public List parsePage(String pageCode) { List sections = new ArrayList(); List folders = new ArrayList(); List files = new ArrayList(); int start = pageCode.indexOf("<div id=\"list-view\" class=\"view\""); int end = pageCode.indexOf("<div id=\"gallery-view\" class=\"view\""); String usefulSection = ""; if (start != -1 && end != -1) { usefulSection = pageCode.substring(start, end); } else { debug("Could not parse page"); } try { DocumentBuilder db = DocumentBuilderFactory.newInstance().newDocumentBuilder(); InputSource is = new InputSource(); is.setCharacterStream(new StringReader(usefulSection)); Document doc = db.parse(is); NodeList divs = doc.getElementsByTagName("div"); for (int i = 0; i < divs.getLength(); i++) { Element div = (Element) divs.item(i); boolean isFolder = false; if (div.getAttribute("class").equals("filename")) { NodeList imgs = div.getElementsByTagName("img"); for (int j = 0; j < imgs.getLength(); j++) { Element img = (Element) imgs.item(j); if (img.getAttribute("class").indexOf("folder") > 0) { isFolder = true; } else { isFolder = false; // it's a file } } NodeList anchors = div.getElementsByTagName("a"); Element anchor = (Element) anchors.item(0); String attr = anchor.getAttribute("href"); String fileName = anchor.getAttribute("title"); String fileURL; if (isFolder && !attr.equals("#")) { folders.add(attr); folders.add(fileName); } else if (!isFolder && !attr.equals("#")) { // Dropbox uses ajax to get the file for download, so the url isn't enough. We must be // sneaky here. fileURL = "https://dl.dropbox.com" + attr.substring(23) + "?dl=1"; files.add(fileURL); files.add(fileName); } } } } catch (Exception e) { debug(e.toString()); } sections.add(files); sections.add(folders); return sections; }
public ArrayList<String> parseXML() throws Exception { ArrayList<String> ret = new ArrayList<String>(); handshake(); URL url = new URL( "http://mangaonweb.com/page.do?cdn=" + cdn + "&cpn=book.xml&crcod=" + crcod + "&rid=" + (int) (Math.random() * 10000)); String page = DownloaderUtils.getPage(url.toString(), "UTF-8", cookies); DocumentBuilderFactory factory = DocumentBuilderFactory.newInstance(); DocumentBuilder builder = factory.newDocumentBuilder(); InputSource is = new InputSource(new StringReader(page)); Document d = builder.parse(is); Element doc = d.getDocumentElement(); NodeList pages = doc.getElementsByTagName("page"); total = pages.getLength(); for (int i = 0; i < pages.getLength(); i++) { Element e = (Element) pages.item(i); ret.add(e.getAttribute("path")); } return (ret); }
private Element getElement(String eltName) { NodeList nodeList = docElt.getElementsByTagName(eltName); if (nodeList.getLength() != 0) { Node node = nodeList.item(0); if (node instanceof Element) return (Element) node; } return null; }
void lookup(String text) { NodeList nl = DOMInfoExtractor.locateNodes(document, ".//text()[contains(.,'" + text + "')]"); System.out.println("find " + nl.getLength() + " items"); FoundItem[] fis = new FoundItem[nl.getLength()]; for (int i = 0; i < nl.getLength(); i++) { fis[i] = getFoundItem(nl.item(i), text); } foundList.setListData(fis); }
private static Collection<Node> getNodeMatching(Node body, String regexp) { final Collection<Node> nodes = new ArrayList<>(); if (body.getNodeName().matches(regexp)) nodes.add(body); if (body.getChildNodes().getLength() == 0) return nodes; NodeList returnList = body.getChildNodes(); for (int k = 0; k < returnList.getLength(); k++) { final Node node = returnList.item(k); nodes.addAll(getNodeMatching(node, regexp)); } return nodes; }
public String getProperty(String pPropertyName) { String propertyValue = null; NodeList nodeList = mConfigFileDocument.getElementsByTagName(pPropertyName); int nodeListLength = nodeList.getLength(); if (nodeListLength > 0) { Node firstChildNode = nodeList.item(nodeListLength - 1).getFirstChild(); if (null != firstChildNode) { propertyValue = firstChildNode.getNodeValue(); } } return (propertyValue); }
public void load(InputStream is) throws IOException, ParserConfigurationException, SAXException { doc = db.parse(is); docElt = doc.getDocumentElement(); if (docElt.getTagName().equals(docElementName)) { NodeList nl = docElt.getElementsByTagName(trackElementName); for (int i = 0; i < nl.getLength(); i++) { Element elt = (Element) nl.item(i); Track track = new Track(elt); tracks.add(track); hash.put(track.getKey(), track); } } }
void lookupByXPath(String xpath) { NodeList nl = DOMInfoExtractor.locateNodes(document, xpath); System.out.println("lookupByXPath: " + xpath); if (nl == null) { JOptionPane.showMessageDialog(this, "error xpath: " + xpath); } System.out.println("find " + nl.getLength() + " items"); FoundItem[] fis = new FoundItem[nl.getLength()]; for (int i = 0; i < nl.getLength(); i++) { fis[i] = getFoundItem(nl.item(i), null); } foundList.setListData(fis); }
@Override public VPackage parse() { logger.debug("Starting parsing package: " + xmlFile.getAbsolutePath()); long startParsing = System.currentTimeMillis(); try { Document document = getDocument(); Element root = document.getDocumentElement(); _package = new VPackage(xmlFile); Node name = root.getElementsByTagName(EL_NAME).item(0); _package.setName(name.getTextContent()); Node descr = root.getElementsByTagName(EL_DESCRIPTION).item(0); _package.setDescription(descr.getTextContent()); NodeList list = root.getElementsByTagName(EL_CLASS); boolean initPainters = false; for (int i = 0; i < list.getLength(); i++) { PackageClass pc = parseClass((Element) list.item(i)); if (pc.getPainterName() != null) { initPainters = true; } } if (initPainters) { _package.initPainters(); } logger.info( "Parsing the package '{}' finished in {}ms.\n", _package.getName(), (System.currentTimeMillis() - startParsing)); } catch (Exception e) { collector.collectDiagnostic(e.getMessage(), true); if (RuntimeProperties.isLogDebugEnabled()) { e.printStackTrace(); } } try { checkProblems("Error parsing package file " + xmlFile.getName()); } catch (Exception e) { return null; } return _package; }
/** * Retrieves default values from xml. * * @param list the configuration list */ private static void parseDefaults(NodeList list) { for (int i = 0; i < list.getLength(); ++i) { NamedNodeMap mapping = list.item(i).getAttributes(); String attribute = mapping.getNamedItem("attribute").getNodeValue(); String value = mapping.getNamedItem("value").getNodeValue(); try { Default field = Default.fromString(attribute); DEFAULTS.put(field, value); } catch (IllegalArgumentException exc) { logger.warn("Unrecognized default attribute: " + attribute); } } }
/** * Populates LOCALES list with contents of xml. * * @param list the configuration list */ private static void parseLocales(NodeList list) { for (int i = 0; i < list.getLength(); ++i) { Node node = list.item(i); NamedNodeMap attributes = node.getAttributes(); String label = ((Attr) attributes.getNamedItem("label")).getValue(); String code = ((Attr) attributes.getNamedItem("isoCode")).getValue(); String dictLocation = ((Attr) attributes.getNamedItem("dictionaryUrl")).getValue(); try { LOCALES.add(new Locale(label, code, new URL(dictLocation))); } catch (MalformedURLException exc) { logger.warn( "Unable to parse dictionary location of " + label + " (" + dictLocation + ")", exc); } } }
static { try { URL url = SpellCheckActivator.bundleContext.getBundle().getResource(RESOURCE_LOC); InputStream stream = url.openStream(); if (stream == null) throw new IOException(); // strict parsing options DocumentBuilderFactory factory = DocumentBuilderFactory.newInstance(); factory.setValidating(false); factory.setIgnoringComments(true); factory.setIgnoringElementContentWhitespace(true); // parses configuration xml /*- * Warning: Felix is unable to import the com.sun.rowset.internal * package, meaning this can't use the XmlErrorHandler. This causes * a warning and a default handler to be attached. Otherwise this * should have: builder.setErrorHandler(new XmlErrorHandler()); */ DocumentBuilder builder = factory.newDocumentBuilder(); Document doc = builder.parse(stream); // iterates over nodes, parsing contents Node root = doc.getChildNodes().item(1); NodeList categories = root.getChildNodes(); for (int i = 0; i < categories.getLength(); ++i) { Node node = categories.item(i); if (node.getNodeName().equals(NODE_DEFAULTS)) { parseDefaults(node.getChildNodes()); } else if (node.getNodeName().equals(NODE_LOCALES)) { parseLocales(node.getChildNodes()); } else { logger.warn("Unrecognized category: " + node.getNodeName()); } } } catch (IOException exc) { logger.error("Unable to load spell checker parameters", exc); } catch (SAXException exc) { logger.error("Unable to parse spell checker parameters", exc); } catch (ParserConfigurationException exc) { logger.error("Unable to parse spell checker parameters", exc); } }
public String getFolderName(String pageCode) { String usefulSection = pageCode.substring( pageCode.indexOf("<h3 id=\"breadcrumb\">"), pageCode.indexOf("<div id=\"list-view\" class=\"view\"")); String folderName; try { DocumentBuilder db = DocumentBuilderFactory.newInstance().newDocumentBuilder(); InputSource is = new InputSource(); is.setCharacterStream(new StringReader(usefulSection)); Document doc = db.parse(is); NodeList divs = doc.getElementsByTagName("h3"); for (int i = 0; i < divs.getLength(); i++) { Element div = (Element) divs.item(i); String a = div.getTextContent(); folderName = a.substring(a.indexOf("/>") + 2).trim(); return folderName; } } catch (Exception e) { debug(e.toString()); } return "Error!"; }
@Override public HashSet<ScoredAnnotation> solveSa2W(String text) throws AnnotationException { HashSet<ScoredAnnotation> res; try { res = new HashSet<ScoredAnnotation>(); lastTime = Calendar.getInstance().getTimeInMillis(); URL wikiApi = new URL(url); String parameters = "references=true&repeatMode=all&minProbability=0.0&source=" + URLEncoder.encode(text, "UTF-8"); HttpURLConnection slConnection = (HttpURLConnection) wikiApi.openConnection(); slConnection.setRequestProperty("accept", "text/xml"); slConnection.setDoOutput(true); slConnection.setDoInput(true); slConnection.setRequestMethod("POST"); slConnection.setRequestProperty("Content-Type", "application/x-www-form-urlencoded"); slConnection.setRequestProperty("charset", "utf-8"); slConnection.setRequestProperty( "Content-Length", "" + Integer.toString(parameters.getBytes().length)); slConnection.setUseCaches(false); DataOutputStream wr = new DataOutputStream(slConnection.getOutputStream()); wr.writeBytes(parameters); wr.flush(); wr.close(); DocumentBuilderFactory factory = DocumentBuilderFactory.newInstance(); DocumentBuilder builder = factory.newDocumentBuilder(); Document doc = builder.parse(slConnection.getInputStream()); /* URL wikiApi = new URL(url+"?references=true&repeatMode=all&minProbability=0.0&source="+URLEncoder.encode(text, "UTF-8")); URLConnection wikiConnection = wikiApi.openConnection(); DocumentBuilderFactory factory = DocumentBuilderFactory.newInstance(); DocumentBuilder builder = factory.newDocumentBuilder(); Document doc = builder.parse(wikiConnection.getInputStream()); */ lastTime = Calendar.getInstance().getTimeInMillis() - lastTime; XPathFactory xPathfactory = XPathFactory.newInstance(); XPath xpath = xPathfactory.newXPath(); XPathExpression idExpr = xpath.compile("//detectedTopic/@id"); XPathExpression weightExpr = xpath.compile("//detectedTopic/@weight"); XPathExpression referenceExpr = xpath.compile("//detectedTopic/references"); NodeList ids = (NodeList) idExpr.evaluate(doc, XPathConstants.NODESET); NodeList weights = (NodeList) weightExpr.evaluate(doc, XPathConstants.NODESET); NodeList references = (NodeList) referenceExpr.evaluate(doc, XPathConstants.NODESET); for (int i = 0; i < weights.getLength(); i++) { if (weights.item(i).getNodeType() != Node.TEXT_NODE) { int id = Integer.parseInt(ids.item(i).getNodeValue()); float weight = Float.parseFloat(weights.item(i).getNodeValue()); // System.out.println("ID="+ids.item(i).getNodeValue()+" weight="+weight); XPathExpression startExpr = xpath.compile("//detectedTopic[@id=" + id + "]/references/reference/@start"); XPathExpression endExpr = xpath.compile("//detectedTopic[@id=" + id + "]/references/reference/@end"); NodeList starts = (NodeList) startExpr.evaluate(references.item(i), XPathConstants.NODESET); NodeList ends = (NodeList) endExpr.evaluate(references.item(i), XPathConstants.NODESET); for (int j = 0; j < starts.getLength(); j++) { int start = Integer.parseInt(starts.item(j).getNodeValue()); int end = Integer.parseInt(ends.item(j).getNodeValue()); int len = end - start; res.add(new ScoredAnnotation(start, len, id, weight)); } } } } catch (Exception e) { e.printStackTrace(); throw new AnnotationException( "An error occurred while querying Wikipedia Miner API. Message: " + e.getMessage()); } return res; }
private PackageClass parseClass(Element classNode) { PackageClass newClass = new PackageClass(); _package.getClasses().add(newClass); newClass.setComponentType(PackageClass.ComponentType.getType(classNode.getAttribute(ATR_TYPE))); newClass.setStatic(Boolean.parseBoolean(classNode.getAttribute(ATR_STATIC))); newClass.setName(getElementByName(classNode, EL_NAME).getTextContent()); final String source = getElementStringByName(classNode, EL_FILE); if (source != null) { newClass.setSource(source); } newClass.setTarget(getElementStringByName(classNode, EL_EXTENDS)); newClass.setDescription(getElementByName(classNode, EL_DESCRIPTION).getTextContent()); newClass.setIcon(getElementByName(classNode, EL_ICON).getTextContent()); // parse all variables declared in the corresponding specification if (newClass.getComponentType().hasSpec()) { final String newClassName = newClass.getName(); try { switch (RuntimeProperties.getSpecParserKind()) { case REGEXP: { ClassList classList = new ClassList(); SpecParser.parseSpecClass(newClassName, getWorkingDir(), classList); newClass.setSpecFields(classList.getType(newClassName).getFields()); break; } case ANTLR: { if (specificationLoader == null) { specificationLoader = new SpecificationLoader(new PackageSpecSourceProvider(_package), null); } final AnnotatedClass annotatedClass = specificationLoader.getSpecification(newClassName); newClass.setSpecFields(annotatedClass.getFields()); break; } default: throw new IllegalStateException("Undefined specification language parser"); } } catch (SpecParseException e) { final String msg = "Unable to parse the specification of class " + newClassName; logger.error(msg, e); collector.collectDiagnostic(msg + "\nReason: " + e.getMessage() + "\nLine: " + e.getLine()); } } // Graphics Element grNode = getElementByName(classNode, EL_GRAPHICS); newClass.addGraphics( getGraphicsParser().parse(grNode/*, newClass.getComponentType() == ComponentType.REL*/ )); Element painter; if ((painter = getElementByName(grNode, EL_PAINTER)) != null) { newClass.setPainterName(painter.getTextContent()); } // Ports NodeList ports = classNode.getElementsByTagName(EL_PORT); for (int i = 0; i < ports.getLength(); i++) { parsePort(newClass, (Element) ports.item(i)); } // Fields NodeList fields = classNode.getElementsByTagName(EL_FIELD); for (int i = 0; i < fields.getLength(); i++) { parseField(newClass, (Element) fields.item(i)); } return newClass; }
/** * Constructs an attribute designator element from an existing XML block. * * @param element representing a DOM tree element. * @exception SAMLException if that there is an error in the sender or in the element definition. */ public AttributeDesignator(Element element) throws SAMLException { // make sure that the input xml block is not null if (element == null) { SAMLUtilsCommon.debug.message("AttributeDesignator: Input is null."); throw new SAMLRequesterException(SAMLUtilsCommon.bundle.getString("nullInput")); } // Make sure this is an AttributeDesignator. String tag = null; tag = element.getLocalName(); if ((tag == null) || (!tag.equals("AttributeDesignator"))) { SAMLUtilsCommon.debug.message("AttributeDesignator: wrong input"); throw new SAMLRequesterException(SAMLUtilsCommon.bundle.getString("wrongInput")); } // handle attributes int i = 0; NamedNodeMap atts = ((Node) element).getAttributes(); int attrCount = atts.getLength(); for (i = 0; i < attrCount; i++) { Node att = atts.item(i); if (att.getNodeType() == Node.ATTRIBUTE_NODE) { String attName = att.getLocalName(); if (attName == null || attName.length() == 0) { if (SAMLUtilsCommon.debug.messageEnabled()) { SAMLUtilsCommon.debug.message( "AttributeDesignator:" + "Attribute Name is either null or empty."); } throw new SAMLRequesterException(SAMLUtilsCommon.bundle.getString("nullInput")); } if (attName.equals("AttributeName")) { _attributeName = ((Attr) att).getValue().trim(); } else if (attName.equals("AttributeNamespace")) { _attributeNameSpace = ((Attr) att).getValue().trim(); } } } // AttributeName is required if (_attributeName == null || _attributeName.length() == 0) { if (SAMLUtilsCommon.debug.messageEnabled()) { SAMLUtilsCommon.debug.message( "AttributeDesignator: " + "AttributeName is required attribute"); } throw new SAMLRequesterException(SAMLUtilsCommon.bundle.getString("missingAttribute")); } // AttributeNamespace is required if (_attributeNameSpace == null || _attributeNameSpace.length() == 0) { if (SAMLUtilsCommon.debug.messageEnabled()) { SAMLUtilsCommon.debug.message( "AttributeDesignator: " + "AttributeNamespace is required attribute"); } throw new SAMLRequesterException(SAMLUtilsCommon.bundle.getString("missingAttribute")); } // handle the children of AttributeDesignator element // Since AttributeDesignator does not have any child element_node, // we will throw exception if we found any such child. NodeList nodes = element.getChildNodes(); int nodeCount = nodes.getLength(); if (nodeCount > 0) { for (i = 0; i < nodeCount; i++) { Node currentNode = nodes.item(i); if (currentNode.getNodeType() == Node.ELEMENT_NODE) { if (SAMLUtilsCommon.debug.messageEnabled()) { SAMLUtilsCommon.debug.message("AttributeDesignator: illegal input!"); } throw new SAMLRequesterException(SAMLUtilsCommon.bundle.getString("wrongInput")); } } } }
public static void main(String[] args) { String specloc = System.getProperty("spec"); if (specloc == null) { System.out.print("No spec file given, quitting"); System.exit(0); } DateFormat dateFormat = new SimpleDateFormat("yyyy/MM/dd HH:mm:ss z"); java.util.Date date = new java.util.Date(); String startstamp = dateFormat.format(date); boolean firstrun = true; while (true) { System.out.println("Loading XML Spec file: " + specloc); // BufferedWriter out = null; SocketAcceptor acceptor = null; SocketAcceptor statusacceptor = null; Vector<MonitorThread> monitorlist = new Vector<MonitorThread>(); try { DocumentBuilderFactory docBuilderFactory = DocumentBuilderFactory.newInstance(); DocumentBuilder docBuilder = docBuilderFactory.newDocumentBuilder(); Document doc = docBuilder.parse(new File(specloc)); doc.getDocumentElement().normalize(); String heartbeatportString = doc.getDocumentElement().getAttribute("heartbeatport"); String statusportString = doc.getDocumentElement().getAttribute("statusport"); String logfiledir = doc.getDocumentElement().getAttribute("logfiledir"); String masterlabel = doc.getDocumentElement().getAttribute("label"); String nodeid = doc.getDocumentElement().getAttribute("id"); String smtphost = doc.getDocumentElement().getAttribute("smtphost"); String l1mailto = doc.getDocumentElement().getAttribute("l1mailto"); String l2mailto = doc.getDocumentElement().getAttribute("l2mailto"); String l2threshold = doc.getDocumentElement().getAttribute("l2threshold"); if (heartbeatportString == null || heartbeatportString.equals("")) { System.out.println("No heartbeat specified in spec, quitting"); System.exit(0); } if (statusportString == null || statusportString.equals("")) { System.out.println("No status port specified in spec, quitting"); System.exit(0); } if (logfiledir == null || logfiledir.equals("")) { System.out.println("No logfile directory location specified in spec, quitting"); System.exit(0); } int heartbeatport = Integer.valueOf(heartbeatportString).intValue(); System.out.println("This Monitor is using port " + heartbeatport + " for heartbeat"); int statusport = Integer.valueOf(statusportString).intValue(); System.out.println("This Monitor is using port " + statusport + " for status updates"); System.out.println("Logging to directory " + logfiledir); Log log = new Log(logfiledir); log.nodelabel = masterlabel; log.setMailer(smtphost, l1mailto, l2mailto, convertStringToInt(l2threshold)); if (firstrun) { firstrun = false; log.logit("Monitor Node Started", "start", null); } log.logit("Logging started", "", null); ThreadPing threadping = new ThreadPing(log, false); Thread pinger = new Thread(threadping); threadping.thisThread = pinger; pinger.start(); log.pinger = threadping; // ShutdownHook hook = new ShutdownHook(out); // Runtime.getRuntime().addShutdownHook(hook); // Starting Heartbeat server acceptor = new NioSocketAcceptor(); acceptor.getSessionConfig().setReuseAddress(true); acceptor.getSessionConfig().setTcpNoDelay(true); acceptor.setReuseAddress(true); // acceptor.getFilterChain().addLast("logger", new LoggingFilter()); acceptor .getFilterChain() .addLast( "codec", new ProtocolCodecFilter(new TextLineCodecFactory(Charset.forName("UTF-8")))); acceptor.setReuseAddress(true); // acceptor.setCloseOnDeactivation(true); acceptor.getSessionConfig().setTcpNoDelay(true); acceptor.setDefaultLocalAddress(new InetSocketAddress(heartbeatport)); Vector<IoSession> sessionlist = new Vector<IoSession>(); acceptor.setHandler(new HeartBeatHandler(sessionlist)); acceptor.bind(); // Starting Path Monitoring NodeList listOfServers = doc.getElementsByTagName("check"); int totalServers = listOfServers.getLength(); System.out.println("Total # of checks: " + totalServers); // Vector<PingMonitorThread> pinglist = new Vector<PingMonitorThread>(); // Vector<PortMonitorThread> portlist = new Vector<PortMonitorThread>(); // Vector<HeartbeatMonitorThread> heartbeatlist = new Vector<HeartbeatMonitorThread>(); System.out.println(); for (int i = 0; i < totalServers; i++) { Node serverNode = listOfServers.item(i); Element serverNodeElement = (Element) serverNode; String checklabel = serverNodeElement.getAttribute("label"); String host = serverNodeElement .getElementsByTagName("host") .item(0) .getChildNodes() .item(0) .getNodeValue(); String checktype = serverNodeElement .getElementsByTagName("checktype") .item(0) .getChildNodes() .item(0) .getNodeValue(); boolean enabled = true; if (serverNodeElement.getElementsByTagName("enabled").item(0) != null && serverNodeElement .getElementsByTagName("enabled") .item(0) .getChildNodes() .item(0) .getNodeValue() .toLowerCase() .equals("false")) { enabled = false; } String successrateString = serverNodeElement .getElementsByTagName("successrate") .item(0) .getChildNodes() .item(0) .getNodeValue(); String retryrateString = serverNodeElement .getElementsByTagName("retryrate") .item(0) .getChildNodes() .item(0) .getNodeValue(); // String l2thresholdoverride = // serverNodeElement.getElementsByTagName("l2threshold").item(0).getChildNodes().item(0).getNodeValue(); String l2thresholdoverride = getElementValue("l2threshold", serverNodeElement); // String l1mailtoadd = // serverNodeElement.getElementsByTagName("l1mailto").item(0).getChildNodes().item(0).getNodeValue(); String l1mailtoadd = getElementValue("l1mailto", serverNodeElement); // String l2mailtoadd = // serverNodeElement.getElementsByTagName("l2mailto").item(0).getChildNodes().item(0).getNodeValue(); String l2mailtoadd = getElementValue("l2mailto", serverNodeElement); int l2thresholdoverrideint = convertStringToInt(l2thresholdoverride); String[] l1mailtoaddarray = new String[0]; String[] l2mailtoaddarray = new String[0]; if (!l1mailtoadd.equals("")) { l1mailtoaddarray = l1mailtoadd.split(","); } if (!l2mailtoadd.equals("")) { l2mailtoaddarray = l2mailtoadd.split(","); } // System.out.println(l1mailtoaddarray.length + "-" + l2mailtoaddarray.length); int successrate = 30; int retryrate = 30; if (host == null || host.equals("")) { System.out.println("No Host, skipping this path"); enabled = false; } if (successrateString == null || successrateString.equals("")) { System.out.println( "No Success Rate defined, using default (" + successrate + " seconds)"); } else { successrate = Integer.valueOf(successrateString).intValue(); } if (retryrateString == null || retryrateString.equals("")) { System.out.println("No retry rate defined, using default (" + retryrate + " seconds)"); } else { retryrate = Integer.valueOf(retryrateString).intValue(); } System.out.println(checklabel); if (checktype.equals("heartbeat")) { String portString = serverNodeElement .getElementsByTagName("port") .item(0) .getChildNodes() .item(0) .getNodeValue(); if (portString == null || portString.equals("")) { System.out.println("No Heartbeat, skipping this path"); } else { int heartbeat = Integer.valueOf(portString).intValue(); System.out.println("Starting Heartbeat Check:"); System.out.println("Host: " + host); System.out.println("Port: " + heartbeat); System.out.println(); HeartbeatMonitorThread m = new HeartbeatMonitorThread( host, heartbeat, log, successrate, retryrate, checklabel); m.setAlertOverride(l2thresholdoverrideint, l1mailtoaddarray, l2mailtoaddarray); Thread t = new Thread(m); m.thisthread = t; if (enabled) { t.start(); log.logit( "Starting Heartbeat Check - " + host + ":" + heartbeat, "enable-" + successrate + "-" + retryrate, m.getStatus()); } else { log.logit( "Heartbeat Check - " + host + ":" + heartbeat + " Disabled on start", "disable", m.getStatus()); } monitorlist.add(m); } } else if (checktype.equals("ping")) { System.out.println("Starting Ping Check:"); System.out.println("Host: " + host); System.out.println(); PingMonitorThread m = new PingMonitorThread(host, log, successrate, retryrate, checklabel); m.setAlertOverride(l2thresholdoverrideint, l1mailtoaddarray, l2mailtoaddarray); Thread t = new Thread(m); m.thisthread = t; if (enabled) { t.start(); log.logit( "Starting Ping Check - " + host, "enable-" + successrate + "-" + retryrate, m.getStatus()); } else { log.logit("Ping Check - " + host + " Disabled on start", "disable", m.getStatus()); } monitorlist.add(m); } else if (checktype.equals("port")) { String portString = serverNodeElement .getElementsByTagName("port") .item(0) .getChildNodes() .item(0) .getNodeValue(); if (portString == null || portString.equals("")) { System.out.println("No Port Given, skipping"); } else { int heartbeat = Integer.valueOf(portString).intValue(); System.out.println("Starting Port Check:"); System.out.println("Host: " + host); System.out.println("Port: " + heartbeat); System.out.println(); PortMonitorThread m = new PortMonitorThread(host, heartbeat, log, successrate, retryrate, checklabel); m.setAlertOverride(l2thresholdoverrideint, l1mailtoaddarray, l2mailtoaddarray); Thread t = new Thread(m); m.thisthread = t; if (enabled) { t.start(); log.logit( "Starting Port Check - " + host + ":" + heartbeat, "enable-" + successrate + "-" + retryrate, m.getStatus()); } else { log.logit( "Port Check - " + host + ":" + heartbeat + " Disabled on start", "disable", m.getStatus()); } monitorlist.add(m); } } } statusacceptor = new NioSocketAcceptor(); statusacceptor.setReuseAddress(true); // statusacceptor.getFilterChain().addLast("logger", new LoggingFilter()); statusacceptor.getSessionConfig().setTcpNoDelay(true); statusacceptor.getSessionConfig().setKeepAlive(true); statusacceptor.getSessionConfig().setBothIdleTime(5); statusacceptor.getSessionConfig().setReaderIdleTime(5); statusacceptor.getSessionConfig().setWriteTimeout(5); // statusacceptor.setReuseAddress(true); statusacceptor.setCloseOnDeactivation(true); statusacceptor.setDefaultLocalAddress(new InetSocketAddress(statusport)); statusacceptor.setHandler( new StatusHttpProtocolHandler( monitorlist, acceptor, statusacceptor, log, masterlabel, nodeid, sessionlist, startstamp)); statusacceptor.bind(); System.out.println("Status Listener activated..."); } catch (Exception e) { e.printStackTrace(); try { // out.flush(); // out.close(); } catch (Exception e2) { } try { Thread.sleep(30000); } catch (Exception e3) { } } for (int x = 0; x < monitorlist.size(); x++) { if (monitorlist.get(x).getThisThread() != null) { try { monitorlist.get(x).getThisThread().join(); } catch (Exception e) { } } } if (acceptor != null) { while (acceptor.isActive() || !acceptor.isDisposed()) { try { Thread.sleep(1000); } catch (Exception e) { } } } if (statusacceptor != null) { while (statusacceptor.isActive() || !statusacceptor.isDisposed()) { try { Thread.sleep(1000); } catch (Exception e) { } } } System.out.println("Main thread has reached end, reloading..."); /* try { Thread.sleep(9999999); } catch (Exception e) { e.printStackTrace(); } */ } }
public void addPackageClass(PackageClass pClass) { Document doc; try { doc = getDocument(); } catch (Exception e) { e.printStackTrace(); return; } String name = pClass.getName(); // check if such class exists and remove duplicates Element rootEl = doc.getDocumentElement(); NodeList classEls = rootEl.getElementsByTagName(EL_CLASS); for (int i = 0; i < classEls.getLength(); i++) { Element nameEl = getElementByName((Element) classEls.item(i), EL_NAME); if (name.equals(nameEl.getTextContent())) { rootEl.removeChild(classEls.item(i)); } } Element classNode = doc.createElement(EL_CLASS); doc.getDocumentElement().appendChild(classNode); classNode.setAttribute(ATR_TYPE, PackageClass.ComponentType.SCHEME.getXmlName()); classNode.setAttribute(ATR_STATIC, "false"); Element className = doc.createElement(EL_NAME); className.setTextContent(name); classNode.appendChild(className); Element desrc = doc.createElement(EL_DESCRIPTION); desrc.setTextContent(pClass.getDescription()); classNode.appendChild(desrc); Element icon = doc.createElement(EL_ICON); icon.setTextContent(pClass.getIcon()); classNode.appendChild(icon); // graphics classNode.appendChild(generateGraphicsNode(doc, pClass.getGraphics())); // ports List<Port> ports = pClass.getPorts(); if (!ports.isEmpty()) { Element portsEl = doc.createElement(EL_PORTS); classNode.appendChild(portsEl); for (Port port : ports) { portsEl.appendChild(generatePortNode(doc, port)); } } // fields Collection<ClassField> fields = pClass.getFields(); if (!fields.isEmpty()) { Element fieldsEl = doc.createElement(EL_FIELDS); classNode.appendChild(fieldsEl); for (ClassField cf : fields) { fieldsEl.appendChild(generateFieldNode(doc, cf)); } } // write try { writeDocument(doc, new FileOutputStream(xmlFile)); } catch (FileNotFoundException e) { e.printStackTrace(); } }
private ClassGraphics parse(Element grNode /*, boolean isRelation*/) { ClassGraphics newGraphics = new ClassGraphics(); newGraphics.setShowFields(Boolean.parseBoolean(grNode.getAttribute(ATR_SHOW_FIELDS))); // newGraphics.setRelation( isRelation ); NodeList list = grNode.getChildNodes(); for (int k = 0; k < list.getLength(); k++) { if (list.item(k).getNodeType() != Node.ELEMENT_NODE) continue; Element node = (Element) list.item(k); String nodeName = node.getNodeName(); Shape shape = null; if (EL_BOUNDS.equals(nodeName)) { Dim dim = getDim(node); newGraphics.setBounds(dim.x, dim.y, dim.width, dim.height); continue; } else if (EL_LINE.equals(nodeName)) { shape = makeLine(node, newGraphics); } else if (EL_RECT.equals(nodeName)) { Dim dim = getDim(node); Lineprops lp = getLineProps(node); shape = new Rect( dim.x, dim.y, dim.width, dim.height, getColor(node), isShapeFilled(node), lp.strokeWidth, lp.lineType); } else if (EL_OVAL.equals(nodeName)) { Dim dim = getDim(node); Lineprops lp = getLineProps(node); shape = new Oval( dim.x, dim.y, dim.width, dim.height, getColor(node), isShapeFilled(node), lp.strokeWidth, lp.lineType); } else if (EL_ARC.equals(nodeName)) { Dim dim = getDim(node); Lineprops lp = getLineProps(node); int startAngle = Integer.parseInt(node.getAttribute(ATR_START_ANGLE)); int arcAngle = Integer.parseInt(node.getAttribute(ATR_ARC_ANGLE)); shape = new Arc( dim.x, dim.y, dim.width, dim.height, startAngle, arcAngle, getColor(node), isShapeFilled(node), lp.strokeWidth, lp.lineType); } else if (EL_POLYGON.equals(nodeName)) { Lineprops lp = getLineProps(node); Polygon polygon = new Polygon(getColor(node), isShapeFilled(node), lp.strokeWidth, lp.lineType); // points NodeList points = node.getElementsByTagName(EL_POINT); int pointCount = points.getLength(); // arrays of polygon points int[] xs = new int[pointCount]; int[] ys = new int[pointCount]; // arrays of FIXED information about polygon points int[] fxs = new int[pointCount]; int[] fys = new int[pointCount]; int width = newGraphics.getBoundWidth(); int height = newGraphics.getBoundHeight(); for (int j = 0; j < pointCount; j++) { FixedCoords fc = getFixedCoords((Element) points.item(j), width, height, null); xs[j] = fc.x; fxs[j] = fc.fx; ys[j] = fc.y; fys[j] = fc.fy; } polygon.setPoints(xs, ys, fxs, fys); shape = polygon; } else if (EL_IMAGE.equals(nodeName)) { Dim dim = getDim(node); // image path should be relative to the package xml String imgPath = node.getAttribute(ATR_PATH); String fullPath = FileFuncs.preparePathOS(getWorkingDir() + imgPath); shape = new Image(dim.x, dim.y, fullPath, imgPath, isShapeFixed(node)); } else if (EL_TEXT.equals(nodeName)) { shape = makeText(node, newGraphics); /* * if (str.equals("*self")) newText.name = "self"; else if * (str.equals("*selfWithName")) newText.name = "selfName"; */ } if (shape != null) newGraphics.addShape(shape); } return newGraphics; }