/**
* This method should setup the flags/switches for the java command which will determine the
* actual command to be executed.
*
* <p>Sets up flags like :
*
* <ul>
* <li>-Dem.home
* <li>-Dprocess.name
* </ul>
*
* <br>
* add computes the classpath.
*/
protected void updateFlags(ServerCommand serverCmd) {
String bootDir = System.getProperty("em.home");
String appType = System.getProperty("appType");
String appInst = System.getProperty("appInst");
String javaClasspath = serverCmd.getClasspath();
String processName = getProcessNameForLog();
List jvmFlags = serverCmd.getJVMFlags();
int cpToken = -1;
for (int i = 0; i < jvmFlags.size(); i++) {
String token = (String) jvmFlags.get(i);
if (token.startsWith("-classpath")) {
cpToken = i;
javaClasspath = null;
} else if (token.startsWith("-Dem.home")) {
bootDir = null;
} else if (token.startsWith("-Dprocess.name")) {
processName = null;
}
}
List addonJVMFlags = new LinkedList();
if (bootDir != null) {
addonJVMFlags.add("-Dem.home=" + bootDir);
}
if (processName != null) {
addonJVMFlags.add("-Dprocess.name=" + processName);
}
if (!(appType == null || appType.trim().equals(""))) {
addonJVMFlags.add("-DappType=" + appType);
}
if (!(appInst == null || appInst.trim().equals(""))) {
addonJVMFlags.add("-DappInst=" + appInst);
}
if (cpToken != -1) {
jvmFlags.remove(cpToken);
String str = (String) jvmFlags.remove(cpToken);
serverCmd.setClasspath(str);
}
jvmFlags.addAll(addonJVMFlags);
}
public static void main(String args[]) throws Exception {
// cache the initial set of loggers before this test begins
// to add any loggers
Enumeration<String> e = logMgr.getLoggerNames();
List<String> defaultLoggers = getDefaultLoggerNames();
while (e.hasMoreElements()) {
String logger = e.nextElement();
if (!defaultLoggers.contains(logger)) {
initialLoggerNames.add(logger);
}
}
;
String tstSrc = System.getProperty(TST_SRC_PROP);
File fname = new File(tstSrc, LM_PROP_FNAME);
String prop = fname.getCanonicalPath();
System.setProperty(CFG_FILE_PROP, prop);
logMgr.readConfiguration();
System.out.println();
if (checkLoggers() == PASSED) {
System.out.println(MSG_PASSED);
} else {
System.out.println(MSG_FAILED);
throw new Exception(MSG_FAILED);
}
}
private static List<File> createPossibleHomeDirList() {
List<File> homeDirCheckList = new ArrayList<File>(4);
// include codeSource dir in check list
CodeSource lib = OCSSWRuntimeConfig.class.getProtectionDomain().getCodeSource();
if (lib != null) {
URL libUrl = lib.getLocation();
if (libUrl.getProtocol().equals("file")) {
String libPath = libUrl.getPath();
File libParentDir = new File(libPath).getParentFile();
if (libParentDir != null) {
// include one above libParentDir
if (libParentDir.getParentFile() != null) {
homeDirCheckList.add(libParentDir.getParentFile());
}
// include libParentDir
homeDirCheckList.add(libParentDir);
}
}
}
// include CWD in check list
homeDirCheckList.add(new File(".").getAbsoluteFile());
// include one above CWD in check list
homeDirCheckList.add(new File("src/test").getAbsoluteFile());
return homeDirCheckList;
}
/**
* Looks for properties "watchdog.server.<SERVER_NAME>.java.vmtype" followed by
* "watchdog.java.vmtype" in the configuration and returns the first non-null value. If both are
* not available, returns null.
*/
protected String getJVMType() {
List queue = new LinkedList();
queue.add(mPropertyPrefix + ".java.vmtype");
queue.add(WDConstants.WD_PREFIX + ".java.vmtype");
String vmType = getProperty(queue);
return vmType;
}
/**
* Looks for properties "watchdog.server.<SERVER_NAME>.java.home" followed by
* "watchdog.java.home" in the configuration and returns the first non-null value. If both are not
* available, returns the "java.home" system property.
*/
protected String getJavaHome() {
List queue = new LinkedList();
queue.add(mPropertyPrefix + ".java.home");
queue.add(WDConstants.WD_PREFIX + ".java.home");
String javaHome = getProperty(queue);
if (javaHome == null) javaHome = System.getProperty("java.home");
return javaHome;
}
public static List<String> getDefaultLoggerNames() {
List<String> expectedLoggerNames = new ArrayList<String>();
// LogManager always creates two loggers:
expectedLoggerNames.add(""); // root logger: ""
expectedLoggerNames.add("global"); // global logger: "global"
return expectedLoggerNames;
}
private List<String> createHomeContentPathList() {
List<String> homeContentPathList = new ArrayList<String>(8);
homeContentPathList.add(defaultRelConfigFilePath);
homeContentPathList.add("bin");
homeContentPathList.add(DEFAULT_LIB_DIR_NAME);
homeContentPathList.add(DEFAULT_MODULES_DIR_NAME);
return homeContentPathList;
}
public Judge(String user, String pathPrefix) {
this.user = user;
cmdPrefix = new ArrayList<String>();
cmdPrefix.add("sudo");
cmdPrefix.add("-u");
cmdPrefix.add(user);
cmdPrefix.add("limit");
workDir = new File(pathPrefix);
}
/**
* Looks for properties "watchdog.server.<SERVER_NAME>.java.class.path" followed by
* "watchdog.java.class.path" in the configuration and returns the first non-null value. If both
* are not available, returns the "java.class.path" system property.
*/
protected String getJavaClasspath() {
List queue = new LinkedList();
queue.add(mPropertyPrefix + ".java.class.path");
queue.add(WDConstants.WD_PREFIX + ".java.class.path");
String cpath = getProperty(queue);
if (cpath == null) {
cpath = System.getProperty("java.class.path");
}
return cpath;
}
/**
* This method should update the ServerCommand "struct" and setup the necessary values for the
* server to be executed under OptimizeIt.
*/
protected void updateServerCommandForOptimizeIt(ServerCommand serverCmd) {
mLogger.config(mPropertyPrefix + " checking for optit");
String optitPrefix = WDConstants.WD_PREFIX + ".java.profilers.OptimizeIt.";
String home = DCPLib.getProperty(optitPrefix + "home", null);
if (home == null) {
mLogger.warning("OptimizeItHome is not specified. Cannot start OptimizeIt");
return;
}
if (!(new java.io.File(home)).exists()) {
mLogger.warning("OptimizeItHome : " + home + " does not exist." + " Cannot start OptimizeIt");
return;
}
String classPath = DCPLib.getProperty(optitPrefix + "addonClassPath", "");
classPath = WDUtil.sreplace(classPath, "OPTIMIZEIT_HOME", home);
serverCmd.setClasspath(serverCmd.getClasspath() + File.pathSeparator + classPath);
String libPath = DCPLib.getProperty(optitPrefix + "addonLibPath", "");
libPath = WDUtil.sreplace(libPath, "OPTIMIZEIT_HOME", home);
String sysLibPath = serverCmd.getLibPath();
if (sysLibPath == null) sysLibPath = System.getProperty("java.library.path", "");
serverCmd.setLibPath(libPath + File.pathSeparator + sysLibPath);
String javaArgs = DCPLib.getProperty(optitPrefix + "javaArgs", "");
javaArgs = WDUtil.sreplace(javaArgs, "OPTIMIZEIT_HOME", home);
List jvmFlags = serverCmd.getJVMFlags();
jvmFlags.add(0, javaArgs);
String profilerClass = DCPLib.getProperty(optitPrefix + "class", "intuitive.audit.Audit");
if (mOptitAuditPort == null) {
mOptitAuditPort = getOptimizeItAuditPort(mPropertyPrefix);
}
System.out.println("OptimizeIt for " + mName + " is running at " + mOptitAuditPort);
mLogger.config("OptimizeIt running at " + mOptitAuditPort);
String optitArgs = DCPLib.getProperty(optitPrefix + "args", "");
optitArgs = WDUtil.sreplace(optitArgs, "OPTIMIZEIT_HOME", home);
optitArgs = WDUtil.sreplace(optitArgs, "AUDIT_PORT", mOptitAuditPort);
String mainClass = serverCmd.getMainClassName();
List appArgs = serverCmd.getAppArgs();
serverCmd.setMainClassName(profilerClass);
appArgs.add(0, mainClass);
appArgs.add(0, optitArgs);
}
/**
* Looks for properties "watchdog.server.<SERVER_NAME>.java.jvm" followed by
* "watchdog.java.jvm" in the configuration and returns the first non-null value. If both are not
* available, returns the /bin/java in the directory returned by getJavaHome
*
* @see ProcessExecutor#getJavaHome
*/
protected String getJavaJVM() {
List queue = new LinkedList();
queue.add(mPropertyPrefix + ".java.jvm");
queue.add(WDConstants.WD_PREFIX + ".java.jvm");
String javaVM = getProperty(queue);
if (javaVM == null) {
String fileSeparator = System.getProperty("file.separator");
String javaHome = getJavaHome();
javaVM = javaHome + fileSeparator + "bin" + fileSeparator + "java";
}
return javaVM;
}
/*
* BE CAREFUL -- Don't introduce "Distributed Concurrency Bugs"
* e.g. you have to make sure the filename is unique.
* 1. create a remote file
* 2. copy the token/auth stuff into it
* 3. add the correct args to the remote commandline
* Put the file in the same directory that nadmin lives in (lib)
*/
private void setupAuthTokenFile(List<String> cmd, List<String> stdin) throws WindowsException {
WindowsRemoteFileSystem wrfs = new WindowsRemoteFileSystem(dcomInfo.getCredentials());
authTokenFilePath =
dcomInfo.getNadminParentPath()
+ "\\token_"
+ System.nanoTime()
+ new Random().nextInt(1000);
authTokenFilePath = createUniqueFilename(dcomInfo.getNadminParentPath());
authTokenFile = new WindowsRemoteFile(wrfs, authTokenFilePath);
authTokenFile.copyFrom(stdin);
cmd.add(AsadminInput.CLI_INPUT_OPTION);
cmd.add(authTokenFilePath);
}
public void addElement(Element el, BoxBounds bounds) {
Layer layer = new Layer(el, bounds);
layers.add(layer);
el.getStyle().setPosition(Style.Position.ABSOLUTE);
presetLayerBounds(layer);
container.appendChild(el);
}
/**
* Find all the year records in a Calendar, it need not be a standard period (used in MRP)
*
* @param C_Calendar_ID calendar
* @param ctx context
* @param trx trx
* @return MYear[]
*/
public static MYear[] getAllYearsInCalendar(int C_Calendar_ID, Ctx ctx, Trx trx) {
List<MYear> years = new ArrayList<MYear>();
String sql = "SELECT * FROM C_Year WHERE " + "IsActive='Y' AND C_Calendar_ID = ? ";
PreparedStatement pstmt = null;
ResultSet rs = null;
try {
pstmt = DB.prepareStatement(sql, trx);
pstmt.setInt(1, C_Calendar_ID);
rs = pstmt.executeQuery();
while (rs.next()) years.add(new MYear(ctx, rs, trx));
} catch (Exception e) {
s_log.log(Level.SEVERE, sql, e);
} finally {
DB.closeResultSet(rs);
DB.closeStatement(pstmt);
}
MYear[] retValue = new MYear[years.size()];
years.toArray(retValue);
return retValue;
}
/**
* Find the periods in a calendar year it need not be a standard period (used in MRP)
*
* @param C_Year_ID Year
* @param periodType Period Type
* @param ctx context
* @param trx trx
* @return MPeriod[]
*/
public static MPeriod[] getAllPeriodsInYear(int C_Year_ID, String periodType, Ctx ctx, Trx trx) {
List<MPeriod> periods = new ArrayList<MPeriod>();
String sql = "SELECT * FROM C_Period WHERE IsActive='Y'";
sql = sql + " AND C_Year_ID = ?";
if (periodType != null) sql = sql + " AND PeriodType = ? ";
sql = sql + " order by StartDate ";
PreparedStatement pstmt = null;
ResultSet rs = null;
try {
pstmt = DB.prepareStatement(sql, trx);
pstmt.setInt(1, C_Year_ID);
if (periodType != null) pstmt.setString(2, periodType);
rs = pstmt.executeQuery();
while (rs.next()) periods.add(new MPeriod(ctx, rs, trx));
} catch (Exception e) {
s_log.log(Level.SEVERE, sql, e);
} finally {
DB.closeResultSet(rs);
DB.closeStatement(pstmt);
}
MPeriod[] retValue = new MPeriod[periods.size()];
periods.toArray(retValue);
return retValue;
}
private void LoadQueriesBtnMouseClicked(
java.awt.event.MouseEvent evt) { // GEN-FIRST:event_LoadQueriesBtnMouseClicked
// Algorithm
/*
* Goto queries' directory and load all queryfile.query to Combobox
* Change local directory to repository diretory
* List all file there
* Try to load all file and add to combobox
*
*
*/
String sQueryRepositoryPath = "/home/natuan/Documents/OntologyMysql/QueriesRepository/";
File dir = new File(sQueryRepositoryPath);
String[] children = dir.list();
if (children == null) {
// Either dir does not exist or is not a directory
} else {
System.out.println("list files");
for (int i = 0; i < children.length; i++) {
// Get filename of file or directory
String filename = children[i];
String sContent = ReadWholeFileToString(sQueryRepositoryPath + filename);
queryList.add(sContent);
QueriesCmb.addItem(filename);
SparqlTxtArea.setText(sContent);
// System.out.println(filename);
}
QueriesCmb.setSelectedIndex(children.length - 1);
}
} // GEN-LAST:event_LoadQueriesBtnMouseClicked
/**
* @param sourceFile File to read from
* @return List of String objects with the shas
*/
public static FileRequestFileContent readRequestFile(final File sourceFile) {
if (!sourceFile.isFile() || !(sourceFile.length() > 0)) {
return null;
}
Document d = null;
try {
d = XMLTools.parseXmlFile(sourceFile.getPath());
} catch (final Throwable t) {
logger.log(Level.SEVERE, "Exception in readRequestFile, during XML parsing", t);
return null;
}
if (d == null) {
logger.log(Level.SEVERE, "Could'nt parse the request file");
return null;
}
final Element rootNode = d.getDocumentElement();
if (rootNode.getTagName().equals(TAG_FrostFileRequestFile) == false) {
logger.severe(
"Error: xml request file does not contain the root tag '"
+ TAG_FrostFileRequestFile
+ "'");
return null;
}
final String timeStampStr = XMLTools.getChildElementsTextValue(rootNode, TAG_timestamp);
if (timeStampStr == null) {
logger.severe("Error: xml file does not contain the tag '" + TAG_timestamp + "'");
return null;
}
final long timestamp = Long.parseLong(timeStampStr);
final List<Element> nodelist = XMLTools.getChildElementsByTagName(rootNode, TAG_shaList);
if (nodelist.size() != 1) {
logger.severe("Error: xml request files must contain only one element '" + TAG_shaList + "'");
return null;
}
final Element rootShaNode = nodelist.get(0);
final List<String> shaList = new LinkedList<String>();
final List<Element> xmlKeys = XMLTools.getChildElementsByTagName(rootShaNode, TAG_sha);
for (final Element el : xmlKeys) {
final Text txtname = (Text) el.getFirstChild();
if (txtname == null) {
continue;
}
final String sha = txtname.getData();
shaList.add(sha);
}
final FileRequestFileContent content = new FileRequestFileContent(timestamp, shaList);
return content;
}
public synchronized List<Element> getRestriccionColored() {
List<Element> resp = new ArrayList();
for (Element e : restriccion) {
if (!e.getCol().equals(WHITE)) {
resp.add(e);
}
}
return resp;
}
private static String[] splitLibDirPaths(String libDirPathsString) {
List<String> libDirPathList = new ArrayList<String>(8);
StringTokenizer stringTokenizer = new StringTokenizer(libDirPathsString, File.pathSeparator);
while (stringTokenizer.hasMoreElements()) {
String libDirPath = (String) stringTokenizer.nextElement();
libDirPathList.add(libDirPath);
}
return libDirPathList.toArray(new String[libDirPathList.size()]);
}
public void addSchedulerListener(SchedulerListener schedulerListener) {
if (schedulerListener != null) {
List<SchedulerListener> l = listeners;
if (l != null) {
synchronized (l) {
l.add(schedulerListener);
}
}
}
}
/**
* Returns all supported capture sizes.
*
* @return an array of capture sizes, in bytes, never <code>null</code>.
*/
public Integer[] getCaptureSizes() {
final String rawValue = this.properties.get(DEVICE_CAPTURESIZES);
final String[] values = rawValue.split(",\\s*");
final List<Integer> result = new ArrayList<Integer>();
for (String value : values) {
result.add(Integer.valueOf(value.trim()));
}
Collections.sort(
result, NumberUtils.<Integer>createNumberComparator(false /* aSortAscending */));
return result.toArray(new Integer[result.size()]);
}
/**
* Create a UPnP candidate.
*
* @param socket local socket
* @param externalIP external IP address
* @param port local port
* @param component parent component
* @param device the UPnP gateway device
* @return a new <tt>UPNPCandidate</tt> instance which represents the specified
* <tt>TransportAddress</tt>
* @throws Exception if something goes wrong during candidate creation
*/
private List<LocalCandidate> createUPNPCandidate(
IceSocketWrapper socket,
String externalIP,
int port,
Component component,
GatewayDevice device)
throws Exception {
List<LocalCandidate> ret = new ArrayList<>();
TransportAddress addr = new TransportAddress(externalIP, port, Transport.UDP);
HostCandidate base = new HostCandidate(socket, component);
UPNPCandidate candidate = new UPNPCandidate(addr, base, component, device);
IceSocketWrapper stunSocket = candidate.getStunSocket(null);
candidate.getStunStack().addSocket(stunSocket);
component.getComponentSocket().add(candidate.getCandidateIceSocketWrapper());
ret.add(candidate);
ret.add(base);
return ret;
}
/**
* Adds a specific <tt>LocalCandidate</tt> to the list of <tt>LocalCandidate</tt>s harvested for
* {@link #hostCandidate} by this harvest.
*
* @param candidate the <tt>LocalCandidate</tt> to be added to the list of
* <tt>LocalCandidate</tt>s harvested for {@link #hostCandidate} by this harvest
* @return <tt>true</tt> if the list of <tt>LocalCandidate</tt>s changed as a result of the method
* invocation; otherwise, <tt>false</tt>
*/
protected boolean addCandidate(LocalCandidate candidate) {
boolean added;
// try to add the candidate to the component and then only add it to the
// harvest if it wasn't deemed redundant
if (!candidates.contains(candidate)
&& hostCandidate.getParentComponent().addLocalCandidate(candidate)) {
added = candidates.add(candidate);
} else {
added = false;
}
return added;
}
/**
* Returns the String array of the specified property, or null in case the returned property
* string array had zero length.
*
* @param propertyName the name of the property that is being queried.
* @param regex the delimiting regular expression
* @return the array of strings computed by splitting the specified property value around matches
* of the given regular expression
*/
public static String[] getStringArray(String propertyName, String regex) {
String str = getString(propertyName);
if (str == null) return null;
String[] parts = str.split(regex);
// Remove mal-formatted entries.
List<String> res = new ArrayList<String>();
for (String s : parts) if (s != null && s.trim().length() != 0) res.add(s);
if (res.size() == 0) return null;
return res.toArray(new String[res.size()]);
}
@Override
public List<IMatchresultDto> getAll() throws NotFoundException {
try {
List<IMatchresultDto> result = new LinkedList<>();
for (contract.domain.IMatchresult a :
DomainFacade.getInstance().getAll(contract.domain.IMatchresult.class)) {
result.add(MatchresultDto.copy(a));
}
return result;
} catch (CouldNotFetchException ex) {
throw new NotFoundException(ex);
}
}
/** @param args the command line arguments */
public static void main(String[] args) {
// TODO code application logic here
long lNumOfLines = 0;
List list1 = new ArrayList();
try {
FileInputStream fstream = new FileInputStream("n:\\myphd\\dataset\\gps.csv");
// Get the object of DataInputStream
DataInputStream in = new DataInputStream(fstream);
BufferedReader br = new BufferedReader(new InputStreamReader(in));
String strLine;
// Read File Line By Line
while ((strLine = br.readLine()) != null) {
// Print the content on the console
lNumOfLines++;
list1.add(strLine.trim());
}
// Close the input stream
in.close();
} catch (Exception e) { // Catch exception if any
System.err.println("Error: " + e.getMessage());
}
long lTotal = 1000000;
long numberOfLines = 0;
long lStep = lTotal / lNumOfLines;
System.out.println("lTotal:" + lTotal + " numberOfLines:" + numberOfLines + "lStep:" + lStep);
float fSpeed = 100;
float newfSpeed = 0;
for (int iNum = 0; iNum < lStep; iNum++) {
Random randomGenerator = new Random();
int randomInt = randomGenerator.nextInt(1000);
float f = (float) randomInt / 10000.0f;
System.out.println("Random Int:" + randomInt + " f:" + f);
if ((randomInt % 2) == 0) {
newfSpeed = fSpeed + fSpeed * f;
System.out.println("Even");
} else {
newfSpeed = fSpeed - fSpeed * f;
System.out.println("odd");
}
// InsertInstance(fLat,fLon,fAlt,fSpeed,sDate,sTimestamp,sBTAddress,sBTName,sURI);
System.out.println("generated speed:" + newfSpeed);
}
}
public static void main(String args[]) throws Exception {
List<ServerAddress> addrs = new LinkedList<ServerAddress>();
addrs.add(new ServerAddress("127.0.0.1", 27017));
addrs.add(new ServerAddress("127.0.0.1", 27018));
Mongo m = new Mongo(addrs);
ReplicaSetStatus status = new ReplicaSetStatus(m, addrs);
System.out.println(status.ensureMaster()._addr);
while (true) {
System.out.println(status.ready());
if (status.ready()) {
status.printStatus();
System.out.println(
"master: " + status.getMaster() + "\t secondary: " + status.getASecondary());
}
System.out.println("-----------------------");
Thread.sleep(5000);
}
}
public void actionPerformed(ActionEvent ae) {
if (nodes != null && nodes.size() > 0) {
final SVNData cd = new SVNData();
List<String> paths = new ArrayList<String>();
boolean has_directory = false;
for (VPTNode node : nodes) {
if (node != null && node.getNodePath() != null) {
paths.add(node.getNodePath());
if (node.isDirectory() || node.isProject()) {
has_directory = true;
}
}
}
cd.setPaths(paths);
if (has_directory) {
int answer =
JOptionPane.showConfirmDialog(
view,
"One or more of the items selected is a directory.\nWould you like to see status for subdirectories and files?",
"Show Child Status?",
JOptionPane.YES_NO_CANCEL_OPTION,
JOptionPane.QUESTION_MESSAGE);
if (JOptionPane.CANCEL_OPTION == answer) {
return;
}
cd.setRecursive(JOptionPane.YES_OPTION == answer);
}
if (username != null && password != null) {
cd.setUsername(username);
cd.setPassword(password);
}
cd.setOut(new ConsolePrintStream(view));
StatusAction action = new StatusAction(view, cd);
action.actionPerformed(null);
}
}
/**
* Look at the various property settings and create the command line for this server.
*
* @return the command line for this server.
*/
protected List buildExecCommand() {
try {
String cmd = getCommand();
if (cmd == null) {
return null;
}
mLogger.finest(LogUtil.splitLine(cmd));
// Get java specific properties
LinkedList execTokens = tokenizeCommand(cmd);
String firstToken = (String) execTokens.get(0);
if (firstToken.equals("java")) { // This is a java command, so rework it
if (execTokens.size() < 2) {
return null;
}
mIsJavaServer = true;
List props = new LinkedList();
props.add(mPropertyPrefix + ".nativeLogging");
props.add(WDConstants.WD_PREFIX + ".nativeLogging");
String nativeLog = getProperty(props);
if (nativeLog == null || nativeLog.equals("false")) {
setNativeLoggingUsed(false);
} else {
setNativeLoggingUsed(true);
}
String mainClassName = (String) execTokens.getLast();
List cmdLineFlags = null;
if (execTokens.size() > 2) {
cmdLineFlags = execTokens.subList(1, execTokens.size() - 1);
}
String javaClasspath = getJavaClasspath();
String addCp = getJavaAdditionalClasspath();
if (addCp != null) {
javaClasspath += File.pathSeparator + addCp;
}
String jvm = getJavaJVM();
String jvmType = getJVMType();
List jvmFlags = getJVMFlags();
List appArgs = getAppArgs();
mServerCmd =
new ServerCommand(
jvm, jvmType, jvmFlags, javaClasspath, mainClassName, cmdLineFlags, appArgs);
updateFlags(mServerCmd);
updateServerCommandForSpecialHandling(mServerCmd);
execTokens = mServerCmd.getTokens();
mLogger.finest(LogUtil.splitLine(execTokens.toString()));
} else {
setNativeLoggingUsed(true);
}
return execTokens;
} catch (Exception e) {
mLogger.severe("Failed to buildExecCmd", e);
return null;
}
}
/**
* Looks for properties "watchdog.server.<SERVER_NAME>.java.cp" followed by
* "watchdog.java.cp" in the configuration and returns the first non-null value. If both are null,
* returns null.
*/
protected String getJavaAdditionalClasspath() {
List queue = new LinkedList();
queue.add(mPropertyPrefix + ".java.cp");
queue.add(WDConstants.WD_PREFIX + ".java.cp");
return getProperty(queue);
}