Beispiel #1
0
/* wrapper for stats_event, this takes a charset to convert from */
void stats_event_conv(const char *mount, const char *name, const char *value, const char *charset)
{
    const char *metadata = value;
    xmlBufferPtr conv = xmlBufferCreate ();

    if (charset && value)
    {
        xmlCharEncodingHandlerPtr handle = xmlFindCharEncodingHandler (charset);

        if (handle)
        {
            xmlBufferPtr raw = xmlBufferCreate ();
            xmlBufferAdd (raw, (const xmlChar *)value, strlen (value));
            if (xmlCharEncInFunc (handle, conv, raw) > 0)
                metadata = (char *)xmlBufferContent (conv);
            xmlBufferFree (raw);
            xmlCharEncCloseFunc (handle);
        }
        else
            WARN1 ("No charset found for \"%s\"", charset);
    }

    stats_event (mount, name, metadata);
    xmlBufferFree (conv);
}
Beispiel #2
0
  void
  closeFile()
  {
    mXPath.clear();

    // This section writes to file
    std::ofstream fileStream;
    if(!mStream) {
      fileStream.open(mXMLFilePath.c_str());
      mStream = &fileStream;
    }

    xmlBufferPtr buffer = xmlBufferCreate();
    xmlOutputBuffer * outputBuffer = xmlOutputBufferCreateBuffer(buffer,
                                                                 NULL);
    xmlSaveFormatFileTo(outputBuffer,
                        mXMLDocument,
                        "utf-8",
                        1);
    *mStream << buffer->content;
    xmlBufferFree(buffer);
    
    if(fileStream.is_open()) {
      fileStream.close();
      mStream = NULL;
    }
    
    xmlFreeDoc(mXMLDocument);
    xmlCleanupParser();

    if(mHeavyDataWriter->getMode() == XdmfHeavyDataWriter::Default) {
      mHeavyDataWriter->closeFile();
    }
  };
Beispiel #3
0
/**
Writes report header to xml file..

Opens the xml file for output.
Allocate the memory for xml report.
Write the Dtd/Xslt info.
Write the root element.

@internalComponent
@released
*/
void XmlWriter::StartReport(void)
{
	iXmlFile.open(iXmlFileName.c_str());

	if(!(iXmlFile.is_open()))
	{
		throw ExceptionReporter(FILEOPENFAIL, __FILE__, __LINE__, (char*)iXmlFileName.c_str());
	}

	if(!(CreateXslFile()))
	{
		ExceptionReporter(XSLCREATIONFAILED, __FILE__, __LINE__, (char*)KXslFileName.c_str()).Report();
	}

	iXmlBufPtr = xmlBufferCreate();
	// xml writer pointer to buffer ( with no compression )
	iXmlTextWriter = xmlNewTextWriterMemory(iXmlBufPtr,0);

	if (!iXmlBufPtr || !iXmlTextWriter)
	{
		throw ExceptionReporter(NOMEMORY,__FILE__,__LINE__);
	}

	xmlTextWriterStartDocument(iXmlTextWriter, KXmlVersion.c_str(), KXmlEncoding.c_str(), KNull);
	xmlTextWriterWriteRaw(iXmlTextWriter,(unsigned char*)KDtdXslInfo.c_str());
	xmlTextWriterStartElement(iXmlTextWriter, BAD_CAST KXmlRootElement.c_str());
	xmlTextWriterStartElement(iXmlTextWriter,BAD_CAST KXmlcomment.c_str());
	xmlTextWriterWriteAttribute(iXmlTextWriter, BAD_CAST KXmlcomment.c_str(), BAD_CAST iInputCommnd.c_str());
}
xmlParserCtxtPtr
RS_XML_xmlCreateConnectionParserCtxt(USER_OBJECT_ con)
{
      xmlParserInputBufferPtr buf;
      xmlParserCtxtPtr ctx = NULL;

#ifdef LIBXML2
      ctx = xmlNewParserCtxt();
#ifndef LIBXML2_NEW_BUFFER  // < 2.9.1
      ctx->_private = (USER_OBJECT_) con;
                                      /* R_chk_calloc */
      buf = (xmlParserInputBufferPtr) calloc(1, sizeof(xmlParserInputBuffer));
      buf->readcallback = RS_XML_readConnectionInput;
      buf->context = (void*) ctx;
      buf->raw = NULL; /* buf->buffer; */
      xmlBufferPtr tmp = xmlBufferCreate();
      buf->buffer = tmp;
#else
    RFunCtxData *userData = (RFunCtxData *) R_alloc(sizeof(RFunCtxData), 1);
    userData->fun = con;
    userData->ctx = ctx;
    buf = xmlParserInputBufferCreateIO(RS_XML_readConnectionInput, NULL, userData, XML_CHAR_ENCODING_NONE);
#endif

      xmlParserInputPtr input = xmlNewIOInputStream(ctx, buf, XML_CHAR_ENCODING_NONE);
      if(!input) {
	  PROBLEM "can't create new IOInputStream"
	      ERROR;
      }
      inputPush(ctx, input);
#endif
      return(ctx);
}
Beispiel #5
0
void TrackerConfig::dump() const
{
    string s;
    xmlBufferPtr pBuffer = xmlBufferCreate();
    xmlNodeDump(pBuffer, m_Doc, m_pRoot, 0, 0);
    cerr << xmlBufferContent(pBuffer) << endl;
}
Beispiel #6
0
bool
Xml::saveToBuffer(XmlNode *curNode, std::string *buf) const
{
    if (NULL == curNode) {
        fprintf(stderr, "[ERROR] In Xml::saveToBuffer, curNode == NULL\n");
        return false;
    }

    if (NULL == buf) {
        fprintf(stderr, "[ERROR] In Xml::saveToBuffer, buf == NULL\n");
        return false;
    }

    xmlBuffer *xmlBuf = xmlBufferCreate();

    if (NULL == xmlBuf) {
        fprintf(stderr, "[ERROR] In Xml::saveToBuffer, "
                "xmlBufferCreate() error\n");
        return false;
    }

    int bytes = xmlNodeDump(xmlBuf, _doc, curNode,
                            XML_INDENT_LEVEL, XML_FORMAT_ALLOWED);

    if (bytes < 0) {
        fprintf(stderr, "[ERROR] In Xml::saveToBuffer, xmlNodeDump() error\n");
        return false;
    }

    *buf = (const char *)(xmlBuf->content);
    xmlBufferFree(xmlBuf);
    xmlBuf = NULL;

    return true;
}
Beispiel #7
0
int
srd_printElementSet (xmlDocPtr doc, xmlNodeSet *nodeSet, char **printBuffPtr, int printBuffSize)
{
    xmlNode *cur_node = NULL;
    int n, i;
    xmlChar *value;
    int offset = 0;
    xmlBuffer *buff;
    int size = printBuffSize;
    char *newSpace;

    for (i=0; i < nodeSet->nodeNr; i++) {
    	cur_node = nodeSet->nodeTab[i];
        if (cur_node->type == XML_ELEMENT_NODE) {
           buff = xmlBufferCreate ();
           xmlNodeDump (buff, doc,cur_node, 0, 1 );
           if (size < (offset + strlen((char *)buff->content) + 1)){
        	   size = offset + strlen((char *)buff->content) + 1;
        	   newSpace = (char *)realloc (*printBuffPtr, size);
        	   if (newSpace){
        		   *printBuffPtr = newSpace;
        	   } else {
        		   // unable to allocate space
        		   xmlBufferFree (buff);
        		   return -1;
        	   }
           }
           n = sprintf (*printBuffPtr+offset, "%s", buff->content);
           offset = offset + n;
           xmlBufferFree (buff);
        }
    }
    return (offset);

}
Beispiel #8
0
char *generate_xml(NFE *nfe, EVP_PKEY *key, X509 *cert) {
	int rc;
	xmlTextWriterPtr writer;
	xmlDocPtr doc;
	xmlBufferPtr buf = xmlBufferCreate();

	writer = xmlNewTextWriterDoc(&doc, 0);
	if (writer == NULL)
		return NULL;
	xmlTextWriterStartDocument(writer, NULL, "UTF-8", NULL);
	rc = gen_inf_nfe(writer, nfe);
	if (rc < 0)
		return NULL;
	xmlTextWriterEndDocument(writer);
	char *URI = malloc(sizeof(char) * (strlen(nfe->idnfe->chave) +
		strlen(ID_PREFIX) + 2));
	strcpy(URI, "#");
	strcat(URI, ID_PREFIX);
	strcat(URI, nfe->idnfe->chave);
	rc = sign_xml(doc, key, cert, URI);
	if(rc)
		return NULL;
	xmlNodeDump(buf, NULL, xmlDocGetRootElement(doc), 0, 0);
	nfe->xml = strdup((char*)buf->content);
	return (char*)buf->content;
}
Beispiel #9
0
AEResult AEXMLWriter::CreateXML(const std::wstring& file, bool inMemory)
{
	if (m_IsReady)
	{
		AETODO("Better return code");
		return AEResult::Fail;
	}

	if (file.empty())
	{
		return AEResult::EmptyFilename;
	}

	if (inMemory)
	{
		m_XMLBuffer = xmlBufferCreate();
		if (xmlBufferCreate == nullptr) 
		{
			AETODO("Better return code");
			return AEResult::Fail;
		}

		m_XMLWriter = xmlNewTextWriterMemory(m_XMLBuffer, 0);
		if (m_XMLWriter == NULL)
		{
			CleanUp();

			AETODO("Better return code");
			return AEResult::Fail;
		}

		m_InMemory = true;
	}
	else
	{
		std::string fileStr = AE_Base::WideStr2String(file);

		m_XMLWriter = xmlNewTextWriterFilename(fileStr.c_str(), 0);
		if (m_XMLWriter == NULL)
		{
			AETODO("Better return code");
			return AEResult::Fail;
		}
	}

	int ret = xmlTextWriterStartDocument(m_XMLWriter, NULL, AE_XML_ENCODING, NULL);
	if (ret < 0)
	{
		CleanUp();

		AETODO("Better return code");
		return AEResult::Fail;
	}

	m_Filename = file;

	m_IsReady = true;

	return AEResult::Ok;
}
Beispiel #10
0
std::string XMLSchema::xml() const
{
    xmlBuffer *b = xmlBufferCreate();
    xmlTextWriterPtr w = xmlNewTextWriterMemory(b, 0);

    xmlTextWriterSetIndent(w, 1);
    xmlTextWriterStartDocument(w, NULL, "utf-8", NULL);
    xmlTextWriterStartElementNS(w, (const xmlChar*)"pc",
        (const xmlChar*)"PointCloudSchema", NULL);
    xmlTextWriterWriteAttributeNS(w, (const xmlChar*) "xmlns",
        (const xmlChar*)"pc", NULL,
        (const xmlChar*)"http://pointcloud.org/schemas/PC/");
    xmlTextWriterWriteAttributeNS(w, (const xmlChar*)"xmlns",
        (const xmlChar*)"xsi", NULL,
        (const xmlChar*)"http://www.w3.org/2001/XMLSchema-instance");

    writeXml(w);

    xmlTextWriterEndElement(w);
    xmlTextWriterEndDocument(w);

    std::string output((const char *)b->content, b->use);
    xmlFreeTextWriter(w);
    xmlBufferFree(b);

    return output;
}
Beispiel #11
0
char *teacher_to_message(teacher_t *self, int id){
    if(!self)
        return NULL;
    char buff[MSG_LENGTH];
    xmlDoc * doc = NULL;
	xmlNode * rootNode = NULL;
	xmlNode * teacherNode = NULL;
	xmlNode * cathedraNode = NULL;
    doc = xmlNewDoc("1.0");
	rootNode = xmlNewNode(NULL, "teachers");
	xmlDocSetRootElement(doc, rootNode);
	char strBuf[100];
	teacherNode = xmlNewChild(rootNode, NULL, "teacher", NULL);
	sprintf(strBuf, "%i", id);
	xmlNewChild(teacherNode, NULL, "id", strBuf);
	xmlNewChild(teacherNode, NULL, "firstName", self->name);
	xmlNewChild(teacherNode, NULL, "lastName", self->surname);
	xmlNewChild(teacherNode, NULL, "pensionDate", self->date);
	sprintf(strBuf, "%i", self->hours);
	xmlNewChild(teacherNode, NULL, "hours", strBuf);
	sprintf(strBuf, "%f", self->rating);
	xmlNewChild(teacherNode, NULL, "rating", strBuf);
	cathedraNode = xmlNewChild(teacherNode, NULL, "cathedra", NULL);
	xmlNewProp(cathedraNode, "name", self->cathedra->name);
	xmlNewChild(cathedraNode, NULL, "speciality", self->cathedra->speciality);
	xmlNewChild(cathedraNode, NULL, "group", self->cathedra->groups[0]);
	xmlNewChild(cathedraNode, NULL, "group", self->cathedra->groups[1]);
	xmlBuffer * bufferPtr = xmlBufferCreate();
	xmlNodeDump(bufferPtr, NULL, (xmlNode *)doc, 0, 1);
	sprintf(buff, "%s", (const char*)bufferPtr->content);
    xmlFreeDoc(doc);
	xmlCleanupParser();
	xmlBufferFree(bufferPtr);
    return buff;
}
Beispiel #12
0
/***********************************************
 *  生成XML的字符串                            *
 *  成功返回XML的字符串                        *
 *  失败则返回NULL                             *
 *  doc用完已自动清空                          *
 ***********************************************/
byte * generateXmlBuffer(xmlDocPtr doc)
{
	static byte szBuf[2048];
	byte * buffer;
	xmlBufferPtr buf = NULL;
    	xmlSaveCtxtPtr ctxt = NULL;
	LIBXML_TEST_VERSION;
	if(doc == NULL) {
		ErrorLog(ERROR, "doc is null");
		printf("doc is null");
		return NULL;
	}

	buf = xmlBufferCreate();
    	ctxt = xmlSaveToBuffer(buf, "UTF-8", 1);

    	xmlSaveDoc(ctxt, doc);
    	xmlSaveClose(ctxt);
	
	memset(szBuf, 0x00, sizeof(szBuf));
	buffer = u2g(buf->content);
	sprintf(szBuf, "%s",buffer );
	
	buf->content = NULL;
    	xmlBufferFree(buf);

    	xmlFreeDoc(doc);
    	xmlCleanupParser();
	
	free(buffer);
	return szBuf;
}
Beispiel #13
0
char * info_to_xml(char * name, char * group, char * var)
{
	xmlDoc * doc = NULL;
	xmlNode * rootNode = NULL;
	doc = xmlNewDoc("1.0");
	rootNode = xmlNewNode(NULL, "persons");
	//FILE * file = fopen("newBase.xml", "w");
	char * text = malloc(sizeof(char) * 1000);
	for (int i = 0; i < 1000; i++)
	{
		text[i] = '\0';
	}
	xmlDocSetRootElement(doc, rootNode);
	xmlNewChild(rootNode, NULL, "student", name);
	xmlNewChild(rootNode, NULL, "group", group);
	xmlNewChild(rootNode, NULL, "variant", var);
	xmlBuffer * bufferPtr = xmlBufferCreate();
	xmlNodeDump(bufferPtr, NULL, (xmlNode *)doc, 0, 1);
	strcat(text, bufferPtr->content);
	xmlBufferFree(bufferPtr);
	xmlFreeDoc(doc);
	xmlCleanupParser();
	puts(text);
	return text;
}
Beispiel #14
0
string as_string(xmlNodePtr node) {
    xmlBufferPtr buf = xmlBufferCreate();
    xmlNodeDump(buf,node->doc,node,0,1);
    string result((char*)buf->content);
    xmlBufferFree(buf);
    return result;
}
Beispiel #15
0
/**
 * Serialises an xmlNode to a string
 *
 * @param log   Log context
 * @param node Input XML node to be serialised
 *
 * @return Returns a pointer to a new buffer containing the serialised data.  This buffer must be freed
 *         after usage
 */
char *xmlNodeToString(LogContext *log, xmlNode *node) {
	xmlBuffer *buf = NULL;
	xmlSaveCtxt *serctx = NULL;
	char *ret = NULL;

	if( node == NULL ) {
		writelog(log, LOG_ALERT, "xmlNodeToString: Input data is NULL");
		return NULL;
	}

	buf = xmlBufferCreate();
	assert( buf != NULL );

	serctx = xmlSaveToBuffer(buf, "UTF-8", XML_SAVE_NO_EMPTY|XML_SAVE_NO_DECL);
	assert( serctx != NULL );

	if( xmlSaveTree(serctx, node) < 0 ) {
		writelog(log, LOG_ALERT, "xmlNodeToString: Failed to serialise xmlNode");
		return NULL;
	}
	xmlSaveClose(serctx);

	ret = strdup_nullsafe((char *) xmlBufferContent(buf));
	xmlBufferFree(buf);
	return ret;
}
Beispiel #16
0
static int
xsltNumberFormatGetValue(xmlXPathContextPtr context,
			 xmlNodePtr node,
			 xmlChar *value,
			 double *number)
{
    int amount = 0;
    xmlBufferPtr pattern;
    xmlXPathObjectPtr obj;
    
    pattern = xmlBufferCreate();
    if (pattern != NULL) {
	xmlBufferCCat(pattern, "number(");
	xmlBufferCat(pattern, value);
	xmlBufferCCat(pattern, ")");
	context->node = node;
	obj = xmlXPathEvalExpression(xmlBufferContent(pattern),
				     context);
	if (obj != NULL) {
	    *number = obj->floatval;
	    amount++;
	    xmlXPathFreeObject(obj);
	}
	xmlBufferFree(pattern);
    }
    return amount;
}
Beispiel #17
0
bool XMLWrapper::nodeDump(xmlNodePtr node, std::string &content, bool trim)
{
	content.clear();

	if (!mDocument) {
		return false;
	}

	if (!node) {
		return false;
	}

	bool result = false;

	xmlBufferPtr buffer = xmlBufferCreate();
	if (buffer) {
		xmlOutputBufferPtr outputBuffer = xmlOutputBufferCreateBuffer(buffer, NULL);
		if (outputBuffer) {
			xmlNodeDumpOutput(outputBuffer, mDocument, node, 0, 0, "UTF8");
			xmlOutputBufferClose(outputBuffer);
			outputBuffer = NULL;

			result = convertToString(buffer->content, content);

			if (result && trim) {
				trimString(content);
			}
		}
		xmlBufferFree(buffer);
		buffer = NULL;
	}

	return result;
}
Beispiel #18
0
static void 
testReduce(xmlExpCtxtPtr ctxt, xmlExpNodePtr expr, const char *tst) {
    xmlBufferPtr xmlExpBuf;
    xmlExpNodePtr sub, deriv;
    xmlExpBuf = xmlBufferCreate();

    sub = xmlExpParse(ctxt, tst);
    if (sub == NULL) {
        printf("Subset %s failed to parse\n", tst);
	return;
    }
    xmlExpDump(xmlExpBuf, sub);
    printf("Subset parsed as: %s\n",
           (const char *) xmlBufferContent(xmlExpBuf));
    deriv = xmlExpExpDerive(ctxt, expr, sub);
    if (deriv == NULL) {
        printf("Derivation led to an internal error, report this !\n");
	return;
    } else {
        xmlBufferEmpty(xmlExpBuf);
	xmlExpDump(xmlExpBuf, deriv);
	if (xmlExpIsNillable(deriv))
	    printf("Resulting nillable derivation: %s\n",
	           (const char *) xmlBufferContent(xmlExpBuf));
	else
	    printf("Resulting derivation: %s\n",
	           (const char *) xmlBufferContent(xmlExpBuf));
	xmlExpFree(ctxt, deriv);
    }
    xmlExpFree(ctxt, sub);
}
Beispiel #19
0
char * list_to_xml1(list_t list) {
    xmlDoc * doc = NULL;
	xmlNode * rootNode = NULL;
	xmlNode * studentNode = NULL;
	xmlNode * groupNode = NULL;
	char strBuf[100];
	char * text = malloc(sizeof (char) * 10000);
	doc = xmlNewDoc("1.0");
	rootNode = xmlNewNode(NULL, "directors");

	for (int i = 0;i < list_size(list); i++)
	{
		if (list_get(list, i) == NULL)
			continue;
		puts(((struct admin_s *)list_get(list, i))->name);
		xmlDocSetRootElement(doc, rootNode);
		studentNode = xmlNewChild(rootNode, NULL, "director", NULL);
		xmlNewChild(studentNode, NULL, "name", ((struct admin_s *)list_get(list, i))->name);
		xmlNewChild(studentNode, NULL, "surname", ((struct admin_s *)list_get(list, i))->surname);
		sprintf(strBuf, "%i", ((struct admin_s *)list_get(list, i))->buget);
		xmlNewChild(studentNode, NULL, "buget", strBuf);
		sprintf(strBuf, "%llf", ((struct admin_s *)list_get(list, i))->years);
		xmlNewChild(studentNode, NULL, "years", strBuf);
		xmlNewChild(studentNode, NULL, "birthdate", ((struct admin_s *)list_get(list, i))->birthdate);
	}
	xmlBuffer * bufferPtr = xmlBufferCreate();
		xmlNodeDump(bufferPtr, NULL, (xmlNode *)doc, 0, 1);
		printf("%s", (const char *)bufferPtr->content);
    
		strcpy(text, (const char *)bufferPtr->content);
		xmlBufferFree(bufferPtr);
      xmlFreeDoc(doc);
	xmlCleanupParser();
	return text;
}
Beispiel #20
0
VALUE search(VALUE self, VALUE xpathExpr)
{
  VALUE results = rb_ary_new();
  xmlDocPtr doc;
  xmlXPathObjectPtr xpathObj;
  xmlNodeSetPtr nodes;
  xmlNodePtr cur;
  xmlBufferPtr nodeBuffer;
  int size, i;

  Data_Get_Struct(self, xmlDoc, doc);

  xpathObj = eval_and_search(doc, StringValueCStr(xpathExpr));

  if (xpathObj == NULL) { return Qnil; }

  nodes = xpathObj->nodesetval;
  size = (nodes) ? nodes->nodeNr : 0;

  for (i = 0; i < size; ++i) {
    nodeBuffer = xmlBufferCreate();
    xmlNodeDump(nodeBuffer, doc, nodes->nodeTab[i], 0, 1);
    rb_ary_push(results, rb_str_new2(nodeBuffer->content));
    xmlBufferFree(nodeBuffer);
  }

  xmlXPathFreeObject(xpathObj);

  return results;
}
Beispiel #21
0
char* fileinfo_get(char* path) {
    FILE* file;
    xmlBufferPtr buf;
    xmlTextWriterPtr writer;
    char* ret;
    int wordCount;

    file  = fopen(path, "r");
    wordCount = countWords(file);
    fclose(file);

    buf = xmlBufferCreate();
    writer = xmlNewTextWriterMemory(buf, 0);

    xmlTextWriterStartDocument(writer, NULL, XML_E, NULL);


    xmlTextWriterStartElement(writer, BAD_CAST "fileInfo");
    xmlTextWriterWriteFormatElement(writer, BAD_CAST "wordCount", "%d", wordCount);
    xmlTextWriterEndElement(writer);

    xmlTextWriterEndDocument(writer);

    ret = malloc(buf->size);
    strcpy(ret,(char*)buf->content);
    xmlBufferFree(buf);

    return ret;
}
Beispiel #22
0
int lpc2xml_convert_string(lpc2xml_context* context, char **content) {
	int ret = -1;
	xmlBufferPtr buffer = xmlBufferCreate();
	xmlSaveCtxtPtr save_ctx;
	lpc2xml_context_clear_logs(context);
	xmlSetGenericErrorFunc(context, lpc2xml_genericxml_error);
	save_ctx = xmlSaveToBuffer(buffer, "UTF-8", XML_SAVE_FORMAT);
	if(save_ctx != NULL) {
		ret = internal_convert_lpc2xml(context);
		if(ret == 0) {
			ret = xmlSaveDoc(save_ctx, context->doc);
			if(ret != 0) {
				lpc2xml_log(context, LPC2XML_ERROR, "Can't save document");
				lpc2xml_log(context, LPC2XML_ERROR, "%s", context->errorBuffer);
			}
		}
		xmlSaveClose(save_ctx);
	} else {
		lpc2xml_log(context, LPC2XML_ERROR, "Can't initialize internal buffer");
		lpc2xml_log(context, LPC2XML_ERROR, "%s", context->errorBuffer);
	}
	if(ret == 0) {
#if LIBXML_VERSION >= 20800
		*content = (char *)xmlBufferDetach(buffer);
#else
		*content = strdup((const char *)xmlBufferContent(buffer));
#endif
	}
	xmlBufferFree(buffer);
	return ret;
}
Beispiel #23
0
bool c_XMLWriter::t_openmemory() {
  m_output = xmlBufferCreate();
  if (m_output == NULL) {
    raise_warning("Unable to create output buffer");
    return false;
  }
  return (m_ptr = xmlNewTextWriterMemory(m_output, 0));
}
Beispiel #24
0
const std::string XMLElement::dump(bool indent) const
{
    xmlBufferPtr buffer = xmlBufferCreate();
    xmlNodeDump(buffer, doc.getRealDocument(), node, 0, indent ? 1 : 0);
    std::string str = std::string((const char *)buffer->content);
    xmlBufferFree(buffer);

    return str;
}
bool c_XMLWriter::t_openmemory() {
  INSTANCE_METHOD_INJECTION_BUILTIN(XMLWriter, XMLWriter::openmemory);
  m_output = xmlBufferCreate();
  if (m_output == NULL) {
    raise_warning("Unable to create output buffer");
    return false;
  }
  return m_ptr = xmlNewTextWriterMemory(m_output, 0);
}
const std::string queryResult::to_xml()
{
	xmlDocPtr doc;
	xmlNodePtr root;
	int rc;
	std::string returnValue;

	doc = xmlNewDoc(BAD_CAST "1.0");
	root = xmlNewNode(NULL, BAD_CAST "result");

	std::stringstream temp;
	temp << size();
	xmlNewProp(root, BAD_CAST "count", BAD_CAST temp.str().c_str());

	if(__code != 0) {
		temp.str("");
		temp << __code;
		xmlNewProp(root, BAD_CAST "ocicode", BAD_CAST temp.str().c_str());
	}

	if(__info.length()) {
		xmlNewProp(root, BAD_CAST "ociinfo", BAD_CAST __info.c_str());
	}

	xmlDocSetRootElement(doc, root);


	for(int i=0; i<size(); ++i) {
			xmlNodePtr branch = xmlNewChild(root, NULL, BAD_CAST "branch", NULL);
	
			std::multimap<std::string, std::string>::iterator it, iend = at(i).end();
			for(it=at(i).begin(); it!=iend; ++it) {
						xmlNodePtr child = xmlNewChild(branch, NULL, BAD_CAST it->first.c_str(), BAD_CAST it->second.c_str());
					}
		}

	xmlNodePtr bind = xmlNewChild(root, NULL, BAD_CAST "bind", NULL);
	std::map<std::string, std::pair<std::string, bool> >::iterator j, jend = __bindouts.end();
	for(j = __bindouts.begin(); j != jend; ++j) {
		if(j->second.second == true)
			continue;
		xmlNodePtr child = xmlNewChild(bind, NULL, BAD_CAST j->first.c_str(), BAD_CAST j->second.first.c_str());
	}

	xmlBufferPtr buf = xmlBufferCreate();
	xmlSaveCtxtPtr sav = xmlSaveToBuffer(buf, "UTF-8", XML_SAVE_FORMAT | XML_SAVE_NO_EMPTY);

	xmlSaveDoc(sav, doc);
	xmlSaveClose(sav);

	returnValue = (char*)buf->content;

	xmlBufferFree(buf);
	xmlFreeDoc(doc);

	return returnValue;
}
Beispiel #27
0
xmlChar*
PmmFastEncodeString( int charset,
                     const xmlChar *string,
                     const xmlChar *encoding )
{
    xmlCharEncodingHandlerPtr coder = NULL;
    xmlChar *retval = NULL;
    xmlBufferPtr in = NULL, out = NULL;

    if ( charset == XML_CHAR_ENCODING_UTF8 ) {
        /* warn("use UTF8 for encoding ... %s ", string); */
        return xmlStrdup( string );
    }
    else if ( charset == XML_CHAR_ENCODING_ERROR ) {
        /* warn("no standard encoding %s\n", encoding); */
        coder =xmlFindCharEncodingHandler( (const char *)encoding );
    }
    else if ( charset == XML_CHAR_ENCODING_NONE ) {
        xs_warn("PmmFastEncodeString: no encoding found\n");
    }
    else {
        /* warn( "use document encoding %s (%d)", encoding, charset ); */
        coder= xmlGetCharEncodingHandler( charset );
    }

    if ( coder != NULL ) {
        xs_warn("PmmFastEncodeString: coding machine found \n");
        in    = xmlBufferCreate();
        out   = xmlBufferCreate();
        xmlBufferCCat( in, (const char *) string );
        if ( xmlCharEncInFunc( coder, out, in ) >= 0 ) {
            retval = xmlStrdup( out->content );
            /* warn( "encoded string is %s" , retval); */
        }
        else {
            /* warn( "b0rked encoiding!\n"); */
        }

        xmlBufferFree( in );
        xmlBufferFree( out );
        xmlCharEncCloseFunc( coder );
    }
    return retval;
}
Beispiel #28
0
/**
 * @brief Create a File Writer (libxml2 compatibility function)
 * @param uri Filename
 * @param compression Unused
 * @return A xmlTextWriterPtr object
 */
static xmlTextWriterPtr xmlNewTextWriterFilename(const char *uri, int compression, char *schemaID) {
	EXIStream	*stream;
	xmlBufferPtr buf = xmlBufferCreate();

	FILE *outfile = fopen(uri, "wb" );
	if(!outfile)
		return	NULL;

	stream	= calloc(sizeof(EXIStream), 1);

	// I: First initialize the header of the stream
	serialize.initHeader(stream);

	// II: Set any options in the header, if different from the defaults
	//stream->header.has_cookie = TRUE;
	stream->header.has_options = TRUE;
	//stream->header.opts.valueMaxLength = 300;
	//stream->header.opts.valuePartitionCapacity = 50;

//	SET_STRICT(stream->header.opts.enumOpt);
	SET_PRESERVED(stream->header.opts.preserve, PRESERVE_PREFIXES);
//	SET_ALIGNMENT(stream->header.opts.enumOpt, BYTE_ALIGNMENT);

	// III: Define an external stream for the output if any
	buf->ioStrm.readWriteToStream = writeFileOutputStream;
	buf->ioStrm.stream = outfile;

	// IV: Initialize the stream
#if EXIP_VERSION==276
	if	(schemaID && *schemaID) {
		XoExiLoadSchema (schemaID);
		String s;
		asciiToString(schemaID, &s, &stream->memList, FALSE);
		serialize.initStream(stream, *buf, g_schemaPtr, SCHEMA_ID_SET, &s);
	}
	else {
		serialize.initStream(stream, *buf, g_schemaPtr, SCHEMA_ID_ABSENT, NULL);
	}
#endif
#if EXIP_VERSION>=289
	if	(schemaID && *schemaID) {
		XoExiLoadSchema (schemaID);
		asciiToString(schemaID, &stream->header.opts.schemaID, &stream->memList, FALSE);
		stream->header.opts.schemaIDMode = SCHEMA_ID_SET;
	}
	else {
		stream->header.opts.schemaIDMode = SCHEMA_ID_ABSENT;
	}
	serialize.initStream(stream, *buf, g_schemaPtr);
#endif

	// V: Start building the stream step by step: header, document, element etc...
	serialize.exiHeader(stream);

	return	(xmlTextWriterPtr)stream;
}
Beispiel #29
0
//!
//! Places raw XML result of an xpath query into buf. The query must return
//! only one element.
//!
//! @param[in] xml_path a string containing the path to the XML file to parse
//! @param[in] xpath a string contianing the XPATH expression to evaluate
//! @param[out] buf for the XML string
//! @param[in] buf_len size of the buf
//!
//! @return EUCA_OK or EUCA_ERROR
//!
int get_xpath_xml(const char *xml_path, const char *xpath, char *buf, int buf_len)
{
    int ret = EUCA_ERROR;
    xmlDocPtr doc = NULL;
    xmlXPathContextPtr context = NULL;
    xmlXPathObjectPtr result = NULL;
    xmlNodeSetPtr nodeset = NULL;

    INIT();

    pthread_mutex_lock(&xml_mutex);
    {
        if ((doc = xmlParseFile(xml_path)) != NULL) {
            if ((context = xmlXPathNewContext(doc)) != NULL) {
                if ((result = xmlXPathEvalExpression(((const xmlChar *)xpath), context)) != NULL) {
                    if (!xmlXPathNodeSetIsEmpty(result->nodesetval)) {
                        nodeset = result->nodesetval;
                        if (nodeset->nodeNr > 1) {
                            fprintf(stderr, "multiple matches for '%s' in '%s'\n", xpath, xml_path);
                        } else {
                            xmlNodePtr node = nodeset->nodeTab[0]->xmlChildrenNode;
                            xmlBufferPtr xbuf = xmlBufferCreate();
                            if (xbuf) {
                                int len = xmlNodeDump(xbuf, doc, node, 0, 1);
                                if (len < 0) {
                                    fprintf(stderr, "failed to extract XML from %s\n", xpath);
                                } else if (len > buf_len) {
                                    fprintf(stderr, "insufficient buffer for %s\n", xpath);
                                } else {
                                    char *str = (char *)xmlBufferContent(xbuf);
                                    euca_strncpy(buf, str, buf_len);
                                    ret = EUCA_OK;
                                }
                                xmlBufferFree(xbuf);
                            } else {
                                fprintf(stderr, "failed to allocate XML buffer\n");
                            }
                        }
                    }
                    xmlXPathFreeObject(result);
                } else {
                    fprintf(stderr, "no results for '%s' in '%s'\n", xpath, xml_path);
                }
                xmlXPathFreeContext(context);
            } else {
                fprintf(stderr, "failed to set xpath '%s' context for '%s'\n", xpath, xml_path);
            }
            xmlFreeDoc(doc);
        } else {
            fprintf(stderr, "failed to parse XML in '%s'\n", xml_path);
        }
    }
    pthread_mutex_unlock(&xml_mutex);

    return ret;
}
std::string XMLConfObj::toString()
{
    xmlIndentTreeOutput = 1;
    xmlKeepBlanksDefault(0);
    xmlBufferPtr xmlBufPtr = xmlBufferCreate();
    xmlNodeDump(xmlBufPtr, documentTree, currentLevel, 0, 1);
    std::string ret = std::string((char *)xmlBufPtr->content, xmlBufPtr->use);
    xmlBufferFree(xmlBufPtr);
    return ret;
}