/** Implements notification in order to track socket state. */
@Override
public synchronized void onSctpNotification(SctpSocket socket, SctpNotification notification) {
if (logger.isDebugEnabled()) {
logger.debug("socket=" + socket + "; notification=" + notification);
}
switch (notification.sn_type) {
case SctpNotification.SCTP_ASSOC_CHANGE:
SctpNotification.AssociationChange assocChange =
(SctpNotification.AssociationChange) notification;
switch (assocChange.state) {
case SctpNotification.AssociationChange.SCTP_COMM_UP:
if (!assocIsUp) {
boolean wasReady = isReady();
assocIsUp = true;
if (isReady() && !wasReady) notifySctpConnectionReady();
}
break;
case SctpNotification.AssociationChange.SCTP_COMM_LOST:
case SctpNotification.AssociationChange.SCTP_SHUTDOWN_COMP:
case SctpNotification.AssociationChange.SCTP_CANT_STR_ASSOC:
try {
closeStream();
} catch (IOException e) {
logger.error("Error closing SCTP socket", e);
}
break;
}
break;
}
}
void _pickInitial() throws MongoException {
if (_curAddress != null) return;
// we need to just get a server to query for ismaster
_pickCurrent();
try {
_logger.info("current address beginning of _pickInitial: " + _curAddress);
DBObject im = isMasterCmd();
if (_isMaster(im)) return;
synchronized (_allHosts) {
Collections.shuffle(_allHosts);
for (ServerAddress a : _allHosts) {
if (_curAddress == a) continue;
_logger.info("remote [" + _curAddress + "] -> [" + a + "]");
_set(a);
im = isMasterCmd();
if (_isMaster(im)) return;
_logger.severe("switched to: " + a + " but isn't master");
}
throw new MongoException("can't find master");
}
} catch (Exception e) {
_logger.log(Level.SEVERE, "can't pick initial master, using random one", e);
}
}
public DBTCPConnector(Mongo m, ServerAddress addr) throws MongoException {
_mongo = m;
_portHolder = new DBPortPool.Holder(m._options);
_checkAddress(addr);
_createLogger.info(addr.toString());
if (addr.isPaired()) {
_allHosts = new ArrayList<ServerAddress>(addr.explode());
_createLogger.info("switch to paired mode : " + _allHosts + " -> " + _curAddress);
} else {
_set(addr);
_allHosts = null;
}
}
public DBTCPConnector(Mongo m, List<ServerAddress> all) throws MongoException {
_mongo = m;
_portHolder = new DBPortPool.Holder(m._options);
_checkAddress(all);
_allHosts = new ArrayList<ServerAddress>(all); // make a copy so it can't be modified
_createLogger.info(all + " -> " + _curAddress);
}
/**
* Sends acknowledgment for open channel request on given SCTP stream ID.
*
* @param sid SCTP stream identifier to be used for sending ack.
*/
private void sendOpenChannelAck(int sid) throws IOException {
// Send ACK
byte[] ack = MSG_CHANNEL_ACK_BYTES;
int sendAck = sctpSocket.send(ack, true, sid, WEB_RTC_PPID_CTRL);
if (sendAck != ack.length) {
logger.error("Failed to send open channel confirmation");
}
}
DBPort(InetSocketAddress addr, DBPortPool pool, MongoOptions options) throws IOException {
_options = options;
_addr = addr;
_pool = pool;
_hashCode = _addr.hashCode();
_logger = Logger.getLogger(_rootLogger.getName() + "." + addr.toString());
}
@FXML
private void Ok_click(ActionEvent event) {
logger.entry();
LogEntry log = new LogEntry("6.16", "Local Delete Object Instance service");
try {
ObjectInstanceHandle instanceHandle =
rtiAmb
.getObjectInstanceHandleFactory()
.decode(
ByteBuffer.allocate(4)
.putInt(Integer.parseInt(ObjectInstanceDesignator.getText()))
.array(),
0);
log.getSuppliedArguments()
.add(
new ClassValuePair(
"Object instance designator",
ObjectInstanceHandle.class,
instanceHandle.toString()));
rtiAmb.localDeleteObjectInstance(instanceHandle);
log.setDescription("Local Object instance deleted successfully");
log.setLogType(LogEntryType.REQUEST);
} catch (FederateNotExecutionMember
| NotConnected
| NumberFormatException
| CouldNotDecode
| RTIinternalError
| OwnershipAcquisitionPending
| FederateOwnsAttributes
| ObjectInstanceNotKnown
| SaveInProgress
| RestoreInProgress ex) {
log.setException(ex);
log.setLogType(LogEntryType.ERROR);
logger.log(Level.ERROR, ex.getMessage(), ex);
} catch (Exception ex) {
log.setException(ex);
log.setLogType(LogEntryType.FATAL);
logger.log(Level.FATAL, ex.getMessage(), ex);
}
logEntries.add(log);
((Stage) OkButton.getScene().getWindow()).close();
logger.exit();
}
/**
* Creates and initializes an SPV block store. Will create the given file if it's missing. This
* operation will block on disk.
*/
public SPVBlockStore(NetworkParameters params, File file) throws BlockStoreException {
checkNotNull(file);
this.params = checkNotNull(params);
try {
this.numHeaders = DEFAULT_NUM_HEADERS;
boolean exists = file.exists();
// Set up the backing file.
randomAccessFile = new RandomAccessFile(file, "rw");
long fileSize = getFileSize();
if (!exists) {
log.info("Creating new SPV block chain file " + file);
randomAccessFile.setLength(fileSize);
} else if (randomAccessFile.length() != fileSize) {
throw new BlockStoreException(
"File size on disk does not match expected size: "
+ randomAccessFile.length()
+ " vs "
+ fileSize);
}
FileChannel channel = randomAccessFile.getChannel();
fileLock = channel.tryLock();
if (fileLock == null)
throw new BlockStoreException("Store file is already locked by another process");
// Map it into memory read/write. The kernel will take care of flushing writes to disk at the
// most
// efficient times, which may mean that until the map is deallocated the data on disk is
// randomly
// inconsistent. However the only process accessing it is us, via this mapping, so our own
// view will
// always be correct. Once we establish the mmap the underlying file and channel can go away.
// Note that
// the details of mmapping vary between platforms.
buffer = channel.map(FileChannel.MapMode.READ_WRITE, 0, fileSize);
// Check or initialize the header bytes to ensure we don't try to open some random file.
byte[] header;
if (exists) {
header = new byte[4];
buffer.get(header);
if (!new String(header, "US-ASCII").equals(HEADER_MAGIC))
throw new BlockStoreException("Header bytes do not equal " + HEADER_MAGIC);
} else {
initNewStore(params);
}
} catch (Exception e) {
try {
if (randomAccessFile != null) randomAccessFile.close();
} catch (IOException e2) {
throw new BlockStoreException(e2);
}
throw new BlockStoreException(e);
}
}
/**
* {@inheritDoc}
*
* <p>SCTP input data callback.
*/
@Override
public void onSctpPacket(
byte[] data, int sid, int ssn, int tsn, long ppid, int context, int flags) {
if (ppid == WEB_RTC_PPID_CTRL) {
// Channel control PPID
try {
onCtrlPacket(data, sid);
} catch (IOException e) {
logger.error("IOException when processing ctrl packet", e);
}
} else if (ppid == WEB_RTC_PPID_STRING || ppid == WEB_RTC_PPID_BIN) {
WebRtcDataStream channel;
synchronized (this) {
channel = channels.get(sid);
}
if (channel == null) {
logger.error("No channel found for sid: " + sid);
return;
}
if (ppid == WEB_RTC_PPID_STRING) {
// WebRTC String
String str;
String charsetName = "UTF-8";
try {
str = new String(data, charsetName);
} catch (UnsupportedEncodingException uee) {
logger.error("Unsupported charset encoding/name " + charsetName, uee);
str = null;
}
channel.onStringMsg(str);
} else {
// WebRTC Binary
channel.onBinaryMsg(data);
}
} else {
logger.warn("Got message on unsupported PPID: " + ppid);
}
}
@Override
public void close() throws BlockStoreException {
try {
buffer.force();
if (System.getProperty("os.name").toLowerCase().contains("win")) {
log.info("Windows mmap hack: Forcing buffer cleaning");
WindowsMMapHack.forceRelease(buffer);
}
buffer = null; // Allow it to be GCd and the underlying file mapping to go away.
randomAccessFile.close();
} catch (IOException e) {
throw new BlockStoreException(e);
}
}
private void _pickCurrent() throws MongoException {
if (_allHosts == null)
throw new MongoException(
"got master/slave issue but not in master/slave mode on the client side");
synchronized (_allHosts) {
Collections.shuffle(_allHosts);
for (int i = 0; i < _allHosts.size(); i++) {
ServerAddress a = _allHosts.get(i);
if (a == _curAddress) continue;
if (_curAddress != null) {
_logger.info("switching from [" + _curAddress + "] to [" + a + "]");
}
_set(a);
return;
}
}
throw new MongoException("couldn't find a new host to swtich too");
}
public class DBPort {
public static final int PORT = 27017;
static final boolean USE_NAGLE = false;
static final long CONN_RETRY_TIME_MS = 15000;
public DBPort(InetSocketAddress addr) throws IOException {
this(addr, null, new MongoOptions());
}
DBPort(InetSocketAddress addr, DBPortPool pool, MongoOptions options) throws IOException {
_options = options;
_addr = addr;
_pool = pool;
_hashCode = _addr.hashCode();
_logger = Logger.getLogger(_rootLogger.getName() + "." + addr.toString());
}
/** @param response will get wiped */
DBMessage call(DBMessage msg, ByteDecoder decoder) throws IOException {
return go(msg, decoder);
}
void say(DBMessage msg) throws IOException {
go(msg, null);
}
private synchronized DBMessage go(DBMessage msg, ByteDecoder decoder) throws IOException {
if (_sock == null) _open();
{
ByteBuffer out = msg.prepare();
while (out.remaining() > 0) _sock.write(out);
}
if (_pool != null) _pool._everWorked = true;
if (decoder == null) return null;
ByteBuffer response = decoder._buf;
if (response.position() != 0) throw new IllegalArgumentException();
int read = 0;
while (read < DBMessage.HEADER_LENGTH) read += _read(response);
int len = response.getInt(0);
if (len <= DBMessage.HEADER_LENGTH)
throw new IllegalArgumentException("db sent invalid length: " + len);
if (len > response.capacity())
throw new IllegalArgumentException(
"db message size is too big (" + len + ") " + "max is (" + response.capacity() + ")");
response.limit(len);
while (read < len) read += _read(response);
if (read != len) throw new RuntimeException("something is wrong");
response.flip();
return new DBMessage(response);
}
public synchronized void ensureOpen() throws IOException {
if (_sock != null) return;
_open();
}
void _open() throws IOException {
long sleepTime = 100;
final long start = System.currentTimeMillis();
while (true) {
IOException lastError = null;
try {
_sock = SocketChannel.open();
_socket = _sock.socket();
_socket.connect(_addr, _options.connectTimeout);
_socket.setTcpNoDelay(!USE_NAGLE);
_socket.setSoTimeout(_options.socketTimeout);
_in = _socket.getInputStream();
return;
} catch (IOException ioe) {
// TODO - erh to fix lastError = new IOException( "couldn't connect to [" +
// _addr + "] bc:" + lastError , lastError );
lastError = new IOException("couldn't connect to [" + _addr + "] bc:" + ioe);
_logger.log(Level.INFO, "connect fail to : " + _addr, ioe);
}
if (!_options.autoConnectRetry || (_pool != null && !_pool._everWorked)) throw lastError;
long sleptSoFar = System.currentTimeMillis() - start;
if (sleptSoFar >= CONN_RETRY_TIME_MS) throw lastError;
if (sleepTime + sleptSoFar > CONN_RETRY_TIME_MS) sleepTime = CONN_RETRY_TIME_MS - sleptSoFar;
_logger.severe(
"going to sleep and retry. total sleep time after = "
+ (sleptSoFar + sleptSoFar)
+ "ms this time:"
+ sleepTime
+ "ms");
ThreadUtil.sleep(sleepTime);
sleepTime *= 2;
}
}
public int hashCode() {
return _hashCode;
}
public String host() {
return _addr.toString();
}
public String toString() {
return "{DBPort " + host() + "}";
}
protected void finalize() {
if (_sock != null) {
try {
_sock.close();
} catch (Exception e) {
// don't care
}
_in = null;
_socket = null;
_sock = null;
}
}
void checkAuth(DB db) {
if (db._username == null) return;
if (_authed.containsKey(db)) return;
if (_inauth) return;
_inauth = true;
try {
if (db.reauth()) {
_authed.put(db, true);
return;
}
} finally {
_inauth = false;
}
throw new MongoInternalException("can't reauth!");
}
private int _read(ByteBuffer buf) throws IOException {
int x = _in.read(buf.array(), buf.position(), buf.remaining());
if (x < 0) throw new IOException("connection to server closed unexpectedly");
buf.position(buf.position() + x);
return x;
}
final int _hashCode;
final InetSocketAddress _addr;
final DBPortPool _pool;
final MongoOptions _options;
final Logger _logger;
private SocketChannel _sock;
private Socket _socket;
private InputStream _in;
private boolean _inauth = false;
private Map<DB, Boolean> _authed = Collections.synchronizedMap(new WeakHashMap<DB, Boolean>());
private static Logger _rootLogger = Logger.getLogger("com.mongodb.port");
}
private void runOnDtlsTransport(StreamConnector connector) throws IOException {
DtlsControlImpl dtlsControl = (DtlsControlImpl) getTransportManager().getDtlsControl(this);
DtlsTransformEngine engine = dtlsControl.getTransformEngine();
final DtlsPacketTransformer transformer = (DtlsPacketTransformer) engine.getRTPTransformer();
byte[] receiveBuffer = new byte[SCTP_BUFFER_SIZE];
if (LOG_SCTP_PACKETS) {
System.setProperty(
ConfigurationService.PNAME_SC_HOME_DIR_LOCATION, System.getProperty("java.io.tmpdir"));
System.setProperty(
ConfigurationService.PNAME_SC_HOME_DIR_NAME, SctpConnection.class.getName());
}
synchronized (this) {
// FIXME local SCTP port is hardcoded in bridge offer SDP (Jitsi
// Meet)
sctpSocket = Sctp.createSocket(5000);
assocIsUp = false;
acceptedIncomingConnection = false;
}
// Implement output network link for SCTP stack on DTLS transport
sctpSocket.setLink(
new NetworkLink() {
@Override
public void onConnOut(SctpSocket s, byte[] packet) throws IOException {
if (LOG_SCTP_PACKETS) {
LibJitsi.getPacketLoggingService()
.logPacket(
PacketLoggingService.ProtocolName.ICE4J,
new byte[] {0, 0, 0, (byte) debugId},
5000,
new byte[] {0, 0, 0, (byte) (debugId + 1)},
remoteSctpPort,
PacketLoggingService.TransportName.UDP,
true,
packet);
}
// Send through DTLS transport
transformer.sendApplicationData(packet, 0, packet.length);
}
});
if (logger.isDebugEnabled()) {
logger.debug("Connecting SCTP to port: " + remoteSctpPort + " to " + getEndpoint().getID());
}
sctpSocket.setNotificationListener(this);
sctpSocket.listen();
// FIXME manage threads
threadPool.execute(
new Runnable() {
@Override
public void run() {
SctpSocket sctpSocket = null;
try {
// sctpSocket is set to null on close
sctpSocket = SctpConnection.this.sctpSocket;
while (sctpSocket != null) {
if (sctpSocket.accept()) {
acceptedIncomingConnection = true;
break;
}
Thread.sleep(100);
sctpSocket = SctpConnection.this.sctpSocket;
}
if (isReady()) {
notifySctpConnectionReady();
}
} catch (Exception e) {
logger.error("Error accepting SCTP connection", e);
}
if (sctpSocket == null && logger.isInfoEnabled()) {
logger.info(
"SctpConnection " + getID() + " closed" + " before SctpSocket accept()-ed.");
}
}
});
// Notify that from now on SCTP connection is considered functional
sctpSocket.setDataCallback(this);
// Setup iceSocket
DatagramSocket datagramSocket = connector.getDataSocket();
if (datagramSocket != null) {
this.iceSocket = new IceUdpSocketWrapper(datagramSocket);
} else {
this.iceSocket = new IceTcpSocketWrapper(connector.getDataTCPSocket());
}
DatagramPacket rcvPacket = new DatagramPacket(receiveBuffer, 0, receiveBuffer.length);
// Receive loop, breaks when SCTP socket is closed
try {
do {
iceSocket.receive(rcvPacket);
RawPacket raw =
new RawPacket(rcvPacket.getData(), rcvPacket.getOffset(), rcvPacket.getLength());
raw = transformer.reverseTransform(raw);
// Check for app data
if (raw == null) continue;
if (LOG_SCTP_PACKETS) {
LibJitsi.getPacketLoggingService()
.logPacket(
PacketLoggingService.ProtocolName.ICE4J,
new byte[] {0, 0, 0, (byte) (debugId + 1)},
remoteSctpPort,
new byte[] {0, 0, 0, (byte) debugId},
5000,
PacketLoggingService.TransportName.UDP,
false,
raw.getBuffer(),
raw.getOffset(),
raw.getLength());
}
// Pass network packet to SCTP stack
sctpSocket.onConnIn(raw.getBuffer(), raw.getOffset(), raw.getLength());
} while (true);
} finally {
// Eventually, close the socket although it should happen from
// expire().
synchronized (this) {
assocIsUp = false;
acceptedIncomingConnection = false;
if (sctpSocket != null) {
sctpSocket.close();
sctpSocket = null;
}
}
}
}
/**
* Class is a transport layer for WebRTC data channels. It consists of SCTP connection running on
* top of ICE/DTLS layer. Manages WebRTC data channels. See
* http://tools.ietf.org/html/draft-ietf-rtcweb-data-channel-08 for more info on WebRTC data
* channels.
*
* <p>Control protocol: http://tools.ietf.org/html/draft-ietf-rtcweb-data-protocol-03 FIXME handle
* closing of data channels(SCTP stream reset)
*
* @author Pawel Domas
* @author Lyubomir Marinov
* @author Boris Grozev
*/
public class SctpConnection extends Channel
implements SctpDataCallback, SctpSocket.NotificationListener {
/** Generator used to track debug IDs. */
private static int debugIdGen = -1;
/** DTLS transport buffer size. Note: randomly chosen. */
private static final int DTLS_BUFFER_SIZE = 2048;
/** Switch used for debugging SCTP traffic purposes. FIXME to be removed */
private static final boolean LOG_SCTP_PACKETS = false;
/** The logger */
private static final Logger logger = Logger.getLogger(SctpConnection.class);
/**
* Message type used to acknowledge WebRTC data channel allocation on SCTP stream ID on which
* <tt>MSG_OPEN_CHANNEL</tt> message arrives.
*/
private static final int MSG_CHANNEL_ACK = 0x2;
private static final byte[] MSG_CHANNEL_ACK_BYTES = new byte[] {MSG_CHANNEL_ACK};
/**
* Message with this type sent over control PPID in order to open new WebRTC data channel on SCTP
* stream ID that this message is sent.
*/
private static final int MSG_OPEN_CHANNEL = 0x3;
/** SCTP transport buffer size. */
private static final int SCTP_BUFFER_SIZE = DTLS_BUFFER_SIZE - 13;
/** The pool of <tt>Thread</tt>s which run <tt>SctpConnection</tt>s. */
private static final ExecutorService threadPool =
ExecutorUtils.newCachedThreadPool(true, SctpConnection.class.getName());
/** Payload protocol id that identifies binary data in WebRTC data channel. */
static final int WEB_RTC_PPID_BIN = 53;
/** Payload protocol id for control data. Used for <tt>WebRtcDataStream</tt> allocation. */
static final int WEB_RTC_PPID_CTRL = 50;
/** Payload protocol id that identifies text data UTF8 encoded in WebRTC data channels. */
static final int WEB_RTC_PPID_STRING = 51;
/**
* The <tt>String</tt> value of the <tt>Protocol</tt> field of the <tt>DATA_CHANNEL_OPEN</tt>
* message.
*/
private static final String WEBRTC_DATA_CHANNEL_PROTOCOL = "http://jitsi.org/protocols/colibri";
private static synchronized int generateDebugId() {
debugIdGen += 2;
return debugIdGen;
}
/**
* Indicates whether the STCP association is ready and has not been ended by a subsequent state
* change.
*/
private boolean assocIsUp;
/** Indicates if we have accepted incoming connection. */
private boolean acceptedIncomingConnection;
/** Data channels mapped by SCTP stream identified(sid). */
private final Map<Integer, WebRtcDataStream> channels = new HashMap<Integer, WebRtcDataStream>();
/** Debug ID used to distinguish SCTP sockets in packet logs. */
private final int debugId;
/**
* The <tt>AsyncExecutor</tt> which is to asynchronously dispatch the events fired by this
* instance in order to prevent possible listeners from blocking this <tt>SctpConnection</tt> in
* general and {@link #sctpSocket} in particular for too long. The timeout of <tt>15</tt> is
* chosen to be in accord with the time it takes to expire a <tt>Channel</tt>.
*/
private final AsyncExecutor<Runnable> eventDispatcher =
new AsyncExecutor<Runnable>(15, TimeUnit.MILLISECONDS);
/** Datagram socket for ICE/UDP layer. */
private IceSocketWrapper iceSocket;
/**
* List of <tt>WebRtcDataStreamListener</tt>s that will be notified whenever new WebRTC data
* channel is opened.
*/
private final List<WebRtcDataStreamListener> listeners =
new ArrayList<WebRtcDataStreamListener>();
/** Remote SCTP port. */
private final int remoteSctpPort;
/** <tt>SctpSocket</tt> used for SCTP transport. */
private SctpSocket sctpSocket;
/**
* Flag prevents from starting this connection multiple times from {@link #maybeStartStream()}.
*/
private boolean started;
/**
* Initializes a new <tt>SctpConnection</tt> instance.
*
* @param id the string identifier of this connection instance
* @param content the <tt>Content</tt> which is initializing the new instance
* @param endpoint the <tt>Endpoint</tt> of newly created instance
* @param remoteSctpPort the SCTP port used by remote peer
* @param channelBundleId the ID of the channel-bundle this <tt>SctpConnection</tt> is to be a
* part of (or <tt>null</tt> if no it is not to be a part of a channel-bundle).
* @throws Exception if an error occurs while initializing the new instance
*/
public SctpConnection(
String id, Content content, Endpoint endpoint, int remoteSctpPort, String channelBundleId)
throws Exception {
super(content, id, channelBundleId);
setEndpoint(endpoint.getID());
this.remoteSctpPort = remoteSctpPort;
this.debugId = generateDebugId();
}
/**
* Adds <tt>WebRtcDataStreamListener</tt> to the list of listeners.
*
* @param listener the <tt>WebRtcDataStreamListener</tt> to be added to the listeners list.
*/
public void addChannelListener(WebRtcDataStreamListener listener) {
if (listener == null) {
throw new NullPointerException("listener");
} else {
synchronized (listeners) {
if (!listeners.contains(listener)) {
listeners.add(listener);
}
}
}
}
/** {@inheritDoc} */
@Override
protected void closeStream() throws IOException {
try {
synchronized (this) {
assocIsUp = false;
acceptedIncomingConnection = false;
if (sctpSocket != null) {
sctpSocket.close();
sctpSocket = null;
}
}
} finally {
if (iceSocket != null) {
// It is now the responsibility of the transport manager to
// close the socket.
// iceUdpSocket.close();
}
}
}
/** {@inheritDoc} */
@Override
public void expire() {
try {
eventDispatcher.shutdown();
} finally {
super.expire();
}
}
/**
* Gets the <tt>WebRtcDataStreamListener</tt>s added to this instance.
*
* @return the <tt>WebRtcDataStreamListener</tt>s added to this instance or <tt>null</tt> if there
* are no <tt>WebRtcDataStreamListener</tt>s added to this instance
*/
private WebRtcDataStreamListener[] getChannelListeners() {
WebRtcDataStreamListener[] ls;
synchronized (listeners) {
if (listeners.isEmpty()) {
ls = null;
} else {
ls = listeners.toArray(new WebRtcDataStreamListener[listeners.size()]);
}
}
return ls;
}
/**
* Returns default <tt>WebRtcDataStream</tt> if it's ready or <tt>null</tt> otherwise.
*
* @return <tt>WebRtcDataStream</tt> if it's ready or <tt>null</tt> otherwise.
* @throws IOException
*/
public WebRtcDataStream getDefaultDataStream() throws IOException {
WebRtcDataStream def;
synchronized (this) {
if (sctpSocket == null) {
def = null;
} else {
// Channel that runs on sid 0
def = channels.get(0);
if (def == null) {
def = openChannel(0, 0, 0, 0, "default");
}
// Pawel Domas: Must be acknowledged before use
/*
* XXX Lyubomir Marinov: We're always sending ordered. According
* to "WebRTC Data Channel Establishment Protocol", we can start
* sending messages containing user data after the
* DATA_CHANNEL_OPEN message has been sent without waiting for
* the reception of the corresponding DATA_CHANNEL_ACK message.
*/
// if (!def.isAcknowledged())
// def = null;
}
}
return def;
}
/**
* Returns <tt>true</tt> if this <tt>SctpConnection</tt> is connected to the remote peer and
* operational.
*
* @return <tt>true</tt> if this <tt>SctpConnection</tt> is connected to the remote peer and
* operational
*/
public boolean isReady() {
return assocIsUp && acceptedIncomingConnection;
}
/** {@inheritDoc} */
@Override
protected void maybeStartStream() throws IOException {
// connector
final StreamConnector connector = getStreamConnector();
if (connector == null) return;
synchronized (this) {
if (started) return;
threadPool.execute(
new Runnable() {
@Override
public void run() {
try {
Sctp.init();
runOnDtlsTransport(connector);
} catch (IOException e) {
logger.error(e, e);
} finally {
try {
Sctp.finish();
} catch (IOException e) {
logger.error("Failed to shutdown SCTP stack", e);
}
}
}
});
started = true;
}
}
/**
* Submits {@link #notifyChannelOpenedInEventDispatcher(WebRtcDataStream)} to {@link
* #eventDispatcher} for asynchronous execution.
*
* @param dataChannel
*/
private void notifyChannelOpened(final WebRtcDataStream dataChannel) {
if (!isExpired()) {
eventDispatcher.execute(
new Runnable() {
@Override
public void run() {
notifyChannelOpenedInEventDispatcher(dataChannel);
}
});
}
}
private void notifyChannelOpenedInEventDispatcher(WebRtcDataStream dataChannel) {
/*
* When executing asynchronously in eventDispatcher, it is technically
* possible that this SctpConnection may have expired by now.
*/
if (!isExpired()) {
WebRtcDataStreamListener[] ls = getChannelListeners();
if (ls != null) {
for (WebRtcDataStreamListener l : ls) {
l.onChannelOpened(this, dataChannel);
}
}
}
}
/**
* Submits {@link #notifySctpConnectionReadyInEventDispatcher()} to {@link #eventDispatcher} for
* asynchronous execution.
*/
private void notifySctpConnectionReady() {
if (!isExpired()) {
eventDispatcher.execute(
new Runnable() {
@Override
public void run() {
notifySctpConnectionReadyInEventDispatcher();
}
});
}
}
/**
* Notifies the <tt>WebRtcDataStreamListener</tt>s added to this instance that this
* <tt>SctpConnection</tt> is ready i.e. it is connected to the remote peer and operational.
*/
private void notifySctpConnectionReadyInEventDispatcher() {
/*
* When executing asynchronously in eventDispatcher, it is technically
* possible that this SctpConnection may have expired by now.
*/
if (!isExpired() && isReady()) {
WebRtcDataStreamListener[] ls = getChannelListeners();
if (ls != null) {
for (WebRtcDataStreamListener l : ls) {
l.onSctpConnectionReady(this);
}
}
}
}
/**
* Handles control packet.
*
* @param data raw packet data that arrived on control PPID.
* @param sid SCTP stream id on which the data has arrived.
*/
private synchronized void onCtrlPacket(byte[] data, int sid) throws IOException {
ByteBuffer buffer = ByteBuffer.wrap(data);
int messageType = /* 1 byte unsigned integer */ 0xFF & buffer.get();
if (messageType == MSG_CHANNEL_ACK) {
if (logger.isDebugEnabled()) {
logger.debug(getEndpoint().getID() + " ACK received SID: " + sid);
}
// Open channel ACK
WebRtcDataStream channel = channels.get(sid);
if (channel != null) {
// Ack check prevents from firing multiple notifications
// if we get more than one ACKs (by mistake/bug).
if (!channel.isAcknowledged()) {
channel.ackReceived();
notifyChannelOpened(channel);
} else {
logger.warn("Redundant ACK received for SID: " + sid);
}
} else {
logger.error("No channel exists on sid: " + sid);
}
} else if (messageType == MSG_OPEN_CHANNEL) {
int channelType = /* 1 byte unsigned integer */ 0xFF & buffer.get();
int priority = /* 2 bytes unsigned integer */ 0xFFFF & buffer.getShort();
long reliability = /* 4 bytes unsigned integer */ 0xFFFFFFFFL & buffer.getInt();
int labelLength = /* 2 bytes unsigned integer */ 0xFFFF & buffer.getShort();
int protocolLength = /* 2 bytes unsigned integer */ 0xFFFF & buffer.getShort();
String label;
String protocol;
if (labelLength == 0) {
label = "";
} else {
byte[] labelBytes = new byte[labelLength];
buffer.get(labelBytes);
label = new String(labelBytes, "UTF-8");
}
if (protocolLength == 0) {
protocol = "";
} else {
byte[] protocolBytes = new byte[protocolLength];
buffer.get(protocolBytes);
protocol = new String(protocolBytes, "UTF-8");
}
if (logger.isDebugEnabled()) {
logger.debug(
"!!! "
+ getEndpoint().getID()
+ " data channel open request on SID: "
+ sid
+ " type: "
+ channelType
+ " prio: "
+ priority
+ " reliab: "
+ reliability
+ " label: "
+ label
+ " proto: "
+ protocol);
}
if (channels.containsKey(sid)) {
logger.error("Channel on sid: " + sid + " already exists");
}
WebRtcDataStream newChannel = new WebRtcDataStream(sctpSocket, sid, label, true);
channels.put(sid, newChannel);
sendOpenChannelAck(sid);
notifyChannelOpened(newChannel);
} else {
logger.error("Unexpected ctrl msg type: " + messageType);
}
}
/** {@inheritDoc} */
@Override
protected void onEndpointChanged(Endpoint oldValue, Endpoint newValue) {
if (oldValue != null) oldValue.setSctpConnection(null);
if (newValue != null) newValue.setSctpConnection(this);
}
/** Implements notification in order to track socket state. */
@Override
public synchronized void onSctpNotification(SctpSocket socket, SctpNotification notification) {
if (logger.isDebugEnabled()) {
logger.debug("socket=" + socket + "; notification=" + notification);
}
switch (notification.sn_type) {
case SctpNotification.SCTP_ASSOC_CHANGE:
SctpNotification.AssociationChange assocChange =
(SctpNotification.AssociationChange) notification;
switch (assocChange.state) {
case SctpNotification.AssociationChange.SCTP_COMM_UP:
if (!assocIsUp) {
boolean wasReady = isReady();
assocIsUp = true;
if (isReady() && !wasReady) notifySctpConnectionReady();
}
break;
case SctpNotification.AssociationChange.SCTP_COMM_LOST:
case SctpNotification.AssociationChange.SCTP_SHUTDOWN_COMP:
case SctpNotification.AssociationChange.SCTP_CANT_STR_ASSOC:
try {
closeStream();
} catch (IOException e) {
logger.error("Error closing SCTP socket", e);
}
break;
}
break;
}
}
/**
* {@inheritDoc}
*
* <p>SCTP input data callback.
*/
@Override
public void onSctpPacket(
byte[] data, int sid, int ssn, int tsn, long ppid, int context, int flags) {
if (ppid == WEB_RTC_PPID_CTRL) {
// Channel control PPID
try {
onCtrlPacket(data, sid);
} catch (IOException e) {
logger.error("IOException when processing ctrl packet", e);
}
} else if (ppid == WEB_RTC_PPID_STRING || ppid == WEB_RTC_PPID_BIN) {
WebRtcDataStream channel;
synchronized (this) {
channel = channels.get(sid);
}
if (channel == null) {
logger.error("No channel found for sid: " + sid);
return;
}
if (ppid == WEB_RTC_PPID_STRING) {
// WebRTC String
String str;
String charsetName = "UTF-8";
try {
str = new String(data, charsetName);
} catch (UnsupportedEncodingException uee) {
logger.error("Unsupported charset encoding/name " + charsetName, uee);
str = null;
}
channel.onStringMsg(str);
} else {
// WebRTC Binary
channel.onBinaryMsg(data);
}
} else {
logger.warn("Got message on unsupported PPID: " + ppid);
}
}
/**
* Opens new WebRTC data channel using specified parameters.
*
* @param type channel type as defined in control protocol description. Use 0 for "reliable".
* @param prio channel priority. The higher the number, the lower the priority.
* @param reliab Reliability Parameter<br>
* This field is ignored if a reliable channel is used. If a partial reliable channel with
* limited number of retransmissions is used, this field specifies the number of
* retransmissions. If a partial reliable channel with limited lifetime is used, this field
* specifies the maximum lifetime in milliseconds. The following table summarizes this:<br>
* </br>
* <p>+------------------------------------------------+------------------+ | Channel Type |
* Reliability | | | Parameter |
* +------------------------------------------------+------------------+ |
* DATA_CHANNEL_RELIABLE | Ignored | | DATA_CHANNEL_RELIABLE_UNORDERED | Ignored | |
* DATA_CHANNEL_PARTIAL_RELIABLE_REXMIT | Number of RTX | |
* DATA_CHANNEL_PARTIAL_RELIABLE_REXMIT_UNORDERED | Number of RTX | |
* DATA_CHANNEL_PARTIAL_RELIABLE_TIMED | Lifetime in ms | |
* DATA_CHANNEL_PARTIAL_RELIABLE_TIMED_UNORDERED | Lifetime in ms |
* +------------------------------------------------+------------------+
* @param sid SCTP stream id that will be used by new channel (it must not be already used).
* @param label text label for the channel.
* @return new instance of <tt>WebRtcDataStream</tt> that represents opened WebRTC data channel.
* @throws IOException if IO error occurs.
*/
public synchronized WebRtcDataStream openChannel(
int type, int prio, long reliab, int sid, String label) throws IOException {
if (channels.containsKey(sid)) {
throw new IOException("Channel on sid: " + sid + " already exists");
}
// Label Length & Label
byte[] labelBytes;
int labelByteLength;
if (label == null) {
labelBytes = null;
labelByteLength = 0;
} else {
labelBytes = label.getBytes("UTF-8");
labelByteLength = labelBytes.length;
if (labelByteLength > 0xFFFF) labelByteLength = 0xFFFF;
}
// Protocol Length & Protocol
String protocol = WEBRTC_DATA_CHANNEL_PROTOCOL;
byte[] protocolBytes;
int protocolByteLength;
if (protocol == null) {
protocolBytes = null;
protocolByteLength = 0;
} else {
protocolBytes = protocol.getBytes("UTF-8");
protocolByteLength = protocolBytes.length;
if (protocolByteLength > 0xFFFF) protocolByteLength = 0xFFFF;
}
ByteBuffer packet = ByteBuffer.allocate(12 + labelByteLength + protocolByteLength);
// Message open new channel on current sid
// Message Type
packet.put((byte) MSG_OPEN_CHANNEL);
// Channel Type
packet.put((byte) type);
// Priority
packet.putShort((short) prio);
// Reliability Parameter
packet.putInt((int) reliab);
// Label Length
packet.putShort((short) labelByteLength);
// Protocol Length
packet.putShort((short) protocolByteLength);
// Label
if (labelByteLength != 0) {
packet.put(labelBytes, 0, labelByteLength);
}
// Protocol
if (protocolByteLength != 0) {
packet.put(protocolBytes, 0, protocolByteLength);
}
int sentCount = sctpSocket.send(packet.array(), true, sid, WEB_RTC_PPID_CTRL);
if (sentCount != packet.capacity()) {
throw new IOException("Failed to open new chanel on sid: " + sid);
}
WebRtcDataStream channel = new WebRtcDataStream(sctpSocket, sid, label, false);
channels.put(sid, channel);
return channel;
}
/**
* Removes <tt>WebRtcDataStreamListener</tt> from the list of listeners.
*
* @param listener the <tt>WebRtcDataStreamListener</tt> to be removed from the listeners list.
*/
public void removeChannelListener(WebRtcDataStreamListener listener) {
if (listener != null) {
synchronized (listeners) {
listeners.remove(listener);
}
}
}
private void runOnDtlsTransport(StreamConnector connector) throws IOException {
DtlsControlImpl dtlsControl = (DtlsControlImpl) getTransportManager().getDtlsControl(this);
DtlsTransformEngine engine = dtlsControl.getTransformEngine();
final DtlsPacketTransformer transformer = (DtlsPacketTransformer) engine.getRTPTransformer();
byte[] receiveBuffer = new byte[SCTP_BUFFER_SIZE];
if (LOG_SCTP_PACKETS) {
System.setProperty(
ConfigurationService.PNAME_SC_HOME_DIR_LOCATION, System.getProperty("java.io.tmpdir"));
System.setProperty(
ConfigurationService.PNAME_SC_HOME_DIR_NAME, SctpConnection.class.getName());
}
synchronized (this) {
// FIXME local SCTP port is hardcoded in bridge offer SDP (Jitsi
// Meet)
sctpSocket = Sctp.createSocket(5000);
assocIsUp = false;
acceptedIncomingConnection = false;
}
// Implement output network link for SCTP stack on DTLS transport
sctpSocket.setLink(
new NetworkLink() {
@Override
public void onConnOut(SctpSocket s, byte[] packet) throws IOException {
if (LOG_SCTP_PACKETS) {
LibJitsi.getPacketLoggingService()
.logPacket(
PacketLoggingService.ProtocolName.ICE4J,
new byte[] {0, 0, 0, (byte) debugId},
5000,
new byte[] {0, 0, 0, (byte) (debugId + 1)},
remoteSctpPort,
PacketLoggingService.TransportName.UDP,
true,
packet);
}
// Send through DTLS transport
transformer.sendApplicationData(packet, 0, packet.length);
}
});
if (logger.isDebugEnabled()) {
logger.debug("Connecting SCTP to port: " + remoteSctpPort + " to " + getEndpoint().getID());
}
sctpSocket.setNotificationListener(this);
sctpSocket.listen();
// FIXME manage threads
threadPool.execute(
new Runnable() {
@Override
public void run() {
SctpSocket sctpSocket = null;
try {
// sctpSocket is set to null on close
sctpSocket = SctpConnection.this.sctpSocket;
while (sctpSocket != null) {
if (sctpSocket.accept()) {
acceptedIncomingConnection = true;
break;
}
Thread.sleep(100);
sctpSocket = SctpConnection.this.sctpSocket;
}
if (isReady()) {
notifySctpConnectionReady();
}
} catch (Exception e) {
logger.error("Error accepting SCTP connection", e);
}
if (sctpSocket == null && logger.isInfoEnabled()) {
logger.info(
"SctpConnection " + getID() + " closed" + " before SctpSocket accept()-ed.");
}
}
});
// Notify that from now on SCTP connection is considered functional
sctpSocket.setDataCallback(this);
// Setup iceSocket
DatagramSocket datagramSocket = connector.getDataSocket();
if (datagramSocket != null) {
this.iceSocket = new IceUdpSocketWrapper(datagramSocket);
} else {
this.iceSocket = new IceTcpSocketWrapper(connector.getDataTCPSocket());
}
DatagramPacket rcvPacket = new DatagramPacket(receiveBuffer, 0, receiveBuffer.length);
// Receive loop, breaks when SCTP socket is closed
try {
do {
iceSocket.receive(rcvPacket);
RawPacket raw =
new RawPacket(rcvPacket.getData(), rcvPacket.getOffset(), rcvPacket.getLength());
raw = transformer.reverseTransform(raw);
// Check for app data
if (raw == null) continue;
if (LOG_SCTP_PACKETS) {
LibJitsi.getPacketLoggingService()
.logPacket(
PacketLoggingService.ProtocolName.ICE4J,
new byte[] {0, 0, 0, (byte) (debugId + 1)},
remoteSctpPort,
new byte[] {0, 0, 0, (byte) debugId},
5000,
PacketLoggingService.TransportName.UDP,
false,
raw.getBuffer(),
raw.getOffset(),
raw.getLength());
}
// Pass network packet to SCTP stack
sctpSocket.onConnIn(raw.getBuffer(), raw.getOffset(), raw.getLength());
} while (true);
} finally {
// Eventually, close the socket although it should happen from
// expire().
synchronized (this) {
assocIsUp = false;
acceptedIncomingConnection = false;
if (sctpSocket != null) {
sctpSocket.close();
sctpSocket = null;
}
}
}
}
/**
* Sends acknowledgment for open channel request on given SCTP stream ID.
*
* @param sid SCTP stream identifier to be used for sending ack.
*/
private void sendOpenChannelAck(int sid) throws IOException {
// Send ACK
byte[] ack = MSG_CHANNEL_ACK_BYTES;
int sendAck = sctpSocket.send(ack, true, sid, WEB_RTC_PPID_CTRL);
if (sendAck != ack.length) {
logger.error("Failed to send open channel confirmation");
}
}
/**
* {@inheritDoc}
*
* <p>Creates a <tt>TransportManager</tt> instance suitable for an <tt>SctpConnection</tt> (e.g.
* with 1 component only).
*/
protected TransportManager createTransportManager(String xmlNamespace) throws IOException {
if (IceUdpTransportPacketExtension.NAMESPACE.equals(xmlNamespace)) {
Content content = getContent();
return new IceUdpTransportManager(
content.getConference(), isInitiator(), 1 /* num components */, content.getName());
} else if (RawUdpTransportPacketExtension.NAMESPACE.equals(xmlNamespace)) {
// TODO: support RawUdp once RawUdpTransportManager is updated
// return new RawUdpTransportManager(this);
throw new IllegalArgumentException("Unsupported Jingle transport " + xmlNamespace);
} else {
throw new IllegalArgumentException("Unsupported Jingle transport " + xmlNamespace);
}
}
}
public class CodingTest extends TestCase {
private static final Logger LOG = Logger.getLogger(CodingTest.class.getName());
/**
* Constructor for this unit test.
*
* @param testName the name of the unit test
*/
public CodingTest(String testName) {
super(testName);
}
/**
* Allows unit tests to be run together in a suite.
*
* @return a test suite that contains a single test - this one
*/
public static Test suite() {
return new TestSuite(CodingTest.class);
}
/**
* Allows test to be run stand-alone from the command-line.
*
* <p>java -Djava.library.path=/opt/honeycomb/lib -classpath
* test/lib/junit-3.8.1.jar:test/classes:classes com.sun.honeycomb.coding.CodingTest
*/
public static void main(String args[]) {
junit.textui.TestRunner.run(suite());
}
public void setUp() {}
public void tearDown() {}
public void testByteBufferCoder() {
Persistent3 three =
new Persistent3(
10,
(float) 4.444,
555555555555L,
true,
"this is the fourth persistent string",
new Date(),
new byte[] {10, 20, 30, 40, 50, 60, 70, 80, 90, 100},
null);
Persistent2 two =
new Persistent2(
1,
(float) 2.222,
333333333333L,
false,
"this is the first persistent string",
new Date(),
new byte[] {1, 2, 3, 4, 5, 6, 7, 8, 9, 10},
three,
4,
"this is the second persistent string",
(ByteBuffer) ByteBuffer.allocateDirect(17).putInt(1234).rewind());
Persistent1 one =
new Persistent1(
2,
(float) 3.333,
4444444444444L,
true,
"this is the third persistent string",
new Date(),
new byte[] {10, 9, 8, 7, 6, 5, 4, 3, 2, 1},
two);
ByteBuffer buffer = ByteBuffer.allocateDirect(8 * 1024);
ByteBufferCoder encoder = new ByteBufferCoder(buffer, true);
encoder.encodeCodable(one);
buffer.rewind();
ByteBufferCoder decoder = new ByteBufferCoder(buffer, true, new Delegate());
Persistent1 anotherOne = (Persistent1) decoder.decodeCodable();
if (!one.equals(anotherOne)) {
fail("unarchived object with type checking does not equal archived one");
}
buffer.clear();
encoder = new ByteBufferCoder(buffer, false);
encoder.encodeCodable(one);
buffer.rewind();
decoder = new ByteBufferCoder(buffer, false, new Delegate());
anotherOne = (Persistent1) decoder.decodeCodable();
if (!one.equals(anotherOne)) {
fail("unarchived object without type checking does not equal archived one");
}
}
public static class Persistent1 implements Codable, Serializable {
private int int1;
private float float1;
private long long1;
private boolean boolean1;
private String string1;
private Date date1;
private byte[] bytes1;
private Codable codable1;
public Persistent1() {}
public Persistent1(
int newInt,
float newFloat,
long newLong,
boolean newBoolean,
String newString,
Date newDate,
byte[] newBytes,
Codable newCodable) {
int1 = newInt;
float1 = newFloat;
long1 = newLong;
boolean1 = newBoolean;
string1 = newString;
date1 = newDate;
bytes1 = newBytes;
codable1 = newCodable;
}
public void encode(Encoder encoder) {
encoder.encodeInt(int1);
encoder.encodeFloat(float1);
encoder.encodeLong(long1);
encoder.encodeBoolean(boolean1);
encoder.encodeString(string1);
encoder.encodeDate(date1);
encoder.encodeBytes(bytes1);
encoder.encodeCodable(codable1);
}
public void decode(Decoder decoder) {
int1 = decoder.decodeInt();
float1 = decoder.decodeFloat();
long1 = decoder.decodeLong();
boolean1 = decoder.decodeBoolean();
string1 = decoder.decodeString();
date1 = decoder.decodeDate();
bytes1 = decoder.decodeBytes();
codable1 = decoder.decodeCodable();
}
public boolean equals(Object other) {
Persistent1 otherPersistent1 = (Persistent1) other;
if (int1 != otherPersistent1.int1) {
System.out.println("int1 failed");
return false;
}
if (float1 != otherPersistent1.float1) {
System.out.println("float1 failed");
return false;
}
if (long1 != otherPersistent1.long1) {
System.out.println("long1 failed");
return false;
}
if (boolean1 != otherPersistent1.boolean1) {
System.out.println("boolean1 failed");
return false;
}
if (string1 != otherPersistent1.string1
&& (string1 != null
&& !string1.equals(otherPersistent1.string1)
&& otherPersistent1.string1 != null)) {
System.out.println("string1 failed");
return false;
}
if (date1 != otherPersistent1.date1
&& (date1 != null
&& !date1.equals(otherPersistent1.date1)
&& otherPersistent1.date1 != null)) {
System.out.println("date1 failed");
return false;
}
if (bytes1 != otherPersistent1.bytes1
&& (bytes1 != null
&& !Arrays.equals(bytes1, otherPersistent1.bytes1)
&& otherPersistent1.bytes1 != null)) {
System.out.println("bytes1 failed");
return false;
}
if (codable1 != otherPersistent1.codable1
&& (codable1 != null
&& !codable1.equals(otherPersistent1.codable1)
&& otherPersistent1.codable1 != null)) {
System.out.println("codable1 failed");
return false;
}
return true;
}
}
private static class Persistent2 extends Persistent1 {
private int int2;
private String string2;
private ByteBuffer buffer2;
public Persistent2() {}
public Persistent2(
int newInt,
float newFloat,
long newLong,
boolean newBoolean,
String newString,
Date newDate,
byte[] newBytes,
Codable newCodable,
int newInt2,
String newString2,
ByteBuffer newBuffer2) {
super(newInt, newFloat, newLong, newBoolean, newString, newDate, newBytes, newCodable);
int2 = newInt2;
string2 = newString2;
buffer2 = newBuffer2;
}
public void encode(Encoder encoder) {
super.encode(encoder);
encoder.encodeInt(int2);
encoder.encodeString(string2);
encoder.encodeInt(buffer2.remaining());
encoder.encodeKnownLengthBuffer(buffer2);
}
public void decode(Decoder decoder) {
super.decode(decoder);
int2 = decoder.decodeInt();
string2 = decoder.decodeString();
int length = decoder.decodeInt();
buffer2 = decoder.decodeKnownLengthBuffer(length, true);
}
public boolean equals(Object other) {
if (!super.equals(other)) {
return false;
}
Persistent2 otherPersistent2 = (Persistent2) other;
if (int2 != otherPersistent2.int2) {
System.out.println("int2 failed");
return false;
}
if (string2 != otherPersistent2.string2
&& (string2 != null
&& !string2.equals(otherPersistent2.string2)
&& otherPersistent2.string2 != null)) {
System.out.println("string2 failed");
return false;
}
if (buffer2 != otherPersistent2.buffer2
&& (buffer2 != null
&& !buffer2.equals(otherPersistent2.buffer2)
&& otherPersistent2.buffer2 != null)) {
System.out.println("buffer2 failed");
return false;
}
return true;
}
}
static class Persistent3 extends Persistent1 {
Persistent3() {}
Persistent3(
int newInt,
float newFloat,
long newLong,
boolean newBoolean,
String newString,
Date newDate,
byte[] newBytes,
Codable newCodable) {
super(newInt, newFloat, newLong, newBoolean, newString, newDate, newBytes, newCodable);
}
}
static class Delegate implements Decoder.Delegate {
public Codable newInstance(String className)
throws ClassNotFoundException, IllegalAccessException, InstantiationException {
return (Codable) Class.forName(className).newInstance();
}
}
}
/**
* A reactor that selects on some stuff and then notifies some Communicators that things happened
*/
public class Overlord {
private Selector selector;
private Pipe pipe;
private static final Logger log = Logger.getLogger("Overlord");
private ConcurrentLinkedQueue<Communicator> queue;
// This is just used to read the one byte off of pipes informing us that
// there is data on some queue.
ByteBuffer ignored = ByteBuffer.allocate(10);
public Overlord() {
try {
selector = Selector.open();
queue = new ConcurrentLinkedQueue<Communicator>();
// open the pipe and register it with our selector
pipe = Pipe.open();
pipe.sink().configureBlocking(false);
pipe.source().configureBlocking(false);
pipe.source().register(selector, SelectionKey.OP_READ);
} catch (IOException e) {
throw new RuntimeException("select() failed");
}
}
/** Selects on sockets and informs their Communicator when there is something to do. */
public void communicate(int timeout) {
try {
selector.select(timeout);
} catch (IOException e) {
// Not really sure why/when this happens yet
return;
}
Iterator<SelectionKey> keys = selector.selectedKeys().iterator();
while (keys.hasNext()) {
SelectionKey key = keys.next();
keys.remove();
if (!key.isValid()) continue; // WHY
Communicator communicator = (Communicator) key.attachment();
if (key.isReadable()) communicator.onReadable();
if (key.isWritable()) communicator.onWritable();
if (key.isAcceptable()) communicator.onAcceptable();
}
// Go through the queue and handle each communicator
while (!queue.isEmpty()) {
Communicator c = queue.poll();
c.onMemo();
}
}
public void offer(Communicator c) {
queue.offer(c);
}
/** Registers a SelectableChannel */
public boolean register(SelectableChannel sc, Communicator communicator) {
try {
sc.register(selector, sc.validOps(), communicator);
return true;
} catch (Exception e) {
return false;
}
}
/** If the selector is waiting, wake it up */
public void interrupt() {
selector.wakeup();
}
/** Registers a SelectableQueue */
public boolean register(SelectableQueue sq, Communicator communicator) {
try {
// Register the new pipe with the queue. It will write a byte to this
// pipe when the queue is hot, and it will offer its communicator to our
// queue.
sq.register(this, communicator);
return true;
} catch (Exception e) {
e.printStackTrace();
return false;
}
}
}
/**
* Handles control packet.
*
* @param data raw packet data that arrived on control PPID.
* @param sid SCTP stream id on which the data has arrived.
*/
private synchronized void onCtrlPacket(byte[] data, int sid) throws IOException {
ByteBuffer buffer = ByteBuffer.wrap(data);
int messageType = /* 1 byte unsigned integer */ 0xFF & buffer.get();
if (messageType == MSG_CHANNEL_ACK) {
if (logger.isDebugEnabled()) {
logger.debug(getEndpoint().getID() + " ACK received SID: " + sid);
}
// Open channel ACK
WebRtcDataStream channel = channels.get(sid);
if (channel != null) {
// Ack check prevents from firing multiple notifications
// if we get more than one ACKs (by mistake/bug).
if (!channel.isAcknowledged()) {
channel.ackReceived();
notifyChannelOpened(channel);
} else {
logger.warn("Redundant ACK received for SID: " + sid);
}
} else {
logger.error("No channel exists on sid: " + sid);
}
} else if (messageType == MSG_OPEN_CHANNEL) {
int channelType = /* 1 byte unsigned integer */ 0xFF & buffer.get();
int priority = /* 2 bytes unsigned integer */ 0xFFFF & buffer.getShort();
long reliability = /* 4 bytes unsigned integer */ 0xFFFFFFFFL & buffer.getInt();
int labelLength = /* 2 bytes unsigned integer */ 0xFFFF & buffer.getShort();
int protocolLength = /* 2 bytes unsigned integer */ 0xFFFF & buffer.getShort();
String label;
String protocol;
if (labelLength == 0) {
label = "";
} else {
byte[] labelBytes = new byte[labelLength];
buffer.get(labelBytes);
label = new String(labelBytes, "UTF-8");
}
if (protocolLength == 0) {
protocol = "";
} else {
byte[] protocolBytes = new byte[protocolLength];
buffer.get(protocolBytes);
protocol = new String(protocolBytes, "UTF-8");
}
if (logger.isDebugEnabled()) {
logger.debug(
"!!! "
+ getEndpoint().getID()
+ " data channel open request on SID: "
+ sid
+ " type: "
+ channelType
+ " prio: "
+ priority
+ " reliab: "
+ reliability
+ " label: "
+ label
+ " proto: "
+ protocol);
}
if (channels.containsKey(sid)) {
logger.error("Channel on sid: " + sid + " already exists");
}
WebRtcDataStream newChannel = new WebRtcDataStream(sctpSocket, sid, label, true);
channels.put(sid, newChannel);
sendOpenChannelAck(sid);
notifyChannelOpened(newChannel);
} else {
logger.error("Unexpected ctrl msg type: " + messageType);
}
}
static {
m_logger = Logger.getLogger((Class) SearchTreasureOccupationStartMessage.class);
}
/** Initializes the controller class. */
@Override
public void initialize(URL url, ResourceBundle rb) {
logger.entry();
OkButton.disableProperty().bind(ObjectInstanceDesignator.textProperty().isEmpty());
logger.exit();
}
static {
m_logger = Logger.getLogger((Class) JOrbisStream.class);
m_bigEndian = (ByteOrder.nativeOrder() == ByteOrder.BIG_ENDIAN);
}
static {
AbstractDungeonLadder.m_logger = Logger.getLogger((Class) AbstractDungeonLadder.class);
}
static {
m_logger = Logger.getLogger((Class) Dummy.class);
}
@FXML
private void Cancel_click(ActionEvent event) {
logger.entry();
((Stage) OkButton.getScene().getWindow()).close();
logger.exit();
}
/**
* The class represents the recurring pattern structure of calendar item.
*
* @author Hristo Terezov
*/
public class RecurringPattern {
/**
* The <tt>Logger</tt> used by the <tt>RecurringPattern</tt> class and its instances for logging
* output.
*/
private static final Logger logger = Logger.getLogger(RecurringPattern.class);
/** Enum for the type of the pattern. */
public enum PatternType {
/** Daily recurrence. */
Day((short) 0x0000),
/** Weekly recurrence. */
Week((short) 0x0001),
/** Monthly recurrence. */
Month((short) 0x0002),
/** Monthly recurrence. */
MonthNth((short) 0x0003),
/** Monthly recurrence. */
MonthEnd((short) 0x004),
/** Monthly recurrence. */
HjMonth((short) 0x000A),
/** Monthly recurrence. */
HjMonthNth((short) 0x000B),
/** Monthly recurrence. */
HjMonthEnd((short) 0x000C);
/** The value of the type. */
private short value = 0;
/**
* Constructs new <tt>PatternType</tt> instance.
*
* @param value the value.
*/
PatternType(short value) {
this.value = value;
}
/**
* Returns the value of the <tt>PatternType</tt> instance.
*
* @return the value
*/
public short getValue() {
return value;
}
/**
* Finds the <tt>PatternType</tt> by given value.
*
* @param value the value
* @return the found <tt>PatternType</tt> instance or null if no type is found.
*/
public static PatternType getFromShort(short value) {
for (PatternType type : values()) {
if (type.getValue() == value) {
return type;
}
}
return null;
}
};
/** The value of recurFrequency field. */
private short recurFrequency;
/** The value of patternType field. */
private PatternType patternType;
/** The value of calendarType field. */
private short calendarType;
/** The value of firstDateTime field. */
private int firstDateTime;
/** The value of period field. */
private int period;
/** The value of slidingFlag field. */
private int slidingFlag;
/** The value of patternSpecific1 field. */
private int patternSpecific1;
/** The value of patternSpecific2 field. */
private int patternSpecific2;
/** The value of endType field. */
private int endType;
/** The value of occurenceCount field. */
private int occurenceCount;
/** The value of firstDow field. */
private int firstDow;
/** The value of deletedInstanceCount field. */
private int deletedInstanceCount;
/** The value of modifiedInstanceCount field. */
private int modifiedInstanceCount;
/** The value of startDate field. */
private int startDate;
/** The value of endDate field. */
private int endDate;
/** List with the start dates of deleted instances. */
private List<Date> deletedInstances = new ArrayList<Date>();
/** Array with the start dates of modified instances. */
private int[] modifiedInstances;
/** List of exception info structures included in the pattern. */
private List<ExceptionInfo> exceptionInfo;
/** The source calendar item of the recurrent series. */
private CalendarItemTimerTask sourceTask;
/** List of days of week when the calendar item occurred. */
private List<Integer> allowedDaysOfWeek = new LinkedList<Integer>();
/** The binary data of the pattern. */
private ByteBuffer dataBuffer;
/** Array with masks for days of week when the calendar item occurs. */
public static int[] weekOfDayMask = {
0x00000001, 0x00000002, 0x00000004, 0x00000008, 0x00000010, 0x00000020, 0x00000040
};
/**
* Parses the binary data that describes the recurrent pattern.
*
* @param data the binary data.
* @param sourceTask the calendar item.
*/
public RecurringPattern(byte[] data, CalendarItemTimerTask sourceTask) {
this.sourceTask = sourceTask;
dataBuffer = ByteBuffer.wrap(data).order(ByteOrder.LITTLE_ENDIAN);
int offset = 4;
recurFrequency = dataBuffer.getShort(offset);
offset += 2;
patternType = PatternType.getFromShort(dataBuffer.getShort(offset));
offset += 2;
calendarType = dataBuffer.getShort(offset);
offset += 2;
firstDateTime = dataBuffer.getInt(offset);
offset += 4;
period = dataBuffer.getInt(offset);
offset += 4;
slidingFlag = dataBuffer.getInt(offset);
offset += 4;
switch (patternType) {
case Week:
case Month:
case MonthEnd:
case HjMonth:
case HjMonthEnd:
patternSpecific1 = dataBuffer.getInt(offset);
patternSpecific2 = 0;
offset += 4;
if (patternType == PatternType.Week) {
for (int day = firstDow; day < firstDow + 7; day++) {
if ((patternSpecific1 & (weekOfDayMask[day % 7])) != 0) {
allowedDaysOfWeek.add((day % 7) + 1);
}
}
}
break;
case MonthNth:
case HjMonthNth:
patternSpecific1 = dataBuffer.getInt(offset);
patternSpecific2 = dataBuffer.getInt(offset + 4);
if (patternSpecific1 == 0x7f && patternSpecific2 != 0x5) {
patternType = PatternType.Month;
}
for (int day = 0; day < 7; day++) {
if ((patternSpecific1 & (weekOfDayMask[day])) != 0) {
allowedDaysOfWeek.add((day) + 1);
}
}
offset += 8;
break;
default:
break;
}
// endType
endType = dataBuffer.getInt(offset);
offset += 4;
occurenceCount = dataBuffer.getInt(offset);
offset += 4;
firstDow = dataBuffer.getInt(offset);
offset += 4;
deletedInstanceCount = dataBuffer.getInt(offset);
offset += 4;
// deleted instances
for (int i = 0; i < deletedInstanceCount; i++) {
deletedInstances.add(windowsTimeToDateObject(dataBuffer.getInt(offset)));
offset += 4;
}
modifiedInstanceCount = dataBuffer.getInt(offset);
offset += 4;
// modified instances
modifiedInstances = new int[modifiedInstanceCount];
for (int i = 0; i < modifiedInstanceCount; i++) {
modifiedInstances[i] = dataBuffer.getInt(offset);
offset += 4;
}
startDate = dataBuffer.getInt(offset);
offset += 4;
endDate = dataBuffer.getInt(offset);
offset += 4;
offset += 16;
short exceptionCount = dataBuffer.getShort(offset);
offset += 2;
exceptionInfo = new ArrayList<ExceptionInfo>(exceptionCount);
for (int i = 0; i < exceptionCount; i++) {
ExceptionInfo tmpExceptionInfo = new ExceptionInfo(offset);
exceptionInfo.add(tmpExceptionInfo);
offset += tmpExceptionInfo.sizeInBytes();
CalendarService.BusyStatusEnum status = tmpExceptionInfo.getBusyStatus();
Date startTime = tmpExceptionInfo.getStartDate();
Date endTime = tmpExceptionInfo.getEndDate();
if (status == CalendarService.BusyStatusEnum.FREE || startTime == null || endTime == null)
continue;
Date currentTime = new Date();
if (endTime.before(currentTime) || endTime.equals(currentTime)) return;
boolean executeNow = false;
if (startTime.before(currentTime) || startTime.equals(currentTime)) executeNow = true;
CalendarItemTimerTask task =
new CalendarItemTimerTask(
status, startTime, endTime, sourceTask.getId(), executeNow, this);
task.scheduleTasks();
}
}
/**
* Converts windows time in minutes from 1/1/1601 to <tt>Date</tt> object.
*
* @param time the number of minutes from 1/1/1601
* @return the <tt>Date</tt> object
*/
public static Date windowsTimeToDateObject(long time) {
// Date.parse("1/1/1601") == 11644473600000L
long date = time * 60000 - 11644473600000L;
date -= TimeZone.getDefault().getOffset(date);
return new Date(date);
}
/** Prints the properties of the class for debugging purpose. */
@Override
public String toString() {
String result = "";
result += "recurFrequency: " + String.format("%#02x", this.recurFrequency) + "\n";
result += "patternType: " + String.format("%#02x", this.patternType.getValue()) + "\n";
result += "calendarType: " + String.format("%#02x", this.calendarType) + "\n";
result += "endType: " + String.format("%#04x", this.endType) + "\n";
result += "period: " + this.period + "\n";
result += "occurenceCount: " + String.format("%#04x", this.occurenceCount) + "\n";
result += "patternSpecific1: " + String.format("%#04x", this.patternSpecific1) + "\n";
result += "patternSpecific2: " + String.format("%#04x", this.patternSpecific2) + "\n";
result += "startDate hex: " + String.format("%#04x", this.startDate) + "\n";
result += "endDate hex: " + String.format("%#04x", this.endDate) + "\n";
result +=
"startDate: "
+ new SimpleDateFormat("yyyy-MM-dd HH:mm:ss")
.format(windowsTimeToDateObject(this.startDate))
+ "\n";
result +=
"endDate: "
+ new SimpleDateFormat("yyyy-MM-dd HH:mm:ss")
.format(windowsTimeToDateObject(this.endDate))
+ "\n";
for (int i = 0; i < modifiedInstanceCount; i++) {
result +=
"modified Instance date hex: " + String.format("%#04x", this.modifiedInstances[i]) + "\n";
result +=
"modified Instance date: "
+ new SimpleDateFormat("yyyy-MM-dd HH:mm:ss z")
.format(windowsTimeToDateObject(this.modifiedInstances[i]))
+ "\n";
}
for (int i = 0; i < deletedInstanceCount; i++) {
result +=
"deleted Instance date: "
+ new SimpleDateFormat("yyyy-MM-dd HH:mm:ss z").format(deletedInstances.get(i))
+ "\n";
}
result += "patternSpecific2: " + String.format("%#04x", this.patternSpecific2) + "\n";
result += "\n\n =====================Exeptions====================\n\n";
for (ExceptionInfo info : exceptionInfo) {
result += info.toString() + "\n\n";
}
return result;
}
/**
* Checks whether the given date is in the recurrent pattern range or not
*
* @param date the date
* @return <tt>true</tt> if the date is in the pattern range.
*/
private boolean dateOutOfRange(Date date) {
Calendar cal = Calendar.getInstance();
cal.setTime(date);
cal.set(Calendar.HOUR_OF_DAY, 0);
cal.set(Calendar.MINUTE, 0);
cal.set(Calendar.SECOND, 0);
if ((endType != 0x00002023)
&& (endType != 0xFFFFFFFF)
&& cal.getTime().after(windowsTimeToDateObject(this.endDate))) {
return true; // the series are finished
}
return false;
}
/**
* Calculates and creates the next calendar item.
*
* @param previousStartDate the start date of the previous occurrence.
* @param previousEndDate the end date of the previous occurrence.
* @return the new calendar item or null if there are no more calendar items from that recurrent
* series.
*/
public CalendarItemTimerTask next(Date previousStartDate, Date previousEndDate) {
if (dateOutOfRange(new Date())) {
return null;
}
Date startDate = previousStartDate;
Date endDate = null;
boolean executeNow = false;
long duration = sourceTask.getEndDate().getTime() - sourceTask.getStartDate().getTime();
switch (patternType) {
case Day:
{
startDate = new Date(startDate.getTime() + period * 60000);
endDate = new Date(previousEndDate.getTime() + period * 60000);
Date currentDate = new Date();
if (endDate.before(currentDate)) {
long offset = currentDate.getTime() - endDate.getTime();
offset -= offset % (period * 60000);
if (endDate.getTime() + offset < currentDate.getTime()) {
offset += period * 60000;
}
startDate = new Date(startDate.getTime() + offset);
}
Calendar cal = Calendar.getInstance();
cal.setTime(startDate);
Calendar cal2 = (Calendar) cal.clone();
cal.set(Calendar.HOUR_OF_DAY, 0);
cal.set(Calendar.MINUTE, 0);
cal.set(Calendar.SECOND, 0);
cal.set(Calendar.MILLISECOND, 0);
while (deletedInstances.contains(cal.getTime())) {
cal.add(Calendar.MINUTE, period);
cal2.add(Calendar.MINUTE, period);
}
if (dateOutOfRange(cal.getTime())) {
return null;
}
startDate = cal2.getTime();
endDate = new Date(startDate.getTime() + duration);
if (startDate.before(currentDate)) {
executeNow = true;
}
return new CalendarItemTimerTask(
sourceTask.getStatus(), startDate, endDate, sourceTask.getId(), executeNow, this);
}
case Week:
{
Calendar cal = Calendar.getInstance();
/** The enum for the firstDow field is the same as Calendar day of week enum + 1 day */
cal.setFirstDayOfWeek(firstDow + 1);
cal.setTime(startDate);
int dayOfWeek = cal.get(Calendar.DAY_OF_WEEK);
int index = allowedDaysOfWeek.indexOf(dayOfWeek);
if (++index < allowedDaysOfWeek.size()) {
cal.set(Calendar.DAY_OF_WEEK, allowedDaysOfWeek.get(index));
startDate = cal.getTime();
endDate = new Date(startDate.getTime() + duration);
} else {
cal.set(Calendar.DAY_OF_WEEK, allowedDaysOfWeek.get(0));
cal.add(Calendar.WEEK_OF_YEAR, period);
startDate = cal.getTime();
endDate = new Date(startDate.getTime() + duration);
}
Date currentDate = new Date();
if (endDate.before(currentDate)) {
cal.set(Calendar.DAY_OF_WEEK, allowedDaysOfWeek.get(0));
endDate = new Date(cal.getTimeInMillis() + duration);
long offset = (currentDate.getTime() - endDate.getTime());
// 1 week = 604800000 is milliseconds
offset -= offset % (period * 604800000);
if (endDate.getTime() + offset < currentDate.getTime()) {
cal.add(Calendar.WEEK_OF_YEAR, (int) (offset / (period * 604800000)));
int i = 1;
while (((cal.getTimeInMillis() + duration) < (currentDate.getTime()))) {
if (i == allowedDaysOfWeek.size()) {
cal.add(Calendar.WEEK_OF_YEAR, period);
i = 0;
}
cal.set(Calendar.DAY_OF_WEEK, allowedDaysOfWeek.get(i));
i++;
}
startDate = cal.getTime();
} else {
startDate = new Date(cal.getTimeInMillis() + offset);
}
}
cal.setTime(startDate);
Calendar cal2 = (Calendar) cal.clone();
cal.set(Calendar.HOUR_OF_DAY, 0);
cal.set(Calendar.MINUTE, 0);
cal.set(Calendar.SECOND, 0);
cal.set(Calendar.MILLISECOND, 0);
dayOfWeek = cal.get(Calendar.DAY_OF_WEEK);
index = allowedDaysOfWeek.indexOf(dayOfWeek) + 1;
while (deletedInstances.contains(cal.getTime())) {
if (index >= allowedDaysOfWeek.size()) {
index = 0;
cal.add(Calendar.WEEK_OF_YEAR, period);
cal2.add(Calendar.WEEK_OF_YEAR, period);
}
cal.set(Calendar.DAY_OF_WEEK, allowedDaysOfWeek.get(index));
cal2.set(Calendar.DAY_OF_WEEK, allowedDaysOfWeek.get(index));
index++;
}
startDate = cal2.getTime();
endDate = new Date(startDate.getTime() + duration);
if (dateOutOfRange(endDate)) return null;
if (startDate.before(currentDate)) {
executeNow = true;
}
return new CalendarItemTimerTask(
sourceTask.getStatus(), startDate, endDate, sourceTask.getId(), executeNow, this);
}
case Month:
case MonthEnd:
case HjMonth:
case HjMonthEnd:
{
return nextMonth(startDate, endDate, false);
}
case MonthNth:
case HjMonthNth:
{
if (patternSpecific1 == 0x7f && patternSpecific2 == 0x05) {
return nextMonth(startDate, endDate, true);
}
return nextMonthN(startDate, endDate);
}
}
return null;
}
/**
* Finds the occurrence of the events in the next months
*
* @param cal the calendar object
* @param lastDay if <tt>true</tt> it will return the last day of the month
* @param period the number of months to add
* @return the calendar object with set date
*/
private Calendar incrementMonths(Calendar cal, boolean lastDay, int period) {
int dayOfMonth = patternSpecific1;
cal.set(Calendar.DAY_OF_MONTH, 1);
cal.add(Calendar.MONTH, period);
if (lastDay || (cal.getActualMaximum(Calendar.DAY_OF_MONTH) < dayOfMonth))
dayOfMonth = cal.getActualMaximum(Calendar.DAY_OF_MONTH);
cal.set(Calendar.DAY_OF_MONTH, dayOfMonth);
return cal;
}
/**
* Finds the next occurrence for monthly recurrence.
*
* @param startDate the start date of the previous calendar item.
* @param endDate the end date of the previous calendar item.
* @param lastDay if <tt>true</tt> we are interested in last day of the month
* @return the next item
*/
public CalendarItemTimerTask nextMonth(Date startDate, Date endDate, boolean lastDay) {
long duration = sourceTask.getEndDate().getTime() - sourceTask.getStartDate().getTime();
Calendar cal = Calendar.getInstance();
cal.setTime(startDate);
cal = incrementMonths(cal, lastDay, period);
Date currentDate = new Date();
if (cal.getTimeInMillis() + duration < currentDate.getTime()) {
Calendar cal2 = Calendar.getInstance();
cal2.setTime(currentDate);
int years = cal2.get(Calendar.YEAR) - cal.get(Calendar.YEAR);
int months = (years * 12) + (cal2.get(Calendar.MONTH) - cal.get(Calendar.MONTH));
int monthsToAdd = months;
monthsToAdd -= months % period;
cal = incrementMonths(cal, lastDay, monthsToAdd);
if (cal.getTimeInMillis() + duration < currentDate.getTime()) {
cal = incrementMonths(cal, lastDay, period);
}
}
Calendar cal2 = (Calendar) cal.clone();
cal.set(Calendar.HOUR_OF_DAY, 0);
cal.set(Calendar.MINUTE, 0);
cal.set(Calendar.SECOND, 0);
cal.set(Calendar.MILLISECOND, 0);
while (deletedInstances.contains(cal.getTime())) {
cal = incrementMonths(cal, lastDay, period);
cal2 = incrementMonths(cal2, lastDay, period);
}
startDate = cal2.getTime();
endDate = new Date(startDate.getTime() + duration);
if (dateOutOfRange(endDate)) {
return null;
}
boolean executeNow = false;
if (startDate.before(currentDate)) {
executeNow = true;
}
return new CalendarItemTimerTask(
sourceTask.getStatus(), startDate, endDate, sourceTask.getId(), executeNow, this);
}
/**
* Finds the occurrence of the events in the next months
*
* @param startDate the start date if the calendar item
* @param dayOfWeekInMonth the number of week days occurrences
* @return the date of the next occurrence
*/
private Date getMonthNStartDate(Date startDate, int dayOfWeekInMonth) {
Calendar cal = Calendar.getInstance();
cal.setTime(startDate);
if (dayOfWeekInMonth == -1) {
Date result = null;
cal.set(Calendar.DAY_OF_WEEK_IN_MONTH, dayOfWeekInMonth);
for (int day : allowedDaysOfWeek) {
cal.set(Calendar.DAY_OF_WEEK, day);
if (result == null || result.before(cal.getTime())) result = cal.getTime();
}
return result;
} else
while (dayOfWeekInMonth > 0) {
int dayOfWeek = cal.get(Calendar.DAY_OF_WEEK);
if (allowedDaysOfWeek.contains(dayOfWeek)) dayOfWeekInMonth--;
if (dayOfWeekInMonth > 0) cal.add(Calendar.DAY_OF_MONTH, 1);
}
return cal.getTime();
}
/**
* Finds the next occurrence for monthly Nth recurrence.
*
* @param startDate the start date of the previous calendar item.
* @param endDate the end date of the previous calendar item.
* @return the next item
*/
public CalendarItemTimerTask nextMonthN(Date startDate, Date endDate) {
int dayOfWeekInMonth = (patternSpecific2 == 5 ? -1 : patternSpecific2);
long duration = sourceTask.getEndDate().getTime() - sourceTask.getStartDate().getTime();
Calendar cal = Calendar.getInstance();
cal.setTime(startDate);
cal.set(Calendar.DAY_OF_MONTH, 1);
cal.add(Calendar.MONTH, period);
cal.setTime(getMonthNStartDate(cal.getTime(), dayOfWeekInMonth));
Date currentDate = new Date();
if (cal.getTimeInMillis() + duration < currentDate.getTime()) {
Calendar cal2 = Calendar.getInstance();
cal2.setTime(currentDate);
int years = cal2.get(Calendar.YEAR) - cal.get(Calendar.YEAR);
int months = (years * 12) + (cal2.get(Calendar.MONTH) - cal.get(Calendar.MONTH));
int monthsToAdd = months;
monthsToAdd -= months % period;
cal.set(Calendar.DAY_OF_MONTH, 1);
cal.add(Calendar.MONTH, monthsToAdd);
cal.setTime(getMonthNStartDate(cal.getTime(), dayOfWeekInMonth));
if (cal.getTimeInMillis() + duration < currentDate.getTime()) {
cal.set(Calendar.DAY_OF_MONTH, 1);
cal.add(Calendar.MONTH, monthsToAdd);
cal.setTime(getMonthNStartDate(cal.getTime(), dayOfWeekInMonth));
}
}
Calendar cal2 = (Calendar) cal.clone();
cal.set(Calendar.HOUR_OF_DAY, 0);
cal.set(Calendar.MINUTE, 0);
cal.set(Calendar.SECOND, 0);
cal.set(Calendar.MILLISECOND, 0);
while (deletedInstances.contains(cal.getTime())) {
cal.set(Calendar.DAY_OF_MONTH, 1);
cal.add(Calendar.MONTH, period);
startDate = null;
for (int dayOfWeek : allowedDaysOfWeek) {
cal.set(Calendar.DAY_OF_WEEK, dayOfWeek);
cal.set(Calendar.DAY_OF_WEEK_IN_MONTH, dayOfWeekInMonth);
if ((cal.after(startDate) && dayOfWeekInMonth == -1)
|| (cal.before(startDate) && dayOfWeekInMonth != -1)
|| startDate == null) {
startDate = cal.getTime();
cal2.set(Calendar.YEAR, cal.get(Calendar.YEAR));
cal2.set(Calendar.MONTH, cal.get(Calendar.MONTH));
cal2.set(Calendar.DATE, cal.get(Calendar.DATE));
}
}
}
startDate = cal2.getTime();
endDate = new Date(startDate.getTime() + duration);
if (dateOutOfRange(endDate)) return null;
boolean executeNow = false;
if (startDate.before(currentDate)) {
executeNow = true;
}
return new CalendarItemTimerTask(
sourceTask.getStatus(), startDate, endDate, sourceTask.getId(), executeNow, this);
}
/** Represents the exception info structure. */
public class ExceptionInfo {
/** The start date of the exception. */
private final Date startDate;
/** The end date of the exception. */
private final Date endDate;
/** The original start date of the exception. */
private final Date originalStartDate;
/** The modified flags of the exception. */
private final short overrideFlags;
/** The new busy status of the exception. */
private CalendarService.BusyStatusEnum busyStatus;
/** The size of the fixed fields. */
private int size = 22;
/**
* Parses the data of the exception.
*
* @param offset the position where the exception starts in the binary data
*/
public ExceptionInfo(int offset) {
startDate = windowsTimeToDateObject(dataBuffer.getInt(offset));
offset += 4;
endDate = windowsTimeToDateObject(dataBuffer.getInt(offset));
offset += 4;
originalStartDate = windowsTimeToDateObject(dataBuffer.getInt(offset));
offset += 4;
overrideFlags = dataBuffer.getShort(offset);
offset += 2;
int[] fieldMasks = {0x0001, 0x0002, 0x0004, 0x0008, 0x0010, 0x0020, 0x0040, 0x0080};
for (int mask : fieldMasks) {
if (mask == 0x0020) {
if ((overrideFlags & mask) != 0) {
busyStatus =
CalendarService.BusyStatusEnum.getFromLong((long) dataBuffer.getInt(offset));
}
if (busyStatus == null) {
busyStatus = sourceTask.getStatus();
}
}
if ((overrideFlags & mask) != 0) {
if (mask == 0x0010 || mask == 0x0001) {
short size = dataBuffer.getShort(offset + 2);
offset += size;
size += size;
}
offset += 4;
size += 4;
}
}
offset += 4;
int reservedBlockSize = dataBuffer.getShort(offset);
size += reservedBlockSize;
}
/**
* Returns the size of the exception
*
* @return the size of the exception
*/
public int sizeInBytes() {
return size;
}
/**
* Returns the start date
*
* @return the start date
*/
public Date getStartDate() {
return startDate;
}
/**
* Returns the end date
*
* @return the end date
*/
public Date getEndDate() {
return endDate;
}
/**
* Returns the busy status
*
* @return the busy status
*/
public CalendarService.BusyStatusEnum getBusyStatus() {
return busyStatus;
}
/** Prints the properties of the class for debugging purpose. */
@Override
public String toString() {
String result = "";
result +=
"startDate: " + new SimpleDateFormat("yyyy-MM-dd HH:mm:ss z").format(startDate) + "\n";
result += "endDate: " + new SimpleDateFormat("yyyy-MM-dd HH:mm:ss z").format(endDate) + "\n";
result +=
"originalStartDate: "
+ new SimpleDateFormat("yyyy-MM-dd HH:mm:ss z").format(originalStartDate)
+ "\n";
return result;
}
}
}
static {
m_logger = Logger.getLogger((Class) ExternalFightCreationMessageHandler.class);
}
class DBTCPConnector implements DBConnector {
static Logger _logger = Logger.getLogger(Bytes.LOGGER.getName() + ".tcp");
static Logger _createLogger = Logger.getLogger(_logger.getName() + ".connect");
public DBTCPConnector(Mongo m, ServerAddress addr) throws MongoException {
_mongo = m;
_portHolder = new DBPortPool.Holder(m._options);
_checkAddress(addr);
_createLogger.info(addr.toString());
if (addr.isPaired()) {
_allHosts = new ArrayList<ServerAddress>(addr.explode());
_createLogger.info("switch to paired mode : " + _allHosts + " -> " + _curAddress);
} else {
_set(addr);
_allHosts = null;
}
}
public DBTCPConnector(Mongo m, ServerAddress... all) throws MongoException {
this(m, Arrays.asList(all));
}
public DBTCPConnector(Mongo m, List<ServerAddress> all) throws MongoException {
_mongo = m;
_portHolder = new DBPortPool.Holder(m._options);
_checkAddress(all);
_allHosts = new ArrayList<ServerAddress>(all); // make a copy so it can't be modified
_createLogger.info(all + " -> " + _curAddress);
}
private static ServerAddress _checkAddress(ServerAddress addr) {
if (addr == null) throw new NullPointerException("address can't be null");
return addr;
}
private static ServerAddress _checkAddress(List<ServerAddress> addrs) {
if (addrs == null) throw new NullPointerException("addresses can't be null");
if (addrs.size() == 0) throw new IllegalArgumentException("need to specify at least 1 address");
return addrs.get(0);
}
/**
* Start a "request".
*
* <p>A "request" is a group of operations in which order matters. Examples include inserting a
* document and then performing a query which expects that document to have been inserted, or
* performing an operation and then using com.mongodb.Mongo.getLastError to perform error-checking
* on that operation. When a thread performs operations in a "request", all operations will be
* performed on the same socket, so they will be correctly ordered.
*/
public void requestStart() {
_threadPort.get().requestStart();
}
/**
* End the current "request", if this thread is in one.
*
* <p>By ending a request when it is safe to do so the built-in connection- pool is allowed to
* reassign requests to different sockets in order to more effectively balance load. See
* requestStart for more information.
*/
public void requestDone() {
_threadPort.get().requestDone();
}
public void requestEnsureConnection() {
_threadPort.get().requestEnsureConnection();
}
WriteResult _checkWriteError(MyPort mp, DBPort port) throws MongoException {
CommandResult e = _mongo.getDB("admin").getLastError();
mp.done(port);
Object foo = e.get("err");
if (foo == null) return new WriteResult(e);
int code = -1;
if (e.get("code") instanceof Number) code = ((Number) e.get("code")).intValue();
String s = foo.toString();
if (code == 11000 || code == 11001 || s.startsWith("E11000") || s.startsWith("E11001"))
throw new MongoException.DuplicateKey(code, s);
throw new MongoException(code, s);
}
public WriteResult say(DB db, OutMessage m, DB.WriteConcern concern) throws MongoException {
MyPort mp = _threadPort.get();
DBPort port = mp.get(true);
port.checkAuth(db);
try {
port.say(m);
if (concern == DB.WriteConcern.STRICT) {
return _checkWriteError(mp, port);
} else {
mp.done(port);
return new WriteResult(db, port);
}
} catch (IOException ioe) {
mp.error(ioe);
_error(ioe);
if (concern == DB.WriteConcern.NONE) {
CommandResult res = new CommandResult();
res.put("ok", false);
res.put("$err", "NETWORK ERROR");
return new WriteResult(res);
}
throw new MongoException.Network("can't say something", ioe);
} catch (MongoException me) {
throw me;
} catch (RuntimeException re) {
mp.error(re);
throw re;
}
}
public Response call(DB db, DBCollection coll, OutMessage m) throws MongoException {
return call(db, coll, m, 2);
}
public Response call(DB db, DBCollection coll, OutMessage m, int retries) throws MongoException {
final MyPort mp = _threadPort.get();
final DBPort port = mp.get(false);
port.checkAuth(db);
Response res = null;
try {
res = port.call(m, coll);
mp.done(port);
} catch (IOException ioe) {
mp.error(ioe);
if (_error(ioe) && retries > 0) {
return call(db, coll, m, retries - 1);
}
throw new MongoException.Network("can't call something", ioe);
} catch (RuntimeException re) {
mp.error(re);
throw re;
}
ServerError err = res.getError();
if (err != null && err.isNotMasterError()) {
_pickCurrent();
if (retries <= 0) {
throw new MongoException("not talking to master and retries used up");
}
return call(db, coll, m, retries - 1);
}
return res;
}
public ServerAddress getAddress() {
return _curAddress;
}
public List<ServerAddress> getAllAddress() {
return _allHosts;
}
public String getConnectPoint() {
return _curAddress.toString();
}
boolean _error(Throwable t) throws MongoException {
if (_allHosts != null) {
System.out.println("paired mode, switching master b/c of: " + t);
t.printStackTrace();
_pickCurrent();
}
return true;
}
class MyPort {
DBPort get(boolean keep) {
_internalStack++;
if (_internalStack > 1) {
if (_last == null) {
System.err.println("_internalStack > 1 and _last is null!");
} else {
return _last;
}
}
if (_port != null) return _port;
try {
DBPort p = _curPortPool.get();
if (keep && _inRequest) _port = p;
_last = p;
return p;
} catch (DBPortPool.NoMoreConnection nmc) {
_internalStack = 0;
throw nmc;
}
}
void done(DBPort p) {
if (_internalStack <= 0) {
int prev = _internalStack;
_reset();
throw new IllegalStateException("done called and _internalStack was: " + _internalStack);
}
_internalStack--;
if (p != _port && _internalStack == 0) _curPortPool.done(p);
if (_internalStack < 0) {
System.err.println("_internalStack < 0 : " + _internalStack);
_internalStack = 0;
}
}
void error(Exception e) {
_curPortPool.remove(_port);
_curPortPool.gotError(e);
_internalStack = 0;
_last = null;
}
void requestEnsureConnection() {
if (!_inRequest) return;
if (_port != null) return;
_port = _curPortPool.get();
}
void requestStart() {
_inRequest = true;
if (_port != null) {
_port = null;
System.err.println("ERROR. somehow _port was not null at requestStart");
}
}
void requestDone() {
if (_port != null) _curPortPool.done(_port);
_port = null;
_inRequest = false;
if (_internalStack > 0) {
System.err.println("_internalStack in requestDone should be 0 is: " + _internalStack);
_internalStack = 0;
}
}
void _reset() {
_internalStack = 0;
_port = null;
_last = null;
}
int _internalStack = 0;
DBPort _port;
DBPort _last;
boolean _inRequest;
}
void _pickInitial() throws MongoException {
if (_curAddress != null) return;
// we need to just get a server to query for ismaster
_pickCurrent();
try {
_logger.info("current address beginning of _pickInitial: " + _curAddress);
DBObject im = isMasterCmd();
if (_isMaster(im)) return;
synchronized (_allHosts) {
Collections.shuffle(_allHosts);
for (ServerAddress a : _allHosts) {
if (_curAddress == a) continue;
_logger.info("remote [" + _curAddress + "] -> [" + a + "]");
_set(a);
im = isMasterCmd();
if (_isMaster(im)) return;
_logger.severe("switched to: " + a + " but isn't master");
}
throw new MongoException("can't find master");
}
} catch (Exception e) {
_logger.log(Level.SEVERE, "can't pick initial master, using random one", e);
}
}
private void _pickCurrent() throws MongoException {
if (_allHosts == null)
throw new MongoException(
"got master/slave issue but not in master/slave mode on the client side");
synchronized (_allHosts) {
Collections.shuffle(_allHosts);
for (int i = 0; i < _allHosts.size(); i++) {
ServerAddress a = _allHosts.get(i);
if (a == _curAddress) continue;
if (_curAddress != null) {
_logger.info("switching from [" + _curAddress + "] to [" + a + "]");
}
_set(a);
return;
}
}
throw new MongoException("couldn't find a new host to swtich too");
}
private boolean _set(ServerAddress addr) {
if (_curAddress == addr) return false;
_curAddress = addr;
_curPortPool = _portHolder.get(addr.getSocketAddress());
return true;
}
public String debugString() {
StringBuilder buf = new StringBuilder("DBTCPConnector: ");
if (_allHosts != null) buf.append("paired : ").append(_allHosts);
else buf.append(_curAddress).append(" ").append(_curAddress._addr);
return buf.toString();
}
DBObject isMasterCmd() {
DBCollection collection = _mongo.getDB("admin").getCollection("$cmd");
Iterator<DBObject> i = collection.__find(_isMaster, null, 0, 1, 0);
if (i == null || !i.hasNext()) throw new MongoException("no result for ismaster query?");
DBObject res = i.next();
if (i.hasNext()) throw new MongoException("what's going on");
return res;
}
boolean _isMaster(DBObject res) {
Object x = res.get("ismaster");
if (x == null) throw new IllegalStateException("ismaster shouldn't be null: " + res);
if (x instanceof Boolean) return (Boolean) x;
if (x instanceof Number) return ((Number) x).intValue() == 1;
throw new IllegalArgumentException("invalid ismaster [" + x + "] : " + x.getClass().getName());
}
public void close() {
_portHolder.close();
}
final Mongo _mongo;
private ServerAddress _curAddress;
private DBPortPool _curPortPool;
private DBPortPool.Holder _portHolder;
private final List<ServerAddress> _allHosts;
private final ThreadLocal<MyPort> _threadPort =
new ThreadLocal<MyPort>() {
protected MyPort initialValue() {
return new MyPort();
}
};
private static final DBObject _isMaster = BasicDBObjectBuilder.start().add("ismaster", 1).get();
}