/**
* Add a named logger. This does nothing and returns false if a logger
* with the same name is already registered.
* <p>
* The Logger factory methods call this method to register each
* newly created Logger.
* <p>
* The application should retain its own reference to the Logger
* object to avoid it being garbage collected. The LogManager
* may only retain a weak reference.
*
* @param logger the new logger.
* @return true if the argument logger was registered successfully,
* false if a logger of that name already exists.
* @exception NullPointerException if the logger name is null.
*/
public synchronized boolean addLogger(Logger logger) {
String name = logger.getName();
if (name == null) {
throw new NullPointerException();
}
Logger old = (Logger) loggers.get(name);
if (old != null) {
// We already have a registered logger with the given name.
return false;
}
// We're adding a new logger.
// Note that we are creating a strong reference here that will
// keep the Logger in existence indefinitely.
loggers.put(name, logger);
// Apply any initial level defined for the new logger.
Level level = getLevelProperty(name+".level", null);
if (level != null) {
doSetLevel(logger, level);
}
// If any of the logger's parents have levels defined,
// make sure they are instantiated.
int ix = 1;
for (;;) {
int ix2 = name.indexOf(".", ix);
if (ix2 < 0) {
break;
}
String pname = name.substring(0,ix2);
if (getProperty(pname+".level") != null) {
// This pname has a level definition. Make sure it exists.
Logger plogger = Logger.getLogger(pname);
}
ix = ix2+1;
}
// Find the new node and its parent.
LogNode node = findNode(name);
node.logger = logger;
Logger parent = null;
LogNode nodep = node.parent;
while (nodep != null) {
if (nodep.logger != null) {
parent = nodep.logger;
break;
}
nodep = nodep.parent;
}
if (parent != null) {
doSetParent(logger, parent);
}
// Walk over the children and tell them we are their new parent.
node.walkAndSetParent(logger);
return true;
}
public Object getAttribute(String name) {
if (name.startsWith("org.apache.tomcat")) {
// XXX XXX XXX XXX Security - servlets may get too much access !!!
// right now we don't check because we need JspServlet to
// be able to access classloader and classpath
if (name.equals("org.apache.tomcat.jsp_classpath")) {
String cp = getServletLoader().getClassPath();
return cp;
}
if (name.equals("org.apache.tomcat.protection_domain")) {
return getProtectionDomain();
}
if (name.equals("org.apache.tomcat.classloader")) {
return this.getServletLoader().getClassLoader();
}
if (name.equals(FacadeManager.FACADE_ATTRIBUTE)) {
if (!allowAttribute(name)) return null;
return this.getFacadeManager();
}
return null; // org.apache.tomcat namespace is reserved in tomcat
} else {
Object o = attributes.get(name);
return attributes.get(name);
}
}
public synchronized void messageReceived(int to, Message m) {
DrainMsg mhMsg = (DrainMsg) m;
log.debug(
"incoming: localDest: "
+ to
+ " type:"
+ mhMsg.get_type()
+ " hops:"
+ (16 - mhMsg.get_ttl())
+ " seqNo:"
+ mhMsg.get_seqNo()
+ " source:"
+ mhMsg.get_source()
+ " finalDest:"
+ mhMsg.get_dest());
// lets assume that the network cannot buffer more than 25 drain msgs from a single source at a
// time (should be more than reasonable)
if (seqNos.containsKey(new Integer(mhMsg.get_source()))) {
int oldSeqNo = ((Integer) seqNos.get(new Integer(mhMsg.get_source()))).intValue();
int upperBound = mhMsg.get_seqNo() + 25;
int wrappedUpperBound = 25 - (255 - mhMsg.get_seqNo());
if ((oldSeqNo >= mhMsg.get_seqNo() && oldSeqNo < upperBound)
|| (oldSeqNo >= 0 && oldSeqNo < wrappedUpperBound)) {
log.debug(
"Dropping message from "
+ mhMsg.get_source()
+ " with duplicate seqNo: "
+ mhMsg.get_seqNo());
return;
}
}
seqNos.put(new Integer(mhMsg.get_source()), new Integer(mhMsg.get_seqNo()));
if (to != spAddr && to != MoteIF.TOS_BCAST_ADDR && to != TOS_UART_ADDR) {
log.debug("Dropping message not for me.");
return;
}
HashSet promiscuousSet = (HashSet) idTable.get(new Integer(BCAST_ID));
HashSet listenerSet = (HashSet) idTable.get(new Integer(mhMsg.get_type()));
if (listenerSet != null && promiscuousSet != null) {
listenerSet.addAll(promiscuousSet);
} else if (listenerSet == null && promiscuousSet != null) {
listenerSet = promiscuousSet;
}
if (listenerSet == null) {
log.debug("No Listener for type: " + mhMsg.get_type());
return;
}
for (Iterator it = listenerSet.iterator(); it.hasNext(); ) {
MessageListener ml = (MessageListener) it.next();
ml.messageReceived(to, mhMsg);
}
}
/* Heck there's no getenv, we have to roll one ourselves! */
public static Hashtable getenv() throws Throwable {
Process p;
if (File.separator.equals("\\")) {
p = Runtime.getRuntime().exec("cmd /c set");
} else {
p = Runtime.getRuntime().exec("printenv");
}
InputStream in = p.getInputStream();
BufferedReader reader = new BufferedReader(new InputStreamReader(in));
String line;
Hashtable table = new Hashtable();
while ((line = reader.readLine()) != null) {
int i = line.indexOf('=');
if (i > 0) {
String name = line.substring(0, i);
String value = line.substring(i + 1);
table.put(name, value);
}
}
in.close();
p.waitFor();
return table;
}
public IrepLocSegs FindSegment(Vector<IrepConstRange> segs, boolean msf) {
Integer hash_nr = new Integer(segs.size());
SegEntry entry = null;
IrepLocSegs loc_segs;
int i = 0;
entry = (SegEntry) _segList.get(hash_nr);
if (entry == null) {
entry = new SegEntry(segs.size());
_segList.put(hash_nr, entry);
}
for (i = 0; i < entry._segs.size(); i++) {
loc_segs = (IrepLocSegs) entry._segs.get(i);
if (loc_segs._msf == msf && loc_segs._segs.equals(segs)) {
return loc_segs;
}
}
loc_segs = new IrepLocSegs(segs, msf);
loc_segs._index = entry._segs.size();
entry._segs.add(loc_segs);
return loc_segs;
}
/**
* Provede prihlaseni uzivatele Odesle mu seznam aktualnich uzivatelu a r ozesle informaci o
* prihlaseni ostatnim uzivatelum
*
* @param serverThread Vlakno serveru
*/
public synchronized boolean login(ServerThread serverThread) {
if (clients.containsKey(serverThread.getLogin().toLowerCase())) {
return false;
}
// Send login info to other clients
Enumeration<ServerThread> e = getClients().elements();
while (e.hasMoreElements()) {
e.nextElement().userLogin(serverThread.getLogin());
}
// Send users list to client
Enumeration<ServerThread> e2 = getClients().elements();
while (e2.hasMoreElements()) {
ServerThread serverThread2 = e2.nextElement();
serverThread.userLogin(serverThread2.getLogin());
if (serverThread2.getServerGame() != null) {
serverThread.userInGame(serverThread2.getLogin());
}
}
// Append client to list
clients.put(serverThread.getLogin().toLowerCase(), serverThread);
return true;
}
// begin:add your code here
protected Hashtable availPartMap() {
Hashtable tbl = new Hashtable();
// 12345678901234567890123
tbl.put("\0*UDF Sparable Partition", "UDF_SparablePartMap");
tbl.put("\0*UDF Virtual Partition\0", "UDF_VirtualPartMap");
return tbl;
}
void addShortcut(String name) {
int index1 = name.indexOf('[');
if (index1 == -1) return;
int index2 = name.lastIndexOf(']');
if (index2 <= (index1 + 1)) return;
String shortcut = name.substring(index1 + 1, index2);
int len = shortcut.length();
if (len > 1) shortcut = shortcut.toUpperCase(Locale.US);
;
if (len > 3 || (len > 1 && shortcut.charAt(0) != 'F' && shortcut.charAt(0) != 'N')) return;
int code = Menus.convertShortcutToCode(shortcut);
if (code == 0) return;
if (nShortcuts == 0) removeShortcuts();
// One character shortcuts go in a separate hash table to
// avoid conflicts with ImageJ menu shortcuts.
if (len == 1 || shortcut.equals("N+") || shortcut.equals("N-")) {
Hashtable macroShortcuts = Menus.getMacroShortcuts();
macroShortcuts.put(new Integer(code), commandPrefix + name);
nShortcuts++;
return;
}
Hashtable shortcuts = Menus.getShortcuts();
if (shortcuts.get(new Integer(code)) != null) {
if (shortcutsInUse == null) shortcutsInUse = "\n \n";
shortcutsInUse += " " + name + "\n";
inUseCount++;
return;
}
shortcuts.put(new Integer(code), commandPrefix + name);
nShortcuts++;
// IJ.log("addShortcut3: "+name+" "+shortcut+" "+code);
}
/**
* Adds the specified resource to the protection space specified by the given realm. All resources
* at or deeper than the depth of the last symbolic element in the path of the given resource URL
* are assumed to be in the same protection space.
*
* @param resourceUrl the URL identifying the resources to be added to the specified protection
* space. For example, "http://www.hostname.com/folder/".
* @param realm the name of the protection space. For example, "*****@*****.**"
*/
public void addProtectionSpace(URL resourceUrl, String realm) {
Assert.isNotNull(resourceUrl);
Assert.isNotNull(realm);
if (!resourceUrl.getFile().endsWith("/")) { // $NON-NLS-1$
resourceUrl = URLTool.getParent(resourceUrl);
}
String oldRealm = getProtectionSpace(resourceUrl);
if (oldRealm != null && oldRealm.equals(realm)) {
return;
}
String url1 = resourceUrl.toString();
Enumeration urls = protectionSpace.keys();
while (urls.hasMoreElements()) {
String url2 = (String) urls.nextElement();
if (url1.startsWith(url2) || url2.startsWith(url1)) {
protectionSpace.remove(url2);
break;
}
}
protectionSpace.put(url1, realm);
needsSaving = true;
}
/** Shut down all connections and clean up. */
public void shutDown() {
// inform all associated streams
synchronized (connectionTable) {
// return if multiplexer already officially dead
if (!alive) return;
alive = false;
Enumeration<MultiplexConnectionInfo> enum_ = connectionTable.elements();
while (enum_.hasMoreElements()) {
MultiplexConnectionInfo info = enum_.nextElement();
info.in.disconnect();
info.out.disconnect();
}
connectionTable.clear();
numConnections = 0;
}
// close underlying connection, if possible (and not already done)
try {
in.close();
} catch (IOException e) {
}
try {
out.close();
} catch (IOException e) {
}
}
/**
* Adds the member to the given group. If the group already has an entry for the member, its
* timestamp will be updated, preventing the cache cleaner from removing the entry.
*
* <p>The entry will be registered <em>with all GossipRouters that GossipClient is configured to
* access</em>
*/
public void register(String group, Address mbr) {
if (group == null || mbr == null) {
if (log.isErrorEnabled()) log.error("group or mbr is null");
return;
}
List mbrs = (List) groups.get(group);
if (mbrs == null) {
mbrs = new LinkedList();
mbrs.add(mbr);
groups.put(group, mbrs);
} else {
if (!mbrs.contains(mbr)) mbrs.add(mbr);
}
_register(group, mbr); // update entry in GossipRouter
if (refresher_enabled) {
if (!timer_running) {
timer = new Timer(true);
refresher_task = new Refresher();
timer.schedule(refresher_task, EXPIRY_TIME, EXPIRY_TIME);
timer_running = true;
}
}
}
/**
* Load image from resource path (using getResource). Note that GIFs are loaded as _translucent_
* indexed images. Images are cached: loading an image with the same name twice will get the
* cached image the second time. If you want to remove an image from the cache, use purgeImage.
* Throws JGError when there was an error.
*/
@SuppressWarnings({"deprecation", "unchecked"})
public JGImage loadImage(String imgfile) {
Image img = (Image) loadedimages.get(imgfile);
if (img == null) {
URL imgurl = getClass().getResource(imgfile);
if (imgurl == null) {
try {
File imgf = new File(imgfile);
if (imgf.canRead()) {
imgurl = imgf.toURL();
} else {
imgurl = new URL(imgfile);
// throw new JGameError(
// "File "+imgfile+" not found.",true);
}
} catch (MalformedURLException e) {
// e.printStackTrace();
throw new JGameError("File not found or malformed path or URL '" + imgfile + "'.", true);
}
}
img = output_comp.getToolkit().createImage(imgurl);
loadedimages.put(imgfile, img);
}
try {
ensureLoaded(img);
} catch (Exception e) {
// e.printStackTrace();
throw new JGameError("Error loading image " + imgfile);
}
return new JREImage(img);
}
/**
* Assigns the given key (that has already been protected) to the given alias.
*
* <p>If the protected key is of type <code>java.security.PrivateKey</code>, it must be
* accompanied by a certificate chain certifying the corresponding public key. If the underlying
* keystore implementation is of type <code>jks</code>, <code>key</code> must be encoded as an
* <code>EncryptedPrivateKeyInfo</code> as defined in the PKCS #8 standard.
*
* <p>If the given alias already exists, the keystore information associated with it is overridden
* by the given key (and possibly certificate chain).
*
* @param alias the alias name
* @param key the key (in protected format) to be associated with the alias
* @param chain the certificate chain for the corresponding public key (only useful if the
* protected key is of type <code>java.security.PrivateKey</code>).
* @exception KeyStoreException if this operation fails.
*/
public void engineSetKeyEntry(String alias, byte[] key, Certificate[] chain)
throws KeyStoreException {
permissionCheck();
synchronized (entries) {
// key must be encoded as EncryptedPrivateKeyInfo as defined in
// PKCS#8
KeyEntry entry = new KeyEntry();
try {
EncryptedPrivateKeyInfo privateKey = new EncryptedPrivateKeyInfo(key);
entry.protectedPrivKey = privateKey.getEncoded();
} catch (IOException ioe) {
throw new KeyStoreException("key is not encoded as " + "EncryptedPrivateKeyInfo");
}
entry.date = new Date();
if ((chain != null) && (chain.length != 0)) {
entry.chain = chain.clone();
entry.chainRefs = new long[entry.chain.length];
}
String lowerAlias = alias.toLowerCase();
if (entries.get(lowerAlias) != null) {
deletedEntries.put(lowerAlias, entries.get(alias));
}
entries.put(lowerAlias, entry);
addedEntries.put(lowerAlias, entry);
}
}
// -------------------------------------------
public static String[] mergeArrays(String[] sa1, String[] sa2) {
if (sa1 == null) {
sa1 = new String[0];
}
if (sa2 == null) {
sa2 = new String[0];
}
int sa1Len = sa1.length;
int sa2Len = sa2.length;
Hashtable tab = new Hashtable(sa1Len + sa2Len);
for (int i = 0; i < sa1Len; i++) {
tab.put(sa1[i], sa1[i]);
}
for (int i = 0; i < sa2Len; i++) {
tab.put(sa2[i], sa2[i]);
}
int len = tab.size();
String[] res = new String[len];
int i = 0;
for (Enumeration e = tab.keys(); e.hasMoreElements(); ) {
String s = (String) e.nextElement();
res[i++] = s;
}
return res;
}
/**
* Sets the thickness of the arc used to draw features.
*
* @param width "xxx-small", "xx-small", "x-small", "small", "medium", "large", "x-large",
* "xx-large", "xxx-large".
*/
public void setFeatureThickness(String width) {
try {
featureThickness = ((Float) FEATURE_THICKNESSES.get(width)).floatValue();
} catch (NullPointerException e) {
featureThickness = ((Float) FEATURE_THICKNESSES.get("medium")).floatValue();
}
}
/**
* Initializes the service implementation, and puts it in a sate where it could interoperate with
* other services. It is strongly recomended that properties in this Map be mapped to property
* names as specified by <tt>AccountProperties</tt>.
*
* @param userID the user id of the ssh account we're currently initializing
* @param accountID the identifier of the account that this protocol provider represents.
* @see net.java.sip.communicator.service.protocol.AccountID
*/
protected void initialize(String userID, AccountID accountID) {
synchronized (initializationLock) {
this.accountID = accountID;
// initialize the presence operationset
OperationSetPersistentPresenceSSHImpl persistentPresence =
new OperationSetPersistentPresenceSSHImpl(this);
supportedOperationSets.put(
OperationSetPersistentPresence.class.getName(), persistentPresence);
// register it once again for those that simply need presence and
// won't be smart enough to check for a persistent presence
// alternative
supportedOperationSets.put(OperationSetPresence.class.getName(), persistentPresence);
// initialize the IM operation set
basicInstantMessaging = new OperationSetBasicInstantMessagingSSHImpl(this);
supportedOperationSets.put(
OperationSetBasicInstantMessaging.class.getName(), basicInstantMessaging);
// initialze the file transfer operation set
fileTranfer = new OperationSetFileTransferSSHImpl(this);
supportedOperationSets.put(OperationSetFileTransfer.class.getName(), fileTranfer);
isInitialized = true;
}
}
private void printResults() {
for (Enumeration e = table.keys(); e.hasMoreElements(); ) {
String instr = (String) e.nextElement();
Integer count = (Integer) table.get(instr);
System.out.println(instr + "\t" + count);
}
}
/**
* Sets the thickness of the arc used to draw the backbone.
*
* @param width "xxx-small", "xx-small", "x-small", "small", "medium", "large", "x-large",
* "xx-large", "xxx-large".
*/
public void setBackboneThickness(String width) {
try {
backboneThickness = ((Float) BACKBONE_THICKNESSES.get(width)).floatValue();
} catch (NullPointerException e) {
backboneThickness = ((Float) BACKBONE_THICKNESSES.get("medium")).floatValue();
}
}
// Write <Cluster>.ini file
// Given Hashtable mapping cluster name to Vector of plugin names
// <Cluster>.ini File format:
// [ Cluster ]
// uic = <Agentname>
// cloned = false
// [ Plugins ]
// plugin = <pluginname>
// ...
//
private void dumpClusterInfo(Hashtable all_clusters, String path) throws IOException {
// Dump hashtable of clusters
for (Enumeration e = all_clusters.keys(); e.hasMoreElements(); ) {
String cluster_name = (String) e.nextElement();
PrintWriter cluster_file;
try {
if (path != null) {
cluster_file = createPrintWriter(path + File.separator + cluster_name + ".ini");
} else {
cluster_file = createPrintWriter(cluster_name + ".ini");
}
cluster_file.println("[ Cluster ]");
cluster_file.println("uic = " + cluster_name);
cluster_file.println("cloned = false\n");
cluster_file.println("[ Plugins ]");
Vector plugins = (Vector) (all_clusters.get(cluster_name));
for (Enumeration p = plugins.elements(); p.hasMoreElements(); ) {
String plugin = (String) (p.nextElement());
cluster_file.println("plugin = " + plugin);
}
cluster_file.close();
} catch (IOException exc) {
System.out.println("IOException: " + exc);
System.exit(-1);
}
}
}
public void populate(EvolutionState state, int thread) {
// should we load individuals from a file? -- duplicates are permitted
if (loadInds != null) {
try {
readSubpopulation(state, new LineNumberReader(new FileReader(loadInds)));
} catch (IOException e) {
state.output.fatal(
"An IOException occurred when trying to read from the file "
+ loadInds
+ ". The IOException was: \n"
+ e);
}
} else {
Hashtable h = null;
if (numDuplicateRetries >= 1) h = new Hashtable(individuals.length / 2); // seems reasonable
for (int x = 0; x < individuals.length; x++) {
for (int tries = 0; tries <= /* Yes, I see that*/ numDuplicateRetries; tries++) {
individuals[x] = species.newIndividual(state, thread);
if (numDuplicateRetries >= 1) {
// check for duplicates
Object o = h.get(individuals[x]);
if (o == null) // found nothing, we're safe
// hash it and go
{
h.put(individuals[x], individuals[x]);
break;
}
}
} // oh well, we tried to cut down the duplicates
}
}
}
public boolean generateActualJobsWithMacros(
Vector<ComputeJob> computeJobs, String backend, Hashtable<String, String> config) {
// read templates
String templatesDir = config.get(JobGenerator.TEMPLATE_DIR);
readTemplates(templatesDir);
for (ComputeJob computeJob : computeJobs) {
GridTransferContainer container = pairJobTransfers.get(computeJob.getName());
String strMacrosInput =
makeMacros(container, computeJob.getComputeScript(), "input", backend);
String strMacrosOutput =
makeMacros(container, computeJob.getComputeScript(), "output", backend);
System.out.println(">>> generation job: " + computeJob.getName());
if (backend.equalsIgnoreCase(JobGenerator.CLUSTER)) {
generateActualJobCluster(computeJob, config, strMacrosInput, strMacrosOutput);
} else if (backend.equalsIgnoreCase(JobGenerator.GRID)) {
generateActualJobGridMacro(computeJob, config, strMacrosInput, strMacrosOutput);
}
}
// write cluster submit script
if (backend.equalsIgnoreCase(JobGenerator.CLUSTER))
writeToFile(
config.get(JobGenerator.OUTPUT_DIR)
+ System.getProperty("file.separator")
+ "submit_"
+ config.get(JobGenerator.GENERATION_ID)
+ ".sh",
submitScript);
return true;
}
// Generate files for given node
// Given Hashtable mapping node_name to Vector of cluster names
// <Node>.ini File format:
// [ Clusters ]
// cluster = <clustername>
// ...
private void dumpNodeInfo(Hashtable all_nodes, String path) throws IOException {
PrintWriter node_file;
// Iterate over hashtable of nodes and write <Node>.ini file for each
for (Enumeration e = all_nodes.keys(); e.hasMoreElements(); ) {
String node_name = (String) (e.nextElement());
try {
if (path != null) {
node_file = createPrintWriter(path + File.separator + node_name + ".ini");
} else {
node_file = createPrintWriter(node_name + ".ini");
}
node_file.println("[ Clusters ]");
Vector clusters = (Vector) all_nodes.get(node_name);
for (Enumeration c = clusters.elements(); c.hasMoreElements(); ) {
String cluster_name = (String) (c.nextElement());
node_file.println("cluster = " + cluster_name);
}
node_file.close();
} catch (IOException exc) {
System.out.println("IOException: " + exc);
System.exit(-1);
}
}
}
private GridTransferContainer fillContainer(
ComputeProtocol protocol, Hashtable<String, Object> values) {
GridTransferContainer container = new GridTransferContainer();
List<ComputeParameter> inputs = protocol.getInputs();
for (ComputeParameter input : inputs) {
String name = input.getName();
String value = (String) values.get(name);
container.addInput(name, value);
}
List<ComputeParameter> outputs = protocol.getOutputs();
for (ComputeParameter output : outputs) {
String name = output.getName();
String value = (String) values.get(name);
container.addOutput(name, value);
}
List<ComputeParameter> exes = protocol.getExes();
for (ComputeParameter exe : exes) {
String name = exe.getName();
String value = (String) values.get(name);
container.addExe(name, value);
}
List<ComputeParameter> logs = protocol.getLogs();
for (ComputeParameter log : logs) {
String name = log.getName();
String value = (String) values.get(name);
container.addLog(name, value);
}
return container;
}
/**
* Callback method from _scanKeychain. If a trusted certificate is found, this method will be
* called.
*/
private void createTrustedCertEntry(
String alias, long keychainItemRef, long creationDate, byte[] derStream) {
TrustedCertEntry tce = new TrustedCertEntry();
try {
CertificateFactory cf = CertificateFactory.getInstance("X.509");
InputStream input = new ByteArrayInputStream(derStream);
X509Certificate cert = (X509Certificate) cf.generateCertificate(input);
input.close();
tce.cert = cert;
tce.certRef = keychainItemRef;
// Make a creation date.
if (creationDate != 0) tce.date = new Date(creationDate);
else tce.date = new Date();
int uniqueVal = 1;
String originalAlias = alias;
while (entries.containsKey(alias.toLowerCase())) {
alias = originalAlias + " " + uniqueVal;
uniqueVal++;
}
entries.put(alias.toLowerCase(), tce);
} catch (Exception e) {
// The certificate will be skipped.
System.err.println("KeychainStore Ignored Exception: " + e);
}
}
/**
* Loads the keystore from the Keychain.
*
* @param stream Ignored - here for API compatibility.
* @param password Ignored - if user needs to unlock keychain Security framework will post any
* dialogs.
* @exception IOException if there is an I/O or format problem with the keystore data
* @exception NoSuchAlgorithmException if the algorithm used to check the integrity of the
* keystore cannot be found
* @exception CertificateException if any of the certificates in the keystore could not be loaded
*/
public void engineLoad(InputStream stream, char[] password)
throws IOException, NoSuchAlgorithmException, CertificateException {
permissionCheck();
// Release any stray keychain references before clearing out the entries.
synchronized (entries) {
for (Enumeration<String> e = entries.keys(); e.hasMoreElements(); ) {
String alias = e.nextElement();
Object entry = entries.get(alias);
if (entry instanceof TrustedCertEntry) {
if (((TrustedCertEntry) entry).certRef != 0) {
_releaseKeychainItemRef(((TrustedCertEntry) entry).certRef);
}
} else {
KeyEntry keyEntry = (KeyEntry) entry;
if (keyEntry.chain != null) {
for (int i = 0; i < keyEntry.chain.length; i++) {
if (keyEntry.chainRefs[i] != 0) {
_releaseKeychainItemRef(keyEntry.chainRefs[i]);
}
}
if (keyEntry.keyRef != 0) {
_releaseKeychainItemRef(keyEntry.keyRef);
}
}
}
}
entries.clear();
_scanKeychain();
}
}
/** Prints StatisticsData structures to local logs. */
public void printStatistics(final EvolutionState state, StatisticsData data) {
int log = -6;
String sender;
EvolutionAgent agent = (EvolutionAgent) state;
sender = data.sender.name;
if (logtable.containsKey(sender)) log = ((Integer) logtable.get(sender)).intValue();
else log = addLog(state, sender);
if (log < 0) {
if (defaultlog < 0) defaultlog = addLog(state, agent.getName());
state.output.message(
"Received a stats message from an unknown sender, will be logged to: "
+ ((Integer) logtable.get(new Integer(defaultlog))).intValue());
log = defaultlog;
}
state.output.println(data.toStringForHumans(), Output.V_NO_GENERAL, log);
if (store_best && data.finalStats) {
for (int i = 0; i < data.best_of_run.length; i++)
storeIndividual(
state,
basefilename + data.sender.name.substring(data.sender.name.lastIndexOf(".")) + ".best",
data.best_of_run[i]);
}
}
sck.Integer getDesiredFR(int ivChIndex) {
if (videoTable.containsKey(new Integer(ivChIndex))) {
videoEntry_t auxVideoEntry = (videoEntry_t) videoTable.get(new Integer(ivChIndex));
return auxVideoEntry.getvideoDesiredFR();
} else {
return null;
}
}
// If a channel is not actualized for a long time
// it will be deleted from de MIB with this function.
boolean deleteChannel(Integer ivChIndex) {
if (videoTable.containsKey(ivChIndex)) {
videoTable.remove(ivChIndex);
delOldOids(ivChIndex.intValue());
return true;
}
return false;
}
boolean deleteChannel(int ivChIndex) {
if (videoTable.containsKey(new Integer(ivChIndex))) {
videoTable.remove(new Integer(ivChIndex));
delOldOids(ivChIndex);
return true;
}
return false;
}
/**
* Deletes the entry identified by the given alias from this keystore.
*
* @param alias the alias name
* @exception KeyStoreException if the entry cannot be removed.
*/
public void engineDeleteEntry(String alias) throws KeyStoreException {
permissionCheck();
synchronized (entries) {
Object entry = entries.remove(alias.toLowerCase());
deletedEntries.put(alias.toLowerCase(), entry);
}
}