office-gobmx/xmlsecurity/source/xmlsec/xmldocumentwrapper_xmlsecimpl.cxx
Noel Grandin 6e26799069 loplugin:ostr in xmlsecurity
Change-Id: Ifb936c230f68447b3bb5993705adb5e5b790371f
Reviewed-on: https://gerrit.libreoffice.org/c/core/+/167668
Reviewed-by: Noel Grandin <noel.grandin@collabora.co.uk>
Tested-by: Jenkins
2024-05-15 18:03:51 +02:00

900 lines
28 KiB
C++

/* -*- 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 <sal/config.h>
#include <osl/diagnose.h>
#include <com/sun/star/uno/XComponentContext.hpp>
#include <com/sun/star/xml/crypto/sax/XSAXEventKeeper.hpp>
#include <cppuhelper/supportsservice.hxx>
#include <xmlsec/xmldocumentwrapper_xmlsecimpl.hxx>
#include "xmlelementwrapper_xmlsecimpl.hxx"
#include <comphelper/attributelist.hxx>
#include <rtl/ref.hxx>
#ifdef UNX
#define stricmp strcasecmp
#endif
using namespace com::sun::star;
#define STRXMLNS "xmlns"
/* used by the recursiveDelete method */
#define NODE_REMOVED 0
#define NODE_NOTREMOVED 1
#define NODE_STOPPED 2
XMLDocumentWrapper_XmlSecImpl::XMLDocumentWrapper_XmlSecImpl()
: m_nCurrentPosition(0)
, m_pStopAtNode(nullptr)
, m_pCurrentReservedNode(nullptr)
, m_nReservedNodeIndex(0)
{
saxHelper.startDocument();
m_pDocument = saxHelper.getDocument();
/*
* creates the virtual root element
*/
saxHelper.startElement(u"root", uno::Sequence<css::xml::csax::XMLAttribute>());
m_pRootElement = saxHelper.getCurrentNode();
m_pCurrentElement = m_pRootElement;
}
XMLDocumentWrapper_XmlSecImpl::~XMLDocumentWrapper_XmlSecImpl()
{
saxHelper.endDocument();
xmlFreeDoc(m_pDocument);
}
void XMLDocumentWrapper_XmlSecImpl::getNextSAXEvent()
/****** XMLDocumentWrapper_XmlSecImpl/getNextSAXEvent *************************
*
* NAME
* getNextSAXEvent -- Prepares the next SAX event to be manipulate
*
* FUNCTION
* When converting the document into SAX events, this method is used to
* decide the next SAX event to be generated.
* Two member variables are checked to make the decision, the
* m_pCurrentElement and the m_nCurrentPosition.
* The m_pCurrentElement represents the node which have been covered, and
* the m_nCurrentPosition represents the event which have been sent.
* For example, suppose that the m_pCurrentElement
* points to element A, and the m_nCurrentPosition equals to
* NODEPOSITION_STARTELEMENT, then the next SAX event should be the
* endElement for element A if A has no child, or startElement for the
* first child element of element A otherwise.
* The m_nCurrentPosition can be one of following values:
* NODEPOSITION_STARTELEMENT for startElement;
* NODEPOSITION_ENDELEMENT for endElement;
* NODEPOSITION_NORMAL for other SAX events;
******************************************************************************/
{
assert(m_pCurrentElement != nullptr);
/*
* Get the next event through tree order.
*
* if the current event is a startElement, then the next
* event depends on whether or not the current node has
* children.
*/
if (m_nCurrentPosition == NODEPOSITION_STARTELEMENT)
{
/*
* If the current node has children, then its first child
* should be next current node, and the next event will be
* startElement or characters(PI) based on that child's node
* type. Otherwise, the endElement of current node is the
* next event.
*/
if (m_pCurrentElement->children != nullptr)
{
m_pCurrentElement = m_pCurrentElement->children;
m_nCurrentPosition
= (m_pCurrentElement->type == XML_ELEMENT_NODE)?
NODEPOSITION_STARTELEMENT:NODEPOSITION_NORMAL;
}
else
{
m_nCurrentPosition = NODEPOSITION_ENDELEMENT;
}
}
/*
* if the current event is a not startElement, then the next
* event depends on whether or not the current node has
* following sibling.
*/
else if (m_nCurrentPosition == NODEPOSITION_ENDELEMENT || m_nCurrentPosition == NODEPOSITION_NORMAL)
{
xmlNodePtr pNextSibling = m_pCurrentElement->next;
/*
* If the current node has following sibling, that sibling
* should be next current node, and the next event will be
* startElement or characters(PI) based on that sibling's node
* type. Otherwise, the endElement of current node's parent
* becomes the next event.
*/
if (pNextSibling != nullptr)
{
m_pCurrentElement = pNextSibling;
m_nCurrentPosition
= (m_pCurrentElement->type == XML_ELEMENT_NODE)?
NODEPOSITION_STARTELEMENT:NODEPOSITION_NORMAL;
}
else
{
m_pCurrentElement = m_pCurrentElement->parent;
m_nCurrentPosition = NODEPOSITION_ENDELEMENT;
}
}
}
void XMLDocumentWrapper_XmlSecImpl::sendStartElement(
const uno::Reference< css::xml::sax::XDocumentHandler >& xHandler,
const uno::Reference< css::xml::sax::XDocumentHandler >& xHandler2,
const xmlNodePtr pNode)
/****** XMLDocumentWrapper_XmlSecImpl/sendStartElement ************************
*
* NAME
* sendStartElement -- Constructs a startElement SAX event
*
* FUNCTION
* Used when converting the document into SAX event stream.
* This method constructs a startElement SAX event for a particular
* element, then calls the startElement methods of the XDocumentHandlers.
*
* INPUTS
* xHandler - the first XDocumentHandler interface to receive the
* startElement SAX event. It can be NULL.
* xHandler2 - the second XDocumentHandler interface to receive the
* startElement SAX event. It can't be NULL.
* pNode - the node on which the startElement should be generated.
* This node must be an element type.
******************************************************************************/
{
rtl::Reference<comphelper::AttributeList> pAttributeList = new comphelper::AttributeList();
xmlNsPtr pNsDef = pNode->nsDef;
while (pNsDef != nullptr)
{
const xmlChar* pNsPrefix = pNsDef->prefix;
const xmlChar* pNsHref = pNsDef->href;
if (pNsDef->prefix == nullptr)
{
pAttributeList->AddAttribute(
u"" STRXMLNS ""_ustr,
OUString::fromUtf8(reinterpret_cast<char const *>(pNsHref)));
}
else
{
pAttributeList->AddAttribute(
STRXMLNS ":"
+OUString::fromUtf8(reinterpret_cast<char const *>(pNsPrefix)),
OUString::fromUtf8(reinterpret_cast<char const *>(pNsHref)));
}
pNsDef = pNsDef->next;
}
xmlAttrPtr pAttr = pNode->properties;
while (pAttr != nullptr)
{
const xmlChar* pAttrName = pAttr->name;
xmlNsPtr pAttrNs = pAttr->ns;
OUString ouAttrName;
if (pAttrNs == nullptr)
{
ouAttrName = OUString::fromUtf8(reinterpret_cast<char const *>(pAttrName));
}
else
{
ouAttrName = OUString::fromUtf8(reinterpret_cast<char const *>(pAttrNs->prefix))
+ ":" + OUString::fromUtf8(reinterpret_cast<char const *>(pAttrName));
}
pAttributeList->AddAttribute(
ouAttrName,
OUString::fromUtf8(reinterpret_cast<char*>(pAttr->children->content)));
pAttr = pAttr->next;
}
OString sNodeName = getNodeQName(pNode);
if (xHandler.is())
{
xHandler->startElement(
OUString::fromUtf8(sNodeName),
pAttributeList);
}
xHandler2->startElement(
OUString::fromUtf8(sNodeName),
pAttributeList);
}
void XMLDocumentWrapper_XmlSecImpl::sendEndElement(
const uno::Reference< css::xml::sax::XDocumentHandler >& xHandler,
const uno::Reference< css::xml::sax::XDocumentHandler >& xHandler2,
const xmlNodePtr pNode)
/****** XMLDocumentWrapper_XmlSecImpl/sendEndElement **************************
*
* NAME
* sendEndElement -- Constructs an endElement SAX event
*
* FUNCTION
* Used when converting the document into SAX event stream.
* This method constructs an endElement SAX event for a particular
* element, then calls the endElement methods of the XDocumentHandlers.
*
* INPUTS
* xHandler - the first XDocumentHandler interface to receive the
* endElement SAX event. It can be NULL.
* xHandler2 - the second XDocumentHandler interface to receive the
* endElement SAX event. It can't be NULL.
* pNode - the node on which the endElement should be generated.
* This node must be an element type.
******************************************************************************/
{
OString sNodeName = getNodeQName(pNode);
if (xHandler.is())
{
xHandler->endElement(OUString::fromUtf8(sNodeName));
}
xHandler2->endElement(OUString::fromUtf8(sNodeName));
}
void XMLDocumentWrapper_XmlSecImpl::sendNode(
const uno::Reference< css::xml::sax::XDocumentHandler >& xHandler,
const uno::Reference< css::xml::sax::XDocumentHandler >& xHandler2,
const xmlNodePtr pNode)
/****** XMLDocumentWrapper_XmlSecImpl/sendNode ********************************
*
* NAME
* sendNode -- Constructs a characters SAX event or a
* processingInstruction SAX event
*
* FUNCTION
* Used when converting the document into SAX event stream.
* This method constructs a characters SAX event or a
* processingInstructionfor SAX event based on the type of a particular
* element, then calls the corresponding methods of the XDocumentHandlers.
*
* INPUTS
* xHandler - the first XDocumentHandler interface to receive the
* SAX event. It can be NULL.
* xHandler2 - the second XDocumentHandler interface to receive the
* SAX event. It can't be NULL.
* pNode - the node on which the endElement should be generated.
* If it is a text node, then a characters SAX event is
* generated; if it is a PI node, then a
* processingInstructionfor SAX event is generated.
******************************************************************************/
{
xmlElementType type = pNode->type;
if (type == XML_TEXT_NODE)
{
if (xHandler.is())
{
xHandler->characters(OUString::fromUtf8(reinterpret_cast<char*>(pNode->content)));
}
xHandler2->characters(OUString::fromUtf8(reinterpret_cast<char*>(pNode->content)));
}
else if (type == XML_PI_NODE)
{
if (xHandler.is())
{
xHandler->processingInstruction(
OUString::fromUtf8(reinterpret_cast<char const *>(pNode->name)),
OUString::fromUtf8(reinterpret_cast<char const *>(pNode->content)));
}
xHandler2->processingInstruction(
OUString::fromUtf8(reinterpret_cast<char const *>(pNode->name)),
OUString::fromUtf8(reinterpret_cast<char*>(pNode->content)));
}
}
OString XMLDocumentWrapper_XmlSecImpl::getNodeQName(const xmlNodePtr pNode)
/****** XMLDocumentWrapper_XmlSecImpl/getNodeQName ****************************
*
* NAME
* getNodeQName -- Retrieves the qualified name of a node
*
* INPUTS
* pNode - the node whose name will be retrieved
*
* RESULT
* name - the node's qualified name
******************************************************************************/
{
OString sNodeName(reinterpret_cast<const char*>(pNode->name));
if (pNode->ns != nullptr)
{
xmlNsPtr pNs = pNode->ns;
if (pNs->prefix != nullptr)
{
OString sPrefix(reinterpret_cast<const char*>(pNs->prefix));
sNodeName = sPrefix + ":" + sNodeName;
}
}
return sNodeName;
}
xmlNodePtr XMLDocumentWrapper_XmlSecImpl::checkElement( const uno::Reference< css::xml::wrapper::XXMLElementWrapper >& xXMLElement)
/****** XMLDocumentWrapper_XmlSecImpl/checkElement ****************************
*
* NAME
* checkElement -- Retrieves the node wrapped by an XXMLElementWrapper
* interface
*
* INPUTS
* xXMLElement - the XXMLElementWrapper interface wrapping a node
*
* RESULT
* node - the node wrapped in the XXMLElementWrapper interface
******************************************************************************/
{
xmlNodePtr rc = nullptr;
if (xXMLElement.is())
{
XMLElementWrapper_XmlSecImpl* pElement
= dynamic_cast<XMLElementWrapper_XmlSecImpl*>(xXMLElement.get());
if( pElement == nullptr ) {
throw uno::RuntimeException() ;
}
rc = pElement->getNativeElement();
}
return rc;
}
sal_Int32 XMLDocumentWrapper_XmlSecImpl::recursiveDelete(
const xmlNodePtr pNode)
/****** XMLDocumentWrapper_XmlSecImpl/recursiveDelete *************************
*
* NAME
* recursiveDelete -- Deletes a particular node with its branch.
*
* FUNCTION
* Deletes a particular node with its branch, while reserving the nodes
* (and their branches) listed in the m_aReservedNodes.
* The deletion process is performed in the tree order, that is, a node
* is deleted after its previous sibling node is deleted, a parent node
* is deleted after its branch is deleted.
* During the deletion process when the m_pStopAtNode is reached, the
* progress is interrupted at once.
*
* INPUTS
* pNode - the node to be deleted
*
* RESULT
* result - the result of the deletion process, can be one of following
* values:
* NODE_STOPPED - the process is interrupted by meeting the
* m_pStopAtNode
* NODE_NOTREMOVED - the pNode is not completely removed
* because there is its descendant in the
* m_aReservedNodes list
* NODE_REMOVED - the pNode and its branch are completely
* removed
*
* NOTES
* The node in the m_aReservedNodes list must be in the tree order, otherwise
* the result is unpredictable.
******************************************************************************/
{
if (pNode == m_pStopAtNode)
{
return NODE_STOPPED;
}
if (pNode != m_pCurrentReservedNode)
{
xmlNodePtr pChild = pNode->children;
xmlNodePtr pNextSibling;
bool bIsRemoved = true;
sal_Int32 nResult;
while( pChild != nullptr )
{
pNextSibling = pChild->next;
nResult = recursiveDelete(pChild);
switch (nResult)
{
case NODE_STOPPED:
return NODE_STOPPED;
case NODE_NOTREMOVED:
bIsRemoved = false;
break;
case NODE_REMOVED:
removeNode(pChild);
break;
default:
throw uno::RuntimeException();
}
pChild = pNextSibling;
}
if (pNode == m_pCurrentElement)
{
bIsRemoved = false;
}
return bIsRemoved?NODE_REMOVED:NODE_NOTREMOVED;
}
else
{
getNextReservedNode();
return NODE_NOTREMOVED;
}
}
void XMLDocumentWrapper_XmlSecImpl::getNextReservedNode()
/****** XMLDocumentWrapper_XmlSecImpl/getNextReservedNode *********************
*
* NAME
* getNextReservedNode -- Highlights the next reserved node in the
* reserved node list
*
* FUNCTION
* The m_aReservedNodes array holds a node list, while the
* m_pCurrentReservedNode points to the one currently highlighted.
* This method is used to highlight the next node in the node list.
* This method is called at the time when the current highlighted node
* has been already processed, and the next node should be ready.
******************************************************************************/
{
if (m_nReservedNodeIndex < m_aReservedNodes.getLength())
{
m_pCurrentReservedNode = checkElement( m_aReservedNodes[m_nReservedNodeIndex] );
m_nReservedNodeIndex ++;
}
else
{
m_pCurrentReservedNode = nullptr;
}
}
void XMLDocumentWrapper_XmlSecImpl::removeNode(const xmlNodePtr pNode) const
/****** XMLDocumentWrapper_XmlSecImpl/removeNode ******************************
*
* NAME
* removeNode -- Deletes a node with its branch unconditionally
*
* FUNCTION
* Delete the node along with its branch from the document.
*
* INPUTS
* pNode - the node to be deleted
******************************************************************************/
{
/* you can't remove the current node */
OSL_ASSERT( m_pCurrentElement != pNode );
xmlAttrPtr pAttr = pNode->properties;
while (pAttr != nullptr)
{
if (!stricmp(reinterpret_cast<char const *>(pAttr->name), "id"))
{
xmlRemoveID(m_pDocument, pAttr);
}
pAttr = pAttr->next;
}
xmlUnlinkNode(pNode);
xmlFreeNode(pNode);
}
void XMLDocumentWrapper_XmlSecImpl::buildIDAttr(xmlNodePtr pNode) const
/****** XMLDocumentWrapper_XmlSecImpl/buildIDAttr *****************************
*
* NAME
* buildIDAttr -- build the ID attribute of a node
*
* INPUTS
* pNode - the node whose id attribute will be built
******************************************************************************/
{
xmlAttrPtr idAttr = xmlHasProp( pNode, reinterpret_cast<const unsigned char *>("id") );
if (idAttr == nullptr)
{
idAttr = xmlHasProp( pNode, reinterpret_cast<const unsigned char *>("Id") );
}
if (idAttr != nullptr)
{
xmlChar* idValue = xmlNodeListGetString( m_pDocument, idAttr->children, 1 ) ;
xmlAddID( nullptr, m_pDocument, idValue, idAttr );
}
}
void XMLDocumentWrapper_XmlSecImpl::rebuildIDLink(xmlNodePtr pNode) const
/****** XMLDocumentWrapper_XmlSecImpl/rebuildIDLink ***************************
*
* NAME
* rebuildIDLink -- rebuild the ID link for the branch
*
* INPUTS
* pNode - the node, from which the branch will be rebuilt
******************************************************************************/
{
if (pNode != nullptr && pNode->type == XML_ELEMENT_NODE)
{
buildIDAttr( pNode );
xmlNodePtr child = pNode->children;
while (child != nullptr)
{
rebuildIDLink(child);
child = child->next;
}
}
}
/* XXMLDocumentWrapper */
uno::Reference< css::xml::wrapper::XXMLElementWrapper > SAL_CALL XMLDocumentWrapper_XmlSecImpl::getCurrentElement( )
{
return new XMLElementWrapper_XmlSecImpl(m_pCurrentElement);
}
void SAL_CALL XMLDocumentWrapper_XmlSecImpl::setCurrentElement( const uno::Reference< css::xml::wrapper::XXMLElementWrapper >& element )
{
m_pCurrentElement = checkElement( element );
saxHelper.setCurrentNode( m_pCurrentElement );
}
void SAL_CALL XMLDocumentWrapper_XmlSecImpl::removeCurrentElement( )
{
OSL_ASSERT( m_pCurrentElement != nullptr );
xmlNodePtr pOldCurrentElement = m_pCurrentElement;
/*
* pop the top node in the parser context's
* nodeTab stack, then the parent of that node will
* automatically become the new stack top, and
* the current node as well.
*/
saxHelper.endElement(OUString::fromUtf8(reinterpret_cast<char const *>(pOldCurrentElement->name)));
m_pCurrentElement = saxHelper.getCurrentNode();
/*
* remove the node
*/
removeNode(pOldCurrentElement);
}
sal_Bool SAL_CALL XMLDocumentWrapper_XmlSecImpl::isCurrent( const uno::Reference< css::xml::wrapper::XXMLElementWrapper >& node )
{
xmlNodePtr pNode = checkElement(node);
return (pNode == m_pCurrentElement);
}
sal_Bool SAL_CALL XMLDocumentWrapper_XmlSecImpl::isCurrentElementEmpty( )
{
bool rc = false;
if (m_pCurrentElement->children == nullptr)
{
rc = true;
}
return rc;
}
OUString SAL_CALL XMLDocumentWrapper_XmlSecImpl::getNodeName( const uno::Reference< css::xml::wrapper::XXMLElementWrapper >& node )
{
xmlNodePtr pNode = checkElement(node);
return OUString::fromUtf8(reinterpret_cast<char const *>(pNode->name));
}
void SAL_CALL XMLDocumentWrapper_XmlSecImpl::clearUselessData(
const uno::Reference< css::xml::wrapper::XXMLElementWrapper >& node,
const uno::Sequence< uno::Reference< css::xml::wrapper::XXMLElementWrapper > >& reservedDescendants,
const uno::Reference< css::xml::wrapper::XXMLElementWrapper >& stopAtNode )
{
xmlNodePtr pTargetNode = checkElement(node);
m_pStopAtNode = checkElement(stopAtNode);
m_aReservedNodes = reservedDescendants;
m_nReservedNodeIndex = 0;
getNextReservedNode();
recursiveDelete(pTargetNode);
}
void SAL_CALL XMLDocumentWrapper_XmlSecImpl::collapse( const uno::Reference< css::xml::wrapper::XXMLElementWrapper >& node )
{
xmlNodePtr pTargetNode = checkElement(node);
xmlNodePtr pParent;
while (pTargetNode != nullptr)
{
if (pTargetNode->children != nullptr || pTargetNode == m_pCurrentElement)
{
break;
}
pParent = pTargetNode->parent;
removeNode(pTargetNode);
pTargetNode = pParent;
}
}
void SAL_CALL XMLDocumentWrapper_XmlSecImpl::getTree( const uno::Reference< css::xml::sax::XDocumentHandler >& handler )
{
if (m_pRootElement == nullptr)
return;
xmlNodePtr pTempCurrentElement = m_pCurrentElement;
sal_Int32 nTempCurrentPosition = m_nCurrentPosition;
m_pCurrentElement = m_pRootElement;
m_nCurrentPosition = NODEPOSITION_STARTELEMENT;
while(true)
{
switch (m_nCurrentPosition)
{
case NODEPOSITION_STARTELEMENT:
sendStartElement(nullptr, handler, m_pCurrentElement);
break;
case NODEPOSITION_ENDELEMENT:
sendEndElement(nullptr, handler, m_pCurrentElement);
break;
case NODEPOSITION_NORMAL:
sendNode(nullptr, handler, m_pCurrentElement);
break;
}
if ( (m_pCurrentElement == m_pRootElement) && (m_nCurrentPosition == NODEPOSITION_ENDELEMENT ))
{
break;
}
getNextSAXEvent();
}
m_pCurrentElement = pTempCurrentElement;
m_nCurrentPosition = nTempCurrentPosition;
}
void SAL_CALL XMLDocumentWrapper_XmlSecImpl::generateSAXEvents(
const uno::Reference< css::xml::sax::XDocumentHandler >& handler,
const uno::Reference< css::xml::sax::XDocumentHandler >& xEventKeeperHandler,
const uno::Reference< css::xml::wrapper::XXMLElementWrapper >& startNode,
const uno::Reference< css::xml::wrapper::XXMLElementWrapper >& endNode )
{
/*
* The first SAX event is the startElement of the startNode
* element.
*/
bool bHasCurrentElementChild = (m_pCurrentElement->children != nullptr);
xmlNodePtr pTempCurrentElement = m_pCurrentElement;
m_pCurrentElement = checkElement(startNode);
if (m_pCurrentElement->type == XML_ELEMENT_NODE)
{
m_nCurrentPosition = NODEPOSITION_STARTELEMENT;
}
else
{
m_nCurrentPosition = NODEPOSITION_NORMAL;
}
xmlNodePtr pEndNode = checkElement(endNode);
uno::Reference < css::xml::crypto::sax::XSAXEventKeeper > xSAXEventKeeper( xEventKeeperHandler, uno::UNO_QUERY );
uno::Reference< css::xml::sax::XDocumentHandler > xHandler = handler;
while(true)
{
switch (m_nCurrentPosition)
{
case NODEPOSITION_STARTELEMENT:
sendStartElement(xHandler, xEventKeeperHandler, m_pCurrentElement);
break;
case NODEPOSITION_ENDELEMENT:
sendEndElement(xHandler, xEventKeeperHandler, m_pCurrentElement);
break;
case NODEPOSITION_NORMAL:
sendNode(xHandler, xEventKeeperHandler, m_pCurrentElement);
break;
default:
throw uno::RuntimeException();
}
if (xSAXEventKeeper->isBlocking())
{
xHandler = nullptr;
}
if (pEndNode == nullptr &&
((bHasCurrentElementChild && m_pCurrentElement == xmlGetLastChild(pTempCurrentElement) && m_nCurrentPosition != NODEPOSITION_STARTELEMENT) ||
(!bHasCurrentElementChild && m_pCurrentElement == pTempCurrentElement && m_nCurrentPosition == NODEPOSITION_STARTELEMENT)))
{
break;
}
getNextSAXEvent();
/*
* If there is an end point specified, then check whether
* the current node equals to the end point. If so, stop
* generating.
*/
if (pEndNode != nullptr && m_pCurrentElement == pEndNode)
{
break;
}
}
m_pCurrentElement = pTempCurrentElement;
}
void SAL_CALL XMLDocumentWrapper_XmlSecImpl::rebuildIDLink(
const css::uno::Reference< css::xml::wrapper::XXMLElementWrapper >& node )
{
xmlNodePtr pNode = checkElement( node );
rebuildIDLink(pNode);
}
/* css::xml::sax::XDocumentHandler */
void SAL_CALL XMLDocumentWrapper_XmlSecImpl::startDocument( )
{
}
void SAL_CALL XMLDocumentWrapper_XmlSecImpl::endDocument( )
{
}
void SAL_CALL XMLDocumentWrapper_XmlSecImpl::startElement( const OUString& aName, const uno::Reference< css::xml::sax::XAttributeList >& xAttribs )
{
sal_Int32 nLength = xAttribs->getLength();
uno::Sequence< css::xml::csax::XMLAttribute > aAttributes (nLength);
auto aAttributesRange = asNonConstRange(aAttributes);
for (int i = 0; i < nLength; ++i)
{
aAttributesRange[i].sName = xAttribs->getNameByIndex(static_cast<short>(i));
aAttributesRange[i].sValue =xAttribs->getValueByIndex(static_cast<short>(i));
}
compressedStartElement(aName, aAttributes);
}
void SAL_CALL XMLDocumentWrapper_XmlSecImpl::endElement( const OUString& aName )
{
saxHelper.endElement(aName);
m_pCurrentElement = saxHelper.getCurrentNode();
}
void SAL_CALL XMLDocumentWrapper_XmlSecImpl::characters( const OUString& aChars )
{
saxHelper.characters(aChars);
}
void SAL_CALL XMLDocumentWrapper_XmlSecImpl::ignorableWhitespace( const OUString& aWhitespaces )
{
saxHelper.ignorableWhitespace(aWhitespaces);
}
void SAL_CALL XMLDocumentWrapper_XmlSecImpl::processingInstruction( const OUString& aTarget, const OUString& aData )
{
saxHelper.processingInstruction(aTarget, aData);
}
void SAL_CALL XMLDocumentWrapper_XmlSecImpl::setDocumentLocator( const uno::Reference< css::xml::sax::XLocator >& )
{
}
/* XCompressedDocumentHandler */
void SAL_CALL XMLDocumentWrapper_XmlSecImpl::compressedStartDocument( )
{
}
void SAL_CALL XMLDocumentWrapper_XmlSecImpl::compressedEndDocument( )
{
}
void SAL_CALL XMLDocumentWrapper_XmlSecImpl::compressedStartElement( const OUString& aName, const uno::Sequence< css::xml::csax::XMLAttribute >& aAttributes )
{
saxHelper.startElement(aName, aAttributes);
m_pCurrentElement = saxHelper.getCurrentNode();
buildIDAttr( m_pCurrentElement );
}
void SAL_CALL XMLDocumentWrapper_XmlSecImpl::compressedEndElement( const OUString& aName )
{
endElement( aName );
}
void SAL_CALL XMLDocumentWrapper_XmlSecImpl::compressedCharacters( const OUString& aChars )
{
characters( aChars );
}
void SAL_CALL XMLDocumentWrapper_XmlSecImpl::compressedIgnorableWhitespace( const OUString& aWhitespaces )
{
ignorableWhitespace( aWhitespaces );
}
void SAL_CALL XMLDocumentWrapper_XmlSecImpl::compressedProcessingInstruction( const OUString& aTarget, const OUString& aData )
{
processingInstruction( aTarget, aData );
}
void SAL_CALL XMLDocumentWrapper_XmlSecImpl::compressedSetDocumentLocator( sal_Int32 /*columnNumber*/, sal_Int32 /*lineNumber*/, const OUString& /*publicId*/, const OUString& /*systemId*/ )
{
}
/* XServiceInfo */
OUString SAL_CALL XMLDocumentWrapper_XmlSecImpl::getImplementationName( )
{
return u"com.sun.star.xml.wrapper.XMLDocumentWrapper"_ustr;
}
sal_Bool SAL_CALL XMLDocumentWrapper_XmlSecImpl::supportsService( const OUString& rServiceName )
{
return cppu::supportsService( this, rServiceName );
}
uno::Sequence< OUString > SAL_CALL XMLDocumentWrapper_XmlSecImpl::getSupportedServiceNames( )
{
return { u"com.sun.star.xml.wrapper.XMLDocumentWrapper"_ustr };
}
extern "C" SAL_DLLPUBLIC_EXPORT uno::XInterface*
com_sun_star_xml_wrapper_XMLDocumentWrapper_get_implementation(
uno::XComponentContext* /*pCtx*/, uno::Sequence<uno::Any> const& /*rSeq*/)
{
return cppu::acquire(new XMLDocumentWrapper_XmlSecImpl());
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */