com.ddschool.wifi.foregin.ProxyConnector.java Source code

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Here is the source code for com.ddschool.wifi.foregin.ProxyConnector.java

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/*
Copyright 2009 David Revell
    
This file is part of SwiFTP.
    
SwiFTP is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
    
SwiFTP is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.
    
You should have received a copy of the GNU General Public License
along with SwiFTP.  If not, see <http://www.gnu.org/licenses/>.
*/

package com.ddschool.wifi.foregin;

import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.net.InetAddress;
import java.net.InetSocketAddress;
import java.net.Socket;
import java.util.Arrays;
import java.util.Collections;
import java.util.LinkedList;
import java.util.List;
import java.util.Queue;

import org.json.JSONException;
import org.json.JSONObject;

import com.ddschool.utils.RemoteUtil;

import android.content.Context;
import android.content.SharedPreferences;
import android.util.Log;

public class ProxyConnector extends Thread {
    public static final int IN_BUF_SIZE = 2048;
    public static final String ENCODING = "UTF-8";
    public static final int RESPONSE_WAIT_MS = 10000;
    public static final int QUEUE_WAIT_MS = 20000;
    public static final long UPDATE_USAGE_BYTES = 5000000;
    public static final String PREFERRED_SERVER = "preferred_server"; //preferences
    public static final int CONNECT_TIMEOUT = 5000;

    private FTPServerService ftpServerService;
    private JSONObject response = null;
    private Thread responseWaiter = null;
    private Queue<Thread> queuedRequestThreads = new LinkedList<Thread>();
    private Socket commandSocket = null;
    private OutputStream out = null;
    private String hostname = null;
    private InputStream inputStream = null;
    private long proxyUsage = 0;
    private State proxyState = State.DISCONNECTED;
    private String prefix;
    private String proxyMessage = null;

    public enum State {
        CONNECTING, CONNECTED, FAILED, UNREACHABLE, DISCONNECTED
    };

    //QuotaStats cachedQuotaStats = null; // quotas have been canceled for now

    static final String USAGE_PREFS_NAME = "proxy_usage_data";

    /* We establish a so-called "command session" to the proxy. New connections
     * will be handled by creating addition control and data connections to the
     * proxy. See proxy_protocol.txt and proxy_architecture.pdf for an
     * explanation of how proxying works. Hint: it's complicated.
     */

    public ProxyConnector(FTPServerService ftpServerService) {
        this.ftpServerService = ftpServerService;
        this.proxyUsage = getPersistedProxyUsage();
        setProxyState(State.DISCONNECTED);
        Globals.setProxyConnector(this);
    }

    public void run() {
        setProxyState(State.CONNECTING);
        try {
            String candidateProxies[] = getProxyList();
            for (String candidateHostname : candidateProxies) {
                hostname = candidateHostname;
                commandSocket = newAuthedSocket(hostname, Defaults.REMOTE_PROXY_PORT);
                if (commandSocket == null) {
                    continue;
                }
                commandSocket.setSoTimeout(0); // 0 == forever
                //commandSocket.setKeepAlive(true);
                // Now that we have authenticated, we want to start the command session so we can
                // be notified of pending control sessions.
                JSONObject request = makeJsonRequest("start_command_session");
                response = sendRequest(commandSocket, request);
                if (response == null) {
                    continue; // try next server
                }
                if (!response.has("prefix")) {
                    continue; // try next server
                }
                prefix = response.getString("prefix");
                response = null; // Indicate that response is free for other use
                break; // breaking with commandSocket != null indicates success
            }
            if (commandSocket == null) {

                setProxyState(State.UNREACHABLE);
                return;
            }
            setProxyState(State.CONNECTED);
            preferServer(hostname);
            inputStream = commandSocket.getInputStream();
            out = commandSocket.getOutputStream();
            int numBytes;
            byte[] bytes = new byte[IN_BUF_SIZE];
            //spawnQuotaRequester().start();
            while (true) {

                numBytes = inputStream.read(bytes);
                incrementProxyUsage(numBytes);

                JSONObject incomingJson = null;
                if (numBytes > 0) {
                    String responseString = new String(bytes, ENCODING);
                    incomingJson = new JSONObject(responseString);
                    if (incomingJson.has("action")) {
                        // If the incoming JSON object has an "action" field, then it is a
                        // request, and not a response
                        incomingCommand(incomingJson);
                    } else {
                        // If the incoming JSON object does not have an "action" field, then
                        // it is a response to a request we sent earlier.
                        // If there's an object waiting for a response, then that object
                        // will be referenced by responseWaiter.
                        if (responseWaiter != null) {
                            if (response != null) {

                            }
                            response = incomingJson;
                            responseWaiter.interrupt();
                        } else {

                        }
                    }
                } else if (numBytes == 0) {

                } else { // numBytes < 0

                    if (proxyState != State.DISCONNECTED) {
                        // Set state to FAILED unless this was an intentional
                        // socket closure.
                        setProxyState(State.FAILED);
                    }
                    break;
                }
            }

        } catch (IOException e) {

            setProxyState(State.FAILED);
        } catch (JSONException e) {

            setProxyState(State.FAILED);
        } catch (Exception e) {

            setProxyState(State.FAILED);
        } finally {
            Globals.setProxyConnector(null);
            hostname = null;

            persistProxyUsage();
        }
    }

    // This function is used to spawn a new Thread that will make a request over the
    // command thread. Since the main ProxyConnector thread handles the input
    // request/response de-multiplexing, it cannot also make a request using the
    // sendCmdSocketRequest, since sendCmdSocketRequest will block waiting for
    // a response, but the same thread is expected to deliver the response.
    // The short story is, if the main ProxyConnector command session thread wants to
    // make a request, the easiest way is to spawn a new thread and have it call
    // sendCmdSocketRequest in the same way as any other thread. 
    //private Thread spawnQuotaRequester() {
    //   return new Thread() {
    //      public void run() {
    //         getQuotaStats(false);
    //      }
    //   };
    //}

    /**
     * Since we want devices to generally stick with the same proxy server,
     * and we may want to explicitly redirect some devices to other servers,
     * we have this mechanism to store a "preferred server" on the device. 
     */
    private void preferServer(String hostname) {
        SharedPreferences prefs = Globals.getContext().getSharedPreferences(PREFERRED_SERVER, 0);
        SharedPreferences.Editor editor = prefs.edit();
        editor.putString(PREFERRED_SERVER, hostname);
        editor.commit();
    }

    private String[] getProxyList() {
        SharedPreferences prefs = Globals.getContext().getSharedPreferences(PREFERRED_SERVER, 0);
        String preferred = prefs.getString(PREFERRED_SERVER, null);

        String[] allProxies;

        if (Defaults.release) {
            allProxies = new String[] { "c1.swiftp.org", "c2.swiftp.org", "c3.swiftp.org", "c4.swiftp.org",
                    "c5.swiftp.org", "c6.swiftp.org", "c7.swiftp.org", "c8.swiftp.org", "c9.swiftp.org" };
        } else {
            //allProxies = new String[] {
            //   "cdev.swiftp.org"
            //};
            allProxies = new String[] { "c1.swiftp.org", "c2.swiftp.org", "c3.swiftp.org", "c4.swiftp.org",
                    "c5.swiftp.org", "c6.swiftp.org", "c7.swiftp.org", "c8.swiftp.org", "c9.swiftp.org" };
        }

        // We should randomly permute the server list in order to spread
        // load between servers. Collections offers a shuffle() function 
        // that does this, so we'll convert to List and back to String[].
        List<String> proxyList = Arrays.asList(allProxies);
        Collections.shuffle(proxyList);
        allProxies = proxyList.toArray(new String[] {}); // arg used for type

        // Return preferred server first, followed by all others
        if (preferred == null) {
            return allProxies;
        } else {
            return RemoteUtil.concatStrArrays(new String[] { preferred }, allProxies);
        }
    }

    private boolean checkAndPrintJsonError(JSONObject json) throws JSONException {
        if (json.has("error_code")) {
            // The returned JSON object will have a field called "errorCode"
            // if there was a problem executing our request.
            StringBuilder s = new StringBuilder("Error in JSON response, code: ");
            s.append(json.getString("error_code"));
            if (json.has("error_string")) {
                s.append(", string: ");
                s.append(json.getString("error_string"));
            }

            // Obsolete: there's no authentication anymore
            // Dev code to enable frequent database wipes. If we fail to login,
            // remove our stored account info, causing a create_account action
            // next time.
            //if(!Defaults.release) {
            //   if(json.getInt("error_code") == 11) {
            //      myLog.l(Log.DEBUG, "Dev: removing secret due to login failure");
            //      removeSecret();
            //   }
            //}
            return true;
        }
        return false;
    }

    /**
     * Reads our persistent storage, looking for a stored proxy authentication secret.
     * @return The secret, if present, or null.
     */
    //Obsolete, there's no authentication anymore
    /*private String retrieveSecret() {
       SharedPreferences settings = Globals.getContext().
     getSharedPreferences(Defaults.getSettingsName(),
     Defaults.getSettingsMode());
       return settings.getString("proxySecret", null);
    }*/

    //Obsolete, there's no authentication anymore
    /*private void storeSecret(String secret) {
       SharedPreferences settings = Globals.getContext().
     getSharedPreferences(Defaults.getSettingsName(),
     Defaults.getSettingsMode());
       Editor editor = settings.edit();
       editor.putString("proxySecret", secret);
       editor.commit();
    }*/

    //Obsolete, there's no authentication anymore
    /*private void removeSecret() {
       SharedPreferences settings = Globals.getContext().
     getSharedPreferences(Defaults.getSettingsName(),
           Defaults.getSettingsMode());
       Editor editor = settings.edit();
       editor.remove("proxySecret");
       editor.commit();
    }*/

    private void incomingCommand(JSONObject json) {
        try {
            String action = json.getString("action");
            if (action.equals("control_connection_waiting")) {
                startControlSession(json.getInt("port"));
            } else if (action.equals("prefer_server")) {
                String host = json.getString("host"); // throws JSONException, fine
                preferServer(host);

            } else if (action.equals("message")) {
                proxyMessage = json.getString("text");
                //myLog.i("Got news from proxy server: \"" + proxyMessage + "\"");
                FTPServerService.updateClients(); // UI update to show message
            } else if (action.equals("noop")) {
                //myLog.d("Proxy noop");
            } else {
                //myLog.l(Log.INFO, "Unsupported incoming action: " + action);
            }
            // If we're starting a control session register with ftpServerService
        } catch (JSONException e) {
            //myLog.l(Log.INFO, "JSONException in proxy incomingCommand");
        }
    }

    private void startControlSession(int port) {
        Socket socket;
        //myLog.d("Starting new proxy FTP control session");
        socket = newAuthedSocket(hostname, port);
        if (socket == null) {
            //myLog.i("startControlSession got null authed socket");
            return;
        }
        ProxyDataSocketFactory dataSocketFactory = new ProxyDataSocketFactory();
        SessionThread thread = new SessionThread(socket, dataSocketFactory, SessionThread.Source.PROXY);
        thread.start();
        ftpServerService.registerSessionThread(thread);
    }

    /**
     * Connects an outgoing socket to the proxy and authenticates, creating an account
     * if necessary.
     */
    private Socket newAuthedSocket(String hostname, int port) {
        if (hostname == null) {
            //myLog.i("newAuthedSocket can't connect to null host");
            return null;
        }
        JSONObject json = new JSONObject();
        //String secret = retrieveSecret();
        Socket socket;
        OutputStream out = null;
        InputStream in = null;

        try {
            //myLog.d("Opening proxy connection to " + hostname + ":" + port);
            socket = new Socket();
            socket.connect(new InetSocketAddress(hostname, port), CONNECT_TIMEOUT);
            json.put("android_id", RemoteUtil.getAndroidId());
            json.put("swiftp_version", RemoteUtil.getVersion());
            json.put("action", "login");
            out = socket.getOutputStream();
            in = socket.getInputStream();
            int numBytes;

            out.write(json.toString().getBytes(ENCODING));
            //myLog.l(Log.DEBUG, "Sent login request");
            // Read and parse the server's response
            byte[] bytes = new byte[IN_BUF_SIZE];
            // Here we assume that the server's response will all be contained in
            // a single read, which may be unsafe for large responses
            numBytes = in.read(bytes);
            if (numBytes == -1) {
                //myLog.l(Log.INFO, "Proxy socket closed while waiting for auth response");
                return null;
            } else if (numBytes == 0) {
                //myLog.l(Log.INFO, "Short network read waiting for auth, quitting");
                return null;
            }
            json = new JSONObject(new String(bytes, 0, numBytes, ENCODING));
            if (checkAndPrintJsonError(json)) {
                return null;
            }
            //myLog.d("newAuthedSocket successful");
            return socket;
        } catch (Exception e) {
            //myLog.i("Exception during proxy connection or authentication: " + e);
            return null;
        }
    }

    public void quit() {
        setProxyState(State.DISCONNECTED);
        try {
            sendRequest(commandSocket, makeJsonRequest("finished")); // ignore reply

            if (inputStream != null) {
                //myLog.d("quit() closing proxy inputStream");
                inputStream.close();
            } else {
                //myLog.d("quit() won't close null inputStream");
            }
            if (commandSocket != null) {
                //myLog.d("quit() closing proxy socket");
                commandSocket.close();
            } else {
                //myLog.d("quit() won't close null socket");
            }
        } catch (IOException e) {
        } catch (JSONException e) {
        }
        persistProxyUsage();
        Globals.setProxyConnector(null);
    }

    private JSONObject sendCmdSocketRequest(JSONObject json) {
        try {
            boolean queued;
            synchronized (this) {
                if (responseWaiter == null) {
                    responseWaiter = Thread.currentThread();
                    queued = false;
                    //myLog.d("sendCmdSocketRequest proceeding without queue");
                } else if (!responseWaiter.isAlive()) {
                    // This code should never run. It is meant to recover from a situation
                    // where there is a thread that sent a proxy request but died before
                    // starting the subsequent request. If this is the case, the correct
                    // behavior is to run the next queued thread in the queue, or if the
                    // queue is empty, to perform our own request. 
                    //myLog.l(Log.INFO, "Won't wait on dead responseWaiter");
                    if (queuedRequestThreads.size() == 0) {
                        responseWaiter = Thread.currentThread();
                        queued = false;
                    } else {
                        queuedRequestThreads.add(Thread.currentThread());
                        queuedRequestThreads.remove().interrupt(); // start queued thread
                        queued = true;
                    }
                } else {
                    //myLog.d("sendCmdSocketRequest queueing thread");
                    queuedRequestThreads.add(Thread.currentThread());
                    queued = true;
                }
            }
            // If a different thread has sent a request and is waiting for a response,
            // then the current thread will be in a queue waiting for an interrupt
            if (queued) {
                // The current thread must wait until we are popped off the waiting queue
                // and receive an interrupt()
                boolean interrupted = false;
                try {
                    //myLog.d("Queued cmd session request thread sleeping...");
                    Thread.sleep(QUEUE_WAIT_MS);
                } catch (InterruptedException e) {
                    //myLog.l(Log.DEBUG, "Proxy request popped and ready");
                    interrupted = true;
                }
                if (!interrupted) {
                    //myLog.l(Log.INFO, "Timed out waiting on proxy queue");
                    return null;
                }
            }
            // We have been popped from the wait queue if necessary, and now it's time
            // to send the request.
            try {
                responseWaiter = Thread.currentThread();
                byte[] outboundData = RemoteUtil.jsonToByteArray(json);
                try {
                    out.write(outboundData);
                } catch (IOException e) {
                    //myLog.l(Log.INFO, "IOException sending proxy request");
                    return null;
                }
                // Wait RESPONSE_WAIT_MS for a response from the proxy
                boolean interrupted = false;
                try {
                    // Wait for the main ProxyConnector thread to interrupt us, meaning
                    // that a response has been received.
                    //myLog.d("Cmd session request sleeping until response");
                    Thread.sleep(RESPONSE_WAIT_MS);
                } catch (InterruptedException e) {
                    //myLog.d("Cmd session response received");
                    interrupted = true;
                }
                if (!interrupted) {
                    //myLog.l(Log.INFO, "Proxy request timed out");
                    return null;
                }
                // At this point, the main ProxyConnector thread will have stored
                // our response in "JSONObject response".
                //myLog.d("Cmd session response was: " + response);
                return response;
            } finally {
                // Make sure that when this request finishes, the next thread on the
                // queue gets started.
                synchronized (this) {
                    if (queuedRequestThreads.size() != 0) {
                        queuedRequestThreads.remove().interrupt();
                    }
                }
            }
        } catch (JSONException e) {
            //myLog.l(Log.INFO, "JSONException in sendRequest: " + e);
            return null;
        }
    }

    public JSONObject sendRequest(InputStream in, OutputStream out, JSONObject request) throws JSONException {
        try {
            out.write(RemoteUtil.jsonToByteArray(request));
            byte[] bytes = new byte[IN_BUF_SIZE];
            int numBytes = in.read(bytes);
            if (numBytes < 1) {
                //myLog.i("Proxy sendRequest short read on response");
                return null;
            }
            JSONObject response = RemoteUtil.byteArrayToJson(bytes);
            if (response == null) {
                //myLog.i("Null response to sendRequest");
            }
            if (checkAndPrintJsonError(response)) {
                //myLog.i("Error response to sendRequest");
                return null;
            }
            return response;
        } catch (IOException e) {
            //myLog.i("IOException in proxy sendRequest: " + e);
            return null;
        }
    }

    public JSONObject sendRequest(Socket socket, JSONObject request) throws JSONException {
        try {
            if (socket == null) {
                // The server is probably shutting down
                // myLog.i("null socket in ProxyConnector.sendRequest()");
                return null;
            } else {
                return sendRequest(socket.getInputStream(), socket.getOutputStream(), request);
            }
        } catch (IOException e) {
            // myLog.i("IOException in proxy sendRequest wrapper: " + e);
            return null;
        }
    }

    public ProxyDataSocketInfo pasvListen() {
        try {
            // connect to proxy and authenticate
            //myLog.d("Sending data_pasv_listen to proxy");
            Socket socket = newAuthedSocket(this.hostname, Defaults.REMOTE_PROXY_PORT);
            if (socket == null) {
                //myLog.i("pasvListen got null socket");
                return null;
            }
            JSONObject request = makeJsonRequest("data_pasv_listen");

            JSONObject response = sendRequest(socket, request);
            if (response == null) {
                return null;
            }
            int port = response.getInt("port");
            return new ProxyDataSocketInfo(socket, port);
        } catch (JSONException e) {
            //myLog.l(Log.INFO, "JSONException in pasvListen");
            return null;
        }
    }

    public Socket dataPortConnect(InetAddress clientAddr, int clientPort) {
        /** 
         * This function is called by a ProxyDataSocketFactory when it's time to
         * transfer some data in PORT mode (not PASV mode). We send a 
         * data_port_connect request to the proxy, containing the IP and port
         * of the FTP client to which a connection should be made.
         */
        try {
            //myLog.d("Sending data_port_connect to proxy");
            Socket socket = newAuthedSocket(this.hostname, Defaults.REMOTE_PROXY_PORT);
            if (socket == null) {
                //myLog.i("dataPortConnect got null socket");
                return null;
            }
            JSONObject request = makeJsonRequest("data_port_connect");
            request.put("address", clientAddr.getHostAddress());
            request.put("port", clientPort);
            JSONObject response = sendRequest(socket, request);
            if (response == null) {
                return null; // logged elsewhere
            }
            return socket;
        } catch (JSONException e) {
            //myLog.i("JSONException in dataPortConnect");
            return null;
        }
    }

    /**
     * Given a socket returned from pasvListen(), send a data_pasv_accept request
     * over the socket to the proxy, which should result in a socket that is ready
     * for data transfer with the FTP client. Of course, this will only work if the
     * FTP client connects to the proxy like it's supposed to. The client will have
     * already been told to connect by the response to its PASV command. 
     * 
     * This should only be called from the onTransfer method of ProxyDataSocketFactory.
     *  
     * @param socket A socket previously returned from ProxyConnector.pasvListen()
     * @return true if the accept operation completed OK, otherwise false
     */

    public boolean pasvAccept(Socket socket) {
        try {
            JSONObject request = makeJsonRequest("data_pasv_accept");
            JSONObject response = sendRequest(socket, request);
            if (response == null) {
                return false; // error is logged elsewhere
            }
            if (checkAndPrintJsonError(response)) {
                //myLog.i("Error response to data_pasv_accept");
                return false;
            }
            // The proxy's response will be an empty JSON object on success
            //myLog.d("Proxy data_pasv_accept successful");
            return true;
        } catch (JSONException e) {
            //myLog.i("JSONException in pasvAccept: " + e);
            return false;
        }
    }

    public InetAddress getProxyIp() {
        if (this.isAlive()) {
            if (commandSocket.isConnected()) {
                return commandSocket.getInetAddress();
            }
        }
        return null;
    }

    private JSONObject makeJsonRequest(String action) throws JSONException {
        JSONObject json = new JSONObject();
        json.put("action", action);
        return json;
    }

    /* Quotas have been canceled for now     
      public QuotaStats getQuotaStats(boolean canUseCached) {
       if(canUseCached) {
     if(cachedQuotaStats != null) {
        myLog.d("Returning cachedQuotaStats");
        return cachedQuotaStats;
     } else {
        myLog.d("Would return cached quota stats but none retrieved");
     }
       }
       // If there's no cached quota stats, or if the called wants fresh stats,
       // make a JSON request to the proxy, assuming the command session is open.
       try {
     JSONObject response = sendCmdSocketRequest(makeJsonRequest("check_quota"));
     int used, quota;
     if(response == null) {
        myLog.w("check_quota got null response");
        return null;
     }
     used = response.getInt("used");
     quota = response.getInt("quota");
     myLog.d("Got quota response of " + used + "/" + quota);
     cachedQuotaStats = new QuotaStats(used, quota) ;
     return cachedQuotaStats;
       } catch (JSONException e) {
     myLog.w("JSONException in getQuota: " + e);
     return null;
       }
    }*/

    // We want to track the total amount of data sent via the proxy server, to
    // show it to the user and encourage them to donate.
    void persistProxyUsage() {
        if (proxyUsage == 0) {
            return; // This shouldn't happen, but just for safety
        }
        SharedPreferences prefs = Globals.getContext().getSharedPreferences(USAGE_PREFS_NAME, 0); // 0 == private
        SharedPreferences.Editor editor = prefs.edit();
        editor.putLong(USAGE_PREFS_NAME, proxyUsage);
        editor.commit();
        //myLog.d("Persisted proxy usage to preferences");
    }

    long getPersistedProxyUsage() {
        // This gets the last persisted value for bytes transferred through
        // the proxy. It can be out of date since it doesn't include data
        // transferred during the current session.
        SharedPreferences prefs = Globals.getContext().getSharedPreferences(USAGE_PREFS_NAME, 0); // 0 == private
        return prefs.getLong(USAGE_PREFS_NAME, 0); // Default count of 0
    }

    public long getProxyUsage() {
        // This gets the running total of all proxy usage, which may not have
        // been persisted yet.
        return proxyUsage;
    }

    public void incrementProxyUsage(long num) {
        long oldProxyUsage = proxyUsage;
        proxyUsage += num;
        if (proxyUsage % UPDATE_USAGE_BYTES < oldProxyUsage % UPDATE_USAGE_BYTES) {
            FTPServerService.updateClients();
            persistProxyUsage();
        }
    }

    public State getProxyState() {
        return proxyState;
    }

    private void setProxyState(State state) {
        proxyState = state;
        //myLog.l(Log.DEBUG, "Proxy state changed to " + state, true);
        FTPServerService.updateClients(); // UI update
    }

    static public String stateToString(State s) {
        //      Context ctx = Globals.getContext();
        //      switch(s) {
        //      case DISCONNECTED:
        //         return ctx.getString(R.string.pst_disconnected);
        //      case CONNECTING:
        //         return ctx.getString(R.string.pst_connecting);
        //      case CONNECTED:
        //         return ctx.getString(R.string.pst_connected);
        //      case FAILED:
        //         return ctx.getString(R.string.pst_failed);
        //      case UNREACHABLE:
        //         return ctx.getString(R.string.pst_unreachable);
        //      default:
        //         return ctx.getString(R.string.unknown); 
        //      }
        return "";
    }

    /**
     * The URL to which users should point their FTP client.
     */
    public String getURL() {
        if (proxyState == State.CONNECTED) {
            String username = Globals.getUsername();
            if (username != null) {
                return "ftp://" + prefix + "_" + username + "@" + hostname;
            }
        }
        return "";
    }

    /** If the proxy sends a human-readable message, it can be retrieved by
     * calling this function. Returns null if no message has been received.
     */
    public String getProxyMessage() {
        return proxyMessage;
    }

}