* AUTHOR
* Michael Mi
* Email: michael.mi@sun.com
******************************************************************************/
{
std::vector< const BufferNode* >* vChildren = pBufferNode->getChildren();
cssu::Sequence < cssu::Reference<
cssxw::XXMLElementWrapper > > aChildrenCollection ( vChildren->size());
std::vector< const BufferNode* >::const_iterator ii = vChildren->begin();
sal_Int32 nIndex = 0;
for( ; ii != vChildren->end(); ++ii )
{
aChildrenCollection[nIndex] = (*ii)->getXMLElement();
nIndex++;
}
delete vChildren;
return aChildrenCollection;
}
void SAXEventKeeperImpl::smashBufferNode(
BufferNode* pBufferNode, bool bClearRoot) const
/****** SAXEventKeeperImpl/smashBufferNode ***********************************
*
* NAME
* smashBufferNode -- removes a BufferNode along with its working
* element.
*
* SYNOPSIS
* smashBufferNode( pBufferNode, bClearRoot );
*
* FUNCTION
* removes the BufferNode's working element from the DOM document, while
* reserves all ancestor paths for its child BufferNodes.
* when any of the BufferNode's ancestor element is useless, removes it
* too.
* removes the BufferNode from the BufferNode tree.
*
* INPUTS
* pBufferNode - the BufferNode to be removed
* bClearRoot - whether the root element also needs to be cleared up.
*
* RESULT
* empty
*
* NOTES
* when removeing a Blocker's BufferNode, the bClearRoot flag should be
* true. Because a Blocker can buffer many SAX events which are not used
* by any other ElementCollector or Blocker.
* When the bClearRoot is set to true, the root BufferNode will be first
* cleared, with a stop flag seting at the next Blocking BufferNode. This
* operation can delete all useless bufferred SAX events which are only
* needed by the Blocker to be deleted.
*
* HISTORY
* 05.01.2004 - implemented
*
* AUTHOR
* Michael Mi
* Email: michael.mi@sun.com
******************************************************************************/
{
if (!pBufferNode->hasAnything())
{
BufferNode* pParent = (BufferNode*)pBufferNode->getParent();
/*
* delete the XML data
*/
if (pParent == m_pRootBufferNode)
{
bool bIsNotBlocking = (m_pCurrentBlockingBufferNode == NULL);
bool bIsBlockInside = false;
bool bIsBlockingAfterward = false;
/*
* If this is a blocker, then remove any out-element data
* which caused by blocking. The removal process will stop
* at the next blokcer to avoid removing any useful data.
*/
if (bClearRoot)
{
cssu::Sequence< cssu::Reference< cssxw::XXMLElementWrapper > >
aChildElements = collectChildWorkingElement(m_pRootBufferNode);
/*
* the clearUselessData only clearup the content in the
* node, not the node itself.
*/
m_xXMLDocument->clearUselessData(m_pRootBufferNode->getXMLElement(),
aChildElements,
bIsNotBlocking?(NULL):
(m_pCurrentBlockingBufferNode->getXMLElement()));
/*
* remove the node if it is empty, then if its parent is also
* empty, remove it, then if the next parent is also empty,
* remove it,..., until parent become null.
*/
m_xXMLDocument->collapse( m_pRootBufferNode->getXMLElement() );
}
/*
* if blocking, check the relationship between this BufferNode and
* the current blocking BufferNode.
*/
if ( !bIsNotBlocking )
{
/*
* the current blocking BufferNode is a descendant of this BufferNode.
*/
bIsBlockInside = (NULL != pBufferNode->isAncestor(m_pCurrentBlockingBufferNode));
/*
* the current blocking BufferNode locates behind this BufferNode in tree
* order.
*/
bIsBlockingAfterward = pBufferNode->isPrevious(m_pCurrentBlockingBufferNode);
}
/*
* this BufferNode's working element needs to be deleted only when
* 1. there is no blocking, or
* 2. the current blocking BufferNode is a descendant of this BufferNode,
* (then in the BufferNode's working element, the useless data before the blocking
* element should be deleted.) or
* 3. the current blocking BufferNode is locates behind this BufferNode in tree,
* (then the useless data between the blocking element and the working element
* should be deleted.).
* Otherwise, this working element should not be deleted.
*/
if ( bIsNotBlocking || bIsBlockInside || bIsBlockingAfterward )
{
cssu::Sequence< cssu::Reference< cssxw::XXMLElementWrapper > >
aChildElements = collectChildWorkingElement(pBufferNode);
/*
* the clearUselessData only clearup the content in the
* node, not the node itself.
*/
m_xXMLDocument->clearUselessData(pBufferNode->getXMLElement(),
aChildElements,
bIsBlockInside?(m_pCurrentBlockingBufferNode->getXMLElement()):
(NULL));
/*
* remove the node if it is empty, then if its parent is also
* empty, remove it, then if the next parent is also empty,
* remove it,..., until parent become null.
*/
m_xXMLDocument->collapse( pBufferNode->getXMLElement() );
}
}
sal_Int32 nIndex = pParent->indexOfChild(pBufferNode);
std::vector< const BufferNode* >* vChildren = pBufferNode->getChildren();
pParent->removeChild(pBufferNode);
pBufferNode->setParent(NULL);
std::vector< const BufferNode * >::const_iterator ii = vChildren->begin();
for( ; ii != vChildren->end(); ++ii )
{
((BufferNode *)(*ii))->setParent(pParent);
pParent->addChild(*ii, nIndex);
nIndex++;
}
delete vChildren;
/*
* delete the BufferNode
*/
delete pBufferNode;
}
}
BufferNode* SAXEventKeeperImpl::findNextBlockingBufferNode(
BufferNode* pStartBufferNode) const
/****** SAXEventKeeperImpl/findNextBlockingBufferNode ************************
*
* NAME
* findNextBlockingBufferNode -- finds the next blocking BufferNode
* behind the particular BufferNode.
*
* SYNOPSIS
* pBufferNode = findNextBlockingBufferNode( pStartBufferNode );
*
* FUNCTION
* see NAME.
*
* INPUTS
* pStartBufferNode - the BufferNode from where to search the next
* blocking BufferNode.
*
* RESULT
* pBufferNode - the next blocking BufferNode, or NULL if no such
* BufferNode exists.
*
* HISTORY
* 05.01.2004 - implemented
*
* AUTHOR
* Michael Mi
* Email: michael.mi@sun.com
******************************************************************************/
{
BufferNode* pNext = NULL;
if (pStartBufferNode != NULL)
{
pNext = pStartBufferNode;
while (NULL != (pNext = (BufferNode*)pNext->getNextNodeByTreeOrder()))
{
if (pNext->getBlocker() != NULL)
{
break;
}
}
}
return pNext;
}
void SAXEventKeeperImpl::diffuse(BufferNode* pBufferNode) const
/****** SAXEventKeeperImpl/diffuse *******************************************
*
* NAME
* diffuse -- diffuse the notification.
*
* SYNOPSIS
* diffuse( pBufferNode );
*
* FUNCTION
* diffuse the collecting completion notification from the specific
* BufferNode along its parent link, until an ancestor which is not
* completely received is met.
*
* INPUTS
* pBufferNode - the BufferNode from which the notification will be
* diffused.
*
* RESULT
* empty
*
* HISTORY
* 05.01.2004 - implemented
*
* AUTHOR
* Michael Mi
* Email: michael.mi@sun.com
******************************************************************************/
{
BufferNode* pParent = pBufferNode;
while(pParent->isAllReceived())
{
pParent->elementCollectorNotify();
pParent = (BufferNode*)pParent->getParent();
}
}
void SAXEventKeeperImpl::releaseElementMarkBuffer()
/****** SAXEventKeeperImpl/releaseElementMarkBuffer **************************
*
* NAME
* releaseElementMarkBuffer -- releases useless ElementMarks
*
* SYNOPSIS
* releaseElementMarkBuffer( );
*
* FUNCTION
* releases each ElementMark in the releasing list
* m_vReleasedElementMarkBuffers.
* The operation differs between an ElementCollector and a Blocker.
*
* INPUTS
* empty
*
* RESULT
* empty
*
* HISTORY
* 05.01.2004 - implemented
*
* AUTHOR
* Michael Mi
* Email: michael.mi@sun.com
******************************************************************************/
{
m_bIsReleasing = true;
while (m_vReleasedElementMarkBuffers.size()>0)
{
std::vector< sal_Int32 >::iterator pId = m_vReleasedElementMarkBuffers.begin();
sal_Int32 nId = *pId;
m_vReleasedElementMarkBuffers.erase( pId );
ElementMark* pElementMark = findElementMarkBuffer(nId);
if (pElementMark != NULL)
{
if (cssxc::sax::ElementMarkType_TYPEOFELEMENTCOLLECTOR
== pElementMark->getType())
/*
* it is a EC
*/
{
ElementCollector* pElementCollector = (ElementCollector*)pElementMark;
cssxc::sax::ElementMarkPriority nPriority = pElementCollector->getPriority();
bool bToModify = pElementCollector->getModify();
/*
* Delete the EC from the buffer node.
*/
BufferNode* pBufferNode = pElementCollector->getBufferNode();
pBufferNode->removeElementCollector(pElementCollector);
if ( nPriority == cssxc::sax::ElementMarkPriority_PRI_BEFOREMODIFY)
{
pBufferNode->notifyBranch();
}
if (bToModify)
{
pBufferNode->notifyAncestor();
}
/*
* delete the ElementMark
*/
pElementCollector = NULL;
pElementMark = NULL;
removeElementMarkBuffer(nId);
/*
* delete the BufferNode
*/
diffuse(pBufferNode);
smashBufferNode(pBufferNode, false);
}
else
/*
* it is a Blocker
*/
{
/*
* Delete the TH from the buffer node.
*/
BufferNode *pBufferNode = pElementMark->getBufferNode();
pBufferNode->setBlocker(NULL);
/*
* If there is a following handler and no blocking now, then
* forward this event
*/
if (m_pCurrentBlockingBufferNode == pBufferNode)
{
/*
* Before forwarding, the next blocking point needs to be
* found.
*/
m_pCurrentBlockingBufferNode = findNextBlockingBufferNode(pBufferNode);
/*
* Forward the blocked events between these two STHs.
*/
if (m_xNextHandler.is())
{
BufferNode* pTempCurrentBufferNode = m_pCurrentBufferNode;
BufferNode* pTempCurrentBlockingBufferNode = m_pCurrentBlockingBufferNode;
m_pCurrentBufferNode = pBufferNode;
m_pCurrentBlockingBufferNode = NULL;
m_bIsForwarding = true;
m_xXMLDocument->generateSAXEvents(
m_xNextHandler,
this,
pBufferNode->getXMLElement(),
(pTempCurrentBlockingBufferNode == NULL)?NULL:(pTempCurrentBlockingBufferNode->getXMLElement()));
m_bIsForwarding = false;
m_pCurrentBufferNode = pTempCurrentBufferNode;
if (m_pCurrentBlockingBufferNode == NULL)
{
m_pCurrentBlockingBufferNode = pTempCurrentBlockingBufferNode;
}
}
if (m_pCurrentBlockingBufferNode == NULL &&
m_xSAXEventKeeperStatusChangeListener.is())
{
m_xSAXEventKeeperStatusChangeListener->blockingStatusChanged(sal_False);
}
}
/*
* delete the ElementMark
*/
pElementMark = NULL;
removeElementMarkBuffer(nId);
/*
* delete the BufferNode
*/
diffuse(pBufferNode);
smashBufferNode(pBufferNode, true);
}
}
}
m_bIsReleasing = false;
if (!m_pRootBufferNode->hasAnything() &&
!m_pRootBufferNode->hasChildren() &&
m_xSAXEventKeeperStatusChangeListener.is())
{
m_xSAXEventKeeperStatusChangeListener->bufferStatusChanged(sal_True);
}
}
void SAXEventKeeperImpl::markElementMarkBuffer(sal_Int32 nId)
/****** SAXEventKeeperImpl/markElementMarkBuffer *****************************
*
* NAME
* markElementMarkBuffer -- marks an ElementMark to be released
*
* SYNOPSIS
* markElementMarkBuffer( nId );
*
* FUNCTION
* puts the ElementMark with the particular Id into the releasing list,
* checks whether the releasing process is runing, if not then launch
* this process.
*
* INPUTS
* nId - the Id of the ElementMark which will be released
*
* RESULT
* empty
*
* HISTORY
* 05.01.2004 - implemented
*
* AUTHOR
* Michael Mi
* Email: michael.mi@sun.com
******************************************************************************/
{
m_vReleasedElementMarkBuffers.push_back( nId );
if ( !m_bIsReleasing )
{
releaseElementMarkBuffer();
}
}
sal_Int32 SAXEventKeeperImpl::createElementCollector(
sal_Int32 nSecurityId,
cssxc::sax::ElementMarkPriority nPriority,
bool bModifyElement,
const cssu::Reference< cssxc::sax::XReferenceResolvedListener >& xReferenceResolvedListener)
/****** SAXEventKeeperImpl/createElementCollector ****************************
*
* NAME
* createElementCollector -- creates a new ElementCollector on the
* incoming element.
*
* SYNOPSIS
* nId = createElementCollector( nSecurityId, nPriority,
* bModifyElement,
* xReferenceResolvedListener );
*
* FUNCTION
* allocs a new Id, then create an ElementCollector with this Id value.
* Add the new created ElementCollector to the new ElementCollecotor list.
*
* INPUTS
* nSecurityId - the security Id of the new ElementCollector
* nPriority - the prirority of the new ElementCollector
* bModifyElement -whether this BufferNode will modify the content of
* the corresponding element it works on
* xReferenceResolvedListener - the listener for the new ElementCollector.
*
* RESULT
* nId - the Id of the new ElementCollector
*
* HISTORY
* 05.01.2004 - implemented
*
* AUTHOR
* Michael Mi
* Email: michael.mi@sun.com
******************************************************************************/
{
sal_Int32 nId = m_nNextElementMarkId;
m_nNextElementMarkId ++;
ElementCollector* pElementCollector
= new ElementCollector(
nSecurityId,
nId,
nPriority,
bModifyElement,
xReferenceResolvedListener);
m_vElementMarkBuffers.push_back( pElementCollector );
/*
* All the new EC to initial EC array.
*/
m_vNewElementCollectors.push_back( pElementCollector );
return nId;
}
sal_Int32 SAXEventKeeperImpl::createBlocker(sal_Int32 nSecurityId)
/****** SAXEventKeeperImpl/createBlocker *************************************
*
* NAME
* createBlocker -- creates a new Blocker on the incoming element.
*
* SYNOPSIS
* nId = createBlocker( nSecurityId );
*
* FUNCTION
* see NAME.
*
* INPUTS
* nSecurityId - the security Id of the new Blocker
*
* RESULT
* nId - the Id of the new Blocker
*
* HISTORY
* 05.01.2004 - implemented
*
* AUTHOR
* Michael Mi
* Email: michael.mi@sun.com
******************************************************************************/
{
sal_Int32 nId = m_nNextElementMarkId;
m_nNextElementMarkId ++;
OSL_ASSERT(m_pNewBlocker == NULL);
m_pNewBlocker = new ElementMark(nSecurityId, nId);
m_vElementMarkBuffers.push_back( m_pNewBlocker );
return nId;
}
/* XSAXEventKeeper */
sal_Int32 SAL_CALL SAXEventKeeperImpl::addElementCollector( )
throw (cssu::RuntimeException)
{
return createElementCollector(
cssxc::sax::ConstOfSecurityId::UNDEFINEDSECURITYID,
cssxc::sax::ElementMarkPriority_PRI_AFTERMODIFY,
false,
NULL);
}
void SAL_CALL SAXEventKeeperImpl::removeElementCollector( sal_Int32 id )
throw (cssu::RuntimeException)
{
markElementMarkBuffer(id);
}
sal_Int32 SAL_CALL SAXEventKeeperImpl::addBlocker( )
throw (cssu::RuntimeException)
{
return createBlocker(cssxc::sax::ConstOfSecurityId::UNDEFINEDSECURITYID);
}
void SAL_CALL SAXEventKeeperImpl::removeBlocker( sal_Int32 id )
throw (cssu::RuntimeException)
{
markElementMarkBuffer(id);
}
sal_Bool SAL_CALL SAXEventKeeperImpl::isBlocking( )
throw (cssu::RuntimeException)
{
return (m_pCurrentBlockingBufferNode != NULL);
}
cssu::Reference< cssxw::XXMLElementWrapper > SAL_CALL
SAXEventKeeperImpl::getElement( sal_Int32 id )
throw (cssu::RuntimeException)
{
cssu::Reference< cssxw::XXMLElementWrapper > rc;
ElementMark* pElementMark = findElementMarkBuffer(id);
if (pElementMark != NULL)
{
rc = pElementMark->getBufferNode()->getXMLElement();
}
return rc;
}
void SAL_CALL SAXEventKeeperImpl::setElement(
sal_Int32 id,
const cssu::Reference< cssxw::XXMLElementWrapper >& aElement )
throw (cssu::RuntimeException)
{
if (aElement.is())
{
m_xXMLDocument->rebuildIDLink(aElement);
ElementMark* pElementMark = findElementMarkBuffer(id);
if (pElementMark != NULL)
{
BufferNode* pBufferNode = pElementMark->getBufferNode();
if (pBufferNode != NULL)
{
bool bIsCurrent = m_xXMLDocument->isCurrent(pBufferNode->getXMLElement());
pBufferNode->setXMLElement(aElement);
if (bIsCurrent)
{
m_xXMLDocument->setCurrentElement(aElement);
}
}
}
}
else
{
removeElementCollector( id );
}
}
cssu::Reference< cssxs::XDocumentHandler > SAL_CALL SAXEventKeeperImpl::setNextHandler(
const cssu::Reference< cssxs::XDocumentHandler >& xNewHandler )
throw (cssu::RuntimeException)
{
cssu::Reference< cssxs::XDocumentHandler > xOldHandler = m_xNextHandler;
m_xNextHandler = xNewHandler;
return xOldHandler;
}
rtl::OUString SAL_CALL SAXEventKeeperImpl::printBufferNodeTree()
throw (cssu::RuntimeException)
{
rtl::OUString rc;
rc += rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( "ElementMarkBuffers: size = " ));
rc += rtl::OUString::valueOf((sal_Int32)m_vElementMarkBuffers.size());
rc += rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( "\nCurrentBufferNode: " ));
rc += m_xXMLDocument->getNodeName(m_pCurrentBufferNode->getXMLElement());
rc += rtl::OUString( RTL_CONSTASCII_USTRINGPARAM( "\n" ));
rc += printBufferNode(m_pRootBufferNode, 0);
return rc;
}
cssu::Reference< cssxw::XXMLElementWrapper > SAL_CALL SAXEventKeeperImpl::getCurrentBlockingNode()
throw (cssu::RuntimeException)
{
cssu::Reference< cssxw::XXMLElementWrapper > rc;
if (m_pCurrentBlockingBufferNode != NULL)
{
rc = m_pCurrentBlockingBufferNode->getXMLElement();
}
return rc;
}
/* XSecuritySAXEventKeeper */
sal_Int32 SAL_CALL SAXEventKeeperImpl::addSecurityElementCollector(
cssxc::sax::ElementMarkPriority priority,
sal_Bool modifyElement )
throw (cssu::RuntimeException)
{
return createElementCollector(
cssxc::sax::ConstOfSecurityId::UNDEFINEDSECURITYID,
priority,
modifyElement,
NULL);
}
sal_Int32 SAL_CALL SAXEventKeeperImpl::cloneElementCollector(
sal_Int32 referenceId,
cssxc::sax::ElementMarkPriority priority )
throw (cssu::RuntimeException)
{
sal_Int32 nId = -1;
ElementCollector* pElementCollector = (ElementCollector*)findElementMarkBuffer(referenceId);
if (pElementCollector != NULL)
{
nId = m_nNextElementMarkId;
m_nNextElementMarkId ++;
ElementCollector* pClonedOne
= pElementCollector->clone(nId, priority);
/*
* add this EC into the security data buffer array.
*/
m_vElementMarkBuffers.push_back(pClonedOne);
/*
* If the reference EC is still in initial EC array, add
* this cloned one into the initial EC array too.
*/
if (pElementCollector->getBufferNode() == NULL)
{
m_vNewElementCollectors.push_back(pClonedOne);
}
}
return nId;
}
void SAL_CALL SAXEventKeeperImpl::setSecurityId( sal_Int32 id, sal_Int32 securityId )
throw (cssu::RuntimeException)
{
ElementMark* pElementMark = findElementMarkBuffer(id);
if (pElementMark != NULL)
{
pElementMark->setSecurityId(securityId);
}
}
/* XReferenceResolvedBroadcaster */
void SAL_CALL SAXEventKeeperImpl::addReferenceResolvedListener(
sal_Int32 referenceId,
const cssu::Reference< cssxc::sax::XReferenceResolvedListener >& listener )
throw (cssu::RuntimeException)
{
ElementCollector* pElementCollector = (ElementCollector*)findElementMarkBuffer(referenceId);
if (pElementCollector != NULL)
{
pElementCollector->setReferenceResolvedListener(listener);
}
}
void SAL_CALL SAXEventKeeperImpl::removeReferenceResolvedListener(
sal_Int32 referenceId,
const cssu::Reference< cssxc::sax::XReferenceResolvedListener >& listener )
throw (cssu::RuntimeException)
{
}
/* XSAXEventKeeperStatusChangeBroadcaster */
void SAL_CALL SAXEventKeeperImpl::addXSAXEventKeeperStatusChangeListener(
const cssu::Reference< cssxc::sax::XSAXEventKeeperStatusChangeListener >& listener )
throw (cssu::RuntimeException)
{
m_xSAXEventKeeperStatusChangeListener = listener;
}
void SAL_CALL SAXEventKeeperImpl::removeXSAXEventKeeperStatusChangeListener(
const cssu::Reference< cssxc::sax::XSAXEventKeeperStatusChangeListener >& listener )
throw (cssu::RuntimeException)
{
}
/* XDocumentHandler */
void SAL_CALL SAXEventKeeperImpl::startDocument( )
throw (cssxs::SAXException, cssu::RuntimeException)
{
if ( m_xNextHandler.is())
{
m_xNextHandler->startDocument();
}
}
void SAL_CALL SAXEventKeeperImpl::endDocument( )
throw (cssxs::SAXException, cssu::RuntimeException)
{
if ( m_xNextHandler.is())
{
m_xNextHandler->endDocument();
}
}
void SAL_CALL SAXEventKeeperImpl::startElement(
const rtl::OUString& aName,
const cssu::Reference< cssxs::XAttributeList >& xAttribs )
throw (cssxs::SAXException, cssu::RuntimeException)
{
/*
* If there is a following handler and no blocking now, then
* forward this event
*/
if ((m_pCurrentBlockingBufferNode == NULL) &&
(m_xNextHandler.is()) &&
(!m_bIsForwarding) &&
(m_pNewBlocker == NULL))
{
m_xNextHandler->startElement(aName, xAttribs);
}
/*
* If not forwarding, buffer this startElement.
*/
if (!m_bIsForwarding)
{
#ifndef _USECOMPRESSEDDOCUMENTHANDLER
m_xDocumentHandler->startElement(aName, xAttribs);
#else
sal_Int32 nLength = xAttribs->getLength();
cssu::Sequence< cssxcsax::XMLAttribute > aAttributes (nLength);
for ( int i = 0; i<nLength; ++i )
{
aAttributes[i].sName = xAttribs->getNameByIndex((short)i);
aAttributes[i].sValue =xAttribs->getValueByIndex((short)i);
}
m_xCompressedDocumentHandler->_startElement(aName, aAttributes);
#endif
}
BufferNode* pBufferNode = addNewElementMarkBuffers();
if (pBufferNode != NULL)
{
setCurrentBufferNode(pBufferNode);
}
}
void SAL_CALL SAXEventKeeperImpl::endElement( const rtl::OUString& aName )
throw (cssxs::SAXException, cssu::RuntimeException)
{
sal_Bool bIsCurrent = m_xXMLDocument->isCurrent(m_pCurrentBufferNode->getXMLElement());
/*
* If there is a following handler and no blocking now, then
* forward this event
*/
if ((m_pCurrentBlockingBufferNode == NULL) &&
(m_xNextHandler.is()) &&
(!m_bIsForwarding))
{
m_xNextHandler->endElement(aName);
}
if ((m_pCurrentBlockingBufferNode != NULL) ||
(m_pCurrentBufferNode != m_pRootBufferNode) ||
(!m_xXMLDocument->isCurrentElementEmpty()))
{
if (!m_bIsForwarding)
{
#ifndef _USECOMPRESSEDDOCUMENTHANDLER
m_xDocumentHandler->endElement(aName);
#else
m_xCompressedDocumentHandler->_endElement(aName);
#endif
}
/*
* If the current buffer node has not notified yet, and
* the current buffer node is waiting for the current element,
* then let it notify.
*/
if (bIsCurrent && (m_pCurrentBufferNode != m_pRootBufferNode))
{
BufferNode* pOldCurrentBufferNode = m_pCurrentBufferNode;
m_pCurrentBufferNode = (BufferNode*)m_pCurrentBufferNode->getParent();
pOldCurrentBufferNode->setReceivedAll();
if ((m_pCurrentBufferNode == m_pRootBufferNode) &&
m_xSAXEventKeeperStatusChangeListener.is())
{
m_xSAXEventKeeperStatusChangeListener->collectionStatusChanged(sal_False);
}
}
}
else
{
if (!m_bIsForwarding)
{
m_xXMLDocument->removeCurrentElement();
}
}
}
void SAL_CALL SAXEventKeeperImpl::characters( const rtl::OUString& aChars )
throw (cssxs::SAXException, cssu::RuntimeException)
{
if (!m_bIsForwarding)
{
if ((m_pCurrentBlockingBufferNode == NULL) && m_xNextHandler.is())
{
m_xNextHandler->characters(aChars);
}
if ((m_pCurrentBlockingBufferNode != NULL) ||
(m_pCurrentBufferNode != m_pRootBufferNode))
{
#ifndef _USECOMPRESSEDDOCUMENTHANDLER
m_xDocumentHandler->characters(aChars);
#else
m_xCompressedDocumentHandler->_characters(aChars);
#endif
}
}
}
void SAL_CALL SAXEventKeeperImpl::ignorableWhitespace( const rtl::OUString& aWhitespaces )
throw (cssxs::SAXException, cssu::RuntimeException)
{
characters( aWhitespaces );
}
void SAL_CALL SAXEventKeeperImpl::processingInstruction(
const rtl::OUString& aTarget, const rtl::OUString& aData )
throw (cssxs::SAXException, cssu::RuntimeException)
{
if (!m_bIsForwarding)
{
if ((m_pCurrentBlockingBufferNode == NULL) && m_xNextHandler.is())
{
m_xNextHandler->processingInstruction(aTarget, aData);
}
if ((m_pCurrentBlockingBufferNode != NULL) ||
(m_pCurrentBufferNode != m_pRootBufferNode))
{
#ifndef _USECOMPRESSEDDOCUMENTHANDLER
m_xDocumentHandler->processingInstruction(aTarget, aData);
#else
m_xCompressedDocumentHandler->_processingInstruction(aTarget, aData);
#endif
}
}
}
void SAL_CALL SAXEventKeeperImpl::setDocumentLocator( const cssu::Reference< cssxs::XLocator >& xLocator )
throw (cssxs::SAXException, cssu::RuntimeException)
{
}
/* XInitialization */
void SAL_CALL SAXEventKeeperImpl::initialize( const cssu::Sequence< cssu::Any >& aArguments )
throw (cssu::Exception, cssu::RuntimeException)
{
sal_Int32 nLength = aArguments.getLength();
OSL_ASSERT(nLength == 1);
aArguments[0] >>= m_xXMLDocument;
m_xDocumentHandler = cssu::Reference< cssxs::XDocumentHandler >(
m_xXMLDocument, cssu::UNO_QUERY );
m_xCompressedDocumentHandler = cssu::Reference< cssxcsax::XCompressedDocumentHandler >(
m_xXMLDocument, cssu::UNO_QUERY );
m_pRootBufferNode = new BufferNode(m_xXMLDocument->getCurrentElement());
m_pCurrentBufferNode = m_pRootBufferNode;
}
rtl::OUString SAXEventKeeperImpl_getImplementationName ()
throw (cssu::RuntimeException)
{
return rtl::OUString ( RTL_CONSTASCII_USTRINGPARAM ( IMPLEMENTATION_NAME ) );
}
sal_Bool SAL_CALL SAXEventKeeperImpl_supportsService( const rtl::OUString& ServiceName )
throw (cssu::RuntimeException)
{
return ServiceName.equalsAsciiL( RTL_CONSTASCII_STRINGPARAM ( SERVICE_NAME ));
}
cssu::Sequence< rtl::OUString > SAL_CALL SAXEventKeeperImpl_getSupportedServiceNames( )
throw (cssu::RuntimeException)
{
cssu::Sequence < rtl::OUString > aRet(1);
rtl::OUString* pArray = aRet.getArray();
pArray[0] = rtl::OUString ( RTL_CONSTASCII_USTRINGPARAM ( SERVICE_NAME ) );
return aRet;
}
#undef SERVICE_NAME
cssu::Reference< cssu::XInterface > SAL_CALL SAXEventKeeperImpl_createInstance(
const cssu::Reference< cssl::XMultiServiceFactory > & rSMgr)
throw( cssu::Exception )
{
return (cppu::OWeakObject*) new SAXEventKeeperImpl();
}
/* XServiceInfo */
rtl::OUString SAL_CALL SAXEventKeeperImpl::getImplementationName( )
throw (cssu::RuntimeException)
{
return SAXEventKeeperImpl_getImplementationName();
}
sal_Bool SAL_CALL SAXEventKeeperImpl::supportsService( const rtl::OUString& rServiceName )
throw (cssu::RuntimeException)
{
return SAXEventKeeperImpl_supportsService( rServiceName );
}
cssu::Sequence< rtl::OUString > SAL_CALL SAXEventKeeperImpl::getSupportedServiceNames( )
throw (cssu::RuntimeException)
{
return SAXEventKeeperImpl_getSupportedServiceNames();
}