public Cedars(String args[]) throws ArchiveException, IOException, HoneycombTestException {
verbose = false;
parseArgs(args);
initHCClient(host);
// generate lists of random sizes around 30M and 3M
// sort ascending to allow continuous expansion
try {
initRandom();
} catch (Exception e) {
e.printStackTrace();
System.exit(1);
}
sizes = new long[n_files];
for (int i = 0; i < sizes.length; i++) {
sizes[i] = MIN_SIZE + (long) (rand.nextDouble() * (double) RANGE);
}
Arrays.sort(sizes);
sizes2 = new long[n_files];
for (int i = 0; i < sizes2.length; i++) {
sizes2[i] = MIN_SIZE2 + (long) (rand.nextDouble() * (double) RANGE2);
}
Arrays.sort(sizes2);
sizes3 = new long[n_files];
for (int i = 0; i < sizes3.length; i++) {
sizes3[i] = MIN_SIZE3 + (long) (rand.nextDouble() * (double) RANGE3);
}
Arrays.sort(sizes3);
oids = new String[n_files];
Arrays.fill(oids, null);
shas = new String[n_files];
Arrays.fill(shas, null);
if (out_file != null) {
try {
String host = clnthost;
fo = new FileWriter(out_file, true); // append=true
flog("#S Cedars [" + host + "] " + new Date() + "\n");
} catch (Exception e) {
System.err.println("Opening " + out_file);
e.printStackTrace();
System.exit(1);
}
}
Runtime.getRuntime().addShutdownHook(new Thread(new Shutdown(), "Shutdown"));
doIt();
done = true;
}
@Override
public void run() {
try {
// Create a server socket
// DatagramSocket socket = new DatagramSocket(8000);
textArea.append("UDP connnection listener started at " + new Date() + '\n');
// while (true) {
// The byte array for sending and receiving datagram packets
byte[] buffer = new byte[BUFFER_SIZE];
// Initialize buffer for each iteration
Arrays.fill(buffer, (byte) 0);
// Create a packet for receiving data
// DatagramPacket receivePacket = new DatagramPacket(buffer.clone(), buffer.length);
// Receive radius from the client in a packet
// socket.receive(receivePacket);
// Create a new thread for the UDP connection
HandleUDPClient task =
new HandleUDPClient(
new DatagramSocket(8000), new DatagramPacket(buffer.clone(), buffer.length));
// Start the new thread
// new Thread(task).start();
task.run();
// Increment clientNo
clientNo++;
// break;
// }
} catch (BindException ex) {
// Not supporting multiple UDP clients for now
textArea.append("Multiple UDP client connections are currently not supported.\n");
} catch (IOException ex) {
ex.printStackTrace();
}
}
@Override
public void run() {
try {
// Create a packet for sending data
DatagramPacket sendPacket = new DatagramPacket(buffer, buffer.length);
OutputStream outputStream = null;
String fileName = "";
boolean createFile = true;
int bytesReceived = 0;
long totalBytesReceived = 0;
long fileSize = 0;
socket.receive(receivePacket);
// Display the client number
textArea.append("Starting thread for UDP client " + clientNo + " at " + new Date() + '\n');
textArea.append(
"The client host name is "
+ receivePacket.getAddress().getHostName()
+ " and port number is "
+ receivePacket.getPort()
+ '\n');
// Continuously serve the client
while (true) {
bytesReceived = receivePacket.getLength();
if (bytesReceived
> 0) { // Get the file transmission header from the initial client packet
String transmitHeader = new String(receivePacket.getData(), 0, bytesReceived);
// transmitHeader = transmitHeader.substring(0, bytesReceived).trim().;
String[] header = transmitHeader.split(HEADER_DEL);
fileSize = Long.parseLong(header[0]);
fileName = header[1];
// Send receipt acknowledgment back to the client. Just send back the number of bytes
// received.
setSendPacketAddress(sendPacket, receivePacket);
sendPacket.setData(String.valueOf(bytesReceived).getBytes());
socket.send(sendPacket);
}
while (totalBytesReceived < fileSize) {
// Wait for client to send bytes
// socket.setSendBufferSize(BUFFER_SIZE);
socket.receive(receivePacket);
bytesReceived = receivePacket.getLength();
if (totalBytesReceived == 0) {
if (createFile) { // Get a unique name for the file to be received
// fileName = getUniqueFileName();
fileName = textFolder.getText() + fileName;
outputStream = createFile(fileName);
createFile = false;
textArea.append("Receiving file from client.\n");
}
// Write bytes to file
outputStream.write(receivePacket.getData(), 0, bytesReceived);
} else {
if (outputStream != null) { // Write bytes to file, if any
outputStream.write(receivePacket.getData(), 0, bytesReceived);
}
}
// Increment total bytes received
totalBytesReceived += bytesReceived;
// Tell the client to send more data. Just send back the number of bytes received.
sendPacket.setData(String.valueOf(bytesReceived).getBytes());
socket.send(sendPacket);
// buffer = new byte[BUFFER_SIZE];
Arrays.fill(buffer, (byte) 0);
receivePacket = new DatagramPacket(buffer, buffer.length);
}
outputStream.flush();
outputStream.close();
textArea.append("Received file successfully. Saved as " + fileName + "\n");
// Tell the client transmission is complete. Just send back the total number of bytes
// received.
sendPacket.setData(String.valueOf(totalBytesReceived).getBytes());
socket.send(sendPacket);
// Reset creation flag
createFile = true;
totalBytesReceived = 0;
// Wait for client to send another file
socket.receive(receivePacket);
}
} catch (IOException e) {
System.err.println(e);
}
}
public static void main(String[] args) throws Exception {
//////////////////// STAGE A//////////////////////////////////////////
int portNum = 12235;
// InetAddress ip=InetAddress.getLocalHost();
InetAddress ip = InetAddress.getByName("attu2.cs.washington.edu");
DatagramSocket sock = new DatagramSocket();
byte[] response = new byte[HEADER_SIZE + 16];
String partA = "hello world\0";
byte[] buf = createBuffer(partA.getBytes(), 0, STEP1);
DatagramPacket packet = new DatagramPacket(buf, buf.length, ip, portNum);
sock.send(packet);
packet = new DatagramPacket(response, response.length);
sock.receive(packet);
int[] a2 = partA(response); // putting the 4 ints from server into int[]
// for (int i = 0; i < a2.length; i++) {
// System.out.println(a2[i]);
// }
////////////////////// STAGE B////////////////////////////////////////
int numSent = 0;
int send = a2[0];
int len = a2[1];
portNum = a2[2];
int secretA = a2[3];
System.out.println("The secrets:\nA: " + secretA);
sock.setSoTimeout(500); // .5s
while (numSent < send) {
// create packet
buf = createBuffer(partB(numSent, len), secretA, STEP1);
packet = new DatagramPacket(buf, buf.length, ip, portNum);
sock.send(packet);
// send packet
try {
sock.receive(new DatagramPacket(response, response.length));
numSent++;
ByteBuffer temp = ByteBuffer.wrap(response);
checkHeader(temp, 4, secretA, STEP1);
// System.out.println(temp.getInt()); // For debug. See if counts up by 1
} catch (SocketTimeoutException e) {
// if there's a timeout, try again
continue;
}
}
response = new byte[HEADER_SIZE + 8]; // 8 bytes -- 2 integers
sock.receive(new DatagramPacket(response, response.length));
ByteBuffer bb = ByteBuffer.wrap(response);
// Header
checkHeader(bb, 8, secretA, STEP2);
// reset the port number to the one given
portNum = bb.getInt();
int secretB = bb.getInt();
System.out.println("B: " + secretB);
// close the UDP socket
sock.close();
/////////////////////////// STAGE C///////////////////////////////////
Socket socket = new Socket(ip, portNum);
InputStream in = socket.getInputStream();
OutputStream out = socket.getOutputStream();
response = new byte[HEADER_SIZE + 16]; // 4 ints given to us this time
in.read(response);
bb = ByteBuffer.wrap(response);
// Header
checkHeader(bb, 13, secretB, STEP2);
// num2 len2 secretC and char c
numSent = bb.getInt();
len = bb.getInt();
int secretC = bb.getInt();
System.out.println("C: " + secretC);
// stage d
byte c = (byte) bb.getChar();
buf = new byte[len];
Arrays.fill(buf, c);
for (int i = 0; i < numSent; i++) {
byte[] b = createBuffer(buf, secretC, STEP1);
out.write(b);
}
response = new byte[12 + 4]; // one integer. secretD plus header
in.read(response);
bb = ByteBuffer.wrap(response);
checkHeader(bb, 4, secretC, STEP2);
int secretD = bb.getInt();
socket.close();
in.close();
out.close();
System.out.println("D: " + secretD);
}
/**
* Logs the specified message and details to the packet logging service if enabled.
*
* @param message the message to log
* @param sender determines whether we are the origin of this message.
*/
private void logPacket(SIPMessage message, boolean sender) {
try {
PacketLoggingService packetLogging = SipActivator.getPacketLogging();
if (packetLogging == null
|| !packetLogging.isLoggingEnabled(PacketLoggingService.ProtocolName.SIP)
/* Via not present in CRLF packet on TCP - causes NPE */
|| message.getTopmostVia() == null) return;
String transport = message.getTopmostVia().getTransport();
boolean isTransportUDP = transport.equalsIgnoreCase("UDP");
byte[] srcAddr;
int srcPort;
byte[] dstAddr;
int dstPort;
// if addresses are not set use empty byte array with length
// equals to the other address or just empty
// byte array with length 4 (ipv4 0.0.0.0)
if (sender) {
if (!isTransportUDP) {
InetSocketAddress localAddress =
getLocalAddressForDestination(
message.getRemoteAddress(),
message.getRemotePort(),
message.getLocalAddress(),
transport);
srcPort = localAddress.getPort();
srcAddr = localAddress.getAddress().getAddress();
} else {
srcPort = message.getLocalPort();
if (message.getLocalAddress() != null) srcAddr = message.getLocalAddress().getAddress();
else if (message.getRemoteAddress() != null)
srcAddr = new byte[message.getRemoteAddress().getAddress().length];
else srcAddr = new byte[4];
}
dstPort = message.getRemotePort();
if (message.getRemoteAddress() != null) dstAddr = message.getRemoteAddress().getAddress();
else dstAddr = new byte[srcAddr.length];
} else {
if (!isTransportUDP) {
InetSocketAddress dstAddress =
getLocalAddressForDestination(
message.getRemoteAddress(),
message.getRemotePort(),
message.getLocalAddress(),
transport);
dstPort = dstAddress.getPort();
dstAddr = dstAddress.getAddress().getAddress();
} else {
dstPort = message.getLocalPort();
if (message.getLocalAddress() != null) dstAddr = message.getLocalAddress().getAddress();
else if (message.getRemoteAddress() != null)
dstAddr = new byte[message.getRemoteAddress().getAddress().length];
else dstAddr = new byte[4];
}
srcPort = message.getRemotePort();
if (message.getRemoteAddress() != null) srcAddr = message.getRemoteAddress().getAddress();
else srcAddr = new byte[dstAddr.length];
}
byte[] msg = null;
if (message instanceof SIPRequest) {
SIPRequest req = (SIPRequest) message;
if (req.getMethod().equals(SIPRequest.MESSAGE)
&& message.getContentTypeHeader() != null
&& message.getContentTypeHeader().getContentType().equalsIgnoreCase("text")) {
int len = req.getContentLength().getContentLength();
if (len > 0) {
SIPRequest newReq = (SIPRequest) req.clone();
byte[] newContent = new byte[len];
Arrays.fill(newContent, (byte) '.');
newReq.setMessageContent(newContent);
msg = newReq.toString().getBytes("UTF-8");
}
}
}
if (msg == null) {
msg = message.toString().getBytes("UTF-8");
}
packetLogging.logPacket(
PacketLoggingService.ProtocolName.SIP,
srcAddr,
srcPort,
dstAddr,
dstPort,
isTransportUDP
? PacketLoggingService.TransportName.UDP
: PacketLoggingService.TransportName.TCP,
sender,
msg);
} catch (Throwable e) {
logger.error("Cannot obtain message body", e);
}
}
