static void insertString(String str, ByteBuffer buf) throws java.io.UnsupportedEncodingException {
if (str != null && str.length() > 0) {
buf.putInt(str.length() + 1);
buf.put(str.getBytes("UTF-8"), 0, str.length());
buf.put((byte) 0);
} else { // buffer is null or length 0
buf.putInt(0);
}
}
static void insertByteString(byte[] array, ByteBuffer buf)
throws java.io.UnsupportedEncodingException {
if (array != null && array.length > 0) {
buf.putInt(array.length);
buf.put(array, 0, array.length);
buf.put((byte) 0);
} else { // buffer is null or length 0
buf.putInt(0);
}
}
// Check if DatagramChannel.send while connected can include
// address without throwing
private static void test1() throws Exception {
DatagramChannel sndChannel = DatagramChannel.open();
sndChannel.socket().bind(null);
InetSocketAddress sender =
new InetSocketAddress(InetAddress.getLocalHost(), sndChannel.socket().getLocalPort());
DatagramChannel rcvChannel = DatagramChannel.open();
rcvChannel.socket().bind(null);
InetSocketAddress receiver =
new InetSocketAddress(InetAddress.getLocalHost(), rcvChannel.socket().getLocalPort());
rcvChannel.connect(sender);
sndChannel.connect(receiver);
ByteBuffer bb = ByteBuffer.allocate(256);
bb.put("hello".getBytes());
bb.flip();
int sent = sndChannel.send(bb, receiver);
bb.clear();
rcvChannel.receive(bb);
bb.flip();
CharBuffer cb = Charset.forName("US-ASCII").newDecoder().decode(bb);
if (!cb.toString().startsWith("h")) throw new RuntimeException("Test failed");
rcvChannel.close();
sndChannel.close();
}
void isReadable(SelectionKey k) {
EventableChannel ec = (EventableChannel) k.attachment();
long b = ec.getBinding();
if (ec.isWatchOnly()) {
if (ec.isNotifyReadable()) eventCallback(b, EM_CONNECTION_NOTIFY_READABLE, null);
} else {
myReadBuffer.clear();
try {
ec.readInboundData(myReadBuffer);
myReadBuffer.flip();
if (myReadBuffer.limit() > 0) {
if (ProxyConnections != null) {
EventableChannel target = ProxyConnections.get(b);
if (target != null) {
ByteBuffer myWriteBuffer = ByteBuffer.allocate(myReadBuffer.limit());
myWriteBuffer.put(myReadBuffer);
myWriteBuffer.flip();
target.scheduleOutboundData(myWriteBuffer);
} else {
eventCallback(b, EM_CONNECTION_READ, myReadBuffer);
}
} else {
eventCallback(b, EM_CONNECTION_READ, myReadBuffer);
}
}
} catch (IOException e) {
UnboundConnections.add(b);
}
}
}
public static byte[] getNBOHost(String h) {
if (h.equals(PEER)) return null;
byte hostBytes[] = h.getBytes();
int len = Array.getLength(hostBytes);
ByteBuffer buf = ByteBuffer.allocate(len);
buf.put(hostBytes);
buf.order(ByteOrder.BIG_ENDIAN);
buf.rewind();
return (buf.array());
}
public static void main(String[] args) throws Exception {
outBuf.put("Blah Blah".getBytes());
outBuf.flip();
test1();
// This test has been disabled because there are many circumstances
// under which no ICMP port unreachable packets are received
// See http://java.sun.com/j2se/1.4/networking-relnotes.html
if ((args.length > 0) && (args[0].equals("test2"))) {
outBuf.rewind();
test2();
}
}
// creates the header and pads the content returning a new byte[]
// in the proper format. The secret is 4bytes (int), the step
// is 2 bytes (short).
public static byte[] createBuffer(byte[] content, int secret, short step) {
short studentNum = 456; // my student number is 1340456
int paddedSize = content.length;
while (paddedSize % 4 != 0) {
paddedSize++;
}
ByteBuffer bb = ByteBuffer.allocate(HEADER_SIZE + paddedSize);
bb.putInt(content.length);
bb.putInt(secret);
bb.putShort(step);
bb.putShort(studentNum);
bb.put(content);
return bb.array();
}
public void resendMessage(Message message, IP remoteAddress, int remotePort) throws IOException {
if (remoteAddress == null) remoteAddress = IP.getLocalHost();
message.setSentStamp(getConvertedTime(remoteAddress, remotePort));
message.setMessageServer(this);
try {
sendBuffer.clear();
sendBuffer.put(extractor.convertMessage(message));
sendBuffer.flip();
channel.send(sendBuffer, new InetSocketAddress(remoteAddress.toString(), remotePort));
message.setRemoteAddress(remoteAddress);
message.setRemotePort(remotePort);
messageSent(message);
} catch (IllegalAccessException exc) {
throw new RuntimeException(exc);
} catch (IllegalArgumentException exc) {
throw new RuntimeException(exc);
} catch (InvocationTargetException exc) {
throw new RuntimeException(exc);
}
}
public static void main(String[] args) {
try {
System.out.println("CliTest.java");
// create TCP socket channel
SocketChannel channel = SocketChannel.open();
System.out.println("CliTest.java: channel created");
channel.connect(new InetSocketAddress("localhost", PORT));
System.out.println("CliTest.java: channel socket connected");
System.out.println();
// create & send a login message
byte[] bytes = LoginMessage.getLoginMessage("user1", "password1");
System.out.println("CliTest.java: login message created");
System.out.println(LoginMessage.getMessageString(bytes));
System.out.printf("CliTest.java: login message length in bytes: %d\n", bytes.length);
ByteBuffer buf = ByteBuffer.allocate(4096);
buf.put(bytes);
buf.flip();
// System.out.printf("CliTest.java: buf.remaining before channel.write(): %d\n",
// buf.remaining());
int numwritten = channel.write(buf);
System.out.printf(
"CliTest.java: login mesage written: number of bytes written: %d\n", numwritten);
// read reply message
buf.clear();
int numread = channel.read(buf);
bytes = new byte[numread];
buf.flip();
buf.get(bytes);
if (LoginMessage.isLoginSuccessMessage(bytes)) {
System.out.printf(
"CliTest.java: first message read: Success Message: number of bytes read: %d\n",
numread);
// get remote port number from success message
int port = LoginMessage.getPort(bytes);
System.out.printf("Port Number: %d\n", port);
byte playerid = LoginMessage.getPlayerId(bytes);
System.out.printf("Player id: %d\n", playerid);
String mcastString = LoginMessage.getMulticastAddress(bytes);
System.out.printf("Multicast Address: %s\n", mcastString);
// create datagram channel & connect to rem port
DatagramChannel dchannel = DatagramChannel.open();
dchannel.socket().bind(new InetSocketAddress(0));
dchannel.socket().connect(new InetSocketAddress(channel.socket().getInetAddress(), port));
// get localport of datagram socket
int localport = dchannel.socket().getLocalPort();
System.out.printf("UDP local port: %d\n", localport);
// send success message to send port number to server
bytes = LoginMessage.getLoginSuccessMessage(playerid, null, localport);
buf.clear();
buf.put(bytes);
buf.flip();
channel.write(buf);
DeathMessage dm = new DeathMessage((byte) 1, (byte) 1);
bytes = dm.getByteMessage();
buf.clear();
buf.put(bytes);
buf.flip();
channel.write(buf);
} else {
System.out.printf(
"CliTest.java: first message read: NOT Success Message: number of bytes read: %d\n",
numread);
}
channel.close();
} catch (Exception e) {
e.printStackTrace();
}
}
/**
* 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;
}
static void insertByteArray(byte[] array, ByteBuffer buf) {
if (array != null && array.length > 0) {
buf.putInt(array.length);
buf.put(array, 0, array.length);
} else buf.putInt(0);
}
