/* Write the file. */
bool GQCFileData::Write(const std::string &fileName)
{
// Initialize the XML4C2 system.
try
{
XMLPlatformUtils::Initialize();
}
catch (const XMLException&)
{
return false;
}
// Create a DOM implementation object and create the document type for it.
DOMImplementation *impl = DOMImplementationRegistry::getDOMImplementation(ToXMLCh(L"LS"));
DOMDocument* doc = impl->createDocument();
//doc->setStandalone(true);
// Create the serializer.
DOMLSSerializer *theSerializer = ((DOMImplementationLS*)impl)->createLSSerializer();
DOMLSOutput *theOutputDesc = ((DOMImplementationLS*)impl)->createLSOutput();
//theSerializer->setEncoding(ToXMLCh(GENERIC_REPORT_FILE_ENCODING));
theOutputDesc->setEncoding(ToXMLCh(GENERIC_REPORT_FILE_ENCODING));
// Create the root element
DOMElement *rootElement = CreateGenericReportElement(doc);
// store the parameters
AddNameValuePairs(ANALYSIS_PARAMETERS, analysisParameters, doc, rootElement);
AddNameValuePairs(QC_RESULTS, qcResults, doc, rootElement);
AddNameValuePairs(SAMPLE_SIGNATURE, sampleSignature, doc, rootElement);
// Add an empty table (required by the DTD)
AddBlankReportTable(doc, rootElement);
// Store the element to the document.
doc->appendChild(rootElement);
// Write the file.
bool status = false;
XMLFormatTarget *myFormTarget = new LocalFileFormatTarget(fileName.c_str());
theOutputDesc->setByteStream(myFormTarget);
try
{
theSerializer->write(doc, theOutputDesc);
status = true;
}
catch (...)
{
status = false;
}
// Clean up
doc->release();
theOutputDesc->release();
theSerializer->release();
delete myFormTarget;
XMLPlatformUtils::Terminate();
return status;
}
//
// domPrint - Dump the contents of a DOM node.
// For debugging failures, when all else fails.
// Works recursively - initially called with a document node.
//
void ThreadParser::domPrint()
{
printf("Begin DOMPrint ...\n");
if (gRunInfo.dom)
{
try
{
XMLCh tempStr[100];
XMLString::transcode("LS", tempStr, 99);
DOMImplementation *impl = DOMImplementationRegistry::getDOMImplementation(tempStr);
DOMLSSerializer *theSerializer = ((DOMImplementationLS*)impl)->createLSSerializer();
DOMLSOutput *theOutput = ((DOMImplementationLS*)impl)->createLSOutput();
XMLFormatTarget *myFormTarget = new StdOutFormatTarget();
theOutput->setByteStream(myFormTarget);
DOMNode *doc = fXercesDOMParser->getDocument();
theSerializer->write(doc,theOutput);
delete myFormTarget;
theSerializer->release();
theOutput->release();
}
catch (...)
{
// do nothing
}
}
printf("End DOMPrint\n");
}
void serializer::serialize(EObject_ptr obj)
{
m_root_obj = obj;
m_impl = DOMImplementationRegistry::getDOMImplementation(X("Core"));
if (m_impl)
{
EClass_ptr cl = obj->eClass();
EPackage_ptr pkg = cl->getEPackage();
::ecorecpp::mapping::type_traits::string_t const& ns_uri = pkg->getNsURI();
m_doc = m_impl->createDocument(
(ns_uri.empty()) ? X("NULL") : W(ns_uri), // root element namespace URI.
W(get_type(obj)), // root element name
0); // document type object (DTD)
m_root = m_doc->getDocumentElement();
// common attributes
// xmlns:xmi="http://www.omg.org/XMI"
m_root->setAttribute(X("xmlns:xmi"), X("http://www.omg.org/XMI"));
// xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
m_root->setAttribute(X("xmlns:xsi"),
X("http://www.w3.org/2001/XMLSchema-instance"));
// xmi:version="2.0"
m_root->setAttribute(X("xmi:version"), X("2.0"));
serialize_node(m_root, obj);
// write
// TODO: outta here
DOMLSSerializer *theSerializer =
((DOMImplementationLS*) m_impl)->createLSSerializer();
DOMLSOutput *theOutputDesc =
((DOMImplementationLS*) m_impl)->createLSOutput();
DOMConfiguration* serializerConfig = theSerializer->getDomConfig();
// TODO: set as option
if (serializerConfig->canSetParameter(
XMLUni::fgDOMWRTFormatPrettyPrint, true))
serializerConfig->setParameter(XMLUni::fgDOMWRTFormatPrettyPrint,
true);
XMLFormatTarget *myFormTarget;
myFormTarget = new LocalFileFormatTarget(X(m_file));
theOutputDesc->setByteStream(myFormTarget);
theSerializer->write(m_doc, theOutputDesc);
theOutputDesc->release();
theSerializer->release();
delete myFormTarget;
}
else
throw "Error";
}
CStdString DomSerializer::DomNodeToString(DOMNode* node)
{
CStdString output;
DOMImplementation *impl = DOMImplementationRegistry::getDOMImplementation(XStr("LS").unicodeForm());
DOMLSSerializer *theSerializer = ((DOMImplementationLS*)impl)->createLSSerializer();
DOMConfiguration * dc = theSerializer->getDomConfig();
// set user specified output encoding
//dc->setEncoding(gOutputEncoding);
dc->setParameter(XStr("format-pretty-print").unicodeForm(), true);
XMLFormatTarget *myFormTarget;
myFormTarget = new MemBufFormatTarget ();
DOMLSOutput *outputStream = ((DOMImplementationLS*)impl)->createLSOutput();
outputStream->setByteStream(myFormTarget);
theSerializer->write(node, outputStream);
output = (char *)((MemBufFormatTarget*)myFormTarget)->getRawBuffer();
// Clean up
delete theSerializer;
//
// Filter, formatTarget and error handler
// are NOT owned by the serializer.
delete myFormTarget;
return output;
}
DOMLSSerializer * createWriter()
{
DOMLSSerializer *writer = getImplementation()->createLSSerializer();
DOMConfiguration *config = writer->getDomConfig();
if(config->canSetParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true))
config->setParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true);
return writer;
}
void SYSTEM::CXMLConfiguration::Save()
{
DOMLSSerializer *ss = ((DOMImplementationLS*)impl)->createLSSerializer();
if(xmlFile.length() == 0)
{
//InfoLog("Cann't save file. The file name is null");
return;
}
XMLCh *t = XMLString::transcode(xmlFile.c_str());
ss->writeToURI((XERCES_CPP_NAMESPACE_QUALIFIER DOMDocument*)doc,t);
XMLString::release(&m_curValue);
}
static void
serialise (DOMDocument const *doc, std::string const &output)
{
XMLCh const LS[] = { chLatin_L, chLatin_S, chNull };
DOMImplementationLS &impl = dynamic_cast<DOMImplementationLS &> (*DOMImplementationRegistry::getDOMImplementation (LS));
DOMLSSerializer *writer = impl.createLSSerializer ();
DOMLSOutput *desc = impl.createLSOutput ();
LocalFileFormatTarget target (output.c_str ());
desc->setByteStream (&target);
writer->write (doc, desc);
}
bool serializeDOM(std::ostream& output, bool)
{
XMLCh tempStr[100];
XMLString::transcode("LS", tempStr, 99);
DOMImplementationLS *impl = dynamic_cast<DOMImplementationLS *>(DOMImplementationRegistry::getDOMImplementation(tempStr));
DOMLSSerializer *theSerializer = impl->createLSSerializer();
DOMLSOutput *theOutputDesc = impl->createLSOutput();
bool rc = false;
try
{
MemBufFormatTarget *myFormTarget = new MemBufFormatTarget();
/* do the serialization through DOMLSSerializer::write(); */
theOutputDesc->setByteStream(myFormTarget);
theSerializer->write(inputFileDOM, theOutputDesc);
const XMLByte * data = myFormTarget->getRawBuffer();
XMLSize_t len = myFormTarget->getLen();
output.write( reinterpret_cast<const char *>(data), len );
delete myFormTarget;
rc = true;
}
catch (IOException& e ) {
cerr << StrX(e.getMessage());
cerr << " Code is " << e.getCode();
if ( errno != 0 ) {
cerr << ": " << strerror( errno );
}
}
catch (XMLException& e)
{
cerr << "An error occurred during creation of output transcoder. Msg is:"
<< endl
<< StrX(e.getMessage());
if ( errno != 0 ) {
cerr << ": " << strerror( errno );
}
cerr << endl;
rc = false;
}
delete theSerializer;
return rc;
}
/// Dump DOM tree using XercesC handles
void dumpTree(DOMNode* doc, ostream& os) {
if ( doc ) {
DOMImplementation *imp = DOMImplementationRegistry::getDOMImplementation(Strng_t("LS"));
MemBufFormatTarget *tar = new MemBufFormatTarget();
DOMLSOutput *out = imp->createLSOutput();
DOMLSSerializer *wrt = imp->createLSSerializer();
out->setByteStream(tar);
wrt->getDomConfig()->setParameter(Strng_t("format-pretty-print"), true);
wrt->write(doc, out);
os << tar->getRawBuffer() << endl << flush;
out->release();
wrt->release();
return;
}
printout(ERROR,"dumpTree","+++ Cannot dump invalid document.");
}
void Normalizer::serializeNode(const DOMNode * const node) {
XMLCh tempStr[100];
XMLString::transcode("LS", tempStr, 99);
DOMImplementation *impl = DOMImplementationRegistry::getDOMImplementation(tempStr);
DOMLSSerializer *theSerializer = ((DOMImplementationLS*)impl)->createLSSerializer();
DOMLSOutput *theOutput = ((DOMImplementationLS*)impl)->createLSOutput();
theSerializer->getDomConfig()->setParameter(X("format-pretty-print"), true);
XMLFormatTarget *myFormTarget;
myFormTarget = new StdOutFormatTarget();
theOutput->setByteStream(myFormTarget);
theSerializer->write(node,theOutput);
delete myFormTarget;
theSerializer->release();
theOutput->release();
}
void SerializeXercesDocument(xercesc::DOMDocument& document, xercesc::XMLFormatTarget& target) {
// call into xerces for serialization
// cf. http://xerces.apache.org/xerces-c/program-dom-3.html#DOMLSSerializer
static const XMLCh gLS[] = { chLatin_L, chLatin_S, chNull };
DOMImplementation *impl = DOMImplementationRegistry::getDOMImplementation(gLS);
// construct the DOMWriter
DOMLSSerializer *writer = ((DOMImplementationLS*)impl)->createLSSerializer();
// optionally you can set some features on this serializer
if (writer->getDomConfig()->canSetParameter(XMLUni::fgDOMWRTDiscardDefaultContent, true))
writer->getDomConfig()->setParameter(XMLUni::fgDOMWRTDiscardDefaultContent, true);
if (writer->getDomConfig()->canSetParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true))
writer->getDomConfig()->setParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true);
// prepare output
DOMLSOutput *outp = ((DOMImplementationLS*)impl)->createLSOutput();
outp->setByteStream(&target);
// serialize the DOMNode to a UTF-16 string
writer->write(&document, outp);
// release the memory
outp->release();
writer->release();
}
int XmlParser::commit(const char* xmlFile) {
try {
// Obtain DOM implementation supporting Load/Save
DOMImplementationLS* pImplementation = dynamic_cast<DOMImplementationLS *>(DOMImplementationRegistry::getDOMImplementation(DualString("LS").asXMLString()));
if (pImplementation == NULL){
throw( std::runtime_error( "Unable to obtain suitable DOMImplementation!" ) ) ;
}
DOMLSSerializer *pSerializer = pImplementation->createLSSerializer();
DOMLSOutput *pOutput = pImplementation->createLSOutput();
#if 1
// Change output format to be pretty (but it isn't)
DOMConfiguration *pConfiguration = pSerializer->getDomConfig();
if (pConfiguration->canSetParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true))
pConfiguration->setParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true);
#if 0
// Overrides above but seems to have little effect!
if (pConfiguration->canSetParameter(XMLUni::fgDOMWRTCanonicalForm, true))
pConfiguration->setParameter(XMLUni::fgDOMWRTCanonicalForm, true);
#endif
#if 1
//
if (pConfiguration->canSetParameter(XMLUni::fgDOMWRTEntities, true))
pConfiguration->setParameter(XMLUni::fgDOMWRTEntities, true);
#endif
#endif
LocalFileFormatTarget *pTarget = new LocalFileFormatTarget(DualString( xmlFile ).asXMLString());
pOutput->setByteStream(pTarget);
// mergeDocument->normalizeDocument(); // Needed?
pSerializer->write(mergeDocument, pOutput);
delete pTarget;
pOutput->release();
pSerializer->release();
} catch( const xercesc::XMLException& e ){
return -1;
}
return 0;
}
void PrintXMLdoc(const XERCES_CPP_NAMESPACE::DOMDocument* doc)
{
DOMImplementation* impl = DOMImplementationRegistry::getDOMImplementation(L"Core");
DOMLSSerializer *theSerializer = ((DOMImplementationLS*)impl)->createLSSerializer();
DOMLSOutput *theOutputDesc = ((DOMImplementationLS*)impl)->createLSOutput();
DOMConfiguration* serializerConfig=theSerializer->getDomConfig();
if (serializerConfig->canSetParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true))
serializerConfig->setParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true);
XMLFormatTarget *outputStream = new StdOutFormatTarget();
theOutputDesc->setByteStream(outputStream);
theSerializer->write(doc, theOutputDesc);
theOutputDesc->release();
theSerializer->release();
delete outputStream;
}
string XmlUtil::convertDomToString() {
if(!doc)
throw "DOM is empty"; // FIXME add an exception type for this
DOMImplementationLS* implLS = dynamic_cast<DOMImplementationLS*>(impl);
DOMLSSerializer* theSerializer = implLS->createLSSerializer();
DOMConfiguration* serializerConfig = theSerializer->getDomConfig();
if (serializerConfig->canSetParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true))
serializerConfig->setParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true);
string stringTemp = XMLString::transcode (theSerializer->writeToString(doc));
theSerializer->release();
/*string stringDump;
for (string::iterator it = stringTemp.begin() ; it < stringTemp.end(); ++it) {
if (!isspace (*it))
stringDump += *it;
}
return stringDump;*/
return stringTemp;
}
string tsp::Tool::xmlNode2String(const DOMNode* node) {
if (!initXmlEngine())
return NULL;
DOMImplementation *implementation =
DOMImplementationRegistry::getDOMImplementation(
XMLString::transcode("LS"));
// Create a DOMLSSerializer which is used to serialize a DOM tree into an XML document.
DOMLSSerializer *serializer =
((DOMImplementationLS*) implementation)->createLSSerializer();
// Make the output more human readable by inserting line feeds.
if (serializer->getDomConfig()->canSetParameter(
XMLUni::fgDOMWRTFormatPrettyPrint, true))
serializer->getDomConfig()->setParameter(
XMLUni::fgDOMWRTFormatPrettyPrint, true);
// The end-of-line sequence of characters to be used in the XML being written out.
serializer->setNewLine(XMLString::transcode("\r\n"));
return XMLString::transcode(serializer->writeToString(node));
}
//save the document to an external file
void ResultXML::save()
{
//create the serializer for saving the document
DOMLSSerializer *serializer = (DOMLSSerializer*)imp->createLSSerializer();
//configure for saving it in a well presented human readable format
if(serializer->getDomConfig()->canSetParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true)){
serializer->getDomConfig()->setParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true);
}
//set the output for serializing as a stream
DOMLSOutput *output = ((DOMImplementationLS*)imp)->createLSOutput();
output->setByteStream(ftarget);
//use the serializer to save the document and catch any errors encountered
try{
serializer->write(root, output);
}
catch (const XMLException& e) {
char* msg = XMLString::transcode(e.getMessage());
cout << "Error Exception Encountered: " << endl << msg << endl;
XMLString::release(&msg);
}
catch (const DOMException& e) {
char* msg = XMLString::transcode(e.getMessage());
cout << "Error Exception Encountered: " << endl << msg << endl;
XMLString::release(&msg);
}
catch (...) {
cout << "Error Unknown Exception" << endl;
}
//force the release of resources held by the serializer and output manager
output->release();
serializer->release();
}
int ModelicaXML::serializeXMLDocumentToFile(mstring xmlFileName)
{
// fix the file
XMLFormatTarget *myFormatTarget = new LocalFileFormatTarget(X(xmlFileName.c_str()));
theOutputDesc->setByteStream(myFormatTarget);
// serialize a DOMNode to the local file "
domSerializer->write(pModelicaXMLDoc, theOutputDesc);
myFormatTarget->flush();
delete myFormatTarget;
return 0;
}
void Deployment_Plan_Visitor::write_document (const std::string & basename)
{
std::ostringstream filename;
filename << this->config_.output_ << "\\" << basename << ".cdp";
using namespace xercesc;
// Write the XML document to a file.
DOMLSSerializer * serializer = this->document_->impl ()->createLSSerializer ();
if (serializer->getDomConfig ()->canSetParameter (XMLUni::fgDOMWRTDiscardDefaultContent, true))
serializer->getDomConfig ()->setParameter (XMLUni::fgDOMWRTDiscardDefaultContent, true);
if (serializer->getDomConfig ()->canSetParameter (XMLUni::fgDOMWRTFormatPrettyPrint, true))
serializer->getDomConfig ()->setParameter (XMLUni::fgDOMWRTFormatPrettyPrint, true);
if (serializer->getDomConfig ()->canSetParameter (XMLUni::fgDOMWRTBOM, false))
serializer->getDomConfig ()->setParameter (XMLUni::fgDOMWRTBOM, false);
serializer->writeToURI (this->document_->root (), GAME::Xml::String (filename.str ()));
serializer->release ();
}
Triggerconf::~Triggerconf ()
{
if( savechanges ){
//
// save file
//
static const XMLCh gLS [] = {chLatin_L, chLatin_S, chNull};
DOMImplementation* impl = DOMImplementationRegistry::getDOMImplementation(gLS);
DOMLSSerializer* writer = ((DOMImplementationLS*)impl)->createLSSerializer();
if (writer->getDomConfig()->canSetParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true))
writer->getDomConfig()->setParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true);
if (writer->getDomConfig()->canSetParameter(XMLUni::fgDOMWRTBOM, true))
writer->getDomConfig()->setParameter(XMLUni::fgDOMWRTBOM, true);
XMLFormatTarget* target = new LocalFileFormatTarget (file.c_str ());
target->flush();
DOMLSOutput* output = ((DOMImplementationLS*)impl)->createLSOutput();
output->setByteStream( target );
writer->write( rootnode , output );
writer->release();
delete target;
delete output;
} // if( savechanges )
//
// delete all stuff here
//
delete parser;
delete errhandler;
//
// now we can safely terminate xerces
//
XMLPlatformUtils::Terminate();
}
void OutputXML(xercesc::DOMDocument* pmyDOMDocument, std::string filePath)
{
//Return the first registered implementation that has the desired features. In this case, we are after a DOM implementation that has the LS feature... or Load/Save.
DOMImplementation *implementation = DOMImplementationRegistry::getDOMImplementation(XMLString::transcode("LS"));
// Create a DOMLSSerializer which is used to serialize a DOM tree into an XML document.
DOMLSSerializer *serializer = ((DOMImplementationLS*)implementation)->createLSSerializer();
// Make the output more human readable by inserting line feeds.
if (serializer->getDomConfig()->canSetParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true))
serializer->getDomConfig()->setParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true);
// The end-of-line sequence of characters to be used in the XML being written out.
serializer->setNewLine(XMLString::transcode("\r\n"));
// Convert the path into Xerces compatible XMLCh*.
XMLCh *tempFilePath = XMLString::transcode(filePath.c_str());
// Specify the target for the XML output.
XMLFormatTarget *formatTarget = new LocalFileFormatTarget(tempFilePath);
// Create a new empty output destination object.
DOMLSOutput *output = ((DOMImplementationLS*)implementation)->createLSOutput();
// Set the stream to our target.
output->setByteStream(formatTarget);
// Write the serialized output to the destination.
serializer->write(pmyDOMDocument, output);
// Cleanup.
serializer->release();
XMLString::release(&tempFilePath);
delete formatTarget;
output->release();
}
bool ClsDataClientConfigWriter::saveConfig(string strFileName, list<ClsDataClientConfig> lstConfigs) {
// cout << "ClsDataClientConfigWriter::saveConfig(string strFileName, list<ClsDataClientConfig> lstConfigs)" << endl;
if(!bXMLPlatformInitialized){
try {
XMLPlatformUtils::Initialize();
}
catch(const XMLException& toCatch) {
cerr << "Error during Xerces-c Initialization.\n"
<< " Exception message:"
<< toCatch.getMessage() << endl;
bXMLPlatformInitialized = false;
return false;
}
bXMLPlatformInitialized = true;
}
DOMImplementation *impl = DOMImplementationRegistry::getDOMImplementation(XMLString::transcode((const char*)"Range"));
DOMDocumentType *dtd = impl->createDocumentType(XMLString::transcode(ConfigTagLibrary::DataManagerConfiguration()),
XMLString::transcode("-//INI/iqr421"),
XMLString::transcode("iqrDataManagerConfiguration.dtd"));
DOMDocument *ddocConfig = impl->createDocument(0, XMLString::transcode(ConfigTagLibrary::DataManagerConfiguration()), dtd);
DOMElement *delemConfig;
delemConfig = ddocConfig->getDocumentElement();
list<ClsDataClientConfig>::iterator itConfigs;
for(itConfigs=lstConfigs.begin(); itConfigs != lstConfigs.end(); itConfigs++){
string strID = (*itConfigs).getID();
string strType = (*itConfigs).getType();
pair<int,int> pPosition = (*itConfigs).getPosition();
pair<int,int> pGeometry = (*itConfigs).getGeometry();
DOMElement *delemDataClient;
delemDataClient = ddocConfig->createElement(XMLString::transcode(ConfigTagLibrary::DataClientTag()));
delemDataClient->setAttribute(XMLString::transcode(ConfigTagLibrary::TypeTag()), XMLString::transcode(strType.c_str()));
delemDataClient->setAttribute(XMLString::transcode(ConfigTagLibrary::IDTag()), XMLString::transcode(strID.c_str()));
delemConfig->appendChild(delemDataClient);
DOMElement *delemPosition;
delemPosition = ddocConfig->createElement(XMLString::transcode(ConfigTagLibrary::PositionTag()));
delemPosition->setAttribute(XMLString::transcode(ConfigTagLibrary::PositionXTag()),
XMLString::transcode(iqrUtils::int2string(pPosition.first).c_str()));
delemPosition->setAttribute(XMLString::transcode(ConfigTagLibrary::PositionYTag()),
XMLString::transcode(iqrUtils::int2string(pPosition.second).c_str()));
delemDataClient->appendChild(delemPosition);
DOMElement *delemGeometry;
delemGeometry = ddocConfig->createElement(XMLString::transcode(ConfigTagLibrary::Geometry()));
delemGeometry->setAttribute(XMLString::transcode(ConfigTagLibrary::GeometryWidthTag()),
XMLString::transcode(iqrUtils::int2string(pGeometry.first).c_str()));
delemGeometry->setAttribute(XMLString::transcode(ConfigTagLibrary::GeometryHeightTag()),
XMLString::transcode(iqrUtils::int2string(pGeometry.second).c_str()));
delemDataClient->appendChild(delemGeometry);
list<pair<string, string> > lstParameters = (*itConfigs).getListParameters();
list<pair<string, string> >::iterator itLstParameters;
for(itLstParameters = lstParameters.begin(); itLstParameters != lstParameters.end(); itLstParameters++){
string strParamName = (*itLstParameters).first;
string strParamValue = (*itLstParameters).second;
DOMElement *delemParameter;
delemParameter = ddocConfig->createElement(XMLString::transcode(strParamName.c_str()));
delemDataClient->appendChild(delemParameter);
DOMText *dtxtParamValue = ddocConfig->createTextNode(XMLString::transcode(strParamValue.c_str()));
delemParameter->appendChild(dtxtParamValue);
}
DOMElement *delemSVD;
delemSVD = ddocConfig->createElement(XMLString::transcode(ConfigTagLibrary::StateVariableDisplayTag()));
delemDataClient->appendChild(delemSVD);
list<ClsStateVariableDisplayConfig>lstSVDConfigs = (*itConfigs).getListStateVariableDisplayConfig();
list<ClsStateVariableDisplayConfig>::iterator itSVD;
for(itSVD = lstSVDConfigs.begin(); itSVD != lstSVDConfigs.end(); itSVD++){
DOMElement *delemStateVariable;
delemStateVariable = ddocConfig->createElement(XMLString::transcode(ConfigTagLibrary::StateVariableDisplaysTag()));
delemSVD->appendChild(delemStateVariable);
delemStateVariable->setAttribute(XMLString::transcode(ConfigTagLibrary::IDTag()),
XMLString::transcode((*itSVD).getID().c_str()));
/*
delemStateVariable->setAttribute(XMLString::transcode(ConfigTagLibrary::TypeTag()),
XMLString::transcode((*itSVD).getItemType().c_str()));
*/
delemStateVariable->setAttribute(XMLString::transcode(ConfigTagLibrary::ItemIDTag()),
XMLString::transcode((*itSVD).getItemID().c_str()));
delemStateVariable->setAttribute(XMLString::transcode(ConfigTagLibrary::SelectedIndicesTag()),
XMLString::transcode((*itSVD).getSelectedIndices().c_str()));
list<pair<string, string> > lstParametersSVD = (*itSVD).getListParameters();
list<pair<string, string> >::iterator itLstParametersSVD;
for(itLstParametersSVD = lstParametersSVD.begin(); itLstParametersSVD != lstParametersSVD.end(); itLstParametersSVD++){
string strParamName = (*itLstParametersSVD).first;
string strParamValue = (*itLstParametersSVD).second;
DOMElement *delemParameter;
delemParameter = ddocConfig->createElement(XMLString::transcode(strParamName.c_str()));
delemStateVariable->appendChild(delemParameter);
DOMText *dtxtParamValue = ddocConfig->createTextNode(XMLString::transcode(strParamValue.c_str()));
delemParameter->appendChild(dtxtParamValue);
}
}
}
#if XERCES_VERSION_MAJOR >= 3
DOMLSSerializer* theSerializer = ((DOMImplementationLS*)impl)->createLSSerializer();
if (theSerializer->getDomConfig()->canSetParameter(XMLUni::fgDOMWRTDiscardDefaultContent, true))
theSerializer->getDomConfig()->setParameter(XMLUni::fgDOMWRTDiscardDefaultContent, true);
if (theSerializer->getDomConfig()->canSetParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true))
theSerializer->getDomConfig()->setParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true);
#else
DOMWriter* theSerializer = ((DOMImplementationLS*)impl)->createDOMWriter();
if (theSerializer->canSetFeature(XMLUni::fgDOMWRTDiscardDefaultContent, true))
theSerializer->setFeature(XMLUni::fgDOMWRTDiscardDefaultContent, true);
if (theSerializer->canSetFeature(XMLUni::fgDOMWRTFormatPrettyPrint, true))
theSerializer->setFeature(XMLUni::fgDOMWRTFormatPrettyPrint, true);
#endif
XMLFormatTarget *myFormTarget = new LocalFileFormatTarget(strFileName.c_str());
#if XERCES_VERSION_MAJOR >= 3
DOMLSOutput* theOutput = ((DOMImplementationLS*)impl)->createLSOutput();
theOutput->setByteStream(myFormTarget);
#endif
try {
#if XERCES_VERSION_MAJOR >= 3
theSerializer->write(delemConfig, theOutput);
#else
theSerializer->writeNode(myFormTarget, *delemConfig);
#endif
}
catch (const XMLException& toCatch) {
char* message = XMLString::transcode(toCatch.getMessage());
cerr << "Exception message is: \n"
<< message << "\n";
XMLString::release(&message);
}
catch (const DOMException& toCatch) {
char* message = XMLString::transcode(toCatch.msg);
cerr << "Exception message is: \n"
<< message << "\n";
XMLString::release(&message);
}
catch (...) {
cerr << "Unexpected Exception \n" ;
}
// cout << myFormTarget->getRawBuffer() << endl;
theSerializer->release();
delete myFormTarget;
return true;
}
int main(int argC, char*argV[])
{
// Initialize the XML4C2 system.
try
{
XMLPlatformUtils::Initialize();/*init*/
}
catch(const XMLException& toCatch)
{
char *pMsg = XMLString::transcode(toCatch.getMessage());
XERCES_STD_QUALIFIER cerr << "Error during Xerces-c Initialization.\n"
<< " Exception message:"
<< pMsg;
XMLString::release(&pMsg);
return 1;
}
DOMImplementation* impl = DOMImplementationRegistry::getDOMImplementation(X("LS"));/**Implementation*/
DOMLSSerializer* theSerializer = ((DOMImplementationLS*)impl)->createLSSerializer();/** createLSSerializer*/
DOMLSOutput *theOutputDesc = ((DOMImplementationLS*)impl)->createLSOutput();/**createLSOutput*/
MemBufFormatTarget* target = new MemBufFormatTarget();
theOutputDesc->setByteStream(target);
if (impl != NULL)
{
try
{
DOMDocument* doc = impl->createDocument(
0, // root element namespace URI. /**可用资源标识*/
X("corporation"), // root element name /**a large companny*/
0); // document type object (DTD). /**mem mannager mode object*/
doc->setXmlStandalone(true);
DOMElement* rootElem = doc->getDocumentElement();
rootElem->setAttribute(X("xmlns"), X("com:cmcc:corporation"));
rootElem->setAttribute(X("xmlns:xsi"), X("http://www.w3.org/2001/XMLSchema-instance"));
rootElem->setAttribute(X("xsi:schemaLocation"), X("com:cmcc:corporation corporation.xsd"));
//add node
DOMElement* prodElem = doc->createElement(X("eid"));
rootElem->appendChild(prodElem);
DOMText* prodDataVal = doc->createTextNode(X("100000"));
prodElem->appendChild(prodDataVal);
XercesDOMParser* parser = new XercesDOMParser();
//add basic child
MemBufInputSource* basic_mem = new MemBufInputSource(
(const XMLByte* )basic_string.c_str(),
strlen(basic_string.c_str()),
"basic",
false);
parser->parse( *basic_mem );
DOMDocument* xmlDoc = parser->getDocument();
DOMElement* basic_root = xmlDoc->getDocumentElement();
DOMNode* newnode = doc->importNode((DOMNode* )basic_root, true);
rootElem->appendChild(newnode);
delete basic_mem;
//add the rules child
MemBufInputSource* rules_mem = new MemBufInputSource(
(const XMLByte* )rules_string.c_str(),
rules_string.length(),
"rules",
false);
parser->parse( *rules_mem );
xmlDoc = parser->getDocument();
DOMElement* rules_root = xmlDoc->getDocumentElement();
newnode = doc->importNode((DOMNode* )rules_root, true);
rootElem->appendChild(newnode);
delete rules_mem;
//add the accounts child
MemBufInputSource* accounts_mem = new MemBufInputSource(
(const XMLByte* )accounts_string.c_str(),
accounts_string.length(),
"accounts",
false);
parser->parse( *accounts_mem );
xmlDoc = parser->getDocument();
DOMElement* accounts_root = xmlDoc->getDocumentElement();
newnode = doc->importNode((DOMNode* )accounts_root, true);
rootElem->appendChild(newnode);
delete accounts_mem;
theSerializer->write(doc, theOutputDesc);
std::cout<< target->getRawBuffer()<< std::endl;
delete target;
delete parser;
theOutputDesc->release();
theSerializer->release();
doc->release();
}
catch(const OutOfMemoryException&)
{
XERCES_STD_QUALIFIER cerr << "OutOfMemoryException" << XERCES_STD_QUALIFIER endl;
}
catch (const DOMException& e)
{
XERCES_STD_QUALIFIER cerr << "DOMException code is: " << e.code << XERCES_STD_QUALIFIER endl;
}
catch (...)
{
XERCES_STD_QUALIFIER cerr << "An error occurred creating the document" << XERCES_STD_QUALIFIER endl;
}
}
else
{
XERCES_STD_QUALIFIER cerr << "Requested implementation is not supported" << XERCES_STD_QUALIFIER endl;
}
XMLPlatformUtils::Terminate();
return 0;
}
bool ServerConfigXMLReader::readServerConfig(const std::string & path) {
this->serverConfig = ServerConfig();
try {
XMLPlatformUtils::Initialize();
} catch (const XMLException& toCatch) {
char * message = XMLString::transcode(toCatch.getMessage());
cout << "Error during initialization! :\n" << message << "\n";
XMLString::release(&message);
return false;
}
XercesDOMParser * parser = new XercesDOMParser();
//parser->setValidationScheme(XercesDOMParser::Val_Auto);
parser->setDoNamespaces(true);
parser->setDoXInclude(true);
//parser->setValidationScheme(XercesDOMParser::Val_Always);
// parser->setDoSchema(true);
// parser->setValidationSchemaFullChecking(true);
XMLParseErrorReporter * xmlParseErrorReporter = new XMLParseErrorReporter();;
parser->setErrorHandler(xmlParseErrorReporter);
try {
parser->parse(path.c_str());
} catch (const XMLException & toCatch) {
char * message = XMLString::transcode(toCatch.getMessage());
cout << "Exception message is: \n" << message << "\n";
XMLString::release(&message);
return false;
}
catch (const DOMException& toCatch) {
char * message = XMLString::transcode(toCatch.msg);
cout << "Exception message is: \n" << message << "\n";
XMLString::release(&message);
return false;
}
catch (...) {
cout << "Unexpected Exception \n" ;
return false;
}
DOMDocument * domDocument = parser->getDocument();
removeBaseAttr(domDocument);
// get a serializer, an instance of DOMLSSerializer
XMLCh tempStr[3] = {chLatin_L, chLatin_S, chNull};
DOMImplementation *impl = DOMImplementationRegistry::getDOMImplementation(tempStr);
DOMLSSerializer *theSerializer = ((DOMImplementationLS*)impl)->createLSSerializer();
DOMLSOutput *theOutputDesc = ((DOMImplementationLS*)impl)->createLSOutput();
// set user specified output encoding
theOutputDesc->setEncoding(0);
XMLDOMErrorReporter * xmlDOMErrorReporter = new XMLDOMErrorReporter();
DOMConfiguration * serializerConfig = theSerializer->getDomConfig();
serializerConfig->setParameter(XMLUni::fgDOMErrorHandler, xmlDOMErrorReporter);
// set feature if the serializer supports the feature/mode
if (serializerConfig->canSetParameter(XMLUni::fgDOMWRTSplitCdataSections, true))
serializerConfig->setParameter(XMLUni::fgDOMWRTSplitCdataSections, true);
if (serializerConfig->canSetParameter(XMLUni::fgDOMWRTDiscardDefaultContent, true))
serializerConfig->setParameter(XMLUni::fgDOMWRTDiscardDefaultContent, true);
if (serializerConfig->canSetParameter(XMLUni::fgDOMWRTFormatPrettyPrint, false))
serializerConfig->setParameter(XMLUni::fgDOMWRTFormatPrettyPrint, false);
if (serializerConfig->canSetParameter(XMLUni::fgDOMWRTBOM, false))
serializerConfig->setParameter(XMLUni::fgDOMWRTBOM, false);
/*
XMLFormatTarget * myFormTarget = new StdOutFormatTarget();
theOutputDesc->setByteStream(myFormTarget);
theSerializer->write(domDocument, theOutputDesc);
*/
MemBufFormatTarget * myFormTarget = new MemBufFormatTarget();
theOutputDesc->setByteStream(myFormTarget);
theSerializer->write(domDocument, theOutputDesc);
/*
XMLFormatTarget * myFormTarget2 = new StdOutFormatTarget();
theOutputDesc->setByteStream(myFormTarget2);
theSerializer->write(domDocument, theOutputDesc);
*/
MemBufInputSource * memInput = new MemBufInputSource(myFormTarget->getRawBuffer(), myFormTarget->getLen(), path.c_str());
XercesDOMParser * parser2 = new XercesDOMParser();
parser2->setDoNamespaces(true);
parser2->setDoXInclude(true);
// parser2->setValidationScheme(XercesDOMParser::Val_Always);
// parser2->setDoSchema(true);
// parser2->setValidationSchemaFullChecking(true);
parser2->setErrorHandler(xmlParseErrorReporter);
try {
parser2->parse(*memInput);
} catch (const XMLException & toCatch) {
char * message = XMLString::transcode(toCatch.getMessage());
cout << "Exception message is: \n" << message << "\n";
XMLString::release(&message);
return false;
}
catch (const DOMException& toCatch) {
char * message = XMLString::transcode(toCatch.msg);
cout << "Exception message is: \n" << message << "\n";
XMLString::release(&message);
return false;
}
catch (...) {
cout << "Unexpected Exception \n" ;
return false;
}
DOMDocument * domDocument2 = parser2->getDocument();
XMLNodeFilter * xmlNodeFilter = new XMLNodeFilter();
DOMTreeWalker * domTreeWalker = domDocument->createTreeWalker(domDocument2, DOMNodeFilter::SHOW_ALL, xmlNodeFilter, true);
this->serverConfig = extractServerConfig(domDocument2, domTreeWalker);
domTreeWalker->release();
delete xmlNodeFilter;
delete xmlDOMErrorReporter;
delete xmlParseErrorReporter;
delete parser;
XMLPlatformUtils::Terminate();
return true;
}
int evaluate(int argc, char ** argv) {
char * filename = NULL;
char * outfile = NULL;
unsigned char * keyStr = NULL;
bool doDecrypt = true;
bool errorsOccured = false;
bool doDecryptElement = false;
bool useInteropResolver = false;
bool encryptFileAsData = false;
bool parseXMLInput = true;
bool doXMLOutput = false;
bool isXKMSKey = false;
XSECCryptoKey * kek = NULL;
XSECCryptoKey * key = NULL;
int keyLen = 0;
encryptionMethod kekAlg = ENCRYPT_NONE;
encryptionMethod keyAlg = ENCRYPT_NONE;
DOMDocument *doc;
unsigned char keyBuf[24];
XMLFormatTarget *formatTarget ;
#if defined(_WIN32) && defined (XSEC_HAVE_WINCAPI)
HCRYPTPROV win32DSSCSP = 0; // Crypto Providers
HCRYPTPROV win32RSACSP = 0;
CryptAcquireContext(&win32DSSCSP, NULL, NULL, PROV_DSS, CRYPT_VERIFYCONTEXT);
CryptAcquireContext(&win32RSACSP, NULL, NULL, PROV_RSA_FULL, CRYPT_VERIFYCONTEXT);
#endif
if (argc < 2) {
printUsage();
return 2;
}
// Run through parameters
int paramCount = 1;
while (paramCount < argc - 1) {
if (_stricmp(argv[paramCount], "--decrypt-element") == 0 || _stricmp(argv[paramCount], "-de") == 0) {
paramCount++;
doDecrypt = true;
doDecryptElement = true;
doXMLOutput = true;
parseXMLInput = true;
}
else if (_stricmp(argv[paramCount], "--interop") == 0 || _stricmp(argv[paramCount], "-i") == 0) {
// Use the interop key resolver
useInteropResolver = true;
paramCount++;
}
else if (_stricmp(argv[paramCount], "--encrypt-file") == 0 || _stricmp(argv[paramCount], "-ef") == 0) {
// Use this file as the input
doDecrypt = false;
encryptFileAsData = true;
doXMLOutput = true;
parseXMLInput = false;
paramCount++;
}
else if (_stricmp(argv[paramCount], "--encrypt-xml") == 0 || _stricmp(argv[paramCount], "-ex") == 0) {
// Us this file as an XML input file
doDecrypt = false;
encryptFileAsData = false;
doXMLOutput = true;
parseXMLInput = true;
paramCount++;
}
else if (_stricmp(argv[paramCount], "--out-file") == 0 || _stricmp(argv[paramCount], "-o") == 0) {
if (paramCount +2 >= argc) {
printUsage();
return 1;
}
paramCount++;
outfile = argv[paramCount];
paramCount++;
}
else if (_stricmp(argv[paramCount], "--xkms") == 0 || _stricmp(argv[paramCount], "-x") == 0) {
paramCount++;
isXKMSKey = true;
}
#if defined (XSEC_HAVE_WINCAPI)
else if (_stricmp(argv[paramCount], "--wincapi") == 0 || _stricmp(argv[paramCount], "-w") == 0) {
// Use the interop key resolver
WinCAPICryptoProvider * cp = new WinCAPICryptoProvider();
XSECPlatformUtils::SetCryptoProvider(cp);
paramCount++;
}
#endif
#if defined (XSEC_HAVE_NSS)
else if (_stricmp(argv[paramCount], "--nss") == 0 || _stricmp(argv[paramCount], "-n") == 0) {
// NSS Crypto Provider
NSSCryptoProvider * cp = new NSSCryptoProvider();
XSECPlatformUtils::SetCryptoProvider(cp);
paramCount++;
}
#endif
else if (_stricmp(argv[paramCount], "--key") == 0 || _stricmp(argv[paramCount], "-k") == 0) {
// Have a key!
paramCount++;
bool isKEK = false;
XSECCryptoSymmetricKey::SymmetricKeyType loadKeyAs =
XSECCryptoSymmetricKey::KEY_NONE;
if (_stricmp(argv[paramCount], "kek") == 0) {
isKEK = true;
paramCount++;
if (paramCount >= argc) {
printUsage();
return 2;
}
}
if (_stricmp(argv[paramCount], "3DES") == 0 ||
_stricmp(argv[paramCount], "AES128") == 0 ||
_stricmp(argv[paramCount], "AES192") == 0 ||
_stricmp(argv[paramCount], "AES256") == 0 ||
_stricmp(argv[paramCount], "AES128-GCM") == 0 ||
_stricmp(argv[paramCount], "AES192-GCM") == 0 ||
_stricmp(argv[paramCount], "AES256-GCM") == 0) {
if (paramCount +2 >= argc) {
printUsage();
return 2;
}
switch(argv[paramCount][4]) {
case '\0' :
keyLen = 24;
loadKeyAs = XSECCryptoSymmetricKey::KEY_3DES_192;
keyAlg = ENCRYPT_3DES_CBC;
break;
case '2' :
keyLen = 16;
loadKeyAs = XSECCryptoSymmetricKey::KEY_AES_128;
if (isKEK) {
kekAlg = ENCRYPT_KW_AES128;
}
else if (strlen(argv[paramCount]) == 6) {
keyAlg = ENCRYPT_AES128_CBC;
}
else {
keyAlg = ENCRYPT_AES128_GCM;
}
break;
case '9' :
keyLen = 24;
loadKeyAs = XSECCryptoSymmetricKey::KEY_AES_192;
if (isKEK) {
kekAlg = ENCRYPT_KW_AES192;
}
else if (strlen(argv[paramCount]) == 6) {
keyAlg = ENCRYPT_AES192_CBC;
}
else {
keyAlg = ENCRYPT_AES192_GCM;
}
break;
case '5' :
keyLen = 32;
loadKeyAs = XSECCryptoSymmetricKey::KEY_AES_256;
if (isKEK) {
kekAlg = ENCRYPT_KW_AES256;
}
else if (strlen(argv[paramCount]) == 6) {
keyAlg = ENCRYPT_AES256_CBC;
}
else {
keyAlg = ENCRYPT_AES256_GCM;
}
break;
}
paramCount++;
unsigned char keyStr[64];
if (strlen(argv[paramCount]) > 64) {
cerr << "Key string too long\n";
return 2;
}
XSECCryptoSymmetricKey * sk =
XSECPlatformUtils::g_cryptoProvider->keySymmetric(loadKeyAs);
if (isXKMSKey) {
unsigned char kbuf[XSEC_MAX_HASH_SIZE];
CalculateXKMSKEK((unsigned char *) argv[paramCount], (int) strlen(argv[paramCount]), kbuf, XSEC_MAX_HASH_SIZE);
sk->setKey(kbuf, keyLen);
}
else {
memset(keyStr, 0, 64);
strcpy((char *) keyStr, argv[paramCount]);
sk->setKey(keyStr, keyLen);
}
paramCount++;
if (isKEK)
kek = sk;
else
key = sk;
}
#if defined (XSEC_HAVE_OPENSSL)
else if (_stricmp(argv[paramCount], "RSA") == 0) {
// RSA private key file
if (paramCount + 3 >= argc) {
printUsage();
return 2;
}
if (!isKEK) {
cerr << "RSA private keys may only be KEKs\n";
return 2;
}
BIO * bioKey;
if ((bioKey = BIO_new(BIO_s_file())) == NULL) {
cerr << "Error opening private key file\n\n";
return 1;
}
if (BIO_read_filename(bioKey, argv[paramCount + 1]) <= 0) {
cerr << "Error opening private key file\n\n";
return 1;
}
EVP_PKEY * pkey;
pkey = PEM_read_bio_PrivateKey(bioKey,NULL,NULL,argv[paramCount + 2]);
if (pkey == NULL) {
cerr << "Error loading private key\n\n";
return 1;
}
kek = new OpenSSLCryptoKeyRSA(pkey);
kekAlg = ENCRYPT_RSA_15;
EVP_PKEY_free(pkey);
BIO_free(bioKey);
paramCount += 3;
}
else if (_stricmp(argv[paramCount], "X509") == 0) {
// X509 cert used to load an encrypting key
if (paramCount + 2 >= argc) {
printUsage();
exit (1);
}
if (!isKEK) {
cerr << "X509 private keys may only be KEKs\n";
return 2;
}
// Load the encrypting key
// For now just read a particular file
BIO * bioX509;
if ((bioX509 = BIO_new(BIO_s_file())) == NULL) {
cerr << "Error opening file\n\n";
exit (1);
}
if (BIO_read_filename(bioX509, argv[paramCount + 1]) <= 0) {
cerr << "Error opening X509 Certificate " << argv[paramCount + 1] << "\n\n";
exit (1);
}
X509 * x
;
x = PEM_read_bio_X509_AUX(bioX509,NULL,NULL,NULL);
if (x == NULL) {
BIO * bio_err;
if ((bio_err=BIO_new(BIO_s_file())) != NULL)
BIO_set_fp(bio_err,stderr,BIO_NOCLOSE|BIO_FP_TEXT);
cerr << "Error loading certificate key\n\n";
ERR_print_errors(bio_err);
BIO_free(bio_err);
exit (1);
}
// Now load the key
EVP_PKEY *pkey;
pkey = X509_get_pubkey(x);
if (pkey == NULL || pkey->type != EVP_PKEY_RSA) {
cerr << "Error extracting RSA key from certificate" << endl;
}
kek = new OpenSSLCryptoKeyRSA(pkey);
kekAlg = ENCRYPT_RSA_15;
// Clean up
EVP_PKEY_free (pkey);
X509_free(x);
BIO_free(bioX509);
paramCount += 2;
} /* argv[1] = "--x509cert" */
#endif /* XSEC_HAVE_OPENSSL */
else {
printUsage();
return 2;
}
}
else {
cerr << "Unknown option: " << argv[paramCount] << endl;
printUsage();
return 2;
}
}
if (paramCount >= argc) {
printUsage();
return 2;
}
if (outfile != NULL) {
formatTarget = new LocalFileFormatTarget(outfile);
}
else {
formatTarget = new StdOutFormatTarget();
}
filename = argv[paramCount];
if (parseXMLInput) {
XercesDOMParser * parser = new XercesDOMParser;
Janitor<XercesDOMParser> j_parser(parser);
parser->setDoNamespaces(true);
parser->setCreateEntityReferenceNodes(true);
// Now parse out file
xsecsize_t errorCount = 0;
try
{
parser->parse(filename);
errorCount = parser->getErrorCount();
if (errorCount > 0)
errorsOccured = true;
}
catch (const XMLException& e)
{
cerr << "An error occured during parsing\n Message: "
<< e.getMessage() << endl;
errorsOccured = true;
}
catch (const DOMException& e)
{
cerr << "A DOM error occured during parsing\n DOMException code: "
<< e.code << endl;
errorsOccured = true;
}
if (errorsOccured) {
cout << "Errors during parse" << endl;
return (2);
}
/*
Now that we have the parsed file, get the DOM document and start looking at it
*/
doc = parser->adoptDocument();
}
else {
// Create an empty document
XMLCh tempStr[100];
XMLString::transcode("Core", tempStr, 99);
DOMImplementation *impl = DOMImplementationRegistry::getDOMImplementation(tempStr);
doc = impl->createDocument(
0, // root element namespace URI.
MAKE_UNICODE_STRING("ADoc"), // root element name
NULL);// DOMDocumentType()); // document type object (DTD).
}
XSECProvider prov;
XENCCipher * cipher = prov.newCipher(doc);
if (kek != NULL)
cipher->setKEK(kek);
if (key != NULL)
cipher->setKey(key);
try {
if (doDecrypt) {
if (useInteropResolver == true) {
// Map out base path of the file
char path[_MAX_PATH];
char baseURI[(_MAX_PATH * 2) + 10];
getcwd(path, _MAX_PATH);
strcpy(baseURI, "file:///");
// Ugly and nasty but quick
if (filename[0] != '\\' && filename[0] != '/' && filename[1] != ':') {
strcat(baseURI, path);
strcat(baseURI, "/");
} else if (path[1] == ':') {
path[2] = '\0';
strcat(baseURI, path);
}
strcat(baseURI, filename);
// Find any ':' and "\" characters
int lastSlash = 0;
for (unsigned int i = 8; i < strlen(baseURI); ++i) {
if (baseURI[i] == '\\') {
lastSlash = i;
baseURI[i] = '/';
}
else if (baseURI[i] == '/')
lastSlash = i;
}
// The last "\\" must prefix the filename
baseURI[lastSlash + 1] = '\0';
XMLCh * uriT = XMLString::transcode(baseURI);
XencInteropResolver ires(doc, &(uriT[8]));
XSEC_RELEASE_XMLCH(uriT);
cipher->setKeyInfoResolver(&ires);
}
// Find the EncryptedData node
DOMNode * n = findXENCNode(doc, "EncryptedData");
if (doDecryptElement) {
while (n != NULL) {
// decrypt
cipher->decryptElement(static_cast<DOMElement *>(n));
// Find the next EncryptedData node
n = findXENCNode(doc, "EncryptedData");
}
}
else {
XSECBinTXFMInputStream * bis = cipher->decryptToBinInputStream(static_cast<DOMElement *>(n));
Janitor<XSECBinTXFMInputStream> j_bis(bis);
XMLByte buf[1024];
xsecsize_t read = bis->readBytes(buf, 1023);
while (read > 0) {
formatTarget->writeChars(buf, read, NULL);
read = bis->readBytes(buf, 1023);
}
}
}
else {
XENCEncryptedData *xenc = NULL;
// Encrypting
if (kek != NULL && key == NULL) {
XSECPlatformUtils::g_cryptoProvider->getRandom(keyBuf, 24);
XSECCryptoSymmetricKey * k =
XSECPlatformUtils::g_cryptoProvider->keySymmetric(XSECCryptoSymmetricKey::KEY_3DES_192);
k->setKey(keyBuf, 24);
cipher->setKey(k);
keyAlg = ENCRYPT_3DES_CBC;
keyStr = keyBuf;
keyLen = 24;
}
if (encryptFileAsData) {
// Create a BinInputStream
#if defined(XSEC_XERCES_REQUIRES_MEMMGR)
BinFileInputStream * is = new BinFileInputStream(filename, XMLPlatformUtils::fgMemoryManager);
#else
BinFileInputStream * is = new BinFileInputStream(filename);
#endif
xenc = cipher->encryptBinInputStream(is, keyAlg);
// Replace the document element
DOMElement * elt = doc->getDocumentElement();
doc->replaceChild(xenc->getElement(), elt);
elt->release();
}
else {
// Document encryption
cipher->encryptElement(doc->getDocumentElement(), keyAlg);
}
// Do we encrypt a created key?
if (kek != NULL && xenc != NULL) {
XENCEncryptedKey *xkey = cipher->encryptKey(keyStr, keyLen, kekAlg);
// Add to the EncryptedData
xenc->appendEncryptedKey(xkey);
}
}
if (doXMLOutput) {
// Output the result
XMLCh core[] = {
XERCES_CPP_NAMESPACE_QUALIFIER chLatin_C,
XERCES_CPP_NAMESPACE_QUALIFIER chLatin_o,
XERCES_CPP_NAMESPACE_QUALIFIER chLatin_r,
XERCES_CPP_NAMESPACE_QUALIFIER chLatin_e,
XERCES_CPP_NAMESPACE_QUALIFIER chNull
};
DOMImplementation *impl = DOMImplementationRegistry::getDOMImplementation(core);
#if defined (XSEC_XERCES_DOMLSSERIALIZER)
// DOM L3 version as per Xerces 3.0 API
DOMLSSerializer *theSerializer = ((DOMImplementationLS*)impl)->createLSSerializer();
Janitor<DOMLSSerializer> j_theSerializer(theSerializer);
// Get the config so we can set up pretty printing
DOMConfiguration *dc = theSerializer->getDomConfig();
dc->setParameter(XMLUni::fgDOMWRTFormatPrettyPrint, false);
// Now create an output object to format to UTF-8
DOMLSOutput *theOutput = ((DOMImplementationLS*)impl)->createLSOutput();
Janitor<DOMLSOutput> j_theOutput(theOutput);
theOutput->setEncoding(MAKE_UNICODE_STRING("UTF-8"));
theOutput->setByteStream(formatTarget);
theSerializer->write(doc, theOutput);
#else
DOMWriter *theSerializer = ((DOMImplementationLS*)impl)->createDOMWriter();
Janitor<DOMWriter> j_theSerializer(theSerializer);
theSerializer->setEncoding(MAKE_UNICODE_STRING("UTF-8"));
if (theSerializer->canSetFeature(XMLUni::fgDOMWRTFormatPrettyPrint, false))
theSerializer->setFeature(XMLUni::fgDOMWRTFormatPrettyPrint, false);
theSerializer->writeNode(formatTarget, *doc);
#endif
cout << endl;
}
}
catch (XSECException &e) {
char * msg = XMLString::transcode(e.getMsg());
cerr << "An error occured during encryption/decryption operation\n Message: "
<< msg << endl;
XSEC_RELEASE_XMLCH(msg);
errorsOccured = true;
if (formatTarget != NULL)
delete formatTarget;
doc->release();
return 2;
}
catch (XSECCryptoException &e) {
cerr << "An error occured during encryption/decryption operation\n Message: "
<< e.getMsg() << endl;
errorsOccured = true;
if (formatTarget != NULL)
delete formatTarget;
doc->release();
#if defined (XSEC_HAVE_OPENSSL)
ERR_load_crypto_strings();
BIO * bio_err;
if ((bio_err=BIO_new(BIO_s_file())) != NULL)
BIO_set_fp(bio_err,stderr,BIO_NOCLOSE|BIO_FP_TEXT);
ERR_print_errors(bio_err);
#endif
return 2;
}
if (formatTarget != NULL)
delete formatTarget;
doc->release();
return 0;
}
void CTibiaItem::saveItemLists()
{
if (!xmlInitialised)
{
XMLPlatformUtils::Initialize();
xmlInitialised = 1;
}
char installPath[1024] = { '\0' };
unsigned long installPathLen = 1023;
HKEY hkey = NULL;
if (!RegOpenKeyEx(HKEY_LOCAL_MACHINE, "Software\\Tibia Auto\\", 0, KEY_READ, &hkey))
{
RegQueryValueEx(hkey, TEXT("Install_Dir"), NULL, NULL, (unsigned char *)installPath, &installPathLen);
RegCloseKey(hkey);
}
if (!strlen(installPath))
{
AfxMessageBox("ERROR! Unable to read TA install directory! Please reinstall!");
PostQuitMessage(-1);
return;
}
XercesDOMParser *parser = new XercesDOMParser();
try
{
//int itemNr;
char pathBuf[2048];
sprintf(pathBuf, "%s\\data\\tibiaauto-items.xml", installPath);
DOMImplementation* impl = DOMImplementationRegistry::getDOMImplementation(XMLString::transcode("Core"));
xercesc::DOMDocument *doc = impl->createDocument(0, XMLString::transcode("item-definitions"), 0);
doc->createComment((const unsigned short *)"<!-- Tibia Items for Tibia -->");
DOMElement *root = doc->getDocumentElement();
//ITEMS
DOMNode *itemsNode = doc->createElement(XMLString::transcode("items"));
root->appendChild(itemsNode);
//recursively save data structure to XML
saveItemsBranch(itemsNode, itemTree, doc);
//FOOD
DOMNode *foodNode = doc->createElement(XMLString::transcode("foods"));
root->appendChild(foodNode);
{
int size = foodList.GetCount();
for (int i = 0; i < size; i++)
{
char buf[512];
DOMElement* itemElem = doc->createElement(XMLString::transcode("item"));
foodNode->appendChild(itemElem);
char* name = foodList.GetTextAtIndex(i);
int id = foodList.GetValueAtIndex(i);
int time = foodList.GetExtraInfoAtIndex(i);
sprintf(buf, "0x%x", id);
itemElem->setAttribute(XMLString::transcode("id"), XMLString::transcode(buf));
itemElem->setAttribute(XMLString::transcode("name"), XMLString::transcode(name));
sprintf(buf, "%d", time);
itemElem->setAttribute(XMLString::transcode("time"), XMLString::transcode(buf));
}
}
//CONSTS
/* never any need to save constants anymore
DOMNode *constsNode = doc->createElement(XMLString::transcode("consts"));
root->appendChild(constsNode);
int size = constCodeList.GetCount();
for (int i=0;i<size;i++){
char buf[512];
DOMElement* itemElem = doc->createElement(XMLString::transcode("const"));
constsNode->appendChild(itemElem);
char* code=constCodeList.GetTextAtIndex(i);
int value=constCodeList.GetValueAtIndex(i);
sprintf(buf, "0x%x", value);
itemElem->setAttribute(XMLString::transcode("value"), XMLString::transcode(buf));
itemElem->setAttribute(XMLString::transcode("code"), XMLString::transcode(code));
}
*/
XMLCh tempStr[100];
XMLString::transcode("LS", tempStr, 99);
impl = DOMImplementationRegistry::getDOMImplementation(tempStr);
DOMLSSerializer* theSerializer = ((DOMImplementationLS*)impl)->createLSSerializer();
DOMConfiguration* dc = theSerializer->getDomConfig();
if (dc->canSetParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true))
dc->setParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true);
XMLFormatTarget *outFile = new LocalFileFormatTarget(pathBuf);
DOMLSOutput *lsOut = ((DOMImplementationLS*)impl)->createLSOutput();
lsOut->setByteStream(outFile);
theSerializer->write(doc, lsOut);
theSerializer->release();
lsOut->release();
delete outFile;
}
catch (...)
{
AfxMessageBox("Unable to save item definitions!");
}
delete parser;
}
// ---------------------------------------------------------------------------
//
// main
//
// ---------------------------------------------------------------------------
int main(int argC, char* argV[])
{
int retval = 0;
// Initialize the XML4C2 system
try
{
XMLPlatformUtils::Initialize();
}
catch(const XMLException &toCatch)
{
XERCES_STD_QUALIFIER cerr << "Error during Xerces-c Initialization.\n"
<< " Exception message:"
<< StrX(toCatch.getMessage()) << XERCES_STD_QUALIFIER endl;
return 1;
}
// Check command line and extract arguments.
if (argC < 2)
{
usage();
XMLPlatformUtils::Terminate();
return 1;
}
// See if non validating dom parser configuration is requested.
int parmInd;
for (parmInd = 1; parmInd < argC; parmInd++)
{
// Break out on first parm not starting with a dash
if (argV[parmInd][0] != '-')
break;
// Watch for special case help request
if (!strcmp(argV[parmInd], "-?"))
{
usage();
XMLPlatformUtils::Terminate();
return 2;
}
else if (!strncmp(argV[parmInd], "-v=", 3)
|| !strncmp(argV[parmInd], "-V=", 3))
{
const char* const parm = &argV[parmInd][3];
if (!strcmp(parm, "never"))
gValScheme = XercesDOMParser::Val_Never;
else if (!strcmp(parm, "auto"))
gValScheme = XercesDOMParser::Val_Auto;
else if (!strcmp(parm, "always"))
gValScheme = XercesDOMParser::Val_Always;
else
{
XERCES_STD_QUALIFIER cerr << "Unknown -v= value: " << parm << XERCES_STD_QUALIFIER endl;
XMLPlatformUtils::Terminate();
return 2;
}
}
else if (!strcmp(argV[parmInd], "-n")
|| !strcmp(argV[parmInd], "-N"))
{
gDoNamespaces = true;
}
else if (!strcmp(argV[parmInd], "-s")
|| !strcmp(argV[parmInd], "-S"))
{
gDoSchema = true;
}
else if (!strcmp(argV[parmInd], "-f")
|| !strcmp(argV[parmInd], "-F"))
{
gSchemaFullChecking = true;
}
else if (!strcmp(argV[parmInd], "-e")
|| !strcmp(argV[parmInd], "-E"))
{
gDoCreate = true;
}
else if (!strncmp(argV[parmInd], "-wenc=", 6))
{
// Get out the encoding name
gOutputEncoding = XMLString::transcode( &(argV[parmInd][6]) );
}
else if (!strncmp(argV[parmInd], "-wfile=", 7))
{
goutputfile = &(argV[parmInd][7]);
}
else if (!strncmp(argV[parmInd], "-wddc=", 6))
{
const char* const parm = &argV[parmInd][6];
if (!strcmp(parm, "on"))
gDiscardDefaultContent = true;
else if (!strcmp(parm, "off"))
gDiscardDefaultContent = false;
else
{
XERCES_STD_QUALIFIER cerr << "Unknown -wddc= value: " << parm << XERCES_STD_QUALIFIER endl;
XMLPlatformUtils::Terminate();
return 2;
}
}
else if (!strncmp(argV[parmInd], "-wscs=", 6))
{
const char* const parm = &argV[parmInd][6];
if (!strcmp(parm, "on"))
gSplitCdataSections = true;
else if (!strcmp(parm, "off"))
gSplitCdataSections = false;
else
{
XERCES_STD_QUALIFIER cerr << "Unknown -wscs= value: " << parm << XERCES_STD_QUALIFIER endl;
XMLPlatformUtils::Terminate();
return 2;
}
}
else if (!strncmp(argV[parmInd], "-wflt=", 6))
{
const char* const parm = &argV[parmInd][6];
if (!strcmp(parm, "on"))
gUseFilter = true;
else if (!strcmp(parm, "off"))
gUseFilter = false;
else
{
XERCES_STD_QUALIFIER cerr << "Unknown -wflt= value: " << parm << XERCES_STD_QUALIFIER endl;
XMLPlatformUtils::Terminate();
return 2;
}
}
else if (!strncmp(argV[parmInd], "-wfpp=", 6))
{
const char* const parm = &argV[parmInd][6];
if (!strcmp(parm, "on"))
gFormatPrettyPrint = true;
else if (!strcmp(parm, "off"))
gFormatPrettyPrint = false;
else
{
XERCES_STD_QUALIFIER cerr << "Unknown -wfpp= value: " << parm << XERCES_STD_QUALIFIER endl;
XMLPlatformUtils::Terminate();
return 2;
}
}
else if (!strncmp(argV[parmInd], "-wbom=", 6))
{
const char* const parm = &argV[parmInd][6];
if (!strcmp(parm, "on"))
gWriteBOM = true;
else if (!strcmp(parm, "off"))
gWriteBOM = false;
else
{
XERCES_STD_QUALIFIER cerr << "Unknown -wbom= value: " << parm << XERCES_STD_QUALIFIER endl;
XMLPlatformUtils::Terminate();
return 2;
}
}
else if (!strncmp(argV[parmInd], "-xpath=", 7))
{
gXPathExpression = &(argV[parmInd][7]);
}
else
{
XERCES_STD_QUALIFIER cerr << "Unknown option '" << argV[parmInd]
<< "', ignoring it.\n" << XERCES_STD_QUALIFIER endl;
}
}
//
// And now we have to have only one parameter left and it must be
// the file name.
//
if (parmInd + 1 != argC)
{
usage();
XMLPlatformUtils::Terminate();
return 1;
}
gXmlFile = argV[parmInd];
//
// Create our parser, then attach an error handler to the parser.
// The parser will call back to methods of the ErrorHandler if it
// discovers errors during the course of parsing the XML document.
//
XercesDOMParser *parser = new XercesDOMParser;
parser->setValidationScheme(gValScheme);
parser->setDoNamespaces(gDoNamespaces);
parser->setDoSchema(gDoSchema);
parser->setValidationSchemaFullChecking(gSchemaFullChecking);
parser->setCreateEntityReferenceNodes(gDoCreate);
DOMTreeErrorReporter *errReporter = new DOMTreeErrorReporter();
parser->setErrorHandler(errReporter);
//
// Parse the XML file, catching any XML exceptions that might propogate
// out of it.
//
bool errorsOccured = false;
try
{
parser->parse(gXmlFile);
}
catch (const OutOfMemoryException&)
{
XERCES_STD_QUALIFIER cerr << "OutOfMemoryException" << XERCES_STD_QUALIFIER endl;
errorsOccured = true;
}
catch (const XMLException& e)
{
XERCES_STD_QUALIFIER cerr << "An error occurred during parsing\n Message: "
<< StrX(e.getMessage()) << XERCES_STD_QUALIFIER endl;
errorsOccured = true;
}
catch (const DOMException& e)
{
const unsigned int maxChars = 2047;
XMLCh errText[maxChars + 1];
XERCES_STD_QUALIFIER cerr << "\nDOM Error during parsing: '" << gXmlFile << "'\n"
<< "DOMException code is: " << e.code << XERCES_STD_QUALIFIER endl;
if (DOMImplementation::loadDOMExceptionMsg(e.code, errText, maxChars))
XERCES_STD_QUALIFIER cerr << "Message is: " << StrX(errText) << XERCES_STD_QUALIFIER endl;
errorsOccured = true;
}
catch (...)
{
XERCES_STD_QUALIFIER cerr << "An error occurred during parsing\n " << XERCES_STD_QUALIFIER endl;
errorsOccured = true;
}
// If the parse was successful, output the document data from the DOM tree
if (!errorsOccured && !errReporter->getSawErrors())
{
DOMPrintFilter *myFilter = 0;
try
{
// get a serializer, an instance of DOMLSSerializer
XMLCh tempStr[3] = {chLatin_L, chLatin_S, chNull};
DOMImplementation *impl = DOMImplementationRegistry::getDOMImplementation(tempStr);
DOMLSSerializer *theSerializer = ((DOMImplementationLS*)impl)->createLSSerializer();
DOMLSOutput *theOutputDesc = ((DOMImplementationLS*)impl)->createLSOutput();
// set user specified output encoding
theOutputDesc->setEncoding(gOutputEncoding);
// plug in user's own filter
if (gUseFilter)
{
// even we say to show attribute, but the DOMLSSerializer
// will not show attribute nodes to the filter as
// the specs explicitly says that DOMLSSerializer shall
// NOT show attributes to DOMLSSerializerFilter.
//
// so DOMNodeFilter::SHOW_ATTRIBUTE has no effect.
// same DOMNodeFilter::SHOW_DOCUMENT_TYPE, no effect.
//
myFilter = new DOMPrintFilter(DOMNodeFilter::SHOW_ELEMENT |
DOMNodeFilter::SHOW_ATTRIBUTE |
DOMNodeFilter::SHOW_DOCUMENT_TYPE);
theSerializer->setFilter(myFilter);
}
// plug in user's own error handler
DOMErrorHandler *myErrorHandler = new DOMPrintErrorHandler();
DOMConfiguration* serializerConfig=theSerializer->getDomConfig();
serializerConfig->setParameter(XMLUni::fgDOMErrorHandler, myErrorHandler);
// set feature if the serializer supports the feature/mode
if (serializerConfig->canSetParameter(XMLUni::fgDOMWRTSplitCdataSections, gSplitCdataSections))
serializerConfig->setParameter(XMLUni::fgDOMWRTSplitCdataSections, gSplitCdataSections);
if (serializerConfig->canSetParameter(XMLUni::fgDOMWRTDiscardDefaultContent, gDiscardDefaultContent))
serializerConfig->setParameter(XMLUni::fgDOMWRTDiscardDefaultContent, gDiscardDefaultContent);
if (serializerConfig->canSetParameter(XMLUni::fgDOMWRTFormatPrettyPrint, gFormatPrettyPrint))
serializerConfig->setParameter(XMLUni::fgDOMWRTFormatPrettyPrint, gFormatPrettyPrint);
if (serializerConfig->canSetParameter(XMLUni::fgDOMWRTBOM, gWriteBOM))
serializerConfig->setParameter(XMLUni::fgDOMWRTBOM, gWriteBOM);
//
// Plug in a format target to receive the resultant
// XML stream from the serializer.
//
// StdOutFormatTarget prints the resultant XML stream
// to stdout once it receives any thing from the serializer.
//
XMLFormatTarget *myFormTarget;
if (goutputfile)
myFormTarget=new LocalFileFormatTarget(goutputfile);
else
myFormTarget=new StdOutFormatTarget();
theOutputDesc->setByteStream(myFormTarget);
// get the DOM representation
DOMDocument *doc = parser->getDocument();
//
// do the serialization through DOMLSSerializer::write();
//
if(gXPathExpression!=NULL)
{
XMLCh* xpathStr=XMLString::transcode(gXPathExpression);
DOMElement* root = doc->getDocumentElement();
try
{
DOMXPathNSResolver* resolver=doc->createNSResolver(root);
DOMXPathResult* result=doc->evaluate(
xpathStr,
root,
resolver,
DOMXPathResult::ORDERED_NODE_SNAPSHOT_TYPE,
NULL);
XMLSize_t nLength = result->getSnapshotLength();
for(XMLSize_t i = 0; i < nLength; i++)
{
result->snapshotItem(i);
theSerializer->write(result->getNodeValue(), theOutputDesc);
}
result->release();
resolver->release ();
}
catch(const DOMXPathException& e)
{
XERCES_STD_QUALIFIER cerr << "An error occurred during processing of the XPath expression. Msg is:"
<< XERCES_STD_QUALIFIER endl
<< StrX(e.getMessage()) << XERCES_STD_QUALIFIER endl;
retval = 4;
}
catch(const DOMException& e)
{
XERCES_STD_QUALIFIER cerr << "An error occurred during processing of the XPath expression. Msg is:"
<< XERCES_STD_QUALIFIER endl
<< StrX(e.getMessage()) << XERCES_STD_QUALIFIER endl;
retval = 4;
}
XMLString::release(&xpathStr);
}
else
theSerializer->write(doc, theOutputDesc);
theOutputDesc->release();
theSerializer->release();
//
// Filter, formatTarget and error handler
// are NOT owned by the serializer.
//
delete myFormTarget;
delete myErrorHandler;
if (gUseFilter)
delete myFilter;
}
catch (const OutOfMemoryException&)
{
XERCES_STD_QUALIFIER cerr << "OutOfMemoryException" << XERCES_STD_QUALIFIER endl;
retval = 5;
}
catch (XMLException& e)
{
XERCES_STD_QUALIFIER cerr << "An error occurred during creation of output transcoder. Msg is:"
<< XERCES_STD_QUALIFIER endl
<< StrX(e.getMessage()) << XERCES_STD_QUALIFIER endl;
retval = 4;
}
}
else
retval = 4;
//
// Clean up the error handler. The parser does not adopt handlers
// since they could be many objects or one object installed for multiple
// handlers.
//
delete errReporter;
//
// Delete the parser itself. Must be done prior to calling Terminate, below.
//
delete parser;
XMLString::release(&gOutputEncoding);
// And call the termination method
XMLPlatformUtils::Terminate();
return retval;
}
void CTibiaItem::saveItemLists()
{
if (!xmlInitialised)
{
XMLPlatformUtils::Initialize();
xmlInitialised = 1;
}
XercesDOMParser *parser = new XercesDOMParser();
try
{
//int itemNr;
char pathBuf[2048];
sprintf(pathBuf, "%s\\data\\tibiaauto-items.xml", CInstallPath::getInstallPath().c_str());
DOMImplementation* impl = DOMImplementationRegistry::getDOMImplementation(XMLString::transcode("Core"));
xercesc::DOMDocument *doc = impl->createDocument(0, XMLString::transcode("item-definitions"), 0);
doc->createComment((const unsigned short *)"<!-- Tibia Items for Tibia -->");
DOMElement *root = doc->getDocumentElement();
//ITEMS
DOMNode *itemsNode = doc->createElement(XMLString::transcode("items"));
root->appendChild(itemsNode);
//recursively save data structure to XML
saveItemsBranch(itemsNode, itemTree, doc);
//FOOD
DOMNode *foodNode = doc->createElement(XMLString::transcode("foods"));
root->appendChild(foodNode);
{
int size = foodList.GetCount();
for (int i = 0; i < size; i++)
{
char buf[512];
DOMElement* itemElem = doc->createElement(XMLString::transcode("item"));
foodNode->appendChild(itemElem);
char* name = foodList.GetTextAtIndex(i);
int id = foodList.GetValueAtIndex(i);
int time = foodList.GetExtraInfoAtIndex(i);
sprintf(buf, "0x%x", id);
itemElem->setAttribute(XMLString::transcode("id"), XMLString::transcode(buf));
itemElem->setAttribute(XMLString::transcode("name"), XMLString::transcode(name));
sprintf(buf, "%d", time);
itemElem->setAttribute(XMLString::transcode("time"), XMLString::transcode(buf));
}
}
//CONSTS
/* never any need to save constants anymore
DOMNode *constsNode = doc->createElement(XMLString::transcode("consts"));
root->appendChild(constsNode);
int size = constCodeList.GetCount();
for (int i=0;i<size;i++){
char buf[512];
DOMElement* itemElem = doc->createElement(XMLString::transcode("const"));
constsNode->appendChild(itemElem);
char* code=constCodeList.GetTextAtIndex(i);
int value=constCodeList.GetValueAtIndex(i);
sprintf(buf, "0x%x", value);
itemElem->setAttribute(XMLString::transcode("value"), XMLString::transcode(buf));
itemElem->setAttribute(XMLString::transcode("code"), XMLString::transcode(code));
}
*/
XMLCh tempStr[100];
XMLString::transcode("LS", tempStr, 99);
impl = DOMImplementationRegistry::getDOMImplementation(tempStr);
DOMLSSerializer* theSerializer = ((DOMImplementationLS*)impl)->createLSSerializer();
DOMConfiguration* dc = theSerializer->getDomConfig();
if (dc->canSetParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true))
dc->setParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true);
XMLFormatTarget *outFile = new LocalFileFormatTarget(pathBuf);
DOMLSOutput *lsOut = ((DOMImplementationLS*)impl)->createLSOutput();
lsOut->setByteStream(outFile);
theSerializer->write(doc, lsOut);
theSerializer->release();
lsOut->release();
delete outFile;
}
catch (...)
{
AfxMessageBox("Unable to save item definitions!");
}
delete parser;
}
/**
* Main routine that utilizes Xercesc module to create a DOM object in memory
* and prints out the resultant DOM structure
* @param argC number of command line args
* @param argV name of command line args
* @return 0 if no errors occurred
*/
int main(int argC, char*argv[]) {
// Initialize the XML4C2 system.
try {
XMLPlatformUtils::Initialize();
} catch (const XMLException& toCatch) {
char *pMsg = XMLString::transcode(toCatch.getMessage());
XERCES_STD_QUALIFIER cerr << "Error during Xerces-c Initialization.\n" << " Exception message:" << pMsg;
XMLString::release(&pMsg);
return 1;
}
// Watch for special case help request
int errorCode = 0;
if (argC > 1) {
XERCES_STD_QUALIFIER
cout << "\nUsage:\n"
" CreateDOMDocument\n\n"
"This program creates a new DOM document from scratch in memory.\n"
"It then prints the count of elements in the tree.\n" << XERCES_STD_QUALIFIER
endl;
errorCode = 1;
}
if (errorCode) {
XMLPlatformUtils::Terminate();
return errorCode;
}
DOMImplementation* impl = DOMImplementationRegistry::getDOMImplementation(X("Core"));
if (impl != NULL) {
try {
// create a DomDocument instance
DOMDocument* doc = impl->createDocument(
0, // root element namespace URI.
X("TheHood"), // root element name
0); // document type object (DTD).
// create root attribute nodes
DOMAttr* woop_atr = doc->createAttribute(X("WOOP"));
woop_atr->setValue(X("DANG"));
DOMAttr* fiyah_atr = doc->createAttribute(X("FIYAH"));
fiyah_atr->setValue(X("hot"));
DOMAttr* hungry_atr = doc->createAttribute(X("hungry"));
hungry_atr->setValue(X("starving"));
// create root element
DOMElement* rootElem = doc->getDocumentElement();
// set root attrs
rootElem->setAttributeNode(woop_atr);
rootElem->setAttributeNode(fiyah_atr);
rootElem->setAttributeNode(hungry_atr);
//create root child elements
DOMElement* gangElem = doc->createElement(X("gang"));
rootElem->appendChild(gangElem);
DOMText* gangDataVal = doc->createTextNode(X("YoungThugz"));
gangElem->appendChild(gangDataVal);
gangElem->setAttribute(X("hardness"), X("rock"));
//create gang attr nodes
DOMAttr* members_atr = doc->createAttribute(X("members"));
members_atr->setValue(X("500"));
DOMAttr* color_atr = doc->createAttribute(X("color"));
color_atr->setValue(X("magenta"));
// set gang attr
gangElem->setAttributeNode(members_atr);
gangElem->setAttributeNode(color_atr);
// create gang elem children
DOMElement* piruElem = doc->createElement(X("piru"));
piruElem->setNodeValue(X("w"));
DOMElement* cripElem = doc->createElement(X("crip"));
cripElem->setNodeValue(X("t"));
DOMElement* trgElem = doc->createElement(X("trg"));
trgElem->setNodeValue(X("o"));
// append gang elem children
gangElem->appendChild(piruElem);
gangElem->appendChild(cripElem);
gangElem->appendChild(trgElem);
DOMElement* turfElem = doc->createElement(X("turf"));
rootElem->appendChild(turfElem);
turfElem->setAttribute(X("idea"), X("great"));
DOMText* turfDataVal = doc->createTextNode(X("West Side Projects"));
turfElem->appendChild(turfDataVal);
DOMElement* cliqueElem = doc->createElement(X("clique"));
rootElem->appendChild(cliqueElem);
DOMText* cliqueDataVal = doc->createTextNode(X("Balla$"));
cliqueElem->appendChild(cliqueDataVal);
cliqueElem->setAttribute(X("Comradery"), X("tight"));
DOMElement* sideElem = doc->createElement(X("side"));
rootElem->appendChild(sideElem);
DOMText* sideDataVal = doc->createTextNode(X("North North"));
sideElem->appendChild(sideDataVal);
// create side elem children
DOMElement* tempElem = doc->createElement(X("temperature"));
tempElem->setNodeValue(X("100 C"));
DOMElement* med_incomeElem = doc->createElement(X("medianIncome"));
med_incomeElem->setNodeValue(X("$20,000"));
DOMElement* schoolsElem = doc->createElement(X("schools"));
schoolsElem->setNodeValue(X("Regional"));
// append side elem children
sideElem->appendChild(tempElem);
sideElem->appendChild(med_incomeElem);
sideElem->appendChild(schoolsElem);
DOMElement* gatElem = doc->createElement(X("gat"));
rootElem->appendChild(gatElem);
DOMText* gatDataVal = doc->createTextNode(X("Glock"));
gatElem->appendChild(gatDataVal);
//set gat attr
gatElem->setAttribute(X("caliber"), X(".50"));
// create gat elem children
DOMElement* rifleElem = doc->createElement(X("rifle"));
DOMElement* meleeElem = doc->createElement(X("melee"));
DOMElement* pieceElem = doc->createElement(X("piece"));
// append gat elem children
gatElem->appendChild(rifleElem);
gatElem->appendChild(meleeElem);
gatElem->appendChild(pieceElem);
DOMElement* contraElem = doc->createElement(X("contra"));
rootElem->appendChild(contraElem);
DOMText* contraDataVal = doc->createTextNode(X("Cocoa"));
contraElem->appendChild(contraDataVal);
contraElem->setAttribute(X("rareness"), X("extreme"));
// create contra elem children
DOMElement* methElem = doc->createElement(X("meth"));
DOMElement* ganjaElem = doc->createElement(X("ganja"));
DOMElement* ethElem = doc->createElement(X("ethanol"));
// append contra elem children
contraElem->appendChild(methElem);
contraElem->appendChild(ganjaElem);
contraElem->appendChild(ethElem);
//create contra attr nodes
DOMAttr* price_atr = doc->createAttribute(X("price"));
price_atr->setValue(X("$25"));
DOMAttr* source_atr = doc->createAttribute(X("source"));
source_atr->setValue(X("Columbia"));
// set contra attr
contraElem->setAttributeNode(price_atr);
contraElem->setAttributeNode(source_atr);
DOMElement* rivalsElem = doc->createElement(X("rivals"));
rootElem->appendChild(rivalsElem);
DOMText* rivalsDataVal = doc->createTextNode(X("Warrriors"));
rivalsElem->appendChild(rivalsDataVal);
DOMElement* policeElem = doc->createElement(X("police"));
rootElem->appendChild(policeElem);
DOMText* policeDataVal = doc->createTextNode(X("popo"));
policeElem->appendChild(policeDataVal);
DOMElement* drugsElem = doc->createElement(X("drugs"));
rootElem->appendChild(drugsElem);
DOMText* drugsDataVal = doc->createTextNode(X("codiene"));
drugsElem->appendChild(drugsDataVal);
// create drugs elem children
DOMElement* mixElem = doc->createElement(X("mix"));
DOMElement* spriteElem = doc->createElement(X("sprite"));
DOMElement* leanElem = doc->createElement(X("lean"));
// append drugs elem children
drugsElem->appendChild(mixElem);
drugsElem->appendChild(spriteElem);
drugsElem->appendChild(leanElem);
DOMElement* crimeElem = doc->createElement(X("crime"));
rootElem->appendChild(crimeElem);
DOMText* crimeDataVal = doc->createTextNode(X("187"));
crimeElem->appendChild(crimeDataVal);
//
// Now count the number of elements in the above DOM tree.
//
const XMLSize_t elementCount = doc->getElementsByTagName(X("*"))->getLength();
XERCES_STD_QUALIFIER cout << "The tree just created contains: " << elementCount
<< " elements." << XERCES_STD_QUALIFIER endl;
// create serializer instance
DOMLSSerializer *theSerializer = ((DOMImplementationLS*) impl)->createLSSerializer();
// create output instance
DOMLSOutput *theOutputDesc = ((DOMImplementationLS*) impl)->createLSOutput();
// referenced the following http://stackoverflow.com/questions/2897317/writing-xml-with-xerces-3-0-1-and-c-on-windows
// set output from serializer to stdout
XMLFormatTarget *myFormTarget;
myFormTarget = new StdOutFormatTarget();
theOutputDesc->setByteStream(myFormTarget);
// Make the output more human readable by inserting line feeds.
if (theSerializer->getDomConfig()->canSetParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true))
theSerializer->getDomConfig()->setParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true);
// The end-of-line sequence of characters to be used in the XML being written out.
theSerializer->setNewLine(XMLString::transcode("\r\n"));
// output the DOM
theSerializer->write(doc, theOutputDesc);
cout << endl << endl << "*****************************************" << endl;
// Using DOMTreeWalker class to traverse tree
// create tree walker
DOMTreeWalker* walker = doc->createTreeWalker(rootElem,
DOMNodeFilter::SHOW_ELEMENT,
NULL,
true);
// create vector to hold Dom nodes
vector<DOMNode*> elem_vec;
// traverse tree using walker
for (DOMNode* current = walker->nextNode(); current != 0; current = walker->nextNode()) {
// store nodes int vector
elem_vec.push_back(current);
}
// sort function - alphabetically elements
std::sort(elem_vec.begin(), elem_vec.end(), compare_elem_alpha);
// iterate through sorted nodes
for (auto i : elem_vec) {
int x;
string text = string(x(i->getTextContent()));
cout << "Node Name: " << x(i->getNodeName()) << ((text != "") ? " |Text Content: " + text : "") << endl;
//get attr map
if (i->hasAttributes()) {
DOMNamedNodeMap *attr_map = i->getAttributes();
// get each node in the map
for (x = 0; x < attr_map->getLength(); x++) {
DOMNode *temp = attr_map->item(x);
cout << setw(5) << "" << "Attribute" << x + 1 << ": " << x(temp->getNodeName()) << " = "
<< x(temp->getNodeValue()) << endl;
}
}
}
// release doc resources
doc->release();
} catch (const OutOfMemoryException&) {
XERCES_STD_QUALIFIER cerr << "OutOfMemoryException" << XERCES_STD_QUALIFIER endl;
errorCode = 5;
} catch (const DOMException& e) {
XERCES_STD_QUALIFIER cerr << "DOMException code is: " << e.code << XERCES_STD_QUALIFIER endl;
errorCode = 2;
} catch (...) {
XERCES_STD_QUALIFIER cerr << "An error occurred creating the document" << XERCES_STD_QUALIFIER endl;
errorCode = 3;
}
}// (impl != NULL)
else {
XERCES_STD_QUALIFIER cerr << "Requested implementation is not supported" << XERCES_STD_QUALIFIER endl;
errorCode = 4;
}
}
int main(void){
Metadata metadata;
metadata.addMetadata("key1", "val1");
vector<string> values;
values.push_back("val1");
values.push_back("val2");
values.push_back("val3");
metadata.addMetadata("key2", values);
cout << "Checking the value of key1: Value: " << metadata.getMetadata("key1") << endl;
cout << "Checking the value of key2: Value: " << metadata.getMetadata("key2") << endl;
vector<string> key2Vals = metadata.getAllMetadata("key2");
cout << "Checking all values for key2: Values: " << endl;
for(int i=0; i < key2Vals.size(); i++){
cout << "Value: " << key2Vals[i] << endl;
}
if(metadata.getAllMetadata("key3") == cas::Metadata::EMPTY_VEC){
cout << "No multiple values for key3!" << endl;
}
if(metadata.getMetadata("key3") == cas::Metadata::EMPTY_STR){
cout << "No singular value for key3!" << endl;
}
metadata.addMetadata("key3", "val3");
if(metadata.getMetadata("key3") != cas::Metadata::EMPTY_STR){
cout << "New value for key3: " << metadata.getMetadata("key3") << endl;
}
if(!metadata.containsKey("blah")){
cout << "Metadata doesn't contain key blah: correct!" << endl;
}
if(metadata.containsKey("key3")){
cout << "Metadata contains key key3: correct!" << endl;
}
if(metadata.isMultiValued("key2")){
cout << "Key2 is correctly multi-valued: correct!" << endl;
}
if(!metadata.isMultiValued("key3")){
cout << "Key3 is correctly NOT multi-valued: correct!" << endl;
}
metadata.addMetadata("key4", "val99");
if(metadata.getMetadata("key4") != cas::Metadata::EMPTY_STR){
cout << "Metadata exists for key4, now deleting key4 and retesting" << endl;
metadata.removeMetadata("key4");
if(metadata.getMetadata("key4") == cas::Metadata::EMPTY_STR){
cout << "Metadata successfully removed for key4! " << endl;
}
}
vector<string> key5vals;
key5vals.push_back("key5val1");
key5vals.push_back("key5val2");
metadata.addMetadata("key5", key5vals);
vector<string> key5replvals;
key5replvals.push_back("key5_replaced_val1");
key5replvals.push_back("key5_replaced_val2");
metadata.replaceMetadata("key5", key5replvals);
for(int i=0; i < metadata.getAllMetadata("key5").size(); i++){
cout << "Value: " << metadata.getAllMetadata("key5")[i] << endl;
}
metadata.addMetadata("key6", "key6val1");
if(metadata.getMetadata("key6") == "key6val1"){
cout << "key6: value = key6val1, as appropriate" << endl;
}
metadata.replaceMetadata("key6", "key6_replaced_val1");
if(metadata.getMetadata("key6") == "key6_replaced_val1"){
cout << "key6: value = key6_replaced_val1, as appropriate" << endl;
}
cout << "XML is: " << endl;
DOMDocument* doc = metadata.toXML();
XMLCh tempStr[100];
XMLString::transcode("LS", tempStr, 99);
DOMImplementation *impl = DOMImplementationRegistry::getDOMImplementation(tempStr);
DOMLSSerializer* theSerializer = ((DOMImplementationLS*)impl)->createLSSerializer();
if (theSerializer->getDomConfig()->canSetParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true))
theSerializer->getDomConfig()->setParameter(XMLUni::fgDOMWRTFormatPrettyPrint, true);
XMLFormatTarget *myFormTarget;
myFormTarget = new StdOutFormatTarget();
DOMLSOutput* theOutput = ((DOMImplementationLS*)impl)->createLSOutput();
theOutput->setByteStream(myFormTarget);
theSerializer->write((DOMNode*)doc, theOutput);
cout << "Now attempting to parse cas xml document: data/sample.met.xml" << endl;
XercesDOMParser parser_;
parser_.setValidationScheme( xercesc::XercesDOMParser::Val_Never ) ;
parser_.setDoNamespaces( false ) ;
parser_.setDoSchema( false ) ;
parser_.setLoadExternalDTD( false ) ;
parser_.parse("./data/sample.met.xml") ;
// there's no need to free this pointer -- it's
// owned by the parent parser object
DOMDocument* xmlDoc = parser_.getDocument() ;
cout << "Metadata XML file parsed: constructing CAS Metadata object from it " << endl;
Metadata newMetadata(xmlDoc);
cout << "Outputting XML from CAS Metadata " << endl;
DOMDocument *newDoc = newMetadata.toXML();
theSerializer->write((DOMNode*)doc, theOutput);
return 1;
}
// ---------------------------------------------------------------------------
//
// main
//
// ---------------------------------------------------------------------------
int main(int argC, char* argV[])
{
char *testFileName;
char *outputFileName;
for (int argInd = 1; argInd < argC; argInd++)
{
if (!strcmp(argV[argInd], "-?") || !strcmp(argV[argInd], "-h"))
{
/* print help and exit */
usage();
return 2;
}
}
if (argC < 3){
usage();
return 2;
}
testFileName = argV[argC-2];
outputFileName = argV[argC-1];
// Initialize the XML4C system
try
{
XMLPlatformUtils::Initialize();
}
catch (const XMLException& toCatch)
{
XERCES_STD_QUALIFIER cerr << "Error during initialization! :\n"
<< StrX(toCatch.getMessage()) << XERCES_STD_QUALIFIER endl;
return 1;
}
//============================================================================
// Instantiate the DOM parser to use for the source documents
//============================================================================
static const XMLCh gLS[] = { chLatin_L, chLatin_S, chNull };
DOMImplementation *impl = DOMImplementationRegistry::getDOMImplementation(gLS);
DOMLSParser *parser = ((DOMImplementationLS*)impl)->createLSParser(DOMImplementationLS::MODE_SYNCHRONOUS, 0);
DOMConfiguration *config = parser->getDomConfig();
config->setParameter(XMLUni::fgDOMNamespaces, true);
config->setParameter(XMLUni::fgXercesSchema, true);
config->setParameter(XMLUni::fgXercesSchemaFullChecking, true);
if(config->canSetParameter(XMLUni::fgXercesDoXInclude, true)){
config->setParameter(XMLUni::fgXercesDoXInclude, true);
}
// enable datatype normalization - default is off
//config->setParameter(XMLUni::fgDOMDatatypeNormalization, true);
// And create our error handler and install it
XIncludeErrorHandler errorHandler;
config->setParameter(XMLUni::fgDOMErrorHandler, &errorHandler);
XERCES_CPP_NAMESPACE_QUALIFIER DOMDocument *doc = 0;
try
{
// load up the test source document
XERCES_STD_QUALIFIER cerr << "Parse " << testFileName << " in progress ...";
parser->resetDocumentPool();
doc = parser->parseURI(testFileName);
XERCES_STD_QUALIFIER cerr << " finished." << XERCES_STD_QUALIFIER endl;
}
catch (const XMLException& toCatch)
{
XERCES_STD_QUALIFIER cerr << "\nError during parsing: '" << testFileName << "'\n"
<< "Exception message is: \n"
<< StrX(toCatch.getMessage()) << "\n" << XERCES_STD_QUALIFIER endl;
}
catch (const DOMException& toCatch)
{
const unsigned int maxChars = 2047;
XMLCh errText[maxChars + 1];
XERCES_STD_QUALIFIER cerr << "\nDOM Error during parsing: '" << testFileName << "'\n"
<< "DOMException code is: " << toCatch.code << XERCES_STD_QUALIFIER endl;
if (DOMImplementation::loadDOMExceptionMsg(toCatch.code, errText, maxChars))
XERCES_STD_QUALIFIER cerr << "Message is: " << StrX(errText) << XERCES_STD_QUALIFIER endl;
}
catch (...)
{
XERCES_STD_QUALIFIER cerr << "\nUnexpected exception during parsing: '" << testFileName << "'\n";
}
if (!errorHandler.getSawErrors() && doc) {
DOMLSSerializer *writer = ((DOMImplementationLS*)impl)->createLSSerializer();
DOMLSOutput *theOutputDesc = ((DOMImplementationLS*)impl)->createLSOutput();
try {
// write out the results
XERCES_STD_QUALIFIER cerr << "Writing result to: " << outputFileName << XERCES_STD_QUALIFIER endl;
XMLFormatTarget *myFormTarget = new LocalFileFormatTarget(outputFileName);
theOutputDesc->setByteStream(myFormTarget);
writer->write(doc, theOutputDesc);
delete myFormTarget;
}
catch (const XMLException& toCatch)
{
XERCES_STD_QUALIFIER cerr << "\nXMLException during writing: '" << testFileName << "'\n"
<< "Exception message is: \n"
<< StrX(toCatch.getMessage()) << "\n" << XERCES_STD_QUALIFIER endl;
}
catch (const DOMException& toCatch)
{
const unsigned int maxChars = 2047;
XMLCh errText[maxChars + 1];
XERCES_STD_QUALIFIER cerr << "\nDOM Error during writing: '" << testFileName << "'\n"
<< "DOMException code is: " << toCatch.code << XERCES_STD_QUALIFIER endl;
if (DOMImplementation::loadDOMExceptionMsg(toCatch.code, errText, maxChars))
XERCES_STD_QUALIFIER cerr << "Message is: " << StrX(errText) << XERCES_STD_QUALIFIER endl;
}
catch (...)
{
XERCES_STD_QUALIFIER cerr << "\nUnexpected exception during writing: '" << testFileName << "'\n";
}
writer->release();
theOutputDesc->release();
}
//
// Delete the parser itself. Must be done prior to calling Terminate, below.
//
parser->release();
// And call the termination method
XMLPlatformUtils::Terminate();
return 0;
}
